CN102292597A - Carbon treatment system for supplying decomposition heat to waste tires - Google Patents

Abstract

The present invention relates to a carbon treatment system for supplying decomposition heat to waste tires. The carbon treatment system of the present invention comprises: a carbon storage tank which receives carbon separated from a thermal decomposition furnace for thermally decomposing waste tires and which stores the received carbon; a burner which receives oil or gas contained in the steam generated during a process of thermally decomposing waste tires, and burns the received oil or gas; and a combustion furnace arranged at one side of the burner to burn the carbon supplied by the carbon storage tank using the burner as an ignition source and to supply heat generated during the combustion to the thermal decomposition furnace.; The thus-configured system of the present invention completely burns the carbon separated from waste tires to prevent contamination and reutilizes the heat generated during combustion to maximize the economical operation thereof, and therefore is of great industrial usefulness.

Description

Be used for and decompose the carbon treatment system of heat supply to damaged tire

Technical field

The present invention relates to a kind of carbon treatment system, this carbon is to produce at the decomposable process of damaged tire regenerative system, this damaged tire regenerative process comprises by direct heating makes damaged tire thermal decomposition as industrial damaged tire, and separates and extract the various energy and be used for recirculation.More particularly, the present invention relates to a kind of carbon treatment system of heat supply to damaged tire that be used for decomposing, it ensures economic feasibility, makes the heat that produces in the combustion process can be recycled to improve by simplified structure simultaneously and safeguards convenience.

Background technology

Recently, along with sharp increase, for the also growth thereupon of demand of tire to vehicle needs.Thereby the quantity of damaged tire is also along with growth.As everyone knows, damaged tire is mainly made by the synthetic polymer composition, has the calorific value of about 34MJ/kg, and this calorific value is higher than the benchmark calorific value 29MJ/kg of coal.

And, except iron core, the fibers of nylon and so on etc., the component of a tires generally includes the carbon black of the SB of 43.5wt% (SBR polymer), 32.6wt%, the oil of 21.7wt% and the additive of 2.2wt%, such as sulphur, zinc, oxide etc.

In the time of the such damaged tire of burning, a large amount of dischargings of environmental contaminants (such as oxysulfide, imperfect combustion hydrocarbon, pernicious gas etc.).Therefore, environment department bans use of damaged tire to act as a fuel.

Thereby, developed the method for except that burning, utilizing damaged tire, produced recycled product such as buffer, but be limited in scope such as pavement bricks, retread, reclaimed rubber, artificial sail, various structures.And in the recycled product forming process, discarded object and air pollution also are problems.In addition, also exist because the problem of environmental pollution that the discarded object that produces when abandoning recycled product causes.

Simultaneously, attempted converting damaged tire to fuel rather than made the method for its recirculation.In order to carry out thisly converting damaged tire the conversion of fuel to, adopt thermal decomposition furnace to make the damaged tire thermal decomposition.According to heating means, thermal decomposition furnace is divided into direct hot type thermal decomposition furnace and indirect heating type thermal decomposition furnace.

Here, directly the hot type thermal decomposition furnace may be in the face of because the blast that the chemical reaction spark that produces when utilizing oxygen to heat damaged tire in thermal decomposition furnace causes.And the oil that produces from direct hot type thermal decomposition furnace comprises moisture and free carbon, and these have worsened the quality of lard oil.

Simultaneously, there is not the explosion danger that above-mentioned direct hot type thermal decomposition furnace faces in the indirect heating type thermal decomposition furnace.But,, have to be used as fuel as the most oil that byproduct obtains because the thermal efficiency is low.Thereby adopting the damaged tire recirculating system of indirect heating type thermal decomposition furnace is infeasible on economy, and the carbon that will handle as the byproduct acquisition is difficult.

In order to solve the above-mentioned problem, the applicant has submitted the application of a damaged tire recirculating system to, and this system comprises by direct heating lard oil from damaged tire, and purifies the oil that refines and it is separated into gasoline or diesel oil.This application has become Korean Patent NO.10-0628890.

Simple damaged tire recirculating system of looking back the applicant's registration, this system are designed to damaged tire is sent into thermal decomposition furnace, filled with a kind of gas that carries to refine and to purify the oil that produces from tire and make the energy of gas recirculation as system.

Simultaneously, this system is designed to incinerate isolated carbon in the process of thermal decomposition damaged tire, and the thermogravimetric that will therefrom produce newly is fed to thermal decomposition furnace.

Yet the damaged tire recirculating system of having been applied for by the applicant also has a deficiency, in the simple incineration course of carbon, can not realize incinerating swimmingly, and this causes the obvious variation of operating efficiency of whole system.

Summary of the invention

Technical problem

Made the present invention in order to solve the above-mentioned problems in the prior art.The invention reside in provides a kind of having to decompose the carbon treatment system of heat supply to damaged tire, it can prevent that pollutant from producing by the incineration efficient that improves the useless carbon that comprises in the damaged tire, and the thermal source that produces in the carbon burning process can be supplied to the thermal decomposition furnace that is used for the thermal decomposition damaged tire and the operation economy that maximizes system.

The means of dealing with problems

In order to realize target above-mentioned, being used for and decomposing the carbon treatment system of heat supply according to preferred implementation of the present invention to damaged tire, it is characterized in that this carbon treatment system comprises: the carbon storage bin, this carbon storage bin receives the carbon that separates from the thermal decomposition furnace that is used for the thermal decomposition damaged tire; Burner, this burner receives oil or the gas that is comprised in the steam that produces in the thermal decomposition process of damaged tire, and the oil or the gas that burn and receive; And combustion furnace, this combustion furnace is arranged in a side of described burner, with the carbon that uses this burner to burn and supply with, and be connected to the heat of described thermal decomposition furnace to produce to this thermal decomposition furnace supply combustion process by pipeline by described carbon storage bin as incendiary source.

A preferred feature of the present invention is that described combustion furnace is connected to described carbon storage bin receiving carbon from this carbon storage bin by the carbon supply pipe, and is connected to described thermal decomposition furnace by hot supply pipe and is supplied to described thermal decomposition furnace with the heat that will produce when the coal.

Another preferred feature according to the present invention is that described burner configuration becomes place, the bottom discharging flame in described combustion furnace inboard, and described combustion furnace connects so that carbon enters to the top of flame by pipeline.

Another preferred feature according to the present invention is that described combustion furnace is formed at a side and comprises the air blast element, so that the carbon of supply can be dispelled.

Another preferable feature according to the present invention is, described combustion furnace is furnished with the tray for combustion of dish type, it is porose that this tray for combustion is sentenced the identical distance punching press in the part of the inboard of this dish, and make a pipe arrangement that carbon enters above this tray for combustion, discharging flame burning device is arranged in the below of described tray for combustion.

Another preferred feature according to the present invention is that the top of described tray for combustion comprises the congested dish of a plurality of heat, and the placement interlaced with each other at certain intervals on orthogonal direction of these hot congested dishes is so that the heat that produces in the combustion process is by congested.

Another preferred feature according to the present invention is, in the carbon supply pipe that connects described combustion furnace and described carbon storage bin the transmission screw rod is installed, and this transmits screw rod and rotates along a direction by drive source drives power.

Another preferable feature according to the present invention is that described air blast element is a blower fan, and its operation connects the fan of electric power from the outside.

Another preferred feature according to the present invention is, described combustion furnace is connected to purification column to remove the pollutant that produces when the coal by pipeline.

According to another preferred implementation of the present invention be used for will decompose the carbon treatment system of heat supply to damaged tire, it is characterized in that this carbon treatment system comprises: the carbon storage bin of reception powder formed carbon; Receive oil or burning of gas device that oil or gas and burning receive from the outside; Combustion furnace, this combustion furnace are connected the heat that produces with discharging with a delivery pipe, and are connected to the carbon storage bin that is arranged on a side, and carbon uses burner as incendiary source from this carbon storage bin supply; Conveying element, this conveying element comprises drive motors and transmits screw rod, described drive motors is installed in the pipeline place that connects described carbon storage bin and described combustion furnace, power to be provided and to produce driving force to the element that transmits carbon, described transmission screw rod is connected to described drive motors, to rotate along a direction in described pipeline; Detect the carbon detector of the carbon amount that stores in the described carbon storage bin; Detect the Temperature Detector of the temperature of described burner; And controller, this controller is electrically connected to described carbon detector and Temperature Detector, in order to receiving detection information, thereby controls the operation of described drive motors selectively.

Will more know the features and advantages of the present invention by following detailed description based on accompanying drawing.Simultaneously, term that uses in claim and specification or noun can not make an explanation according to the routine meaning and the dictionary meaning, but should can appropriately define term concepts to explain principle of the present invention based on the inventor with best possible mode, be construed to implication and notion according to the technology of the present invention thought.

The invention effect

The present invention will divide the analgesic carbon that is fed to the carbon treatment system completing combustion of damaged tire from the damaged tire separation at being used for of constructing like this, to prevent pollution, and the heat of utilizing combustion process to produce again to maximize its operation economy, therefore has great industrial applicibility.

Description of drawings

Fig. 1 is that explanation will be decomposed the schematic diagram of heat supply to the carbon treatment system of damaged tire according to of the present invention being used for.

Fig. 2 is the sketch according to the control circuit of controller of the present invention.

The specific embodiment

Above-mentioned purpose of the present invention, feature and advantage will seem more than you know by more detailed description hereinafter.

Hereinafter, with reference to the accompanying drawings, preferred implementation of the present invention is described.

At first, should indicate, identical in the accompanying drawings composed component or parts are represented with identical Reference numeral as much as possible.In describing process of the present invention, for not fuzzy main points of the present invention, omission is with related known function or construct relevant detailed description.

Fig. 1 is used for explaining according to of the present invention being used for decomposing the schematic diagram of heat supply to the carbon treatment system of damaged tire that Fig. 2 is the sketch according to the control circuit of controller C of the present invention.

At first, be used for thermal decomposition process lard oil and the incondensability gas of the known thermal decomposition furnace 3 of thermal decomposition damaged tire, and separate carbon and iron core as residue at the damaged tire of sending into.The present invention relates to a kind of system that the carbon in the residue that separates in thermal decomposition damaged tire process is incinerated and handles of being used for.

With reference to accompanying drawing, the present invention be configured to comprise the carbon that reception separates from thermal decomposition furnace 3 carbon storage bin 10, be connected to carbon storage bin 10 with the combustion furnace 30 that receives carbon and coal selectively and be arranged in combustion furnace 30 1 sides and come the burner 20 of coal by pipeline combustion furnace 30 in, to discharge flame.

Carbon storage bin 10 is connected to thermal decomposition furnace 3 with supply carbon by carbon supply pipe 15a, and by thermal source supply pipe 15b be connected to thermal decomposition furnace 3 with the heat that the carbon burning process is provided produces to thermal decomposition furnace 3.

Further, it is desirable to carbon storage bin 10 and be connected to the amounts of residual contamination do that purification column 50 produces when removing coal.Here, this purification column 50 can be implemented with various known technologies, and omits its detailed description.

Simultaneously, accompanying drawing example of the present invention a kind of situation, wherein carbon storage bin 10 is connected to thermal decomposition furnace 3 by pipeline.Yet,, also can be adjusted into the form of importing the carbon of collecting if carbon storage bin 10 is difficult to be directly connected to thermal decomposition furnace 3 on the position.

In addition, in carbon storage bin 10 of the present invention, carbon supply pipe 15a inserts in the carbon storage bin 10 and carbon is transplanted on element in the carbon storage bin 10, drive motors 16 also is installed in this external carbon storage bin 10 and transmits screw rod 17, drive motors 16 is to receive power from the outside to produce the drive source of driving force, transmitting screw rod 17 is connected to drive motors 16 and receives driving force and along a direction rotation, this transmission screw rod is arranged in the inside of carbon supply pipe 15a.

Burner 20 is from outside receiver gases or oily gas or the oily device that acts as a fuel that receives with utilization.Here, can be configured to provides fuel from the outside, perhaps is configured to receive the oil or the gas that are comprised in the steam that the thermal decomposition process of thermal decomposition furnace 3 produces, uses the burning that acts as a fuel of the oil that receives or gas.Burner 20 can be implemented by known technology, therefore omits its detailed description.

The carbon that burner 20 of the present invention is configured to be arranged in the bottom in the combustion furnace 30 and enters with the upside burning at flame towards the upside discharging flame of combustion furnace 30.

The combustion furnace 30 of Miao Shuing includes the burner 20 with this structure integratedly after a while.

Combustion furnace 30 is a kind of incinerating apparatus, the carbon that it is disposed in a side of burner 20 and uses burner 20 to supply with from carbon storage bin 10 as the incendiary source burning.This combustion furnace 30 by pipeline with the heat supply that produces in the carbon burning process to thermal decomposition furnace 3.

In other words, combustion furnace 30 is connected to carbon storage bin 10 receiving carbon from carbon storage bin 10 by carbon supply pipe 15a, and is connected to thermal decomposition furnace 3 by thermal source supply pipe 15b and provides to thermal decomposition furnace 3 with the heat that will produce when the carbon burning.Here, carbon supply pipe 15a and thermal source supply pipe 15b can be configured to regulate selectively by valve.

Simultaneously, combustion furnace 30 is configured to receive air blast by the air blast element 40 in the inboard, and making can the smooth and easy burning in inside by the carbon of carbon supply pipe 15a supply.Here, as air blast element 40, suggestion is used from outside reception power and is made the fan rotation and the blower fan of generation gentle breeze.

In addition, combustion furnace 30 of the present invention is arranged the tray for combustion 33 of dish type, it is porose that this tray for combustion 33 is sentenced identical spacing punching press in the inboard part of dish, and be disposed in the top of tray for combustion 33 by the carbon that carbon supply pipe 15a enters, the flame of burner 20 dischargings is positioned in the below of tray for combustion 33.

By such structure, the carbon that is inserted into the upside of combustion furnace 30 is dispelled with burned by air blast element 40, and unburned carbon drops to the upper surface of tray for combustion 33 of punching with burned.

Simultaneously, the present invention advises a kind of structure, wherein in combustion furnace 30, top at tray for combustion 33, the congested dish 25 of a plurality of heat is set, the placement interlaced with each other at certain intervals of these orthogonal directions in hot congested rim makes the heat that produces in combustion process not be discharged into thermal source supply pipe 15b with very fast speed.

By such structure, the heat that produces in the combustion furnace 30 can be by congested dish 25 congested the mobile of thermal source supply pipe 15b that are discharged into of described a plurality of heat.

Be used for dividing analgesic carbon treatment system preferably to advise being connected to thermal decomposition furnace 3 according to the present invention, directly receive carbon with coal, and the heat that the supply combustion process produces be to thermal decomposition furnace 3 with the decomposition damaged tire by above-mentioned structure supply.Yet if structurally be difficult to utilize pipeline to be connected to thermal decomposition furnace 3, this system also can operate independently.

Such as, this system can be configured to comprise such carbon storage bin 10, this carbon storage bin comprise hopper with receive from collected outside to carbon, and uses the hotwork of combustion process generation that receives the combustion furnace 30 of carbon from carbon storage bin 10 to be industry or family expenses thermal source.

Fig. 2 is the concise and to the point schematic diagram of showing according to the control circuit of controller of the present invention.

As shown in Figure 2, being used to supply the analgesic carbon treatment system 1 with the decomposition damaged tire of branch in the present embodiment comprises: carbon storage bin 10, this carbon storage bin receive particle diameter and are the carbon dust of 10 μ m～5mm and store these carbon; Burner 20, it is arranged in a side of carbon storage bin 10, and this burner receives oil or gas to produce flame from the outside; Combustion furnace 30, it is as a kind of incinerating apparatus, utilize burner 20 as incendiary source and be connected to be arranged in a side carbon storage bin 10 to receive carbon and then coal selectively; Conveying element, its carbon that will be stored in the carbon storage bin 10 is supplied to combustion furnace 30; Relevant detection device S1, S2, these detectors detect the amount of carbon and the temperature of burner 20; And controller C, it receives from these detectors S1, the detected signal of S2 with the control conveying element.

At first, carbon storage bin 10 has essentially identical structure with an above-mentioned embodiment.Yet it can directly not utilize pipeline to be connected to thermal decomposition furnace 3 and operation independently, and can collect and be added in the useless carbon of industrial site or the generation of damaged tire recirculating system.Further, burner 20, combustion furnace 30 and conveying element and an above-mentioned embodiment have essentially identical structure, therefore omit the detailed description to them.

In current embodiment, the carbon detector S1 that is used for detecting the carbon amount that carbon storage bin 10 stores is installed in addition and is used to detect the Temperature Detector S2 of the temperature of burner 20, controller C also is installed, it is electrically connected to these detectors S1, S2 with reception detection information, thereby controls the operation of the drive motors 16 that conveying element is configured selectively.

For example, if the carbon of storage is less than preset value in the carbon storage bin 10, then carbon detector S1 transmission detection signal moves with halt system to controller C.

In addition, carbon in being stored in carbon storage bin 10 is under the situation of proper level, if the temperature of burner 20 is lower than 300 °, then Temperature Detector S2 sends detection signal and does not enter combustion furnace 30 to drive motors 16 so that do not import carbon, thereby prevents imperfect combustion.

Simultaneously, the invention is not restricted to the foregoing description, under the situation that does not break away from the principle and scope of the present invention, carry out various replacements, modification and modification and it will be apparent to those skilled in the art that.Therefore, such variants and modifications all falls in the protection domain of claim requirement of the present invention.

Claims (10)

1. one kind is used for and will decomposes the carbon treatment system of heat supply to damaged tire, and it is characterized in that this carbon treatment system comprises: carbon storage bin (10), this carbon storage bin receive the carbon that separates from the thermal decomposition furnace (3) that is used for the thermal decomposition damaged tire; Burner (20), this burner receives oil or the gas that is comprised in the steam that produces in the thermal decomposition process of damaged tire, and the oil or the gas that burn and receive; And combustion furnace (30), this combustion furnace is arranged in a side of described burner (20), with the carbon that uses this burner to burn and supply with, and be connected to the heat of described thermal decomposition furnace (3) to produce to this thermal decomposition furnace (3) supply combustion process by pipeline by described carbon storage bin (10) as incendiary source.

2. according to claim 1 being used for will be decomposed the carbon treatment system of heat supply to damaged tire, it is characterized in that, described combustion furnace (30) is connected to described carbon storage bin (10) receiving carbon from this carbon storage bin (10) by carbon supply pipe (15a), and is connected to described thermal decomposition furnace (3) by hot supply pipe (15b) and is supplied to described thermal decomposition furnace (3) with the heat that will produce when the coal.

3. according to claim 1 being used for will be decomposed the carbon treatment system of heat supply to damaged tire, it is characterized in that, described burner (20) is configured at inboard place, the bottom discharging flame of described combustion furnace (30), and described combustion furnace (30) connects so that carbon enters to the top of flame by pipeline.

4. it is characterized in that with decomposing the carbon treatment system of heat supply described combustion furnace (30) is formed at a side and comprises air blast element (40) according to each described being used among the claim 1-3, so that the carbon of supply can be dispelled to damaged tire.

5. the carbon treatment system of heat supply to damaged tire will be decomposed according to each described being used among the claim 1-3, it is characterized in that, described combustion furnace (30) is furnished with the tray for combustion (33) of dish type, it is porose that this tray for combustion is sentenced the identical distance punching press in the part of the inboard of this dish, and make pipe arrangement that carbon enters in the top of this tray for combustion (33), discharging flame burning device (20) is arranged in the below of described tray for combustion (33).

6. the carbon treatment system of heat supply to damaged tire will be decomposed according to each described being used among the claim 1-3, it is characterized in that, the top of described tray for combustion (33) comprises the congested dish of a plurality of heat (25), the placement interlaced with each other at certain intervals on orthogonal direction of these hot congested dishes is so that the heat that produces in the combustion process is by congested.

7. according to claim 1 and 2 being used for will be decomposed the carbon treatment system of heat supply to damaged tire, it is characterized in that, be equipped with in the carbon supply pipe (15a) that connects described combustion furnace and described carbon storage bin and transmit screw rod (17), this transmits screw rod and rotates along a direction by drive source drives power.

8. according to claim 4 being used for is characterized in that with decomposing the carbon treatment system of heat supply to damaged tire described air blast element (40) is a blower fan.

9. according to claim 1 being used for is characterized in that decomposing the carbon treatment system of heat supply to damaged tire, and described combustion furnace (30) is connected to purification column (50) to remove the pollutant that produces when the coal by pipeline.

10. one kind is used for and will decomposes the carbon treatment system of heat supply to damaged tire, it is characterized in that this carbon treatment system comprises: the carbon storage bin (10) that receives powder formed carbon; Receive oil or burning of gas device (20) that oil or gas and burning receive from the outside; Combustion furnace (30), this combustion furnace are connected the heat that produces with discharging with a delivery pipe, and are connected to the described carbon storage bin (10) that is arranged on a side, and carbon uses described burner (20) as incendiary source from this carbon storage bin supply; Conveying element, this conveying element comprises drive motors (16) and transmits screw rod (17), described drive motors is installed in the pipeline place that connects described carbon storage bin (10) and described combustion furnace (30), power to be provided and to produce driving force to the element that transmits carbon, described transmission screw rod is connected to described drive motors, to rotate along a direction in described pipeline; Detect the carbon detector (S1) of the carbon amount that stores in the described carbon storage bin (10); Detect the Temperature Detector (S2) of the temperature of described burner (20); And controller (C), this controller is electrically connected to described carbon detector (S1) and Temperature Detector (S2), in order to receiving detection information, thereby controls the operation of described drive motors (16) selectively.

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