CN216266908U - Artificial stone plate face cutting device - Google Patents

Abstract

The utility model discloses an artificial stone board cutting device, which comprises a door-shaped frame fixed on a cutting table, an upper slide rail and a rack which are arranged at the top of the door-shaped frame in parallel along the transverse direction, a side slide rail arranged at the side edge of the door-shaped frame along the transverse direction, a plurality of first slide blocks which are sleeved on the upper slide rail and the side slide rail in a sliding manner, a first slide seat which is fixed on the first slide blocks and is in an L shape, a first driving advancing motor which is fixed on the first slide seat and is connected with the first slide seat in a gear and rack meshing manner, a cutting mechanism fixed on the first slide seat, and a pair of infrared ray marking mechanisms which are fixed on the door-shaped frame and face to-be-cut artificial stone boards; an infrared emission probe is arranged on the infrared ray marking mechanism. Through the scheme, the artificial stone cutting machine has the advantages of simple structure, reliability in cutting and the like, and has high practical value and popularization value in the technical field of artificial stone cutting.

Description

Artificial stone plate face cutting device

Technical Field

The utility model relates to the technical field of artificial stone cutting, in particular to an artificial stone plate surface cutting device.

Background

In the cutting process of the artificial stone, when the artificial stone is cut into strips or blocks or plates, most of the widths and the length sizes are regular, if the artificial stone is cut into the strips, the widths of two ends of the artificial stone strip are the same, and then the cutting machine only needs to be provided with a stock stop mechanism in the width direction of the stone, and the width of the stone can be obtained according to the horizontal direction distance between the stock stop mechanism and the cutting blade. However, if the cutting widths of some artificial stones are different, the cutting line needs to be marked in advance, and whether the cutting line and the cutting tool coincide or not is observed at any time in the cutting process; thus, the cutting efficiency is very low.

Therefore, it is urgently needed to provide a cutting device for artificial stone slab surface, which has simple structure and reliable cutting.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems, the utility model aims to provide a device for cutting a panel of an artificial stone, which adopts the following technical scheme:

a kind of artificial stone face cutting device, install on cutting bed, it includes fixing the door type shelf on cutting bed, upper slide rail and rack set up in the top of the door type shelf in parallel along the horizontal direction, set up the side slide rail on the side of the door type shelf along the horizontal direction, several first slide blocks that the slip is set up on upper slide rail and side slide rail, fix on first slide block, and take the form of first slide of L shape, fix on first slide, and adopt the first drive running motor that wheel and rack mesh connect, fix on cutting mechanism of first slide, and fix on door type shelf, and towards a pair of infrared ray marking mechanism of the artificial stone face to be cut; an infrared emission probe is arranged on the infrared marking mechanism;

the cutting mechanism comprises a longitudinal fine adjustment driving mechanism fixed on the first sliding seat, a cutting transmission belt mechanism and a cutting motor which are fixed on the longitudinal fine adjustment driving mechanism and mutually connected, and a cutting blade connected with the cutting transmission belt mechanism; the cutting line of the cutting blade coincides with the infrared rays emitted by the infrared emission probe.

Furthermore, the cutting mechanism also comprises a transverse fine adjustment driving mechanism with the same structure as the longitudinal fine adjustment driving mechanism; the transverse fine adjustment driving mechanism is fixed between the first sliding seat and the longitudinal fine adjustment driving mechanism.

Preferably, a protective cover is arranged on the outer side of the cutting blade.

Further, the transverse fine adjustment driving mechanism comprises a mounting seat fixed on the first sliding seat, two first sliding rails fixed on the mounting seat along the transverse direction, a plurality of second sliding blocks sleeved on the first sliding rails in a sliding manner, a screw rod seat fixed at the end of the mounting seat in a one-to-one correspondence manner and arranged between the two first sliding rails, a screw rod rotatably sleeved on the screw rod seat, a motor mounting seat fixed at one end of the mounting seat, a second driving advancing motor fixed on the motor mounting seat, a first belt pulley connected with the second driving advancing motor, a second belt pulley connected with one end of the screw rod, a belt connected between the first belt pulley and the second belt pulley, a second sliding seat fixed on the second sliding block, and a screw rod nut seat sleeved on the screw rod and fixedly connected with the second sliding seat.

Compared with the prior art, the utility model has the following beneficial effects:

(1) the utility model skillfully arranges a transverse driving mechanism (namely an upper slide rail, a rack, a first driving advancing motor, a side slide rail, a first slide seat and the like), a transverse fine adjustment driving mechanism and a longitudinal fine adjustment driving mechanism so as to realize the driving action of a cutting blade and further realize transverse driving cutting;

(2) according to the utility model, the infrared ray marking mechanism is arranged, wherein infrared rays emitted by the infrared ray emission probe coincide with the cutting line of the cutting blade; meanwhile, a cutting path line is marked on the surface of the artificial stone plate to be cut in advance, so that the cutting path line is superposed with the infrared ray, and reliable switching is realized;

(3) according to the utility model, the transverse fine-tuning driving mechanism is arranged, so that the position of the blade can be finely adjusted during fine cutting;

in conclusion, the utility model has the advantages of simple structure, reliable cutting and the like, and has high practical value and popularization value in the technical field of artificial stone cutting.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope of protection, and it is obvious for those skilled in the art that other related drawings can be obtained according to these drawings without inventive efforts.

Fig. 1 is a schematic structural diagram (one) of the present invention.

Fig. 2 is a schematic structural diagram (ii) of the present invention.

FIG. 3 is a partial schematic view of the present invention.

Fig. 4 is a schematic structural diagram (one) of the cutting mechanism of the present invention.

Fig. 5 is a schematic structural diagram (ii) of the cutting mechanism of the present invention.

Fig. 6 is a schematic structural diagram (iii) of the cutting mechanism of the present invention.

In the drawings, the names of the parts corresponding to the reference numerals are as follows:

1. a gantry frame; 2. an upper slide rail; 3. a rack; 4. a first driving traveling motor; 5. a side slide rail; 6. a first slider; 7. a cutting mechanism; 8. an infrared ray marking mechanism; 9. a first slider; 71. a transverse fine adjustment driving mechanism; 72. a longitudinal fine adjustment driving mechanism; 73. cutting the motor; 74. a cutting drive belt mechanism; 75. a cutting blade; 76. a protective cover; 81. an infrared emission probe; 701. a mounting seat; 702. a first slide rail; 703. a second slider; 704. a screw base; 705. a screw rod; 706. a screw nut seat; 707. a motor mounting seat; 708. a second driving traveling motor; 709. a first pulley; 710. a belt; 711. a second pulley; 712. a second carriage.

Detailed Description

To further clarify the objects, technical solutions and advantages of the present application, the present invention will be further described with reference to the accompanying drawings and examples, and embodiments of the present invention include, but are not limited to, the following examples. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Examples

As shown in fig. 1 to 6, the present embodiment provides an artificial stone slab cutting device, which is installed on a cutting table, wherein the cutting table is provided with an artificial stone slab cutting worktable, in the present embodiment, a cutting road stiffness mark is performed on an artificial stone slab to be cut, and a cutting path is drawn; or adjusting the artificial stone board surface according to the position of the infrared rays projected on the board surface, so that the area formed by the infrared rays and the edges of the board surface is the required board size. First, the terms "first", "second", and the like in the present embodiment are used only for distinguishing the same kind of components, and are not to be construed as specifically limiting the scope of protection. In the present embodiment, the terms of orientation such as "bottom", "top", "peripheral edge", "center", and the like are explained based on the drawings.

In this embodiment, this artificial stone face cutting device is including fixing the door type frame 1 on the cutting bed, lay in the last slide rail 2 and the rack 3 at the top of door type frame 1 along horizontal direction parallel, set up the side slide rail 5 at the side of door type frame 1 along horizontal direction, the first slider 9 of several on last slide rail 2 and side slide rail 5 is established to the sliding sleeve, fix on first slider 9, and be the first slide 6 of L shape, fix on first slide 6, and adopt the first drive motor of marcing 4 that wheel and rack 3 meshing are connected, fix cutting mechanism 7 on first slide 6, and fix on door type frame 1, and towards a pair of infrared ray marking mechanism 8 of the artificial stone face of waiting to cut. Wherein, an infrared ray emission probe 81 is arranged on the infrared ray marking mechanism 8, in this embodiment, the installation position of the infrared ray emission probe 81 is adjusted, and the cutting line of the cutting blade 75 is overlapped with the infrared ray emitted by the infrared ray emission probe 81. Since the cutting blade 75 moves up and down, it is an error to visually observe whether the cutting path coincides with the cutting blade, and the processing difficulty is large. The position of the cutting blade can be fine acquireed to the infrared ray of this embodiment for through adjustment artificial stone face, infrared ray and the last predetermined cutting path coincidence of artificial stone material alright carry out reliable cutting.

As shown in fig. 4 to 6, in the present embodiment, the cutting mechanism 7 includes a lateral fine adjustment driving mechanism 71 fixed on the first slide 6, a longitudinal fine adjustment driving mechanism 72 provided on the lateral fine adjustment driving mechanism 71 and having the same structure as the lateral fine adjustment driving mechanism 71, a cutting belt mechanism 74 and a cutting motor 73 fixed on the longitudinal fine adjustment driving mechanism 72 and connected to each other, a cutting blade 75 connected to the cutting belt mechanism 74, and a shield 76 provided outside the cutting blade 75. In the mechanical installation, it is necessary to ensure that the cutting line of the cutting blade 75 coincides with the infrared ray emitted from the external-line-emitting probe 81.

Before cutting, the artificial stone is fixed on a cutting table, and the infrared rays emitted by the external line emitting probe 81 are ensured to coincide with a preset cutting path on the artificial stone (if a broken line exists, the infrared rays coincide with the broken line in sequence along the cutting sequence).

In this embodiment, the thickness of the artificial stone slab is between several centimeters, so the longitudinal drive of the cutting blade is fine-tuned, and in addition, the end cutting also requires a slow fine cutting, so the present embodiment is provided with a transverse fine-tuning drive mechanism 71 and a longitudinal fine-tuning drive mechanism 72. Wherein, the transverse fine-tuning driving mechanism 71 comprises a mounting seat 701 fixed on the first sliding seat 6, two first sliding rails 702 fixed on the mounting seat 701 along the transverse direction, a plurality of second sliding blocks 703 slidably sleeved on the first sliding rails 702, a screw rod seat 704 fixed on the end of the mounting seat 701 and arranged between the two first sliding rails 702, a screw rod 705 rotatably sleeved on the screw rod seat 704, a motor mounting seat 707 fixed on one end of the mounting seat 701, a second driving traveling motor 708 fixed on the motor mounting seat 707, a first pulley 709 connected to the second driving travel motor 708, a second pulley 711 connected to one end of the screw 705, a belt 710 connected between the first pulley 709 and the second pulley 711, a second slide 712 fixed to the second slider 703, and a screw nut seat 706 sleeved on the screw 705 and fixedly connected with the second slide seat 712.

In the present embodiment, the first driving motor 4 is engaged with the rack 3, and the first slide 6 is driven by the first driving motor 4 to move along the direction of the rack 3, wherein the upper slide 2, the side slide 5 and the first slide 9 provide sliding support. In addition, the cutting blade 75 is driven to move to a designated cutting position by the longitudinal fine adjustment drive mechanism 72 at the time of cutting. In addition, the lateral fine cut adjustment is performed by the lateral fine adjustment drive mechanism 71. In the present embodiment, the second driving motor 708 is used to drive the first pulley 709, the second pulley 711, the belt 710 and the lead screw 705 to rotate, so as to realize that the lead screw nut seat 706 drives the second sliding seat 712 to move.

The above-mentioned embodiments are only preferred embodiments of the present invention, and do not limit the scope of the present invention, but all the modifications made by the principles of the present invention and the non-inventive efforts based on the above-mentioned embodiments shall fall within the scope of the present invention.

Claims (4)

1. The utility model provides an artificial stone face cutting device, install on the cutting bed, a serial communication port, including fixing door type frame (1) on the cutting bed, along horizontal direction parallel arrangement in last slide rail (2) and rack (3) at the top of door type frame (1), along horizontal direction setting in side slide rail (5) of the side of door type frame (1), a plurality of first slider (9) of sliding sleeve setting on last slide rail (2) and side slide rail (5), fix on first slider (9), and be first slide (6) of L shape, fix on first slide (6), and adopt first drive motor (4) of marcing that gear and rack (3) meshing are connected, fix cutting mechanism (7) on first slide (6), and a pair of infrared ray marking mechanisms (8) which are fixed on the door-shaped frame (1) and face the surface of the artificial stone to be cut; an infrared emission probe (81) is arranged on the infrared marking mechanism (8);

the cutting mechanism (7) comprises a longitudinal fine adjustment driving mechanism (72) fixed on the first sliding seat (6), a cutting driving belt mechanism (74) and a cutting motor (73) which are fixed on the longitudinal fine adjustment driving mechanism (72) and connected with each other, and a cutting blade (75) connected with the cutting driving belt mechanism (74); the cutting line of the cutting blade (75) coincides with the infrared rays emitted by the infrared emission probe (81).

2. An artificial stone slab cutting device as claimed in claim 1, characterized in that said cutting means (7) further comprise a transversal fine adjustment driving means (71) having the same structure as the longitudinal fine adjustment driving means (72); the transverse fine adjustment driving mechanism (71) is fixed between the first sliding seat (6) and the longitudinal fine adjustment driving mechanism (72).

3. An artificial stone slab cutting device as claimed in claim 1, characterized in that a protection shield (76) is provided on the outside of the cutting blade (75).

4. The artificial stone slab surface cutting device as claimed in claim 2, wherein the transverse fine adjustment driving mechanism (71) comprises a mounting seat (701) fixed on the first sliding seat (6), two first sliding rails (702) fixed on the mounting seat (701) along the transverse direction, a plurality of second sliding blocks (703) slidably sleeved on the first sliding rails (702), a screw rod seat (704) fixed on the end of the mounting seat (701) and disposed between the two first sliding rails (702) in a one-to-one correspondence manner, a screw rod (705) rotatably sleeved on the screw rod seat (704), a motor mounting seat (707) fixed on one end of the mounting seat (701), a second driving advancing motor (708) fixed on the motor mounting seat (707), a first belt pulley (709) connected with the second driving advancing motor (708), and a second belt pulley (711) connected with one end of the screw rod (705), the belt (710) is connected between the first belt pulley (709) and the second belt pulley (711), the second sliding seat (712) is fixed on the second sliding block (703), and the screw rod nut seat (706) is sleeved on the screw rod (705) and is fixedly connected with the second sliding seat (712).

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