CN109575964A - A kind of organic dangerous waste pyrolysis plant - Google Patents

Abstract

The invention discloses a kind of organic dangerous waste pyrolysis plants, including the cylinder that is carbonized, first through hole is provided in the top inner wall of the carbonization cylinder, discharge hole there are two being symmetrical arranged in the bottom interior wall of the carbonization cylinder, sieve plate is fixedly installed on the inner wall of the discharge hole, guide rod is slidably connected on the inner wall of the first through hole, the top of the guide rod is through first through hole and is welded with top plate, spring is arranged on the outer wall of the guide rod, top of the top and bottom end of the spring respectively with the bottom of top plate and the cylinder that is carbonized mutually is welded.The configuration of the present invention is simple, heating source can be internally heated carbonization cylinder, under driving motor, cam, guide rod and the isostructural cooperation of spring, scraper plate can be made to carry out transverse reciprocating in sieve plate mobile, allow to prevent that organic dangerous waste ontology can be adhered in sieve plate, it can lead to carbonization low efficiency to avoid carbonization effect is influenced, it is easy to use.

Description

A kind of organic dangerous waste pyrolysis plant

Technical field

The present invention relates to environmental technology field more particularly to a kind of organic dangerous waste pyrolysis plants.This equipment can dispose 16 The organic dangerous waste of major class, (pharmaceutical wastes (HW02), useless drug, drug (HW03), pesticide waste (HW04), timber preservative waste (HW05), spent organic solvent and waste containing organic solvent (HW06), waste mineral oil and waste containing mineral oil (HW08), oil/water, Hydrocarbon/aqueous mixtures or emulsion (HW09), smart (steaming) evaporate residue (HW11), coating, ink, pigment and similar products manufacture (HW12), organic resin class waste (HW13), photosensitive material waste (HW16), waste containing phenol (HW39), ether-containing waste (HW40), Organohalogen compounds waste (HW45), other wastes (HW49), catalyst waste (HW50)) it include more than 200 kinds of organic dangerous waste materials.

Background technique

Organic dangerous waste refer to be included in National Hazard waste register or according to the hazardous waste judging standard of national regulation and The waste with hazard property of discrimination method identification.Hazardous waste has toxicity, inflammability, explosivity, corrosivity, chemistry Reactivity or infectiousness can constitute ecological environment and human health and seriously endanger.

Organic dangerous waste can even seriously affect environment caused by human body because of it, thus must deal carefully with disposition safely, mesh The preceding facility to the processing of organic dangerous waste mainly includes crusher, charger, carbide furnace, cooling bay, oil water separator, cyclone dust removal Machine, alkali cleaning equipment, UV cleaning equipment etc., but existing carbide furnace to organic dangerous waste carry out high temperature cabonization when, organic dangerous waste It can be adhered to the bottom of carbide furnace, and influence carbonization effect, lead to the low efficiency that is carbonized, so it is proposed that a kind of organic dangerous waste heat Equipment is solved, to solve the problems, such as above-mentioned be previously mentioned.

Summary of the invention

The purpose of the present invention is to solve disadvantages existing in the prior art, and a kind of organic dangerous waste pyrolysis proposed is set It is standby.

To achieve the goals above, present invention employs following technical solutions:

A kind of organic dangerous waste pyrolysis plant, including carbonization cylinder, it is described carbonization cylinder top inner wall on be provided with first through hole, it is described It is symmetrical arranged in the bottom interior wall of cylinder that is carbonized there are two discharge hole, is fixedly installed with sieve plate on the inner wall of the discharge hole, institute It states and slidably connects guide rod on the inner wall of first through hole, the top of the guide rod through first through hole and is welded with top plate, described Spring is arranged on the outer wall of guide rod, top of the top and bottom end of the spring respectively with the bottom of top plate and the cylinder that is carbonized mutually is welded It connects, the two sides of the guide rod are welded with transverse slat, and the transverse slat is located in carbonization cylinder, and the side of transverse slat is rotatably connected to rotation Plate, the bottom of the rotor plate are welded with scraper plate, are in contact at the top of the bottom of the scraper plate and sieve plate, and the two of the guide rod Side is welded with high temperature resistant tension spring, and one end of the high temperature resistant tension spring is mutually welded with the side of rotor plate, the top of the carbonization cylinder Portion is symmetrically welded there are two vertical plate, and the same support plate, the fixed peace in the bottom of the support plate are welded at the top of two vertical plates Equipped with driving motor, cam, the bottom of the cam and the top of top plate are vertically welded on the output shaft of the driving motor It is in contact, the heating source of multiple spaced sets is fixedly installed on the outside of the carbonization cylinder.

Preferably, the second through-hole there are two being symmetrical arranged in the top inner wall of the carbonization cylinder, second through-hole Inner wall on be welded with charge pipe.

Preferably, it is described carbonization cylinder bottom interior wall on be welded with arc panel, be arranged on the arc panel it is fluted, It is welded with the same bottom plate on the two sides inner wall of the groove, third through-hole, the bottom end of the guide rod are provided on the bottom plate Through third through-hole and the lower section of bottom plate is extended to, and the bottom of guide rod is welded with limit plate, the top and bottom of the limit plate The bottom connection of plate touches.

Preferably, linear bearing is welded on the inner wall of the first through hole, straight line is run through on the top of the guide rod Bearing and the top for extending to carbonization cylinder, and guide rod is slidably connected with linear bearing.

Preferably, the bottom of the carbonization cylinder is welded with tapered box, and the discharge hole is located in tapered box, the cone Feed opening is provided in the bottom interior wall of shape box.

Preferably, the side of the tapered box is hinged with door-plate, and the door-plate is located at the lower section of feed opening.

Compared with prior art, it the beneficial effects of the present invention are: heating source can be internally heated carbonization cylinder, opens Dynamic driving motor can be rotated with moving cam, and cam can carry out sliding on top plate and top plate can be made to be vertically moved, Top plate can drive guide rod to be vertically moved, and guide rod will drive scraper plate and be moved in sieve plate, and cam can be detached from top plate, Then spring can be such that guide rod resets, and high temperature resistant tension spring can be such that scraper plate resets, and cam can then drive again with top plate contact Under motor, cam, guide rod and the isostructural cooperation of spring, guide rod can be made to carry out longitudinally reciprocating motion, guide rod can drive and scrape Plate carries out transverse reciprocating movement in sieve plate, then breeze can be fallen into tapered box.

The configuration of the present invention is simple, heating source can be internally heated carbonization cylinder, in driving motor, cam, guide rod Under the isostructural cooperation of spring, scraper plate can be made to carry out transverse reciprocating movement in sieve plate, allow to prevent that organic danger Useless ontology can be adhered in sieve plate, can lead to carbonization low efficiency to avoid carbonization effect is influenced, easy to use.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of organic dangerous waste pyrolysis plant proposed by the present invention；

Fig. 2 is a kind of enlarged drawing of the part A of organic dangerous waste pyrolysis plant proposed by the present invention；

Fig. 3 is a kind of top view of the scraper plate of organic dangerous waste pyrolysis plant proposed by the present invention；

Fig. 4 is a kind of flow chart of organic dangerous waste pyrolysis plant proposed by the present invention.

In figure: 1: carbonization cylinder, 2: charge pipe, 3: spring, 4: top plate, 5: cam, 6: driving motor, 7: support Plate, 8: vertical plate, 9: guide rod, 10: heating source, 11: arc panel, 12: scraper plate, 13: tapered box, 14: groove, 15: door Plate, 16: rotor plate, 17: discharge hole, 18: sieve plate, 19: transverse slat, 20: high temperature resistant tension spring, 21: bottom plate.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.

Referring to Fig.1-4, a kind of organic dangerous waste pyrolysis plant, including carbonization cylinder 1, be carbonized cylinder 1 top inner wall on be provided with First through hole is symmetrical arranged there are two discharge hole 17 in the bottom interior wall of cylinder 1 that is carbonized, is fixedly installed on the inner wall of discharge hole 17 Sieve plate 18, guide rod 9 is slidably connected on the inner wall of first through hole, and the top of guide rod 9 through first through hole and is welded with top plate 4, it is arranged with spring 3 on the outer wall of guide rod 9, the top and bottom end of spring 3 top with the bottom of top plate 4 and the cylinder 1 that is carbonized respectively It mutually welds, the two sides of guide rod 9 are welded with transverse slat 19, and transverse slat 19 is located in carbonization cylinder 1, and the side of transverse slat 19 is rotatably connected to Rotor plate 16, the bottom of rotor plate 16 are welded with scraper plate 12, and the bottom of scraper plate 12 is in contact with the top of sieve plate 18, guide rod 9 Two sides be welded with high temperature resistant tension spring 20, one end of high temperature resistant tension spring 20 mutually welds with the side of rotor plate 16, carbonization cylinder 1 Top is symmetrically welded there are two vertical plate 8, and the top of two vertical plates 8 is welded with the same support plate 7, and the bottom of support plate 7 is fixed Driving motor 6 is installed, cam 5, the bottom of cam 5 and the top phase of top plate 4 are vertically welded on the output shaft of driving motor 6 Contact, the outside of carbonization cylinder 1 are fixedly installed with the heating source 10 of multiple spaced sets, and heating source 10 can be to carbonization cylinder 1 It is internally heated, starting driving motor 6 can be rotated with moving cam 5, and cam 5 can be slided and be understood on the top plate 4 Vertically move top plate 4, top plate 4 can drive guide rod 9 to be vertically moved, and guide rod 9 will drive scraper plate 12 in sieve plate It is moved on 18, cam 5 can be detached from top plate 4, then spring 3 can be such that guide rod 9 resets, and high temperature resistant tension spring 20 can make scraper plate 12 It resets, and cam 5 can be contacted with top plate 4 again, then under driving motor 6, cam 5, guide rod 9 and the isostructural cooperation of spring 3, Guide rod 9 can be made to carry out longitudinally reciprocating motion, guide rod 9 can drive scraper plate 12 to carry out transverse reciprocating movement in sieve plate 18, Then breeze can be fallen into tapered box 13, the configuration of the present invention is simple, and heating source 10 can be internally heated carbonization cylinder 1, Under driving motor 6, cam 5, guide rod 9 and the isostructural cooperation of spring 3, scraper plate 12 can be made to carry out in sieve plate 18 laterally It moves back and forth, allows to prevent that organic dangerous waste ontology can be adhered in sieve plate 18, can be led to avoid carbonization effect is influenced Carbonization low efficiency is caused, it is easy to use.

In the present invention, it is symmetrical arranged in the top inner wall of cylinder 1 that is carbonized there are two the second through-hole, is welded on the inner wall of the second through-hole It is connected to charge pipe 2, arc panel 11 is welded in the bottom interior wall for the cylinder 1 that is carbonized, fluted 14 is arranged on arc panel 11, groove 14 It is welded with the same bottom plate 21 on the inner wall of two sides, third through-hole is provided on bottom plate 21, third through-hole is run through simultaneously in the bottom end of guide rod 9 The lower section of bottom plate 21 is extended to, and the bottom of guide rod 9 is welded with limit plate, the top of limit plate and the bottom connection of bottom plate 21 It touches, linear bearing is welded on the inner wall of first through hole, the top of guide rod 9 through linear bearing and extends to the upper of carbonization cylinder 1 Side, and guide rod 9 is slidably connected with linear bearing, the bottom of carbonization cylinder 1 is welded with tapered box 13, and discharge hole 17 is located at tapered box 13 It is interior, feed opening is provided in the bottom interior wall of tapered box 13, the side of tapered box 13 is hinged with door-plate 15, and door-plate 15 is located at blanking Mouthful lower section, heating source 10 can be internally heated carbonization cylinder 1, and starting driving motor 6 can be 5 turns with moving cam Dynamic, cam 5 can carry out sliding on the top plate 4 and top plate 4 can be made to be vertically moved, and top plate 4 can drive guide rod 9 to carry out longitudinal direction Mobile, guide rod 9 will drive scraper plate 12 and be moved in sieve plate 18, and cam 5 can be detached from top plate 4, then spring 3 can make guide rod 9 reset, and high temperature resistant tension spring 20 can be such that scraper plate 12 resets, and cam 5 can be contacted with top plate 4 again, then in driving motor 6, convex Under wheel 5, guide rod 9 and the isostructural cooperation of spring 3, guide rod 9 can be made to carry out longitudinally reciprocating motion, guide rod 9 can drive scraper plate 12 carry out transverse reciprocating movement in sieve plate 18, then breeze can be fallen into tapered box 13, the configuration of the present invention is simple, heating source 10 can be internally heated carbonization cylinder 1, under driving motor 6, cam 5, guide rod 9 and the isostructural cooperation of spring 3, can So that scraper plate 12 carries out transverse reciprocating movement in sieve plate 18, allow to prevent that organic dangerous waste ontology can be adhered to sieve plate On 18, carbonization low efficiency can be led to avoid carbonization effect is influenced, it is easy to use.

Working principle: when in use, heating source 10 is opened, 10 pairs of heating source carbonization cylinders 1 are internally heated, Ke Yicong Organic dangerous waste ontology is added to carbonization cylinder 1 in charge pipe 2, starts driving motor 6, driving motor 6 is rotated with moving cam 5, convex Wheel 5 can carry out sliding on the top plate 4 and top plate 4 can be made to be vertically moved, and top plate 4 drives guide rod 9 to be vertically moved, simultaneously Meeting compressed spring 3, guide rod 9 will drive transverse slat 19 and vertically moved, and transverse slat 19 drives movable plate 16 to be rotated, while can draw High temperature resistant tension spring 20 is stretched, movable plate 16 drives scraper plate 12 to be moved in sieve plate 18, and in addition guide rod 9 can be on bottom plate 21 Longitudinal sliding motion is carried out, cam 5 can be detached from top plate 4, then spring 3 can be such that guide rod 9 resets, and high temperature resistant tension spring 20 can make scraper plate 12 It resets, and cam 5 can be contacted with top plate 4 again, then under driving motor 6, cam 5, guide rod 9 and the isostructural cooperation of spring 3, Guide rod 9 can be made to carry out longitudinally reciprocating motion, guide rod 9 drives scraper plate 12 to carry out transverse reciprocating movement in sieve plate 18, then charcoal Slag can be fallen into tapered box 13, allow to prevent that organic dangerous waste ontology can be adhered in sieve plate 18, can be to avoid influence Carbonization effect and cause be carbonized low efficiency, it is easy to use；

The process flow of organic dangerous waste ontology are as follows: the organic dangerous waste ontology of big part is sent into charger after broken crusher machine, Organic dangerous waste ontology is sent into carbide furnace and is carbonized by charger, and light diesel fuel can be used as the initial fuel of carbide furnace combustion chamber There is provided thermal energy for carbide furnace, the breeze that carbide furnace generates can be transported to inorganic dangerous waste system, the pyrolysis gas that carbide furnace generates into Enter to divide gas bag, high-temperature oil gas and heavy oil can be separated, high-temperature oil gas is condensed by cooling bay, can be by fixed gas It is separated with oil water mixture, fixed gas can be used as fuel and be conveyed to carbide furnace combustion chamber, using oil water separator to oil Aqueous mixtures are separated, and oil water mixture can be divided into water phase and oily phase, and water phase can form W2-2 waste water, heavy oil and oil L2-1 pyrolysis oil mutually can be formed, in addition the flue gas of carbide furnace combustion chambers burn is successively through supercooling, cyclone dust removal, second level alkali It washes, gas-liquid separation, UV purification, activated carbon adsorption, eventually forms G2-2 combustion tail gas.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (6)

1. a kind of organic dangerous waste pyrolysis plant, including carbonization cylinder (1), which is characterized in that in the top inner wall of carbonization cylinder (1) It is provided with first through hole, is symmetrical arranged that there are two discharge hole (17), the discharge holes in the bottom interior wall of carbonization cylinder (1) (17) it is fixedly installed with sieve plate (18), is slidably connected on the inner wall of the first through hole guide rod (9) on inner wall, it is described to lead The top of bar (9) is through first through hole and is welded with top plate (4), is arranged with spring (3) on the outer wall of the guide rod (9), described Top of the top and bottom end of spring (3) respectively with the bottom of top plate (4) and carbonization cylinder (1) is mutually welded, and the two of the guide rod (9) Side is welded with transverse slat (19), and the transverse slat (19) is located in carbonization cylinder (1), and the side of transverse slat (19) is rotatably connected to rotation The bottom of plate (16), the rotor plate (16) is welded with scraper plate (12), the bottom of the scraper plate (12) and the top of sieve plate (18) Portion is in contact, and the two sides of the guide rod (9) are welded with high temperature resistant tension spring (20), one end of the high temperature resistant tension spring (20) with turn The side of movable plate (16) is mutually welded, and is symmetrically welded at the top of the carbonization cylinder (1) there are two vertical plate (8), the top of two vertical plates (8) Portion is welded with the same support plate (7), and the bottom of the support plate (7) is fixedly installed with driving motor (6), the driving motor (6) it is vertically welded on output shaft cam (5), is in contact at the top of the bottom and top plate (4) of the cam (5), the carbon Change the heating source (10) that multiple spaced sets are fixedly installed on the outside of cylinder (1).

2. a kind of organic dangerous waste pyrolysis plant according to claim 1, which is characterized in that the top of carbonization cylinder (1) It is symmetrical arranged on inner wall there are two the second through-hole, is welded with charge pipe (2) on the inner wall of second through-hole.

3. a kind of organic dangerous waste pyrolysis plant according to claim 1, which is characterized in that the bottom of carbonization cylinder (1) It is welded on inner wall arc panel (11), is arranged fluted (14) on the arc panel (11), the two sides inner wall of the groove (14) On be welded with the same bottom plate (21), be provided with third through-hole on the bottom plate (21), third is run through in the bottom end of the guide rod (9) Through-hole and the lower section for extending to bottom plate (21), and the bottom of guide rod (9) is welded with limit plate, the top of the limit plate and bottom plate (21) bottom connection touching.

4. a kind of organic dangerous waste pyrolysis plant according to claim 1, which is characterized in that on the inner wall of the first through hole It is welded with linear bearing, the top of the guide rod (9) runs through linear bearing and extends to the top of carbonization cylinder (1), and guide rod (9) It is slidably connected with linear bearing.

5. a kind of organic dangerous waste pyrolysis plant according to claim 1, which is characterized in that the bottom of carbonization cylinder (1) It is welded with tapered box (13), the discharge hole (17) is located in tapered box (13), sets in the bottom interior wall of the tapered box (13) It is equipped with feed opening.

6. a kind of organic dangerous waste pyrolysis plant according to claim 5, which is characterized in that the side of the tapered box (13) It is hinged with door-plate (15), the door-plate (15) is located at the lower section of feed opening.