Honeycomb type catalyst continuous stovetechnical field:
The utility model belongs to catalyst drying equipment technical field, especially relates to a kind of honeycomb type catalyst continuous stove.
background technology:
The domestic drying equipment for honeycomb type catalyst is mostly electrically heated at present, and output is little, there is no the drying equipment adopting natural gas, gas heating for this series products; Overcome in dry run with the little shortcoming of wind speed, high wind speed (more than 40m/s) can be reached, adopt this high wind speed to heat to this kind of honeycomb type catalyst, make the drying of product more even, the quality of improving product.
summary of the invention:
Technical problem to be solved in the utility model is: provide a kind of continuous stove for drying honeycomb type catalyst.
In order to solve the problems of the technologies described above, the utility model is achieved through the following technical solutions: a kind of honeycomb type catalyst continuous stove, described continuous stove comprises loading bay, body of heater, discharge pedestal and conveyer belt, described loading bay and discharge pedestal are symmetricly set on the both sides of body of heater, described loading bay and discharge pedestal are all provided with drive, described conveyer belt is coated on outside drive, and described drive is connected with variable frequency drive motors, and described conveyer belt is through furnace interior;
The furnace wall of described body of heater is provided with heater, circulating fan and air inlet mechanism, described heater is arranged on the top of body of heater, and the heating tube of heater extend into furnace interior, described lower portion of furnace body offers for the through hole for placing air inlet mechanism, described air inlet mechanism outside connects circulating fan, described furnace interior is also provided with wind guiding mechanism, and described wind guiding mechanism is connected by line seal with air inlet mechanism;
The top of described body of heater and sidewall are also respectively arranged with the first pipeline and the second pipeline.
As preferably, described wind guiding mechanism is made up of wind guide chamber and wind deflector, and described wind deflector is the platy structure with rectangular through-hole, and described wind deflector is fixedly mounted on wind guide chamber top, and described conveyer belt is through the region wind deflector and heater.
As preferably, described first pipeline is arranged on position directly over wind guiding mechanism, and described second pipeline is arranged on the position identical with air inlet mechanism level height.
As preferably, between described wind deflector and heater, be provided with thermal insulation board.
As preferably, the quantity of described body of heater is at least provided with one.
As preferably, the sidewall of described body of heater also offers access door.
Compared with prior art, usefulness of the present utility model is:
1, heating adopts combustion gas (natural gas or oil liquefied gas) heating, and the thermal efficiency is high, and firing rate is fast;
2, hot air circulation adopts furnace side circulating fan, and through special louver, wind speed is up to more than 40m/s, and hot blast even convective, temperature uniformity are good;
The quality of 3, carrying out the honeycomb type catalyst of drying by special heating is more stable and even.
accompanying drawing illustrates:
Below in conjunction with accompanying drawing, the utility model is further illustrated.
Fig. 1 is front view of the present utility model.
Fig. 2 is the utility model A-A sectional view.
In figure: 1, loading bay; 2, body of heater; 21, the first pipeline; 22, the second pipeline; 3, discharge pedestal; 4, heater; 5, wind guiding mechanism; 51, wind guide chamber; 52, wind deflector; 6, circulating fan; 7, conveyer belt; 8, drive; 9, air inlet mechanism; 10, thermal insulation board; 101, access door.
detailed description of the invention:
Below in conjunction with the drawings and the specific embodiments, the utility model is described in detail:
A kind of honeycomb type catalyst continuous stove as depicted in figs. 1 and 2, described continuous stove comprises loading bay 1, body of heater 2, discharge pedestal 3 and conveyer belt 7, described loading bay 1 and discharge pedestal 3 are symmetricly set on the both sides of body of heater 2, described loading bay 1 and discharge pedestal 3 are all provided with drive 8, described conveyer belt 7 is coated on outside drive 8, described drive 8 is connected with variable frequency drive motors, described conveyer belt 7 is inner through body of heater 2, guarantees that the product of different size transmits by certain speed with the drying process completing honeycomb type catalyst;
The furnace wall of described body of heater 2 is provided with heater 4, circulating fan 6 and air inlet mechanism 9, described heater 4 is arranged on the top of body of heater 2, and it is inner that the heating tube of heater 4 extend into body of heater 2, described body of heater 2 bottom offers for the through hole for placing air inlet mechanism 9, described air inlet mechanism 9 outside connects circulating fan 6, described body of heater 2 inside is also provided with wind guiding mechanism 5, and described wind guiding mechanism 5 is connected by line seal with air inlet mechanism 9;
The top of described body of heater 2 and sidewall are also respectively arranged with the first pipeline 21 and the second pipeline 22, first pipeline 21 for replenish air, the second pipeline 2 is inner for waste gas being discharged body of heater 2.
Described wind guiding mechanism 5 is made up of wind guide chamber 51 and wind deflector 52, described wind deflector 52 is for having the platy structure of rectangular through-hole, and described wind deflector 52 is fixedly mounted on wind guide chamber 51 top, described conveyer belt 7 is through the region wind deflector 52 and heater 4.
Described first pipeline 21 is arranged on position directly over wind guiding mechanism 5, and described second pipeline 22 is arranged on the position identical with air inlet mechanism 9 level height, adopts this structure to be convenient to the circulation of body of heater 2 internal gas flow.
Thermal insulation board 10 is provided with between described wind deflector 52 and heater 4, so body of heater 2 is separated into dry section and Qiang Chou district, can prevent the hot blast channelling between adjacent warm area and temperature from influencing each other, the thermocouple sensor in each district reaches in electrical control cubicles and is shown and control temperature by digital display meter, indicate the PLC in electrical control cubicles and computer to carry out Pulse Width Control by the different burners in each district of ordered pair time certain simultaneously, thus ensure its temperature uniformity.
In order to enhance productivity, the quantity of described body of heater 2 is at least provided with one.
For the ease of maintenance, the sidewall of described body of heater 2 also offers access door 101.
It is emphasized that: be only preferred embodiment of the present utility model above, not any pro forma restriction is done to the utility model, every above embodiment is done according to technical spirit of the present utility model any simple modification, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.