CN208120762U - A kind of automation conveying system and activated carbon production apparatus - Google Patents

Abstract

The utility model provides a kind of automation conveying system and activated carbon production apparatus, and the automation conveying system is arranged between retort and activation furnace, including：Feeding device, one end of the feeding device connect the discharge port of the retort, and the other end connects the feed inlet of the activation furnace；With the sleeve being set on the feeding device, for being sealed to the feeding device.Retort and activation furnace are attached by automation conveying system according to the present utility model by feeding device, realize continous way automated production；And the cooling link that carbonized material can be reduced using this automation conveying system, is avoided carbonized material and contacted for a long time with air, improved the quality of carbonized material, optimize technical process；Sleeve is sealed the feeding device simultaneously, reduces dust pollution, improves environment.

Description

A kind of automation conveying system and activated carbon production apparatus

Technical field

The utility model relates to technical field of active carbon, raw in particular to a kind of automation conveying system and active carbon Produce device.

Background technique

Active carbon has flourishing porous structure, is a kind of good charcoal adsorbent material, is widely used in environmental protection, food The fields such as product, medicine, chemical industry, the output value is high, and demand is big.Existing activated carbon production apparatus is mainly returned including integrated active carbon The device that two stoves of converter or retort and activation furnace are separately run.

Integrated active carbon rotary furnace refers to carbonization process (400-600 DEG C) and activation process (800 DEG C of >) same It is realized on a stove, the major defect of this process units is that on the one hand the temperature difference of two reaction process is larger, it is difficult to right Temperature realizes preferable control, and on the other hand, the tar generated in carbonization process not can be carried out good processing, thus after influencing Continuous activation process simultaneously pollutes.

And two stove production active carbons of retort and activation furnace refer to the carbonized material carbonized by retort, need The windrow after supercooling, then by artificial or mechanical system again on expect in activation furnace, carbonized material is activated via activation furnace After obtain active carbon.The major defect of this process units is during carbonized material discharging, and carbonized material is cooled down Processing wastes energy, and in charing furnace discharge and activation furnace fill process, the carbon dust in carbonized material easily causes fugitive dust, is formed Dust pollution.

Therefore, it is necessary to a kind of new automation conveying system and activated carbon production apparatus be provided, to solve above-mentioned technology Problem.

Utility model content

A series of concept of reduced forms is introduced in utility model content part, this will be in specific embodiment part Middle further description.The utility model content part of the utility model is not meant to attempt to limit claimed Technical solution key feature and essential features, do not mean that the guarantor for attempting to determine technical solution claimed more Protect range.

For current deficiency, the utility model provides a kind of automation conveying system, and the automation conveying system is set It sets between retort and activation furnace, including：Feeding device, one end of the feeding device connect the discharging of the retort Mouthful, the other end connects the feed inlet of the activation furnace；With the sleeve being set on the feeding device, it is used to fill the conveying It sets and is sealed.

Further, the feeding device includes screw conveying device.

Further, further include deduster with the sleeve connection.

It further, further include the first blower being connect with the deduster.

Further, the deduster includes bag filter.

It further, further include electric-control system, the pan feeding for discharging and the activation furnace to the retort is controlled System.

The utility model also provides a kind of activated carbon production apparatus, including retort and activation furnace and above-mentioned automatic Change conveying system.

Further, the activated carbon production apparatus further includes the dual firing chamber connecting with the retort.

Further, the activated carbon production apparatus further includes the second blower connecting with the dual firing chamber.

Further, the activated carbon production apparatus further includes the cooling tube that the activation furnace end is arranged in.

In conclusion automation conveying system according to the present utility model, by feeding device by retort and activation furnace It is attached, realizes continous way automated production；And the cooling of carbonized material can be reduced using this automation conveying system Link avoids carbonized material and contacts for a long time with air, improves the quality of carbonized material, optimize technical process；It covers simultaneously Cylinder is sealed the feeding device, reduces dust pollution, improves environment.

Detailed description of the invention

The following drawings of the utility model is used to understand the utility model in this as a part of the utility model.Attached drawing In show the embodiments of the present invention and its description, for explaining the principles of the present invention.

In attached drawing：

Fig. 1 is the structural schematic diagram of the activated carbon production apparatus of the utility model embodiment.

Description of symbols：

100, activated carbon production apparatus 101, retort

102, conveying system 1021, feeding device are automated

1022, sleeve 1023, deduster

1024, the first blower 1025, electric-control system

103, activation furnace 104, feeding device

105, dual firing chamber 106, the second blower

107, cooling tube 108, the first discharge port

109, the second discharge port.

Specific embodiment

In the following description, a large amount of concrete details are given more thoroughly to manage in order to provide to the utility model Solution.It is, however, obvious to a person skilled in the art that the utility model may not need it is one or more of these thin It saves and is carried out.In other examples, in order to avoid obscuring with the utility model, for more well known in the art Technical characteristic is not described.

In order to thoroughly understand the utility model, specific embodiment will be proposed in following description, to illustrate this Utility model how to improve presently, there are the problem of.Obviously, the execution of the utility model is not limited to those skilled in the art The specific details that member is familiar with.The preferred embodiment of the utility model is described in detail as follows, however other than these detailed descriptions, The utility model can also have other embodiments.

It should be understood that when the term " comprising " and/or " including " is used in this specification, indicating described in presence Feature, entirety, step, operation, element and/or component, but do not preclude the presence or addition of other one or more features, entirety, Step, operation, element, component and/or their combination.

There are temperature control and tar processing, two stoves in existing activated carbon production apparatus, integration production When separately running, the carbonized material of retort production needs after windrow, again on expect in activation furnace, in carbonized material windrow and During activation furnace feeding, dust fugitive dust will cause, be detrimental to health after sucking human body, while also polluting environment.In addition, Carbonized material tapping temperature is about 400 DEG C, needs to be cooled to 80 DEG C hereinafter, and needing to prevent carbonized material from contacting generation with air Oxidation, complex process.

Exemplary embodiment

Fig. 1 shows a kind of structural schematic diagram of activated carbon production apparatus 100 of the embodiments of the present invention.Join below The activated carbon production apparatus 100 is specifically described according to Fig. 1.

As shown in Figure 1, the utility model provides a kind of activated carbon production apparatus 100, including the feeding device set gradually 104, retort 101, automation conveying system 102 and activation furnace 103.

Specifically, as shown in Figure 1, the automation conveying system 102 is arranged in the retort 101 and the activation furnace Between 103, and the automation conveying system 102 includes feeding device 1021, and one end of the feeding device 1021 connects The discharge port (the first discharge port 108) of the retort 101, the other end connect the feed inlet of the activation furnace 103；Be set in Sleeve 1022 on the feeding device 1021, for being sealed to the feeding device 1021.

Retort and activation furnace are attached by automation conveying system according to the present utility model by feeding device, Realize continous way automated production；And the cooling link that carbonized material can be reduced using this automation conveying system, is avoided Carbonized material contacts for a long time with air, improves the quality of carbonized material, optimizes technical process；Sleeve is to described defeated simultaneously Material device is sealed, and is reduced dust pollution, is improved environment.

Further, the feeding device 1021 is screw conveying device, to be further ensured that the discharging of retort 101 and live Change the continuity that furnace 103 is fed.

The automation conveying system 102 further include the deduster 1023 being connect with the sleeve 1022 and with it is described The first blower 1024 that deduster 1023 connects.The deduster 1023 is used for discharging and activation furnace 103 to retort 101 Fill process in the dust that generates be dusted.The deduster 1023 can be cyclone dust collectors or bag filter, In the present embodiment, the deduster 1023 is bag filter.First blower 1024 is for being discharged tail gas.

Further, the activated carbon production apparatus 100 further includes electric-control system 1025, for going out to retort 101 The pan feeding of material and activation furnace 103 is controlled, so that the yield of retort 101 and activation furnace 103 matches, guarantees retort The continuity of 101 dischargings and 103 pan feeding of activation furnace.It should be noted that the position of the electric-control system 1025 is not done specifically It limits, as long as the pan feeding for capableing of discharging and activation furnace 103 to retort 101 realizes control.

As shown in Figure 1, the front end of the retort 101 is arranged in the feeding device 104, it is in the present embodiment, described Feeding device 104 is feed hopper.

Further, activated carbon production apparatus 100 further include the dual firing chamber 105 being connect with the retort 101 and with The second blower 106 that the dual firing chamber 105 connects, the dual firing chamber 105 are located at the rear end of retort 101, for tar with can The burning of combustion things, second blower 106 is for being discharged tail gas.As it can be seen that the activated carbon production apparatus 100 of the utility model can be with In the case where not influencing the processing of tar, continous way automated production is realized.

The activated carbon production apparatus 100 further includes the cooling tube 107 that 103 end of activation furnace is arranged in, described cold But pipe 107 is spiral cooling tube.Activated material is after cooling tube 107 is cooling, and from the discharge port of activation furnace 103, (second discharges 109) mouth is discharged.

The principles of the present invention are that material enters retort 101, in retort 101, object from feeding device 104 Material is heated to decompose, and generates fuel gas, tar and coke etc., and form the carbonized material with preliminary cellular structure；Charing Material is discharged from the first discharge port 108, enters activation furnace 103 by automation conveying system 102, makes to carbonize in activation furnace 103 Expect aperture, reaming and create new bore, forms active carbon；Final active carbon is after the cooling of cooling tube, from the second discharge port 109 Discharge.The dual firing chamber 105 connecting with retort 101 is used for the burning of tar and combustible, and the second blower 106 is for being discharged tail Gas.

Wherein, automation conveying system 102 passes through feeding device 1021 for the discharging of retort 101 and activation furnace 103 Charging is matched, and realizes continous way automated production；And the cooling link that can reduce carbonized material, avoids carbonized material It is contacted for a long time with air, improves the quality of carbonized material, optimize technical process；Sleeve 1022 fills the conveying simultaneously It sets and is sealed, reduce dust pollution, improve environment；Deduster 1023 is used for discharging and activation furnace to retort 101 The dust generated in 103 fill process is dusted；First blower 1024 is for being discharged tail gas；Electric-control system 1025 for pair The discharging of retort 101 and the pan feeding of activation furnace 103 are controlled, and guarantee the discharging of retort 101 and 103 pan feeding of activation furnace Continuity.

In conclusion automation conveying system according to the present utility model, by feeding device by retort and activation furnace It is attached, realizes continous way automated production；And the cooling of carbonized material can be reduced using this automation conveying system Link avoids carbonized material and contacts for a long time with air, improves the quality of carbonized material, optimize technical process；It covers simultaneously Cylinder is sealed the feeding device, reduces dust pollution, improves environment.

The utility model is illustrated through the foregoing embodiment, but it is to be understood that, above-described embodiment is Purpose for illustrating and illustrating, and be not intended to limit the invention within the scope of described embodiment.Furthermore ability Field technique personnel are it is understood that the utility model is not limited to above-described embodiment, and introduction according to the present utility model is also More kinds of variants and modifications can be made, these variants and modifications all fall within the utility model range claimed with It is interior.The protection scope of the utility model is defined by the appended claims and their equivalents.

Claims (10)

1. a kind of automation conveying system, which is characterized in that automation conveying system setting retort and activation furnace it Between, including：

Feeding device, one end of the feeding device connect the discharge port of the retort, and the other end connects the activation furnace Feed inlet；With

The sleeve being set on the feeding device, for being sealed to the feeding device.

2. automation conveying system according to claim 1, which is characterized in that the feeding device includes spiral conveying dress It sets.

3. automation conveying system according to claim 1, which is characterized in that further include the dedusting with the sleeve connection Device.

4. automation conveying system according to claim 3, which is characterized in that further include connect with the deduster One blower.

5. automation conveying system according to claim 3, which is characterized in that the deduster includes bag filter.

6. automation conveying system according to claim 1, which is characterized in that further include electric-control system, for described The discharging of retort and the pan feeding of the activation furnace are controlled.

7. a kind of activated carbon production apparatus, which is characterized in that including one of retort and activation furnace and claim 1-6 institute The automation conveying system stated.

8. activated carbon production apparatus according to claim 7, which is characterized in that the activated carbon production apparatus further include with The dual firing chamber of the retort connection.

9. activated carbon production apparatus according to claim 8, which is characterized in that the activated carbon production apparatus further include with Second blower of dual firing chamber's connection.

10. activated carbon production apparatus according to claim 7, which is characterized in that the activated carbon production apparatus further includes The cooling tube of the activation furnace end is set.