CN211823153U - Heat exchange unit of condensation hot water module furnace - Google Patents

Abstract

The utility model provides a condensation hot water module stove heat exchanger unit, irritate including condensation module stove, hot water, the condensation module stove is equipped with preheating zone, inlet tube, outlet pipe and the district of heating up water, the inlet tube passes preheating zone and the district of heating up water and outlet pipe intercommunication, is equipped with the wet return between preheating zone and the district of heating up water, the outlet pipe irritates the intercommunication with hot water, hot water irritate with water pipe and wet return intercommunication, hot water irritate with the water pipe between be equipped with the second solenoid valve, hot water irritate with the wet return between be equipped with the third solenoid valve, adopt the mode of circulation heat transfer to heat, heating efficiency is higher like this, makes the temperature of water reach and predetermines the temperature, keeps high-efficient in order to make the inside temperature in district of heating up water, comes in and out the district of heating up water through the hair-dryer with the temperature of exhaust port.

Description

Heat exchange unit of condensation hot water module furnace

Technical Field

The utility model belongs to the technical field of the heat transfer of condensation hot water module stove and specifically relates to a condensation hot water module stove heat exchanger group is related to.

Background

The condensing module furnace can efficiently produce hot water, is very popular with consumers, and particularly has higher efficient heating performance than other electric water heater equipment in places with a plurality of users.

It is known that the condensing module furnace mainly uses burning petroleum gas or natural gas as a heat source, and meanwhile, the flue gas generated by burning is discharged from the air outlet of the furnace body, and the flue gas is commonly called "waste gas", however, the waste gas contains water vapor and abundant heat, which is also the reason of the high temperature of many exhaust ports. At present, most of condensation module furnace bodies directly discharge waste gas into the atmosphere instead of fully utilizing the heat, so that the waste is wasted. And when using hot water, in order to use hot water at any time conveniently, generally adopt hot water to irritate and preserve heat with hot water, but can not last to keep warm after the storage, can't use hot water at any time, if continuously boil water, the energy consumption loss is great like this, it is comparatively inconvenient to use, has generally adopted heat exchanger group to last the heat transfer, though can reach better energy-conserving effect a bit, but general heat exchanger group is comparatively complicated, the piping erection difficulty.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a condensation hot water module stove heat exchanger unit solves the extravagant heat of condensation module stove waste gas heat extraction and lasts the unable energy consumption loss of boiling water great, uses comparatively inconvenient problem.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: the utility model provides a condensation hot water module stove heat exchanger unit, includes that condensation module stove, hot water irritate, and the condensation module stove is equipped with preheating zone, inlet tube, outlet pipe and the district of heating up water, the inlet tube passes preheating zone and the district of heating up water and outlet pipe intercommunication, is equipped with the wet return between preheating zone and the district of heating up water, the outlet pipe irritates the intercommunication with hot water, and hot water irritates and uses water pipe and wet return intercommunication, and hot water irritates and is equipped with the second solenoid valve with using between the water pipe, hot water irritate and be equipped with the third solenoid valve with the wet return between.

In the preferred scheme, a second water pump is arranged between the hot water tank and the water using pipe and the water return pipe, and a first temperature sensor is arranged inside the hot water tank.

In a preferable scheme, a second temperature sensor is arranged between the second electromagnetic valve and the second water pump.

In a preferable scheme, one side of the third electromagnetic valve is provided with a filter, and one side of the filter is provided with a silver ion generator.

In the preferred scheme, still be equipped with the storage water tank, the storage water tank is through first water pump and condensation module stove intercommunication, first water pump with the water pipe intercommunication, first water pump with be equipped with first solenoid valve between the water pipe.

In a preferable scheme, a fourth electromagnetic valve is arranged at the end part of the water inlet pipe.

In a preferable scheme, the preheating zone in the condensation module furnace comprises a first preheating zone and a second preheating zone, and a partition plate is arranged between the first preheating zone and the second preheating zone.

In the preferred scheme, the water boiling zone is communicated with the second preheating zone through an exhaust fan, and a water outlet is formed in the bottom of the second preheating zone.

In a preferable scheme, one end of an air outlet of the blower is communicated with the water boiling area.

In the preferred scheme, the air inlet of the blower is communicated with a hot air pipe, a sleeve is arranged at the smoke outlet of the condensation module furnace, and the sleeve is communicated with the hot air pipe.

The utility model provides a condensation hot water module stove heat exchanger unit, the mode that adopts the circulation heat transfer heats, second temperature sensor wherein and first temperature sensor temperature can not reach the system and predetermine the temperature, the second solenoid valve is closed, the third solenoid valve is opened, irritate hot water the water district that burns in inside water carries condensation module stove through the second water pump, need not continue to preheat, the direct heating, heating efficiency is higher like this, make the temperature of water reach and predetermine the temperature, it keeps high-efficient to make the inside temperature in district that burns, the temperature with the exhaust port is come in and go out the district that burns through the hair-dryer, the oxygen of burning usefulness has both been improved to the temperature, therefore, the carrier wave prepaid electric energy meter is low in cost, high efficiency, and wide application.

Drawings

The invention will be further explained with reference to the following figures and examples:

FIG. 1 is a general block diagram of the present invention;

FIG. 2 is a structural diagram of the condensing module furnace of the present invention;

in the figure: a water storage tank 1; a first water pump 2; a hot air pipe 3; a water inlet pipe 4; a condensation module furnace 5; an air inlet pipe 501; a sleeve 502; a smoke outlet 503; a first preheat zone 504; a second preheating zone 505; a separator 506; a flame spray head 507; a water boiling zone 508; a blower 509; a drain port 510; an igniter 511; an exhaust fan 6; a first electromagnetic valve 7; a water outlet pipe 8; 9, filling hot water; a first temperature sensor 10; a second electromagnetic valve 11; a second temperature sensor 12; a second water pump 13; a water pipe 14; a third electromagnetic valve 15; a filter 16; a silver ion generator 17; a fourth electromagnetic valve 18; a return pipe 19.

Detailed Description

As shown in fig. 1-2, a heat exchanger unit of a condensation hot water module furnace comprises a condensation module furnace 5 and a hot water tank 9, wherein the condensation module furnace 5 is provided with a preheating zone, a water inlet pipe 4, a water outlet pipe 8 and a water boiling zone 508, the water inlet pipe 4 penetrates through the preheating zone and the water boiling zone 508 to be communicated with the water outlet pipe 8, a water return pipe 19 is arranged between the preheating zone and the water boiling zone 508, the water outlet pipe 8 is communicated with the hot water tank 9, the hot water tank 9 is communicated with a water supply pipe 14 and a water return pipe 19, a second electromagnetic valve 11 is arranged between the hot water tank 9 and the water supply pipe 14, and a third electromagnetic valve 15 is arranged between the hot water tank 9 and. From this structure, adopt the mode of circulation heat transfer to heat, second temperature sensor 12 and first temperature sensor 10 temperature wherein can not reach the system and predetermine the temperature, and second solenoid valve 11 closes, and third solenoid valve 15 opens, irritates the water of 9 insides with hot water and carries the district 508 of heating up water in the condensation module stove 5 through second water pump 13, need not continue to preheat, and direct heating is higher like this heating efficiency, makes the temperature of water reach and predetermine the temperature.

In a preferable scheme, a second water pump 13 is arranged between the hot water tank 9 and the water using pipe 14 and the water return pipe 19, and a first temperature sensor 10 is arranged inside the hot water tank 9. With this structure, the second water pump 13 is used to supply water to the water using pipe 14 and the water boiling region 508.

Preferably, a second temperature sensor 12 is arranged between the second electromagnetic valve 11 and the second water pump 13. With this structure, the second temperature sensor 12 is used to detect the temperature of the hot water between the water pipe 14 and the hot water tank 9.

Preferably, a filter 16 is disposed on one side of the third electromagnetic valve 15, and a silver ion generator 17 is disposed on one side of the filter 16. With the structure, the filter 16 has a filtering function, and the silver ion generator 17 has a sterilizing and disinfecting treatment, so that the backwater is sanitary and clean.

In the preferred scheme, still be equipped with storage water tank 1, storage water tank 1 communicates with condensation module stove 5 through first water pump 2, and first water pump 2 communicates with water pipe 14, is equipped with first solenoid valve 7 between first water pump 2 and the water pipe 14. With the structure, cold water in the water storage tank 1 can be conveniently used by the water pipe 14, and the first electromagnetic valve 7 is used for controlling on-off.

In a preferable scheme, a fourth electromagnetic valve 18 is arranged at the end part of the water inlet pipe 4. With this structure, the fourth solenoid valve 18 is used to control the inflow of the water from the water inlet pipe 4.

In a preferable scheme, the preheating zone in the condensation module furnace 5 comprises a first preheating zone 504 and a second preheating zone 505, and a partition 506 is arranged between the first preheating zone 504 and the second preheating zone 505. With this configuration, the partition 506 functions to separate the first preheating zone 504 from the second preheating zone 505, and the second preheating zone 505 has a higher temperature and a better preheating effect, and the first preheating zone 504 is slightly hotter.

In a preferable scheme, the water boiling zone 508 is communicated with a second preheating zone 505 through an exhaust fan 6, and a water discharge port 510 is arranged at the bottom of the second preheating zone 505. With this structure, the exhaust fan 6 conveys the hot flue gas inside the water boiling zone 508 to the second preheating zone 505 for heating.

In a preferable scheme, a blower 509 is arranged on one side of the water boiling area 508, and one end of an air outlet of the blower 509 is communicated with the water boiling area 508. With this configuration, the blower 509 serves to supply sufficient oxygen to the interior of the water-boiling region 508 for combustion.

In a preferable scheme, an air inlet of the blower 509 is communicated with the hot air pipe 3, a sleeve 502 is arranged at an exhaust port 503 of the condensation module furnace 5, and the sleeve 502 is communicated with the hot air pipe 3. With this structure, the temperature of the outer wall of the exhaust port 503 is blown into the water boiling region 508 through the sleeve 502 and the hot air duct 3, and the heat is fully utilized.

In the use, storage water tank 1 is carried cold water through first water pump 2 and is heated 5 insides of condensation module stove, it irritates 9 to carry hot water after the heating, 9 insides are irritated to hot water and are preserved, but 9 inside temperatures are irritated to hot water and are fit for the system and predetermine the temperature, second solenoid valve 11 is opened, can use hot water with water pipe 14, wherein second temperature sensor 12 detects the hot water on the water pipe 14, detect the temperature and do not reach the system and predetermine the temperature when second temperature sensor 12 and first temperature sensor 10, open third solenoid valve 15, carry a water and heat district 508 and heat, make hot water irritate 9 inside water and keep the system all the time and predetermine the temperature.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and should not be considered as limitations of the present invention, and the protection scope of the present invention should be defined by the technical solutions described in the claims, and includes equivalent alternatives of technical features in the technical solutions described in the claims. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.

Claims (10)

1. The utility model provides a condensation hot water module stove heat exchanger unit which characterized by: irritate (9) including condensation module stove (5), hot water, condensation module stove (5) are equipped with preheating zone, inlet tube (4), outlet pipe (8) and heat up water district (508), inlet tube (4) pass preheating zone and heat up water district (508) and outlet pipe (8) intercommunication, are equipped with wet return (19) between preheating zone and the district of heating up water (508), outlet pipe (8) irritate (9) intercommunication with hot water, and hot water irritates (9) and communicates with water pipe (14) and wet return (19), and hot water irritates (9) and is equipped with second solenoid valve (11) with between water pipe (14), hot water irritate (9) and is equipped with third solenoid valve (15) between wet return (19).

2. The heat exchanger unit of the condensing hot water module furnace as claimed in claim 1, wherein: a second water pump (13) is arranged between the hot water tank (9) and the water using pipe (14) and the water return pipe (19), and a first temperature sensor (10) is arranged inside the hot water tank (9).

3. The heat exchanger unit of the condensing hot water module furnace as claimed in claim 2, wherein: and a second temperature sensor (12) is arranged between the second electromagnetic valve (11) and the second water pump (13).

4. The heat exchanger unit of the condensing hot water module furnace as claimed in claim 1, wherein: and a filter (16) is arranged on one side of the third electromagnetic valve (15), and a silver ion generator (17) is arranged on one side of the filter (16).

5. The heat exchanger unit of the condensing hot water module furnace as claimed in claim 1, wherein: still be equipped with storage water tank (1), storage water tank (1) is through first water pump (2) and condensation module stove (5) intercommunication, first water pump (2) with water pipe (14) intercommunication, first water pump (2) with be equipped with between water pipe (14) first solenoid valve (7).

6. The heat exchanger unit of the condensing hot water module furnace as claimed in claim 1, wherein: the end part of the water inlet pipe (4) is provided with a fourth electromagnetic valve (18).

7. The heat exchanger unit of the condensing hot water module furnace as claimed in claim 1, wherein: the preheating zone in the condensation module furnace (5) comprises a first preheating zone (504) and a second preheating zone (505), and a partition plate (506) is arranged between the first preheating zone (504) and the second preheating zone (505).

8. The heat exchanger unit of the condensing hot water module furnace as claimed in claim 7, wherein: the water boiling zone (508) is communicated with a second preheating zone (505) through an exhaust fan (6), and a water outlet (510) is formed in the bottom of the second preheating zone (505).

9. The heat exchanger unit of the condensing hot water module furnace as claimed in claim 8, wherein: and a blower (509) is arranged on one side of the water boiling area (508), and one end of an air outlet of the blower (509) is communicated with the water boiling area (508).

10. The heat exchanger unit of the condensing hot water module furnace as claimed in claim 9, wherein: the air inlet of the blower (509) is communicated with the hot air pipe (3), a sleeve (502) is arranged at the smoke outlet (503) of the condensation module furnace (5), and the sleeve (502) is communicated with the hot air pipe (3).

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