JP5780585B2 - Crushing machine - Google Patents
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- JP5780585B2 JP5780585B2 JP2011108713A JP2011108713A JP5780585B2 JP 5780585 B2 JP5780585 B2 JP 5780585B2 JP 2011108713 A JP2011108713 A JP 2011108713A JP 2011108713 A JP2011108713 A JP 2011108713A JP 5780585 B2 JP5780585 B2 JP 5780585B2
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本発明は例えば紙、プラスチック等の都市ゴミ、産業廃棄物等の被破砕物を細片に切断する破砕機に関するものである。 The present invention relates to a crusher that cuts objects to be crushed, such as city trash such as paper and plastic, and industrial waste.
従来この種の破砕機として、例えば、図2、図3、図4の如く、破砕機体Bの破砕室部Q内に並列状に回転軸S・Sを二個配設し、各回転軸S・Sに被破砕物Hを破砕可能な破砕刃Rを配設し、二個の各回転軸S・Sの一方端部及び他方端部に油圧モータM・Mを設け、二個の各油圧モータM・Mを同時に駆動制御する単一個の流路切換弁Eをもつ油圧制御手段Dを設けてなる構造の二軸破砕機や、図示省略しているが、これら二個の回転軸S・Sのうち、一方の回転軸Sは各回転軸S・Sの一方端部及び他方端部に設けた二個の油圧モータM・Mにより回転駆動し、他方の回転軸Sはその一方端部にのみ設けた一個の油圧モータMにより回転駆動することもあり、又、図5、図6の如く、破砕機体Bの破砕室部Q内に並列状に回転軸S・S・Sを三個又は四個配設した構造の三軸、四軸破砕機、或いは、図示省略の複数個の回転軸を配設した構造の多軸破砕機、若しくは、図7の如く、単数の回転軸S及び破砕機体B側に設けた固定刃Fからなる一軸剪断構造などの各種の破砕機が知られている。 Conventionally, as this type of crusher, for example, as shown in FIGS. 2, 3, and 4, two rotation shafts S and S are arranged in parallel in the crushing chamber portion Q of the crusher body B, and each rotation shaft S A crushing blade R capable of crushing the object to be crushed H is arranged in S, and hydraulic motors M and M are provided at one end and the other end of each of the two rotary shafts S and S, and each of the two hydraulic pressures A biaxial crusher having a structure in which a hydraulic control means D having a single flow path switching valve E for driving and controlling the motors M and M at the same time is provided. One of the rotary shafts S is rotationally driven by two hydraulic motors M · M provided at one end and the other end of each rotary shaft S · S, and the other rotary shaft S has one end thereof. May be driven by a single hydraulic motor M provided only on the rotating shaft S / S in parallel in the crushing chamber portion Q of the crushing machine body B as shown in FIGS. A three-axis or four-axis crusher having a structure in which three or four S are arranged, a multi-axis crusher having a structure in which a plurality of rotation shafts (not shown) are arranged, or a single as shown in FIG. Various crushers such as a uniaxial shear structure including a fixed blade F provided on the rotating shaft S and the crusher body B side are known.
しかして、例えば、図2、図3、図4に示す二軸破砕機にあっては、被破砕物Hの破砕状況により不可避的に生ずる過負荷運転に対し、二個の油圧モータM・Mを同時に駆動して回転軸Sを正転又は逆転制御し、各種の被破砕物Hを円滑に破砕するようにしている。 Thus, for example, in the biaxial crusher shown in FIGS. 2, 3, and 4, two hydraulic motors M and M are used for the overload operation that is unavoidably caused by the crushing condition of the material H to be crushed. Are simultaneously driven to control the rotation axis S in the normal direction or the reverse direction so that various objects H are smoothly crushed.
しかしながら従来構造の場合、上記回転軸Sは回転軸Sの両端部に設けられた各油圧モータM・Mを同時に駆動制御して回転駆動する構造となっており、このため、回転軸Sの回転数及び出力トルクの回転制御範囲にあっては、一方端部及び他方端部に設けられた各油圧モータM・Mの合計のポンプ容量により定まる特定の一つの回転制御範囲に限られることになり、例えば、柔らかい、硬いなどの各種の被破砕物Hに対する破砕の融通性が低くなることがあり、被破砕物Hの破砕効率及び破砕経済性が低下することがあるという不都合を有している。 However, in the case of the conventional structure, the rotating shaft S has a structure in which the hydraulic motors M and M provided at both ends of the rotating shaft S are simultaneously driven and driven to rotate. The number and output torque rotation control range is limited to one specific rotation control range determined by the total pump capacity of the hydraulic motors M and M provided at one end and the other end. For example, the flexibility of crushing with respect to various crushed objects H such as soft and hard may be lowered, and the crushing efficiency and crushing economy of the crushed object H may be reduced. .
本発明はこれらの不都合を解決することを目的とするもので、本発明のうちで、請求項1記載の発明は、破砕機体の破砕室部内に回転軸を配設し、該回転軸に被破砕物を破砕可能な破砕刃を配設し、該回転軸を回転駆動する油圧モータを設け、該油圧モータを駆動制御する油圧制御手段を備えてなり、上記回転軸は該回転軸の一方端部及び他方端部に設けられた各油圧モータにより回転駆動され、該各油圧モータは相互に容量が大小に異なる油圧モータが用いられ、上記油圧制御手段は該各油圧モータを個別又は同時に駆動制御するように設けられ、かつ、上記回転軸は上記破砕室部内に単数個又は複数個設けられ、該複数個の回転軸のうちの、少なくとも、いずれか一つの回転軸、いずれかの複数個の回転軸、又は、すべての回転軸を上記各油圧モータにより回転駆動するように設けられ、さらに、上記油圧制御手段として、上記各油圧モータと油圧ポンプとの間にそれぞれ流路切換弁を設け、該流路切換弁の切換により各油圧モータを個別又は同時に駆動制御するように設けられ、さらに、上記流路切換弁は上記油圧モータに供給される圧油の圧力を検出する圧力センサに基づいて切換動作されることを特徴とするものである。 The present invention aims to solve these disadvantages. Among the present inventions, the invention according to claim 1 is characterized in that a rotating shaft is disposed in a crushing chamber portion of a crushing machine body, and the rotating shaft is covered. A crushing blade capable of crushing crushed material is provided, a hydraulic motor that rotationally drives the rotary shaft is provided, and hydraulic control means that drives and controls the hydraulic motor is provided, and the rotary shaft is at one end of the rotary shaft. The hydraulic motors are rotationally driven by hydraulic motors provided at the other end and the other end. The hydraulic motors use hydraulic motors having different capacities, and the hydraulic control means controls the hydraulic motors individually or simultaneously. And the rotation shaft is provided in the crushing chamber part by one or a plurality, and at least one of the plurality of rotation shafts, any of the plurality of rotation shafts. Rotating shaft or all rotating shafts The hydraulic control unit is provided so as to be driven to rotate. Further, as the hydraulic control means, a flow path switching valve is provided between each hydraulic motor and the hydraulic pump, and each hydraulic motor is switched by switching the flow path switching valve. Provided to be individually or simultaneously driven and controlled, and further, the flow path switching valve is switched based on a pressure sensor for detecting the pressure of the pressure oil supplied to the hydraulic motor. .
本発明は上述の如く、請求項1記載の発明にあっては、油圧モータにより駆動される回転軸の回転により破砕刃で被破砕物を破砕するに際し、上記回転軸は該回転軸の一方端部及び他方端部に設けられた各油圧モータにより回転駆動され、該各油圧モータは相互に容量が大小に異なる油圧モータが用いられ、上記油圧制御手段は該各油圧モータを個別又は同時に駆動制御することになり、それだけ、回転軸の回転数及び出力トルクの回転制御範囲を拡大することができ、柔らかい、硬いなどの各種の被破砕物に対する破砕の融通性を高めることができ、被破砕物の破砕効率及び破砕経済性を高めることができ、かつ、上記回転軸は上記破砕室部内に単数又は複数個設けられ、複数個の回転軸のうちの、少なくとも、いずれか一つの回転軸、いずれかの複数個の回転軸、又は、すべての回転軸を上記各油圧モータにより回転駆動するように設けられているから、回転軸の回転制御範囲を拡大することができ、さらに、上記油圧制御手段として、上記各油圧モータと油圧ポンプとの間にそれぞれ流路切換弁を設け、流路切換弁の切換により各油圧モータを個別又は同時に駆動制御するように設けられているから、回転軸の回転制御を容易に行うことができ、さらに、各流路切換弁は油圧モータに供給される圧油の圧力を検出する圧力センサに基づいて切換動作されるから、回転軸の回転制御を容易に行うことができる。 As described above, according to the present invention, when the object to be crushed is crushed by the crushing blade by the rotation of the rotating shaft driven by the hydraulic motor, the rotating shaft is at one end of the rotating shaft. The hydraulic motors are rotationally driven by hydraulic motors provided at the other end and the other end. The hydraulic motors use hydraulic motors having different capacities, and the hydraulic control means controls the hydraulic motors individually or simultaneously. As a result, the rotation control range of the rotation speed and output torque of the rotating shaft can be expanded, and the flexibility of crushing for various crushed objects such as soft and hard can be increased. of it is possible to increase the crushing efficiency and crushing economy, and the rotating shaft is provided singular or plural in the crushing chamber portion, of the plurality of rotary shafts, at least, one rotary axis one, have Since the plurality of rotating shafts or all of the rotating shafts are provided to be rotationally driven by the hydraulic motors, the rotational control range of the rotating shafts can be expanded, and the hydraulic control is performed. As a means, a flow path switching valve is provided between each hydraulic motor and the hydraulic pump, and each hydraulic motor is controlled to be driven individually or simultaneously by switching the flow path switching valve. Rotational control can be easily performed, and each flow path switching valve is switched based on a pressure sensor that detects the pressure of the pressure oil supplied to the hydraulic motor. It can be carried out.
図1は本発明の実施の形態例を示し、この場合、上記図2に示した二軸破砕機に適用したものであって、同符号を付して説明すると、破砕機体Bの破砕室部Q内に並列状に回転軸S・Sを二個配設し、各回転軸S・Sに被破砕物Hを破砕可能な破砕刃Rを配設し、少なくとも、一方の回転軸Sは回転軸Sの一方端部及び他方端部に設けられた各油圧モータM・Mにより回転駆動され、各油圧モータM・Mは相互に容量が大小に異なる油圧モータM1・M2が用いられ、油圧制御手段Dとして、回転軸Sを回転駆動する一方端部側の油圧モータM1と油圧ポンプPとの間及び他方端部側の油圧モータM2と油圧ポンプPとの間にそれぞれ流路切換弁E1・E2を設け、しかして、回転軸Sの一方端部及び他方端部に設けられた大小容量の異なる油圧モータM1・M2を、大容量の油圧モータM1のみ、小容量の油圧モータM2のみのように個別駆動制御、又は、大容量の油圧モータM1及び小容量の油圧モータM2の同時駆動制御のように段階的、この場合、三段階で回転制御するように構成している。 FIG. 1 shows an embodiment of the present invention. In this case, the present invention is applied to the biaxial crusher shown in FIG. Two rotating shafts S and S are arranged in parallel in Q, and a crushing blade R capable of crushing the object to be crushed H is arranged on each rotating shaft S and S, and at least one rotating shaft S rotates. The hydraulic motors M 1 and M 2 that are rotationally driven by the hydraulic motors M and M provided at one end and the other end of the shaft S are different in capacity from each other. as the hydraulic control unit D, respectively flow path between the hydraulic motor M 2 and the hydraulic pump P and between the other end portion side of the hydraulic motor M 1 and the hydraulic pump P of the one end side for rotating the rotary shaft S the changeover valve E 1 · E 2 is provided, Thus, different large and small volume provided in one end and the other end of the rotary shaft S That the hydraulic motor M 1 · M 2, only the hydraulic motor M 1 of the large capacity, individually driven and controlled as only the hydraulic motor M 2 of small volume, or, the hydraulic motor M of the hydraulic motor M 1 and the small capacity of the large capacity In this case, the rotation control is performed in stages, such as two simultaneous drive controls, in this case, in three stages.
この場合、図示省略しているが、二個の回転軸S・Sのうち、一方及び他方の二個の回転軸S・Sをその一方端部及び他方端部に設けた各油圧モータM1・M2により駆動するようにしているが、その一方の回転軸にはその一方端部及び他方端部に油圧モータM1・M2を設け、他方の回転軸Sについては、その一方端部にのみ油圧モータを設ける構成とすることもあり、すなわち、いずれか一つ又は二個すべての回転軸Sについて、その一方端部及び他方端部に油圧モータM1・M2を設ける構成とすることもある。 In this case, although not shown, two of the rotary shaft of the S · S, one and the other two of the rotating shaft the hydraulic motors M 1 having a S · S at its one end and the other end Although driven by M 2 , hydraulic motors M 1 and M 2 are provided at one end and the other end of one of the rotating shafts, and one end of the other rotating shaft S. In some cases, only one or all of the two rotation shafts S are provided with hydraulic motors M 1 and M 2 at one end and the other end thereof. Sometimes.
又、この場合、一方端部及び他方端部の各油圧モータM1・M2は、それぞれ容量が大小に異なる油圧モータM1・M2が用いられているが、ここに、油圧モータMの容量とは、油圧モータMを一回転させるに要する油量(cm3/rev)をいい、容量が大きい又は小さいとは、油圧モータMを一回転させるに要する油量が多い、又は、小さいということである。また、被破砕物Hの破砕能力に影響する回転軸Sの出力トルク(N・m/MPa)にあっては、油圧モータMの回転数(rev/min)に依拠するということになる。 In this case, the hydraulic motors M 1 and M 2 having different capacities are used for the hydraulic motors M 1 and M 2 at one end and the other end. The capacity refers to the amount of oil (cm 3 / rev) required to make one revolution of the hydraulic motor M, and the capacity is large or small means that the amount of oil required to make one revolution of the hydraulic motor M is large or small. That is. Further, the output torque (N · m / MPa) of the rotating shaft S that affects the crushing ability of the object H to be crushed depends on the rotational speed (rev / min) of the hydraulic motor M.
又、この場合、上記油圧ポンプPと上記各油圧モータM1・M2との間に圧力センサGを設け、各油圧モータM1・M2に供給される圧油の圧力を圧力センサGにより検出し、この圧力センサGの圧力信号に基づいて流路切換弁E1・E2を切換動作するように構成している。 In this case, a pressure sensor G is provided between the hydraulic pump P and the hydraulic motors M 1 and M 2, and the pressure of the pressure oil supplied to the hydraulic motors M 1 and M 2 is Based on the detected pressure signal of the pressure sensor G, the flow path switching valves E 1 and E 2 are switched.
この実施の形態例は上記構成であるから、回転軸Sは回転軸Sの一方端部及び他方端部に設けられた各油圧モータM1・M2により回転駆動され、各油圧モータM1・M2は相互に容量が大小に異なる油圧モータM1・M2が用いられ、油圧制御手段Dは各油圧モータM1・M2を個別又は同時に駆動制御することになり、例えば、先ず、油圧ポンプPより中立位置から正転位置に切換えた流路切換弁E2を介して容量小の油圧モータM2に圧油が供給され、油圧モータM2により回転軸Sが駆動され、このとき、油圧モータM1は空転し、破砕途中において、過負荷運転となって圧力センサGが油圧モータM2に供給される圧油の圧力上昇を検出すると、上記流路切換弁E2は正転位置から中立位置に切換動作されると共に流路切換弁E1は中立位置から正転位置に切換えられ、油圧ポンプPより中立位置から正転位置に切換えられた流路切換弁E1を介して容量大の油圧モータM1に圧油が供給され、油圧モータM1により回転軸Sが回転駆動され、このとき、油圧モータM2は空転し、更に、破砕途中において、過負荷運転となって圧力センサGが油圧モータM1に供給される圧油の圧力上昇を検出すると、流路切換弁E1は位置切換されない状態で、上記流路切換弁E2は中立位置から正転位置に切換動作され、しかして、流路切換弁E1・E2を介して油圧モータM1・M2が同時に回転駆動され、この際、必要に応じて、これら流路切換弁E1・E2の切換動作において、流路切換弁E1・E2の逆転位置への切換が行われて破砕作業がなされることになる。 Since embodiments of the present is the structure, the rotating shaft S is rotatably driven by the hydraulic motors M 1 · M 2 provided at one end and the other end of the rotating shaft S, M 1 · the hydraulic motors For M 2, hydraulic motors M 1 and M 2 having different capacities are used, and the hydraulic control means D controls driving of the hydraulic motors M 1 and M 2 individually or simultaneously. Pressure oil is supplied to the hydraulic motor M 2 having a small capacity through the flow path switching valve E 2 that is switched from the neutral position to the forward rotation position by the pump P, and the rotary shaft S is driven by the hydraulic motor M 2 . hydraulic motor M 1 is idle, in the course of crushing, when detecting the pressure rise of the hydraulic fluid pressure sensor G becomes overloaded operation is supplied to the hydraulic motor M 2, the flow path switching valve E 2 are the forward rotation position Is switched from the neutral position to the neutral position. Valve E 1 is switched to the forward rotation position from the neutral position, pressure oil is supplied to the hydraulic motor M 1 of volume size through the flow path switching valve E 1 has been switched to the forward rotation position from the neutral position than the hydraulic pump P , pressure rotating shaft S is rotated by a hydraulic motor M 1, this time, the hydraulic motor M 2 is idle, further, in the course crushing, the pressure sensor G becomes overloaded operation is supplied to the hydraulic motor M 1 When detecting a pressure rise in the oil, with the passage switching valve E 1 is not position switching, the channel switching valve E 2 is switched operation in the forward position from the neutral position, Thus, the flow path switching valve E 1 · hydraulic motor M 1 · M 2 is rotated simultaneously via the E 2, this time, if necessary, in the switching operation of these passage change-over valve E 1 · E 2, directional control valve E 1 · E 2 Is switched to the reverse rotation position and the crushing work is done It becomes door.
したがって、この場合、小容量の油圧モータM2のみによる回転軸Sの回転駆動、大容量の油圧モータM1のみによる回転軸Sの回転駆動及び小容量の油圧モータM2及び大容量の油圧モータM2の同時駆動による回転軸Sの回転駆動の三段階での回転駆動制御を行うことができ、それだけ、回転軸Sの回転数及び出力トルクの回転制御範囲を拡大することができ、柔らかい、硬いなどの各種の被破砕物Hに対する破砕の融通性を高めることができ、被破砕物Hの破砕効率及び破砕経済性を高めることができる。 Therefore, in this case, a small displacement of the hydraulic motor M 2 only by rotation of the rotating shaft S, a large capacity of the hydraulic motor M 1 only the hydraulic motor of the hydraulic motor M 2 and the mass of the rotary drive and the small capacity of the rotary shaft S by Rotation drive control in three stages of rotation drive of the rotation shaft S by simultaneous drive of M 2 can be performed, and the rotation control range of the rotation speed and output torque of the rotation shaft S can be expanded as much as that. The flexibility of crushing with respect to various crushed objects H such as hard can be increased, and the crushing efficiency and crushing economy of the crushed object H can be increased.
例えば、軽負荷時の小容量の油圧モータM2のみによる回転軸Sの駆動の場合は、油圧モータM2の回転数は高速、破砕力は弱となって、比較的柔らかい被破砕物Hの破砕に適して、高速で素早く破砕を行うことができ、又、大容量の油圧モータM1のみによる回転軸Sの駆動の場合は、油圧ポンプPの圧力は一定であるから、油圧モータM1の回転数は中速、破砕力は中となって、比較的柔らかい被破砕物Hと硬い被破砕物Hの中間的な普通の被破砕物Hの破砕に適して、比較的低速で確実な破砕を行うことができ、又、大容量の油圧モータM1及び小容量の油圧モータM2の同時駆動による回転軸Sの駆動の場合は、油圧モータM1の回転数は低速、破砕力は強となって、硬い被破砕物Hの破砕に適して、低速で確実な破砕を行うことができる。 For example, in the case of driving of the rotary shaft S only by the hydraulic motor M 2 of small capacity at light loads, the rotational speed of the hydraulic motor M 2 is fast, crushing force becomes weak, the relatively soft object to be crushed H suitable for crushing can be performed quickly crushed at high speed, and, in the case of driving of the rotary shaft S only by the hydraulic motor M 1 of the mass, because the pressure of the hydraulic pump P is constant, the hydraulic motor M 1 The number of rotations is medium, the crushing force is medium, and it is suitable for crushing ordinary crushed objects H that are intermediate between relatively soft crushed objects H and hard crushed objects H. crushing can be performed, also in the case of driving of the rotary shaft S by simultaneous driving of the hydraulic motor M 2 of the hydraulic motor M 1 and the small capacity of the large capacity, the rotational speed of the hydraulic motor M 1 is slow, crushing force It is strong and suitable for crushing hard to-be-crushed object H, and it can perform reliable crushing at low speed. You can.
この場合、上記回転軸Sは上記破砕室部Q内に二個設けられ、二個の回転軸S・Sのうちのすべての回転軸S・Sを上記各油圧モータM1・M2により回転駆動するように設けられているから、回転軸Sの運転制御範囲を拡大することができ、回転軸Sが単数の一軸破砕機であったり、又は、少なくとも、いずれか一つの回転軸S、いずれか複数個の回転軸S・・・、又は、すべての回転軸S・・・を回転駆動する場合においても、同様に、回転軸Sの回転制御範囲を拡大することができ、破砕の融通性を高めることができ、又、この場合、上記油圧制御手段Dとして、上記各油圧モータM1・M2と油圧ポンプPとの間にそれぞれ流路切換弁E1・E2を設け、流路切換弁E1・E2の切換により各油圧モータM1・M2を個別又は同時に駆動制御するように設けられているから、回転軸Sの回転制御を容易に行うことができ、破砕の融通性を高めることができ、又、この場合、各流路切換弁E1・E2は油圧モータM1・M2に供給される圧油の圧力を検出する圧力センサGに基づいて切換動作されるから、回転軸Sの回転制御を容易に行うことができる。 In this case, two rotation shafts S are provided in the crushing chamber Q, and all the rotation shafts S · S of the two rotation shafts S · S are rotated by the hydraulic motors M 1 and M 2. Since it is provided to drive, the operation control range of the rotary shaft S can be expanded, and the rotary shaft S is a single uniaxial crusher, or at least any one of the rotary shafts S, whichever In the case where a plurality of rotating shafts S ... or all of the rotating shafts S ... are rotationally driven, the rotational control range of the rotating shaft S can be similarly expanded, and the crushing flexibility can be increased. In this case, as the hydraulic control means D, flow path switching valves E 1 and E 2 are provided between the hydraulic motors M 1 and M 2 and the hydraulic pump P, respectively. Each of the hydraulic motors M 1 and M 2 is individually or by switching the switching valves E 1 and E 2 Since it is provided to drive and control at the same time, the rotation control of the rotary shaft S can be easily performed, and the flexibility of crushing can be improved. In this case, the flow path switching valves E 1 and E Since 2 is switched based on a pressure sensor G that detects the pressure of the pressure oil supplied to the hydraulic motors M 1 and M 2 , the rotation control of the rotary shaft S can be easily performed.
尚、本発明は上記実施の形態例に限られるものではなく、例えば、上記形態例以外の構造の多軸破砕機に適用することもでき、多軸破砕機においては、その複数個の回転軸のうちの、少なくとも、いずれか一つの回転軸、選択されたいずれか複数個の回転軸、又は、すべての回転軸をその一方端部及び他方端部に設けた各油圧モータにより回転駆動するように設けることもでき、又、回転軸Sの一方端部及び他方端部に設けられる各油圧モータM1・M2の構造として、単独構造の油圧モータや、2個又は数個のモータを直列状に直結した構造のタンデム構造の油圧モータ、或いは、二つ又は複数個のモーター室を有して一定油量に対して数種類の異なる回転数を得ることのできる多連式油圧モータを採用することもある。 The present invention is not limited to the above-described embodiment, and can be applied to, for example, a multi-axis crusher having a structure other than the above-described embodiment. At least one of the rotating shafts, any selected plurality of rotating shafts, or all of the rotating shafts are driven to rotate by hydraulic motors provided at one end and the other end thereof. In addition, as the structure of each of the hydraulic motors M 1 and M 2 provided at one end and the other end of the rotating shaft S, a single structure hydraulic motor or two or several motors are connected in series. Adopt a tandem hydraulic motor that is directly connected in a shape, or a multiple hydraulic motor that has two or more motor chambers and can obtain several different rotational speeds for a certain amount of oil Sometimes.
又、油圧制御手段Dにおいて、例えば、上記実施の形態例においては、回転軸Sを回転駆動する油圧モータM1・M2を一個の油圧ポンプPにより二個の流路切換弁E1・E2を格別に切り替えて駆動するようしているが、油圧モータM1・M2をそれぞれ別個の二個の油圧ポンプにより駆動する回路構成を採用することもあり、油圧制御手段Dの油圧回路構造は適宜設計して変更されるものである。 In the hydraulic control means D, for example, in the above-described embodiment, the hydraulic motors M 1 and M 2 for rotationally driving the rotary shaft S are connected to the two flow path switching valves E 1 and E by one hydraulic pump P. Although are to drive switch 2 exceptionally, also be employed a circuit structure for driving the hydraulic motor M 1 · M 2 by respective separate two hydraulic pumps, the hydraulic circuit structure of the hydraulic control unit D Are appropriately designed and changed.
以上、所期の目的を充分達成することができる。 As described above, the intended purpose can be sufficiently achieved.
B 破砕機体
Q 破砕室部
S 回転軸
H 被破砕物
R 破砕刃
M 油圧モータ
M1 油圧モータ
M2 油圧モータ
E 流路切換弁
E1 流路切換弁
E2 流路切換弁
D 油圧制御手段
P 油圧ポンプ
G 圧力センサ
B Crushing machine body Q Crushing chamber part S Rotating shaft H Object to be crushed R Crushing blade M Hydraulic motor M 1 Hydraulic motor M 2 Hydraulic motor E Channel switching valve E 1 channel switching valve E 2 channel switching valve D Hydraulic control means P Hydraulic pump G Pressure sensor
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