CN112590021A

CN112590021A - Novel stone plane engraving machine and installation mode of anti-deviation positioner thereof

Info

Publication number: CN112590021A
Application number: CN202011524697.4A
Authority: CN
Inventors: 王小云
Original assignee: Jinjiang Intensive Trade Co ltd
Current assignee: Jinjiang Intensive Trade Co ltd
Priority date: 2020-12-22
Filing date: 2020-12-22
Publication date: 2021-04-02

Abstract

The invention relates to the field of engraving machines, in particular to a novel stone plane engraving machine, which comprises a frame, wherein a workbench which can move back and forth relative to the frame is arranged on the frame, two sides of the workbench are respectively fixed with an anti-deviation positioner, two anti-deviation positioners are arranged on the workbench of the engraving machine, two sides of a stone plate can be clamped under the action of a clamping plate of the anti-deviation positioners when the stone plate is engraved, so that the stone plate is fixed on the workbench, and simultaneously, under the action of a shockproof plate on the clamping plate, the shockproof plate is extruded to move towards the direction of the clamping plate after the stone plate is clamped by the clamping plate, and the upper surface of the stone is supported by the shockproof plate which is not extruded to move above the stone, so that the stone is prevented from vibrating upwards during engraving, and the stone is prevented from deviating to influence the engraving effect.

Description

Novel stone plane engraving machine and installation mode of anti-deviation positioner thereof

Technical Field

The invention relates to the field of engraving machines, in particular to a novel stone plane engraving machine and an installation mode of an anti-deviation positioner thereof.

Background

The stone carving belongs to the category of sculpture, is a modeling art form reflecting social life, and has the significance of commemoration and image sign. At present, stone material plane engraver is when carving the plane stone material, generally not all fixes the stone material, when the translation through the workstation is carved, leads to the stone material to take place the skew easily, and simultaneously at glyptic in-process, the vibrations that the engraver took place also lead to the stone material to take place to remove easily, and then lead to the sculpture thing to appear warping, influences the effect after the sculpture.

Disclosure of Invention

The invention provides a novel stone plane carving machine and an installation mode of an anti-deviation positioner thereof, and aims to solve the problem that plane stones are deviated because the plane stones are not fixed generally when the plane stones are carved by the stone plane carving machine in the prior art.

The invention adopts the following technical scheme: the utility model provides a novel stone material plane engraver, including frame 1, but be equipped with the workstation 2 for 1 back-and-forth movement of frame in the frame 1, its characterized in that: the both sides of workstation 2 are fixed with respectively and prevent inclined to one side locator 3, prevent inclined to one side locator 3 including locating rack 31 and clamp plate 32, locating rack 31 is fixed respectively on the both sides of workstation 2, the relative locating rack 31 of clamp plate 32 moves about, be equipped with the shockproof board 33 of a plurality of equidistance matrix arrangement on the clamp plate 32, the board 33 that takes precautions against earthquakes moves about for the clamp plate 32, it all is equipped with slide bar 331 on one side that the board 33 that takes precautions against earthquakes is close to clamp plate 32, the slide bar 321 has all been run through in the position that the clamp plate 32 corresponds slide bar 331, slide bar 331 passes slide opening 321, the nested spring 332 that has on the slide bar 331, the one end of spring 332 supports on the board 33 that takes precautions against earthquakes, and the other end supports on the clamp plate 32, slide bar 331 passes and is fixed with on the tip of slide opening 321.

As a further improvement, one side of the clamping plate 32 close to the positioning frame 31 is provided with an embedded rod 322, the embedded rod 322 is embedded in an embedded hole 341 of the threaded rod 34, the embedded hole 341 is arranged on the end portion of the threaded rod 34, the threaded rod 34 is in threaded connection with the threaded hole 311 of the positioning frame 31, the positioning frame 31 further penetrates through a rotation limiting hole 312, a rotation limiting rod 35 is arranged at a position of the clamping plate 32 corresponding to the rotation limiting hole 312, and the rotation limiting rod 35 penetrates through the rotation limiting hole 312.

As a further improvement, a longitudinal threaded sleeve 21 is fixed below the workbench 2, the workbench 2 and the rack 1 are driven by a Y-axis linkage mechanism 4, the Y-axis linkage mechanism 4 comprises a longitudinal threaded rod 41, two ends of the longitudinal threaded rod 41 are respectively fixed on the rack 1, and the longitudinal threaded sleeve 21 is in threaded connection with the longitudinal threaded rod 41.

As a further improvement, the rack 1 is further provided with a connecting plate 5 capable of moving left and right, the connecting plate 5 is provided with a lifting plate 6 capable of moving up and down, the connecting plate 5 and the rack 1 are driven by an X-axis linkage mechanism 7, and the connecting plate 5 and the lifting plate 6 are driven by a Z-axis linkage mechanism 8.

As a further improvement, the X-axis linkage mechanism 7 includes a transverse threaded rod 71 and a transverse guide rod 72, the transverse threaded rod 71 is in threaded connection with the transverse threaded sleeve 51, the transverse threaded sleeve 51 is fixed on the back of the connecting plate 5, two ends of the transverse threaded rod 71 are respectively fixed on the rack 1, the transverse guide rod 72 passes through the transverse guide sleeve 52, the transverse guide sleeve 52 is fixed on the back of the connecting plate 5, and two ends of the transverse guide rod 72 are respectively fixed on the rack 1.

As a further improvement, the Z-axis linkage mechanism 8 includes a vertical threaded rod 81, two ends of the vertical threaded rod 81 are respectively fixed on the front surface of the connecting plate 5, the vertical threaded rod 81 is in threaded connection with the vertical threaded sleeve 61, and the vertical threaded rod 81 is fixed on the lifting plate 6.

The utility model provides a novel stone material plane engraver prevent mounting means of inclined to one side locator, includes:

firstly, fixing two positioning frames 31 on two sides of a workbench 2 through screws respectively;

secondly, aligning one end of the threaded rod 34 with the nesting hole 341 with one side of the positioning frame 31 far away from the workbench 2, screwing the threaded rod 34 into the threaded hole 311, aligning the clamping plate 32 with the workbench 2, aligning the rotation limiting rod 35 of the clamping plate 32 with the rotation limiting hole 312 on the positioning frame 31, penetrating the rotation limiting rod 35 through the rotation limiting hole 312, aligning the nesting rod 322 of the clamping plate 32 with the nesting hole 341 of the threaded rod 34, and finally embedding the nesting rod 322 into the nesting hole 341;

thirdly, the spring 332 is nested on the sliding bar 331, the shockproof plate 33 faces one side of the workbench 2, the sliding bar 331 penetrates through the sliding hole 321 of the clamping plate 32, one end of the spring 332 is supported on the shockproof plate 33, the other end of the spring is supported on the clamping plate 32, the spring is screwed into the sliding bar 331 through the stop sleeve 333, and finally all the shockproof plates 33 are installed on the clamping plate 32.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the two anti-deviation locators 3 are arranged on the workbench 2 of the engraving machine, so that the two sides of the stone plate can be clamped under the action of the clamping plates 32 of the anti-deviation locators 3 when the stone plate is engraved, the stone plate is fixed on the workbench 2, meanwhile, under the action of the shockproof plates 33 on the clamping plates 32, after the stone is clamped by the clamping plates 32, the shockproof plates 33 are extruded to move towards the clamping plates 32, and at the moment, the upper surfaces of the stone are supported by the shockproof plates 33 which are not extruded to move above the stone, so that the stone is prevented from vibrating upwards during engraving, and the stone is prevented from being deflected to influence the engraving effect.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic side sectional view of the present invention.

FIG. 3 is a schematic front sectional view of the anti-deviation positioner of the present invention.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1 to 2, a novel stone plane carving machine comprises a frame 1, wherein a workbench 2 which can move back and forth relative to the frame 1 is arranged on the frame 1, anti-deviation locators 3 are respectively fixed on two sides of the workbench 2, a longitudinal threaded sleeve 21 is fixed below the workbench 2, the workbench 2 and the frame 1 are driven by a Y-axis linkage mechanism 4, the Y-axis linkage mechanism 4 comprises a longitudinal threaded rod 41, two ends of the longitudinal threaded rod 41 are respectively fixed on the frame 1 through bearing seats, the longitudinal threaded sleeve 21 is in threaded connection with the longitudinal threaded rod 41, and one end of the longitudinal threaded rod 41 is in transmission connection with an output end of a longitudinal motor 42; still be equipped with the connecting plate 5 that removes about can moving on the frame 1, be equipped with the lifter plate 6 that can reciprocate on the connecting plate 5, drive through X axle link gear 7 between connecting plate 5 and the frame 1, connecting plate 5 and lifter plate 6 drive through Z axle link gear 8, wherein lifter plate 6 locates the top of workstation 2 to install the engraver that is used for carving the stone material on the lifter plate 6. X axle link gear 7 is including horizontal threaded rod 71 and horizontal guide bar 72, horizontal threaded rod 71 and horizontal thread bush 51 threaded connection, horizontal thread bush 51 is fixed on the back of connecting plate 5, the both ends of horizontal threaded rod 71 are fixed on frame 1 through the bearing frame respectively, and wherein the one end of horizontal threaded rod 71 is connected with the output transmission of horizontal motor 73, horizontal guide bar 72 passes horizontal guide bush 52, horizontal guide bush 52 is fixed on the back of connecting plate 5, the both ends of horizontal guide bar 72 are fixed respectively on frame 1. The Z-axis linkage mechanism 8 comprises a vertical threaded rod 81, the two ends of the vertical threaded rod 81 are respectively fixed on the front surface of the connecting plate 5, the vertical threaded rod 81 is in threaded connection with the vertical threaded sleeve 61, the vertical threaded rod 81 is fixed on the lifting plate 6 through a bearing seat, and the upper end of the vertical threaded rod 81 is in transmission connection with the output end of the vertical motor 82.

As shown in fig. 2 to 3, the anti-deviation positioner 3 includes a positioning frame 31 and a clamping plate 32, the positioning frame 31 is fixed on two sides of the working table 2, the clamping plate 32 moves left and right relative to the positioning frame 31, the clamping plate 32 is provided with a plurality of shockproof plates 33 arranged in an equidistant matrix, the shockproof plates 33 move left and right relative to the clamping plate 32, one side of the shockproof plates 33 close to the clamping plate 32 is provided with a sliding rod 331, the clamping plate 32 corresponding to the sliding rod 331 is provided with a sliding hole 321 through which a sliding rod 331 passes, the sliding rod 331 passes through the sliding hole 321, the sliding rod 331 is provided with a spring 332, one end of the spring 332 is supported on the shockproof plate 33, the other end is supported on the clamping plate 32, the end of the sliding rod 331 passing through the sliding hole 321 is fixed with a stop sleeve 333, and the shockproof plate 33 is used to press the stone toward the clamping plate 32 after the clamping plate 32 clamps, at this time, the upper surface of the stone is supported by the vibration-proof plate 33 which is not pressed and moved above the stone, so that the stone is prevented from vibrating upwards during carving, and the stone is prevented from deviating to influence the carving effect.

As shown in fig. 2 to 3, one side of the clamping plate 32 close to the positioning frame 31 is provided with an embedded rod 322, the nesting rod 322 is nested in the nesting hole 341 of the threaded rod 34, the nesting hole 341 is arranged on the end part of the threaded rod 34, the threaded rod 34 is in threaded connection with the threaded hole 311 of the positioning frame 31, by the effect of the threaded connection of the threaded rod 34 and the threaded hole 311, when the threaded rod 34 is rotated, the threaded rod 34 can be moved left and right, thereby being capable of pushing the clamping plate 32 to clamp the stone, the positioning frame 31 is also provided with a rotation limiting hole 312, the position of the clamping plate 32 corresponding to the rotation limiting hole 312 is provided with a rotation limiting rod 35, the rotation limiting rod 35 passes through the rotation limiting hole 312 and is matched with the rotation limiting hole 312 through the rotation limiting rod 35, meanwhile, the nesting rod 322 is matched with the nesting hole 341, so that when the threaded rod 34 is rotated, the clamping plate 32 cannot be driven to rotate, and the clamping plate 32 can horizontally move left and right. A rotary knob 36 is fixed on one end of the threaded rod 34 far away from the clamping plate 32

As shown in fig. 1 to 3, a novel installation method of an anti-deviation positioner of a stone plane carving machine comprises:

Referring to fig. 1 to 3, when the anti-deviation positioner 3 is used, a stone is firstly placed on the worktable 2, then the threaded rod 34 is rotated, the threaded rod 34 moves towards the stone under the effect of threaded connection between the threaded rod 34 and the threaded hole 311, the threaded rod 34 drives the clamping plate 32 to move towards the stone, until the anti-vibration plate 33 on the clamping plate 32 contacts the stone, the stone acts on the anti-vibration plate 33, the anti-vibration plate 33 is extruded, the anti-vibration plate 33 moves towards the clamping plate 32, the spring 332 is extruded and compressed until the stone is clamped, the anti-vibration plate 33 above the stone props against the upper surface of the stone, and the stone is prevented from vibrating upwards to cause deviation, so as to ensure the stone carving effect.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims

1. The utility model provides a novel stone material plane engraver, including the frame, be equipped with the workstation for frame back-and-forth movement, its characterized in that in the frame: the utility model discloses a slide bar, including workstation, clamping plate, shockproof board, slide bar, slide hole, slide bar, spring, the both sides of workstation are fixed with respectively and prevent inclined to one side locator, prevent inclined to one side locator including locating rack and clamp plate, the locating rack is fixed respectively on the both sides of workstation, the relative locating rack left-right movement of clamp plate, be equipped with the shockproof board of a plurality of equidistance matrix arrangement on the clamp plate, the shockproof board removes about the relative clamp plate, all be equipped with the slide bar on one side that the shockproof board is close to the clamp plate, the slide hole has all been run through to the position that the clamp plate corresponds the slide bar, the slide bar passes the slide hole, nested spring on the slide bar, the one end of spring supports on the shockproof board, and the.

2. The new stone plane carving machine of claim 1, characterized in that: one side that the clamp plate is close to the locating rack is equipped with nested pole, nested pole is nested and the nested hole of threaded rod, it locates on the tip of threaded rod to inlay the nested hole, the threaded rod is connected with the screw hole screw thread of locating rack, still run through the limited rotation hole on the locating rack, the position that the clamp plate corresponds the limited rotation hole is equipped with the limit commentaries on classics pole, the limit commentaries on classics pole passes the limited rotation hole.

3. The new stone plane carving machine of claim 1, characterized in that: the lower part of the workbench is fixedly provided with a longitudinal threaded sleeve, the workbench and the rack are driven by a Y-axis linkage mechanism, the Y-axis linkage mechanism comprises a longitudinal threaded rod, two ends of the longitudinal threaded rod are respectively fixed on the rack, and the longitudinal threaded sleeve is in threaded connection with the longitudinal threaded rod.

4. The new stone plane carving machine of claim 1, characterized in that: the machine frame is further provided with a connecting plate capable of moving left and right, the connecting plate is provided with a lifting plate capable of moving up and down, the connecting plate and the machine frame are driven by an X-axis linkage mechanism, and the connecting plate and the lifting plate are driven by a Z-axis linkage mechanism.

5. The new stone plane carving machine of claim 4, characterized in that: the X-axis linkage mechanism comprises a transverse threaded rod and a transverse guide rod, the transverse threaded rod is in threaded connection with a transverse threaded sleeve, the transverse threaded sleeve is fixed on the back face of the connecting plate, the two ends of the transverse threaded rod are fixed on the frame respectively, the transverse guide rod penetrates through the transverse guide sleeve, the transverse guide sleeve is fixed on the back face of the connecting plate, and the two ends of the transverse guide rod are fixed on the frame respectively.

6. The new stone plane carving machine of claim 4, characterized in that: the Z-axis linkage mechanism comprises a vertical threaded rod, two ends of the vertical threaded rod are respectively fixed on the front face of the connecting plate, the vertical threaded rod is in threaded connection with a vertical threaded sleeve, and the vertical threaded rod is fixed on the lifting plate.

7. The utility model provides a novel stone material plane engraver prevent mounting means of inclined to one side locator, includes:

firstly, fixing two positioning frames on two sides of a workbench respectively through screws;

aligning one end of the threaded rod with the nesting hole to one side of the positioning frame far away from the workbench, screwing the threaded rod into the threaded hole, aligning the clamping plate to the workbench, aligning the rotation limiting rod of the clamping plate to the rotation limiting hole on the positioning frame, penetrating the rotation limiting rod through the rotation limiting hole, aligning the nesting rod of the clamping plate to the nesting hole of the threaded rod, and finally embedding the nesting rod into the nesting hole;

and thirdly, nesting the springs on the sliding rods, enabling the shockproof plates to face one side of the workbench, penetrating the sliding rods through the sliding holes of the clamping plates, enabling one ends of the springs to be supported on the shockproof plates, enabling the other ends of the springs to be supported on the clamping plates, screwing the springs into the sliding rods through the stop sleeves, and finally installing all the shockproof plates on the clamping plates.