CN207881214U - Organic heat carrier furnace - Google Patents

Abstract

The utility model is related to boiler plant fields, disclose a kind of organic heat carrier furnace, air pipeline（1）Air intake and air outlet slit be located at the heat-exchanging chamber（2）Both sides external, the middle part of air pipeline is located in heat-exchanging chamber, the air outlet slit and natural gas line of air pipeline（3）Gas outlet converge after and heat conduction bunker（4）One end connection, the other end and exhaust piping of heat conduction bunker（5）Exhaust gas entrance connection, the waste gas outlet of exhaust piping is located at the external other side of heat-exchanging chamber, and the middle part of exhaust piping is located at the inside of heat-exchanging chamber；In heat-exchanging chamber, the middle part of exhaust piping is bucket body structure and is sleeved on the lateral wall at middle part of air pipeline.The ingenious arrangement of the utility model air pipeline and exhaust piping by increase heat-exchanging chamber and in heat-exchanging chamber, makes thermal energy that can be utilized by cyclic absorption, and heat utilization rate is high, saves the energy.

Description

Organic heat carrier furnace

Technical field

The utility model is related to boiler plant field, more particularly to a kind of organic heat carrier furnace.

Background technology

Fuel-gas organic heat transfer medium furnace is using light oil, heavy oil, gas as main fuel, and air provides oxygen, conduction oil For heat carrier, made after thermal energy is conveyed to heating equipment by forced circulation using oil circulating pump, then returns to reheat and use Boiler.The exhaust gas of the exhaust piping discharge of existing heat carrier furnace still has a large amount of preheatings that can not utilize, and causes the waste of the energy, such as What improves the structure of heat carrier furnace, is a problem to be solved with the preheating maximally utilised in exhaust gas.

Utility model content

Practical new purpose：For problems of the prior art, the utility model provides a kind of organic heat carrier furnace, leads to Cross increase heat-exchanging chamber and in heat-exchanging chamber air pipeline and exhaust piping ingenious arrangement, make thermal energy can be by cyclic absorption It utilizes, heat utilization rate is high, saves the energy.

Technical solution：The utility model provides a kind of organic heat carrier furnace, including air pipeline, heat-exchanging chamber, natural Feed channel, heat conduction bunker and exhaust piping, the air intake and air outlet slit of the air pipeline are located at the heat exchange The middle part of the both sides external of room, the air pipeline is located in the heat-exchanging chamber, the air outlet slit of the air pipeline and institute The gas outlet for stating natural gas line converges rear one end with the heat conduction bunker and is connected to, the other end of the heat conduction bunker with The exhaust gas entrance of the exhaust piping is connected to, and the outside that the waste gas outlet of the exhaust piping is located at the heat-exchanging chamber is another Side, the middle part of the exhaust piping are located at the inside of the heat-exchanging chamber；In the heat-exchanging chamber, in the exhaust piping Portion is bucket body structure, and is sleeved in the middle part of the exhaust piping on the lateral wall at middle part of the air pipeline.

Preferably, outside the heat-exchanging chamber, the air intake of the air pipeline is bucket body structure, and the air hose The air intake in road is sleeved on the lateral wall of the waste gas outlet of the exhaust piping.After the indoor heat exchange of heat exchange, exhaust gas Still there is amount of residual heat in exhaust gas in pipeline, this portion of residual heat can be sleeved on flue gas leading by the air intake of air pipeline It is further absorbed and utilized on the waste gas outlet lateral wall in road.

Further, the organic heat carrier furnace further includes thermal energy transfer duct road and oil circulating pump, the thermal energy conveying Pipeline is connected to the heat conduction bunker and heating equipment, and the oil circulating pump is arranged on the thermal energy transfer duct road.

Further, the organic heat carrier furnace further includes smoke discharging pipe, the smoke discharging pipe and the heat conduction bunker Top connection.

Advantageous effect：In the utility model, it is the lower air of temperature to enter air pipeline air through air intake, and is passed through The exhaust gas that exhaust gas entrance enters exhaust piping is then the higher exhaust gas of temperature, and in heat-exchanging chamber, exhaust piping is sleeved on air On the lateral wall of pipeline, to enable in exhaust piping the higher exhaust gas of temperature to the lower sky of temperature in internal air pipeline Gas heats, and the air after heating converges through air outlet slit and natural gas again, being capable of the effectively save energy to natural gas combustion-supporting.

Description of the drawings

Fig. 1 is the structural schematic diagram of organic heat carrier furnace.

Specific implementation mode

The utility model is described in detail below in conjunction with the accompanying drawings.

Present embodiments provide for a kind of organic heat carrier furnaces, as shown in Figure 1, the organic heat carrier furnace is mainly by air hose Road 1, heat-exchanging chamber 2, natural gas line 3, heat conduction bunker 4, exhaust piping 5, thermal energy transfer duct road 6, oil circulating pump 7 and smoke evacuation Pipeline 9 forms, and the middle part of air pipeline 1 is located in heat-exchanging chamber 2, and the air intake and air outlet slit of air pipeline 1 distinguish position In 2 both sides of heat-exchanging chamber, the gas outlet of air outlet slit and natural gas line 3 converges, converge after again with heat conduction bunker 4 Side is connected to, and smoke discharging pipe 9 is arranged at the top of heat conduction bunker 4 and communicates therewith, and thermal energy transfer duct road 6 is connected to heat conduction bunker 4 Bottom and heating equipment 8, oil circulating pump 7 be arranged on thermal energy transfer duct road 6；The other side of heat conduction bunker 4 and flue gas leading The exhaust gas entrance in road 5 is connected to, and the middle part of exhaust piping 5 is bucket body structure and is located in heat-exchanging chamber 2, and in exhaust piping 5 Portion is sleeved on the middle part lateral wall of the air pipeline 1 in heat-exchanging chamber 2, and the waste gas outlet of exhaust piping 5 is located at heat-exchanging chamber 2 The external other side, and outside heat-exchanging chamber 2, the air intake of air pipeline 1 is the staving for the lateral wall for being sleeved on exhaust piping 5 Structure.

At work, air of the air of room temperature through air pipeline 5 first enters organic heat carrier furnace in present embodiment Mouth enters heat-exchanging chamber 2, is then discharged through air outlet slit and converges with the natural gas in natural gas line 3, in heat conduction bunker 4 Combustion of natural gas heats conduction oil after igniting, work of the conduction oil after heating through thermal energy transfer duct road 6 and oil circulating pump 7 With heating equipment is transported to, after 8 use of heating equipment, the lower conduction oil of temperature is again through thermal energy transfer duct road 6, in recycle oil It heats back to heat conduction bunker 4 under the action of pump 7, so recycles again；The smog warp generated during heating conduction oil Smoke discharging pipe 9 is discharged, and exhaust gas entrance of the exhaust gas through exhaust piping 5 that the oxygen in air obtains after being utilized enters heat exchange In room 2, due to containing a large amount of heat in exhaust gas, and exhaust piping 5 is sleeved on the outside of air pipeline 5 in heat-exchanging chamber 2 Wall efficiently uses thermal energy so the heat carried in exhaust gas in exhaust piping 5 can heat the air in air pipeline 1；By Still there is part preheating in exhaust gas after heat-exchanging chamber 2, at this point, outside heat-exchanging chamber 2, air pipeline 1 is sleeved on outside exhaust piping 5 Side wall, it is energy saving can adequately absorb the preheating carried in exhaust gas in exhaust piping 5.

The above embodiment is only the technical concepts and features for illustrating the utility model, and its object is to allow be familiar with this skill The people of art can understand the content of the utility model and implement according to this, can not limit the scope of protection of the utility model with this. It is all according to the spirit of the present invention substantially equivalent transformation that is done or modification, should all cover the scope of protection of the utility model it It is interior.

Claims (4)

1. a kind of organic heat carrier furnace, which is characterized in that including air pipeline（1）, heat-exchanging chamber（2）, natural gas line（3）、 Heat conduction bunker（4）And exhaust piping（5）, the air pipeline（1）Air intake and air outlet slit be located at it is described heat hand over Change room（2）Both sides external, the air pipeline（1）Middle part be located at the heat-exchanging chamber（2）It is interior, the air pipeline（1） Air outlet slit and the natural gas line（3）Gas outlet converge after with the heat conduction bunker（4）One end connection, institute State heat conduction bunker（4）The other end and the exhaust piping（5）Exhaust gas entrance connection, the exhaust piping（5）Exhaust gas go out Mouth is located at the heat-exchanging chamber（2）The external other side, the exhaust piping（5）Middle part be located at the heat-exchanging chamber（2）'s It is internal；In the heat-exchanging chamber（2）It is interior, the exhaust piping（5）Middle part be bucket body structure, and the exhaust piping（5）'s Middle part is sleeved on the air pipeline（1）Middle part lateral wall on.

2. organic heat carrier furnace according to claim 1, which is characterized in that in the heat-exchanging chamber（2）Outside, the air Pipeline（1）Air intake be bucket body structure, and the air pipeline（1）Air intake be sleeved on the exhaust piping（5）'s On the lateral wall of waste gas outlet.

3. organic heat carrier furnace according to claim 1, which is characterized in that further include thermal energy transfer duct road（6）And cycle Oil pump（7）, the thermal energy transfer duct road（6）It is connected to the heat conduction bunker（4）And heating equipment（8）, the oil circulating pump（7）If It sets in the thermal energy transfer duct road（6）On.

4. organic heat carrier furnace according to any one of claim 1 to 3, which is characterized in that further include smoke discharging pipe （9）, the smoke discharging pipe（9）With the heat conduction bunker（4）Top connection.