JPH06182239A - Structure for fixing movable member of jaw crusher - Google Patents

Abstract

PURPOSE:To eliminate that compression force due to crushing is applied to a toggle block by using a hydraulic structure and to shorten the working time for the relaxation of a compression spring of a tension bar and the movement of the toggle block. CONSTITUTION:A toggle block where a toggle plate 24 is freely movably inserted between a moving member 18 and a rear frame 30 of a jaw crusher 10, a wedge unit 46 for applying tightness and relaxation between the wedge surface and frame of a toggle block 26 and a tightening unit 42 for compressing a compression spring 40 into which an extension bar 38 is inserted which is pivotally attached to the lower end of the moving member 18 for applying the tightness and relaxation are provided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement of a jaw crusher movable member fixing structure.

[0002]

2. Description of the Related Art Conventionally, as a structure in which the crushing clearance of a jaw crusher is adjusted by utilizing the action force of a hydraulic cylinder, the toggle block of the jaw crusher has a hydraulic cylinder and a hydraulic binding device connected in series. A series is known (Japanese Utility Model Laid-Open No. 63-141638).

In this type of jaw crusher fixing member fixing structure, when adjusting the crushing clearance, the hydraulic tightening device is actuated to make it relaxed, and then the hydraulic cylinder is actuated to transmit the acting force to the toggle block. Then, the toggle block is moved so as to be positioned so as to obtain a predetermined crushing gap, and then the hydraulic tying device is actuated to bring the toggle block into a tightly attached state so that the crushing gap can be adjusted. Then, in the relaxed state, the compression springs of the pull rods are simultaneously relaxed to allow the toggle block to move freely.

In the conventional jaw crusher fixing member fixing structure, the compressive force applied to the crushed material during the operation of the jaw crusher is excessive, and a part of this compressive force is applied to the toggle block and the hydraulic type. It is loaded by the landing gear and the hydraulic cylinder.

[0005]

However, in the above-mentioned conventional structure, since the hydraulic binding device and the hydraulic cylinder are applied with excessive compression force, the hydraulic cylinder has a large diameter or a high pressure. It is necessary to operate using the hydraulic oil of. Further, when adjusting the crushing gap, it is necessary to manually bring the compression spring of the pull rod into a relaxed state, which may not be possible to shorten the working time for adjustment, which is not preferable.

The present invention has been made in order to solve the above-mentioned problems, and it is possible to omit applying a compressive force due to crushing by using a toggle block of a jaw crusher with a hydraulic structure, and adjust a crushing gap. It is an object of the present invention to provide a structure of a jaw crusher which can reduce the working time for positioning the compression spring of the pull rod by loosening it and moving the toggle block.

[0007]

In order to achieve the above object, according to the present invention, a toggle block is inserted between a movable member of a jaw crusher and a rear frame and is movable along a guide member. And a wedge unit connected to a wedge cylinder for tightly and loosely tightening between the upper wedge surface of the toggle block and the side frame,
A compression spring is interposed at the end of a pull rod pivotally attached to the lower end of the movable member to connect a tension cylinder and a tight attachment cylinder, and to compress and tightly attach or loosen the compression spring. A sticking unit, and a toggle block which is movable along a guide member by inserting a toggle plate between the movable member of the jaw crusher and the rear frame. A compression spring is interposed at the end of a pull rod pivotally attached to the lower end of the movable member to connect a tension cylinder and a tight attachment cylinder, and a tension spring for compressing and tightly attaching or loosening the compression spring. And a wearable unit.

[0008]

In this way, since the compressive force acting on the toggle block during the operation of the jaw crusher can be directly applied by the rear frame, it is possible to omit the use of the hydraulic structure and to adjust the crushing clearance by the wedge unit. Together with the relaxation of the compression spring of the tension rod and the relaxation of the compression spring of the tension rod, the toggle block can be freely moved along the guide plate, and the lower end of the movable member can be moved to adjust the crushing gap.

Since this operation can be achieved by remote hydraulic operation of the wedge unit, the tightening unit, and the moving cylinder, manual adjustment can be omitted, and the working time for adjustment can be significantly shortened.

[0010]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an overall configuration diagram of the structure of a jaw crusher showing an embodiment of the present invention, FIG. 2 is a sectional view of a main part taken along the line II of FIG. 1, FIG. 3 is a plan sectional view of FIG.
FIG. 5 is a front view of FIG. 3, and FIG. 5 is a configuration diagram of the fastening unit.

1 to 5, reference numeral 10 denotes a jaw crusher, for example, a single toggle crusher. Fixed teeth 14 are attached to the front frame 13 by using attachment means, and moving teeth 16 corresponding to the fixed teeth 14 are attached. It is attached to the movable member 18 by means.

The upper part of the movable member 18 is supported by an eccentric shaft 20, which is rotatably supported by a bearing 22 arranged on the upper part of the side frame 12. A rear frame 30 is fixed to the rear portion of the side frame 12, and the lower portion of the movable member 18 and the rear frame 3 are fixed.
Toggle block 2 with toggle plate 24 inserted between 0 and
6 is placed on a guide member 48 provided on the side frame 12, and is movable along the guide member 48.

Between the end surface of the toggle block 26 and the end surface of the rear frame 30, a plurality of adjusting plates 2 whose thickness can be adjusted.
8 are inserted in a superposed manner, and by adjusting the thickness of the adjusting plate 28, the moving amount of the movable member 18 is adjusted so that the crushing gap W becomes a predetermined gap.
Further, a connecting rod 32 is attached to an end surface of the toggle block 26 and is connected to a piston rod of a moving cylinder 34 used in the rear frame 30, and the operation of the moving cylinder 34 causes the toggle block 26 to operate as described above. As described above, it is movable along the guide member 48.

Further, inclined wedge surfaces 50 are formed on both sides of the upper end of the toggle block 26, and
The corners 49 formed on both sides of the lower end are placed on the guide member 48. The wedge surface 50 and the side frame 12
A wedge unit 46 is interposed between the two, and the wedge action is used to tightly bond and loosen the two.

A wedge cylinder 64 for generating a wedge action is arranged outside the side frame 12, and the end portion of the piston rod 66 is connected to the upper wedge 58 and the lower wedge 60 of the wedge unit 46.

The upper wedge 58 and the lower wedge 60 are integrated by using the bolt 62 by sandwiching the end portion of the piston rod 66, and the upper surface and the lower surface are inclined surfaces 5.
7, 59 are formed and are engaged with the wedge surface 50 and the wedge surface 51 of the pressing member 52.
The upper surface of the wedge is inserted into the lower end of the stopper member 54 to perform a wedge action under these engaged states.

Further, the lengths of the upper wedge 58, the lower wedge 60, and the pressing member 52 are longer than the width dimension of the toggle block 26, and even when the toggle block 26 is moved, the above-mentioned wedge action is produced. It is sure to occur.

At the lower end of the movable member 18, a pull rod 38 is connected via a pin 36 and a compression spring 40 to a tightening unit 42. The pull rod 38 has a rod portion 38a.
Is connected to the piston rod 39 of the adhesion unit 42. The compression spring 40 and the spring seat 41 provided on the rear frame 30 are attached to the compression unit 40.
2, more specifically, it is interposed between the end block 43b.

The tightening unit 42 includes a tightening cylinder 43 having a piston rod 39 inserted therein and a pulling cylinder 45, which are connected in series. Tightening cylinder 43
Is the sleeve 43a and the end blocks 4 on both sides thereof
3b and 43c, and 43d is an end block 43b.
It is the inlet / outlet of the hydraulic oil provided in the.

The sleeve 43a is made of an elastic material,
The inner surface of the piston rod 39 contacts the surface of the piston rod 39, and at the time of the above contact, even if an external force acts on the piston rod 39 due to a strong frictional force, the piston rod 39 is firmly held in a stationary state.
Then, when the hydraulic oil flows in through the inlet / outlet 43d of the end block 36b, the swelling of the sleeve 43a loosens and releases the tight contact due to the contact, and the piston rod 39
And the sleeve 43a can be slid.

The tension cylinder 45 is an end block 45.
a and 45b, and 45c is an inlet / outlet provided in the end block 45b. When the tight fitting cylinder 43 is held in a relaxed state, when the working oil flows from the inlet / outlet 45c, the tension cylinder 45 and the tight fitting cylinder 43 are moved forward in the direction of the movable member 18, and the compression spring 40 compresses. Then, the inflow of hydraulic oil that can reach a predetermined compression amount is stopped, and then the operation of the adhesion cylinder 43 causes the adhesion to occur.
Retained.

In this way, the tensile force acts on the pull rod 38, and the lower portion of the movable member 18, the toggle plate 24, and the toggle block 26 are pressed against each other under a strong compressive force. Even when the movable member 18 moves, the toggle plate 24 does not fall off, and a reliable movement is performed.

During operation of the jaw crusher 10, the wedge unit 46 is actuated to tightly attach the toggle block 26 to the side frame 12, and the pull rod 38 is actuated to actuate the tight attachment unit 42 to actuate the compression spring 40. The tension force is applied by the compression, and the eccentric shaft 20 is rotated under the predetermined crushing gap W to cause the movable member 18 to swing. At this time, the toggle plate 24 and the pull rod 38 and the compression spring 4
Zero periodic motions are exercised.

Thus, the crushed material is compressed and crushed in the crushing chamber 15 and discharged as a crushed product. The compressive force acting on the toggle block 26 from the movable member 18 due to the compression crushing is directly applied to the rear frame 30 via the adjusting plate 28 and can sufficiently correspond to the load.

At the time of adjusting the crushing clearance W of the jaw crusher 10, the wedge unit 46 is actuated to loosen between the toggle block 26 and the side frame 12, and the tightening unit 42 is acted to move the tightening cylinder 43. After it is relaxed and the tensile force of the pull rod 38 is released by the relaxation and restoration of the compression spring 40, the moving cylinder 34 is actuated to move the toggle block 26 forward or backward along the guide member 48. Thus, when the crushing gap W is set to the predetermined gap, the adjusting plate 28 is inserted, and subsequently, the reverse operation described above is performed to complete the adjusting work, and the jaw crusher 10 is brought into the operating state.

Since the above-described operation can be achieved by remote hydraulic operation of the wedge unit 46, the tightening unit 42 and the moving cylinder 34, manual adjustment can be omitted and the working time for adjustment can be remarkably shortened. .

[0027]

As described above, according to the present invention, the toggle block of the jaw crusher has a hydraulic structure, and it is possible to omit applying a compressive force due to crushing. When adjusting the crushing gap, the compression spring A great effect can be achieved such that the working time for positioning by loosening and moving the toggle block can be shortened.

[Brief description of drawings]

FIG. 1 is an overall configuration diagram of a movable member fixing structure of a jaw crusher according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view of main parts taken along the line II of FIG.

FIG. 3 is a plan sectional view of FIG.

FIG. 4 is a front view of FIG.

FIG. 5 is a configuration diagram of the same adhesion unit.

[Explanation of symbols]

 10 ... Jaw crusher 12 ... Side frame 18 ... Movable member 24 ... Toggle plate 26 ... Toggle block 30 ... Rear frame 38 ... Tension rod 40 ... Compression spring 42 ... Tightening unit 43 ... Tightening cylinder 45 …… Tensioning cylinder 46 …… Wedge unit 50 …… Wedge surface 64 …… Wedge cylinder

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Hikaru Nakao 1780 Uetakano, Yachiyo-shi, Chiba Kawasaki Heavy Industries, Ltd. Yachiyo factory (72) Inventor Tsukasa Katayama 1780 Uetakano, Yachiyo, Chiba Kawasaki Heavy Industries, Ltd. Yachiyo Factory

Claims (2)

[Claims] 1. A toggle block having a toggle plate inserted between a movable member of the jaw crusher and a rear frame so as to be movable along a guide member, and between a top frame of the toggle block and a side frame. A wedge unit connected to a wedge cylinder for tightening and loosening, and a tension spring pivotally attached to the lower end of the movable member and a compression spring interposed at the end of the pull rod to connect the tension cylinder and the tightening cylinder in series. A movable member fixing structure for a jaw crusher, which further includes a tightening unit for compressing a compression spring to tighten or loosen it. 2. A toggle block in which a toggle plate is inserted between a movable member of the jaw crusher and a rear frame so as to be movable along a guide member, and an end of a pull rod pivotally attached to a lower end of the movable member. A compression spring is interposed in the portion to connect a tension cylinder and a tightening cylinder to each other, and a tightening unit for compressing the tightening or loosening the compression spring,
A movable member fixing structure for a jaw crusher, which is characterized in that: