CN204880139U - Gasifier material feeding unit - Google Patents

Abstract

The utility model provides a deironing is more convenient, and the scrap iron can not harm equipment or the indiscriminate gasifier material feeding unit who rolls. It includes breaker, band conveyer, first de -ironing separator, vibration feeder sieve, supporting platform and feeding barrel, and first de -ironing separator is located band conveyer's top and fixes at supporting platform through the support, and the vibration feeder sieve is the slope form, and the base of slope on slope is connected with feeding barrel, the second de -ironing separator is still installed to the top of vibration feeder sieve, its characterized in that: the first indisputable device that connects is installed to the discharge gate below of first de -ironing separator, the discharge gate below of second de -ironing separator is installed the second and is connect indisputable device, the first loudspeaker formula that is equipped with on the indisputable device that connects material mouthful, is connected with the slide after connecing material mouthful, and the end of slide is connected with negative pressure auto sucking machine through filtering mesh grid, and the terminal department of slide has still opened decurrent opening, and the slide still is provided with one -way joint with the junction of dump bin, the second connects the structure of indisputable device to connect indisputable device the same with first.

Description

Gasification furnace pay-off

Technical field

The utility model relates to a kind of gasification furnace pay-off of fixed-end forces field of engineering technology, specifically refers to a kind of device for transporting objects for vertical rotating pyrolysis gasification furnace.

Background technology

In fixed-end forces industry, carrying out disposal of refuse by the mode of pyrolytic gasification is a kind of novel garbage disposal means.In pyrolytic gasification processing procedure, rubbish can being transported in vertical rotating pyrolysis gasification furnace of stable and continuous be the basis of whole system.In actual process, the composition of rubbish is very complicated, and the material that the inside removing major part can be burnt also has iron wire outward, stone, the building wastes such as cement block.If directly sent in vertical rotating pyrolysis gasification furnace by this undressed rubbish, there will be the problems such as iron wire is wound around, bulk rubbish gets stuck, combustible combustion is insufficient.So in prior art, can screen before vertical rotating pyrolysis gasification furnace sent into by rubbish, by manually simply screening in the process of rubbish conveying, lacking a kind of device for transporting objects for vertical rotating pyrolysis gasification furnace with refuse classification function in prior art at present mostly.

The applicant of this patent finds, in existing patented technology, there is a device for transporting objects for vertical rotating pyrolysis gasification furnace, it comprises disintegrating machine 01, belt conveyor 02, first tramp iron separator 03, vibrating feed sieve 04, support platform 07 and blanking barrel 08, the initiating terminal of belt conveyor 02 is positioned at the below of the discharging opening of disintegrating machine 01, the end of belt conveyor 02 is positioned at the top of vibrating feed sieve 04, vibrating feed sieve 04 is connected to the below of support platform 07, first tramp iron separator 03 is positioned at the top of belt conveyor 02 and is fixed in support platform 07 by support, described vibrating feed sieve 04 is in ramped shaped, blanking barrel 08 is connected with at the bottom of the slope on described slope.It also comprises two roller feeding device 09, and two roller feeding devices 09 are arranged on the exit of blanking barrel 08.The top of described vibrating feed sieve 04 is also provided with the second tramp iron separator 06.Be provided with screenings material-falling hopper 05 below the sieve nest of described vibrating feed sieve 04, the exit of described screenings material-falling hopper 05 is connected with the conveyer belt 010 for blanking being transported to ground.The top of described blanking barrel 08 is provided with stuff level switch 011.Described stuff level switch 011 is radio frequency admittance material level indicator.

Although the problem of the artificial sub-material feeding that above-mentioned device well solves, but when reality uses, applicant finds that the scrap iron that the tramp iron separator of device sucks out directly drops on material receiving, such scrap iron is easy to pile higher and higher, just must clear up after a while, not so scrap iron is easy to and can be got on by tramp iron separator absorption.Scrap iron directly drops for some large iron blocks or spherical iron in addition, and easy infringement equipment or unrest are rolled.Generally speaking, there is deironing inconvenience in gasification furnace pay-off of the prior art, and scrap iron easily damages equipment or the weak point of disorderly rolling.

Utility model content

The technical problems to be solved in the utility model is, provides a kind of deironing convenient, and scrap iron can not damage equipment or the gasification furnace pay-off disorderly rolled.

For solving the problems of the technologies described above, the technical scheme that the utility model provides is: a kind of gasification furnace pay-off, it comprises disintegrating machine, belt conveyor, first tramp iron separator, vibrating feed sieves, support platform and blanking barrel, the initiating terminal of belt conveyor is positioned at the below of the discharging opening of disintegrating machine, the end of belt conveyor is positioned at the top of vibrating feed sieve, vibrating feed sieve is connected to the below of support platform, first tramp iron separator is positioned at the top of belt conveyor and is fixed in support platform by support, described vibrating feed sieve is in ramped shaped, blanking barrel is connected with at the bottom of the slope on described slope, the top of described vibrating feed sieve is also provided with the second tramp iron separator, be provided with first below the discharging opening of the first described tramp iron separator and connect iron device, be provided with second below the discharging opening of the second tramp iron separator and connect iron device, first connects iron device is provided with horn material receiving port, is connected with slideway after material receiving port, and the end of slideway is connected with negative-pressure suction machine by filtering fine-structure mesh, and the end of slideway also has downward opening, and described opening part is connected with ash can, described slideway and the junction of ash can are also provided with one-way joint, the direction that described one-way joint can only lead to ash can along slideway is opened, described material receiving port and slideway are made by namagnetic substance, it is identical that described second structure and first connecing iron device connects iron device.

As improvement, it also comprises two roller feeding device, and two roller feeding devices are arranged on the exit of blanking barrel.

As improvement, be provided with screenings material-falling hopper below the sieve nest of described vibrating feed sieve, the exit of described screenings material-falling hopper is connected with the conveyer belt for blanking being transported to ground.

As improvement, the top of described blanking barrel is provided with stuff level switch.

As improvement, described stuff level switch is radio frequency admittance material level indicator.

As improvement, described first connects iron device and second connects iron device and slideway is engineering plastic structure.

After adopting said structure, the utility model has following beneficial effect: be provided with first below the discharging opening of the first described tramp iron separator and connect iron device; Be provided with second below the discharging opening of the second tramp iron separator and connect iron device; First connects iron device and second, and to connect the structure of iron device identical, and first connects iron device is provided with horn material receiving port, is connected with the slideway for being imported to by material in ash can after material receiving port.Special connect iron device by installing in the below of tramp iron separator, horn material receiving port can the scrap iron that falls of the reception of maximum area, simultaneously can not injury device, and scrap iron also can not disorderly roll.The end of slideway described is in addition connected with negative-pressure suction machine by filtering fine-structure mesh, and the end of slideway also has downward opening, and described opening part is connected with ash can; Described material receiving port and slideway are made by namagnetic substance; It is identical that described second structure and first connecing iron device connects iron device.The negative-pressure suction machine of the end of slideway can well promote that the scrap iron in slideway flows downward along slideway, flow in ash can, negative-pressure suction machine front end is provided with filtration fine-structure mesh, and air can pass through fine-structure mesh, but scrap iron is not by fine-structure mesh, so can well attraction be provided.Described slideway and the junction of ash can are also provided with one-way joint; The direction that described one-way joint can only lead to ash can along slideway is opened, and the design of one-way joint can the attraction power of lifting negative pressure Material sucking machine further, and the little scrap iron in ash can also be prevented to be sucked up simultaneously.

In sum, it is convenient that the utility model provides a kind of deironing, and scrap iron can not damage equipment or the gasification furnace pay-off disorderly rolled.

Accompanying drawing explanation

Fig. 1 is the structural representation of gasification furnace pay-off in prior art.

Fig. 2 is the structural representation of gasification furnace pay-off in the utility model.

Fig. 3 is the first structural representation sketch connecing iron device in the utility model.

As shown in the figure: in existing technology: 01, disintegrating machine, 02, belt conveyor, the 03, first tramp iron separator, 04, vibrating feed sieve, 05, screenings hopper, the 06, second tramp iron separator, 07, brace table, 08, blanking barrel, 09, two roller feeding device, 010, conveyer belt, 011, stuff level switch.

In the utility model: 1, disintegrating machine, 2, belt conveyor, the 3, first tramp iron separator, 4, vibrating feed sieve, 5, screenings hopper, the 6, second tramp iron separator, 7, brace table, 8, blanking barrel, 9, two roller feeding device, 10, conveyer belt, 11, stuff level switch, 12, first connects iron device, 13, second iron device is connect, 14, slideway, 15, negative-pressure suction machine, 16, fine-structure mesh is filtered, 17, ash can, 18, one-way joint.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail.

By reference to the accompanying drawings 2, a kind of gasification furnace pay-off, it comprises disintegrating machine 1, belt conveyor 2, first tramp iron separator 3, vibrating feed sieve 4, support platform 7 and blanking barrel 8, the initiating terminal of belt conveyor 2 is positioned at the below of the discharging opening of disintegrating machine 1, the end of belt conveyor 2 is positioned at the top of vibrating feed sieve 4, vibrating feed sieve 4 is connected to the below of support platform 7, first tramp iron separator 3 is positioned at the top of belt conveyor 2 and is fixed in support platform 7 by support, described vibrating feed sieve 4, in ramped shaped, is connected with blanking barrel 8 at the bottom of the slope on described slope; The top of described vibrating feed sieve 4 is also provided with the second tramp iron separator 6; Be provided with first below the discharging opening of the first described tramp iron separator 3 and connect iron device 12; Be provided with second below the discharging opening of the second tramp iron separator 6 and connect iron device 13; First connects iron device 12 is provided with horn material receiving port, is connected with slideway 14 after material receiving port, and the end of slideway 14 is connected with negative-pressure suction machine 15 by filtering fine-structure mesh 16, and the end of slideway 14 also has downward opening, and described opening part is connected with ash can 17; Described slideway 14 is also provided with one-way joint 18 with the junction of ash can 17; The direction that described one-way joint 18 can only lead to ash can 17 along slideway 14 is opened; Described material receiving port and slideway 14 are made by namagnetic substance; It is identical that described second structure and first connecing iron device 13 connects iron device 12.

As improvement, it also comprises two roller feeding device, and two roller feeding devices are arranged on the exit of blanking barrel.

As improvement, it also comprises two roller feeding device 9, and two roller feeding devices 9 are arranged on the exit of blanking barrel 8.

As improvement, be provided with screenings material-falling hopper 5 below the sieve nest of described vibrating feed sieve 4, the exit of described screenings material-falling hopper 5 is connected with the conveyer belt 10 for blanking being transported to ground.

As improvement, the top of described blanking barrel 8 is provided with stuff level switch 11.

As improvement, described stuff level switch 11 is radio frequency admittance material level indicator.

As improvement, described first connects iron device 12 and second connects iron device 13 and slideway is engineering plastic structure.

After adopting said structure, the utility model has following beneficial effect: be provided with first below the discharging opening of the first described tramp iron separator and connect iron device; Be provided with second below the discharging opening of the second tramp iron separator and connect iron device; First connects iron device and second, and to connect the structure of iron device identical, and first connects iron device is provided with horn material receiving port, is connected with the slideway for being imported to by material in ash can after material receiving port.Special connect iron device by installing in the below of tramp iron separator, horn material receiving port can the scrap iron that falls of the reception of maximum area, simultaneously can not injury device, and scrap iron also can not disorderly roll.The end of slideway described is in addition connected with negative-pressure suction machine by filtering fine-structure mesh, and the end of slideway also has downward opening, and described opening part is connected with ash can; Described material receiving port and slideway are made by namagnetic substance; It is identical that described second structure and first connecing iron device connects iron device.The negative-pressure suction machine of the end of slideway can well promote that the scrap iron in slideway flows downward along slideway, flow in ash can, negative-pressure suction machine front end is provided with filtration fine-structure mesh, and air can pass through fine-structure mesh, but scrap iron is not by fine-structure mesh, so can well attraction be provided.Described slideway and the junction of ash can are also provided with one-way joint; The direction that described one-way joint can only lead to ash can along slideway is opened, and the design of one-way joint can the attraction power of lifting negative pressure Material sucking machine further, and the little scrap iron in ash can also be prevented to be sucked up simultaneously.

In sum, it is convenient that the utility model provides a kind of deironing, and scrap iron can not damage equipment or the gasification furnace pay-off disorderly rolled.

During concrete enforcement, first to connect the miscellaneous equipment that iron device 12 and second connects beyond iron device 13 all identical with of the prior art.Described first connects iron device 12 and the second ash can connect on iron device 13 is can be quick-replaceable, after an ash can is filled, and can the ash can of another sky of quick change soon.Described one-way joint 18 is the joint of band small pretightning force rubber holly strip, and described pretightning force is provided by rubber band.On certain market, the one-way joint of direct marketing also can directly purchase use.Described negative-pressure suction machine is air negative pressure type Material sucking machine.

Be described the utility model and embodiment thereof above, this description does not have restricted, and shown in accompanying drawing is also one of embodiment of the present utility model, and actual structure is not limited thereto.If generally speaking those of ordinary skill in the art enlightens by it, when not departing from the utility model and creating aim, design the frame mode similar to this technical scheme and embodiment without creationary, protection domain of the present utility model all should be belonged to.

Claims (6)

1. a gasification furnace pay-off, it comprises disintegrating machine (1), belt conveyor (2), first tramp iron separator (3), vibrating feed sieve (4), support platform (7) and blanking barrel (8), the initiating terminal of belt conveyor (2) is positioned at the below of the discharging opening of disintegrating machine (1), the end of belt conveyor (2) is positioned at the top of vibrating feed sieve (4), vibrating feed sieve (4) is connected to the below of support platform (7), first tramp iron separator (3) is positioned at the top of belt conveyor (2) and is fixed in support platform (7) by support, described vibrating feed sieve (4) is in ramped shaped, blanking barrel (8) is connected with at the bottom of the slope on described slope, the top of described vibrating feed sieve (4) is also provided with the second tramp iron separator (6), it is characterized in that: be provided with first below the discharging opening of described the first tramp iron separator (3) and connect iron device (12), be provided with second below the discharging opening of the second tramp iron separator (6) and connect iron device (13), first connects iron device (12) is provided with horn material receiving port, slideway (14) is connected with after material receiving port, the end of slideway (14) is connected with negative-pressure suction machine (15) by filtering fine-structure mesh (16), the end of slideway (14) also has downward opening, and described opening part is connected with ash can (17), described slideway (14) is also provided with one-way joint (18) with the junction of ash can (17), the direction that described one-way joint (18) can only lead to ash can (17) along slideway (14) is opened, described material receiving port and slideway (14) are made by namagnetic substance, it is identical that described second structure and first connecing iron device (13) connects iron device (12).

2. gasification furnace pay-off according to claim 1, is characterized in that: it also comprises two roller feeding device (9), and two roller feeding devices (9) are arranged on the exit of blanking barrel (8).

3. gasification furnace pay-off according to claim 1, it is characterized in that: be provided with screenings material-falling hopper (5) below the sieve nest of described vibrating feed sieve (4), the exit of described screenings material-falling hopper (5) is connected with the conveyer belt (10) for blanking being transported to ground.

4. gasification furnace pay-off according to claim 1, is characterized in that: the top of described blanking barrel (8) is provided with stuff level switch (11).

5. gasification furnace pay-off according to claim 4, is characterized in that: described stuff level switch (11) is radio frequency admittance material level indicator.

6. gasification furnace pay-off according to claim 1, is characterized in that: described first connects iron device (12) and second connects iron device (13) material receiving port and slideway (14) is engineering plastic structure.