KR101358434B1 - Incinerator injection apparatus using waste water - Google Patents

Abstract

The present invention relates to an injection apparatus for removing the harmful substance of exhaust gas generated by a household waste incinerator by using food waste water and more particularly, to a food waste water injection apparatus invented to smoothly inject food waste water without clogging due to foreign substances included in the food waste water. An injection apparatus according to an embodiment of the present invention provides an effect of injecting, into an incinerator, food waste water discharged from an inner tube of a nozzle with strong pressure as compressed air flowing into a compressed air discharge pipe speeds up whenever sequentially passing through a first compressed air discharge hole of a protruding piece, a second hole of a packing, a second compressed air discharge hole of the nozzle, and a gap between an inner wall of a second extended diameter portion and an inclined portion of the inner tube. Furthermore, scraps included in food waste water cannot adhere to the inner surface of the compressed air discharge pipe or the outer periphery surface of a food waste water discharge pipe to allow compressed air to be smoothly supplied to the compressed air discharge pipe, thereby maintaining the efficiency of the injection apparatus.

Description

Incinerator injection device using food waste water {INCINERATOR INJECTION APPARATUS USING WASTE WATER}

The present invention relates to an injector for removing harmful substances of the exhaust gas generated from domestic waste and industrial waste incinerator by using food waste water, and specifically, smoothly spraying operation without clogging by foreign substances contained in food waste water. The invention relates to a food wastewater injector.

Emissions from domestic and industrial waste incinerators include hazardous substances such as fugitive dust, sulfur oxides, carbon monoxide, nitrogen oxides, hydrogen chloride, heavy metals and dioxins.

The harmful substances cause air pollution, water pollution, and soil pollution, and provide a problem that damages the health of residents near the incinerator and the workers who work in the incinerator.

Therefore, in the domestic waste and industrial waste incinerators, a removal device for removing harmful substances of the exhaust gas is essentially installed.

Patent No. 10-1000284 filed and registered by the present applicant is published 'apparatus and method for removing nitrogen oxides from incinerators using food waste water and leachate.'

The nitrogen oxide removal device using the food waste water and the leachate is provided with an injection device for spraying the food waste water to the incinerator in order to remove the harmful substances of the exhaust gas generated in the incinerator.

However, since the general liquid injector used in the incinerator is mounted at the tip of the food wastewater supply pipe in which the compressed air injection pipe is disposed in the inner center, foreign matters of the food wastewater introduced through the wastewater supply pipe are formed on the inner surface of the injection nozzle. And there is a problem that is stuck to the compressed air discharge hole of the compressed air injection pipe.

To describe the problem in more detail, as disclosed in Korean Patent Publication No. 10-1058790, in the state where the injection nozzle 5 is coupled to the tip of the wastewater supply pipe 4a, the compressed air injection pipe 7 is Since it is disposed in the inner center of the wastewater supply pipe (4a) and the inner center of the injection nozzle (5) has a structure to pressurize the food wastewater flowing through the wastewater supply pipe (4a) with compressed air, foreign matter of the food wastewater The inner surface of the injection nozzle 5 and the nozzle hole 51 are attached to the outer circumferential surface of the compressed air injection pipe 7 and around the discharge hole of the compressed air injection pipe 7.

Accordingly, the conventional injector provides a problem that foreign matters in the food wastewater interfere with the movement path of the compressed air discharged from the compressed air injection pipe 7, and consequently, the efficiency of the injection nozzle is reduced.

In addition, in order to solve the above problems, in the state in which the operator separates the injection nozzle (5) from the waste water supply pipe (4a) from time to time to the nozzle hole (5) and the inside of the injection nozzle (5), and the compression The conventional injector provides a problem of cleaning the outer surface of the air injection pipe 7 and the inside of the discharge hole.

The present applicant has an object to solve the above problems.

The present invention provides a spray device comprising a supply pipe for discharging compressed air together with food waste water, a nozzle mounted to the tip of the supply pipe, and a nozzle tip mounted to the tip of the nozzle, wherein the supply pipe includes compressed air to the nozzle. Compressed air discharge pipe for supplying; A protruding end formed to protrude toward an inner center of the compressed air discharge pipe in a state in which a proximal end is fixedly connected to an inner circumferential surface of the compressed air discharge pipe, and a plurality of first compressed air discharge holes formed along a circumferential direction at a predetermined interval from each other; A food wastewater discharge pipe disposed at an inner center of the compressed air discharge pipe in a state where the tip passes through a space defined by the tip of the protruding piece, and supplying food wastewater to the nozzle, wherein the nozzle has one end of the food wastewater An inner tube inserted into the distal end of the discharge pipe and coupled to the food waste water discharge pipe, and the other end inserted into the inner space of the nozzle tip; It is coupled to the nozzle tip in a state that is fixedly circumferentially centered on the outer circumferential surface of the inner tube, the plurality of second compressed air discharge hole comprises an appearance formed along the circumferential direction at a predetermined interval from each other, the appearance, the diameter of the inner tube A first stepped portion having a larger diameter and having a fastening portion formed on an outer circumferential surface thereof; A second stepped portion disposed behind the first stepped portion and having a diameter larger than a diameter of the first stepped portion; And a second stepped portion disposed at the rear of the second stepped portion and facing the compressed air discharge pipe of the supply pipe and having a circular ring portion having the same diameter as that of the compressed air discharge pipe.

Incinerator injection apparatus using a food waste water according to the present invention, the compressed air flowing through the compressed air discharge pipe, the first compressed air discharge hole of the protrusion, the second hole of the packing, the second compressed air discharge hole of the nozzle and the second expansion Since the speed increases each time the slit between the inner wall of the neck and the inclined portion of the inner tube is sequentially increased, the effect of the food wastewater discharged from the inner tube of the nozzle can be injected to the incinerator with a strong pressure. Injector according to an example is provided.

In addition, the injection device according to an embodiment of the present invention, since the waste of food waste water does not have to stick to the inner surface of the compressed air discharge pipe or the outer peripheral surface of the food waste water discharge pipe, compressed air is smoothly supplied from the compressed air discharge pipe, It provides the effect of maintaining the efficiency of the injector.

1 is an exploded perspective view of an injector according to an embodiment of the present invention.
Figure 2 is an exploded cross-sectional view of the injector according to the embodiment of the present invention.
3 is a combined cross-sectional view of the injector according to the embodiment of the present invention.

Hereinafter, an incinerator injector using food wastewater according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 3. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as not to obscure the gist of the invention.

For reference, in the injector according to the embodiment of the present invention, the left and right symmetrical components are described on one side only so that they do not appear complicated in each drawing.

1 to 3, the incinerator injector 100 using food wastewater according to an embodiment of the present invention, the supply pipe 10 for discharging the compressed air together with the food wastewater; The nozzle 20 includes a nozzle 20 mounted at the tip of the supply pipe 10 and a nozzle tip 30 mounted at the tip of the nozzle 20.

The supply pipe 10, the compressed air discharge pipe 11 for supplying compressed air to the nozzle 20; The tip is protruded toward the inner center of the compressed air discharge pipe 11 in a state where the base is fixedly connected to the inner peripheral surface of the tip of the compressed air discharge pipe 11, and the plurality of first compressed air discharge holes 12a are spaced apart from each other by a predetermined interval. Protruding piece 12 formed along the circumferential direction with respect to; The food wastewater discharge pipe 13 is disposed at the inner center of the compressed air discharge pipe 11 in a state where the tip passes through a space defined by the tip of the protruding piece 12 and supplies the food waste water to the nozzle 20. It includes.

The base end of the compressed air discharge pipe 11 is connected to an air compressor (not shown).

The protruding piece 12 is formed inside the compressed air discharge pipe 11 in a state spaced apart from the front end of the compressed air discharge pipe 11 by a predetermined interval in the proximal direction.

As described above, the tip of the food waste water discharge pipe 13 passes through a circular partition portion defined by the tip of the protruding piece 12 and the compressed air discharge pipe is supported by the protruding piece 12. It is disposed in the center of the interior of (12), and the base is connected to a food wastewater supply facility not shown.

In addition, the engaging portion 4 is formed on the inner circumferential surface of the tip of the food wastewater discharge pipe 13.

Therefore, the supply pipe 10 may supply compressed air and food wastewater to the nozzle 20.

The nozzle 20, one end is inserted into the front end of the food waste water discharge pipe 13 is coupled with the food waste water discharge pipe 13, the other end is inserted into the inner space of the nozzle tip 30 is disposed ( 21); It is coupled to the nozzle tip 30 in a state that is fixedly circumferentially centered on the outer circumferential surface center of the inner tube 21, the plurality of second compressed air discharge holes (22a) formed along the circumferential direction at a predetermined interval from each other (22) ).

On one outer circumferential surface of the inner tube 21, a fastening portion (not shown) capable of fastening with the coupling portion 4 formed at the tip of the food wastewater discharge pipe 13 is formed.

The inclined portion 21a which is inclined upward in the direction in which the exterior 22 is formed is formed on the outer peripheral surface of the other end of the inner tube 21.

The second compressed air discharge hole 22a formed in the exterior 22 has a first compression formed in the protruding piece 12 when one end of the inner tube 21 is coupled to the tip of the food wastewater discharge tube 13. It is formed at a position corresponding to the position of the air discharge hole (12a).

In addition, the exterior 22 includes: a first stepped portion 22b having a diameter larger than the diameter of the inner tube 21 and having a fastening portion 3 formed on an outer circumferential surface thereof; A second stepped portion 22c disposed behind the first stepped portion 22b and having a diameter larger than that of the first stepped portion 22b; And a circular ring portion 22d1 disposed at a rear side of the second stepped portion 22c and facing the compressed air discharge pipe 11 of the supply pipe 10 and having a diameter the same as that of the compressed air discharge pipe 11. And a second stepped portion 22d protruding backward.

The nozzle tip 30 may include a first enlarged portion 31 in which the first stepped portion 22b of the exterior 22 is inserted and seated; A second enlarged portion 32 disposed in front of the first enlarged portion 31 and having a trapezoidal cross section and having an inclined portion 21a formed on an outer circumferential surface of the inner tube 21 inserted therein; The third enlarged portion 33 and the third enlarged portion (33) disposed in front of the second enlarged portion 32, the other end of the inner tube 21 inserted into the second enlarged portion 32 protrudes It is disposed in front of 33, and comprises a injection hole 34 for discharging the compressed air and the food waste water mixed in the third enlarged portion (33).

The inner peripheral surface of the nozzle tip 30 for partitioning the first enlarged portion 31 is a coupling portion (not shown) that can be fastened with the fastening portion 3 formed on the first stepped portion 22b of the exterior 22. ) Is formed.

The second enlarged portion 32 has a trapezoidal cross section as described above, and has a triangular space portion together with the inclined portion 21a of the inner tube 21 inserted into the second enlarged portion 32. Compartmentalize.

The third enlarged portion 33 is compressed air passing through the second compressed air discharge hole 22a and the second enlarged diameter portion 32 of the exterior 22 sequentially, and at the other end of the inner tube 21. The food waste water discharged is mixed with a space larger than that of the second enlarged portion 32.

 Accordingly, the compressed air introduced into the second enlarged portion 32 through the second compressed air discharge hole 22a is formed through a narrow gap between the other end of the inner tube 21 and the second expanded portion 32. Since it is moved to the third enlarged portion 33, the food waste water discharged to the third enlarged portion 33 through the other end of the inner tube 21 is easily at low pressure due to the venturi effect. It may be injected through the injection hole 34 of the nozzle tip 30.

And, in front of the third enlarged portion 33, the hemispherical round surface 33a so that the food waste water and compressed air mixed in the third enlarged portion 33 can be easily introduced into the injection hole 34 ) Is formed.

In addition, the injection hole 34, as shown in Figure 1, has a rectangular cross-section, so that the food waste water mixed in the third enlarged portion 33 can be spread wide horizontally in the incinerator.

For reference, the injection angle of the food wastewater discharged through the injection hole 34 may be adjusted according to the length of the space partitioned by the third enlarged portion 33.

That is, when the length of the space partitioned by the third enlarged portion 33 is short, the food waste water discharged through the injection hole 34 may be discharged while spreading at a wide angle, on the contrary, the third enlarged portion ( If the length of the space partitioned by 33 is long, the food waste water discharged through the injection hole 34 may be discharged while spreading to a narrow angle.

In addition, the incinerator injector 100 using the food wastewater of the present invention further includes a packing 40 interposed between the supply pipe 10 and the nozzle 20.

A first hole 41 through which one end of the nozzle 20 passes is formed at the center of the packing 40, and the first compressed air discharge hole 12a and the second compressed air discharge hole are formed. 22a and a plurality of flowable second holes 42 are formed in the circumferential direction at regular intervals from each other.

The front surface of the packing 40 is in contact with the ring portion 25 protruding from the rear surface of the third stepped portion 22d of the exterior 22, and the rear surface of the packing 40 is compressed air discharge pipe 11 of the supply pipe 10. In contact with the front end surface of the compressed air flowing between the nozzle 20 and the supply pipe 10 to prevent the discharge to the outside.

The compressed air flowing through the compressed air discharge pipe 11 may include the first compressed air discharge hole 12a of the protruding piece 12, the second hole 42 of the packing 40, and the nozzle 20. Since the speed increases each time through the gap formed between the second compressed air discharge hole (22a) and the inner wall of the second enlarged portion 32 and the inclined portion (21a) of the inner tube (21) of In addition, the injector according to the embodiment of the present invention provides an effect that the food wastewater discharged from the inner tube 21 of the nozzle 20 can be smoothly injected into the incinerator.

In addition, in the injection device 100 according to the embodiment of the present invention, since the waste of food waste water may not stick to the inner surface of the compressed air discharge pipe 11 or the outer circumferential surface of the food waste water discharge pipe 13, the compressed air is It is smoothly supplied from the compressed air discharge pipe 11, in turn, provides the effect of maintaining the efficiency of the injection device (100).

For reference, the injection device 100 according to the embodiment of the present invention is preferably used in an incinerator having a secondary combustion chamber, and accordingly, the stoker type, rotary kiln, fluidized bed and cement having a secondary combustion chamber are provided. It is preferably used in an incinerator or the like.

This is because the secondary combustion chamber of the incinerator is a zone for completely burning the incomplete combustion gas generated during the first incineration, and is a space having a high gas temperature by mixing the combustion gas, and according to the high temperature, the injector 100 This is because organic matter from food wastewater discharged from) can be sufficiently oxidized.

In addition, the injector according to the embodiment of the present invention in conjunction with the temperature sensor mounted on the incinerator, it is possible to adjust the injection amount of food wastewater discharged to the incinerator.

That is, when the combustion gas temperature of the incinerator is reduced by the food waste water injected into the incinerator, the compressed air supplied to the injector 100 of the present invention by receiving an electrical signal from the central control room by the temperature sensor provided in the incinerator; It is possible to reduce the amount of food waste water, on the contrary, when the temperature of the incinerator is raised, the temperature of the incinerator can be lowered by increasing the amount of compressed air and food waste water supplied to the injector 100 of the present invention.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, The present invention is not limited to these drawings.

10 supply pipe 11 compressed air discharge pipe
12: protrusion 12a: first compressed air discharge hole
13: food wastewater discharge pipe
20: nozzle 21: inner tube
22: appearance 22a: second compressed air discharge hole
22b: first stepped portion 22c: second stepped portion
22d: third stepped portion 30: nozzle tip
31: first enlarged portion 32: second enlarged portion
33: third enlarged portion 34: injection hole
40: packing

Claims (4)

Injector including a supply pipe 10 for discharging the compressed air together with the food waste water, a nozzle 20 mounted on the tip of the supply pipe 10 and a nozzle tip 30 mounted on the tip of the nozzle 20 as,
The supply pipe 10, the compressed air discharge pipe 11 for supplying compressed air to the nozzle 20; The tip is protruded toward the inner center of the compressed air discharge pipe 11 in a state where the base is fixedly connected to the inner peripheral surface of the tip of the compressed air discharge pipe 11, and the plurality of first compressed air discharge holes 12a are spaced apart from each other by a predetermined interval. Protruding piece 12 formed along the circumferential direction with respect to; The food wastewater discharge pipe 13 is disposed at the inner center of the compressed air discharge pipe 11 in a state where the tip passes through a space defined by the tip of the protruding piece 12 and supplies the food waste water to the nozzle 20. Including,
The nozzle 20, one end is inserted into the front end of the food waste water discharge pipe 13 is coupled with the food waste water discharge pipe 13, the other end is inserted into the inner space of the nozzle tip 30 is disposed ( 21); It is coupled to the nozzle tip 30 in a state that is fixedly circumferentially centered on the outer circumferential surface center of the inner tube 21, the plurality of second compressed air discharge holes (22a) formed along the circumferential direction at a predetermined interval from each other (22) ),
The outer surface 22 may include a first stepped portion 22b having a diameter larger than that of the inner tube 21 and having a fastening portion 3 formed on an outer circumferential surface thereof; A second stepped part 22c disposed behind the first stepped part 22b and having a diameter larger than the diameter of the first stepped part 22b; And a circular ring portion 22d1 disposed at a rear side of the second stepped portion 22c and facing the compressed air discharge pipe 11 of the supply pipe 10 and having a diameter the same as that of the compressed air discharge pipe 11. A third stepped portion 22d protruding backward;
The nozzle tip 30 may include a first enlarged portion 31 in which the first stepped portion 22b of the exterior 22 is inserted and seated; A second enlarged portion 32 disposed in front of the first enlarged portion 31 and having a trapezoidal cross section, and having an inclined portion 21a formed on the outer peripheral surface of the other end of the inner tube 21 inserted therein; The third enlarged portion 33 and the third enlarged portion (33) disposed in front of the second enlarged portion 32, the other end of the inner tube 21 inserted into the second enlarged portion 32 protrudes 33 is disposed in front of the, and the compressed air and the food waste water mixed in the third enlarged portion (33) includes a spray hole 34 is maintained by the venturi effect is discharged by the front hemispherical round surface (33a) and,
A first hole 41 which is assembled between the supply pipe 10 and the nozzle 20, through which one end of the inner tube 21 of the nozzle 20 can pass, and the first hole 41 of the first hole 41. At the edge, the first compressed air discharge hole 12a and the second compressed air discharge hole 22a and the plurality of second holes 42 that are circulated include a packing 40 formed in a circumferential direction with a predetermined interval therebetween. Incinerator injector using food wastewater, characterized in that. delete delete delete

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