CN209213882U - Refinery flares efficient low-consume catalytic combustion system - Google Patents

Abstract

The utility model discloses refinery flares efficient low-consume catalytic combustion systems, including combustion furnace, side at the top of combustion furnace is fixedly installed with cabinet, the side of cabinet is fixedly installed with driving motor, one end of driving motor shaft is sequentially connected with the first transmission shaft by shaft coupling, the two sides of first transmission shaft are welded with equally distributed first blade, one end of first transmission shaft is rotatably connected to first bearing, the outer ring of first transmission shaft is welded with the first runner, the outer ring of first runner is sequentially connected with the second runner by transmission belt, the inner ring of second runner is welded with second driving shaft, the two sides of second driving shaft are welded with equally distributed second blade.By the way that driving motor, the first transmission shaft, the first blade, the first runner, transmission belt, the second runner, second driving shaft, the second blade is arranged, it is set to carry out dual crushing to potassium permanganate, make its occur in combustion furnace chemical reaction generate oxygen it is quick-acting faster, combustion-supporting effect is more preferable.

Description

Refinery flares efficient low-consume catalytic combustion system

Technical field

The utility model relates to oil plant field of combustion technology more particularly to refinery flares efficient low-consume catalysis burning dresses It sets.

Background technique

Oil refining is that crude oil or other greases are distilled to a kind of technique for not changing molecular structure, due in petroleum refining In the process, crude oil has to pass through series of process process, can just obtain useful various oil products.

Existing oil plant needs to spend very big electric power and very high temperature when igniting when burning oil refining Degree can just make it blaze up, the poor effect of ignition, waste of resource.

Utility model content

In view of the deficiencies of the prior art, the utility model provides refinery flares efficient low-consume catalytic combustion system, solution The problem of inefficient and high consumption of resources of having determined.

To achieve the goals above, the utility model adopts the technical scheme that

Refinery flares efficient low-consume catalytic combustion system, including combustion furnace, the fixed peace in side at the top of the combustion furnace Equipped with cabinet, the side of the cabinet is fixedly installed with driving motor, and one end of the driving motor shaft is passed by shaft coupling Dynamic to be connected with the first transmission shaft, the two sides of first transmission shaft are welded with equally distributed first blade, and described first passes One end of moving axis is rotatably connected to first bearing, and one end of the first bearing and the inner wall of cabinet weld, first transmission The outer ring of axis is welded with the first runner, and the outer ring of first runner is sequentially connected with the second runner by transmission belt, and described The inner ring of two runners is welded with second driving shaft, and the two sides of the second driving shaft are welded with equally distributed second blade, And first blade and the second blade be to be staggered.

Preferably, the two sides of the second driving shaft are rotatably connected to second bearing, the side of the second bearing with The inner wall of cabinet welds.

Preferably, feed pipe is fixedly installed at the feed inlet of the box roof, and feed pipe is truncated cone-shaped setting.

Preferably, the two sides at the top of the cabinets cavity are welded with baffle, and the two sides of the baffle offer and the One end of one transmission shaft and the compatible circular hole of second driving shaft, first transmission shaft and second driving shaft run through baffle and Extend to the other side of baffle.

Preferably, the inner wall of the cabinet is welded with reclaiming plate, and the side of the reclaiming plate extends to the outer surface of cabinet, The discharge outlet of the cabinet is welded with discharge nozzle.

Preferably, the side of the combustion furnace is welded with loading hopper, and the bottom of the loading hopper is welded with communicating pipe, And it is fixedly connected at communicating pipe and the port of combustion furnace.

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

1, pass through setting driving motor, the first transmission shaft, the first blade, the first runner, transmission belt, the second runner, second Transmission shaft, the second blade, so that it be made only need to can to drive the first blade and the second blade under the driving of single motor simultaneously It is rotated, it is made to carry out dual crushing to potassium permanganate, crush it more tiny, so that it be made to occur in combustion furnace Chemical reaction generate oxygen it is quick-acting faster combustion-supporting effect is more preferable, so that the effect burnt in combustion furnace combustion ignition is more Good, the electric power resource of waste is less.

2, it is staggered by the first blade of setting and the second blade, thus in potassium permanganate from the gap location of the first blade It when leakage, can be crushed by the second blade, so that potassium permanganate is more uniform when crushing, pass through baffle To prevent the potassium permanganate of sputtering to block first bearing and transmission belt and second bearing, it is maintained to reduce Cost.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is enlarged drawing at A in the utility model Fig. 1.

In figure: 1 combustion furnace, 2 cabinets, 21 feed pipes, 22 baffles, 3 driving motors, 4 first transmission shafts, 5 first blades, 6 First bearing, 7 first runners, 8 transmission belts, 9 second runners, 10 second driving shafts, 11 second blades, 12 second bearings, 13 go out Flitch, 14 discharge nozzles, 15 loading hoppers, 16 communicating pipes.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Referring to Fig.1-2, refinery flares efficient low-consume catalytic combustion system, including combustion furnace 1, which is characterized in that burning The side at 1 top of furnace is fixedly installed with cabinet 2, and feed pipe 21, and feed pipe 21 are fixedly installed at the feed inlet of 2 top plate of cabinet For truncated cone-shaped setting, the two sides of 2 inner cavity top of cabinet are welded with baffle 22, and the Gao Meng of sputtering is prevented by baffle 22 Sour potassium blocking first bearing 6 and transmission belt 8 and second bearing 12, thus reduce the cost being maintained, the one of cabinet 2 Side is fixedly installed with driving motor 3, passes through setting driving motor 3, the first transmission shaft 4, the first blade 5, the first runner 7, transmission Band 8, the second runner 9, second driving shaft 10, the second blade 11, to make it that need to can only drive under the driving of single motor First blade 5 and the second blade 11 are rotated simultaneously, it is made to carry out dual crushing to potassium permanganate, 3 shaft of driving motor One end is sequentially connected with the first transmission shaft 4 by shaft coupling, and the two sides of the first transmission shaft 4 are welded with equally distributed first knife Piece 5, one end of the first transmission shaft 4 are rotatably connected to first bearing 6, and one end of first bearing 6 and the inner wall of cabinet 2 weld, the The outer ring of one transmission shaft 4 is welded with the first runner 7, and the outer ring of the first runner 7 is sequentially connected with the second runner 9 by transmission belt 8, The inner ring of second runner 9 is welded with second driving shaft 10, and the two sides of baffle 22 offer and the first transmission shaft 4 and the second transmission One end of the compatible circular hole of axis 10, the first transmission shaft 4 and second driving shaft 10 runs through baffle 22 and extends to baffle 22 The other side, the two sides of second driving shaft 10 are welded with equally distributed second blade 11, and the first blade 5 and the second blade 11 It to be staggered, is staggered by the first blade 5 of setting and the second blade 11, thus in potassium permanganate from the first blade 5 When gap location leaks out, it can be crushed by the second blade 11, so that potassium permanganate is more uniform when crushing, The two sides of second driving shaft 10 are rotatably connected to second bearing 12, and the side of second bearing 12 and the inner wall of cabinet 2 weld, case The inner wall of body 2 is welded with reclaiming plate 13, and the side of reclaiming plate 13 extends to the outer surface of cabinet 2, the discharge outlet welding of cabinet 2 There is discharge nozzle 14, the side of combustion furnace 1 is welded with loading hopper 15, and the bottom of loading hopper 15 is welded with communicating pipe 16, and even It is fixedly connected at siphunculus 16 and the port of combustion furnace 1, when combustion furnace 1 carries out ignition, powers on, by potassium permanganate It is poured into from feed pipe 21, driving motor 3 drives the first transmission shaft 4 to be rotated, so that the first blade 5 be driven to be rotated, turns The first dynamic transmission shaft 4 drives the first runner 7 to be rotated, and makes it through transmission belt 8 to drive second driving shaft 10 to surround Second bearing 12 is rotated, and the second driving shaft 10 of rotation drives the second blade 11 to be rotated, make its to potassium permanganate into Row crush, make its crush it is more tiny, thus make its occurs in combustion furnace 1 chemical reaction generation oxygen it is quick-acting faster, Combustion-supporting effect is more preferable, so that the effect burnt in 1 combustion ignition of combustion furnace is more preferable, the electric power resource of waste is less, then It is discharged into loading hopper 15 by reclaiming plate 13 and discharge nozzle 14, at the port of combustion furnace 1, makes it to potassium permanganate Heating carries out reaction and generates oxygen progress catalytic combustion-supporting.

The electric elements occurred in this article are electrically connected with extraneous main controller and 220V alternating current, and main controller can be meter Calculation machine etc. plays the conventionally known equipment of control.

Working principle: when combustion furnace 1 carries out ignition, power on, potassium permanganate is poured into from feed pipe 21, drive Dynamic motor 3 drives the first transmission shaft 4 to be rotated, so that the first blade 5 is driven to be rotated, 4 band of the first transmission shaft of rotation Dynamic first runner 7 is rotated, and makes it through transmission belt 8 to drive second driving shaft 10 around 12 turns of second bearing Dynamic, the second driving shaft 10 of rotation drives the second blade 11 to be rotated, and crushes it to potassium permanganate, then by going out Flitch 13 and discharge nozzle 14 are discharged into loading hopper 15, at the port of combustion furnace 1, make its to potassium permanganate heat into Row reaction generates oxygen and carries out catalytic combustion-supporting.

In conclusion the refinery flares efficient low-consume catalytic combustion system, is driven by setting driving motor 3, first Axis 4, the first blade 5, the first runner 7, transmission belt 8, the second runner 9, second driving shaft 10, the second blade 11, to make it only The first blade 5 and the second blade 11 need to can be driven under the driving of single motor while being rotated, and make it to potassium permanganate Dual crushing is carried out, crushes it more tiny, so that making it that chemical reaction occur in combustion furnace 1 generates the quick-acting of oxygen Faster, combustion-supporting effect is more preferable, so that the effect burnt in 1 combustion ignition of combustion furnace is more preferable, the electric power resource of waste is less, It is staggered by the first blade 5 of setting and the second blade 11, to be leaked out in potassium permanganate from the gap location of the first blade 5 When, it can be crushed by the second blade 11, so that potassium permanganate is more uniform when crushing, pass through baffle 22 To prevent the potassium permanganate of sputtering to block first bearing 6 and transmission belt 8 and second bearing 12, it is carried out to reduce The cost of maintenance solves the problems, such as inefficient and high consumption of resources.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. refinery flares efficient low-consume catalytic combustion system, including combustion furnace (1), which is characterized in that combustion furnace (1) top The side in portion is fixedly installed with cabinet (2), and the side of the cabinet (2) is fixedly installed with driving motor (3), the driving motor (3) one end of shaft is sequentially connected with the first transmission shaft (4) by shaft coupling, and the two sides of first transmission shaft (4) are welded There is equally distributed first blade (5), one end of first transmission shaft (4) is rotatably connected to first bearing (6), and described first One end of bearing (6) and the inner wall of cabinet (2) weld, and the outer ring of first transmission shaft (4) is welded with the first runner (7), institute The outer ring for stating the first runner (7) is sequentially connected with the second runner (9) by transmission belt (8), the interior lap welding of second runner (9) It being connected to second driving shaft (10), the two sides of the second driving shaft (10) are welded with equally distributed second blade (11), and First blade (5) is to be staggered with the second blade (11).

2. refinery flares efficient low-consume catalytic combustion system according to claim 1, which is characterized in that described second passes The two sides of moving axis (10) are rotatably connected to second bearing (12), the side of the second bearing (12) and the inner wall of cabinet (2) Welding.

3. refinery flares efficient low-consume catalytic combustion system according to claim 1, which is characterized in that the cabinet (2) it is fixedly installed at the feed inlet of top plate feed pipe (21), and feed pipe (21) is truncated cone-shaped setting.

4. refinery flares efficient low-consume catalytic combustion system according to claim 1, which is characterized in that the cabinet (2) two sides of inner cavity top are welded with baffle (22), the two sides of the baffle (22) offer with the first transmission shaft (4) and Baffle is run through in one end of the compatible circular hole of second driving shaft (10), first transmission shaft (4) and second driving shaft (10) (22) and the other sides of baffle (22) is extended to.

5. refinery flares efficient low-consume catalytic combustion system according to claim 1, which is characterized in that the cabinet (2) inner wall is welded with reclaiming plate (13), and the side of the reclaiming plate (13) extends to the outer surface of cabinet (2), the cabinet (2) discharge outlet is welded with discharge nozzle (14).

6. refinery flares efficient low-consume catalytic combustion system according to claim 1, which is characterized in that the combustion furnace (1) side is welded with loading hopper (15), and the bottom of the loading hopper (15) is welded with communicating pipe (16), and communicating pipe (16) it is fixedly connected at the port of combustion furnace (1).