CN110843144B - Stone raw material treatment device - Google Patents

Abstract

The invention relates to a stone processing device, in particular to a stone raw material processing device which comprises a device frame, a device positioning mechanism, an annular moving mechanism and a rope saw mechanism. The number of the device positioning mechanisms is two, the device positioning mechanisms are fixedly arranged on the device frame, the annular moving mechanism is movably arranged on a groove arranged on the device frame, and the rope saw mechanism is movably arranged on the groove arranged on the annular moving mechanism.

Description

Stone raw material treatment device

Technical Field

The invention relates to a stone processing device, in particular to a stone raw material processing device.

Background

The quarry stone is stone block processed from mine, which has certain specification and can meet the requirements of plate processing or other purposes. The raw material is not only the product of stone mines, but also the raw material of plate processing factories. The unit of calculation is cubic meters. In the industry, there are standards for the basic dimensions of quarry stones (marble, granite, sandstone, etc.) in order to save resources and improve the productivity of the processing.

The rope saw is to mine, waste material, arc, big board stone material, thick concrete, anomalous concrete reinforcing bar, the inventor discovers, among the prior art, the rope saw is inconvenient to the angular adjustment of cutting, often need with the whole slope of rope saw device, carries out the adjustment of angle, and the operation is extremely inconvenient, or adopts the distortion rope saw, leads to the cutting unevenness easily.

Disclosure of Invention

The invention mainly solves the technical problem of providing a stone raw material processing device which can rotate so as to adjust the cutting angle of raw materials, ensure that the raw materials can be cut at any angle and have smooth cutting effect.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a stone waste material processing apparatus, includes device frame, device positioning mechanism, annular moving mechanism and rope saw mechanism, device positioning mechanism's number have two, device positioning mechanism fixed mounting is on the device frame, annular moving mechanism movable mounting is on the recess that sets up on the device frame, rope saw mechanism movable mounting is on the recess that sets up on the annular moving mechanism.

As a further optimization of the technical scheme, the device frame of the stone raw material processing device comprises a U-shaped frame, supporting legs and moving wheels, wherein the supporting legs are fixedly arranged on the U-shaped frame, and the moving wheels are rotatably arranged on the supporting legs.

As a further optimization of the technical scheme, the device positioning mechanism of the stone raw material processing device comprises a toothed positioning nail, a grooved connecting plate, a worm, a small motor, an output gear, a motor fixing seat and a connecting gear, wherein the toothed positioning nail is movably arranged on a groove formed in the grooved connecting plate, the worm is fixedly connected with the connecting gear, the connecting gear is rotatably arranged on the grooved connecting plate, the worm is rotatably arranged on the grooved connecting plate, the output gear is meshed with the connecting gear, the worm is meshed with the toothed positioning nail, the output gear is fixedly arranged at the output end of the small motor, the small motor is fixedly arranged on the motor fixing seat, the motor fixing seat is fixedly arranged on a U-shaped frame, and the grooved connecting plate is fixedly arranged on the U-shaped frame.

As a further optimization of the technical scheme, the annular moving mechanism of the stone raw material processing device comprises two internal thread groove ring pieces, a connecting lath and movable wheels, wherein the two internal thread groove ring pieces are fixedly arranged at two ends of the connecting lath respectively, the movable wheels are rotatably arranged on the internal thread groove ring pieces, and the movable wheels are movably arranged on grooves formed in a U-shaped frame.

As a further optimization of the technical scheme, the rope saw mechanism of the stone raw material processing device comprises a T-shaped seat, an output assembly, a tensioning adjusting assembly, an air cylinder, a base plate, a rope saw and an angle positioning assembly, wherein the output assembly is arranged on the T-shaped seat, the tensioning adjusting assembly is arranged on the T-shaped seat, the air cylinder is fixedly arranged on the T-shaped seat, the base plate is fixedly arranged at the output end of the air cylinder, the rope saw is arranged on the output assembly, the rope saw is in contact connection with the tensioning adjusting assembly, and the angle positioning assembly is arranged on the T-shaped seat; the T-shaped seat comprises a T-shaped mounting plate and a pulley, the pulley is rotatably mounted on a groove formed in the T-shaped mounting plate, and the pulley is movably mounted in a groove formed in the internal thread groove ring piece; the output assembly comprises a rope saw wheel and an output motor, the rope saw wheel is fixedly arranged at the output end of the output motor, and the output motor is fixedly arranged on a groove arranged on the T-shaped mounting plate; the tensioning adjusting assembly comprises a tensioning wheel, a thread moving piece, a regulating circular plate, a bidirectional threaded shaft, a positioning ring and a rotating mounting piece, the rotating mounting piece is rotatably mounted on a groove formed in the tensioning wheel, the rotating mounting piece is fixedly mounted on the thread moving piece, the thread moving piece is in threaded connection with the bidirectional threaded shaft, the bidirectional threaded shaft is fixedly connected with the positioning ring, the bidirectional threaded shaft is fixedly connected with the regulating circular plate, the positioning ring is movably mounted on a groove formed in the T-shaped mounting plate, and the thread moving piece is slidably mounted on the groove formed in the T-shaped mounting plate; the angle positioning assembly comprises a clamping triangular piece, a U-shaped connecting frame, a supporting spring and a handle, wherein the supporting spring is fixedly installed on the U-shaped connecting frame, the handle is fixedly installed on the U-shaped connecting frame, the clamping triangular piece is fixedly installed on the U-shaped connecting frame, the handle is movably installed on a through hole formed in the T-shaped installing plate, the supporting spring is fixedly installed on a groove formed in the T-shaped installing plate, the U-shaped connecting frame is movably installed on a groove formed in the T-shaped installing plate, and the clamping triangular piece is meshed with the ring piece with the inner thread groove.

The stone block processing device has the beneficial effects that:

1. the device is through rotatory T shape seat to adjusting device's cutting angle carries out the location of angle through angle positioning component, thereby realizes cutting angle's adjustment, and has realized that the effect of arbitrary angle cutting is level and smooth.

2. The handle controls the lifting of the clamping triangular piece, so that the inclination angle of the T-shaped seat is fixed, and the operation is convenient and rapid.

3. Through transferring into the rotatory two-way screw shaft of plectane, make the screw thread moving member remove, drive the take-up pulley to realize the control of rope saw rate of tension, control effect is accurate.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic perspective view of a stone block processing apparatus according to the present invention.

Fig. 2 is a schematic perspective view of an apparatus frame 1 of the apparatus for processing stone blocks according to the present invention.

Fig. 3 is a schematic cross-sectional view of an apparatus frame 1 of the apparatus for processing stone blocks according to the present invention.

Fig. 4 is a schematic perspective view of a positioning mechanism 2 of the apparatus for processing stone blocks according to the present invention.

Fig. 5 is a schematic view of a supplementary three-dimensional structure of the positioning mechanism 2 of the stone block processing device according to the present invention.

Fig. 6 is a schematic cross-sectional structure view of the positioning mechanism 2 of the stone block processing device according to the present invention.

Fig. 7 is a schematic view of a three-dimensional connection structure of the annular moving mechanism 3 and the rope saw mechanism 4 of the stone raw material processing device.

Fig. 8 is a schematic perspective view of the circular moving mechanism 3 of the stone block processing device according to the present invention.

Fig. 9 is a schematic perspective view of the rope saw mechanism 4 of the apparatus for processing stone blocks according to the present invention.

Fig. 10 is a schematic view of a three-dimensional connection structure of the output assembly 4-2, the tensioning adjustment assembly 4-3 and the rope saw 4-6 of the stone raw material processing device according to the present invention.

Fig. 11 is a schematic perspective view of a T-shaped seat 4-1 of the apparatus for processing stone blocks of the present invention.

Fig. 12 is a supplementary three-dimensional structure diagram of a T-shaped seat 4-1 of the stone block processing device of the present invention.

Fig. 13 is a schematic perspective view of an output assembly 4-2 of the apparatus for processing stone blocks according to the present invention.

Fig. 14 is a schematic perspective view of a tensioning adjustment assembly 4-3 of the crude stone material processing device according to the present invention.

Fig. 15 is a schematic perspective view of an angle positioning assembly 4-7 of the crude stone material processing device according to the present invention.

Fig. 16 is a schematic structural view of the rope saw mechanism 4 of the stone block processing device according to the present invention.

Fig. 17 is a schematic cross-sectional view a-a of fig. 16.

Fig. 18 is a schematic cross-sectional view of B-B in fig. 16.

In the figure: an apparatus frame 1; a U-shaped frame 1-1; support legs 1-2; 1-3 of a moving wheel; a device positioning mechanism 2; 2-1 of a insection positioning nail; a grooved connecting plate 2-2; 2-3 parts of worm; 2-4 of a small motor; 2-5 parts of an output gear; 2-6 motor fixing seats; connecting gears 2-7; an annular moving mechanism 3; 3-1 of an internal thread groove ring piece; connecting the laths 3-2; 3-3 parts of movable wheels; a wire saw mechanism 4; a T-shaped seat 4-1; a T-shaped mounting plate 4-1-1; 4-1-2 of a pulley; an output component 4-2; 4-2-1 of a wire saw wheel; an output motor 4-2-2; a tension adjusting assembly 4-3; 4-3-1 of a tension wheel; a threaded moving member 4-3-2; adjusting into a circular plate 4-3-3; 4-3-4 of a bidirectional threaded shaft; 4-3-5 of a positioning ring; rotational mounts 4-3-6; 4-4 of a cylinder; 4-5 of a backing plate; 4-6 parts of a rope saw; an angle positioning component 4-7; a clamping triangle 4-7-1; 4-7-2 of a U-shaped connecting frame; 4-7-3 of a supporting spring; 4-7-4 of a handle.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 18, and a stone block processing apparatus includes an apparatus frame 1, two apparatus positioning mechanisms 2, two annular moving mechanisms 3 and two rope saw mechanisms 4, wherein the apparatus positioning mechanisms 2 are fixedly mounted on the apparatus frame 1, the annular moving mechanisms 3 are movably mounted on grooves formed on the apparatus frame 1, and the rope saw mechanisms 4 are movably mounted on grooves formed on the annular moving mechanisms 3.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1-18, and the present embodiment further describes the first embodiment, wherein the device frame 1 includes a U-shaped frame 1-1, a support leg 1-2, and a moving wheel 1-3, the support leg 1-2 is fixedly installed on the U-shaped frame 1-1, and the moving wheel 1-3 is rotatably installed on the support leg 1-2.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-18, and the embodiment will be further described, wherein the device positioning mechanism 2 includes a insection positioning nail 2-1, a grooved connection plate 2-2, a worm 2-3, a small motor 2-4, an output gear 2-5, a motor fixing seat 2-6, and a connection gear 2-7, the insection positioning nail 2-1 is movably mounted on a groove arranged on the grooved connection plate 2-2, the worm 2-3 is fixedly connected with the connection gear 2-7, the connection gear 2-7 is rotatably mounted on the grooved connection plate 2-2, the worm 2-3 is rotatably mounted on the grooved connection plate 2-2, the output gear 2-5 is engaged with the connection gear 2-7, the worm 2-3 is engaged with the insection positioning nail 2-1, the output gear 2-5 is fixedly installed at the output end of the small motor 2-4, the small motor 2-4 is fixedly installed on the motor fixing seat 2-6, the motor fixing seat 2-6 is fixedly installed on the U-shaped frame 1-1, the belt trough connecting plate 2-2 is fixedly installed on the U-shaped frame 1-1, the worm 2-3 drives the insection positioning nail 2-1 to ascend and descend, control is more accurate, and meanwhile stability of the insection positioning nail 2-1 can be guaranteed.

The fourth concrete implementation mode:

the following describes the embodiment with reference to fig. 1 to 18, and the embodiment further describes the second embodiment, where the annular moving mechanism 3 includes two internal thread groove ring members 3-1, a connecting lath 3-2, and a movable wheel 3-3, the number of the internal thread groove ring members 3-1 is two, and the two internal thread groove ring members are respectively and fixedly installed at two ends of the connecting lath 3-2, the movable wheel 3-3 is rotatably installed on the internal thread groove ring member 3-1, the movable wheel 3-3 is movably installed on a groove arranged on the U-shaped frame 1-1, an internal thread groove is arranged on the internal thread groove ring member 3-1, and is a rotating track of the T-shaped seat 4-1, and is simultaneously matched with the angle positioning component 4-7 to fix the position of the T-shaped seat 4-1, so as to adjust the cutting angle.

The fifth concrete implementation mode:

this embodiment will be described with reference to fig. 1 to 18, and this embodiment will further describe a fourth embodiment, the rope saw mechanism 4 comprises a T-shaped seat 4-1, an output assembly 4-2, a tensioning adjusting assembly 4-3, a cylinder 4-4, a backing plate 4-5, a rope saw 4-6 and an angle positioning assembly 4-7, wherein the output assembly 4-2 is installed on the T-shaped seat 4-1, the tensioning adjusting assembly 4-3 is installed on the T-shaped seat 4-1, the cylinder 4-4 is fixedly installed on the T-shaped seat 4-1, the backing plate 4-5 is fixedly installed at the output end of the cylinder 4-4, the rope saw 4-6 is installed on the output assembly 4-2, the rope saw 4-6 is in contact connection with the tensioning adjusting assembly 4-3, and the angle positioning assembly 4-7 is installed on the T-shaped seat 4-1; the T-shaped seat 4-1 comprises a T-shaped mounting plate 4-1-1 and a pulley 4-1-2, the pulley 4-1-2 is rotatably mounted on a groove arranged on the T-shaped mounting plate 4-1-1, and the pulley 4-1-2 is movably mounted in a groove arranged on the internal thread groove ring piece 3-1; the output component 4-2 comprises a rope saw wheel 4-2-1 and an output motor 4-2-2, the rope saw wheel 4-2-1 is fixedly arranged at the output end of the output motor 4-2-2, and the output motor 4-2-2 is fixedly arranged on a groove arranged on the T-shaped mounting plate 4-1-1; the tensioning adjusting component 4-3 comprises a tensioning wheel 4-3-1, a threaded moving part 4-3-2, a trimming circular plate 4-3-3, a two-way threaded shaft 4-3-4, a positioning ring 4-3-5 and a rotating mounting part 4-3-6, wherein the rotating mounting part 4-3-6 is rotatably mounted on a groove arranged on the tensioning wheel 4-3-1, the rotating mounting part 4-3-6 is fixedly mounted on the threaded moving part 4-3-2, the threaded moving part 4-3-2 is in threaded connection with the two-way threaded shaft 4-3-4, the two-way threaded shaft 4-3-4 is fixedly connected with the positioning ring 4-3-5, the two-way threaded shaft 4-3-4 is fixedly connected with the trimming circular plate 4-3-3, the positioning ring 4-3-5 is movably arranged on a groove arranged on the T-shaped mounting plate 4-1-1, and the thread moving piece 4-3-2 is slidably arranged on the groove arranged on the T-shaped mounting plate 4-1-1; the angle positioning component 4-7 comprises a clamping triangle 4-7-1, a U-shaped connecting frame 4-7-2, a supporting spring 4-7-3 and a handle 4-7-4, wherein the supporting spring 4-7-3 is fixedly arranged on the U-shaped connecting frame 4-7-2, the handle 4-7-4 is fixedly arranged on the U-shaped connecting frame 4-7-2, the clamping triangle 4-7-1 is fixedly arranged on the U-shaped connecting frame 4-7-2, the handle 4-7-4 is movably arranged on a through hole arranged on a T-shaped mounting plate 4-1-1, the supporting spring 4-7-3 is fixedly arranged on a groove arranged on the T-shaped mounting plate 4-1-1, the U-shaped connecting frame 4-7-2 is movably arranged on a groove arranged on the T-shaped mounting plate 4-1-1, the clamping triangular piece 4-7-1 is meshed with the inner thread groove ring piece 3-1, the U-shaped connecting frame 4-7-2 is supported by the supporting spring 4-7-3, the clamping triangular piece 4-7-1 controls the position angle of the T-shaped seat 4-1, the control effect is obvious, the structure is simple, the operation is simple, the manufacturing cost is saved, the bidirectional threaded shaft 4-3-4 is rotated by adjusting the circular plate 4-3-3 to drive the threaded moving piece 4-3-2 to move, the two tensioning wheels 4-3-1 can be synchronously controlled to move, and the moving distance is accurate.

The invention relates to a stone raw material processing device, which has the working principle that:

the device is put well, the small motor 2-4 is started, the output gear 2-5 is rotated to drive the connecting gear 2-7 to rotate, the connecting gear 2-7 drives the worm 2-3 to rotate, the elevation of the insection positioning nail 2-1 is realized, the insection positioning nail 2-1 descends and is inserted into the ground surface, the purpose of fixing is achieved, the elevation of the insection positioning nail 2-1 is controlled through the worm 2-3, and the control is more accurate.

Sleeving a rope saw 4-6 on a rough material, adjusting the position, starting an air cylinder 4-4 to enable a backing plate 4-5 to contact the rough material, straightening the rope saw 4-6, starting an output motor 4-2-2, driving the rope saw 4-6 to rotate by the output motor 4-2-2 to cut the rough material, starting a tension pulley 4-3-1 to maintain the balance, and simultaneously starting the air cylinder 4-4 to push the rope saw mechanism 4 and the annular moving mechanism 3 to move along a groove on the U-shaped frame 1-1 so as to drive the rope saw 4-6 to continuously cut the rough material.

The circular plate 4-3-3 is adjusted by rotation, the thread moving part 4-3-2 moves to drive the tension wheel 4-3-1 to move, so that the tension degree of the rope saw 4-6 is controlled, and the rope saw 4-6 can be positioned at the outer side of the tension wheel 4-3-1 or positioned in the tension wheel 4-3-1.

The handle 4-7-4 is pulled upwards to enable the U-shaped connecting frame 4-7-2 to extrude the supporting spring 4-7-3, the U-shaped connecting frame 4-7-2 drives the clamping triangular piece 4-7-1 to be separated from the internal thread groove ring piece 3-1, the T-shaped seat 4-1 is rotated to a required angle under the auxiliary action of the pulley 4-1-2, and the handle 4-7-4 is loosened to enable the clamping triangular piece 4-7-1 to be meshed with the internal thread groove ring piece 3-1 again to fix the position and adjust the starting angle.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a stone quarry stone material processing apparatus, includes device frame (1), device positioning mechanism (2), annular moving mechanism (3) and rope saw mechanism (4), its characterized in that: the number of the device positioning mechanisms (2) is two, the device positioning mechanisms (2) are fixedly arranged on the device frame (1), the annular moving mechanism (3) is movably arranged on a groove arranged on the device frame (1), and the rope saw mechanism (4) is movably arranged on the groove arranged on the annular moving mechanism (3);

the device frame (1) comprises a U-shaped frame (1-1), supporting legs (1-2) and moving wheels (1-3), wherein the supporting legs (1-2) are fixedly arranged on the U-shaped frame (1-1), and the moving wheels (1-3) are rotatably arranged on the supporting legs (1-2);

the annular moving mechanism (3) comprises two internal thread groove ring pieces (3-1), a connecting lath (3-2) and movable wheels (3-3), the two internal thread groove ring pieces (3-1) are fixedly arranged at two ends of the connecting lath (3-2) respectively, the movable wheels (3-3) are rotatably arranged on the internal thread groove ring pieces (3-1), and the movable wheels (3-3) are movably arranged on grooves formed in the U-shaped frame (1-1);

the rope saw mechanism (4) comprises a T-shaped seat (4-1), an output assembly (4-2), a tensioning adjusting assembly (4-3), a cylinder (4-4), a backing plate (4-5), a rope saw (4-6) and an angle positioning assembly (4-7), the output assembly (4-2) is installed on the T-shaped seat (4-1), the tensioning adjusting assembly (4-3) is installed on the T-shaped seat (4-1), the air cylinder (4-4) is fixedly installed on the T-shaped seat (4-1), the backing plate (4-5) is fixedly installed at the output end of the air cylinder (4-4), the rope saw (4-6) is installed on the output assembly (4-2), the rope saw (4-6) is in contact connection with the tensioning adjusting assembly (4-3), and the angle positioning assembly (4-7) is installed on the T-shaped seat (4-1); the T-shaped seat (4-1) comprises a T-shaped mounting plate (4-1-1) and a pulley (4-1-2), the pulley (4-1-2) is rotatably mounted on a groove arranged on the T-shaped mounting plate (4-1-1), and the pulley (4-1-2) is movably mounted in a groove arranged on the internal thread groove ring piece (3-1); the output assembly (4-2) comprises a rope saw wheel (4-2-1) and an output motor (4-2-2), the rope saw wheel (4-2-1) is fixedly arranged at the output end of the output motor (4-2-2), and the output motor (4-2-2) is fixedly arranged on a groove arranged on the T-shaped mounting plate (4-1-1); the tensioning adjusting component (4-3) comprises a tensioning wheel (4-3-1), a threaded moving part (4-3-2), a trimming circular plate (4-3-3), a bidirectional threaded shaft (4-3-4), a positioning ring (4-3-5) and a rotating mounting part (4-3-6), wherein the rotating mounting part (4-3-6) is rotatably mounted on a groove arranged on the tensioning wheel (4-3-1), the rotating mounting part (4-3-6) is fixedly mounted on the threaded moving part (4-3-2), the threaded moving part (4-3-2) is in threaded connection with the bidirectional threaded shaft (4-3-4), the bidirectional threaded shaft (4-3-4) is fixedly connected with the positioning ring (4-3-5), the bidirectional threaded shaft (4-3-4) is fixedly connected with the adjusting circular plate (4-3-3), the positioning ring (4-3-5) is movably arranged on a groove arranged on the T-shaped mounting plate (4-1-1), and the threaded moving part (4-3-2) is slidably arranged on the groove arranged on the T-shaped mounting plate (4-1-1); the angle positioning component (4-7) comprises a clamping triangular piece (4-7-1), a U-shaped connecting frame (4-7-2), a supporting spring (4-7-3) and a handle (4-7-4), the supporting spring (4-7-3) is fixedly arranged on the U-shaped connecting frame (4-7-2), the handle (4-7-4) is fixedly arranged on the U-shaped connecting frame (4-7-2), the clamping triangular piece (4-7-1) is fixedly arranged on the U-shaped connecting frame (4-7-2), the handle (4-7-4) is movably arranged on a through hole arranged on the T-shaped mounting plate (4-1-1), the supporting spring (4-7-3) is fixedly arranged on a groove arranged on the T-shaped mounting plate (4-1-1), the U-shaped connecting frame (4-7-2) is movably arranged on a groove arranged on the T-shaped mounting plate (4-1-1), and the clamping triangular piece (4-7-1) is meshed with the internal thread groove ring piece (3-1).

2. The apparatus as claimed in claim 1, wherein said apparatus comprises: the device positioning mechanism (2) comprises a insection positioning nail (2-1), a belt groove connecting plate (2-2), a worm (2-3), a small motor (2-4), an output gear (2-5), a motor fixing seat (2-6) and a connecting gear (2-7), the insection positioning nail (2-1) is movably arranged on a groove arranged on the belt groove connecting plate (2-2), the worm (2-3) is fixedly connected with the connecting gear (2-7), the connecting gear (2-7) is rotatably arranged on the belt groove connecting plate (2-2), the worm (2-3) is rotatably arranged on the belt groove connecting plate (2-2), the output gear (2-5) is meshed with the connecting gear (2-7), the worm (2-3) is meshed with the insection positioning nail (2-1), the output gear (2-5) is fixedly arranged at the output end of the small motor (2-4), the small motor (2-4) is fixedly arranged on the motor fixing seat (2-6), the motor fixing seat (2-6) is fixedly arranged on the U-shaped frame (1-1), and the connecting plate with a groove (2-2) is fixedly arranged on the U-shaped frame (1-1).

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