CN110774467B - Stone position adjusting equipment for stone machining - Google Patents

Abstract

The invention relates to a position adjusting device, in particular to a position adjusting device for processing stone materials, which comprises an installation supporting device, a clamping device, a position adjusting device, a clamping adjusting device and a stone material clamping device, wherein other devices are installed through the installation supporting device, the clamping device is controlled to clamp the stone materials simultaneously, the clamping device drives the position adjusting device to change the position, the position adjusting device can change the self angle of the position adjusting device, the clamping adjusting device changes the horizontal position of the stone material clamping device, and the stone material clamping device firmly fixes the stone materials and has the functions of: the stone material clamping device is fixedly arranged on the clamping adjusting device.

Description

Stone position adjusting equipment for stone machining

Technical Field

The invention relates to position adjusting equipment, in particular to stone position adjusting equipment for stone machining.

Background

With the improvement of the quality of life, people pursue the quality of life more and more, solid wood furniture and marble floor tiles are more and more embodied in the existing houses, the certain process is needed for processing the rear of the gorgeous floor tiles, but the position and the angle of the stone are required to be changed for many times in the processing process so as to facilitate the processing of the stone, so the stone position adjusting device for stone processing is invented.

Disclosure of Invention

The invention relates to position adjusting equipment, in particular to position adjusting equipment for processing stone materials, which has the functions that other devices are installed through an installation supporting device, a clamping device is controlled to clamp the stone materials simultaneously, the clamping device drives the position adjusting device to change the position, the position adjusting device can change the angle of the position adjusting device, the clamping adjusting device changes the horizontal position of the stone material clamping device, and the stone material clamping device firmly fixes the stone materials.

In order to solve the technical problem, the invention relates to a position adjusting device, in particular to a position adjusting device for processing stone materials, which comprises an installation supporting device, a clamping device, a position adjusting device, a clamping adjusting device and a stone clamping device, wherein other devices are installed through the installation supporting device, the clamping device is controlled to clamp the stone materials simultaneously, the clamping device drives the position adjusting device to change the position, the position adjusting device can change the self angle of the position adjusting device, the clamping adjusting device changes the horizontal position of the stone clamping device, and the stone clamping device firmly fixes the stone materials, and the position adjusting device is characterized in that: the stone material clamping device is fixedly arranged on the clamping adjusting device.

As a further optimization of the technical scheme, the mounting and supporting device for the stone position adjusting equipment for stone processing comprises a fixing plate, a supporting rod, a mounting frame, a motor, an output gear, an inner cross hole external thread cylinder, a cross spline shaft, a bevel gear, a movable connecting rod, a pushing frame, a pushing cylinder, a mounting rod, a spring, a fixed mounting rod, a fixing ring, a self-locking claw, a fixed reset cylinder, a first spring, a movable sliding block, a connecting pushing rod, a pushing groove, a hinging rod and an unlocking ring, wherein the supporting rod is fixedly mounted on the fixing plate, the mounting frame is fixedly mounted on the fixing plate, the motor is fixedly mounted on the fixing plate, the output gear is fixedly mounted on the motor, the output gear is meshed with the inner cross hole external thread cylinder, the inner cross hole external thread cylinder is movably mounted on the mounting frame, the cross spline shaft is slidably mounted inside the inner cross hole external thread cylinder, the movable connecting rod is movably mounted on the cross-shaped spline shaft, the movable connecting rod is slidably mounted on the fixed mounting rod, the pushing frame is fixedly mounted on the movable connecting rod, the pushing frame is movably mounted on the mounting rod, the pushing cylinder is fixedly mounted on the fixing plate, the mounting rod is fixedly mounted on the fixing plate, the spring sleeve is arranged on the mounting rod, the fixed mounting rod is fixedly mounted on the fixing plate, the fixing ring is fixedly mounted on the fixed mounting rod, the self-locking claw is movably mounted on the fixing ring, the fixed resetting cylinder is fixedly mounted on the fixing ring, the spring is slidably mounted inside the fixed resetting cylinder, the movable sliding block is slidably mounted inside the fixed resetting cylinder, the connecting pushing rod is fixedly mounted on the movable sliding block, the connecting pushing rod is slidably mounted inside the pushing groove, the pushing groove is arranged on the self-locking claw, the hinge rod is hinged on the self-locking claw.

As a further optimization of the technical scheme, the clamping device for the stone position adjusting equipment for stone processing comprises a clamping disc, a sliding groove, a self-locking fixing ring, self-locking teeth, a rotating cross shaft, a second spring, a spring baffle, a self-locking cross hole barrel, a self-locking strip, a rotating lead screw, a receiving bevel gear and a movable thread block, wherein the clamping disc is fixedly arranged on a supporting rod, the sliding groove is formed in the clamping disc, the self-locking fixing ring is fixedly arranged on the clamping disc, the self-locking teeth are fixedly arranged on the self-locking fixing ring, the rotating cross shaft is fixedly arranged on the rotating lead screw, the spring baffle is fixedly arranged on the rotating cross shaft, the self-locking cross hole barrel is slidably arranged on the rotating cross shaft, the self-locking strip is fixedly arranged on the self-locking cross hole barrel, the rotating lead screw is movably arranged in the clamping disc, the receiving bevel gear is fixedly arranged, the movable thread block is slidably mounted on the sliding groove and is in threaded fit with the rotary lead screw.

As a further optimization of the technical scheme, the position adjusting device of the stone position adjusting equipment for stone processing comprises an arc-shaped fixed plate, a fixed hole, a sliding groove block, a third mounting frame, a fixed seat, a connecting rod frame, a third spring, a third fixed cylinder, a third rotating shaft, a rotating disc, a second bevel gear, a third bevel gear, a lifting screw rod and a telescopic square tube, wherein the arc-shaped fixed plate is fixedly installed on a movable threaded block, the fixed hole is formed in the arc-shaped fixed plate, the sliding groove block is slidably installed on the arc-shaped fixed plate, the third mounting frame is fixedly installed on the sliding groove block, the fixed seat is slidably installed in the third mounting frame, the fixed seat is fixedly installed on the connecting rod frame, the connecting rod frame is slidably installed on the third mounting frame, the third spring is sleeved on the connecting rod frame, the third fixed cylinder is fixedly installed on the sliding groove block, the rotating disc is fixedly arranged on the third rotating shaft, the second bevel gear is fixedly arranged on the third rotating shaft, the third bevel gear is fixedly arranged on the lifting screw rod, the third bevel gear is meshed with the second bevel gear, the lifting screw rod is movably arranged in the third fixed cylinder, the telescopic square tube is slidably arranged in the third fixed cylinder, and the telescopic square tube is in threaded fit with the lifting screw rod.

As a further optimization of the technical scheme, the clamping adjusting device for the stone position adjusting equipment for stone machining comprises a fixed square tube, a rotary screw rod four, a rotary disc four, a limit bolt mounting frame, a spring four, a tail end cap and a movable inner square tube, wherein the fixed square tube is fixedly installed on a telescopic square tube, the rotary screw rod four is movably installed inside the fixed square tube, the rotary disc four is fixedly installed on the rotary screw rod four, the limit bolt is slidably installed inside the limit bolt mounting frame, the limit bolt mounting frame is fixedly installed on the rotary disc four, the spring four is sleeved on the limit bolt, the tail end cap is fixedly installed on the limit bolt, the movable inner square tube is slidably installed inside the fixed square tube, and the movable inner square tube is in threaded fit with the rotary screw rod four.

As a further optimization of the technical scheme, the stone clamping device for stone machining stone position adjusting equipment comprises a fixing plate five, a connecting shaft five, a rotating disc five, a limiting semi-ring rod, a spring five, a connecting square cylinder, a rotating screw rod five, a receiving bevel gear five, a rotating rod five, an output bevel gear five, a limiting frame and a moving square claw cylinder, wherein the fixing plate five is fixedly installed on the moving inner square cylinder, the connecting shaft five is movably installed on the fixing plate five, the rotating disc five is fixedly installed on the connecting shaft five, the limiting semi-ring rod is slidably installed on the rotating disc five, the spring five is sleeved on the limiting semi-ring rod, the connecting square cylinder is fixedly installed on the connecting shaft five, the rotating screw rod five is movably installed on the connecting square cylinder, the receiving bevel gear five is fixedly installed on the rotating screw rod five, the rotating rod five is movably installed on the connecting square cylinder, the output bevel gear five is fixedly, the output bevel gear five is meshed with the receiving bevel gear five, the limiting frame is movably mounted on the rotating rod five, the movable square claw cylinder is slidably mounted inside the fixing plate five, and the movable square claw cylinder is in five-thread fit with the rotating lead screw.

As a further optimization of the technical scheme, the number of the springs five of the stone clamping device for the stone machining position adjusting equipment is two, and the number of the rotating screw rod five, the receiving bevel gear five, the rotating rod five and the output bevel gear five are three.

The stone position adjusting equipment for stone machining has the beneficial effects that:

the invention relates to position adjusting equipment, in particular to position adjusting equipment for processing stone materials, which realizes the functions of simultaneously clamping stone materials by installing other devices through a supporting device and controlling a clamping device, wherein the clamping device drives the position adjusting device to change the position, the position adjusting device can change the self angle of the position adjusting device, the clamping adjusting device changes the horizontal position of the stone material clamping device, and the stone material clamping device firmly fixes the stone materials.

Drawings

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

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a first structural schematic diagram of the mounting and supporting device of the present invention.

Fig. 4 is a second structural schematic diagram of the mounting and supporting device of the present invention.

Fig. 5 is a third schematic structural diagram of the mounting and supporting device of the present invention.

Fig. 6 is a fourth schematic structural diagram of the mounting support device of the present invention.

Fig. 7 is a first structural schematic diagram of the clamping device of the present invention.

Fig. 8 is a schematic structural diagram of a clamping device of the present invention.

Fig. 9 is a third schematic structural diagram of the clamping device of the present invention.

Fig. 10 is a fourth schematic structural view of the clamping device of the present invention.

Fig. 11 is a fifth structural schematic diagram of the clamping device of the present invention.

Fig. 12 is a sixth schematic structural view of the clamping device of the present invention.

Fig. 13 is a seventh structural schematic diagram of the clamping device of the present invention.

Fig. 14 is a first structural schematic diagram of the position adjustment device of the present invention.

Fig. 15 is a schematic structural diagram of a position adjustment device according to the present invention.

Fig. 16 is a third schematic structural diagram of the position adjustment device of the present invention.

Fig. 17 is a first structural schematic diagram of the clamping adjustment device of the invention.

Fig. 18 is a schematic structural diagram of a clamping adjustment device of the present invention.

Fig. 19 is a first structural schematic view of the stone clamping device of the present invention.

Fig. 20 is a second schematic structural view of the stone clamping device of the present invention.

Fig. 21 is a third schematic structural view of the stone clamping device of the present invention.

Fig. 22 is a fourth schematic structural view of the stone clamping device of the present invention.

In the figure: mounting the support device 1; a fixing plate 1-1; 1-2 of a support rod; mounting frames 1-3; 1-4 of a motor; output gears 1-5; 1-6 parts of an internal cross hole external thread cylinder; 1-7 parts of a cross-shaped shaft; 1-8 parts of bevel gears; moving the connecting rods 1-9; 1-10 parts of a pushing frame; 1-11 parts of a push cylinder; mounting rods 1-12; 1-13 parts of spring; fixedly mounting the rods 1-14; 1-15 parts of a fixing ring; self-locking claws 1 to 16; 1-17 of a fixed reduction cylinder; 1-18 parts of a first spring; moving the sliding blocks 1-19; connecting a push rod 1-20; push grooves 1-21; hinge rods 1-22; unlocking the ring 1-23; a clamping device 2; 2-1 of a clamping disc; 2-2 of a sliding groove; 2-3 of a self-locking fixing ring; 2-4 of self-locking teeth; 2-5 of a rotating cross shaft; 2-6 parts of a second spring; 2-7 parts of a spring baffle plate; 2-8 of self-locking cross-shaped hole barrel; 2-9 parts of self-locking strip; rotating the lead screw 2-10; receiving bevel gears 2-11; moving the thread blocks 2-12; a position adjusting device 3; 3-1 of an arc-shaped fixing plate; fixing holes 3-2; 3-3 of a sliding groove block; mounting frame III 3-4; 3-5 of a fixed seat; connecting rod frames 3-6; 3-7 parts of a spring; 3-8 parts of a fixed cylinder; rotating a third shaft for 3-9; 3-10 of a rotating disc; bevel gears II 3-11; bevel gears three 3-12; 3-13 of a lifting screw rod; 3-14 parts of telescopic square tubes; a clamping adjustment device 4; 4-1 of a fixed square cylinder; rotating the screw rod four 4-2; rotating the disc four 4-3; 4-4 of a limit bolt; 4-5 of a limit bolt mounting rack; 4-6 parts of spring; 4-7 of a tail end cap; 4-8 of moving the inner square cylinder; a stone clamping device 5; a fifth fixing plate 5-1; connecting shaft five 5-2; 5-3 of a rotating disc; 5-4 parts of a limiting semi-ring rod; 5-5 parts of a spring; 5-6 of a connecting square cylinder; rotating the screw rod five by 5-7; receiving a bevel gear five 5-8; rotating the rod five 5-9; 5-10 parts of an output bevel gear; 5-11 parts of a limiting frame; and 5-12 of moving the square claw cylinder.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, the present invention relates to a position adjusting apparatus, and more particularly to a position adjusting apparatus for processing stone, including an installation supporting device 1, a clamping device 2, a position adjusting device 3, a clamping adjusting device 4, and a stone clamping device 5, wherein the installation supporting device is used for installing other devices and controlling the clamping device to simultaneously clamp the stone, the clamping device drives the position adjusting device to change the position, the position adjusting device can change the angle of the position adjusting device itself, the clamping adjusting device changes the horizontal position of the stone clamping device, and the stone clamping device has the functions of firmly fixing the stone, etc., as shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, wherein: the clamping device 2 is fixedly arranged on the mounting and supporting device 1, the position adjusting device 3 is fixedly arranged on the clamping device 2, the clamping adjusting device 4 is fixedly arranged on the position adjusting device 3, and the stone clamping device 5 is fixedly arranged on the clamping adjusting device 4.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22. the present embodiment further describes the present embodiment, and the mounting and supporting device 1 includes a fixing plate 1-1, a supporting rod 1-2, a mounting frame 1-3, a motor 1-4, an output gear 1-5, an internal cross-hole external thread cylinder 1-6, a cross-spline shaft 1-7, a bevel gear 1-8, a movable connecting rod 1-9, a pushing frame 1-10, a pushing cylinder 1-11, a mounting rod 1-12, a spring 1-13, a fixed mounting rod 1-14, a fixing ring 1-15, a self-locking claw 1-16, a fixed reset cylinder 1-17, a spring 1-18, a spring-1-11, The movable sliding blocks 1 to 19, the connecting push rods 1 to 20, the push grooves 1 to 21, the hinge rods 1 to 22 and the unlocking rings 1 to 23 are firstly pulled downwards to install the unlocking rings 1 to 23 of the supporting device 1, the movable unlocking rings 1 to 23 pull the self-locking claws 1 to 16 to be installed around the self-locking claws 1 to 16 through the hinge rods 1 to 22 to enable the lower ends of the self-locking claws 1 to 16 to rotate inwards, then the upper ends of the self-locking claws 1 to 16 are separated, then the springs 1 to 13 push the pushing frames 1 to 10 to move upwards in the pushing cylinders 1 to 11, then the pushing frames 1 to 10 push the movable connecting rods 1 to 9 to move upwards, the movable connecting rods 1 to 9 drive the crossed shafts 1 to 7 to move upwards, so that the bevel gears 1 to 8 on the crossed shafts 1 to 7 are meshed with the receiving bevel gears 2 to 11 of the clamping device 2, then a motor 1-4 drives an output gear 1-5 to rotate, the output gear 1-5 drives an inner cross hole external thread cylinder 1-6 to rotate, the inner cross hole external thread cylinder 1-6 drives a cross spline shaft 1-7 to rotate, the cross spline shaft 1-7 drives a bevel gear 1-8 to rotate, the bevel gear 1-8 drives a receiving bevel gear 2-11 to rotate, a support rod 1-2 is fixedly arranged on a fixed plate 1-1, a mounting rack 1-3 is fixedly arranged on the fixed plate 1-1, the motor 1-4 is fixedly arranged on the fixed plate 1-1, an output gear 1-5 is fixedly arranged on the motor 1-4, the output gear 1-5 is meshed with the inner cross hole external thread cylinder 1-6, the inner cross hole external thread cylinder 1-6 is movably arranged on the mounting rack 1-3, the cross-shaped spline shaft 1-7 is slidably arranged inside the internal cross-shaped hole external thread cylinder 1-6, the bevel gear 1-8 is fixedly arranged on the cross-shaped spline shaft 1-7, the movable connecting rod 1-9 is movably arranged on the cross-shaped spline shaft 1-7, the movable connecting rod 1-9 is slidably arranged on the fixed mounting rod 1-14, the pushing frame 1-10 is fixedly arranged on the movable connecting rod 1-9, the pushing frame 1-10 is movably arranged on the mounting rod 1-12, the pushing cylinder 1-11 is fixedly arranged on the fixed plate 1-1, the mounting rod 1-12 is fixedly arranged on the fixed plate 1-1, the spring 1-13 is sleeved on the mounting rod 1-12, the fixed mounting rod 1-14 is fixedly arranged on the fixed plate 1-1, and the fixing ring 1-15 is fixedly arranged on the fixed mounting rod 1-14, the self-locking device comprises self-locking claws 1-16, fixed reset cylinders 1-17, springs 1-18, movable sliders 1-19, connecting push rods 1-20, pushing grooves 1-21, hinge rods 1-22, unlocking rings 1-23 and unlocking rings 1-23, wherein the self-locking claws 1-15 are movably arranged on fixed rings 1-15, the fixed reset cylinders 1-17 are fixedly arranged on the fixed rings 1-15, the springs 1-18 are slidably arranged inside the fixed reset cylinders 1-17, the movable sliders 1-19 are slidably arranged inside the fixed reset cylinders 1-17, the connecting push rods 1-20 are fixedly arranged on the movable sliders 1-19, the connecting push rods 1-20 are slidably arranged inside the pushing grooves 1-21, the pushing grooves 1-21 are arranged on the self-locking claws 1-16, the hinge rods 1-22.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22. the embodiment further describes the embodiment, where the clamping device 2 includes a clamping disk 2-1, a sliding groove 2-2, a self-locking fixing ring 2-3, a self-locking tooth 2-4, a rotating cross shaft 2-5, a spring II 2-6, a spring baffle 2-7, a self-locking cross hole barrel 2-8, a self-locking bar 2-9, a rotating lead screw 2-10, a receiving bevel gear 2-11, and a moving thread block 2-12, the rotating cross shaft 2-5 is driven to rotate by rotating the self-locking cross hole barrel 2-8, the rotating cross shaft 2-5 drives the rotating lead screw 2-10 to rotate, the rotating screw rod 2-10 enables the moving screw block 2-12 to move in the sliding groove 2-2 so as to adjust the position of the moving screw block 2-12, the spring II 2-6 pushes the self-locking cross hole barrel 2-8 to enable the self-locking cross hole barrel 2-8 to cling to the self-locking teeth 2-4 on the self-locking fixing ring 2-3 through the spring baffle 2-7 direction, the self-locking teeth 2-4 and the self-locking bar 2-9 are squeezed mutually to prevent the self-locking cross hole barrel 2-8 from rotating in the opposite direction so as to achieve reverse rotation, the position of a single moving screw block 2-12 is changed, when the four moving screw blocks 2-12 need to rotate simultaneously, the receiving bevel gear 2-11 drives the rotating screw rod 2-10 to rotate so as to change the positions of the moving screw blocks 2-12 simultaneously, the position of a position adjusting device 3 is driven by a movable thread block 2-12, a clamping disc 2-1 is fixedly arranged on a supporting rod 1-2, 2-2 sliding grooves are arranged on a self-locking fixing ring 2-3 of the clamping disc 2-1 and fixedly arranged on the clamping disc 2-1, self-locking teeth 2-4 are fixedly arranged on the self-locking fixing ring 2-3, a rotating cross shaft 2-5 is fixedly arranged on a rotating lead screw 2-10, a spring II 2-6 is sleeved on the rotating cross shaft 2-5, a spring baffle 2-7 is fixedly arranged on the rotating cross shaft 2-5, a self-locking cross hole barrel 2-8 is slidably arranged on the rotating cross shaft 2-5, a self-locking strip 2-9 is fixedly arranged on the self-locking cross hole barrel 2-8, and the rotating lead screw 2-10 is movably arranged in the clamping disc 2-1, the receiving bevel gears 2-11 are fixedly arranged on the rotating screw rods 2-10, the movable thread blocks 2-12 are slidably arranged on the sliding grooves 2-2, and the movable thread blocks 2-12 are in threaded fit with the rotating screw rods 2-10.

The fourth concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, the present embodiment further describes an embodiment, in which the position adjusting device 3 includes an arc-shaped fixing plate 3-1, a fixing hole 3-2, a sliding groove block 3-3, a mounting bracket three 3-4, a fixing seat 3-5, a connecting rod frame 3-6, a spring three 3-7, a fixing cylinder three 3-8, a rotating shaft three 3-9, a rotating disc 3-10, a bevel gear two 3-11, a bevel gear three 3-12, a lifting screw rod 3-13, a telescopic square tube 3-14, and then the connecting rod frame 3-6 compresses the spring three 3-7 by pulling the connecting rod frame 3-6, the connecting rod frame 3-6 drives the fixing seat 3-5 to move outwards inside the mounting bracket three 3-4, then the sliding groove block 3-3 is rotated on the arc-shaped fixed plate 3-1 to change the relative angle of the sliding groove block 3-3 and the moving thread block 2-12, then the rotating disc 3-10 is rotated to drive the rotating shaft three 3-9 to rotate, the rotating shaft three 3-9 drives the bevel gear two 3-11 to rotate, the bevel gear two 3-11 drives the bevel gear three 3-12 to rotate, the bevel gear three 3-12 drives the lifting screw rod 3-13 to rotate, the lifting screw rod 3-13 drives the telescopic square tube 3-14 to change the height of the fixed tube three 3-8, thereby changing the angle and height position of the clamping adjusting device on the telescopic square tube 3-14, the arc-shaped fixed plate 3-1 is installed and fixed on the moving thread block 2-12, the fixed hole 3-2 is arranged on the arc-shaped fixed plate 3-1, a sliding groove block 3-3 is slidably arranged on an arc-shaped fixed plate 3-1, a mounting frame III 3-4 is fixedly arranged on the sliding groove block 3-3, a fixed seat 3-5 is slidably arranged inside the mounting frame III 3-4, a fixed seat 3-5 is fixedly arranged on a connecting rod frame 3-6, the connecting rod frame 3-6 is slidably arranged on the mounting frame III 3-4, a spring III 3-7 is sleeved on the connecting rod frame 3-6, a fixed cylinder III 3-8 is fixedly arranged on the sliding groove block 3-3, a rotating shaft III 3-9 is movably arranged on the fixed cylinder III 3-8, a rotating disc 3-10 is fixedly arranged on the rotating shaft III 3-9, a bevel gear II 3-11 is fixedly arranged on the rotating shaft III 3-9, and a bevel gear III 3-12 is fixedly arranged on a lifting screw rod 3-13, the bevel gear III 3-12 is meshed with the bevel gear II 3-11, the lifting screw rod 3-13 is movably arranged inside the fixed cylinder III 3-8, the telescopic square tube 3-14 is slidably arranged inside the fixed cylinder III 3-8, and the telescopic square tube 3-14 is in threaded fit with the lifting screw rod 3-13.

The fifth concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, the present embodiment further describes the present embodiment, in which the clamping adjustment device 4 includes a fixed square tube 4-1, a rotary screw rod four 4-2, a rotary disk four 4-3, a limit bolt 4-4, a limit bolt mounting rack 4-5, a spring four 4-6, a tail end cap 4-7, a movable inner square tube 4-8, and then the tail end cap 4-7 is pulled outwards, the tail end cap 4-7 drives the limit bolt 4-4 to move outwards to separate the limit bolt 4-4 from the fixed square tube 4-1, and the rotary disk four 4-3 drives the rotary screw rod four 4-2 to rotate, a rotating screw rod IV 4-2 drives a moving inner square cylinder 4-8 to change the position in a fixed square cylinder 4-1, so that the position of a stone clamping device 5 arranged on the moving inner square cylinder 4-8 is changed, the fixed square cylinder 4-1 is fixedly arranged on a telescopic square tube 3-14, the rotating screw rod IV 4-2 is movably arranged in the fixed square cylinder 4-1, a rotating disc IV 4-3 is fixedly arranged on the rotating screw rod IV 4-2, a limit bolt 4-4 is slidably arranged in a limit bolt mounting rack 4-5, the limit bolt mounting rack 4-5 is fixedly arranged on the rotating disc IV 4-3, a spring IV 4-6 is sleeved on the limit bolt 4-4, a tail end cap 4-7 is fixedly arranged on the limit bolt 4-4, the moving inner square cylinder 4-8 is slidably arranged in the fixed square cylinder 4-1, the movable inner square barrel 4-8 is in threaded fit with the rotary screw rod four 4-2.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, and 22. the embodiment further describes the embodiment, where the stone clamping device 5 includes a fixing plate five 5-1, a connecting shaft five 5-2, a rotating disk five 5-3, a limiting semi-ring rod 5-4, a spring five 5-5, a connecting square cylinder 5-6, a rotating screw five 5-7, a receiving bevel gear five 5-8, a rotating rod five 5-9, an output bevel gear five 5-10, a limiting frame 5-11, and a moving square claw cylinder 5-12, and when the rotating rod five 5-9 of the stone clamping device 5 rotates, the rotating rod five 5-9 drives the output bevel gear five 5-10 to rotate, the five 5-10 output bevel gears drive the five 5-8 receiving bevel gears to rotate, the five 5-8 receiving bevel gears drive the five 5-7 rotating lead screws to rotate, the five 5-7 rotating lead screws change the positions of three moving square claw cylinders 5-12 arranged inside a five 5-1 fixing plate, so that the 5-12 moving square claw cylinders can be tightly attached to the surface of the stone, when the surface of the stone needs to be rotated, a half limiting ring rod 5-4 is pulled outwards to separate the half limiting ring rod 5-4 from the five 5-1 fixing plate, then a five 5-3 rotating disc is rotated, the five 5-3 rotating disc drives a five 5-2 connecting shaft to rotate, the five 5-2 connecting shaft drives the 5-6 connecting square cylinder to rotate so as to change the surface of the stone, the five 5-1 fixing plate is fixedly arranged on a 4-8 moving inner square cylinder, a connecting shaft five 5-2 is movably arranged on a fixed plate five 5-1, a rotating disc five 5-3 is fixedly arranged on the connecting shaft five 5-2, a limiting semi-ring rod 5-4 is slidably arranged on the rotating disc five 5-3, a spring five 5-5 is sleeved on the limiting semi-ring rod 5-4, a connecting square cylinder 5-6 is fixedly arranged on the connecting shaft five 5-2, a rotating lead screw five 5-7 is movably arranged on the connecting square cylinder 5-6, a receiving bevel gear five 5-8 is fixedly arranged on the rotating lead screw five 5-7, a rotating rod five 5-9 is movably arranged on the connecting square cylinder 5-6, an output bevel gear five 5-10 is fixedly arranged on the rotating rod five 5-9, the output bevel gear five 5-10 is meshed with the receiving bevel gear five 5-8, a limiting frame 5-11 is movably arranged on the rotating rod five 5-9, the movable square claw cylinder 5-12 is slidably installed inside the fixed plate five 5-1, and the movable square claw cylinder 5-12 is in threaded fit with the rotating screw rod five 5-7.

The seventh embodiment:

in the following, the present embodiment is described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, and 22. in the present embodiment, the number of the springs five 5-5 of the stone clamping device 5 is two, and the number of the rotary screw five 5-7, the receiving bevel gear five 5-8, the rotary lever five 5-9, and the output bevel gear five 5-10 is three.

The working principle of the invention is as follows:

a working principle of a position adjusting device for processing stone materials is that whether the connection condition between devices meets requirements is checked before the device is used, a self-locking cross hole barrel 2-8 is rotated to drive a rotating cross shaft 2-5 to rotate, the rotating cross shaft 2-5 drives a rotating lead screw 2-10 to rotate, the rotating lead screw 2-10 enables a moving thread block 2-12 to move in a sliding groove 2-2 so as to adjust the position of the moving thread block 2-12, a spring II 2-6 pushes the self-locking cross hole barrel 2-8 to enable the self-locking cross hole barrel 2-8 to be tightly attached to a self-locking tooth 2-4 on a self-locking fixing ring 2-3 through a spring baffle 2-7 direction, the self-locking tooth 2-4 and a self-locking strip 2-9 are extruded mutually to prevent the self-locking cross hole barrel 2-8 from rotating in the opposite direction so as to achieve reverse rotation, when four moving screw blocks 2-12 are required to rotate simultaneously, the unlocking rings 1-23 of the mounting and supporting device 1 are pulled downwards, the moving unlocking rings 1-23 pull the self-locking claws 1-16 around the mounting positions of the self-locking claws 1-16 through the hinge rods 1-22 to rotate the lower ends of the self-locking claws 1-16 inwards, then the upper ends of the self-locking claws 1-16 are separated, then the springs 1-13 push the pushing frames 1-10 to move upwards in the pushing cylinders 1-11, then the pushing frames 1-10 push the moving connecting rods 1-9 upwards to move, the moving connecting rods 1-9 drive the cross shafts 1-7 to move upwards, so that the bevel gears 1-8 on the cross shafts 1-7 are meshed with the receiving bevel gears 2-11 of the clamping device 2, then a motor 1-4 drives an output gear 1-5 to rotate, the output gear 1-5 drives an inner cross hole outer thread cylinder 1-6 to rotate, the inner cross hole outer thread cylinder 1-6 drives a cross shaft 1-7 to rotate, the cross shaft 1-7 drives a bevel gear 1-8 to rotate, the bevel gear 1-8 drives a receiving bevel gear 2-11 to rotate, the receiving bevel gear 2-11 drives a rotating lead screw 2-10 to rotate so as to change the position of a moving thread block 2-12 at the same time, the moving thread block 2-12 drives a position adjusting device 3, then the connecting rod frame 3-6 drives a fixed seat 3-5 to move outwards in the mounting frame three 3-4 by pulling outwards the connecting rod frame 3-6 to compress a spring three 3-7, and then the position of a sliding groove block 3-3 on an arc-shaped fixed plate 3-1 is rotated so as to change the sliding groove block 3 3 and a movable thread block 2-12, then a rotating disc 3-10 is moved to drive a rotating shaft three 3-9 to rotate, the rotating shaft three 3-9 drives a bevel gear two 3-11 to rotate, the bevel gear two 3-11 drives a bevel gear three 3-12 to rotate, the bevel gear three 3-12 drives a lifting screw rod 3-13 to rotate, the lifting screw rod 3-13 drives a telescopic square tube 3-14 to change the height of a fixed cylinder three 3-8, so that the angle and the height of a clamping adjusting device on the telescopic square tube 3-14 are changed, then a tail end cap 4-7 is pulled outwards, the tail end cap 4-7 drives a limit bolt 4-4 to move outwards to separate the limit bolt 4-4 from the fixed square tube 4-1, and a rotating disc four 4-3 drives a rotating screw rod four 4-2 to rotate, the rotating rotary screw rod IV 4-2 drives the moving inner square cylinder 4-8 to change the position in the fixed square cylinder 4-1, so that the position of the stone clamping device 5 arranged on the moving inner square cylinder 4-8 is changed, the rotating rod V5-9 of the stone clamping device 5 rotates, the rotating rod V5-9 drives the output bevel gear V5-10 to rotate, the output bevel gear V5-10 drives the receiving bevel gear V5-8 to rotate, the receiving bevel gear V5-8 drives the rotating screw rod V5-7 to rotate, the rotating rotary screw rod V5-7 changes the positions of the three moving square claw cylinders 5-12 arranged in the fixed plate V5-1, so that the moving square claw cylinders 5-12 can be tightly attached to the surface of the stone, and when the surface of the stone needs to rotate, the limiting half ring rods 5-4 are pulled outwards to enable the limiting half ring rods 5-4 and the fixed plate V5-12 to be tightly attached to the And (3) separating the stone materials, then rotating the five 5-3 rotating discs, driving the five 5-3 connecting shafts to rotate the five 5-2 connecting shafts, and driving the five 5-2 connecting shafts to rotate the 5-6 connecting square cylinders so as to change the surfaces of the stone materials.

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 be used for stone material processing stone material position control equipment, includes installation strutting arrangement (1), clamping device (2), position control device (3), presss from both sides tight adjusting device (4), stone material clamping device (5), its characterized in that: the mounting and supporting device (1) comprises a fixing plate (1-1), a supporting rod (1-2), a mounting rack (1-3), a motor (1-4), an output gear (1-5), an inner cross hole external thread cylinder (1-6), a cross spline shaft (1-7), a bevel gear (1-8), a movable connecting rod (1-9), a pushing frame (1-10), a pushing cylinder (1-11), a mounting rod (1-12), a spring (1-13), a fixed mounting rod (1-14), a fixing ring (1-15), a self-locking claw (1-16), a fixed reset cylinder (1-17), a spring I (1-18), a movable sliding block (1-19), a connecting pushing rod (1-20), a pushing groove (1-21), Hinged rods (1-22) and unlocking rings (1-23), a supporting rod (1-2) is fixedly arranged on a fixing plate (1-1), a mounting frame (1-3) is fixedly arranged on the fixing plate (1-1), a motor (1-4) is fixedly arranged on the fixing plate (1-1), an output gear (1-5) is fixedly arranged on the motor (1-4), the output gear (1-5) is meshed with an inner cross hole external thread cylinder (1-6), the inner cross hole external thread cylinder (1-6) is movably arranged on the mounting frame (1-3), a cross flower shaft (1-7) is slidably arranged inside the inner cross hole external thread cylinder (1-6), a bevel gear (1-8) is fixedly arranged on the cross flower shaft (1-7), a movable connecting rod (1-9) is movably arranged on the cross flower shaft (1-7), the movable connecting rod (1-9) is slidably arranged on the fixed mounting rod (1-14), the pushing frame (1-10) is fixedly arranged on the movable connecting rod (1-9), the pushing frame (1-10) is movably arranged on the mounting rod (1-12), the pushing cylinder (1-11) is fixedly arranged on the fixed plate (1-1), the mounting rod (1-12) is fixedly arranged on the fixed plate (1-1), the spring (1-13) is sleeved on the mounting rod (1-12), the fixed mounting rod (1-14) is fixedly arranged on the fixed plate (1-1), the fixed ring (1-15) is fixedly arranged on the fixed mounting rod (1-14), the self-locking claw (1-16) is movably arranged on the fixed ring (1-15), the fixed resetting cylinder (1-17) is fixedly arranged on the fixed ring (1-15), the first spring (1-18) is slidably mounted inside the fixed reset barrel (1-17), the movable sliding block (1-19) is slidably mounted inside the fixed reset barrel (1-17), the connecting push rod (1-20) is fixedly mounted on the movable sliding block (1-19), the connecting push rod (1-20) is slidably mounted inside the push groove (1-21), the push groove (1-21) is arranged on the self-locking claw (1-16), the hinged rod (1-22) is hinged on the unlocking ring (1-23), and the unlocking ring (1-23) is slidably mounted on the fixed mounting rod (1-14);

the clamping device (2) comprises a clamping disc (2-1), a sliding groove (2-2), a self-locking fixing ring (2-3), self-locking teeth (2-4), a rotating cross shaft (2-5), a spring II (2-6), a spring baffle (2-7), a self-locking cross hole barrel (2-8), a self-locking strip (2-9), a rotating screw rod (2-10), a receiving bevel gear (2-11) and a movable thread block (2-12), wherein the clamping disc (2-1) is fixedly arranged on a supporting rod (1-2), the sliding groove (2-2) is arranged on the clamping disc (2-1) and the self-locking fixing ring (2-3), the self-locking teeth (2-4) are fixedly arranged on the clamping disc (2-1) and the self-locking fixing ring (2-3), a rotating cross shaft (2-5) is fixedly arranged on a rotating lead screw (2-10), a spring II (2-6) is sleeved on the rotating cross shaft (2-5), a spring baffle (2-7) is fixedly arranged on the rotating cross shaft (2-5), a self-locking cross hole barrel (2-8) is slidably arranged on the rotating cross shaft (2-5), a self-locking strip (2-9) is fixedly arranged on the self-locking cross hole barrel (2-8), the rotating lead screw (2-10) is movably arranged in a clamping disc (2-1), a receiving bevel gear (2-11) is fixedly arranged on the rotating lead screw (2-10), a moving thread block (2-12) is slidably arranged on a sliding groove (2-2), and the moving thread block (2-12) is in threaded fit with the rotating lead screw (2-10);

the position adjusting device (3) comprises an arc-shaped fixing plate (3-1), fixing holes (3-2), sliding groove blocks (3-3), a mounting rack III (3-4), a fixing seat (3-5), a connecting rod rack (3-6), a spring III (3-7), a fixing cylinder III (3-8), a rotating shaft III (3-9), a rotating disc (3-10), a bevel gear II (3-11), a bevel gear III (3-12), a lifting screw rod (3-13) and a telescopic square tube (3-14), wherein the arc-shaped fixing plate (3-1) is fixedly arranged on the movable thread blocks (2-12), the fixing holes (3-2) are formed in the arc-shaped fixing plate (3-1), and the sliding groove blocks (3-3) are slidably arranged on the arc-shaped fixing plate (3-1), a third mounting rack (3-4) is fixedly arranged on the sliding groove block (3-3), a fixed seat (3-5) is slidably arranged inside the third mounting rack (3-4), the fixed seat (3-5) is fixedly arranged on a connecting rod rack (3-6), the connecting rod rack (3-6) is slidably arranged on the third mounting rack (3-4), a third spring (3-7) is sleeved on the third fixing cylinder (3-8) on the connecting rod rack (3-6) and is fixedly arranged on the sliding groove block (3-3), the third rotating shaft (3-9) is movably arranged on the third fixing cylinder (3-8), a rotating disc (3-10) is fixedly arranged on the third rotating shaft (3-9), a second bevel gear (3-11) is fixedly arranged on the third rotating shaft (3-9), the third bevel gear (3-12) is fixedly arranged on a lifting screw rod (3-13), a third bevel gear (3-12) is meshed with a second bevel gear (3-11), a lifting screw rod (3-13) is movably arranged inside a third fixed cylinder (3-8), a telescopic square tube (3-14) is slidably arranged inside the third fixed cylinder (3-8), and the telescopic square tube (3-14) is in threaded fit with the lifting screw rod (3-13);

the clamping adjusting device (4) comprises a fixed square tube (4-1), a rotary lead screw four (4-2), a rotary disc four (4-3), a limit bolt (4-4), a limit bolt mounting frame (4-5), a spring four (4-6), a tail end cap (4-7) and a movable inner square tube (4-8), wherein the fixed square tube (4-1) is fixedly installed on a telescopic square tube (3-14), the rotary lead screw four (4-2) is movably installed inside the fixed square tube (4-1), the rotary disc four (4-3) is fixedly installed on the rotary lead screw four (4-2), the limit bolt (4-4) is slidably installed inside the limit bolt mounting frame (4-5), the limit bolt mounting frame (4-5) is fixedly installed on the rotary disc four (4-3), a fourth spring (4-6) is sleeved on the limiting bolt (4-4), a tail end cap (4-7) is fixedly arranged on the limiting bolt (4-4), a movable inner square tube (4-8) is slidably arranged in the fixed square tube (4-1), and the movable inner square tube (4-8) is in threaded fit with the rotary screw rod (4-2);

the stone clamping device (5) comprises a fixed plate five (5-1), a connecting shaft five (5-2), a rotating disc five (5-3), a limiting semi-ring rod (5-4), a spring five (5-5), a connecting square barrel (5-6), a rotating screw rod five (5-7), a receiving bevel gear five (5-8), a rotating rod five (5-9), an output bevel gear five (5-10), a limiting frame (5-11) and a moving square claw barrel (5-12), wherein the fixed plate five (5-1) is fixedly arranged on the moving inner square barrel (4-8), the connecting shaft five (5-2) is movably arranged on the fixed plate five (5-1), the rotating disc five (5-3) is fixedly arranged on the connecting shaft five (5-2), the limiting semi-ring rod (5-4) is slidably arranged on the rotating disc five (5-3), a spring five (5-5) is sleeved on the limiting semi-ring rod (5-4), a connecting square cylinder (5-6) is fixedly installed on a connecting shaft five (5-2), a rotating screw rod five (5-7) is movably installed on the connecting square cylinder (5-6), a receiving bevel gear five (5-8) is fixedly installed on the rotating screw rod five (5-7), a rotating rod five (5-9) is movably installed on the connecting square cylinder (5-6), an output bevel gear five (5-10) is fixedly installed on the rotating rod five (5-9), the output bevel gear five (5-10) is meshed with the receiving bevel gear five (5-8), a limiting frame (5-11) is movably installed on the rotating rod five (5-9), a moving square claw cylinder (5-12) is slidably installed inside a fixing plate five (5-1), the movable square claw cylinder (5-12) is in threaded fit with the rotating screw rod (5-7);

the stone material clamping device is characterized in that the clamping device (2) is fixedly installed on the installation supporting device (1), the position adjusting device (3) is fixedly installed on the clamping device (2), the clamping adjusting device (4) is fixedly installed on the position adjusting device (3), and the stone material clamping device (5) is fixedly installed on the clamping adjusting device (4).

2. A device for adjusting the position of stone working stones according to claim 1, characterized in that: the number of the springs five (5-5) of the stone clamping device (5) is two, and the number of the rotating screw rods five (5-7), the receiving bevel gears five (5-8), the rotating rods five (5-9) and the output bevel gears five (5-10) is three.

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