CN214773144U - Five axle bridges cut lathe convenient to location - Google Patents

Abstract

The utility model relates to a technical field of slabstone processing, a lathe is cut to five axle bridges convenient to location is disclosed, which comprises a base, organism and workstation, the organism sets up the one side of keeping away from ground at the base, the workstation is connected with the base and the workstation is located the one side that the organism is close to the base, the workstation includes the support, promote mechanism and bearing mechanism, workstation and base fixed connection, bearing mechanism connects the one end of keeping away from the base at the workstation, the one end that the base was kept away from to the support has been seted up and has been held the chamber, promote mechanism is located and holds the intracavity and promote mechanism and be connected with the support, it includes lifting unit to promote mechanism, connecting plate and a plurality of universal wheel, the connecting plate passes through lifting unit and is connected with the support, one side of lifting unit is kept away from at the connecting plate to a plurality of universal wheel equipartitions, the universal wheel is connected with the connecting plate, bearing mechanism sets up the hole of stepping down that a plurality of confession universal wheel passed. This application has the effect that improves the convenience of fixing a position the great slabstone of volume on the lathe.

Description

Five axle bridges cut lathe convenient to location

Technical Field

The application relates to the field of stone plate processing, in particular to a five-axis bridge cutting machine tool convenient to locate.

Background

The five-axis bridge cutting machine is a stone cutting device, and can be used for cutting other materials such as wood and the like. After the stone is preliminarily manufactured, the stone slab with a large area is generally manufactured firstly for convenient transportation, so that the stone slab is convenient to transport. After the stone is conveyed to a processing factory, the large stone plate is further cut and processed into a required shape by a five-axis bridge cutting machine.

At present, the utility model discloses a chinese utility model patent application of publication number CN211164726U discloses a positioner of five axle bridge cutting machines, including organism and workstation, a plurality of planks have been laid to the workstation upside, leave the sliding tray between a plurality of planks interval sets up and the adjacent plank, all slide in a plurality of sliding trays and be provided with the sliding block, it has the pin to articulate on the sliding block, all be equipped with the gliding sliding subassembly of a plurality of sliding blocks of drive respectively in a plurality of sliding trays, all go up the locating part that has the limit pin turned angle on a plurality of sliding blocks, and the biggest turned angle of locating part restriction sliding block is ninety degrees.

In view of the above-mentioned related art, the inventor believes that after the stone slab is placed on the workbench, the stone slab needs to be positioned by moving the stone slab to facilitate subsequent processing; when the size of the stone slab is larger, the defect that the stone slab with larger size is inconvenient to move after being placed on the workbench exists.

SUMMERY OF THE UTILITY MODEL

In order to alleviate the inconvenient problem of the great slabstone location of volume on the lathe, this application provides a five axle bridge cuts lathe convenient to location.

The application provides a five axle bridge cut lathe convenient to location adopts following technical scheme:

a five-axis bridge cutting machine tool convenient for positioning comprises a base, a machine body and a workbench, wherein the machine body is arranged on one side of the base far away from the ground, the workbench is connected with the base and is positioned on one side of the machine body close to the base, the workbench comprises a support, a pushing and lifting mechanism and a supporting mechanism, the workbench is fixedly connected with the base, the supporting mechanism is connected with one end of the workbench far away from the base, an accommodating cavity is arranged at one end of the support far away from the base, the pushing and lifting mechanism is positioned in the accommodating cavity and connected with the support, the pushing and lifting mechanism comprises a lifting component, a connecting plate and a plurality of universal wheels, the connecting plate is connected with the support through the lifting component, the universal wheels are uniformly distributed on one side of the connecting plate far away from the lifting component, the universal wheel is connected with the connecting plate, a plurality of abdicating holes for the universal wheel to pass are formed in the bearing mechanism.

Through adopting above-mentioned technical scheme, after bearing mechanism was placed to the slabstone on, utilize lifting unit drive connecting plate to rise, the universal wheel promoted the slabstone under the drive of connecting plate, made slabstone and the separation of bearing mechanism, frictional force is less between slabstone and the universal wheel, is convenient for remove the slabstone, and after the slabstone location finishes, lifting unit drove the connecting plate and descends, makes slabstone be connected with bearing mechanism, improves the convenience of slabstone location.

Optionally, the lifting assembly comprises four electric push rods, the cross section of the connecting plate is rectangular, the four electric push rods are connected to the positions, close to four corners on one side of the support, of the connecting plate respectively, the electric push rods are fixedly connected with the support, and the telescopic rods of the electric push rods are connected with the connecting plate.

Through adopting above-mentioned technical scheme, utilize electric putter's flexible drive connecting plate to go up and down, electric putter's stroke control is convenient, improves the stability of pushing away the mechanism work that rises.

Optionally, the bearing mechanism includes the connection frame and is used for the wooden loading board with the slabstone butt, the connection frame is connected with the support, wooden loading board is connected in the one side that the support was kept away from to the connection frame, the hole of stepping down is seted up on wooden loading board.

Through adopting above-mentioned technical scheme, utilize wooden loading board and slabstone butt, at the in-process of slabstone cutting, the cutter can touch with the workstation unavoidably, and wooden loading board texture is softer, reduces the cutter because of touching the possibility of damaging with the workstation.

Optionally, the wood bearing plate comprises a plurality of wood plates, the wood plates are arranged at equal intervals, and the abdicating holes are formed in the wood plates.

By adopting the technical scheme, the wood bearing plate consists of a plurality of wood plates, the wood bearing plate can be damaged after the cutter is contacted with the wood bearing plate, and the damaged wood bearing plate can influence the cutting effect of the follow-up stone plate; when the wood bearing plate is contacted with the cutter, the damaged wood plate can be replaced independently, and resources are saved.

Optionally, all be provided with stop gear on the lateral wall of splice frame, stop gear includes the stopper, the stopper rotates with the lateral wall of splice frame to be connected.

Through adopting above-mentioned technical scheme, rotate on the lateral wall of linking frame and connect the stopper, utilize the stopper to restrict the removal of slabstone, reduce the possibility that the in-process slabstone that removes carries out breaks away from the workstation to the slabstone, improve the security that five axle bridge cut lathe used.

Optionally, the limiting block is in threaded connection with a self-locking bolt, the rotation axis of the self-locking bolt is perpendicular to the limiting block, and one end of the self-locking bolt abuts against the connecting frame.

Through adopting above-mentioned technical scheme, after the stopper rotated the operating position, rotating self-locking bolt made its one end and connecting frame butt, utilized self-locking bolt to restrict the rotation of stopper, improved the stability of stopper during operation.

Optionally, the connecting frame is hinged to the support through a hinge, an electric pushing cylinder is arranged on the side wall of the support and hinged to the support, and an expansion rod of the electric pushing cylinder is hinged to the connecting frame.

Through adopting above-mentioned technical scheme, the connection box can overturn under the promotion of electric propulsion jar, when placing the slabstone on to the workstation, rotates vertical state with wooden loading board, is connected the slabstone of vertical state hoist and mount with wooden loading board again, utilizes spacingly to carry out the bearing to the slabstone, and the telescopic link shrink of electric propulsion jar makes wooden loading board rotate the horizontality, realizes the material loading of slabstone, improves the convenience of slabstone material loading.

Optionally, the organism includes portal frame and cutting mechanism, the portal frame is connected with the base, cutting mechanism includes sliding block, connecting block and the cutting assembly who is used for processing slabstone, connecting block and glide machanism sliding connection, sliding block and connecting block sliding connection, cutting assembly rotates with the sliding block to be connected, the one end that the sliding block is close to the support is provided with negative pressure assembly, negative pressure assembly includes sucking disc and negative-pressure air fan, sucking disc fixed connection is close to the one end of support at the sliding block, negative-pressure air fan is connected with the base, negative-pressure air fan passes through hose and sucking disc intercommunication.

Through adopting above-mentioned technical scheme, push away lift mechanism with slabstone and bearing mechanism separation back, utilize the sliding block to drive the sucking disc to slide to the direction of being close to the workstation, make sucking disc and slabstone butt, negative-pressure air fan work makes sucking disc and slabstone fixed connection, utilizes the portal frame to remove the connecting block to drive the slabstone and remove, further improve the convenience and the security of slabstone location.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the supporting mechanism is provided with the pushing and lifting mechanism on one side close to the support, the pushing and lifting mechanism comprises a lifting component, a connecting plate and a plurality of universal wheels, when the stone slab is placed on the supporting mechanism, the lifting component is used for driving the connecting plate to ascend, the universal wheels are used for pushing the stone slab under the driving of the connecting plate, so that the stone slab is separated from the supporting mechanism, the friction force between the stone slab and the universal wheels is small, the stone slab is convenient to move, after the stone slab is positioned, the lifting component drives the connecting plate to descend, the stone slab is connected with the supporting mechanism, and the convenience of stone slab positioning is improved;

2. the wood bearing plate is abutted against the stone plate, so that the cutter is difficult to contact with the workbench in the cutting process of the stone plate, the wood bearing plate is soft in texture, and the possibility of damage caused by the contact of the cutter and the workbench is reduced;

3. through rotating on the lateral wall at the linking frame and connecting the stopper, when removing slabstone, utilize the stopper to restrict the removal of slabstone, reduce the possibility that the in-process slabstone that removes carries out breaks away from the workstation to slabstone, improve the security that five axle bridges cut the lathe and use.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of a portion of a support mechanism according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a pushing and lifting mechanism part and a negative pressure component part according to an embodiment of the application.

Reference numerals: 100. a base; 200. a body; 210. a gantry; 220. a cutting mechanism; 221. a slider; 222. connecting blocks; 223. a cutting assembly; 224. a negative pressure assembly; 225. a suction cup; 226. a negative pressure fan; 227. a hose; 300. a work table; 310. a support; 311. an accommodating chamber; 320. a push-up mechanism; 321. a lifting assembly; 322. an electric push rod; 323. a connecting plate; 324. a universal wheel; 330. a support mechanism; 331. a connecting frame; 332. a wooden bearing plate; 333. a wooden board; 334. a hole of abdication; 335. a limiting mechanism; 336. a limiting block; 337. a self-locking bolt; 338. a hinge; 339. and (4) electrically pushing the cylinder.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses five axle bridge cuts lathe convenient to location. Referring to fig. 1, a five-axis bridge cutting machine tool convenient for positioning comprises a base 100, and a workbench 300 for placing a stone plate is fixedly connected above the base 100. The machine body 200 fixedly connected to the base 100 is disposed above the worktable 300, and the machine body 200 is used to cut and process the stone slab placed on the worktable 300.

The workbench 300 comprises a support 310 fixedly connected with the base 100, a supporting mechanism 330 is connected above the support 310, the supporting mechanism 330 comprises a connecting frame 331, one end of the connecting frame 331 is hinged to the support 310 through a hinge 338, two side walls of one end, far away from the hinged position of the support 310 and the connecting frame 331, of the support 310 are hinged to an electric pushing cylinder 339, and a telescopic rod of the electric pushing cylinder 339 is hinged to the connecting frame 331.

One side of the connecting frame 331, which is far away from the support 310, is fixedly connected with a wood bearing plate 332, the wood bearing plate 332 is composed of a plurality of wood plates 333, and the plurality of wood plates 333 are arranged at equal intervals along the length direction of the connecting frame 331. The wooden plate 333 is provided with a plurality of abdicating holes 334, and the abdicating holes 334 are arranged along the length direction of the wooden plate 333 at equal intervals.

All be connected with stop gear 335 on the lateral wall of coupling frame 331, stop gear 335 includes two stopper 336 of being connected with coupling frame 331 rotation, and the axis of rotation of stopper 336 is parallel with the plane that coupling frame 331 is located, and stopper 336 threaded connection has self-locking bolt 337, and the axis of rotation of self-locking bolt 337 is parallel with the axis of rotation of stopper 336.

When placing slabstone on to workstation 300, the telescopic link extension of electric push cylinder 339 utilizes electric push cylinder 339 to rotate wooden loading board 332 to vertical state, rotates stopper 336 and makes stopper 336 perpendicular with wooden loading board 332, and rotating auto-lock bolt 337 makes its one end and connecting frame 331 butt, utilizes auto-lock bolt 337 to restrict the rotation of stopper 336, improves the stability of stop gear 335 work. The stone slab hoisted in the vertical state is abutted against the wood bearing plate 332, and the limit block 336 is used for bearing the stone slab; after the slate and the wooden bearing plate 332 are abutted, the telescopic rod of the electric pushing cylinder 339 contracts to enable the wooden bearing plate 332 to rotate to a horizontal state, so that the feeding of the slate is completed, and the operation is convenient and fast in the feeding process of the slate.

By utilizing the fact that the wooden bearing plate 332 consisting of the plurality of wooden plates 333 is abutted against the stone plate, the cutter is inevitably in contact with the workbench 300 in the cutting process of the stone plate, the wooden plates 333 are soft in texture, and the possibility that the cutter is damaged due to contact with the workbench 300 is reduced; the wood plate 333 can be damaged after the cutter touches the wood plate 333, the damaged wood plate 333 can influence the cutting effect of the stone plate, and the damaged wood plate 333 can be replaced independently, so that resources are saved.

Referring to fig. 2 and 3, the upper end of the support 310 is provided with an accommodating cavity 311, the accommodating cavity 311 is located below the wood bearing plate 332, a supporting mechanism 330 is fixedly connected above the support 310, and the supporting mechanism 330 is located in the accommodating cavity 311. The supporting mechanism 330 includes a lifting member 321, and the lifting member 321 is fixedly connected to the support 310. Lifting unit 321 top fixed connection has the connecting plate 323 of horizontal setting, and the cross section of connecting plate 323 is the rectangle, and lifting unit 321 includes four electric putter 322, and four electric putter 322 are connected respectively and are close to the position in support 310 one side four corners at connecting plate 323, and electric putter 322 and support 310 fixed connection, electric putter 322's telescopic link and the perpendicular fixed connection of connecting plate 323. The connecting plate 323 is connected with a plurality of universal wheels 324, and the plurality of universal wheels 324 and the plurality of abdicating holes 334 are arranged in a one-to-one correspondence manner.

After wooden loading board 332 placed the slabstone rotated the horizontality, utilize lifting unit 321 drive connecting plate 323 to rise, universal wheel 324 promotes the slabstone under connecting plate 323's drive, make slabstone and wooden loading board 332 separation, frictional force is less between slabstone and the universal wheel 324, be convenient for remove the slabstone, the slabstone location back that finishes, lifting unit 321 drives connecting plate 323 and descends, make slabstone and wooden loading board 332 be connected, improve the convenience of slabstone location. The limiting blocks 336 connected to the four side walls of the connecting frame 331 are used for limiting the movement of the stone slab, the possibility that the stone slab is separated from the workbench 300 in the process of moving the stone slab is reduced, and the use safety of the five-axis bridge cutting machine tool is improved.

Referring to fig. 1 and 3, the machine body 200 includes a gantry 210 fixedly connected to the base 100, and the gantry 210 is slidably connected to a cutting mechanism 220. The cutting mechanism 220 includes a connecting block 222 slidably connected to the gantry 210, and the connecting block 222 is slidably connected to a sliding block 221 through a conventional motor screw structure. The sliding block 221 is rotatably connected with a cutting assembly 223 for cutting the stone slab. A negative pressure component 224 is connected below the sliding block 221, the negative pressure component 224 comprises two suckers 225, the two suckers 225 are respectively positioned at two sides of the cutting component 223, and the suckers 225 are fixedly connected with the sliding block 221; a negative pressure fan 226 is fixedly connected to the upper side of the base 100, and the negative pressure fan 226 is communicated with the two suckers 225 through a hose 227.

After the stone plate is separated from the supporting mechanism 330 by the pushing and lifting mechanism 320, the suction cup 225 is driven by the sliding block 221 to slide towards the direction close to the workbench 300, so that the suction cup 225 is abutted against the stone plate, and the suction cup 225 is fixedly connected with the stone plate by the operation of the negative pressure fan 226; utilize portal frame 210 to remove connecting block 222, connecting block 222 removes and drives the slabstone and remove to further improve the convenience and the security of slabstone location.

The implementation principle of the five-axis bridge cutting machine tool convenient to position is as follows: by arranging the pushing and lifting mechanism 320 below the bearing mechanism 330, when the wooden bearing plate 332 with the stone plate is rotated to be in a horizontal state, the pushing and lifting mechanism 320 is utilized to push the stone plate to move upwards, so that the stone plate is separated from the wooden bearing plate 332, and the friction force between the stone plate and the universal wheels 324 is small, so that the stone plate is convenient to move; after the stone plate is separated from the supporting mechanism 330 by the pushing and lifting mechanism 320, the suction cup 225 is driven by the sliding block 221 to slide towards the direction close to the workbench 300, so that the suction cup 225 is abutted against the stone plate, and the suction cup 225 is fixedly connected with the stone plate by the operation of the negative pressure fan 226; the portal frame 210 is used for moving the connecting block 222, and the connecting block 222 moves to drive the stone plate to move; after the positioning of the stone slab is completed, the telescopic rod of the electric push rod 322 is contracted, so that the stone slab is abutted to the wood bearing plate 332.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a lathe is cut to five axles bridge convenient to location which characterized in that: comprises a base (100), a machine body (200) and a workbench (300), wherein the machine body (200) is arranged on one side of the base (100) far away from the ground, the workbench (300) is connected with the base (100) and the workbench (300) is positioned on one side of the machine body (200) close to the base (100), the workbench (300) comprises a support (310), a pushing and lifting mechanism (320) and a bearing mechanism (330), the workbench (300) is fixedly connected with the base (100), the bearing mechanism (330) is connected with one end of the workbench (300) far away from the base (100), one end of the support (310) far away from the base (100) is provided with a containing cavity (311), the pushing and lifting mechanism (320) is positioned in the containing cavity (311) and connected with the support (310), the pushing and lifting mechanism (320) comprises a lifting component (321), a connecting plate (323) and a plurality of universal wheels (324), connecting plate (323) are connected, a plurality of through lifting unit (321) and support (310) universal wheel (324) equipartition is kept away from one side of lifting unit (321) at connecting plate (323), universal wheel (324) are connected with connecting plate (323), a plurality of holes of stepping down (334) that supply universal wheel (324) to pass have been seted up in bearing mechanism (330).

2. The five-axis bridge cutting machine tool facilitating positioning according to claim 1, wherein: lifting unit (321) includes four electric putter (322), the cross section of connecting plate (323) is the rectangle, four electric putter (322) are connected respectively and are close to the position in support (310) one side four corners in connecting plate (323), electric putter (322) and support (310) fixed connection, electric putter (322)'s telescopic link is connected with connecting plate (323).

3. The five-axis bridge cutting machine tool facilitating positioning according to claim 1, wherein: bearing mechanism (330) include connection frame (331) and be used for wooden loading board (332) with the slabstone butt, connection frame (331) are connected with support (310), one side of keeping away from support (310) at connection frame (331) is connected in wooden loading board (332), set aside hole (334) and offer on wooden loading board (332).

4. The five-axis bridge cutting machine tool facilitating positioning according to claim 3, wherein: the wooden bearing plate (332) comprises a plurality of wooden plates (333), the wooden plates (333) are arranged at equal intervals, and the abdicating holes (334) are formed in the wooden plates (333).

5. The five-axis bridge cutting machine tool facilitating positioning according to claim 4, wherein: all be provided with stop gear (335) on the lateral wall of connecting frame (331), stop gear (335) include stopper (336), stopper (336) are connected with the lateral wall of connecting frame (331) rotation.

6. The five-axis bridge cutting machine tool facilitating positioning according to claim 5, wherein: the limiting block (336) is in threaded connection with a self-locking bolt (337), the rotating axis of the self-locking bolt (337) is perpendicular to the limiting block (336), and one end of the self-locking bolt (337) is abutted to the connecting frame (331).

7. The five-axis bridge cutting machine tool facilitating positioning according to claim 6, wherein: the connecting frame (331) is articulated with support (310) through hinge (338), be provided with electric push cylinder (339) on the lateral wall of support (310), electric push cylinder (339) are articulated with support (310), electric push cylinder's (339) telescopic link is articulated with connecting frame (331).

8. The five-axis bridge cutting machine tool facilitating positioning according to claim 1, wherein: the machine body (200) comprises a portal frame (210) and a cutting mechanism (220), the portal frame (210) is connected with the base (100), the cutting mechanism (220) comprises a sliding block (221), a connecting block (222) and a cutting component (223) for processing the stone plate, the connecting block (222) is connected with the portal frame (210) in a sliding way, the sliding block (221) is connected with the connecting block (222) in a sliding way, the cutting component (223) is rotationally connected with the sliding block (221), one end of the sliding block (221) close to the support (310) is provided with a negative pressure component (224), the negative pressure component (224) comprises a suction cup (225) and a negative pressure fan (226), the sucker (225) is fixedly connected with one end of the sliding block (221) close to the support (310), the negative pressure fan (226) is connected with the base (100), and the negative pressure fan (226) is communicated with the suction cup (225) through a hose (227).

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