CN212538887U - Novel energy-saving heat exchange device - Google Patents

Abstract

The utility model discloses a new energy-conserving heat exchange device, it includes the main casing body, main casing body upper portion is equipped with waste water inlet, be fixed with the bottom below the main casing body, the lower part of the main casing body is equipped with the waste water outlet, the main casing body still is equipped with hot water outlet and cold water inlet, upper portion in the main casing body still is equipped with the communicating filter equipment with waste water inlet, the filter equipment below is equipped with the kuppe, the main casing body still is equipped with the bellows, the bellows export communicates with each other with hot water outlet, the bellows entry communicates with each other with cold water inlet, still be equipped with. The utility model discloses because the bellows is soaked in the self-pressure formula heat exchange assembly completely by waste water to waste water and cold water form cold and hot convection current in the inside and outside of bellows, more are favorable to the heat exchange, but make full use of wash the waste water of hair, wash the waste water after the face and wash the heat of the waste water of dish and heat the preheating before cold water, can obviously reduce the energy consumption of rearmounted water heater.

Description

Novel energy-saving heat exchange device

[ technical field ] A method for producing a semiconductor device

The utility model relates to a new energy-conserving heat exchange device.

[ background of the invention ]

With the continuous improvement of our living standard, hair salons, barbershops, beauty shops, family kitchens and family bathrooms are increasing. The water heaters for the hair salon barber shop, the beauty shop, the household kitchen and the household bathroom in the market are generally installed with water heaters, the water heaters for the hair salon barber shop, the beauty shop, the household kitchen and the household bathroom in the market are generally in single-pipe inlet and outlet, and because the hot water for the hair salon barber shop, the beauty shop, the household kitchen and the household bathroom is more, if the water is boiled by the water heaters, the energy is wasted, and the cost for developing the hair salon barber shop and the beauty shop and the use cost of the household kitchen and the household bathroom are increased.

How to preheat cold water before heating by using the heat of the hair washing water, the face washing water and the vegetable washing water is a problem which needs to be solved urgently.

[ summary of the invention ]

The utility model discloses a prior art's weak point is overcome to aim at, provides the heat that can make full use of washed the water of hair, washed the water after the face and washed the water of dish and heats preheating before cold water, can obviously reduce the energy consumption of water heater, reduce cost, simple structure, it is convenient to maintain, energy-conserving power saving, long service life's new energy-efficient heat exchange device.

The utility model discloses a realize like this that:

the utility model provides a new energy-conserving heat exchange device, its characterized in that it includes the main casing body, main casing body upper portion is equipped with the waste water entry, be fixed with the bottom below the main casing body, the lower part of main casing body is equipped with the waste water export, the main casing body still is equipped with hot water export and cold water entry, upper portion in the main casing body still is equipped with the communicating filter equipment with the waste water entry, the filter equipment below is equipped with the kuppe, still be equipped with the bellows in the main casing body, the bellows export communicates with each other with the hot water export, the bellows entry communicates with each other with the cold water entry, still be equipped with self-pressure formula heat transfer subassembly in the main casing body, the bellows sets up in.

The new energy-saving heat exchange device is characterized in that the self-pressure type heat exchange assembly is provided with a cleaning and pollution discharging assembly.

The new energy-saving heat exchange device is characterized in that the self-pressure heat exchange component comprises a main shell, an inner bottom cover is arranged at the lower part in the main shell, an outer cylinder is arranged on the inner bottom cover, an inner cylinder is arranged in the outer cylinder, the inner cylinder is lower than the outer cylinder, and the inner bottom cover seals bottom openings of the inner cylinder and the outer cylinder.

The new energy-saving heat exchange device is characterized in that an outer ring channel is formed between the outer cylinder and the main shell, an inner ring channel is formed between the outer cylinder and the inner cylinder, and a central channel is arranged in the middle of the inner cylinder; the outer ring channel is communicated with the waste water inlet, the lower part of the outer ring channel is communicated with the inner ring channel, the upper part of the inner ring channel is communicated with the central channel, and the central channel is communicated with the waste water outlet.

The new energy-saving heat exchange device is characterized in that the corrugated pipe is arranged in the outer ring channel.

The new energy-saving heat exchange device is characterized in that the cleaning and blowdown assembly is arranged in the inner ring channel.

The novel energy-saving heat exchange device is characterized in that the cleaning and sewage draining assembly comprises a sewage draining outlet arranged between the inner ring channel and the inner bottom cover and a sealing plate for sealing the sewage draining outlet, and the sealing plate is connected with a pull rod.

The new energy-saving heat exchange device is characterized in that the hot water outlet is arranged at the upper part of the main shell, and the cold water inlet is arranged at the lower part of the shell.

The novel energy-saving heat exchange device is characterized in that the inner bottom cover is also provided with an anti-freezing and anti-icing water outlet.

The novel energy-saving heat exchange device is characterized in that an upper cover is arranged at an upper opening of the main shell, the filter device comprises a filter cartridge, a filter screen is arranged in the filter cartridge, a convex rib is arranged on the inner wall of the upper cover, a clamping groove matched with the convex rib is formed in the outer wall of the flow guide cover, an external thread is arranged on the outer wall of the upper cover, and an internal thread matched with the external thread is arranged at an upper opening of the main shell.

The utility model discloses because the bellows is soaked in the self-pressure formula heat exchange assembly completely by waste water to waste water and cold water form cold and hot convection current in the inside and outside of bellows, more are favorable to the heat exchange, but make full use of wash the waste water of hair, wash the waste water after the face and wash the heat of the waste water of dish and heat the preheating before cold water, can obviously reduce the energy consumption of rearmounted water heater. The utility model discloses still be equipped with the anti-freezing outlet that prevents frostbite in self-pressing formula heat exchange assemblies's bottom, when waste water stops flowing in, gather waste water in self-pressing formula heat exchange assemblies and just constantly discharge water through this anti-freezing outlet that prevents frostbite until completely doing to reach the effect of anti-freezing in winter. The utility model discloses still be equipped with the washing blowdown subassembly bottom the self-pressing formula heat exchange assemblies, can discharge the debris in the waste water effectively and carry out the blowdown when making things convenient for clean maintenance in the future. The utility model discloses reduced the energy consumption of water heater, simple structure, it is convenient to maintain, energy-conserving power saving, long service life.

[ description of the drawings ]

Fig. 1 is a perspective view of the present invention;

fig. 2 is a cross-sectional view of the present invention;

FIG. 3 is an exploded view of the structure of the present invention;

FIG. 4 is an exploded view of the local structure of the present invention;

fig. 5 is one of the perspective views of the self-pressure heat exchange assembly of the present invention;

fig. 6 is a second perspective view of the self-pressure heat exchange assembly of the present invention;

fig. 7 is a third perspective view of the self-pressure heat exchange assembly of the present invention;

fig. 8 is a perspective view of the self-pressure heat exchange assembly and the cleaning and sewage discharging assembly after being assembled.

[ detailed description ] embodiments

A new energy-saving heat exchange device comprises a main shell 1, a waste water inlet 2 is arranged on the upper portion of the main shell 1, a bottom cover 3 is fixed below the main shell, a waste water outlet 4 is arranged on the lower portion of the main shell 1, a hot water outlet 5 and a cold water inlet 8 are further arranged on the main shell 1, a filtering device 6 communicated with the waste water inlet 2 is further arranged on the upper portion in the main shell 1, a flow guide cover 7 is arranged below the filtering device 6, a hot water outlet 8 is further arranged on the lower portion of the main shell 1, a corrugated pipe 9 is further arranged in the main shell 1, a corrugated pipe outlet 10 of the corrugated pipe 9 is communicated with the hot water outlet 5, a corrugated pipe inlet 11 of the corrugated pipe 9 is communicated with the cold water inlet 8, a self-pressure heat exchange component 12 is further arranged in the main shell 1, the corrugated pipe 9 is arranged in the self-.

The utility model discloses a hot water outlet 5 sets up on the upper portion of the main casing body 1, and cold water inlet 8 sets up the lower part at casing 1. The waste water and the cold water form cold and hot convection inside and outside the corrugated pipe, heat exchange is facilitated, the heat of the waste water after hair washing, the waste water after face washing and the waste water after vegetable washing can be fully utilized to preheat the cold water before heating, and the energy consumption of the rear water heater can be obviously reduced.

The utility model discloses a self-pressure formula heat exchange assemblies 12 is equipped with washs blowdown subassembly 13. The cleaning and discharging assembly 13 includes a discharging opening 20 provided between the inner ring passage 18 and the inner bottom cover 14 and a sealing plate 21 closing the discharging opening 20, and a pulling rod 22 is connected to the sealing plate 21.

The self-pressure heat exchange component 12 comprises an inner bottom cover 14 arranged at the lower part in the main shell 1, an outer cylinder 15 arranged on the inner bottom cover 14, an inner cylinder 16 arranged in the outer cylinder 15, wherein the inner cylinder 16 is lower than the outer cylinder 15, and the inner bottom cover 14 seals the bottom openings of the inner cylinder 16 and the outer cylinder 15. An outer ring channel 17 formed between the outer cylinder 15 and the main casing 1, an inner ring channel 18 formed between the outer cylinder 15 and the inner cylinder 16, a central channel 19 arranged in the middle of the inner cylinder 16, an inner bottom cover 14 sealing the lower opening of the main casing 1, a surrounding edge 141 arranged on the outer edge of the inner bottom cover 14, wherein the surrounding edge 141 is used for being bonded with the inner wall of the main casing 1, a notch 142 is arranged on the surrounding edge 141, and the notch 142 is used for avoiding the corrugated pipe 9 during installation; the outer ring channel 17 is communicated with the waste water inlet 2, the lower part of the outer ring channel 17 is communicated with the inner ring channel 18, the upper part of the inner ring channel 18 is communicated with the central channel 19, and the central channel 19 is communicated with the waste water outlet 4. After the wastewater passes through the filtering device and the air guide sleeve 7, the wastewater flows into the whole surface of the corrugated pipe 9 and flows into the inner ring channel 18 from the outer ring channel 17, along with the continuous increase of the inflow wastewater, the water level in the inner ring channel 18 of the self-pressure heat exchange assembly continuously rises, and because the water level of the outer ring channel 17 is higher than that of the inner ring channel 18, a water pressure difference is formed. When the water level exceeds the top of the inner ring channel 18, the waste water flows into the central channel 19 and is discharged from the waste water outlet 4.

The bellows 9 of the present invention is disposed in the outer ring passage 17. The wash sewage assembly 13 is disposed at the bottom of the inner ring channel 18.

The utility model discloses an still be equipped with anti-freezing anti-icing outlet 23 on inner bottom cover 14, flow into the exhaust in-process at waste water, anti-freezing anti-icing outlet 23 is also in continuous slow drainage, when waste water stops to flow in, gathers just through this anti-freezing anti-icing outlet 23 continuous drainage in the waste water of self-pressing formula heat exchange assemblies inside and outside intermediate layer water course to reach the effect of anti-freezing in winter.

The utility model discloses a drain 20 is a pair of arc wall, and when closing plate 21 and interior bottom 14 laminating, can seal this pair of arc wall.

The utility model discloses a frostproofing anti-icing outlet 23 communicates with each other with drain 20, and frostproofing anti-icing outlet 23 is a little hole, is a normally open hole.

The utility model discloses a main casing body 1 upper portion opening is equipped with upper cover 24, and filter equipment 6 includes cartridge filter 25, is equipped with filter screen 26 in the cartridge filter 25, and debris can be filtered to filter screen 26, and the 24 inner walls of upper cover are equipped with protruding muscle 27, and 7 outer walls of kuppe are equipped with and protruding muscle 27 complex draw-in groove 28, and 24 outer walls of upper cover are equipped with external screw thread 29, and main casing body 1 upper portion opening is equipped with external screw thread 29 complex internal thread 30. The utility model discloses can also be to set cartridge filter 25 and kuppe 7 to an organic whole structure to be equipped with cartridge filter pull rod 251 on cartridge filter 25, pulling cartridge filter pull rod 251 can drive cartridge filter 25 and kuppe 7 and take off from the upper cover together, convenient cleanness.

The utility model discloses a theory of operation is: the waste water after washing hair, the waste water after washing face and the waste water after washing vegetables generally have a part of heat, the waste water flows into the upper surface of the filtering device 6 through the waste water inlet 2, impurities are filtered by the filtering device 6 and then flow onto the surface of the air guide sleeve 7, the waste water is guided to the outer edge of the air guide sleeve 7 by the air guide sleeve 7 and then flows downwards onto the whole surface of the corrugated pipe 9 in the outer ring channel 17 of the self-pressure heat exchange component 12, then flows into the inner ring channel 18 from the outer ring channel 17, the water level in the inner ring channel 18 continuously rises along with the continuous increase of the inflow waste water, and the water pressure difference is formed because the water level of the outer ring channel 17 is higher than that of the inner ring channel 18. When the water level exceeds the top of the inner ring channel 18, the waste water flows into the central channel 19 and is discharged from the waste water outlet 4, and the corrugated pipe 9 in the outer ring channel 17 of the self-pressure heat exchange assembly 12 is completely soaked by the waste water in the outer ring channel 17. Meanwhile, cold water enters from the cold water inlet 8 and then enters the corrugated pipe 9 to exchange heat with the waste water on the surface of the corrugated pipe, the cold water is preheated, and then the cold water flows out from the hot water outlet 5. The corrugated pipe 9 is completely soaked by the waste water, and the waste water and the cold water form cold and hot convection inside and outside the corrugated pipe, so that heat exchange is facilitated, the heat of the waste water after hair washing, the waste water after face washing and the waste water after vegetable washing can be fully utilized to preheat the cold water before heating, and the energy consumption of the rear water heater can be obviously reduced. And the self-pressure heat exchange component is provided with an anti-freezing and anti-icing water outlet 23, the anti-freezing and anti-icing water outlet is used for continuously and slowly draining water in the process of flowing in and draining the wastewater, and when the wastewater stops flowing in, the wastewater accumulated in the self-pressure heat exchange component is continuously drained through the anti-freezing and anti-icing water outlet 23 until the wastewater is completely drained, so that the anti-freezing effect in winter is achieved. In addition, the cleaning and sewage discharging assembly 13 is arranged at the bottom of the self-pressure heat exchange assembly, and when the sealing plate 21 of the cleaning and sewage discharging assembly 13 is completely put down, the sealing plate 21 can seal the sewage outlet 20 to play a role in water plugging. When the sealing plate 21 can be pulled out by pulling the pull rod, the sewage discharge port 20 is opened, so that sundries in the wastewater can be effectively discharged, and the sewage discharge is convenient for cleaning, maintenance and maintenance in the future.

Claims (10)

1. A new energy-saving heat exchange device is characterized by comprising a main shell (1), wherein a wastewater inlet (2) is formed in the upper portion of the main shell (1), a bottom cover (3) is fixed below the main shell, a wastewater outlet (4) is formed in the lower portion of the main shell (1), a hot water outlet (5) and a cold water inlet (8) are further formed in the main shell (1), a filtering device (6) communicated with the wastewater inlet (2) is further arranged on the upper portion in the main shell (1), a flow guide cover (7) is arranged below the filtering device (6), a corrugated pipe (9) is further arranged in the main shell (1), the corrugated pipe outlet (10) is communicated with the hot water outlet (5), a corrugated pipe inlet (11) is communicated with the cold water inlet (8), a self-pressure heat exchange component (12) is further arranged in the main shell (1), the corrugated pipe (9) is arranged in the self-pressure heat exchange component (12), and wastewater enters the self-pressure heat exchange component (2) (a 12) And carrying out heat exchange.

2. A new energy saving heat exchange device according to claim 1, characterized in that the self-pressure heat exchange module (12) is provided with a cleaning blowdown module (13).

3. A new energy-saving heat exchange device according to claim 1 or 2, characterized in that the self-pressure heat exchange assembly (12) comprises a main housing (1) and an inner bottom cover (14) is arranged at the lower part in the main housing, an outer cylinder (15) is arranged on the inner bottom cover (14), an inner cylinder (16) is arranged in the outer cylinder (15), the inner cylinder (16) is lower than the outer cylinder (15), and the inner bottom cover (14) closes the bottom openings of the inner cylinder (16) and the outer cylinder (15).

4. A new energy saving heat exchange device according to claim 3, characterized in that the outer ring channel (17) formed between the outer cylinder (15) and the main shell (1), the inner ring channel (18) formed between the outer cylinder (15) and the inner cylinder (16), the central channel (19) provided in the middle of the inner cylinder (16); the outer ring channel (17) is communicated with the waste water inlet (2), the lower part of the outer ring channel (17) is communicated with the inner ring channel (18), the upper part of the inner ring channel (18) is communicated with the central channel (19), and the central channel (19) is communicated with the waste water outlet (4).

5. A new energy saving heat exchange device according to claim 1, characterised in that the corrugated tube (9) is arranged in the outer ring channel (17).

6. A new energy efficient heat exchange apparatus according to claim 2, characterised in that the purge drain assembly (13) is disposed within the inner annulus (18).

7. A new energy saving heat exchange apparatus according to claim 2, wherein the cleaning sewage assembly (13) comprises a sewage draining exit (20) provided between the inner ring passage (18) and the inner bottom cover (14) and a sealing plate (21) closing the sewage draining exit (20), the sealing plate (21) being connected with a pulling rod (22).

8. A new energy saving heat exchange device according to claim 1, characterized in that the hot water outlet (5) is arranged at the upper part of the main housing (1) and the cold water inlet (8) is arranged at the lower part of the housing (1).

9. A new energy saving heat exchange device according to claim 3, wherein the inner bottom cover (14) is further provided with an anti-freezing and anti-icing water outlet (23).

10. The new energy-saving heat exchange device according to claim 1, wherein the upper opening of the main housing (1) is provided with an upper cover (24), the filter device (6) comprises a filter cartridge (25), a filter screen (26) is arranged in the filter cartridge (25), the inner wall of the upper cover (24) is provided with a convex rib (27), the outer wall of the air guide sleeve (7) is provided with a clamping groove (28) matched with the convex rib (27), the outer wall of the upper cover (24) is provided with an external thread (29), and the upper opening of the main housing (1) is provided with an internal thread (30) matched with the external thread (29).

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