JPH11207742A - Method and apparatus for producing reclaimed rubber - Google Patents
Method and apparatus for producing reclaimed rubberInfo
- Publication number
- JPH11207742A JPH11207742A JP2778798A JP2778798A JPH11207742A JP H11207742 A JPH11207742 A JP H11207742A JP 2778798 A JP2778798 A JP 2778798A JP 2778798 A JP2778798 A JP 2778798A JP H11207742 A JPH11207742 A JP H11207742A
- Authority
- JP
- Japan
- Prior art keywords
- rubber
- cylinder
- shearing
- kneading
- waste
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C48/00—Extrusion moulding, i.e. expressing the moulding material through a die or nozzle which imparts the desired form; Apparatus therefor
- B29C48/25—Component parts, details or accessories; Auxiliary operations
- B29C48/36—Means for plasticising or homogenising the moulding material or forcing it through the nozzle or die
- B29C48/395—Means for plasticising or homogenising the moulding material or forcing it through the nozzle or die using screws surrounded by a cooperating barrel, e.g. single screw extruders
- B29C48/40—Means for plasticising or homogenising the moulding material or forcing it through the nozzle or die using screws surrounded by a cooperating barrel, e.g. single screw extruders using two or more parallel screws or at least two parallel non-intermeshing screws, e.g. twin screw extruders
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C48/00—Extrusion moulding, i.e. expressing the moulding material through a die or nozzle which imparts the desired form; Apparatus therefor
- B29C48/25—Component parts, details or accessories; Auxiliary operations
- B29C48/36—Means for plasticising or homogenising the moulding material or forcing it through the nozzle or die
- B29C48/395—Means for plasticising or homogenising the moulding material or forcing it through the nozzle or die using screws surrounded by a cooperating barrel, e.g. single screw extruders
- B29C48/40—Means for plasticising or homogenising the moulding material or forcing it through the nozzle or die using screws surrounded by a cooperating barrel, e.g. single screw extruders using two or more parallel screws or at least two parallel non-intermeshing screws, e.g. twin screw extruders
- B29C48/405—Intermeshing co-rotating screws
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Processing And Handling Of Plastics And Other Materials For Molding In General (AREA)
- Extrusion Moulding Of Plastics Or The Like (AREA)
- Separation, Recovery Or Treatment Of Waste Materials Containing Plastics (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、加硫されている廃
タイヤ等の廃ゴムを可塑化して再生化する再生ゴムの製
造方法および製造装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for producing reclaimed rubber for plasticizing and regenerating waste rubber such as vulcanized waste tires.
【0002】[0002]
【従来の技術及び発明が解決しようとする課題】廃タイ
ヤ等の廃ゴムは、従来から再利用が図られており、その
再生に際しては、廃タイヤ等に含まれている加硫剤の作
用を除いて塑性加工可能(可塑化)にする必要があり、
主に以下の再生方法(パン法、リクレメータ法)が採用
されている。パン法では、廃タイヤを200℃以上の温
度で蒸し焼きにして可塑化(脱硫)し、その後、ロール
機によって蒸し焼きにしたゴムをすりつぶして再生ゴム
塊を得る。しかし、この方法はバッチ処理で、しかも可
塑化に4〜5時間の長い処理時間を要するため、効率が
悪く、再生コストが掛かるという問題がある。リクレメ
ータ法では、廃タイヤ等を破断機等によって2〜4mm
程度に小片化し、この小片ゴムを再生剤とともに押出機
内に投入し、これらを200℃以上に加熱しつつ混練し
て再生する。この方法は唯一の連続脱硫法であるが再生
したゴムにゴム粉が残ったり、ゴム分子が切れすぎるな
どして品質が悪いという問題がある。本発明は、上記事
情を背景としてなされたものであり、品質が良好な再生
ゴムを効率的に製造することができる再生ゴムの製造方
法および製造装置を提供することを目的とする。2. Description of the Related Art Waste rubber such as waste tires has been conventionally reused, and upon regeneration, the action of a vulcanizing agent contained in the waste tires is considered. It is necessary to make it possible to plastically process (plasticize)
The following regeneration methods (bread method and recreation method) are mainly employed. In the bread method, waste tires are steamed at a temperature of 200 ° C. or more to plasticize (desulfurize), and then the steamed rubber is ground by a roll machine to obtain a reclaimed rubber mass. However, since this method is a batch process and requires a long processing time of 4 to 5 hours for plasticization, there is a problem in that the efficiency is low and the regeneration cost is high. In the recruiter method, waste tires and the like are cut by a breaker or the like by 2 to 4 mm.
The rubber pieces are put into an extruder together with a regenerating agent, and they are kneaded while being heated to 200 ° C. or higher to regenerate them. Although this method is the only continuous desulfurization method, there is a problem that the quality is poor because rubber powder remains in the regenerated rubber or rubber molecules are cut too much. The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a method and an apparatus for manufacturing a recycled rubber capable of efficiently manufacturing a good quality recycled rubber.
【0003】[0003]
【課題を解決するための手段】上記課題を解決するた
め、本発明のうち、第1の発明の再生ゴムの製造方法
は、加硫廃ゴムチップを、外部加熱を加えることなく多
軸押出機の剪断力によって微粉砕しつつ可塑化させて微
粉砕ゴム粒を得ることを特徴とする。第2の発明の再生
ゴムの製造方法は、第1の発明の微粉砕ゴム粒に再生剤
を混合して混練しつつ可塑化させることを特徴とする。Means for Solving the Problems In order to solve the above-mentioned problems, among the present invention, a method for producing recycled rubber according to the first invention is a method for producing a vulcanized waste rubber chip by using a multi-screw extruder without applying external heating. It is characterized in that pulverized and plasticized while being pulverized by shearing force to obtain pulverized rubber particles. A method for producing a recycled rubber according to a second aspect of the invention is characterized in that the refining agent is mixed with the finely ground rubber particles of the first aspect of the invention and the mixture is kneaded and plasticized.
【0004】第3の発明の再生ゴムの製造装置は、シリ
ンダ内に多軸スクリュウが配置された多軸混合機からな
るとともに、該シリンダが、上流側の剪断領域と下流側
の混練領域とに区分されており、さらに前記剪断領域
に、加硫廃ゴムをシリンダ内に投入する廃ゴム投入部が
設けられ、剪断領域と混練領域との境界部付近に、再生
剤をシリンダ内に投入する再生剤投入部が設けられ、混
練領域の下流側に、再生されたゴムをシリンダ内から取
り出す再生ゴム取り出し部が設けられていることを特徴
とする。According to a third aspect of the present invention, there is provided an apparatus for producing recycled rubber, comprising a multi-shaft mixer in which a multi-shaft screw is disposed in a cylinder, wherein the cylinder is provided with an upstream shear region and a downstream kneading region. In the shearing area, a waste rubber charging section for charging the vulcanized waste rubber into the cylinder is provided, and near the boundary between the shearing area and the kneading area, a regenerating agent is charged into the cylinder. An agent charging section is provided, and a reclaimed rubber take-out section for taking out reclaimed rubber from the cylinder is provided downstream of the kneading area.
【0005】本発明では、主として廃タイヤからなる加
硫廃ゴムを再生の対象とする。なお、廃ゴムは、廃タイ
ヤ等の1種で構成されるものの他、複数種の廃ゴムを混
合したものでもよいが、品質を一定に保つために、単独
の廃ゴムを用いるのが望ましい。上記廃ゴムは、破断機
等を使用して、予めチップ化する。このチップは、平均
で(望ましくは実質的に)1〜4mmの大きさに調整す
るのが望ましい。これは4mmを超える大きさのチップ
では、多軸押出機による剪断負荷が大きく、効率的に可
塑化が行えないためであり、一方、1mmよりも小さな
チップでは、破断機等による加工は極めて困難であり、
また多軸押出機においても剪断がかかりにくくなり、十
分な可塑化が行えなくなるため、ゴムチップの大きさ
は、上記範囲内とするのが望ましい。In the present invention, vulcanized waste rubber mainly composed of waste tires is to be recycled. The waste rubber may be composed of one kind of waste rubber or the like, or may be a mixture of a plurality of kinds of waste rubber. However, in order to keep the quality constant, it is desirable to use a single waste rubber. The waste rubber is formed into chips in advance using a breaker or the like. The tip is preferably sized on average (preferably substantially) to 1 to 4 mm. This is because a chip having a size exceeding 4 mm causes a large shearing load due to the multi-screw extruder and cannot be efficiently plasticized, while a chip smaller than 1 mm is extremely difficult to process with a breaker or the like. And
Also, in a multi-screw extruder, it is difficult to apply shearing, and sufficient plasticization cannot be performed. Therefore, the size of the rubber chip is desirably within the above range.
【0006】上記廃ゴムチップを剪断する多軸押出機
は、少なくとも2軸を有し、該軸にそれぞれスクリュウ
等の撹拌翼や突部を設けたものであり、それぞれの軸
は、作動時には互いに同方向または反対方向に回転し
て、スクリュウ等によって廃ゴムチップに圧力を加えつ
つ、下流側に移動させる。多軸押出機では、それぞれの
軸に設けたスクリュウ等が噛み合う等によって大きな剪
断力が得られ、廃ゴムチップを加熱することなく微粉砕
して可塑化することができる。この剪断に際しては、再
生ゴムの品質を低下させないためと剪断をかけやすくす
るために、外部加熱を加えることは避ける必要がある。
また、上記剪断に際しては、摩擦によって内部熱が発生
するので、剪断中の廃ゴムチップの昇温を抑えるように
押出機(シリンダや軸)を冷却装置によって冷却するの
が望ましい。この冷却によって廃ゴムチップを50〜1
00℃に調整するのが望ましい。これは、100℃を超
えると、ゴムが破断されすぎて品質が低下するためであ
る。また、50℃未満では多大な剪断力が必要になって
押出機への負荷が過度になるため、上記温度範囲が望ま
しい。上記多軸押出機による剪断によって廃ゴムチップ
は微粉砕化されるが、この微粉細粒は、実質的に0.8
mm以下の大きさとするのが望ましい。これは、微粉細
粒が0.8mmよりも大きいと、可塑化が十分でなく加
硫されたゴムのままであり、微粉細粒は、小さければ小
さいほど可塑化されているためであり、さらには、微粉
細粒の大きさは、0.1mm以下の存在比率が多くなる
ことが望ましい。[0006] The multi-screw extruder for shearing waste rubber chips has at least two shafts, each of which is provided with a stirring blade such as a screw or a protrusion, and the respective shafts are the same during operation. The waste rubber chip is rotated in the direction or the opposite direction, and is moved downstream while applying pressure to the waste rubber chip with a screw or the like. In the multi-screw extruder, a large shearing force is obtained by, for example, screws provided on the respective shafts meshing with each other, and the waste rubber chips can be pulverized and plasticized without heating. At the time of this shearing, it is necessary to avoid applying external heating in order not to lower the quality of the recycled rubber and to make it easier to apply the shearing.
In addition, at the time of the above-mentioned shearing, internal heat is generated due to friction. Therefore, it is desirable to cool the extruder (cylinder or shaft) with a cooling device so as to suppress the temperature rise of the waste rubber chips during the shearing. By this cooling, the waste rubber chip is reduced to 50 to 1
It is desirable to adjust to 00 ° C. This is because if the temperature exceeds 100 ° C., the rubber is excessively broken and the quality is deteriorated. On the other hand, if the temperature is lower than 50 ° C., a large shearing force is required and the load on the extruder becomes excessive. Waste rubber chips are pulverized by shearing with the multi-screw extruder.
mm or less. This is because if the fine particles are larger than 0.8 mm, the plasticization is insufficient and the vulcanized rubber remains, and the smaller the fine particles, the more plasticized the smaller the fine particles. It is desirable that the presence ratio of the fine particles is 0.1 mm or less.
【0007】上記により得られたゴム微粉細粒は、その
まま粉末ゴムとして各種用途に使用することができる
が、さらに再生剤を混合して混練することによって可塑
化を進めることができる。この再生剤には、プロセスオ
イル、n−ブチルアミン、チオフェノール等、従来使用
されているものを使用することができる。なお、再生剤
の混合量は、その種別によっても異なるが、例えば、上
記粉末ゴム1kgに対し、プロセスオイル 100m
l、n−ブチルアミン 10gの再生剤を投入する。本
発明では、前段で、ある程度の可塑化がなされているの
で、再生剤の混合量を従来法に比して少量とすることが
でき、その結果、再生ゴムの品質を向上させることがで
きる。[0007] The fine rubber particles obtained as described above can be used for various applications as powder rubber as it is. Plasticization can be promoted by further mixing and kneading a regenerant. As the regenerating agent, those conventionally used such as process oil, n-butylamine, thiophenol and the like can be used. The amount of the regenerating agent varies depending on the type of the regenerating agent.
l, n-Butylamine 10 g of regenerant are charged. In the present invention, since a certain amount of plasticization is performed in the former stage, the mixing amount of the regenerating agent can be smaller than that of the conventional method, and as a result, the quality of the recycled rubber can be improved.
【0008】上記混練は、ロールや多軸押出機により行
うことができ、また、上記剪断を行った多軸押出機で引
き続き混練を行うものであってもよい。これら方法によ
る混練では、前記剪断と同様に、外部加熱を加えず、さ
らにゴム粉末の昇温を抑えるように冷却装置を設けるの
が望ましい。この混練では、ゴムの温度を、混練中に室
温〜50℃の範囲になるように調整するのが望ましい。
このように混練における温度上限を規制しても、その前
工程で機械的剪断によるある程度の可塑化がなされてい
るので、十分に可塑化が進行する。混練の結果得られる
再生ゴム塊は、厚さ1mm程度の板状になっているのが
望ましい。[0008] The kneading can be performed by a roll or a multi-screw extruder, or the kneading may be continuously performed by a multi-screw extruder that has been subjected to the shearing. In the kneading by these methods, similarly to the above-mentioned shearing, it is desirable to provide a cooling device so as not to apply external heating and further suppress the temperature rise of the rubber powder. In this kneading, it is desirable to adjust the temperature of the rubber so as to be in the range of room temperature to 50 ° C. during kneading.
Even if the upper limit of the temperature in kneading is regulated in this manner, plasticization proceeds sufficiently to some extent due to mechanical shearing in the preceding process. The reclaimed rubber mass obtained as a result of kneading is preferably in the form of a plate having a thickness of about 1 mm.
【0009】なお、上記混練を前記した剪断とともに、
共通する多軸押出機を用いて行う場合には、押出機の上
流側に剪断領域を割り当て、下流側に混練領域を割り当
てることにより、連続した一連の作業により再生ゴムを
製造するこができる。上記剪断領域と混練領域とでは、
例えば、スクリュウの形状、ピッチ、深さ等の構造を変
えたものにすることができ、また、温度調整を両領域で
それぞれ制御するものであってもよく、また、両領域で
これらの構造や温度調整を同一のものとすることもでき
る。また、上記押出機では、剪断領域の上流側に廃ゴム
投入部を設け、剪断領域と混練領域との境界部付近に再
生剤投入部を設け、混練領域の下流側に再生ゴム取り出
し部を設ける。[0009] The above kneading together with the above-mentioned shearing,
When a common multi-screw extruder is used, a recycled area can be produced by a continuous series of operations by allocating a shearing region upstream of the extruder and a kneading region downstream. In the shearing region and the kneading region,
For example, the screw shape, pitch, structure such as pitch, depth, etc. can be changed, and temperature control may be controlled in both regions, respectively. The temperature adjustment can be the same. Further, in the extruder, a waste rubber charging section is provided on the upstream side of the shearing area, a regenerating agent charging section is provided near a boundary between the shearing area and the kneading area, and a recycled rubber take-out section is provided on the downstream side of the kneading area. .
【0010】上記廃ゴム投入部は、ホッパ等により構成
することができるが、本発明として特にその構成が限定
されるものではない。さらに、剪断領域と混練領域との
境界部付近に設けられる再生剤投入部は、両者の境界部
が明確に出現している場合には、剪断領域の終端部から
混練領域の始端部に至る間で、適宜の位置に再生剤投入
部を設けることができ、両者の境界が明確でない場合に
は、それぞれの領域における作用の変化を考慮して、適
宜の位置を境界部と定めて該投入部を設けることができ
る。なお、再生ゴム取り出し部は、通常は、混練領域の
終端部に設けられる。上記した廃ゴム投入部、再生剤投
入部、再生ゴム取り出し部では、剪断、混練が適切にな
されるように、投入量、取り出し量をそれぞれ、または
関連付けて制御するのが望ましい。The waste rubber charging section can be constituted by a hopper or the like, but the structure of the present invention is not particularly limited. Further, the regenerant supply section provided near the boundary between the shearing region and the kneading region is provided between the terminal end of the shearing region and the starting end of the kneading region when the boundary between the two appears clearly. In this case, a regenerating agent introduction portion can be provided at an appropriate position, and when the boundary between the two is not clear, an appropriate position is determined as a boundary portion in consideration of a change in operation in each region, and the introduction portion is defined. Can be provided. The reclaimed rubber take-out part is usually provided at the end of the kneading area. In the waste rubber charging unit, the regenerating agent charging unit, and the recycled rubber discharging unit, it is desirable to control the charging amount and the discharging amount individually or in association with each other so that shearing and kneading are appropriately performed.
【0011】上記のように、機械的剪断によって可塑化
したゴム、およびこれに加えて再生剤との混合によって
混練を行ったゴムは、短時間または連続作業による効率
的な工程によって製造することができる。しかもこれら
のゴムは、外部加熱を行わずに剪断による可塑化が行わ
れているため、加熱によるゴムの品質の劣化が少なく、
またゴム粉の混入もなく、再生ゴムとして優れた品質を
有している。さらに、機械的剪断後、再生剤を混合して
混練を行うものでは、外部加熱を必要とすることなく可
塑化が十分行われているため、ムーニー粘度が小さくな
り、加工しやすくなる。As described above, rubber plasticized by mechanical shearing and rubber kneaded by mixing with a regenerant in addition to this can be produced by an efficient process in a short time or continuous operation. it can. Moreover, since these rubbers are plasticized by shearing without external heating, deterioration of rubber quality due to heating is small,
Also, there is no mixing of rubber powder, and it has excellent quality as recycled rubber. Further, in the case where the regenerant is mixed and kneaded after mechanical shearing, the plasticization is sufficiently performed without the need for external heating, so that the Mooney viscosity becomes small and the processing becomes easy.
【0012】[0012]
【発明の実施の形態】(実施形態1)以下に、本発明の
一実施形態を図1に基づいて説明する。この実施形態で
使用する押出機1は、シリンダ2内に2軸のスクリュウ
軸3a、3bが配置されており、該スクリュウ軸3a、
3bは、互いのスクリュウ羽根をややずらして噛み合わ
せて、かつ互いに同方向に回転するように構成されてい
る。また、該押出機1には、原料を投入するホッパ4と
微粉砕されたゴム粉末を取り出す取り出し部5とが設け
られている。上記押出機1による剪断の前には、廃タイ
ヤを破断機によって実質的に1〜4mmの大きさのゴム
チップ10に破断し、これを上記押出機1のシリンダ2
内に投入する。投入されたゴムチップ10は、回転する
2軸のスクリュウ軸3a、3bによって機械的な剪断力
を受けて、実質的に0.8mm以下の大きさのゴム粉末
10aに微粉砕化される。得られたゴム粉末10aは、
そのまま各種の用途に使用することができる。(Embodiment 1) An embodiment of the present invention will be described below with reference to FIG. In the extruder 1 used in this embodiment, two screw shafts 3a and 3b are arranged in a cylinder 2, and the screw shafts 3a and 3b are
3b is configured so that the screw blades of each other mesh slightly with each other and rotate in the same direction. In addition, the extruder 1 is provided with a hopper 4 for charging a raw material and a take-out unit 5 for taking out finely ground rubber powder. Prior to the shearing by the extruder 1, the waste tire is broken into rubber chips 10 having a size of substantially 1 to 4 mm by a breaker, and this is cut into a cylinder 2 of the extruder 1.
Put in. The inserted rubber chip 10 is mechanically sheared by the rotating two screw shafts 3a and 3b, and is finely pulverized into a rubber powder 10a having a size of substantially 0.8 mm or less. The obtained rubber powder 10a is
It can be used for various applications as it is.
【0013】(実施形態2)また、上記ゴム粉末10a
には、図2に示すように再生剤を混合し、この混合物1
2をロール13、13間に通すことにより混練して、厚
さ1mm程度の板状の再生ゴム塊15を得ることができ
る。(Embodiment 2) The rubber powder 10a
, A regenerant is mixed as shown in FIG.
2 can be kneaded by passing it between the rolls 13 to obtain a plate-shaped reclaimed rubber mass 15 having a thickness of about 1 mm.
【0014】(実施形態3)また、図3は、上記図2の
実施形態と異なり、ゴム粉末10aを2軸押出機20の
ホッパ22を介して再生剤とともにシリンダ22内に投
入して2軸スクリュウ軸23a、23bによって混練す
る。再生剤は、2軸押出機20のシリンダ21内で、ゴ
ム粉末10aとともに混練される。この混練によってゴ
ム粉末10aは可塑化されつつシリンダ21内を移動
し、最終的に2軸押出機20の取り出し部24から、1
〜10cm3程度の大きさの再生ゴム塊25が連続して
得られる。上記ロール13または2軸押出機20での混
練によって得られた再生ゴム15または再生ゴム25
は、品質の劣化やゴム粉の混入がなく、優れた品質を有
している。また、該再生ゴムは十分な可塑化がなされて
おり、再利用に際し、利用目的に合わせて容易に加工し
て利用することができる。(Embodiment 3) FIG. 3 is different from the embodiment shown in FIG. 2 in that the rubber powder 10a is fed into a cylinder 22 together with a regenerant through a hopper 22 of a twin-screw extruder 20, and Kneading is performed by the screw shafts 23a and 23b. The regenerant is kneaded with the rubber powder 10a in the cylinder 21 of the twin-screw extruder 20. Due to this kneading, the rubber powder 10a moves in the cylinder 21 while being plasticized, and finally,
Recycled rubber blocks 25 having a size of about 10 cm 3 to about 10 cm 3 are continuously obtained. Reclaimed rubber 15 or reclaimed rubber 25 obtained by kneading in roll 13 or twin-screw extruder 20
Has excellent quality without deterioration of the quality or mixing of rubber powder. In addition, the recycled rubber is sufficiently plasticized, and can be easily processed and reused for reuse according to the purpose of use.
【0015】(実施形態4)この実施形態は、図4に示
すように一つの2軸押出機30によって、ゴムチップ1
0を剪断、混練するものである。上記2軸押出機30
は、シリンダ31内に2つのスクリュウ軸32a、32
bが並列されており、それぞれのスクリュウ翼が一部で
噛み合うように配置されている。また、シリンダ31
は、上流側が剪断領域31a、下流側が混練領域31b
に割り当てられており、それぞれの領域に合わせてスク
リュウ軸32a、32bの形状が選定されている。ま
た、剪断領域31aの上流端側には、シリンダ31内に
ゴムチップ10を投入するホッパ33が設けられてお
り、また、剪断領域31aと混練領域31bとの境界部
に、再生剤をシリンダ31内に投入するための再生剤投
入部34が設けられており、さらに混練領域31bの下
流側端部に再生されたゴム塊を取り出す再生ゴム取り出
し部35が設けられている。(Embodiment 4) In this embodiment, as shown in FIG.
0 is sheared and kneaded. The twin screw extruder 30
Are two screw shafts 32 a, 32 in a cylinder 31.
b are arranged in parallel, and each screw blade is arranged so as to partially mesh with each other. Also, the cylinder 31
Is a shearing area 31a on the upstream side and a kneading area 31b on the downstream side.
, And the shapes of the screw shafts 32a and 32b are selected according to the respective areas. On the upstream end side of the shearing region 31a, a hopper 33 for charging the rubber chip 10 into the cylinder 31 is provided. In addition, a regenerant is injected into the cylinder 31 at the boundary between the shearing region 31a and the kneading region 31b. And a reclaimed rubber take-out section 35 for taking out a reclaimed rubber mass at the downstream end of the kneading area 31b.
【0016】上記装置を用いた再生ゴムの製造について
説明すると、上記と同様に破断された廃ゴムチップ10
を連続的にホッパ33に投入し、一方、スクリュウ軸3
2a、32bは同方向に回転させる。ホッパ33に投入
された廃ゴムチップ10は順次シリンダ31内を移動
し、前記した実施形態1と同様に押出機内の剪断領域3
1aで剪断されて所望の大きさのゴム粒10aに微粉砕
される。このゴム粒10aはシリンダ31内を移動し
て。剪断領域31aから混練領域31bに至る。またこ
れら領域31aと31bとの境界部では、再生剤投入部
34からシリンダ31内に連続的に再生剤が投入されて
おり、該再生剤はシリンダ31内で移動してくるゴム粒
10aに順次混合される。再生剤が混合されたゴム粒は
混練領域31b内を移動しつつスクリュウ軸32a、3
2bによって撹拌、混合され、再生剤とゴム粉とが均等
に分散してゴム粉の脱硫(可塑化)が進行する。なお、
上記シリンダ31には冷却装置(図示しない)が設けら
れており、該冷却装置の作用によって、シリンダ31内
の昇温を抑制している。上記により十分に可塑化された
再生ゴム塊36は、再生ゴム取り出し部35からシリン
ダ31外部に取り出して、必要に応じて加工を加え、所
望の用途に利用する。上記押出機30を用いた再生ゴム
の製造では、効率的に再生ゴムを製造できるとともに、
得られた再生ゴムは十分に可塑化がなされているととも
に、再生に伴う品質の劣化も小さい。なお、上記実施形
態では、2つのスクリュウ軸を互いのスクリュウが一部
で噛み合うように配置し、それぞれ同方向にかいてんさ
せるものとしたが、本発明としては噛み合い状態や回転
方向は適宜変更することができる。The production of recycled rubber using the above apparatus will be described.
Into the hopper 33 continuously, while the screw shaft 3
2a and 32b are rotated in the same direction. The waste rubber chips 10 put into the hopper 33 sequentially move in the cylinder 31 and, similarly to the first embodiment, the shearing region 3 in the extruder.
It is sheared at 1a and pulverized into rubber particles 10a of a desired size. The rubber particles 10a move inside the cylinder 31. From the shearing area 31a to the kneading area 31b. At the boundary between these regions 31a and 31b, the regenerant is continuously supplied from the regenerant supply portion 34 into the cylinder 31, and the regenerant is sequentially supplied to the rubber particles 10a moving within the cylinder 31. Mixed. The rubber particles mixed with the regenerating agent move in the kneading area 31b while moving in the screw shafts 32a, 3b.
The mixture is stirred and mixed by 2b, the regenerant and the rubber powder are uniformly dispersed, and the desulfurization (plasticization) of the rubber powder proceeds. In addition,
The cylinder 31 is provided with a cooling device (not shown), and the operation of the cooling device suppresses a temperature rise in the cylinder 31. The reclaimed rubber mass 36 sufficiently plasticized as described above is taken out of the cylinder 31 from the reclaimed rubber take-out portion 35, processed as needed, and used for a desired application. In the production of the recycled rubber using the extruder 30, the recycled rubber can be efficiently produced,
The obtained reclaimed rubber is sufficiently plasticized, and the degradation of quality due to reclaiming is small. In the above-described embodiment, the two screw shafts are arranged so that the respective screws partially mesh with each other, and are engaged in the same direction. However, as the present invention, the meshing state and the rotation direction are appropriately changed. be able to.
【0017】[0017]
【実施例】以下に本発明の実施例を説明する。トラッ
ク、乗用タイヤから得た廃ゴムを1〜4mmの大きさに
破断して廃ゴムチップを用意し、この廃ゴムチップ1k
gから、本発明法および従来法によるパン法によって再
生ゴムを製造した。本発明法では、実施形態4で示した
二軸押出機で上記廃ゴムチップを1〜4mmの大きさに
破断して微粉砕ゴム粒を製造し、さらにこのゴム粒に再
生剤(プロセスオイル 100ml、n−ブチルアミン
10g)を混合してロールで混練して再生ゴムを製造
した。一方、パン法では、上記廃ゴムチップを200℃
で蒸し焼きし、これをロール機によってすりつぶすこと
によって再生ゴムを製造した。Embodiments of the present invention will be described below. A waste rubber chip obtained by breaking a waste rubber obtained from a truck or a passenger tire into a size of 1 to 4 mm is prepared.
Recycled rubber was produced from g by the bread method according to the present invention and the conventional method. In the method of the present invention, the waste rubber chip is broken into a size of 1 to 4 mm by the twin-screw extruder described in Embodiment 4 to produce finely pulverized rubber particles, and a regenerating agent (100 ml of process oil, n-butylamine (10 g) was mixed and kneaded with a roll to produce a recycled rubber. On the other hand, in the pan method, the waste rubber chips
And the resulting rubber was ground by a roll mill to produce recycled rubber.
【0018】上記より得られた再生ゴムの品質(可塑
化)を評価するため、原料の廃ゴムおよび各方法により
得られた再生ゴムにおけるクロロホルム抽出量を測定し
た(測定法:JIS K6350)。なお、参考のた
め、本発明法において剪断後の微粉砕ゴム粒のクロロホ
ルム抽出量も測定し、それぞれその結果を表1に示し
た。その結果、本発明法では、再生の結果、クロロホル
ム抽出量が顕著に増加しており、したがって、可塑化が
十分に進行していることが示されている。一方、パン法
では、クロロホルム抽出量の増加は僅かであり、可塑化
は十分ではない。また、再生ゴムの製造に至るまでに、
本発明法では約30分で工程を終了したのに対し、上記
パン法では4時間を要しており、作業効率において顕著
な差があることも明らかになっている。なお、本発明法
により得られた再生ゴムは、上記のように十分な可塑化
がなされているとともに、ゴム粉の残留やゴム分子の切
れすぎも認められなかった。In order to evaluate the quality (plasticization) of the reclaimed rubber obtained above, the amount of chloroform extracted from the waste rubber as a raw material and the reclaimed rubber obtained by each method was measured (measurement method: JIS K6350). For reference, the amount of chloroform extracted from the finely ground rubber particles after shearing was also measured in the method of the present invention, and the results are shown in Table 1. As a result, in the method of the present invention, as a result of the regeneration, the amount of chloroform extracted was significantly increased, and thus it was shown that plasticization was sufficiently advanced. On the other hand, in the pan method, the amount of chloroform extracted is slightly increased and plasticization is not sufficient. Also, up to the production of recycled rubber,
While the process of the present invention completed the process in about 30 minutes, the pan method requires 4 hours, and it is clear that there is a remarkable difference in working efficiency. In addition, the recycled rubber obtained by the method of the present invention was sufficiently plasticized as described above, and neither residual rubber powder nor excessive breaking of rubber molecules was observed.
【0019】[0019]
【表1】 [Table 1]
【0020】[0020]
【発明の効果】以上説明したように、本発明の再生ゴム
の製造方法によれば、加硫廃ゴムチップを、外部加熱を
加えることなく多軸押出機の剪断力によって微粉砕しつ
つ可塑化させて微粉砕ゴム粒を得るので、ゴム品質の低
下を招くことなく良好に可塑化を行うことができる。さ
らに上記ゴム粒に再生剤を混合して混練すれば、品質に
優れ、かつ十分に可塑化された再生ゴムを得ることがで
きる。As described above, according to the method for producing recycled rubber of the present invention, the vulcanized waste rubber chips are plasticized while being finely pulverized by the shearing force of the multi-screw extruder without applying external heating. As a result, finely pulverized rubber particles can be obtained, so that plasticization can be favorably performed without deteriorating the rubber quality. Furthermore, if a regenerant is mixed and kneaded with the rubber particles, a regenerated rubber excellent in quality and sufficiently plasticized can be obtained.
【0021】なお、上記製造に際し、シリンダ内に多軸
スクリュウが配置された多軸混合機からなるとともに、
該シリンダが、上流側の剪断領域と下流側の混練領域と
に区分されており、前記剪断領域に、加硫廃ゴムをシリ
ンダ内に投入する廃ゴム投入部が設けられ、剪断領域と
混練領域との境界部付近に、再生剤をシリンダ内に投入
する再生剤投入部が設けられ、混練領域の下流側に、再
生されたゴムをシリンダ内から取り出す再生ゴム取り出
し部が設けられている製造装置を使用すれば、上記した
品質良好で、十分に可塑化された再生ゴムを効率的に製
造することができる。It is to be noted that, in the above-mentioned production, a multi-shaft mixer having a multi-shaft screw arranged in a cylinder is provided.
The cylinder is divided into an upstream shearing region and a downstream kneading region, and a waste rubber charging section for charging vulcanized waste rubber into the cylinder is provided in the shearing region, and a shearing region and a kneading region are provided. A manufacturing apparatus provided with a regenerating agent introducing section for introducing a regenerating agent into a cylinder near a boundary portion with the reclaimed rubber, and a reclaimed rubber take-out section for taking out reclaimed rubber from the inside of the cylinder on a downstream side of the kneading region. By using, it is possible to efficiently produce a regenerated rubber having good quality and sufficiently plasticized as described above.
【図1】 本発明の一実施形態を示す概略図である。FIG. 1 is a schematic diagram showing one embodiment of the present invention.
【図2】 同じく他の実施形態を示す概略図である。FIG. 2 is a schematic view showing another embodiment.
【図3】 さらに他の実施形態を示す概略図である。FIG. 3 is a schematic view showing still another embodiment.
【図4】 さらに他の実施形態を示す概略図である。FIG. 4 is a schematic view showing still another embodiment.
1 2軸押出機 2 シリンダ 3a スクリュウ軸 3b スクリュウ軸 4 ホッパ 5 再生ゴム取り出し部 10a 微粉砕ゴム粒 13 ロール 15 再生ゴム塊 20 2軸押出機 21 シリンダ 22 ホッパ 24 再生ゴム取り出し部 25 再生ゴム塊 30 2軸押出機 31 シリンダ 31a 剪断領域 31b 混練領域 32a スクリュウ軸 32b スクリュウ軸 33 ホッパ 34 再生剤投入部 35 再生ゴム取り出し部 36 再生ゴム塊 DESCRIPTION OF SYMBOLS 1 Twin screw extruder 2 Cylinder 3a Screw shaft 3b Screw shaft 4 Hopper 5 Reclaimed rubber take-out part 10a Finely ground rubber particles 13 Roll 15 Reclaimed rubber lump 20 Twin screw extruder 21 Cylinder 22 Hopper 24 Reclaimed rubber take-out part 25 Reclaimed rubber lump 30 Twin screw extruder 31 Cylinder 31a Shearing area 31b Kneading area 32a Screw axis 32b Screw axis 33 Hopper 34 Regenerant input section 35 Recycled rubber take-out section 36 Recycled rubber block
Claims (3)
ことなく多軸押出機の剪断力によって微粉砕しつつ可塑
化させて微粉砕ゴム粒を得ることを特徴とする再生ゴム
の製造方法1. A method for producing a reclaimed rubber, wherein pulverized waste rubber chips are plasticized while being finely pulverized by a shearing force of a multi-screw extruder without applying external heating to obtain finely pulverized rubber particles.
混合して混練しつつ可塑化させることを特徴とする再生
ゴムの製造方法2. A method for producing a recycled rubber, comprising: mixing and kneading a plasticizer with the finely pulverized rubber particles according to claim 1;
た多軸混合機からなるとともに、該シリンダが、上流側
の剪断領域と下流側の混練領域とに区分されており、さ
らに前記剪断領域に、加硫廃ゴムをシリンダ内に投入す
る廃ゴム投入部が設けられ、剪断領域と混練領域との境
界部付近に、再生剤をシリンダ内に投入する再生剤投入
部が設けられ、混練領域の下流側に、再生されたゴムを
シリンダ内から取り出す再生ゴム取り出し部が設けられ
ていることを特徴とする再生ゴムの製造装置3. A multi-shaft mixer in which a multi-shaft screw is arranged in a cylinder, wherein the cylinder is divided into an upstream shearing area and a downstream kneading area. A waste rubber charging unit for charging vulcanized waste rubber into the cylinder is provided, and a regenerating agent charging unit for charging the regenerating agent into the cylinder is provided near a boundary between the shearing region and the kneading region. An apparatus for producing a recycled rubber, wherein a downstream side of the cylinder is provided with a recycled rubber take-out portion for taking out the recycled rubber from the cylinder.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2778798A JPH11207742A (en) | 1998-01-26 | 1998-01-26 | Method and apparatus for producing reclaimed rubber |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2778798A JPH11207742A (en) | 1998-01-26 | 1998-01-26 | Method and apparatus for producing reclaimed rubber |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH11207742A true JPH11207742A (en) | 1999-08-03 |
Family
ID=12230698
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2778798A Pending JPH11207742A (en) | 1998-01-26 | 1998-01-26 | Method and apparatus for producing reclaimed rubber |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH11207742A (en) |
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JP2005087976A (en) * | 2003-09-19 | 2005-04-07 | National Institute Of Advanced Industrial & Technology | Production method and apparatus for rubber crumb by grinding |
JP2005212174A (en) * | 2004-01-28 | 2005-08-11 | Nok Corp | Vulcanized scrap rubber regenerating method |
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JP2013525134A (en) * | 2010-03-15 | 2013-06-20 | フェニックス イノベーション テクノロジー インコーポレイテッド | Vulcanized rubber regeneration method and apparatus |
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JP2005087976A (en) * | 2003-09-19 | 2005-04-07 | National Institute Of Advanced Industrial & Technology | Production method and apparatus for rubber crumb by grinding |
JP2005212174A (en) * | 2004-01-28 | 2005-08-11 | Nok Corp | Vulcanized scrap rubber regenerating method |
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