JP3111818U - Stone splitting machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a stone splitting machine for splitting a portion containing useful minerals in rough rough ore.
A hydraulic pump 10 is erected at the lower center of a portal column 1 and a pusher 8 is attached to an upper end of a ram of the hydraulic cylinder 10, and an anvil 7 facing the pusher 8 is fixed to a column upper beam 3. A manual pump for operating the hydraulic cylinder is provided on the side of the base of the hydraulic cylinder 10. It is possible to divide into a portion containing a predetermined mineral or rock by placing the rough raw mineral 30 on the pusher 8 and driving the hydraulic cylinder 10 and applying pressure between the pusher 8 and the anvil 9. .
[Selection] Figure 2

Description

  The present invention relates to a stone splitting machine that splits a rough raw mineral or rock to split a portion containing a predetermined mineral, rock or rock fragment. .

  Minerals are homogeneous materials with almost constant chemical composition, many maintain their own ordered atomic structure in the crystalline state, and most minerals are produced in rocks at the surface, It may adhere to the surface or penetrate into other minerals or rocks. In order to acquire this mineral on a large scale, it is necessary to prepare and mine the necessary equipment, crushed stone, select and take out, so it requires a large amount of cost and labor, such as the introduction of a large crusher and stone crusher at the sampling site. To do. However, when collecting on a small scale for research or specimen preparation, useful minerals, ores or rocks are collected at the collection site and manually broken into 10-12 cm or larger blocks. The raw stones are transported to a small workshop or laboratory, where they are subdivided into portions containing the target mineral or target rock in the raw stone to produce mineral specimens and ornamental materials.

As mentioned above, most of the collection sites are difficult to carry in by mechanical crushers, so select a large portion of rough rough and pack it roughly into 10-12 cm square, for example, by hand. After being carried out, it is split at the work place, so it is easy to bring it to the work site.
An object of the present invention is to provide an apparatus that can easily divide a collected raw mineral ore and can operate in a narrow place with less noise and vibration.

In order to achieve the above object, claim 1 of the present invention is characterized in that a hydraulic pump is erected in the lower center of a portal column, a pusher is attached to the upper end of the ram of the hydraulic cylinder, and an anvil facing the pusher is provided on the column upper beam. Further, a manual pump for operating the hydraulic cylinder is provided on the side of the base of the hydraulic cylinder, and the hydraulic cylinder is driven by placing a rough rough mineral on the pusher, and between the pusher and the anvil. A stone splitting machine characterized in that it is divided into portions containing predetermined rocks or minerals by pressurization.
According to a second aspect of the present invention, the hydraulic cylinder includes an oil tank on a peripheral wall, the manual pump is configured to pump pressure oil to the hydraulic cylinder by a reciprocating operation of a lever, and the hydraulic cylinder has an approach circuit; A return circuit and a release circuit are provided, and the pusher is raised by extending the ram by pumping pressure oil to the hydraulic cylinder by the reciprocating operation of the lever of the manual pump, and the pusher is returned to the original position by operating the release valve. It is characterized by being comprised.

  According to the present invention, the rough mineral or rock is placed on the pusher in the portal column, the hydraulic cylinder is driven, and the pressure is applied between the pusher and the anvil to contain the predetermined mineral or target rock. Can be easily subdivided into parts. Moreover, it is possible to work in a small place with a small stone splitting machine, it is lightweight and easy to carry, can be disassembled and assembled, and there is no risk of failure.

FIG. 1 is a front view of the stone splitting machine of the present invention, and FIG. 2 is a cross-sectional view taken along line AA of FIG.
As shown in the figure, this stone splitting machine has a hydraulic cylinder 10 (for example, 4 tons) that constitutes a jack at the lower center of the portal column 1 and a pusher 8 at the upper end of a piston rod or ram 12. At the same time, an anvil 7 facing the cemented carbide pusher 8 is fixed to the beam portion 3 of the column, and a manual pump 20 for operating the hydraulic cylinder is provided on the side of the base of the hydraulic cylinder 10. For example, after placing a mineral rough 30 roughly broken into a 10-12 cm square or a flat lump shape on the pusher 8, the hydraulic cylinder 10 is driven and pressurized between the pusher 8 and the anvil 7, or this Is repeated several times to break the portion containing the target mineral or rock into a small portion 31.

  The hydraulic cylinder 10 is erected on a bottom plate 4 provided on a base 2 of a portal column, and a horizontal guide plate 5 is disposed on the top. The guide plate 5 is assembled so as to be movable in the vertical direction by providing grooves or notches 6 and 6 for holding the inner side of the opposing column vertical members at both ends in the longitudinal direction. The pusher (lower blade) 8 is fixed to the center of the upper surface of the guide plate 5 so as to face an anvil (upper blade) 7 provided on the lower surface of the column beam portion 3. Further, on the lower surface of the pusher 8, a ring 9 for preventing detachment for engaging the tip of a ram (piston rod) 12 of the hydraulic cylinder 10 is provided.

As shown in FIG. 4, the hydraulic cylinder 10 includes a casing serving as an oil tank 11 around the hydraulic cylinder 10, and a hydraulic circuit is piped between the lower portion of the piston 13 of the ram 12 fitted in the hydraulic cylinder 10 and the oil tank 11. . That is, the hydraulic circuit includes an approach circuit 14 in which a suction valve 15 and a delivery valve 16 are arranged in one of the hydraulic cylinder 10 and the oil tank 11, and a release circuit 17 having a release valve 18 with a lever 19 in the other. ing. The hydraulic pump 18 on the side of the hydraulic cylinder 10 has a pump operating lever 22 attached to the upper end of a plunger 21 via a pin 26, and the upper end of a rod 24 supported by a pin 25 at a fulcrum 23 at one end of the lever 22. Are inserted between the suction valve 15 and the delivery valve 16 of the approach circuit 14 from the bottom bottom of the cylinder of the hydraulic pump 18.
By rotating the lever 19 of the pump up and down, the oil sucked from the oil tank 11 and pressurized is sent to the hydraulic cylinder 10 through the approach circuit 14 to raise the ram 12 to raise the pusher 8 and the anvil 7. The raw stone 30 is pressed between the two and is subdivided. When the splitting is completed, the lever 19 is rotated and released to return the ram 12 to the original position and prepare for the next splitting operation.

  Next, the operation of the above stone splitting machine will be described. As shown in FIG. 3, after placing the rough 30 on the pusher 8, the lever 22 is reciprocated up and down to operate the pump 20, and the oil in the oil tank 11 is sucked through the approach circuit 14. When the pressure is fed to the lower part of the cylinder 10, the pusher 8 fixed to the guide plate 5 rises due to the extension of the ram 12 in the cylinder 10, and the raw stone 30 is pressed and crushed between the anvil 7 and the pusher 8 to obtain a small portion 31. Get. Thus, since the pusher 8 is fixed to the guide plate 5 guided by the column 1, the pusher 8 is accurately raised by the extension of the ram 12, and the raw stone 30 between the anvil 7 is crushed with a large pressure. Thus, it can be easily subdivided (FIG. 4).

  As described above, according to the present invention, a rough mineral or rough is placed on a pusher in a portal column, a hydraulic cylinder is driven, and pressure is applied between the pusher and the anvil, whereby a predetermined mineral or It can be easily subdivided into parts containing rocks and used for mineral specimens and decorative materials.

The front view of this invention stone dividing machine. Sectional drawing in the AA of FIG. The hydraulic circuit diagram of this invention stone splitting machine. It is a front view in the state where the mineral rough was subdivided by the lamb rise.

Explanation of symbols

1 Portal Column 2 Base 3 Beam 4 Bottom Plate 5 Guide Plate 6 Groove 7 Upper Blade (Anvil) 8 Lower Blade (Pusher)
9 Ring 10 Hydraulic cylinder 11 Oil tank 12 Ram (Piston rod)
13 Piston 14 Approach circuit 15 Suction valve 16 Delivery valve 17 Release circuit 18 Release valve 19 Release lever 20 Pump 21 Plunger 22 Operation lever 23 Support point 24 Rod 25, 26 Pin 30 Raw stone 31 Rock after splitting

Claims (2)

A hydraulic pump is installed in the center of the lower part of the portal column, a pusher is attached to the upper end of the ram of the hydraulic cylinder, an anvil facing the pusher is fixed to the column upper beam, and the hydraulic cylinder is operated to the side of the base of the hydraulic cylinder. There is a manual pump for
The rough mineral or stone or rock placed on the pusher is driven by a hydraulic cylinder and pressurized between the pusher and anvil so as to be subdivided into a portion containing a predetermined mineral or rock. A stone splitting machine. The hydraulic cylinder includes an oil tank on a peripheral wall, and the manual pump is configured to pump pressure oil to the hydraulic cylinder by a reciprocating operation of a lever. The hydraulic cylinder includes an approach circuit, a return circuit, and a release circuit. The pusher is raised by extending the ram by pumping pressure oil to the hydraulic cylinder by reciprocating the lever of the manual pump, and the pusher is returned to the original position by operating the release valve. The stone splitting machine according to claim 1.

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