CN215259847U - Unloading system of large-span garbage pyrolysis gasifier - Google Patents

Abstract

The utility model discloses a large-span rubbish pyrolysis gasifier unloading system, be in including feed bin and multiunit setting down unloading slewing mechanism on the feed bin, the length direction of feed bin and the width direction of rubbish pyrolysis gasifier are unanimous down, the multiunit unloading slewing mechanism is laid along the length direction of feed bin down, and the multiunit unloading slewing mechanism is laid in the direction of height dislocation of feed bin down, the long limit side of feed bin is down extended to the unloading slewing mechanism. The utility model relates to a rationally, the rubbish of being convenient for gets into rubbish pyrolysis gasifier to the demand of the horizontal large-span rubbish pyrolysis gasifier of adaptation, so that rubbish distributes evenly in the rubbish pyrolysis gasifier.

Description

Unloading system of large-span garbage pyrolysis gasifier

Technical Field

The utility model belongs to the technical field of the unloading of large-span rubbish pyrolysis gasifier, especially, relate to a large-span rubbish pyrolysis gasifier unloading system.

Background

Pyrolysis and gasification of garbage are processes of breaking macromolecules of organic components in the garbage to generate micromolecular gas, tar and residues. The garbage pyrolysis gasification technology not only realizes the harmlessness, reduction and reclamation of garbage, but also can effectively overcome the pollution problem caused by garbage incineration, thereby becoming a garbage treatment technology with considerable development prospect. However, the existing blanking device of the garbage pyrolysis gasification furnace has some problems:

firstly, the garbage is thermally expanded in a high-temperature environment, so that the garbage is not easy to enter a garbage pyrolysis gasification furnace when passing through a bin;

secondly, in the process that the garbage enters the garbage pyrolysis gasification furnace through the bin, the distribution of the garbage in the garbage pyrolysis gasification furnace is uneven, the amount of partial garbage in the garbage pyrolysis gasification furnace is less, and airflow short circuit exists; the pyrolysis gasification furnace has the problems of more partial garbage, insufficient pyrolysis gasification,

consequently, need a simple structure now, reasonable in design's large-span rubbish pyrolysis gasifier unloading system, the rubbish of being convenient for gets into rubbish pyrolysis gasifier to the demand of the horizontal large-span rubbish pyrolysis gasifier of adaptation, so that rubbish distributes evenly in the rubbish pyrolysis gasifier, and then improves pyrolysis gasification sufficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that not enough among the above-mentioned prior art is directed against, provide a large-span rubbish pyrolysis gasifier unloading system, its reasonable in design, the rubbish of being convenient for gets into rubbish pyrolysis gasifier to the demand of the horizontal large-span rubbish pyrolysis gasifier of adaptation, so that rubbish distributes evenly in the rubbish pyrolysis gasifier, and then improves pyrolysis gasification sufficiency, the practicality is strong.

In order to solve the technical problem, the utility model discloses a technical scheme is: the utility model provides a large-span rubbish pyrolysis gasifier unloading system which characterized in that: the garbage pyrolysis gasification furnace comprises a discharging bin and a plurality of groups of discharging rotating mechanisms arranged on the discharging bin, wherein the length direction of the discharging bin is consistent with the width direction of the garbage pyrolysis gasification furnace, the plurality of groups of discharging rotating mechanisms are arranged along the length direction of the discharging bin, the plurality of groups of discharging rotating mechanisms are arranged in a staggered manner in the height direction of the discharging bin, and the discharging rotating mechanisms extend out of the long side surface of the discharging bin;

the feeding rotating mechanism not only can push the garbage in the feeding bin to fall into the garbage pyrolysis gasification furnace, but also can push the blocked garbage in the feeding bin to be discharged outside the feeding bin.

The blanking system of the large-span garbage pyrolysis gasifier is characterized in that: an upper material bin is arranged at the top of the lower material bin and is communicated with the lower material bin;

go up feed bin and the inside equal cavity of feed bin down, and the inside of going up feed bin and feed bin down all is provided with a plurality of material chambeies of crossing, all is provided with a set of unloading slewing mechanism in every material chamber of crossing, multiunit the width direction equipartition of material chamber along rubbish pyrolysis gasifier is crossed.

The blanking system of the large-span garbage pyrolysis gasifier is characterized in that: the blanking rotating mechanism comprises a first blanking rotating mechanism and a second blanking rotating mechanism which are symmetrically arranged and extend out of the long side face of the blanking bin, the first blanking rotating mechanism and the second blanking rotating mechanism are arranged along the length direction of the blanking bin, and a gap is formed between the first blanking rotating mechanism and the second blanking rotating mechanism so as to push garbage to fall into the furnace body.

The blanking system of the large-span garbage pyrolysis gasifier is characterized in that: a first containing cover for containing the extending part of the first blanking rotating mechanism is arranged on one long side surface of the lower storage bin, a second containing cover for containing the extending part of the second blanking rotating mechanism is arranged on the other long side surface of the lower storage bin, the first containing cover comprises an upper arc-shaped containing cover and a lower arc-shaped containing cover, a telescopic oil cylinder is arranged on one side of the lower storage bin, the telescopic end of the telescopic oil cylinder is connected with the upper arc-shaped containing cover, and the telescopic oil cylinder drives the upper arc-shaped containing cover to open and close;

the second accommodating cover is a semicircular accommodating cover.

The blanking system of the large-span garbage pyrolysis gasifier is characterized in that: the first blanking rotating mechanism and the second blanking rotating mechanism are identical in structure, and each of the first blanking rotating mechanism and the second blanking rotating mechanism comprises a blanking motor, a blanking speed reducer in transmission connection with the blanking motor, a rotating shaft extending into the blanking speed reducer and in transmission connection with the blanking speed reducer, and a pushing component sleeved on the rotating shaft and rotating along with the rotating shaft, wherein the rotating shaft and the pushing component are arranged in a material passing cavity of the blanking bin in a penetrating manner, and the pushing component extends out of the long side surface of the blanking bin;

the pushing component comprises a sleeve sleeved on the rotating shaft and a plurality of cutting heads arranged on the circumferential side wall of the sleeve.

Compared with the prior art, the utility model has the following advantage:

1. the utility model discloses long-span rubbish pyrolysis gasifier unloading system simple structure, reasonable in design and installation are laid portably.

2. The feeding bin is arranged to put the garbage to be pyrolyzed and gasified into the garbage pyrolysis gasification furnace, so that a channel is provided for conveying the garbage, on one hand, the garbage can be effectively stored to facilitate the conveying of the blanking rotating mechanism, and the treatment efficiency is improved; on the other hand, the distance between the feeding device and the top of the garbage pyrolysis gasification furnace is increased, the feeding process is prevented from being damaged by heat radiation in the garbage pyrolysis gasification furnace, and the feeding safety is improved.

3. The utility model discloses set up unloading slewing mechanism and be located rubbish and get into rubbish pyrolysis gasifier passageway through the feed bin on to make unloading slewing mechanism can not only carry out the breakage to rubbish, can reach in real time and even get into rubbish pyrolysis gasifier through the unloading passageway in addition, the rubbish of being convenient for gets into rubbish pyrolysis gasifier, with the demand that adapts to horizontal large-span rubbish pyrolysis gasifier, so that rubbish distributes evenly in the rubbish pyrolysis gasifier, and then improves pyrolysis gasification sufficiency.

To sum up, the utility model relates to a rationally, the rubbish of being convenient for gets into rubbish pyrolysis gasifier to adapt to the demand of horizontal large-span rubbish pyrolysis gasifier, so that rubbish distributes evenly in the rubbish pyrolysis gasifier, and then improves pyrolysis gasification sufficiency, the practicality is strong.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of fig. 1.

Fig. 3 is a schematic structural diagram of the feeding bin of the present invention.

Fig. 4 is a schematic structural diagram of the discharging bin of the present invention.

Fig. 5 is a schematic structural view of the discharging rotating mechanism of the present invention.

Fig. 6 is the schematic structural diagram of the discharging rotating mechanism after the accommodating cover is removed.

Description of reference numerals:

1, feeding a bin; 11-a first upper material passing cavity; 12-a second upper material passing cavity;

13-an upper baffle plate; 14, a material blocking frame; 113-upper L-shaped plate;

114-lower L-shaped plate; 115 — a first vertical support bar; 116 — a second vertical support bar;

117-cross bar; 31 — a first containment cover; 311-upper arc containing cover;

312-lower arc containment hood; 313 — a hinge; 314-a connecting plate;

32 — a second containment case; 4, a telescopic oil cylinder; 5, discharging a bin;

51-a first lower material passing cavity; 52-second lower material passing cavity; 53-lower spacer;

54-a base; 55-a second support; 56-first support frame;

57 — a first opening; 58 — a second opening; 59-a blanking bin body;

510 — a top plate; 511-mounting groove; 6, a first blanking rotating mechanism;

7-a second blanking rotating mechanism; 71-a blanking motor;

72-blanking reducer; 73-a rotating shaft; 74-connecting plate;

75-vertical support plates; 77-sleeve; 78-a cutting head;

710-a seated bearing; 711 — end bearing.

Detailed Description

As shown in fig. 1 to 6, the utility model comprises a discharging bin 5 and a plurality of groups of discharging rotating mechanisms arranged on the discharging bin 5, wherein the length direction of the discharging bin 5 is consistent with the width direction of the garbage pyrolysis gasifier, a plurality of groups of discharging rotating mechanisms are arranged along the length direction of the discharging bin 5, and a plurality of groups of discharging rotating mechanisms are arranged in a staggered manner in the height direction of the discharging bin 5, and the discharging rotating mechanisms extend out of the long side surface of the discharging bin 5;

unloading slewing mechanism can not only promote the rubbish whereabouts in the feed bin 5 down to the rubbish pyrolysis gasification stove in, can promote the rubbish of blockking up in the feed bin 5 down to arrange outside the feed bin 5 moreover.

In the embodiment, an upper bin 1 is arranged at the top of the lower bin 5, and the upper bin 1 is communicated with the lower bin 5;

go up feed bin 1 and the inside equal cavity of feed bin 5 down, and the inside of going up feed bin 1 and feed bin 5 all is provided with a plurality of material chambeies of crossing, all is provided with a set of unloading slewing mechanism, multiunit in every material chamber of crossing the width direction equipartition of material chamber along rubbish pyrolysis gasifier.

As shown in fig. 2, in this embodiment, the blanking rotating mechanism includes a first blanking rotating mechanism 6 and a second blanking rotating mechanism 7 which are symmetrically arranged and extend out of the long side surface of the lower bin 5, the first blanking rotating mechanism 6 and the second blanking rotating mechanism 7 are arranged along the length direction of the lower bin 5, and a gap is provided between the first blanking rotating mechanism 6 and the second blanking rotating mechanism 7 so as to push the garbage to fall into the furnace body 10.

In this embodiment, a first accommodating cover 31 for accommodating the extending portion of the first blanking rotating mechanism 6 is disposed on one long side of the lower bin 5, a second accommodating cover 32 for accommodating the extending portion of the second blanking rotating mechanism 7 is disposed on the other long side of the lower bin 5, the first accommodating cover 31 includes an upper arc accommodating cover 311 and a lower arc accommodating cover 312, a telescopic cylinder 4 is disposed on one side of the lower bin 5, a telescopic end of the telescopic cylinder 4 is connected with the upper arc accommodating cover 311, and the telescopic cylinder 4 drives the upper arc accommodating cover 311 to open and close;

the second receiving cover 32 is a semicircular receiving cover.

As shown in fig. 5 and 6, in this embodiment, the first blanking rotating mechanism 6 and the second blanking rotating mechanism 7 have the same structure, and each of the first blanking rotating mechanism 6 and the second blanking rotating mechanism 7 includes a blanking motor 71, a blanking reducer 72 in transmission connection with the blanking motor 71, a rotating shaft 73 extending into the blanking reducer 72 and in transmission connection with the blanking reducer 72, and a pushing member sleeved on the rotating shaft 73 and rotating along with the rotating shaft 73, wherein the rotating shaft 73 and the pushing member are inserted into the material passing cavity of the blanking bin 5, and the pushing member extends out of the long side surface of the blanking bin 5;

the pushing means includes a sleeve 77 fitted over the rotating shaft 73 and a plurality of cutting heads 78 provided on circumferential side walls of the sleeve 77.

In this embodiment, the inside of going up feed bin 1 and feed bin 5 all is provided with 2 punishment in advance chambeies, the quantity of unloading slewing mechanism is 2 groups, and 2 groups the unloading slewing mechanism is laid at 5 direction of height dislocation of feed bin down.

As shown in fig. 3, in this embodiment, an upper partition plate 13 is disposed in the upper storage bin 1, and the upper partition plate 13 divides the upper storage bin 1 into a first upper material passing cavity 11 and a second upper material passing cavity 12;

a lower partition plate 53 is arranged in the lower storage bin 5, the lower partition plate 53 divides the lower storage bin 5 into a first lower material passing cavity 51 and a second lower material passing cavity 52, the first lower material passing cavity 51 is communicated with the first upper material passing cavity 11, and the second lower material passing cavity 52 is communicated with the second upper material passing cavity 12; the 2 groups of blanking rotating mechanisms comprise a first group of blanking mechanisms arranged in a first lower blanking cavity 51 and a second group of blanking mechanisms arranged in a second lower blanking cavity 52, and the first group of blanking mechanisms and the second group of blanking mechanisms are arranged in a staggered mode in the height direction.

In this embodiment, two opposite outer side surfaces of the upper bunker 1 are provided with first auxiliary supporting members, another opposite outer side surface of the upper bunker 1 is provided with a second auxiliary supporting member, each first auxiliary supporting member includes an upper L-shaped plate 113, a lower L-shaped plate 114 and a first supporting rod arranged between the upper L-shaped plate 113 and the lower L-shaped plate 114, and each first supporting rod includes a first vertical supporting rod 115 and a cross rod 117 arranged at two sides of the first vertical supporting rod 115;

the second auxiliary supporting member comprises an upper L-shaped plate 113, a lower L-shaped plate 114 and a second supporting rod arranged between the upper L-shaped plate 113 and the lower L-shaped plate 114, the second supporting rod comprises two second vertical supporting rods 116 arranged in parallel and a cross rod 117 arranged between the two second vertical supporting rods 116, and two ends of each of the first vertical supporting rod 115, the second vertical supporting rod 116 and the cross rod 117 are connected with the upper L-shaped plate 113 and the lower L-shaped plate 114.

In this embodiment, the material blocking frames 14 are arranged at the tops of the first upper material passing cavity 11 and the second upper material passing cavity 12, and the material blocking frames 14 are gradually and obliquely arranged outwards, so that the section of the feed port formed at the top of the material blocking frame 14 is larger than the section of the top of the upper storage bin.

As shown in fig. 4, in this embodiment, the blanking bin 5 includes a base 54, a blanking bin body 59 disposed on the base 54, and a top plate 510 disposed on the top of the blanking bin body 59, the lower partition plate 53 is located in the middle of the blanking bin body 59 and extends to the top surface of the top plate 510, and the blanking bin body 59 is provided with an opening portion for installing a blanking rotating mechanism.

As shown in fig. 4, in the present embodiment, the blanking cartridge body 59 is provided with two first opening portions 57 symmetrically arranged and communicated with the first blanking cartridge 51 and two second opening portions 58 symmetrically arranged and communicated with the second blanking cartridge 52, the two first blanking rotating mechanisms are respectively installed on the two first opening portions 57, and the two second blanking rotating mechanisms are respectively installed on the two second opening portions 58.

In this embodiment, the first opening portion 57 and the second opening portion 58 are arranged in the lower bin 5 in the height direction in a staggered manner, so that the first blanking rotating mechanisms and the second blanking rotating mechanisms can be conveniently installed, the length of the lower bin 5 is effectively adapted, and the compactness is improved.

In this embodiment, one end of the base 54 is provided with a first support frame 56 for installing the two first blanking rotating mechanisms, and the other end of the base 54 is provided with a second support frame 55 for installing the two second blanking rotating mechanisms.

In this embodiment, a hinge 313 is disposed on a long side of the blanking silo body 59, the top of the upper arc-shaped accommodating cover 311 is hinged to the hinge 313, a connecting plate 314 is disposed on the lower portion of the outer side wall of the upper arc-shaped accommodating cover 311, and the telescopic end of the telescopic cylinder 4 is connected to the connecting plate 314, so that the telescopic cylinder 4 can drive the upper arc-shaped accommodating cover 311 to open and close along the hinge 313.

In this embodiment, the upper arc-shaped accommodating cover 311 and the lower arc-shaped accommodating cover 312 are arranged to facilitate the outward discharge of the garbage blocked in the first lower material passing cavity 51 and the second lower material passing cavity 52 by opening the upper arc-shaped accommodating cover 311.

As shown in fig. 6, in this embodiment, a connecting plate 74 is disposed between the discharging reducer 72 and the discharging cabin 59, a bearing with a seat 710 for rotatably mounting the rotating shaft 73 is disposed on the second supporting frame 55 and the first supporting frame 56, a vertical supporting plate 75 is disposed on the discharging cabin 59, and an end bearing 711 for rotating an end of the rotating shaft 73 is disposed on the vertical supporting plate 75.

In this embodiment, the blanking bin body 59 is provided with a mounting groove 511 for mounting the vertical support plate 75.

In this embodiment, the cutting head 78 includes a rectangular portion and a trapezoid portion integrally formed with the rectangular portion, the trapezoid portion gradually decreases in cross section from a position close to the sleeve 77 to a position away from the sleeve 77, and the rotating shaft 73 drives the sleeve 77 and the cutting head 78 to rotate.

In this embodiment, the blanking motor 71 is operated to rotate, the blanking motor 71 rotates to drive the rotating shaft 73 to rotate through the blanking reducer 72, the rotating shaft 73 rotates to drive the pushing part to rotate, the pushing part in the first blanking rotating mechanism 6 rotates clockwise, and the pushing part in the second blanking rotating mechanism 7 rotates counterclockwise, so that the garbage between the two pushing parts falls into the garbage pyrolysis gasifier;

when the garbage between the two pushing components is blocked, the pushing components in the first blanking rotating mechanism 6 and the pushing components in the second blanking rotating mechanism 7 both rotate anticlockwise, so that the blocked garbage is discharged to the first accommodating cover 31; then the telescopic oil cylinder 4 is operated to contract, the telescopic oil cylinder 4 contracts to drive the upper arc-shaped containing cover 311 to be opened, and therefore the blocked garbage is discharged out of the lower bin 5.

To sum up, the utility model discloses simple structure, reasonable in design, the rubbish of being convenient for gets into rubbish pyrolysis gasifier to the demand of the horizontal large-span rubbish pyrolysis gasifier of adaptation, so that rubbish distributes evenly in the rubbish pyrolysis gasifier, and then improves pyrolysis gasification sufficiency, the practicality is strong.

The above, only be the utility model discloses a preferred embodiment, it is not right the utility model discloses do any restriction, all according to the utility model discloses the technical entity all still belongs to any simple modification, change and the equivalent structure change of doing above embodiment the utility model discloses technical scheme's within the scope of protection.

Claims (5)

1. The utility model provides a large-span rubbish pyrolysis gasifier unloading system which characterized in that: the garbage thermal decomposition gasification furnace comprises a lower storage bin (5) and a plurality of groups of blanking rotating mechanisms arranged on the lower storage bin (5), wherein the length direction of the lower storage bin (5) is consistent with the width direction of the garbage thermal decomposition gasification furnace, the plurality of groups of blanking rotating mechanisms are distributed along the length direction of the lower storage bin (5), the plurality of groups of blanking rotating mechanisms are distributed in a staggered mode in the height direction of the lower storage bin (5), and the blanking rotating mechanisms extend out of the long side lateral surface of the lower storage bin (5);

the unloading slewing mechanism can not only promote the rubbish in feed bin (5) down to fall to the rubbish pyrolysis gasification stove in, can promote the rubbish that blocks up in feed bin (5) down to arrange outside feed bin (5) moreover.

2. The blanking system of the large-span garbage pyrolysis gasifier according to claim 1, characterized in that: an upper storage bin (1) is arranged at the top of the lower storage bin (5), and the upper storage bin (1) is communicated with the lower storage bin (5);

go up feed bin (1) and feed bin (5) inside all cavity down, and the inside of going up feed bin (1) and feed bin (5) all is provided with a plurality of material chambeies of crossing, all is provided with a set of unloading slewing mechanism, multiunit in every material chamber of crossing the width direction equipartition of rubbish pyrolysis gasifier is followed to the material chamber of crossing.

3. The blanking system of the large-span garbage pyrolysis gasifier according to claim 1, characterized in that: unloading slewing mechanism lays and all stretches out first unloading slewing mechanism (6) and second unloading slewing mechanism (7) of feed bin (5) long limit side down including the symmetry, first unloading slewing mechanism (6) and second unloading slewing mechanism (7) are followed the length direction of feed bin (5) is laid down, just be provided with the clearance between first unloading slewing mechanism (6) and second unloading slewing mechanism (7) to promote rubbish whereabouts to in furnace body (10).

4. The blanking system of the large-span garbage pyrolysis gasifier according to claim 3, characterized in that: a first containing cover (31) for containing the extending part of the first blanking rotating mechanism (6) is arranged on one long side of the lower storage bin (5), a second containing cover (32) for containing the extending part of the second blanking rotating mechanism (7) is arranged on the other long side of the lower storage bin (5), the first containing cover (31) comprises an upper arc containing cover (311) and a lower arc containing cover (312), a telescopic oil cylinder (4) is arranged on one side of the lower storage bin (5), the telescopic end of the telescopic oil cylinder (4) is connected with the upper arc containing cover (311), and the telescopic oil cylinder (4) drives the upper arc containing cover (311) to open and close;

the second accommodating cover (32) is a semicircular accommodating cover.

5. The blanking system of the large-span garbage pyrolysis gasifier according to claim 4, characterized in that: the structure of the first blanking rotating mechanism (6) is the same as that of the second blanking rotating mechanism (7), the first blanking rotating mechanism (6) and the second blanking rotating mechanism (7) respectively comprise a blanking motor (71), a blanking speed reducer (72) in transmission connection with the blanking motor (71), a rotating shaft (73) extending into the blanking speed reducer (72) and in transmission connection with the blanking speed reducer (72), and a pushing component sleeved on the rotating shaft (73) and rotating along with the rotating shaft (73), the rotating shaft (73) and the pushing component are arranged in a material passing cavity of the blanking bin (5) in a penetrating manner, and the pushing component extends out of the long side face of the blanking bin (5);

the pushing component comprises a sleeve (77) sleeved on the rotating shaft (73) and a plurality of cutting heads (78) arranged on the circumferential side wall of the sleeve (77).

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