CN106801873A

CN106801873A - A kind of high efficiency domestic garbage disposer

Info

Publication number: CN106801873A
Application number: CN201710024238.1A
Authority: CN
Inventors: 曹文波; 张文锐; 魏凌敏; 舒志强; 唐武才; 李启仁; 李文龙; 郎志中
Original assignee: Anhui Weiming Dinghe Environmental Protection Co Ltd
Current assignee: Anhui Weiming Dinghe Environmental Protection Co Ltd
Priority date: 2017-01-13
Filing date: 2017-01-13
Publication date: 2017-06-06
Anticipated expiration: 2037-01-13
Also published as: CN106801873B

Abstract

The present invention proposes a kind of high efficiency domestic garbage disposer, and the first body of heater has storage cavity, and storage cavity periphery is provided with annular incubation cavity, and annular incubation cavity periphery is provided with annular cooling chamber；Second body of heater has combustion chamber, oxygen supply mechanism, grate, the first muffler and multiple second mufflers are provided with combustion chamber, first muffler is arranged horizontally in combustion chamber top and its outlet side connects with annular incubation cavity, multiple second mufflers are arranged vertically in combustion chamber, and each second muffler is connected with the first muffler；Second body of heater is provided with observation tube, observation tube one end connects with the first muffler and its other end be provided with can closing door；Screw feed mechanism is used to be delivered to the material in storage cavity in combustion chamber；Multiple circulation pipe arranged for interval are in storage cavity and its two ends connects with annular incubation cavity.The present invention is high to garbage treatment efficiency, and incineration firing amount is big, and fully, the heat utilization ratio produced to incineration firing is high for incineration firing.

Description

A kind of high efficiency domestic garbage disposer

Technical field

The present invention relates to technical field of waste treatment, more particularly to a kind of high efficiency domestic garbage disposer.

Background technology

At present, the mode of garbage disposal mainly has sanitary landfill method, During High-Temperature Composting method and burning method.Sanitary landfill method rubbish Treating capacity is big, simple to operate, but the percolate intractability that investment is big, rubbish is produced is big, and antiseepage film is damaged or percolate Bypass the dam site, a large amount of garbage leachates is permeated the ground by earth's surface, severe contamination is caused to surrounding enviroment and underground water source.High temperature nuclear reactor Fertile method makes rubbish by after compost treatment, house refuse becomes health, tasteless humus.Both the outlet of rubbish had been solved, and The purpose of resource is can reach, but consumer garbage compost amount is big, and nutrient content is low, and long-term use easily causes soil hardening and ground Lower water quality degenerates.Burning method is that rubbish is placed in high temperature furnace, makes a kind of method that wherein combustible component is fully oxidized, main at present Have again combustion-type, rotary furnace disc type, pyrolysis formula etc., treatment effect is pretty good, but have that incineration firing amount is small, incineration firing not Fully, the problems such as producing heat utilization ratio not high incineration firing.

The content of the invention

Based on technical problem present in background technology, the present invention proposes a kind of high efficiency domestic garbage disposer.

A kind of high efficiency domestic garbage disposer proposed by the present invention, including the first body of heater, the second body of heater, screw feeding Mechanism, circulation of tail gas mechanism, wherein：

First body of heater has storage cavity, and the first body of heater is provided with the first charging aperture connected with storage cavity, storage cavity periphery It is provided with annular incubation cavity；First body of heater is provided with the blast pipe connected with annular incubation cavity, and blast pipe outlet side is connected with first Blower fan；Annular incubation cavity periphery is provided with annular cooling chamber, and the first body of heater is provided with the cooling medium connected with annular cooling chamber and enters Mouth and cooling medium outlet；

Second body of heater has combustion chamber, and oxygen supply mechanism, grate, the first muffler and multiple second return-airs are provided with combustion chamber Pipe, the first muffler is arranged horizontally in combustion chamber top and its outlet side connects with annular incubation cavity, and multiple second mufflers are erected Directly it is arranged in combustion chamber, each second muffler is connected with the first muffler；Second body of heater is provided with observation tube, observation tube one End connected with the first muffler and its other end be provided with can closing door；

Screw feed mechanism is arranged on storage cavity bottom, for the material in storage cavity to be delivered in combustion chamber；

Circulation of tail gas mechanism includes multiple circulation pipes, vertically, multiple circulation pipe arranged for interval in storage cavity and Its two ends connects with annular incubation cavity.

Preferably, screw feed mechanism includes multiple chute feeders and multiple screw feeding components, and multiple chute feeders are simultaneously arranged Put in storage cavity bottom, the discharge end of chute feeder extend into combustion chamber and is located at grate top, and the feed end of chute feeder stretches out To the first body of heater, the feed end of outer and chute feeder is provided with second charging aperture；The quantity of screw feeding component and the quantity one of chute feeder Cause and a screw feeding component is arranged in a chute feeder.

Preferably, screw feeding component includes drive mechanism, rotating shaft, feeding blade, and drive mechanism is connected and drives with rotating shaft Dynamic axis of rotation, feeding blade screw arrangement is in rotating shaft periphery.

Preferably, also including air guide mechanism, air guide mechanism includes the second blower fan, the first wireway, the second wireway and many Individual 3rd wireway, is provided with air guide chamber in the first body of heater, inlet end, the outlet side in air guide chamber connect with annular incubation cavity, the One wireway, the second wireway, multiple 3rd wireways are arranged in air guide chamber, and first wireway one end reaches the first stove It is connected with the second blower fan in vitro and its other end is connected with the second wireway, multiple 3rd wireways connects with the second wireway Logical, the quantity of the 3rd wireway is consistent with the quantity of chute feeder and the 3rd wireway is connected with a feeding trench bottom.

Preferably, circulation pipe periphery spiral cloth is equipped with radiating ribs.

Preferably, vertically arranged for interval has multiple first annular dividing plates, first annular dividing plate in annular incubation cavity Annular incubation cavity is separated into spirality channel.

Preferably, vertically arranged for interval has multiple second toroidal membranes, the second toroidal membrane in annular cooling chamber Annular cooling chamber is separated into spirality channel.

Preferably, the second body of heater is externally provided with heat-insulation layer.

In the present invention, the first body of heater has storage cavity, and storage cavity periphery is provided with annular incubation cavity, and annular incubation cavity periphery sets There is annular cooling chamber；Second body of heater has combustion chamber, and oxygen supply mechanism, grate, the first muffler and multiple the are provided with combustion chamber Two mufflers, the first muffler is arranged horizontally in combustion chamber top and its outlet side connects with annular incubation cavity, multiple second time Tracheae is arranged vertically in combustion chamber, and each second muffler is connected with the first muffler；Second body of heater is provided with observation tube, sees Examine pipe one end connected with the first muffler and its other end be provided with can closing door；Screw feed mechanism is used for the thing in storage cavity Material is delivered in combustion chamber；Circulation of tail gas mechanism includes multiple circulation pipes, and vertically, multiple circulation pipe arranged for interval are in storage Expect in chamber and its two ends connects with annular incubation cavity.During work, disposably a certain amount of rubbish is added from first charging aperture Storage cavity is interior and closes first charging aperture, and be delivered to the rubbish in storage cavity in combustion chamber by screw feed mechanism, at grate Igniting, oxygen supply mechanism carries out combustion-supporting, the temperature relatively concentration in combustion chamber, when rubbish enters combustion chamber to air is blasted in combustion chamber Burning point can be reached and can fully be burnt；First blower fan is evacuated at blast pipe, and rubbish fully burns and produces oxidized tail gas warp Cross the second muffler, the second muffler and enter annular incubation cavity, circulation pipe, finally discharged from blast pipe, using oxidized tail gas The amount of heat of carrying is heated to the rubbish in storage cavity so that rubbish is into can reach burning point during combustion chamber；From Cooling medium inlet to adding cooling medium in annular cooling chamber, and from cooling medium outlet discharge cooling medium, cooling medium First body of heater is lowered the temperature, is increased the service life, the hot water of generation can separately use it for anything else, and save resources, energy utilization rate is high, While cooling medium can carry out heat exchange and oxidized tail gas are lowered the temperature with the oxidized tail gas in annular incubation cavity.

In sum, the present invention sets combustion chamber by being set in storage cavity, the second body of heater in the first body of heater, in burning Lighted a fire in chamber, burning cavity temperature is relatively concentrated, rubbish burns into that can reach burning point during combustion chamber and can fully burn Substantial amounts of heat is produced to heat the rubbish in storage cavity；By setting annular incubation cavity, the first muffler, the second return-air Pipe, the amount of heat for producing oxidized tail gas to carry that fully burnt using rubbish is heated to the rubbish in storage cavity so that rubbish Rubbish is into can reach burning point during combustion chamber；By setting annular cooling chamber, the cooling medium of annular cooling chamber is to the first stove Body is lowered the temperature, and is increased the service life, and the hot water of generation can separately use it for anything else, and save resources, energy utilization rate is high, while cooling Medium can carry out heat exchange and oxidized tail gas are lowered the temperature with the oxidized tail gas in annular incubation cavity.

Brief description of the drawings

Fig. 1 is a kind of high efficiency domestic garbage disposer structural representation proposed by the present invention.

Specific embodiment

Reference picture 1, the present invention proposes a kind of high efficiency domestic garbage disposer, including the first body of heater 1, the second body of heater 2, Screw feed mechanism, circulation of tail gas mechanism, air guide mechanism, wherein：

First body of heater 1 has storage cavity 3 and air guide chamber 28, and the first body of heater 1 is provided with the first charging connected with storage cavity 3 Mouth 4, air guide chamber 28 is located at the lower section of storage cavity 3 and its inlet end, outlet side connect with annular incubation cavity 5.The periphery of storage cavity 3 sets There is annular incubation cavity 5, the first body of heater 1 is provided with the blast pipe 6 connected with annular incubation cavity 5, and the outlet side of blast pipe 6 is connected with Vertically arranged for interval has multiple first annular dividing plates 30 in one blower fan 7, annular incubation cavity 5, and first annular dividing plate 30 will Annular incubation cavity 5 is separated into spirality channel.The periphery of annular incubation cavity 5 is provided with annular cooling chamber 8, the first body of heater 1 be provided with The cooling medium inlet 9 of the connection of annular cooling chamber 8 and cooling medium outlet 10, cloth is vertically spaced in annular cooling chamber 8 Multiple second toroidal membranes 31 are equipped with, annular cooling chamber 8 is separated into spirality channel by the second toroidal membrane 31.

Second body of heater 2 has combustion chamber 11, and combustion chamber 11 is interior to be provided with oxygen supply mechanism 12, grate 13, the and of the first muffler 14 Multiple second mufflers 15, the first muffler 14 is arranged horizontally in the top of combustion chamber 11 and its outlet side connects with annular incubation cavity 5 Logical, multiple second mufflers 15 are arranged vertically in combustion chamber 11, and each second muffler 15 is connected with the first muffler 14.The Two bodies of heater 2 are provided with observation tube 16, the one end of observation tube 16 connects with the first muffler 14 and its other end be provided with can closing door 17. Second body of heater 2 is externally provided with heat-insulation layer 32.

Screw feed mechanism is arranged on the bottom of storage cavity 3, for the material in storage cavity 3 to be delivered in combustion chamber 11. Screw feed mechanism includes multiple chute feeders 19 and multiple screw feeding components, and multiple chute feeders 19 are arranged side by side in storage cavity 3 Bottom, the discharge end of chute feeder 19 is extend into combustion chamber 11 and is located at the top of grate 13, and the feed end of chute feeder 19 is reached Outer and chute feeder 19 the feed end of first body of heater 1 is provided with second charging aperture 20.The quantity of screw feeding component and chute feeder 19 Quantity is consistent and a screw feeding component is arranged in a chute feeder 19, and screw feeding component includes drive mechanism 21, turns Axle 22, feeding blade 23, drive mechanism 21 is connected with rotating shaft 22 and drive shaft 22 is rotated, and the screw arrangement of feeding blade 23 is turning The periphery of axle 22.

Circulation of tail gas mechanism includes multiple circulation pipes 18, and vertically, the arranged for interval of multiple circulation pipes 18 is in storage cavity 3 Interior and its two ends connect with annular incubation cavity 5, and the periphery spiral cloth of circulation pipe 18 is equipped with radiating ribs 29.

Air guide mechanism includes the second blower fan 24, the first wireway 25, the second wireway 26 and multiple 3rd wireways 27, the One wireway 25, the second wireway 26, multiple 3rd wireways 27 are arranged in air guide chamber 28, and the one end of the first wireway 25 is stretched Go out to the first body of heater 1 is outer and be connected with the second blower fan 24 and its other end is connected with the second wireway 26, the 3rd wireways 27 of multiple Connected with the second wireway 26, the quantity of the 3rd wireway 27 is consistent with the quantity of chute feeder 19 and the 3rd wireway 27 Connected with a bottom of chute feeder 19.

During present invention work, disposably a certain amount of rubbish is added in storage cavity 3 and closing first from first charging aperture 4 Be delivered to rubbish in storage cavity 3 in combustion chamber 11 by charging aperture 4, screw feed mechanism, is lighted a fire at grate 13, oxygen supply mechanism 12 carry out combustion-supporting, the temperature relatively concentration in combustion chamber 11 to air is blasted in combustion chamber 11, can when rubbish is into combustion chamber 11 Reach burning point and can fully burn.First blower fan 7 is evacuated at blast pipe 6, and rubbish fully burns and produces oxidized tail gas to pass through Second muffler 15, the second muffler 14 enter annular incubation cavity 5, circulation pipe 18, are finally discharged from blast pipe 6, using oxygen The amount of heat for changing tail gas carrying is heated to the rubbish in storage cavity 3 so that rubbish can reach into during combustion chamber 11 Burning point.Cooling medium is added in from cooling medium inlet 9 to annular cooling chamber, and is situated between from the discharge cooling of cooling medium outlet 10 Matter, cooling medium is lowered the temperature to the first body of heater 1, is increased the service life, and the hot water of generation can separately use it for anything else, save resources, Energy utilization rate is high, while cooling medium can carry out heat exchange with the oxidized tail gas in annular incubation cavity being carried out to oxidized tail gas Cooling.Second blower fan 24 enters to air, air is blasted in the first wireway 25 by the second wireway 26, the 3rd wireway 27 In chute feeder 19, because the bottom rubbish temperature of storage cavity 3 is higher, by blasting air, the rubbish of the bottom of storage cavity 3 can be entered Row preheating so that rubbish can fully burn when entering combustion chamber 11；Due to air guide chamber 28 inlet end, outlet side with annular Incubation cavity 5 is connected, and oxidized tail gas can enter in air guide chamber 28 to the first wireway 25, the second wireway 26, the 3rd wireway Air in 27 is preheated, to reach more pre-burning effect.

A kind of high efficiency domestic garbage disposer proposed by the present invention, by set in the first body of heater 1 storage cavity 3, Combustion chamber 11 is set in second body of heater 2, the igniting in combustion chamber 11, temperature is relatively concentrated in combustion chamber 11, and rubbish enters combustion chamber Burning point can be reached when 11 and can fully be burnt；By setting annular incubation cavity 5, the first muffler 14, the second muffler 15, the amount of heat for producing oxidized tail gas to carry that fully burnt using rubbish is heated to the rubbish in storage cavity 3 so that rubbish Rubbish is into can reach burning point during combustion chamber 11；By setting annular cooling chamber 8, the cooling medium of annular cooling chamber 8 is to the One body of heater 1 is lowered the temperature, and is increased the service life, and the hot water of generation can separately use it for anything else, and save resources, energy utilization rate is high, together When cooling medium can carry out heat exchange with the oxidized tail gas in annular incubation cavity 5 oxidized tail gas are lowered the temperature；By setting Air guide mechanism, the rubbish to the bottom of storage cavity 3 carries out pre-burning so that rubbish can fully burn when entering combustion chamber 11.

The above, the only present invention preferably specific embodiment, but protection scope of the present invention is not limited thereto, Any one skilled in the art the invention discloses technical scope in, technology according to the present invention scheme and its Inventive concept is subject to equivalent or change, should all be included within the scope of the present invention.

Claims

1. a kind of high efficiency domestic garbage disposer, it is characterised in that including the first body of heater (1), the second body of heater (2), spiral Feed mechanism, circulation of tail gas mechanism, wherein：

With storage cavity (3), the first body of heater (1) is provided with the first charging aperture (4) connected with storage cavity (3) to first body of heater (1), Storage cavity (3) periphery is provided with annular incubation cavity (5)；First body of heater (1) is provided with the blast pipe connected with annular incubation cavity (5) (6), blast pipe (6) outlet side is connected with the first blower fan (7)；Annular incubation cavity (5) periphery is provided with annular cooling chamber (8), first Body of heater (1) is provided with the cooling medium inlet (9) and cooling medium outlet (10) connected with annular cooling chamber (8)；

Second body of heater (2) is provided with oxygen supply mechanism (12), grate (13), the first return-air with combustion chamber (11) in combustion chamber (11) Pipe (14) and multiple second mufflers (15), the first muffler (14) be arranged horizontally in combustion chamber (11) top and its outlet side and Annular incubation cavity (5) connection, multiple second mufflers (15) are arranged vertically in combustion chamber (11), and each second muffler (15) is Connected with the first muffler (14)；Second body of heater (2) is provided with observation tube (16), observation tube (16) one end and the first muffler (14) connection and be provided with can closing door (17) for its other end；

Screw feed mechanism is arranged on storage cavity (3) bottom, for the material in storage cavity (3) to be delivered into combustion chamber (11) It is interior；

Circulation of tail gas mechanism includes multiple circulation pipes (18), and vertically, multiple circulation pipe (18) arranged for interval are in storage cavity (3) interior and its two ends connect with annular incubation cavity (5).

2. high efficiency domestic garbage disposer according to claim 1, it is characterised in that screw feed mechanism includes many Individual chute feeder (19) and multiple screw feeding components, multiple chute feeders (19) are arranged side by side in storage cavity (3) bottom, chute feeder (19) discharge end extend into combustion chamber (11) and is located at grate (13) top, and the feed end of chute feeder (19) reaches first Body of heater (1) is outward and the feed end of chute feeder (19) is provided with second charging aperture (20)；The quantity and chute feeder of screw feeding component (19) quantity is consistent and a screw feeding component is arranged in a chute feeder (19).

3. high efficiency domestic garbage disposer according to claim 2, it is characterised in that screw feeding component includes driving Motivation structure (21), rotating shaft (22), feeding blade (23), drive mechanism (21) is connected with rotating shaft (22) and drive shaft (22) turns Dynamic, feeding blade (23) screw arrangement is in rotating shaft (22) periphery.

4. high efficiency domestic garbage disposer according to claim 2, it is characterised in that also including air guide mechanism, lead Mechanism of qi structure includes the second blower fan (24), the first wireway (25), the second wireway (26) and multiple 3rd wireways (27), first Air guide chamber (28) is provided with body of heater (1), inlet end, the outlet side of air guide chamber (28) connect with annular incubation cavity (5), and first leads Tracheae (25), the second wireway (26), multiple 3rd wireways (27) are arranged in air guide chamber (28), the first wireway (25) One end reaches that the first body of heater (1) is connected outward with the second blower fan (24) and its other end is connected with the second wireway (26), multiple 3rd wireway (27) is connected with the second wireway (26), the quantity of the 3rd wireway (27) and the quantity one of chute feeder (19) Cause and the 3rd wireway (27) is connected with chute feeder (19) bottom.

5. the high efficiency domestic garbage disposer according to any one of claim 1-4, it is characterised in that circulation pipe (18) periphery spiral cloth is equipped with radiating ribs (29).

6. the high efficiency domestic garbage disposer according to any one of claim 1-4, it is characterised in that annular insulation Vertically arranged for interval has multiple first annular dividing plates (30) in chamber (5), and first annular dividing plate (30) is by annular incubation cavity (5) it is separated into spirality channel.

7. the high efficiency domestic garbage disposer according to any one of claim 1-4, it is characterised in that annular cooling Vertically arranged for interval has multiple second toroidal membranes (31) in chamber (8), and the second toroidal membrane (31) is by annular cooling chamber (8) it is separated into spirality channel.

8. the high efficiency domestic garbage disposer according to any one of claim 1-4, it is characterised in that the second body of heater (2) it is externally provided with heat-insulation layer (32).