CN216281659U - New energy-saving and efficiency-increasing heating system - Google Patents

Abstract

The utility model relates to a heating system, in particular to a new energy-saving and efficiency-increasing heating system. The heating furnace comprises a furnace body, a new energy heater, an independent heat collecting device, a warm air blower and water heating; the new energy heater and the independent heat collecting device are arranged in the furnace body, and the independent heat collecting device is positioned above the new energy heater; first upper hose one end links to each other with independent heat collection device, and the other end links to each other with the electric fan heater, and first wet return one end links to each other with the electric fan heater, and the other end links to each other with the furnace body, and second wet return one end links to each other with independent heat collection device, and the other end links to each other with first wet return, and the electric fan heater passes through the pipeline with the hot-water heating and connects in parallel. The utility model uses novel environment-friendly energy to replace coal burning, and has the advantages of safe use, energy conservation, cleanness, environmental protection, heat loss reduction, heat efficiency increase and low cost.

Description

New energy-saving and efficiency-increasing heating system

Technical Field

The utility model relates to a heating system, in particular to a new energy-saving and efficiency-increasing heating system.

Background

Under the influence of geographic environment, climate characteristics and living habits of people, most rural areas in the north of China continue the traditional heat supply mode from ancient times to present, and in the traditional heat supply mode, the most main devices are a heated brick bed coal stove and a heater, or the heated brick bed directly heats, or the coal stove carries the heater to heat and the heated brick bed to heat.

However, with the development of society, the construction of new rural areas and the progress and improvement of science and technology, the life production mode and the living standard of people also change greatly, and the traditional heat supply mode is not suitable for the requirement of the modern new rural area construction and development.

Firstly, coal is a non-renewable resource, and burning coal causes serious pollution to the environment and is easy to cause poisoning. Sulfur dioxide, suspended particles, inhalable particles and the like generated after coal combustion seriously affect the air quality, and the atmospheric pollution in China is mainly soot type pollution. Coal can produce a large amount of carbon monoxide when the air is insufficient under the condition, if door and window is closed tightly, ventilation is not good, can lead to carbon monoxide poisoning, all is the high period of coal gas poisoning incident in winter every year, in case meet dangerous condition such as carbon monoxide poisoning, old man and child are the most easily victimized crowd, will have many children or old man to lose life consequently every year.

Secondly, the traditional heating system has low energy conversion rate, long heating time of circulating water, high and low water temperature rise, low heating efficiency and serious energy consumption.

In addition, the continuous aging phenomenon in rural areas also causes the labor productivity to be continuously reduced. For the age group and the weak group with poor health condition, the collection, transportation and storage of fuel are more difficult and challenging.

The electric heater heating can let indoor rapid heating up, however, power consumption is very big, and the cost bottleneck problem still exists in the popularization on a large scale of electric heating technique.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides a new energy-saving synergistic heating system, which replaces coal burning with novel environment-friendly energy and has the advantages of safe use, energy saving, cleanness, environmental protection, heat loss reduction, heat efficiency increase and low cost.

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

a new energy-saving synergistic heating system comprises a furnace body, a new energy heater, an independent heat collecting device, a fan heater and a water heater; the new energy heater and the independent heat collecting device are arranged in the furnace body, and the independent heat collecting device is positioned above the new energy heater; first upper hose one end links to each other with independent heat collection device, and the other end links to each other with the electric fan heater, and first wet return one end links to each other with the electric fan heater, and the other end links to each other with the furnace body, and second wet return one end links to each other with independent heat collection device, and the other end links to each other with first wet return, and the electric fan heater passes through the pipeline with the hot-water heating and connects in parallel.

The independent heat collecting device comprises a flat plate and a heat collecting cylinder, the flat plate is hollow, the heat collecting cylinder is fixedly connected to the flat plate and communicated with the flat plate, the flat plate is communicated with the first water feeding pipe, and the heat collecting cylinder is communicated with the second water return pipe.

The heat collecting cylinder is cylindrical and hollow, and a through hole is formed in the side wall of the heat collecting cylinder.

Still include the iron ring, the iron ring rigid coupling is at the furnace body bottom surface, and new forms of energy heater is equipped with the fire clay coating with can dismantle the mode rigid coupling on the iron ring above the iron ring.

The secondary heat absorption device is arranged at the root of a chimney of the furnace body, a water return pipe of the secondary heat absorption device is communicated with a first water return pipe, a water feeding pipe of the secondary heat absorption device is communicated with a second water feeding pipe, and the second water feeding pipe is communicated with the furnace body.

The secondary heat absorption device comprises a cylindrical water jacket and a coil pipe, the coil pipe is arranged in the cylindrical water jacket and communicated with the cylindrical water jacket, one side of the cylindrical water jacket is provided with a water feeding pipe, and the other side of the cylindrical water jacket is provided with a water return pipe.

The water heating is a single group of heating radiators or a plurality of groups of heating radiators or ground heating.

A first valve is arranged on a pipeline for connecting the water heater with the warm air blower, and a second valve is arranged on a first water return pipe; closing the first valve, opening the second valve and only supplying heat by the fan heater; and opening the first valve, closing the second valve, and simultaneously supplying heat by the warm air blower and the water heating.

And a water pump is arranged on the first water return pipe.

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

1) the utility model uses novel environment-friendly energy sources (such as: white oil, liquid wax, vegetable oil fuel and the like) to replace coal burning, thereby saving energy, being clean and environment-friendly. On the premise of not changing the functions of the original coal stove (such as cooking, water heating and the like), an independent heat collecting device is added by utilizing the original coal burning space to supply hot water to a warm air blower, and finally, the waste heat water is returned to a heating system, so that the heat efficiency is increased by multiple times, and the heat efficiency is maximized, thereby saving new energy sources greatly.

2) The warm air blower is arranged, the biggest advantage of the warm air blower in comparison with the original warm air is that the heating speed is high, redundant hot water can return to a warm air or a geothermal pipeline, the efficiency is greatly improved, the warm air blower can be turned off when warm air is not needed, and the warm air blower can also be used as a group of warm air to better play a role in heat preservation.

3) The secondary heat absorption device is arranged and is in a coil water flowing mode, can be arranged at the root position of the chimney, has the characteristics of small volume, convenient installation and strong heat absorption capacity, can well and continuously absorb heat which is not absorbed and is discharged from the chimney, greatly reduces the temperature of waste gas discharged from the chimney after the secondary heat absorption device is added, and increases the heat efficiency of water heat absorption in the pipeline because the water in the secondary heat absorption device is also connected with the main pipeline after being heated.

Drawings

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

FIG. 2 is a schematic structural view of an independent heat collecting device according to the present invention;

FIG. 3 is a schematic view of a secondary heat sink of the present invention.

In the figure: 1-furnace body 2-new energy heater 3-independent heat collecting device 4-warm air blower 5-radiator 6-secondary heat collecting device 7-iron ring 8-first water feeding pipe 9-first water return pipe 10-second valve 11-first valve 12-water pump 13-second water return pipe 14-second water feeding pipe 31-flat plate 32-heat collecting barrel 61-cylindrical water jacket 62-coil pipe

Detailed Description

The following further describes embodiments of the present invention with reference to the accompanying drawings:

as shown in fig. 1 to 3, a new energy saving and efficiency increasing heating system comprises a furnace body 1, a new energy heater 2, an independent heat collecting device 3, a warm air blower 4, a radiator 5, a secondary heat absorbing device 6 and an iron ring 7.

The utility model improves a raw coal furnace, a furnace body 1 is formed by reforming the original coal furnace, a new energy heater 2 and an independent heat collecting device 3 are added in the space for reforming the coal ash in the hearth of the original coal furnace, namely, a coal ash discharging device at the bottom of the raw coal furnace is taken out, an iron ring 7 is fixedly connected to the bottom surface in the furnace body 1 for fixing the new energy heater 2, the new energy heater 2 is the existing product, a vegetable oil electric spray furnace end is adopted, and the new energy heater 2 is connected with the iron ring 7 through bolts, so that the maintenance and the replacement are convenient. The refractory mortar coating is arranged above the iron ring 7, so that the heat is prevented from being transferred to the lower part of the heater to cause heating of a circuit, the temperature in the hearth can be greatly increased, the heat loss is reduced, and the heat efficiency is increased.

The independent heat collecting device 3 is fixedly connected to the top of the furnace body 1 and is positioned right above the new energy heater 2. The upper part of the original coal-fired furnace is only sealed by a furnace cover, and most of heat in the hearth is exactly concentrated at the top of the hearth, so that serious heat loss is caused, the independent heat collecting device 3 exactly solves the problem, and the installation is very convenient. The independent heat collecting device comprises a flat plate 31 and a heat collecting cylinder 32, the heat collecting cylinder 32 is cylindrical, the interior of the heat collecting cylinder 32 is hollow, and a plurality of circular through holes are uniformly distributed on the side wall of the heat collecting cylinder 32. The flat plate 31 is hollow, the heat collecting cylinder 32 is fixedly connected to the bottom of the flat plate 31 and communicated with the inside, the flat plate 31 is communicated with the first water feeding pipe 8, and the heat collecting cylinder 32 is communicated with the second water returning pipe 13.

One end of the first upper water pipe 8 is communicated with the independent heat collecting device 3, and the other end of the first upper water pipe is connected with an inlet of the warm air blower 4. The outlet of the warm air blower 4 is connected with a first return pipe 9. A second valve 10 is arranged on the first return pipe 9 at the outlet of the warm air blower 4. A water pump 12 is arranged on the first water return pipe 9 at the inlet of the independent heat collecting device 3.

One end of the second water supply pipe 14 is connected with the furnace body 1, and the other end is connected with the radiator 5. The warm air blower 4 is an existing product, an FP-34 fan coil water air-conditioning radiator is adopted, the warm air blower 4 is connected with a radiator 5 in parallel through a pipeline, and a first valve 11 is arranged on the pipeline.

The independent heat collecting device 3 has the greatest advantages that the heat absorption is fast, the combustion heat value of new energy is 11000 kilocalories, and is much higher than that of coal and natural gas, the new energy heater 2 directly heats the independent heat collecting device 3, and the water temperature is raised at a speed which is several times of that of a raw coal furnace, so that hot water generated by the independent heat collecting device 3 is independently supplied to the fan heater 4 which is connected in parallel with a raw heating pipeline, the heat utilization rate of the raw coal furnace is greatly improved, the energy is saved, and the cost is reduced.

The secondary heat absorbing device 6 includes a cylindrical water jacket 61 and a coil 62, and the coil 62 is disposed inside the cylindrical water jacket 61 and communicates with the cylindrical water jacket 61. One side of the cylindrical water jacket 61 is provided with a water return pipe communicated with the first water return pipe 9, and the other side is provided with a water feeding pipe communicated with the second water feeding pipe 14. The secondary heat absorption device 6 is in a coil water flowing mode, can be installed at the root position of a chimney, has the characteristics of small volume, convenience in installation and strong heat absorption capacity, can well continuously absorb heat which is not absorbed and is discharged from the chimney, greatly reduces the temperature of waste gas discharged from the chimney after the secondary heat absorption device 6 is added, and increases the heat absorption efficiency of water in a pipeline after the water in the secondary heat absorption device 6 is heated.

The hot water generated by the independent heat collecting device 3 is directly supplied to the warm air blower 4, and the hot water can directly return to the independent heat collecting device 3 by closing the first valve 11 and opening the second valve 10, so that the small water path circulation of the warm air blower 4 can be realized, the purpose of high heating speed is achieved, and the purpose of rapid indoor temperature rise is achieved. When the temperature in the room reaches a certain temperature, the first valve 11 can be opened, and the second valve 10 can be closed, so that the air blowing is not influenced, and the waste heat water can be supplied to the heating system to increase the hot water circulation efficiency. The secondary heat absorption device 2 absorbs the waste heat of the flue gas and supplies the waste heat to the water heating system, if a heated brick bed is arranged, the secondary heat absorption device 2 is not needed, a chimney can be directly butted with the heated brick bed, and the effect is better.

The utility model uses novel environment-friendly energy to replace coal burning, and has the advantages of safe use, energy conservation, cleanness, environmental protection, heat loss reduction, heat efficiency increase and low cost. The utility model has strong practicability, and can obtain good economic benefit and social benefit if being popularized and applied.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (9)

1. A new energy-saving synergistic heating system is characterized in that: the heating furnace comprises a furnace body, a new energy heater, an independent heat collecting device, a warm air blower and water heating; the new energy heater and the independent heat collecting device are arranged in the furnace body, and the independent heat collecting device is positioned above the new energy heater; first upper hose one end links to each other with independent heat collection device, and the other end links to each other with the electric fan heater, and first wet return one end links to each other with the electric fan heater, and the other end links to each other with the furnace body, and second wet return one end links to each other with independent heat collection device, and the other end links to each other with first wet return, and the electric fan heater passes through the pipeline with the hot-water heating and connects in parallel.

2. The new energy-saving and efficiency-increasing heating system according to claim 1, characterized in that: the independent heat collecting device comprises a flat plate and a heat collecting cylinder, the flat plate is hollow, the heat collecting cylinder is fixedly connected to the flat plate and communicated with the flat plate, the flat plate is communicated with the first water feeding pipe, and the heat collecting cylinder is communicated with the second water return pipe.

3. The new energy-saving and efficiency-increasing heating system according to claim 2, characterized in that: the heat collecting cylinder is cylindrical and hollow, and a through hole is formed in the side wall of the heat collecting cylinder.

4. The new energy-saving and efficiency-increasing heating system according to claim 1, characterized in that: still include the iron ring, the iron ring rigid coupling is at the furnace body bottom surface, and new forms of energy heater is equipped with the fire clay coating with can dismantle the mode rigid coupling on the iron ring above the iron ring.

5. The new energy-saving and efficiency-increasing heating system according to claim 1, characterized in that: the secondary heat absorption device is arranged at the root of a chimney of the furnace body, a water return pipe of the secondary heat absorption device is communicated with a first water return pipe, a water feeding pipe of the secondary heat absorption device is communicated with a second water feeding pipe, and the second water feeding pipe is communicated with the furnace body.

6. The new energy-saving and efficiency-increasing heating system according to claim 5, characterized in that: the secondary heat absorption device comprises a cylindrical water jacket and a coil pipe, the coil pipe is arranged in the cylindrical water jacket and communicated with the cylindrical water jacket, one side of the cylindrical water jacket is provided with a water feeding pipe, and the other side of the cylindrical water jacket is provided with a water return pipe.

7. The new energy-saving and efficiency-increasing heating system according to claim 1, characterized in that: the water heating is a single group of heating radiators or a plurality of groups of heating radiators or ground heating.

8. The new energy-saving and efficiency-increasing heating system according to claim 1, characterized in that: a first valve is arranged on a pipeline for connecting the water heater with the warm air blower, and a second valve is arranged on a first water return pipe; closing the first valve, opening the second valve and only supplying heat by the fan heater; and opening the first valve, closing the second valve, and simultaneously supplying heat by the warm air blower and the water heating.

9. The new energy-saving and efficiency-increasing heating system according to claim 1, characterized in that: and a water pump is arranged on the first water return pipe.

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