CN202133038U - Novel efficient and energy-saving temperature control device - Google Patents

Abstract

The utility model relates to a novel efficient and energy-saving temperature control device which comprises a hearth, a control system, a fan controller, an air flue and a peripheral pipeline, wherein a heat-insulating layer is arranged on the inner wall of the hearth; the peripheral pipeline is located outside the hearth; a honeycomb heat exchanger is arranged above the hearth; an upper heat transfer protective device is arranged above the honeycomb heat exchanger; a lower heat transfer protective device is arranged below the honeycomb heat exchanger; a heat exchange pipeline is arranged above the upper heat transfer protective device; a furnace mouth is arranged above the heat exchange pipeline; a coaling opening and an air inlet are arranged at the outer side of the hearth; the coaling opening is arranged below the control system; the air inlet is arranged below the coaling opening; the fan controller is arranged outside the air inlet; the upper heat transfer protective device is communicated with the honeycomb heat exchanger; and the lower heat transfer protective device is communicated with the heat exchange pipeline.

Description

A kind of novel high-efficiency and energy-saving attemperating unit

Technical field

The utility model belongs to the heating equipment technical field, is specifically related to a kind of novel high-efficiency and energy-saving attemperating unit.

Background technology

At present, international energy relation between supply and demand day is becoming tight, and energy resource consumption is excessive, and the height of being badly in need of development safety, energy-saving and environmental protection in micropolis or vast rural area heats heating equipment.At present, the heating equipment of micropolis or rural area small-sized coal furnace, the version of these coal furnaces and the heating efficiency extreme differences of adopting more; Waste energy; Energy utilization rate is low, also has bigger potential safety hazard sometimes and can only supply a house heating, is unfavorable for urban residents' safety in production.People attempt to study a kind of novel heating method or new equipment always, and it is low to make it energy consumption, and safety coefficient is high; Energy savings to greatest extent; But do not address this problem effectively all the time, the many technology with flue simple in structure and water bag of heating stove in the market produce, and shortcoming is a large amount of coal of consumption and pitch and can not utilize heat energy fully; Its use cost is higher, has not only wasted a large amount of energy and heating efficiency but also low.

Summary of the invention

The utility model has overcome the deficiency of prior art; Proposed a kind of novel, efficient energy-conservation again attemperating unit, this device thermal efficiency is high, and unique complicated structure has been strengthened making full use of heat energy in the device; Make effective stove fire give play to magical omnipotence; Be not merely country and saved the energy, and it is express to conduct heat, and has thoroughly broken and has set up the not hot again shortcoming of heating installation in the family.Said device usage range is wide, like multiple functions such as warming oneself, heat up water, cook, has made things convenient for people's life, and structure is unique, energy consumption is low, safety coefficient is high, energy-conserving and environment-protective, and heating efficiency is high, brings benefits to the people, is human energy-conservation.

The technical scheme of the utility model is: a kind of novel high-efficiency and energy-saving attemperating unit, comprise burner hearth, control system, controller of fan, flue and peripheral piping, and the inwall of said burner hearth is provided with heat-insulation layer; Said peripheral piping is positioned at the outside of burner hearth, above burner hearth, is provided with the honeycomb heat exchanger, above the honeycomb heat exchanger, is provided with and uploads temperature barrier; Below the honeycomb heat exchanger, be provided with down heat transfer protector, upload temperature barrier above be provided with the heat exchange piping, the top of said heat exchange piping is a fire door; Be provided with fire door water bag in the side of fire door; Said control system is arranged on fire door water and wraps, and below flue, is provided with the flue piping, is provided with piping in the flue in the inboard of flue piping; The arranged outside of burner hearth has coal filling hole and air inlet; Coal filling hole is below the control system, and air inlet is positioned at the below of coal filling hole, in the air inlet outer setting controller of fan is arranged; The said temperature barrier of uploading communicates with the honeycomb heat exchanger, and the said temperature barrier of uploading communicates with the heat exchange piping.

Said heat transfer protector down communicates with the honeycomb heat exchanger.

Said controller of fan links to each other with the control system through holding wire.

Said control system comprises sensor-based system and system for detecting temperature, in sensor-based system, is provided with pressure sensor, in system for detecting temperature, is provided with temperature sensor.

The piping set inside has branch pipe tee connection in flue.

Said peripheral piping is cylindricality, and its outer wall is square, and inwall is a round structure.

Around fire door water bag, be provided with and emit fire hole.

Said honeycomb heat exchanger is a cylindrical structural, and portion is provided with crisscross piping within it, is provided with favose fire hole in the intersection of piping.

Said piping communicates with said honeycomb heat exchanger, and said fire hole communicates with said burner hearth.

Arranged outside at burner hearth has cleaning door.

Fasten at flue tube and to be provided with air bleeding valve.

The utlity model has following beneficial effect:

1) the utility model adopts the honeycomb heat exchanger structure, in said structure, is provided with crisscross piping, is provided with favose fire hole in the staggered place of piping, and the heat of fire hole can pass to piping as early as possible, makes attemperating unit to heat rapidly, and heat transfer efficiency is high.

2) the utility model heating effect is obvious, system effectiveness is high, energy consumption is little.

3) the utility model is practical, can effectively improve system effectiveness; Have advantages such as compact conformation, volume be little.

Description of drawings

Further specify the utility model below in conjunction with the accompanying drawing and the specific embodiment.

Fig. 1 is the cross-sectional view of the utility model.

Fig. 2 is the honeycomb heat exchanger structure sketch map of the utility model.

Among the figure, 1, flue; 2, piping in the flue; 3, flue piping; 4, heat exchange piping; 5, fire door; 6, fire door water bag; 7, honeycomb heat exchanger; 8, peripheral piping; 9, cleaning door; 10, heat-insulation layer; 11, coal filling hole; 12, air inlet; 13, burner hearth; 14, piping; 15, fire hole; 16, iron structural slab; 17, branch pipe tee connection; 18, pressure sensor; 19, control system; 20, upload temperature barrier; 21, following heat transfer protector; 22, controller of fan; 23, temperature sensor, 24, air bleeding valve.

The specific embodiment

Further specify below in conjunction with accompanying drawing, and the related scope of unrestricted the utility model.

Referring to illustrated in figures 1 and 2; The utility model comprises burner hearth 13, control system 19, controller of fan 22, flue 1 and peripheral piping 8, and the inwall of said burner hearth 13 is provided with heat-insulation layer 10, and heat-insulation layer 10 plays insulation and heat insulation; Said peripheral piping 8 is positioned at the outside of burner hearth 13; Be cylindricality, its outer wall is square, and inwall is a round structure.Above burner hearth 13, be provided with honeycomb heat exchanger 7; Above honeycomb heat exchanger 7, be provided with and upload temperature barrier 20, below honeycomb heat exchanger 7, be provided with down heat transfer protector 21, upload temperature barrier 20 above be provided with heat exchange piping 4; The top of said heat exchange piping 4 is a fire door 5; Be provided with fire door water bag 6 in the side of fire door 5, said control system 19 is arranged on the fire door water bag 6, below flue 1, is provided with flue piping 3; Flue piping 3 is provided with air bleeding valve 24, is provided with piping 2 in the flue in the inboard of flue piping 3.Arranged outside at burner hearth 13 has coal filling hole 11 and air inlet 12, and coal filling hole 11 can add coal or other fuel.Air inlet 12 can be controlled intake.Coal filling hole 11 is below control system 19; Air inlet 12 is positioned at the below of coal filling hole 11; In air inlet 12 outer setting controller of fan 22 is arranged; The start and stop or the running of controller of fan 22 control blower fans, the said temperature barrier 20 of uploading communicates with honeycomb heat exchanger 7, and the said temperature barrier 20 of uploading communicates with heat exchange piping 4.Said heat transfer protector 21 down communicates with honeycomb heat exchanger 7.Said controller of fan 22 links to each other with control system 19 through holding wire.

Said control system 19 comprises sensor-based system and system for detecting temperature, in sensor-based system, is provided with pressure sensor 18, in system for detecting temperature, is provided with temperature sensor 23.Piping 2 set inside have branch pipe tee connection 17 in flue.Branch pipe tee connection 17 is the ring seal structure, itself and interior 2 airtight connections of piping of flue.Uploading temperature barrier 20 has logical fire hole and pipe branch device with following heat transfer protector 21 set inside, and the pipe branch device communicates with other pipelines are airtight.If control system 19 is when detecting pressure and overflow through pressure sensor 18, and 19 controls of control system are arranged on air bleeding valve 24 exhausts in the pipeline, guarantee device security.When crossing through temperature sensor 23 detecting temperatures when low or too high, the control system will control controller of fan and make the fast commentaries on classics of blower fan or slow-speed even shutdown.

As shown in Figure 2, said honeycomb heat exchanger 7 is a cylindrical structural, and portion is provided with crisscross piping 14 within it, is provided with favose fire hole 15 in the intersection of piping 14.Said piping 14 communicates with said honeycomb heat exchanger 7, and said fire hole 15 communicates with said burner hearth 13.Above honeycomb heat exchanger 7, be provided with fire door 5; Fire door 5 can be cooked and heat up water, and is provided with fire door water bag 6 in the side of fire door 5, below flue 1, is provided with flue piping 3; Be provided with piping 2 in the flue in the inboard of flue piping 3, be provided with heat exchange piping 4 in the bottom of flue piping 3.Around fire door water bag 6, be provided with and emit fire hole.Heat exchange piping 4 similar radiators; Can increase according to different areas or delete; More than be interconnected through connecting pipe between each water bag; The top of flue piping 3 is provided with a feed pipe, and the top is provided with a chimney joint, when stove fire burning and cigarette and fire from flue through passing through each water bag heating service.

The utility model is rational in infrastructure, and is easy to operate, practical, can effectively improve system effectiveness; Have advantages such as compact conformation, volume be little.Compare with the stove of selling on the market, the thermal efficiency has improved more than 40%, and coal conservation can reach about 50%, and the delivery port temperature can reach 100 degrees centigrade.

Claims (10)

1. novel high-efficiency and energy-saving attemperating unit, it is characterized in that: comprise burner hearth, control system, controller of fan, flue and peripheral piping, the inwall of said burner hearth is provided with heat-insulation layer; Said peripheral piping is positioned at the outside of burner hearth, above burner hearth, is provided with the honeycomb heat exchanger, above the honeycomb heat exchanger, is provided with and uploads temperature barrier; Below the honeycomb heat exchanger, be provided with down heat transfer protector, upload temperature barrier above be provided with the heat exchange piping, the top of said heat exchange piping is a fire door; Be provided with fire door water bag in the side of fire door; Said control system is arranged on fire door water and wraps, and below flue, is provided with the flue piping, is provided with piping in the flue in the inboard of flue piping; The arranged outside of burner hearth has coal filling hole and air inlet; Coal filling hole is below the control system, and air inlet is positioned at the below of coal filling hole, in the air inlet outer setting controller of fan is arranged; The said temperature barrier of uploading communicates with the honeycomb heat exchanger, and the said temperature barrier of uploading communicates with the heat exchange piping.

2. energy-efficient attemperating unit according to claim 1 is characterized in that: said heat transfer protector down communicates with the honeycomb heat exchanger.

3. energy-efficient attemperating unit according to claim 1 and 2 is characterized in that: said controller of fan links to each other with the control system through holding wire.

4. energy-efficient attemperating unit according to claim 3 is characterized in that: said control system comprises sensor-based system and system for detecting temperature, in sensor-based system, is provided with pressure sensor, in system for detecting temperature, is provided with temperature sensor.

5. energy-efficient attemperating unit according to claim 3 is characterized in that: the piping set inside has branch pipe tee connection in flue.

6. energy-efficient attemperating unit according to claim 3 is characterized in that: said peripheral piping is cylindricality, and its outer wall is square, and inwall is a round structure.

7. energy-efficient attemperating unit according to claim 3 is characterized in that: around fire door water bag, be provided with and emit fire hole.

8. energy-efficient attemperating unit according to claim 7 is characterized in that: said honeycomb heat exchanger is a cylindrical structural, and portion is provided with crisscross piping within it, is provided with favose fire hole in the intersection of piping.

9. energy-efficient attemperating unit according to claim 7 is characterized in that: said piping communicates with said honeycomb heat exchanger, and said fire hole communicates with said burner hearth.

10. energy-efficient attemperating unit according to claim 1 is characterized in that: the arranged outside at burner hearth has cleaning door, fastens at flue tube and is provided with air bleeding valve.

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