CN217993043U - Numerical control stone cutting machine and stone production line - Google Patents

Abstract

The utility model provides a numerical control stone cutting machine and stone material production line belongs to stone material processing technology field. Including moving the placement table and cutting structure. The movable placing table comprises a base, a placing plate, a screw rod assembly, a mounting frame, two sliding rods, two sliding blocks and two connecting rods, wherein the placing plate is fixedly mounted on the base; can require to adjust the direction of processing according to the slabstone cutting, when fluted disc and gear assembly intermeshing through the epaxial installation of pivot, can improve the flexibility of slabstone cutting along with the processing angle of cutting direction regulation cutting blade.

Description

Numerical control stone cutting machine and stone production line

Technical Field

The utility model relates to a stone material processing technology field particularly, relates to a numerical control stone material cutting machine and stone material production line.

Background

The stone is used as a high-grade building decoration material and widely applied to indoor and outdoor decoration design, curtain wall decoration and public facility construction, and one of the stone slabs and stones is a stone which is formed by chiseling or sawing compact rocks and has the thickness of generally 20mm, is usually used as a facing material and is generally processed from marble and granite.

If the chinese patent with publication number CN206510221U, it discloses a numerical control stone cutting machine, the output shaft of tool bit motor is installed in the middle part of saw disc, every sawtooth includes the saw edge, the thickness of saw edge is greater than the thickness of saw disc, be provided with the opening on the saw disc between two adjacent sawteeth, the opening includes the peripheral bar mouth that runs through the saw disc and the circular mouth that communicates with the bar mouth, pressure-bearing device is including bearing plate and the rotating device who is used for placing the stone material, rotating device sets up in the below of bearing plate and is connected with the bearing plate, rotating device and tool bit motor all are connected with control system electricity.

The numerical control stone cutting machine has the advantages that the strength of the saw blade is high, and the saw blade is not easy to damage; however, the above-mentioned numerical control stone cutting machine still has some disadvantages, such as: can only carry out one side horizontal direction cutting to the stone material, can't adjust cutting blade's the direction of coincidence, lead to can not cutting the opposite side horizontal direction of stone material, the poor unsatisfied stone material processing demand of flexibility performance.

SUMMERY OF THE UTILITY MODEL

In order to compensate above not enough, the utility model provides a numerical control stone cutting machine and stone material production line aims at improving and can only carry out one side horizontal direction cutting to the stone material, and the direction of coincidence of unable cutting blade of adjusting leads to can not cutting the opposite side horizontal direction of stone material, and the poor unsatisfied stone material processing demand problem of flexibility performance.

The embodiment of the utility model provides a numerical control stone cutting machine, place platform and cutting structure including the removal.

The movable placing table comprises a base, a placing plate, a screw rod assembly, a mounting frame, two sliding rods, two sliding blocks and two connecting rods, wherein the placing plate is fixedly mounted on the base;

the cutting structure includes electronic slip table, axostylus axostyle, drive assembly, pivot, cutting blade, fluted disc, gear assembly and two servo electric jar, two servo electric jar is all installed on the mounting bracket, and with the last fixed surface of electronic slip table is connected, the upper end of axostylus axostyle is passed through the bearing and is rotated and install electronic slip table is last, and the lower extreme with drive assembly fixed connection, the fluted disc is installed on the axostylus axostyle, and with gear assembly intermeshing, the gear assembly is installed electronic slip table is last, cutting blade is installed in the pivot, the one end of pivot is passed through the bearing and is rotated and install on the gear assembly.

In the aforesaid realizes the in-process, when two connecting rods that the lead screw subassembly is connected are fixed with the slider, conveniently drive the slider and steadily slide on two slide bars, conveniently adjust the cutting structure horizontal migration position on the mounting bracket, thereby cut one side horizontal direction to the slabstone, it is rotatory that drive assembly drives the pivot, thereby it is rotatory to drive cutting blade, conveniently cut the processing to the slabstone, the depth of cut through two servo electric jar convenient regulation cutting blade, horizontal position through electric sliding table convenience regulation cutting blade, behind the cutting blade angle modulation, thereby cut the opposite side horizontal direction of slabstone, can require the direction of adjusting processing according to the slabstone cutting, during fluted disc and gear assembly intermeshing through installing in the pivot, can be along with cutting direction regulation cutting blade's processing angle, improve the flexibility of slabstone cutting.

In a specific embodiment, the lead screw subassembly includes first servo motor, silk member and thread bush, the both ends of silk member all rotate through the bearing and install on the base, and with thread bush threaded connection, first servo motor fixed mounting be in on the base, and through the shaft coupling with lead screw member transmission is connected, the one end of connecting rod is installed on the thread bush.

In the implementation process, the first servo motor drives the screw rod piece to rotate through the coupler, so that the threaded sleeve is driven to move, and the two sliding blocks are conveniently driven to move in the horizontal direction through the two connecting rods.

In a specific embodiment, the periphery of the placing plate is fixedly provided with an L-shaped limiting block respectively.

In the above-mentioned realization process, conveniently carry on spacingly to the slabstone through L type stopper, improve the fastness of placing.

In a specific embodiment, drive assembly includes second servo motor, mounting panel and hold-in range, the second servo motor is installed the lower extreme of axostylus axostyle, mounting panel fixed mounting be in on the second servo motor's the side surface, and through the bearing with the pivot is rotated and is connected, the both sides of hold-in range suit respectively the second servo motor's output with on the input of pivot.

In the above-mentioned realization process, the output of second servo motor passes through the hold-in range and drives the pivot rotation of installing on the mounting panel to drive cutting blade operation, the convenience is cut the slabstone.

In a specific embodiment, the gear assembly includes a third servo motor and a gear member, the third servo motor is installed on the side surface of the electric sliding table, and is fixedly connected with the gear member, and the gear member is engaged with the fluted disc.

In the implementation process, the third servo motor is fixedly connected with the gear piece, and when the gear piece is meshed with the fluted disc, the cutting angle of the cutting blade is conveniently adjusted, and the flexibility of cutting is improved.

In a specific embodiment, the two sides of the mounting plate are fixedly provided with connecting blocks, and the connecting blocks are provided with protective covers.

In the implementation process, the protective cover is convenient to install on the mounting plate through the connecting block, the protection performance on the cutting blade is improved, and the flying of dust is reduced.

In a specific embodiment, a serpentine water pipe is installed on the mounting plate, and a water outlet of the serpentine water pipe is located at one side of the cutting blade.

In the implementation process, the position of water spraying is conveniently adjusted through the snake-shaped water service pipe, and the cooling dust settling effect is improved.

A stone production line comprises the numerical control stone cutting machine.

Compared with the prior art, the beneficial effects of the utility model are that:

in this numerical control marble cutter, when two connecting rods that the lead screw subassembly is connected are fixed with the slider, conveniently drive the slider and steadily slide on two slide bars, conveniently adjust the cutting structure horizontal migration position on the mounting bracket, thereby cut one side horizontal direction to the slabstone, it is rotatory that drive assembly drives the pivot, thereby it is rotatory to drive cutting blade, conveniently cut the processing to the slabstone, the cutting depth degree of cutting blade is conveniently adjusted through two servo electric jar, conveniently adjust cutting blade's horizontal position through electronic slip table, cutting blade angle modulation back, thereby cut the opposite side horizontal direction of slabstone, can require the direction of adjusting processing according to the slabstone cutting, during fluted disc and gear assembly intermeshing through installing in the pivot, can adjust cutting blade's angle of processing along with the cutting direction, improve the flexibility of slabstone cutting.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings which are required 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, and that for those skilled in the art, other related drawings can be obtained according to these drawings without inventive efforts.

Fig. 1 is one of the schematic structural diagrams provided by the embodiment of the present invention;

fig. 2 is a second schematic structural diagram according to an embodiment of the present invention;

fig. 3 is a schematic view of a cutting structure provided in an embodiment of the present invention;

fig. 4 is a partially enlarged view of a portion a in fig. 3.

In the figure: 10. moving the placing table; 110. a base; 120. placing the plate; 121. an L-shaped limiting block; 130. a screw assembly; 131. a first servo motor; 132. a wire rod member; 133. a threaded sleeve; 140. a mounting frame; 150. a slide bar; 160. a slider; 170. a connecting rod; 20. cutting the structure; 210. an electric sliding table; 220. a shaft lever; 230. a transmission assembly; 231. a second servo motor; 232. mounting a plate; 2321. connecting blocks; 23211. a protective cover; 2322. a serpentine water pipe; 233. a synchronous belt; 240. a rotating shaft; 250. a cutting blade; 260. a fluted disc; 270. a gear assembly; 271. a third servo motor; 272. a gear member; 280. and a servo electric cylinder.

Detailed Description

The technical solution in the embodiment of the present invention will be described below with reference to the accompanying drawings in the embodiment of the present invention.

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Slabstone is processed into the stone that the size and size is the same, need to adjust the horizontal migration stroke and the opposite side horizontal migration stroke of one side of cutting equipment, adjust cutting blade 250's angle simultaneously, when two connecting rods 170 that accommodate the lead screw subassembly 130 is connected are fixed with slider 160, drive slider 160 and steadily slide on two slide bars 150, adjust the 20 horizontal migration positions of cutting structure on the mounting bracket 140, thereby cut one side horizontal direction to slabstone, when fluted disc 260 and the gear assembly 270 of installation on the pivot 240 intermeshing, can adjust cutting blade 250's processing angle along with the cutting direction, cutting blade 250's cutting depth is adjusted to two servo electric cylinder 280, adjust cutting blade 250's horizontal position through electronic slip table 210, cutting blade 250 angle adjusts the back, thereby cut the opposite side horizontal direction to slabstone, can require the direction of adjusting process according to the slabstone cutting, realize the nimble purpose of cutting.

Referring to fig. 1-4, the present invention provides a numerical control stone cutting machine, which comprises a movable placing table 10 and a cutting structure 20.

The movable placing table 10 comprises a base 110, a placing plate 120, a screw rod assembly 130, a mounting frame 140, two sliding rods 150, two sliding blocks 160 and two connecting rods 170, wherein the placing plate 120 is fixedly installed on the base 110, the two sliding rods 150 are respectively installed on two sides of the base 110 and are in sliding connection with the two sliding blocks 160, the screw rod assembly 130 is installed below the base 110 and is fixedly connected with the two connecting rods 170, the screw rod assembly 130 comprises a first servo motor 131, a screw rod member 132 and a threaded sleeve 133, two ends of the screw rod member 132 are rotatably installed on the base 110 through bearings and are in threaded connection with the threaded sleeve 133, the first servo motor 131 is fixedly installed on the base 110 and is in transmission connection with the screw rod member 132 through a coupler, one end of each connecting rod 170 is installed on the threaded sleeve 133, the first servo motor 131 drives the screw rod member 132 to rotate through the coupler so as to drive the threaded sleeve 133 to move, the two connecting rods 170 conveniently drive the two sliding blocks 160 to move in the horizontal direction, one side of each connecting rod 170 is fixed on one sliding block 160, and the mounting frame 140 is installed on the two sliding blocks 160;

the cutting structure 20 includes an electric sliding table 210, a shaft rod 220, a transmission assembly 230, a rotating shaft 240, a cutting blade 250, a fluted disc 260, a gear assembly 270 and two servo electric cylinders 280, wherein the two servo electric cylinders 280 are both installed on the installation frame 140 and fixedly connected with the upper surface of the electric sliding table 210, the upper end of the shaft rod 220 is rotatably installed on the electric sliding table 210 through a bearing, and the lower end of the shaft rod is fixedly connected with the transmission assembly 230, the transmission assembly 230 includes a second servo motor 231, an installation plate 232 and a synchronous belt 233, the second servo motor 231 is installed at the lower end of the shaft rod 220, the installation plate 232 is fixedly installed on the side surface of the second servo motor 231 and rotatably connected with the rotating shaft 240 through a bearing, two sides of the synchronous belt 233 are respectively sleeved on the output end of the second servo motor 231 and the input end of the rotating shaft 240, the output end of the second servo motor 231 drives the rotating shaft 240 installed on the installation plate 232 to rotate through the synchronous belt 233, thereby driving the cutting blade 250 to operate, facilitating cutting of the slate, the gear disc 260 is installed on the shaft lever 220 and is engaged with the gear assembly 270, the gear assembly 270 includes a third servo motor 271 and a gear 272, the third servo motor 271 is installed on the side surface of the electric sliding table 210 and is fixedly connected with the gear 272, the gear 272 is engaged with the gear disc 260, the third servo motor 271 is fixedly connected with the gear 272, when the gear 272 is engaged with the gear disc 260, facilitating adjustment of the cutting angle of the cutting blade 250, improving the cutting flexibility, the gear assembly 270 is installed on the electric sliding table 210, the cutting blade 250 is installed on the rotating shaft 240, one end of the rotating shaft 240 is rotatably installed on the gear assembly 270 through a bearing, when the two connecting rods 170 connected with the screw rod assembly 130 are fixed with the sliding blocks 160, facilitating driving of the sliding blocks 160 to slide smoothly on the two sliding rods 150, conveniently adjust the 20 horizontal migration positions of cutting structure on the mounting bracket 140, thereby cut one side horizontal direction to the slabstone, drive assembly 230 drives pivot 240 rotatoryly, thereby it is rotatory to drive cutting blade 250, the convenience is cut the processing to the slabstone, conveniently adjust cutting blade 250's depth of cut through two servo electric jar 280, conveniently adjust cutting blade 250's horizontal position through electronic slip table 210, cutting blade 250 angle modulation back, thereby cut the opposite side horizontal direction of slabstone, can require the direction of adjusting processing according to the slabstone cutting, when fluted disc 260 through the installation on the pivot 240 and gear assembly 270 intermeshing, can adjust cutting blade 250's processing angle along with the cutting direction, improve the flexibility of slabstone cutting.

In this application, place board 120 all around respectively fixed mounting have L type stopper 121, conveniently carry on spacingly to the slabstone through L type stopper 121, improve the fastness of placing.

In this embodiment, the connecting blocks 2321 are fixedly mounted on both sides of the mounting plate 232, the protective cover 23211 is mounted on the connecting block 2321, and the protective cover 23211 is conveniently mounted on the mounting plate 232 through the connecting block 2321, so that the protection performance of the cutting blade 250 is improved, and the scattering of dust is reduced.

In a specific embodiment, the mounting plate 232 is provided with a serpentine water pipe 2322, the water outlet of the serpentine water pipe 2322 is located at one side of the cutting blade 250, and the serpentine water pipe 2322 is used for conveniently adjusting the position of water spraying, so that the cooling and dust-settling effects are improved.

A stone production line comprises a numerical control stone cutting machine.

The working principle of the numerical control stone cutting machine and the stone production line is as follows: place the slabstone that will treat the cutting on placing board 120, drive assembly 230 drives pivot 240 rotatory, thereby it is rotatory to drive cutting blade 250, adjust cutting blade 250's cutting depth through two servo electric cylinders 280, when two connecting rods 170 that lead screw subassembly 130 is connected are fixed with slider 160, drive slider 160 and steadily slide on two slide bars 150, adjust the cutting structure 20 horizontal migration position on the mounting bracket 140, thereby cut one side horizontal direction of slabstone, adjust cutting blade 250's horizontal position through electronic slip table 210, thereby adjust the cutting width, when fluted disc 260 and gear assembly 270 intermeshing through the installation on pivot 240, can adjust cutting blade 250's processing angle along with the cutting direction, adjust cutting blade 250 opposite side horizontal direction through electronic slip table 210 and cut.

It should be noted that the specific model specifications of the first servo motor, the electric sliding table, the second servo motor, the third servo motor and the electric servo cylinder need to be determined by type selection according to the actual specification of the device, and the specific type selection calculation method adopts the prior art in the field, so detailed description is omitted.

The above description is only an example of the present invention and is not intended to limit the scope of the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. A numerical control stone cutting machine is characterized by comprising

The movable placing table (10) comprises a base (110), a placing plate (120), a screw rod assembly (130), a mounting frame (140), two sliding rods (150), two sliding blocks (160) and two connecting rods (170), wherein the placing plate (120) is fixedly mounted on the base (110), the two sliding rods (150) are respectively mounted on two sides of the base (110) and are in sliding connection with the two sliding blocks (160), the screw rod assembly (130) is mounted below the base (110) and is fixedly connected with the two connecting rods (170), one sides of the two connecting rods (170) are fixed on the sliding blocks (160), and the mounting frame (140) is mounted on the two sliding blocks (160);

cutting structure (20), cutting structure (20) include electronic slip table (210), axostylus axostyle (220), drive assembly (230), pivot (240), cutting blade (250), fluted disc (260), gear assembly (270) and two servo electricity jar (280), two servo electricity jar (280) are all installed on mounting bracket (140), and with the last fixed surface of electronic slip table (210) is connected, the upper end of axostylus axostyle (220) is passed through the bearing and is rotated and install on electronic slip table (210), and the lower extreme with drive assembly (230) fixed connection, fluted disc (260) are installed on axostylus axostyle (220), and with gear assembly (270) intermeshing, gear assembly (270) are installed on electronic slip table (210), cutting blade (250) are installed on pivot (240), the one end of pivot (240) is passed through the bearing and is rotated and is installed on gear assembly (270).

2. The numerical control stone cutting machine according to claim 1, characterized in that the screw assembly (130) comprises a first servo motor (131), a screw member (132) and a threaded sleeve (133), both ends of the screw member (132) are rotatably mounted on the base (110) through bearings and are in threaded connection with the threaded sleeve (133), the first servo motor (131) is fixedly mounted on the base (110) and is in transmission connection with the screw member (132) through a coupling, and one end of the connecting rod (170) is mounted on the threaded sleeve (133).

3. The numerical control stone cutting machine according to claim 1, wherein L-shaped limiting blocks (121) are fixedly installed around the placing plate (120), respectively.

4. The numerical control stone cutting machine according to claim 1, wherein the transmission assembly (230) comprises a second servo motor (231), a mounting plate (232) and a synchronous belt (233), the second servo motor (231) is mounted at the lower end of the shaft rod (220), the mounting plate (232) is fixedly mounted on the side surface of the second servo motor (231) and is rotatably connected with the rotating shaft (240) through a bearing, and two sides of the synchronous belt (233) are respectively sleeved on the output end of the second servo motor (231) and the input end of the rotating shaft (240).

5. The numerical control stone cutting machine according to claim 1, wherein the gear assembly (270) comprises a third servo motor (271) and a gear member (272), the third servo motor (271) is installed on a side surface of the electric sliding table (210) and is fixedly connected with the gear member (272), and the gear member (272) and the fluted disc (260) are meshed with each other.

6. The numerical control stone cutting machine according to claim 4, wherein connecting blocks (2321) are fixedly installed on two sides of the installing plate (232), and a protective cover (23211) is installed on each connecting block (2321).

7. The numerical control stone cutting machine according to claim 4, wherein the mounting plate (232) is mounted with a serpentine water pipe (2322), and a water outlet of the serpentine water pipe (2322) is located at one side of the cutting blade (250).

8. A stone production line, characterized in that it comprises a numerical control stone cutting machine according to any one of claims 1 to 7.

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