CN208750741U - Thermal accumulating incinerator and incinerator - Google Patents

Abstract

The utility model provides a kind of thermal accumulating incinerator and incinerator, is related to burning facility field.The thermal accumulating incinerator includes: combustion chamber, regenerative chamber, air-exchanging chamber, heat exchanger, inlet channel and outlet passageway；The combustion chamber is connected to the regenerative chamber, the regenerative chamber is connected to the air-exchanging chamber, the inlet channel and the outlet passageway are provided on the air-exchanging chamber, the heat exchanger is provided between the inlet channel and the outlet passageway, use the thermal accumulating incinerator, heat exchange can be carried out to the gas of discharge and the gas of entrance, to achieve the purpose that the consumption for reducing fuel and save operating cost；The incinerator includes: fume treatment unit, above-mentioned thermal accumulating incinerator and the tapping equipment for reducing carbon dioxide, heat exchange can be carried out to the gas of discharge and the gas of entrance using the incinerator, achieving the purpose that reduce the consumption of fuel, saving operating cost and reducing the discharge of carbon dioxide.

Description

Thermal accumulating incinerator and incinerator

Technical field

The utility model relates to field of garbage disposal equipment, in particular to a kind of thermal accumulating incinerator and incinerator.

Background technique

Currently, the process of the processing of the exhaust gas of organic matter is mainly heat accumulating type incineration method, which makes Oxygenolysis is the substances discharge such as carbon dioxide and water to flammable organic gas at high temperature, and incineration method will be namely will when accumulation of heat Organic exhaust gas is linked into direct combustion furnace, is added mixed gas using the heat that the aid fuel combustions such as combustion gas or fuel oil are released Heat arrives certain temperature, and is resident the regular hour in the combustion chamber, and heated before exhaust gas enters combustion chamber, but It is that thermal accumulating incinerator process requirement heats the gases to 800 DEG C or so with fuel, and energy consumption is bigger, and operating cost is relatively high.

Utility model content

The purpose of this utility model is to provide a kind of thermal accumulating incinerator, which includes: combustion chamber, stores Hot cell, air-exchanging chamber, heat exchanger, inlet channel and outlet passageway；The air-exchanging chamber includes: the first air-exchanging chamber and the second air-exchanging chamber, It is provided with heat exchanger between first air-exchanging chamber and second air-exchanging chamber, during burning organic compounds, is treated The gas of processing and processed gas use heat exchanger, exchange its heat, to reach the demand of reduction fuel and save fortune The purpose of row cost.

The another object of the utility model is to provide a kind of incinerator, which includes: fume treatment unit, above-mentioned Thermal accumulating incinerator and the tapping equipment for reducing carbon dioxide, can be to the gas of discharge and the gas of entrance using the incinerator Heat exchange is carried out, achieving the purpose that reduce the demand of fuel, saving operating cost and reducing the discharge of carbon dioxide.

The embodiments of the present invention are achieved in that a kind of thermal accumulating incinerator, comprising: combustion chamber, is changed at regenerative chamber Gas chamber, heat exchanger, inlet channel and outlet passageway；The combustion chamber is connected to the regenerative chamber, and the regenerative chamber is changed with described Gas chamber connection, the regenerative chamber includes: the first regenerative chamber and the second regenerative chamber, and first regenerative chamber does not connect with the second regenerative chamber Logical, the air-exchanging chamber includes: the first air-exchanging chamber and the second air-exchanging chamber, and first air-exchanging chamber is not connected to the second air-exchanging chamber, institute The first regenerative chamber to be stated to be connected to first air-exchanging chamber, second regenerative chamber is connected to second air-exchanging chamber, and described first It is provided with the inlet channel and the outlet passageway on air-exchanging chamber and second air-exchanging chamber, the inlet channel and described The heat exchanger is provided between outlet passageway.

As described above, the heat exchanger include: double-tube heat exchanger, the hot device of shell-and-tube, plate heat exchanger, finned heat exchanger and Any one heat exchanger in heat exchange of heat pipe.

As described above, being provided with thermal storage ceramic body in the regenerative chamber.

As described above, the inlet channel and the outlet passageway are provided with valve body.

As described above, the combustion chamber is additionally provided with slag-drip opening.

As described above, the thermal accumulating incinerator further includes temperature control system, the temperature control system includes: combustion-supporting Blower, sensor and controller, the combustion fan, the sensor and controller electrical connection, the sensor are used for Acquire the indoor parameter of the burning, the controller according to acquire combustion fan described in the indoor state modulator of burning to Oxygen-enriched air is provided in the combustion chamber, the combustion fan is used for providing oxygen-enriched air in the combustion chamber.

As described above, the sensor includes: that temperature sensor, baroceptor and oxygen content sensor are at least one Sensor.

As described above, the heat accumulating type incineration furnace exterior is enclosed with insulation outer layer.

As described above, the inlet channel and the outlet passageway are provided with filter.

The another object of the utility model is to provide a kind of incinerator, which includes: carbon dioxide collecting device With thermal accumulating incinerator described in above-mentioned any one.

The beneficial effect of the utility model embodiment is: the purpose of this utility model is to provide a kind of heat accumulating type incinerations Be provided with the inlet channel and the outlet passageway on furnace, first air-exchanging chamber and second air-exchanging chamber, it is described into The heat exchanger is provided between gas channel and the outlet passageway, the heat exchanger can exchange heat to the air-exchanging chamber, It is set to carry out heat exchange, to achieve the purpose that the consumption for reducing fuel and save operating cost.

Detailed description of the invention

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is the structural schematic diagram of the utility model thermal accumulating incinerator；

Fig. 2 is the heat exchanger schematic diagram of the utility model thermal accumulating incinerator；

Fig. 3 is a kind of access diagram of the utility model thermal accumulating incinerator；

Fig. 4 is the temperature control system schematic diagram of the utility model thermal accumulating incinerator；

Icon: a- thermal accumulating incinerator；2- inlet channel；The first inlet channel of 21-；The second inlet channel of 23-； 4- outlet passageway；The first outlet passageway of 41-；The second outlet passageway of 43-；5- temperature control system；51- sensor；53- Controller；55- combustion fan；The combustion chamber 61-；63- regenerative chamber；The first regenerative chamber of 631-；The second regenerative chamber of 633-； 65- air-exchanging chamber；The first air-exchanging chamber of 651-；The second air-exchanging chamber of 653-；8- heat exchanger.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here in attached drawing description and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.

Therefore, requirement is not intended to limit to the detailed description of the embodiments of the present invention provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all Belong to the range of the utility model protection.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" be based on the orientation or positional relationship shown in the drawings, or The utility model product using when the orientation or positional relationship usually put, be merely for convenience of description the utility model and letter Change description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific orientation construct and Operation, therefore should not be understood as limiting the present invention.In addition, term " first ", " second ", " third " etc. are only used for area Divide description, is not understood to indicate or imply relative importance.

In addition, the terms such as term "horizontal", "vertical" are not offered as requiring component abswolute level or pendency, but can be slightly Low dip.It is not to indicate that the structure has been had to if "horizontal" only refers to that its direction is more horizontal with respect to for "vertical" It is complete horizontal, but can be slightly tilted.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is set Set ", " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, Or it is integrally connected；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, intermediary can also be passed through It is indirectly connected, can be the connection inside two elements.For the ordinary skill in the art, it can be managed with concrete condition Solve the concrete meaning of above-mentioned term in the present invention.

First embodiment

As Figure 1-Figure 4: the utility model embodiment provides a kind of thermal accumulating incinerator a, comprising: combustion chamber 61 stores Hot cell 63, air-exchanging chamber 65, heat exchanger 8, inlet channel 2 and outlet passageway 4；The combustion chamber 61 is connected to the regenerative chamber 63, The regenerative chamber 63 is connected to the air-exchanging chamber 65, and the regenerative chamber 63 includes: the first regenerative chamber 631 and the second regenerative chamber 633, First regenerative chamber 631 is not connected to the second regenerative chamber 633, and the air-exchanging chamber 65 includes: that the first air-exchanging chamber 651 and second are changed Gas chamber 653, first air-exchanging chamber 651 are not connected to the second air-exchanging chamber 653, and first regenerative chamber 631 is changed with described first Gas chamber 651 is connected to, and second regenerative chamber 633 is connected to second air-exchanging chamber 653, first air-exchanging chamber 651 and described The inlet channel 2 and the outlet passageway 4 are provided on second air-exchanging chamber 653, the inlet channel 2 and the outlet are logical The heat exchanger 8 is provided between road 4, further, the state of the inlet channel 2 and the outlet passageway 4 have work with It does not work, the work, which refers to, air circulation in the inlet channel 2 and the outlet passageway 4, described do not work refers to institute Stating in inlet channel 2 and the outlet passageway 4 has atmosphere draught-free.The inlet channel 2 includes: the first inlet channel 21 and Two inlet channels 23, the inlet channel 2 include: the first inlet channel 21 and the second inlet channel 23.

Specifically, being provided with 21 He of the first inlet channel on first air-exchanging chamber 651 in the thermal accumulating incinerator a First outlet passageway 41, first inlet channel 21 are used for first outlet passageway 41 to first air-exchanging chamber 651 On take a breath, the first inlet channel 21 on first air-exchanging chamber 651 is not worked at the same time with first outlet passageway 41； Be provided with the second inlet channel 23 and the second outlet passageway 43 on second air-exchanging chamber 653, second inlet channel 23 with Second outlet passageway 43 is used for taking a breath on second air-exchanging chamber 653, second on second air-exchanging chamber 653 Inlet channel 23 is not worked at the same time with second outlet passageway 43；The first inlet channel 21 on first air-exchanging chamber 651 With on first air-exchanging chamber 651 the first outlet passageway 41 on second air-exchanging chamber 653 the second inlet channel 23 and The second outlet passageway 43 collaborative work on second air-exchanging chamber 653 takes a breath to the thermal accumulating incinerator a, the first Situation: when first inlet channel 21 work, first outlet passageway 41 does not work, and second inlet channel 23 is not Work, second outlet passageway 43 work；Second situation: when first inlet channel 21 does not work, described first Outlet passageway 41 works, and second inlet channel 23 works, and second outlet passageway 43 does not work.

Such as: processed gas is changed with gas to be processed by the heat exchanger 8 in the thermal accumulating incinerator a Heat, the gas to be processed enter first air-exchanging chamber by the first inlet channel 21 on first air-exchanging chamber 651 651, the treated gas is discharged by the second outlet passageway 43, and the gas to be processed passes through institute after heat exchange It states the first air-exchanging chamber 651 and enters back into first regenerative chamber 631, enter back into the combustion chamber by first regenerative chamber 631 61 burn, and the gas after burning is entering back into second air-exchanging chamber 653 by second regenerative chamber 633, then passes through Processed gas is transported to the heat exchanger 8 by the second outlet passageway 43 of second air-exchanging chamber 653, with gas to be processed Body exchanges heat.

Optionally, settable multiple first inlet channels 21 on first air-exchanging chamber 651, first air-exchanging chamber Settable multiple first outlet passageways 41 on 651, settable multiple second inlet channels 23 on second air-exchanging chamber 653, institute Settable multiple second outlet passageways 43 on the second air-exchanging chamber 653 are stated, to above-mentioned first air-exchanging chamber 651 and above-mentioned second air-exchanging chamber The number of the first inlet channel 21, the second inlet channel 23, the first outlet passageway 41 and the second outlet passageway 43 on 653 is not done It limits, but the first inlet channel 21 and the first outlet passageway 41 and second air-exchanging chamber 653 on first air-exchanging chamber 651 On 43 cooperating of the second inlet channel 23 and the second outlet passageway, specifically, the first situation: if the first air-exchanging chamber 651 On the work of at least one first inlet channel 21, then the not work of first outlet passageway 41 on first air-exchanging chamber 651 Make, the second inlet channel 23 on second air-exchanging chamber 653 does not work, at least one on second air-exchanging chamber 653 the The work of two outlet passageways 43, second situation: if at least one described first outlet passageway 41 on first air-exchanging chamber 651 Work, then the first inlet channel 21 on the first air-exchanging chamber 651 does not work, at least one on second air-exchanging chamber 653 the Two inlet channels 23 work, and the second outlet passageway 43 on second air-exchanging chamber 653 does not work.

Further, the heat exchanger 8 includes: double-tube heat exchanger, shell-and-tube heat exchanger, plate heat exchanger, fin heat exchange Any one heat exchanger in device and heat exchange of heat pipe, specifically, the heat exchanger 8 is logical to the inlet channel 2 and the outlet Road 4 exchanges heat so that the processed gas in the gas to be processed in the inlet channel 2 and the outlet passageway 4 into The cold and hot exchange of row, as long as the type of heat exchanging device 8 is able to achieve without limiting to the inlet channel 2 and the outlet passageway 4 It is exchanged heat.

Further, it is provided with thermal storage ceramic body in the regenerative chamber 63, specifically, first regenerative chamber 631 and institute It states and is provided with the thermal storage ceramic body within the second regenerative chamber 633, the thermal storage ceramic body is for better accumulation of heat and saves energy Source, and directly exchanged heat using thermal storage ceramic body with gas, so that radiation of burner hearth temperature and pressure are big, to accelerate heating speed, increase is changed The thermal efficiency.

Further, the inlet channel 2 and the outlet passageway 4 are provided with valve body, the specific inlet channel 2 It is upper and be provided with valve body corresponding with channel number on the outlet passageway 4, for control the outlet passageway 4 with it is described The working condition of inlet channel 2.

Specifically, the first situation: when the valve opening of first inlet channel 21,21 work of the first inlet channel When making, the valve of first outlet passageway 41 closes first outlet passageway 41 and does not work, second inlet channel 23 Valve close, second inlet channel 23 do not work, and the valve of second outlet passageway 43 is opened, second outlet Channel 43 works, second situation: when the valve of first outlet passageway 41 is opened, first outlet passageway 41 works, The valve of first inlet channel 21 is closed, when first inlet channel 21 does not work, second inlet channel 23 Valve is opened, and second inlet channel 23 works, and the valve of second outlet passageway 43 is closed, second outlet passageway 43 do not work.

Further, it is additionally provided with slag-drip opening on the combustion chamber 61, specifically, the slag-drip opening is arranged in the burning On room 61, for opening the slag-drip opening to the thermal accumulating incinerator after the thermal accumulating incinerator a is with a period of time The combustion chamber 61 of a is cleared up, to keep the thermal accumulating incinerator a can work normally.

Further, the thermal accumulating incinerator a further includes temperature control system 5, and the temperature control system 5 includes: Combustion fan 55, sensor 51 and controller 53, the combustion fan 55, the sensor 51 and the controller 53 are electrically connected It connects, the sensor 51 is used to acquire the parameter in the combustion chamber 61, and the controller 53 is according to the acquisition combustion chamber Combustion fan 55 described in interior state modulator provides oxygen-enriched air into the combustion chamber 61, and the combustion fan 55 is used for institute It states and oxygen-enriched air is provided in combustion chamber 61.

Further, the sensor 51 includes: temperature sensor, baroceptor and oxygen content sensor at least one Kind sensor 51.

Specifically, the sensor 51 includes: temperature sensor, baroceptor and oxygen content sensor, the temperature Degree sensor detect in the combustion chamber 61 when the indoor temperature of the burning is higher than 800 DEG C or the air pressure transmission Sensor detects when air pressure is too low in the combustion chamber 61 or the oxygen content sensor detects in the combustion chamber 61 When oxygen content is excessively high, the controller control combustion fan, which reduces, is blown into oxygen-enriched air into the combustion chamber 61；Institute State temperature sensor detect in the combustion chamber 61 when the indoor temperature of the burning is lower than 800 DEG C or the gas Pressure sensor detects when air pressure is excessively high in the combustion chamber 61 or the oxygen content sensor detects the combustion chamber When oxygen content is too low in 61, the controller 53 control the combustion fan 55 increase be blown into the combustion chamber 61 it is oxygen-enriched Air.

Further, it is enclosed with insulation outer layer outside the thermal accumulating incinerator a, specifically, the insulation Layer is set to outside the thermal accumulating incinerator a, and the heat insulation layer is used to carry out the thermal accumulating incinerator a heat preservation to subtract Lack the loss of heat and prevents operating personnel from being scalded by the thermal accumulating incinerator a.

Further, the inlet channel 2 and the outlet passageway 4 are provided with filter, the filter for pair Gas in the inlet channel 2 and the outlet passageway 4 is filtered, and reduces the solid particle polluter in gas, to prevent Only the thermal storage ceramic body is blocked.

The present embodiment provides a kind of thermal accumulating incinerator a, thermal accumulating incinerator a include: combustion chamber 61, regenerative chamber 63, Air-exchanging chamber 65, heat exchanger 8, inlet channel 2 and outlet passageway 4；The air-exchanging chamber 65 includes: that the first air-exchanging chamber 651 and second are changed Gas chamber 653, first air-exchanging chamber 651 is provided with inlet channel 2 and outlet passageway 4 with second air-exchanging chamber 653, described Heat exchanger 8 is provided between inlet channel 2 and the outlet passageway 4, during burning organic compounds, to be processed Gas and processed gas are using the progress heat exchange of heat exchanger 8, to reach the demand of reduction fuel and save operating cost Purpose.

Second embodiment

In addition, the utility model also provides a kind of incinerator, the incinerator includes: carbon dioxide collecting device and first Thermal accumulating incinerator a described in any one of embodiment.

Specifically, thermal accumulating incinerator a described in first embodiment turns pernicious gas by the thermal accumulating incinerator a Carbon dioxide and water are turned to, carbon dioxide is vented directly in air, there is certain harm to air, the carbon dioxide is received Acquisition means carry out pressurized collection to the carbon dioxide, reduce the discharge of carbon dioxide.

The present embodiment provides a kind of incinerator, which includes: carbon dioxide collecting device and above-mentioned heat accumulating type incineration Furnace a can carry out heat exchange to the gas of discharge and the gas of entrance using the incinerator, to reach the need for reducing fuel The purpose for asking, saving operating cost and reducing the discharge of carbon dioxide.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of thermal accumulating incinerator characterized by comprising combustion chamber, regenerative chamber, air-exchanging chamber, heat exchanger, inlet channel and Outlet passageway；The combustion chamber is connected to the regenerative chamber, and the regenerative chamber is connected to the air-exchanging chamber, the regenerative chamber packet Include: the first regenerative chamber and the second regenerative chamber, first regenerative chamber are not connected to the second regenerative chamber, and the air-exchanging chamber includes: One air-exchanging chamber and the second air-exchanging chamber, first air-exchanging chamber are not connected to the second air-exchanging chamber, first regenerative chamber and described the The connection of one air-exchanging chamber, second regenerative chamber are connected to second air-exchanging chamber, first air-exchanging chamber and second ventilation It is provided with the inlet channel and the outlet passageway on room, is arranged between the inlet channel and the outlet passageway State heat exchanger.

2. thermal accumulating incinerator according to claim 1, which is characterized in that the heat exchanger includes: double-tube heat exchanger, pipe Any one heat exchanger in the hot device of shell-type, plate heat exchanger, finned heat exchanger and heat exchange of heat pipe.

3. thermal accumulating incinerator according to claim 1, which is characterized in that be provided with thermal storage ceramic in the regenerative chamber Body.

4. thermal accumulating incinerator according to claim 1, which is characterized in that the inlet channel and the outlet passageway are equal It is provided with valve body.

5. thermal accumulating incinerator according to claim 1, which is characterized in that the combustion chamber is additionally provided with slag-drip opening.

6. thermal accumulating incinerator according to claim 1, which is characterized in that the thermal accumulating incinerator further includes temperature control System processed, the temperature control system include: combustion fan, sensor and controller, the combustion fan, the sensor and The controller electrical connection, the sensor are used to acquire the parameter of the combustion chamber, and the controller is according to the acquisition combustion It burns combustion fan described in indoor state modulator and oxygen-enriched air is provided into the combustion chamber, the combustion fan is used for described Oxygen-enriched air is provided in combustion chamber.

7. thermal accumulating incinerator according to claim 6, which is characterized in that the sensor includes: temperature sensor, gas At least one of pressure sensor and oxygen content sensor sensor.

8. thermal accumulating incinerator according to claim 1, which is characterized in that the heat accumulating type incineration furnace exterior is enclosed with guarantor Warm heat insulating outer shield.

9. thermal accumulating incinerator according to claim 1, which is characterized in that the inlet channel and the outlet passageway are equal It is provided with filter.

10. a kind of incinerator characterized by comprising described in carbon dioxide collecting device and claim 1-9 any one Thermal accumulating incinerator.