CN205275474U - Aerobic fermentation equipment - Google Patents

Abstract

The utility model discloses an aerobic fermentation equipment, this aerobic fermentation equipment include fermentation storehouse (1), are provided with in this fermentation storehouse (1) to be used for mixtures and to follow the material the feed end of length direction (L) the follow this fermentation storehouse (1) in fermentation storehouse (1) mixs to agitating unit (2) of discharge end, wherein, be provided with a plurality of edges in the fermentation storehouse (1) baffle (3) that length direction (L) interval set up, the outward flange of baffle (3) with the bulkhead in fermentation storehouse (1) is connected in order to follow length direction (L) will a plurality of cavities are separated into in fermentation storehouse (1), be provided with on baffle (3) and make the material to follow length direction (L) reachs with the route motion of S type the opening of discharge end. This aerobic fermentation equipment is favorable to the material fermentation and can improves material flow nature.

Description

Aerobic fermentation equipment

Technical field

This utility model relates to organic solid waste material treating device, in particular it relates to a kind of aerobic fermentation equipment.

Background technology

Along with the stepping up of China's living standard, the quickening of urbanization process, urban population the change gathering expansion and people life style, the quantity of domestic waste, particularly organic waste sharply increases. For this, in prior art frequently with landfill and burn manage domestic waste. Although cost is low, technology simple for landfill reason, it is wide to be suitable for rubbish scope, but not only take up an area due to it big, addressing is difficult, can not effectively utilize useful resources therein, and surrounding more can be worked the mischief by percolate in landfill process, stench and landfill gas. Although burning and can farthest realizing organic waste minimizing and innoxious, but owing to investment and operation cost height, tail gas easily cause secondary pollution, and because organic waste calorific value is low, moisture content is high, and inapplicable. In organic waste, the content of organic matter is high, and N, P, K and other micronutrient levelss enrich, and are suitable for the organic waste resource reasons such as aerobic compost.

At present, aerobic compost reactor of the prior art is primarily present the defect of material fermentation weak effect and poor fluidity. In consideration of it, be necessary to provide the fermentation cabin of a kind of novel organic solid waste aerobic Zymolysis Equipment, to overcome or alleviated by drawbacks described above.

Utility model content

The purpose of this utility model is to provide a kind of aerobic fermentation equipment, and this aerobic fermentation equipment is conducive to material fermentation and can improve material fluidity.

To achieve these goals, this utility model provides a kind of aerobic fermentation equipment, this aerobic fermentation equipment includes fermentation cabin, this fermentation cabin is provided with for mixed material and material is stirred the agitating device to discharge end along the length direction L of described fermentation cabin from the feed end of this fermentation cabin, wherein, described fermentation cabin is provided with multiple along the described spaced dividing plate of length direction L, the outward flange of described dividing plate is connected with the bulkhead of described fermentation cabin, along described length direction L, described fermentation cabin is separated into multiple chamber, described dividing plate is provided with so that material along described length direction L with S type path movement arrive described discharge end opening.

Preferably, the part opening on described dividing plate is provided with sieve plate, and described sieve plate has screening hole.

Preferably, described opening includes being positioned at the upper opening on described dividing plate top and being positioned at the lower opening of described the lower partition.

Preferably, described upper opening include that left and right is arranged first on opening b on opening a and the second, described lower opening includes first time opening c and the second time opening d that left and right is arranged.

Preferably, described dividing plate at least includes the first dividing plate, second partition and the 3rd dividing plate, on the first of described first dividing plate, opening a and first time opening c is provided with described sieve plate, on the second of described second partition, opening b and second time opening d is provided with described sieve plate, on the first of described 3rd dividing plate, on opening a and the second, the one in opening b is provided with described sieve plate, first time opening c and second time opening d of described 3rd dividing plate are mounted on described sieve plate, described first dividing plate, second partition is alternately arranged along described length direction L, described 3rd dividing plate is last dividing plate in multiple described dividing plate along described length direction L, and described 3rd dividing plate is near described discharge end.

Preferably, described upper opening is surrounded by the roof of described fermentation cabin and described dividing plate, and described lower opening is surrounded by the diapire of described fermentation cabin and described dividing plate.

Preferably, described feed end is provided with the charging aperture of the roof being positioned at described fermentation cabin, and described discharge end is provided with the discharging opening in the middle part of the sidewall being positioned at described fermentation cabin.

Preferably, the roof of described fermentation cabin offers exhaust outlet and watch window, and described exhaust outlet and watch window are near the feed end of described fermentation cabin.

Preferably, described agitating device includes shaft and the multiple stirring paddles being arranged on described shaft, the plurality of stirring paddle axially arranging with circumferencial direction interval along described shaft.

Preferably, the bulkhead of described fermentation cabin is provided with heat-conducting oil heating layer and heat-insulation layer.

Preferably, the bottom of described fermentation cabin is provided with aerated conduit, described aerated conduit includes aeration supervisor and is connected to the many spaced apart aeration branch pipes at an equal pitch of described aeration supervisor, and the solarization air cap of described aerated conduit is arranged on the obliquely downward of this aerated conduit and becomes the angle between 40 �� to 60 �� with horizontal plane.

Preferably, described aerobic fermentation equipment is additionally provided with the PLC control system of the temperature for controlling in described fermentation cabin, humidity and oxygen content.

Pass through technique scheme, owing to the fermentation cabin in the aerobic fermentation equipment that this utility model provides being provided with multiple dividing plate, and described fermentation cabin is separated into multiple chamber by dividing plate, thereby may be ensured that material stops time enough in fermentation cabin, so that material fermentation is more abundant, on the other hand, due to dividing plate is provided with so that material along fermentation cabin length direction with S type path movement arrive described discharge end opening, so that the mobility of material significantly improves, it should be noted that, this S type path both can be along the observation of described length direction in previous-next-upper (or under-previous-next) path of continuing, the path that can also continue along the observation of described length direction in L-R-left side (or right-left-right side), even can also is that along the observation of described length direction in left tiltedly upper-right tiltedly under-path of left tiltedly upper continuity, concrete path is relevant with the position of the opening on dividing plate.

Other features and advantages of the utility model will be described in detail in detailed description of the invention part subsequently.

Accompanying drawing explanation

Accompanying drawing is used to offer and is further appreciated by of the present utility model, and constitutes a part for description, is used for explaining this utility model, but is not intended that restriction of the present utility model together with detailed description below. In the accompanying drawings:

Fig. 1 is the schematic front view of the aerobic fermentation equipment according to detailed description of the invention of the present utility model.

Fig. 2 is the schematic top view of the aerobic fermentation equipment according to detailed description of the invention of the present utility model.

Fig. 3 is the structural representation of the first dividing plate according to preferred implementation of the present utility model.

Fig. 4 is the structural representation of the second partition according to preferred implementation of the present utility model.

Fig. 5 is the simplified schematic diagram of the aerated conduit according to preferred implementation of the present utility model.

Fig. 6 is the simplified schematic diagram of the cross section of the aeration branch pipe according to preferred implementation of the present utility model.

Description of reference numerals

1 fermentation cabin 2 agitating device

3 dividing plate 4 sieve plates

6 aerated conduit 7PLC control system

8 gear train 9 motors

10 decelerator 11 charging apertures

12 discharging opening 13 exhaust outlets

14 watch window 15 heat-conducting oil heating layers

16 heat-insulation layer 17 temperature sensors

21 shaft 22 stirring paddles

Opening on opening 31b second on 31a first

31c second time opening of first time opening 31d

61 aerations are responsible for 62 aeration branch pipes

62a solarization air cap

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in detail. It should be appreciated that this described detailed description of the invention is merely to illustrate and explains this utility model, it is not limited to this utility model.

Referring to Fig. 1 and Fig. 2, this utility model provides a kind of aerobic fermentation equipment, this aerobic fermentation equipment includes fermentation cabin 1, this fermentation cabin 1 is provided with for mixed material and material is stirred the agitating device 2 to discharge end along the length direction L of fermentation cabin 1 from the feed end of this fermentation cabin 1, wherein, fermentation cabin 1 is provided with the spaced dividing plate 3 of multiple L along its length, the outward flange of dividing plate 3 is connected with the bulkhead of fermentation cabin 1, with L along its length, fermentation cabin 1 is separated into multiple chamber, dividing plate 3 is provided with so that material L along its length is with the opening of S type path movement arrival discharge end. this aerobic fermentation equipment is particularly suitable for use as the aerobic fermentation equipment of organic solid castoff, but is not limited to the aerobic fermentation equipment as organic solid castoff.

As mentioned above, owing to the fermentation cabin 1 in the aerobic fermentation equipment that this utility model provides being provided with multiple dividing plate 3, and fermentation cabin 1 is separated into multiple chamber by dividing plate 3, thereby may be ensured that material stops time enough in fermentation cabin 1, so that material fermentation is more abundant, on the other hand, due to dividing plate 3 is provided with so that material along described length direction with S type path movement arrive discharge end opening, so that the mobility of material significantly improves, it should be noted that, this S type path both can be along described length direction L observation in previous-next-upper (or under-previous-next) path of continuing, the path that can also continue along described length direction L observation in L-R-left side (or right-left-right side), even can also is that along described length direction L observation in left tiltedly upper-right tiltedly under-path of left tiltedly upper continuity, concrete path is relevant with the position of the opening on dividing plate, such as, when opening 31 includes the upper opening being positioned at dividing plate 3 top with the lower opening being positioned at dividing plate 3 bottom, material can by more than the upper opening on different dividing plates 3 and lower opening-under-upper (or under-previous-next) path movement of continuing, in addition, participate in Fig. 3 and Fig. 4, upper opening can also include that left and right is arranged first on opening 31b on opening 31a and the second, lower opening can also include first time opening 31c and the second time opening 31d that left and right is arranged, now material can pass through the path movement that on different dividing plate 3, the opening (on first opening 31a and first time opening 31c) on the left side and the opening (on second opening 31b and second time opening 31d) on the right continue with L-R-left side (or right-left-right side), so material with the observation of L along its length in left tiltedly upper-right tiltedly under-path movement of left tiltedly upper continuity time sieve plate on the position of opening arrange, here repeat no more, in a word, position regardless of the opening on dividing plate 3, how size and number is arranged, as long as enabling the L along its length of the material in fermentation cabin 1 to arrive discharge end with S type path movement, fall within protection domain of the present utility model.

According to preferred implementation of the present utility model, part opening 31 on dividing plate 3 can be provided with sieve plate 4, sieve plate 4 has screening hole so that material to be sieved, the benefit so arranged is: the sieve plate of difference screening hole dimension model can be selected to improve the adaptability of the aerobic fermentation equipment that this utility model provides according to material properties, and, adjust material fluidised form in fermentation cabin 1 by installing different sieve plates 4 at the diverse location of each dividing plate 3.

Preferably, dividing plate 3 can at least include the first dividing plate, second partition and the 3rd dividing plate, on the first of first dividing plate, opening 31a and first time opening 31c is provided with sieve plate 4, on the second of second partition, opening 31b and second time opening 31d is provided with sieve plate 4, on the first of 3rd dividing plate 3, on opening 31a and the second, the one in opening 31b is provided with sieve plate 4, first time opening 31c and second time opening 31d of the 3rd dividing plate 3 are mounted on sieve plate 4, first dividing plate, second partition L along its length is alternately arranged, 3rd dividing plate is last dividing plate 3 of L along its length in multiple dividing plate 3, and the 3rd dividing plate near discharge end, but this utility model is not limited to this.

Preferably; upper opening is surrounded by the roof of fermentation cabin 1 and dividing plate 3; lower opening is surrounded by the diapire of fermentation cabin 1 and dividing plate 3; certainly; upper opening and lower opening can also be only formed on dividing plate 3; namely the surrounding going up opening and lower opening is all the entity structure of dividing plate 3, and this scheme or similar scheme fall within protection domain of the present utility model.

Above-mentioned agitating device 2 can include shaft 21 and the multiple stirring paddles 22 being arranged on shaft 21, multiple stirring paddles 22 axially arranging with circumferencial direction interval along shaft 21, the power of agitating device 2 can be provided by motor 9, specifically, shaft 21 can be connected to motor 9 by gear train 8 and decelerator 10 power. Additionally, feed end can be provided with the charging aperture 11 of the roof being positioned at fermentation cabin 1, discharge end can be provided with the discharging opening 12 in the middle part of the sidewall being positioned at fermentation cabin 1. Need exist for illustrate be, discharging opening 12 is arranged in the middle part of the sidewall of fermentation cabin 1 rather than bottom and is to ensure that there is a certain amount of material all the time in the fermentation cabin 1 of discharge end, the lasting promotion relying on shaft 21 makes material be in stirring admixture, in fermentation cabin, inventory is if above shaft 21, stirring action is easy to the position making height of materials be promoted to discharging opening 12, thus facilitating material to discharge from discharging opening 12. And, the material of discharging opening 12 lower zone in fermentation cabin is constantly updated with stirring, so without there is material alluvial phenomenon.

Preferably, the roof of fermentation cabin 1 offers exhaust outlet 13 and watch window 14, and exhaust outlet 13 and watch window 14 are near the feed end of fermentation cabin 1.

Additionally, the bulkhead of fermentation cabin 1 is additionally provided with heat-conducting oil heating layer 15 and heat-insulation layer 16, owing to this partial content is not related to core utility model point of the present utility model, no longer describe in detail here.

Referring to Fig. 1, Fig. 2, Fig. 5 and Fig. 6, according to preferred implementation of the present utility model, the bottom of fermentation cabin 1 is also provided with aerated conduit 6 with can to the internal supplemental oxygen of fermentation cabin 1, aerated conduit 6 can include aeration supervisor 61 and be connected to aeration supervisor many of 61 spaced apart aeration branch pipe 62 at an equal pitch, and the solarization air cap 62a of aerated conduit 6 is arranged on the obliquely downward of this aerated conduit 6 and becomes the angle [alpha] (preferably 45 ��) between 40 �� to 60 �� with horizontal plane. When practical operation, it is possible to make agitating device 2 run in the way of forward stirring and reverse agitating function hocket, material so can be made more uniformly to mix.

According to preferred implementation of the present utility model, this aerobic fermentation equipment is also provided with for controlling the temperature in fermentation cabin 1, the PLC control system 7 of humidity and oxygen content, PLC control unit in this PLC control system 7 and the sensing equipment (such as the temperature sensor 17 etc. within fermentation cabin 1) in aerobic fermentation equipment and associative operation equipment (the control equipment of such as heat-conducting oil heating layer 15, control equipment of aerator being connected to aerated conduit 6 etc.) connect, automatically can control the duty of this aerobic fermentation equipment in real time according to PLC control unit, such as, the conduction oil in heat-conducting oil heating layer 15 can be passed through to the heating material in fermentation cabin 1 when temperature is too low in fermentation cabin 1, can to being aerated heat radiation in fermentation cabin 1 when temperature is too high, heat is made to discharge from exhaust outlet 13 in time, humidity too low or too high time can also by change ventilation frequency be adjusted, when oxygen content is not high, aerator (being connected to aerated conduit 6) carries out aeration supplemental oxygen etc. by aerated conduit 6. so drastically increase the automaticity of the aerobic fermentation equipment that this utility model provides.

Preferred implementation of the present utility model is described in detail above in association with accompanying drawing; but; this utility model is not limited to the detail in above-mentioned embodiment; in technology concept of the present utility model; the technical solution of the utility model can being carried out multiple simple variant, these simple variant belong to protection domain of the present utility model.

It is further to note that each the concrete technical characteristic described in above-mentioned detailed description of the invention, in reconcilable situation, it is possible to be combined by any suitable mode. In order to avoid unnecessary repetition, various possible compound modes are no longer illustrated by this utility model separately.

Additionally, can also carry out combination in any between various different embodiment of the present utility model, as long as it is without prejudice to thought of the present utility model, it should be considered as content disclosed in the utility model equally.

Claims (12)

1. an aerobic fermentation equipment, this aerobic fermentation equipment includes fermentation cabin (1), this fermentation cabin (1) is provided with for mixed material and material is stirred the agitating device (2) to discharge end along the length direction (L) of described fermentation cabin (1) from the feed end of this fermentation cabin (1), it is characterized in that, described fermentation cabin (1) is provided with multiple along described length direction (L) spaced dividing plate (3), the outward flange of described dividing plate (3) is connected, along described length direction (L), described fermentation cabin (1) is separated into multiple chamber with the bulkhead of described fermentation cabin (1), described dividing plate (3) is provided with so that material along described length direction (L) with S type path movement arrive described discharge end opening.

2. aerobic fermentation equipment according to claim 1, it is characterised in that the part opening on described dividing plate (3) is provided with sieve plate (4), and described sieve plate has screening hole on (4).

3. aerobic fermentation equipment according to claim 2, it is characterised in that described opening includes being positioned at the upper opening on described dividing plate (3) top and being positioned at the lower opening of described dividing plate (3) bottom.

4. aerobic fermentation equipment according to claim 3, it is characterized in that, described upper opening include that left and right is arranged first on opening (31b) on opening (31a) and second, described lower opening includes first time opening (31c) of left and right setting and second time opening (31d).

5. aerobic fermentation equipment according to claim 4, it is characterized in that, described dividing plate (3) at least includes the first dividing plate, second partition and the 3rd dividing plate, on the first of described first dividing plate, opening (31a) and first time opening (31c) are provided with described sieve plate (4), on the second of described second partition, opening (31b) and second time opening (31d) are provided with described sieve plate (4), on the first of described 3rd dividing plate (3), on opening (31a) and second, the one in opening (31b) is provided with described sieve plate (4), first time opening (31c) and second time opening (31d) of described 3rd dividing plate (3) are mounted on described sieve plate (4), described first dividing plate, second partition is alternately arranged along described length direction (L), described 3rd dividing plate is last dividing plate (3) in multiple described dividing plate (3) along described length direction (L), and described 3rd dividing plate is near described discharge end.

6. the aerobic fermentation equipment according to any one in claim 3 to 5, it is characterized in that, described upper opening is surrounded by the roof of described fermentation cabin (1) and described dividing plate (3), and described lower opening is surrounded by the diapire of described fermentation cabin (1) and described dividing plate (3).

7. aerobic fermentation equipment as claimed in any of claims 1 to 5, it is characterized in that, described feed end is provided with the charging aperture (11) of the roof being positioned at described fermentation cabin (1), and described discharge end is provided with the discharging opening (12) in the middle part of the sidewall being positioned at described fermentation cabin (1).

8. aerobic fermentation equipment as claimed in any of claims 1 to 5, it is characterized in that, the roof of described fermentation cabin (1) offers exhaust outlet (13) and watch window (14) and the feed end of described exhaust outlet (13) and the close described fermentation cabin (1) of watch window (14).

9. aerobic fermentation equipment as claimed in any of claims 1 to 5, it is characterized in that, described agitating device (2) includes shaft (21) and the multiple stirring paddles (22) being arranged on described shaft (21), the plurality of stirring paddle (22) axially arranging with circumferencial direction interval along described shaft (21).

10. aerobic fermentation equipment as claimed in any of claims 1 to 5, it is characterised in that be provided with heat-conducting oil heating layer (15) and heat-insulation layer (16) in the bulkhead of described fermentation cabin (1).

11. aerobic fermentation equipment as claimed in any of claims 1 to 5, it is characterized in that, the bottom of described fermentation cabin (1) is provided with aerated conduit (6), described aerated conduit (6) includes aeration supervisor (61) and is connected to described aeration and is responsible for many of (61) spaced apart aeration branch pipe (62) at an equal pitch, and the solarization air cap of described aerated conduit (6) is arranged on the obliquely downward of this aerated conduit (6) and becomes the angle between 40 �� to 60 �� with horizontal plane.

12. aerobic fermentation equipment as claimed in any of claims 1 to 5, it is characterized in that, described aerobic fermentation equipment is additionally provided with the PLC control system (7) of the temperature for controlling in described fermentation cabin (1), humidity and oxygen content.