CN222115583U - A basin hole rounding machine for countertop processing - Google Patents

Abstract

The utility model discloses a basin hole corner rounding machine for machining a deck plate, which comprises a plate bearing platform and a cutting device, wherein the plate bearing platform comprises a machine body, a conveying mechanism and a pressing mechanism, the conveying mechanism is assembled on the machine body, the pressing mechanism comprises a first pressing unit, a movable frame and a pressing sliding component, the pressing sliding component is arranged on one side of the conveying mechanism, the pressing sliding component is in transmission connection with the movable frame, the cutting device comprises a cutting machine head, the cutting machine head is arranged above the conveying mechanism, and a cutting tool is detachably connected with the cutting machine head. The basin hole round angle machine can select a proper cutting tool to be mounted on a cutting machine head according to actual conditions so as to carry out corresponding machining procedures, realize full-automatic machining of cutting, drilling and grinding of the plate, realize continuity action between the machining procedures, and avoid the need of taking down the plate again and placing the plate in another device again, thereby improving the machining efficiency.

Description

Basin Kong Yuanjiao machine for machining table top plate

Technical Field

The utility model relates to the field of deck plate processing equipment, in particular to a basin hole corner rounding machine for deck plate processing.

Background

At present, more and more people select artificial stone or natural stone as a countertop material of a kitchen or a bathroom, and the countertop of the kitchen or the bathroom generally needs to be provided with a countertop hole and the like on the surface of the artificial stone or the natural stone so as to install structures such as a vegetable basin, a hand basin, a faucet and the like.

In the prior art, most of the processing procedures of the basin hole are completed by independent equipment, namely, the processing procedures of cutting, grinding, drilling and the like of the basin hole are carried out by conveying a workpiece to be processed to appointed equipment, continuity cannot be formed between the procedures, so that the processing efficiency is low, and when the equipment of the next procedure is replaced, repositioning is required, and if deviation occurs in positioning, the processing quality is easily affected.

Disclosure of utility model

The utility model aims to provide a basin Kong Yuanjiao machine for machining a table top plate, which aims to solve the problem that the machining efficiency is low because the machining equipment for the basin holes of the table top plate cannot form consistency.

To achieve the purpose, the utility model adopts the following technical scheme:

The basin hole round angle machine for machining the table panel comprises a plate bearing platform and a cutting device, wherein the plate bearing platform comprises a machine body, a conveying mechanism and a pressing mechanism, wherein the conveying mechanism is assembled on the machine body and is used for conveying a workpiece to be machined;

The pressing mechanism comprises a first pressing unit, a movable frame and a pressing sliding assembly, wherein the pressing sliding assembly is arranged on one side of the conveying mechanism and is in transmission connection with the movable frame so as to drive the movable frame to move along the X-axis direction;

the cutting device comprises a cutting machine head, the cutting machine head is arranged above the conveying mechanism, and the cutting machine head is detachably connected with a cutting tool.

In the basin hole rounding machine for machining the deck plate, the first pressing unit is composed of a plurality of pressing assemblies, the pressing assemblies are arranged on the movable frame along the X-axis direction, each pressing assembly comprises a pressing seat, a pressing cylinder and a pressing baffle plate, each pressing seat is arranged on the machine body, each pressing cylinder and each pressing baffle plate are arranged on the corresponding pressing seat, each pressing baffle plate is located on one side of the driving end of each pressing cylinder, and a holding space is formed between each pressing baffle plate and the driving end of each pressing cylinder.

In the basin hole rounding machine for machining the table panel, the machine body is provided with a position adjusting mechanism, the position adjusting mechanism comprises a first adjusting unit and a second adjusting unit which are identical in structure, the first adjusting unit is arranged at the near end of the discharging end of the machine body, the second adjusting unit is arranged at the near end of the discharging end of the machine body, the first adjusting unit is provided with a first sliding seat and a second sliding seat, and the second adjusting unit is provided with a third sliding seat and a fourth sliding seat;

The conveying mechanism comprises a first belt unit and a second belt unit, wherein the first belt unit and the second belt unit are arranged side by side along the Y-axis direction, the near end of the feeding end of the first belt unit is assembled on a first sliding seat, the near end of the discharging end of the first belt unit is assembled on a third sliding seat, the near end of the feeding end of the second belt unit is assembled on a second sliding seat, and the near end of the discharging end of the second belt unit is assembled on a fourth sliding seat;

the first adjusting unit drives the first belt unit to move along the Y-axis direction through the first sliding seat and the third sliding seat, and drives the second belt unit to move along the Y-axis direction through the second sliding seat and the fourth sliding seat;

the pressing sliding assembly is arranged on the first adjusting unit and/or the second adjusting unit.

In the basin hole rounding machine for machining the table top plate, a first movable block is arranged at the bottom of the movable frame, a third avoidance cavity is formed in the middle of the first movable block, the compaction sliding assembly comprises a third driving belt, a third driven guide wheel 802 and a third driving motor, a fifth fixing seat and a sixth fixing seat are arranged in the third avoidance cavity, one end of the third driving belt is fixed to the fifth fixing seat, and the other end of the third driving belt is wound on the outer sides of driving ends of the third driven guide wheel 802 and the third driving motor and penetrates through the third avoidance cavity to be fixed to the sixth fixing seat.

In the basin hole rounding machine for machining the deck plate, the first adjusting unit further comprises a first driving assembly, a second driving assembly, a first belt carrier roller bracket, a second belt carrier roller bracket and a first adjusting rack; the first adjusting rack is arranged on the machine body, the first driving assembly and the second driving assembly are respectively arranged on the first adjusting rack, the first sliding seat is assembled on the driving end of the first driving assembly, and the first driving assembly drives the first sliding seat to horizontally move along the Y-axis direction;

The first belt carrier roller support is arranged on the first sliding seat, the near end of the feeding end of the first belt unit is connected with the first belt carrier roller support, and the near end of the feeding end of the second belt unit is connected with the second belt carrier roller support;

The second adjusting unit further comprises a third driving assembly, a fourth driving assembly, a third belt carrier roller bracket, a fourth belt carrier roller bracket and a second adjusting rack, wherein the second adjusting rack is arranged on the machine body, the third driving assembly and the fourth driving assembly are respectively arranged on the second adjusting rack, the third sliding seat is assembled on the driving end of the third driving assembly, and the third driving assembly drives the third sliding seat to horizontally move along the Y-axis direction;

The third belt carrier roller support is arranged on the third sliding seat, the near end of the discharging end of the first belt unit is connected with the third belt carrier roller support, and the near end of the discharging end of the second belt unit is connected with the fourth belt carrier roller support.

The basin hole rounding machine for machining the table top plate comprises two pressing sliding assemblies, one pressing sliding assembly is arranged on a first adjusting unit, the other pressing sliding assembly is arranged on a second adjusting unit, a second movable block is further arranged on the movable frame, the first movable block and the second movable block are identical in structure, the first movable block is slidably assembled on a first adjusting frame, the second movable block is slidably assembled on a second adjusting frame, the first movable block is connected with a driving end of the pressing sliding assembly located on the first adjusting unit, and the second movable block is connected with a driving end of the pressing sliding assembly located on the second adjusting unit.

In the basin hole rounding machine for machining the deck plate, the first driving component and the second driving component are arranged side by side; the first driving assembly comprises a first driving belt, a first driven guide wheel and a first driving motor, wherein the first driven guide wheel is assembled on one side of the first adjusting frame, the first driving motor is assembled on the other side of the first adjusting frame, the first sliding seat is provided with a first avoiding cavity, the second sliding seat is provided with a second avoiding cavity, the first avoiding cavity is provided with a first fixing seat and a second fixing seat, one end of the first driving belt is fixed on the first fixing seat, and the other end of the first driving belt is wound on the outer sides of the first driven guide wheel and the driving end of the first driving motor, penetrates through the second avoiding cavity and is fixed on the second fixing seat;

The second driving assembly comprises a second driving belt, a second driven guide wheel and a second driving motor, the second avoidance cavity is provided with a third fixing seat and a fourth fixing seat, one end of the second driving belt is fixed to the third fixing seat, and the other end of the second driving belt is wound on the outer sides of the driving ends of the second driven guide wheel and the second driving motor, penetrates through the first avoidance cavity and is fixed to the fourth fixing seat.

In basin hole fillet machine for deck plate processing, hold-down mechanism still includes the second and compresses tightly the unit, the second compresses tightly the unit setting in conveying mechanism's opposite side, the second compresses tightly the unit and also comprises a plurality of hold-down assembly, and is a plurality of hold-down assembly sets up along the X axle direction.

In the basin hole rounding machine for machining the table top plate, the first adjusting rack is provided with a first sliding rail, the bottoms of the first sliding seat, the second sliding seat and the first movable block are respectively provided with a first sliding block, and the first sliding blocks are assembled with the first sliding rail in a sliding way;

The second adjusting frame is provided with a second sliding rail, the bottoms of the third sliding seat, the fourth sliding seat and the second movable block are respectively provided with a second sliding block, and the second sliding blocks are assembled with the second sliding rail in a sliding way.

In the basin hole rounding machine for machining the table panel, the first belt carrier roller bracket, the second belt carrier roller bracket, the third belt carrier roller bracket and the fourth belt carrier roller bracket have the same structure and comprise a base, a connecting frame, a lifting air bag, a lifting plate and two sliding rods;

The two sliding rods are respectively arranged on the base, the lifting plate is assembled with the two sliding rods in a sliding mode, the lifting air bag is arranged between the base and the lifting plate, the connecting frame is arranged on the top surface of the lifting plate, the first belt unit/the second belt unit is arranged on the top of the connecting frame, and the base is arranged on the top of the first sliding seat, the second sliding seat, the third sliding seat or the fourth sliding seat.

One technical scheme of the utility model has the following beneficial effects:

The cutting machine head 3 is detachably connected with the cutting tool, and the basin hole corner rounding machine can install the cutting tool on the cutting machine head 3 according to actual conditions so as to carry out corresponding machining procedures. The full-automatic cutting, drilling and grinding machine has the advantages that the full-automatic cutting, drilling and grinding of the plates can be realized, the continuity action can be realized between the processing procedures, the plates do not need to be taken down again and are placed into another device again, so that the processing efficiency can be improved, meanwhile, in the processing process, the pressing mechanism can firmly clamp the plates on the machine body 1, the plates are difficult to move in the processing process, and the processing quality of the stone can be ensured.

Drawings

FIG. 1 is a schematic diagram of one embodiment of the present utility model;

FIG. 2 is a schematic view of the first belt unit, the second belt unit and the first adjustment unit in one embodiment of the present utility model;

FIG. 3 is a schematic illustration of the connection of a first adjustment unit and a second compression unit in one embodiment of the utility model;

FIG. 4 is a schematic view of the first belt unit in one embodiment of the present utility model;

FIG. 5 is a schematic view of an X-axis moving assembly according to one embodiment of the present utility model;

FIG. 6 is a schematic view of the structure of the Y-axis moving assembly and the Z-axis lifting assembly according to one embodiment of the present utility model;

In the drawing, a machine body 1, a cutting machine head 3, a first adjusting unit 4, a second adjusting unit 5, a first belt unit 6, a second belt unit 7 and a movable frame 8;

The X-axis moving assembly 11, the Y-axis moving assembly 12 and the Z-axis lifting assembly 13, the first compressing unit 21 and the second compressing unit 22, the first sliding seat 41 and the second sliding seat 42, the first belt carrier roller bracket 45, the second belt carrier roller bracket 46, the first adjusting frame 47, the third sliding seat 51 and the fourth sliding seat 52, the belt frame 61, the conveying belt 62, the belt driving device 63, the belt driven wheel 64, the first movable block 81 and the second movable block 82;

X-axis rack 111, X-axis motor 112, cross beam 113, X-axis gear 114, Y-axis rack 121, Y-axis motor 122, Y-axis movable plate 123, lead screw motor 131, lead screw slider 132, Z-axis lifting rail 133, Z-axis lifting slider 134, pressing seat 211, pressing cylinder 212, pressing baffle 213, first fixing seat 401, second fixing seat 402, third fixing seat 403, fourth fixing seat 404, first slide rail 405, first slider 406, first avoidance chamber 411, second avoidance chamber 421, first driving belt 431, first driving motor 433, second driving belt 441, second driving motor 443, base 451, connecting frame 452, lifting airbag 453, lifting plate 454, slide bar 455, third belt carrier roller bracket 511, fourth belt carrier roller bracket 521, third driving belt 801, third driven guide 802, third driving motor 803, third avoidance chamber 804, fifth fixing seat 805, and sixth fixing seat 806.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the terms "X-axis," "Y-axis," "Z-axis," "upper," "lower," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the utility model. Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly, for distinguishing between the descriptive features, and not sequentially, and not lightly.

In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intervening medium, or in communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1-6, the utility model provides a basin hole corner rounding machine for machining a table panel, which comprises a plate bearing platform and a cutting device, wherein the plate bearing platform comprises a machine body 1, a conveying mechanism and a pressing mechanism, wherein the conveying mechanism is assembled on the machine body 1 and is used for conveying a workpiece to be machined;

The pressing mechanism comprises a first pressing unit 21, a movable frame 8 and a pressing sliding component, wherein the pressing sliding component is arranged on one side of the conveying mechanism, and the pressing sliding component is in transmission connection with the movable frame 8 to drive the movable frame 8 to move along the X-axis direction;

The cutting device comprises a cutting machine head 3, the cutting machine head 3 is arranged above the conveying mechanism, and the cutting machine head 3 is detachably connected with a cutting tool.

The cutting machine head 3 is detachably connected with the cutting tool, and the basin hole corner rounding machine can install the cutting tool on the cutting machine head 3 according to actual conditions so as to carry out corresponding machining procedures. The full-automatic cutting, drilling and grinding machine has the advantages that the full-automatic cutting, drilling and grinding of the plates can be realized, the continuity action can be realized between the processing procedures, the plates do not need to be taken down again and are placed into another device again, so that the processing efficiency can be improved, meanwhile, in the processing process, the pressing mechanism can firmly clamp the plates on the machine body 1, the plates are difficult to move in the processing process, and the processing quality of the stone can be ensured.

Specifically, the first compressing unit 21 is composed of a plurality of compressing assemblies, the compressing assemblies are arranged on the movable frame 8 along the X-axis direction, the compressing assemblies comprise compressing seats 211, compressing cylinders 212 and compressing baffles 213, the compressing seats 211 are arranged on the machine body 1, the compressing cylinders 212 and the compressing baffles 213 are arranged on the compressing seats 211, the compressing baffles 213 are located on one side of the driving end of the compressing cylinders 212, and a holding space is formed between the compressing baffles 213 and the driving end of the compressing cylinders 212.

A clamping space is formed between the pressing baffle 213 and the driving end of the pressing cylinder 212, when the plate is conveyed, the driving end of the pressing cylinder 212 is retracted, the edge of the plate penetrates through the clamping space, and the pressing assembly cannot interfere with the plate. When the plate is required to be clamped for processing, the driving ends of the pressing cylinders 212 of the pressing assemblies extend out simultaneously, the pressing baffles 213 are matched, and the edges of the plate are clamped, so that the plate is convenient to process on the surface of the plate. After the machining is completed, the driving ends of the pressing cylinders 212 retract simultaneously, and the conveying mechanism is started to convey the plates.

Specifically, the machine body 1 is provided with a position adjusting mechanism, the position adjusting mechanism comprises a first adjusting unit 4 and a second adjusting unit 5 which are identical in structure, the first adjusting unit 4 is arranged at the near end of the discharging end of the machine body 1, the second adjusting unit 5 is arranged at the near end of the discharging end of the machine body 1, the first adjusting unit 4 is provided with a first sliding seat 41 and a second sliding seat 42, and the second adjusting unit 5 is provided with a third sliding seat 51 and a fourth sliding seat 52;

The conveying mechanism comprises a first belt unit 6 and a second belt unit 7, wherein the first belt unit 6 and the second belt unit 7 are arranged side by side along the Y-axis direction, the near end of the feeding end of the first belt unit 6 is assembled on a first sliding seat 41, the near end of the discharging end of the first belt unit 6 is assembled on a third sliding seat 51, the near end of the feeding end of the second belt unit 7 is assembled on a second sliding seat 42, and the near end of the discharging end of the second belt unit 7 is assembled on a fourth sliding seat 52;

The first adjusting unit 4 drives the first belt unit 6 to move along the Y-axis direction through the first sliding seat 41 and the third sliding seat 51, and the first adjusting unit 4 drives the second belt unit 7 to move along the Y-axis direction through the second sliding seat 42 and the fourth sliding seat 52;

The compression sliding assembly is arranged on the first adjusting unit 4 and/or the second adjusting unit 5.

The first belt unit 6 and the second belt unit 7 are matched to form a conveying belt, the position adjusting mechanism drives the first belt unit 6 to move along the X-axis direction by controlling the first sliding seat 41 and the third sliding seat 51 to move horizontally, and drives the second belt unit 7 to move along the X-axis direction by controlling the second sliding seat 42 and the fourth sliding seat 52 to move horizontally. By adopting the structure, the actual distance between the first belt unit 6 and the second belt unit 7 can be adjusted according to the width of the actual plate, so that the width between the first belt unit 6 and the second belt unit 7 is matched with the plate, the falling-off condition of the plate from the belt mechanism in the conveying process is reduced, and the material conveying stability of the plate bearing platform is enhanced.

The Y-axis direction is the horizontal movement direction of the first belt unit 6 or the second belt unit 7, and the X-axis direction is the sheet conveying direction.

Specifically, a first movable block 81 is arranged at the bottom of the movable frame 8, a third avoidance cavity 804 is arranged in the middle of the first movable block 81, the compression sliding assembly comprises a third driving belt 801, a third driven guide wheel 802 and a third driving motor 803, the first movable block 81 and the second movable block 82 are identical in structure, a third avoidance cavity 804 is formed in each of the first movable block 81 and the second movable block 82, a fifth fixing seat 805 and a sixth fixing seat 806 are arranged in each of the third avoidance cavity 804, one end of the third driving belt 801 is fixed to the fifth fixing seat 805, and the other end of the third driving belt 801 is wound on the outer sides of driving ends of the third driven guide wheel 802 and the third driving motor 803, penetrates through the third avoidance cavity 804 and is fixed to the sixth fixing seat 806.

When the third driving motor 803 operates, the third driving belt 801 is driven to rotate, so that the first movable block 81/the second movable block 82 is driven to move horizontally. When two compress tightly the slip subassembly synchronous operation, can drive movable frame 8 and remove along X axis direction to drive second and compress tightly unit 22 and be close to or keep away from first compressing tightly unit 21, thereby adjust the width between first compressing tightly unit 21 and the second compressing tightly unit 22, make first compressing tightly unit 21 and second compressing tightly unit 22 can adapt to the panel of different specifications, hold-down mechanism can both press from both sides tight panel, avoid panel to appear the displacement and appear machining error at the course of working.

Further, the first adjusting unit 4 further comprises a first driving component, a second driving component, a first belt roller bracket 45, a second belt roller bracket 46 and a first adjusting rack 47, wherein the first adjusting rack 47 is arranged on the machine body 1, the first driving component and the second driving component are respectively arranged on the first adjusting rack 47, the first sliding seat 41 is assembled at the driving end of the first driving component, and the first driving component drives the first sliding seat 41 to horizontally move along the Y-axis direction;

The second sliding seat 42 is assembled at the driving end of the second driving assembly, and the second driving assembly drives the second sliding seat 42 to horizontally move along the Y-axis direction, the first belt carrier roller bracket 45 is arranged on the first sliding seat 41, the near end of the feeding end of the first belt unit 6 is connected with the first belt carrier roller bracket 45, and the near end of the feeding end of the second belt unit 7 is connected with the second belt carrier roller bracket 46;

The second adjusting unit 5 further comprises a third driving component, a fourth driving component, a third belt roller bracket 511, a fourth belt roller bracket 521 and a second adjusting rack, wherein the second adjusting rack is arranged on the machine body 1, the third driving component and the fourth driving component are respectively arranged on the second adjusting rack, the third sliding seat 51 is assembled at the driving end of the third driving component, and the third driving component drives the third sliding seat 51 to horizontally move along the Y-axis direction;

The fourth sliding seat 52 is assembled at the driving end of the fourth driving assembly, the fourth driving assembly drives the fourth sliding seat 52 to horizontally move along the Y-axis direction, the third belt carrier roller bracket 511 is arranged at the third sliding seat 51, the near end of the discharging end of the first belt unit 6 is connected with the third belt carrier roller bracket 511, and the near end of the discharging end of the second belt unit 7 is connected with the fourth belt carrier roller bracket 521.

The first belt idler support 45 is used for mounting the first belt unit 6 and the second belt idler support 46 is used for mounting the second belt unit 7. The first adjusting frame 47 is provided with a mounting groove, the first driving component and the second driving component are arranged in the mounting groove, the first driving component is used for driving the first sliding seat 41 to horizontally move along the Y-axis direction so as to match with the third sliding seat 51 to enable the first belt unit 6 to move along the Y-axis direction, and the second driving component is used for driving the second sliding seat 42 to horizontally move along the Y-axis direction so as to match with the fourth sliding seat 52 to enable the second belt unit 7 to move along the Y-axis direction. The first belt unit 6 and the second belt unit 7 are mutually close to or far away from each other by the cooperation of the first sliding seat 41, the second sliding seat 42, the third sliding seat 51 and the fourth sliding seat 52, so that the purpose of width adjustment is realized.

The second adjusting unit 5 has the same structure and the same principle as the first adjusting unit 4, and serves the same purpose, and will not be described here. The first sliding seat 41 and the third sliding seat 51 move in the same direction at the same time, so that the first belt unit 6 can be driven to move horizontally. Similarly, the second sliding seat 42 and the fourth sliding seat 52 move in the same direction at the same time, so as to drive the second belt unit 7 to move horizontally.

Through the cooperation of second adjusting unit 5 and first adjusting unit 4 for first belt unit 6 and second belt unit 7 are more stable at the process of translation, have promoted position adjustment mechanism's stability, prevent that first belt unit 6/second belt unit 7 from taking place the angular displacement after removing, lead to the removal route of panel to change, thereby avoid panel to appear dropping the problem.

Still further, the pressing mechanism comprises two pressing sliding components, one pressing sliding component is arranged on the first adjusting unit 4, the other pressing sliding component is arranged on the second adjusting unit 5, the movable frame 8 is further provided with a second movable block 82, the first movable block 81 and the second movable block 82 are identical in structure, the first movable block 81 is slidably assembled on the first adjusting frame 47, the second movable block 82 is slidably assembled on the second adjusting frame, the first movable block 81 is connected with the driving end of the pressing sliding component located on the first adjusting unit 4, and the second movable block 82 is connected with the driving end of the pressing sliding component located on the second adjusting unit 5.

The first driving assembly and the second driving assembly are arranged side by side, the first driving assembly comprises a first driving belt 431, a first driven guide wheel and a first driving motor 433, the first driven guide wheel is assembled on one side of the first adjusting rack 47, the first driving motor 433 is assembled on the other side of the first adjusting rack 47, the first sliding seat 41 is provided with a first avoiding cavity 411, the second sliding seat 42 is provided with a second avoiding cavity 421, the first avoiding cavity 411 is provided with a first fixing seat 401 and a second fixing seat 402, one end of the first driving belt 431 is fixed on the first fixing seat 401, and the other end of the first driving belt 431 is wound on the outer sides of the driving ends of the first driven guide wheel and the first driving motor 433, penetrates through the second avoiding cavity 421 and is fixed on the second fixing seat 402;

The second driving assembly comprises a second driving belt 441, a second driven guide wheel and a second driving motor 443, the second avoiding cavity 421 is provided with a third fixing seat 403 and a fourth fixing seat 404, one end of the second driving belt 441 is fixed on the third fixing seat 403, and the other end of the second driving belt 441 is wound around the outer sides of the driving ends of the second driven guide wheel and the second driving motor 443, passes through the first avoiding cavity 411 and is fixed on the fourth fixing seat 404.

In one embodiment of the present utility model, the first driving assembly and the second driving assembly drive the first sliding seat 41/the second sliding seat 42 to move along the Y-axis direction by driving the driving belt. The first fixing seat 401 and the second fixing seat 402 are used for fixing the first driving belt 431 and the first sliding seat 41, and when the first driving motor 433 operates, the first driving belt 431 is driven to rotate, so as to drive the first sliding seat 41 to move horizontally. Similarly, when the second driving motor 443 is operated, the second driving belt 441 is driven to rotate, so as to drive the second sliding seat 42 to move horizontally. By adopting the structure, the device is convenient to use and accurate in transmission.

The first driving assembly and the second driving assembly are arranged side by side, so that the first driving belt 431 and the second driving belt 441 are also arranged side by side, mutual interference between the two driving belts is avoided, and interference of the first driving assembly and the second driving assembly in the working process is avoided, so that the first sliding seat 41/the second sliding seat 42 cannot move horizontally.

In a specific embodiment of the present utility model, the first driving assembly and the second driving assembly are also driven by a driving belt, in order to avoid interference, the first movable block 81 and the second movable block 82 are both provided with avoidance cavities, and the other end of the first driving belt 431 is wound around the outer sides of the driving ends of the first driven guide wheel and the first driving motor 433, passes through the second avoidance cavity 421 and the third avoidance cavity 804, and is fixed to the second fixing seat 402. Similarly, the second drive belt 441 also passes through the first relief chamber 411 and the third relief chamber 804. Similarly, the third drive belt 801 passes through the first relief chamber 411 and the second relief chamber 421. The first driving component, the second driving component and the pressing sliding component can not interfere with each other. The second adjusting unit 5 has the same structure as the first adjusting unit 4, and the driving component and the pressing sliding component of the second adjusting unit 5 will not interfere with each other, which is not described herein.

Preferably, the pressing mechanism further includes a second pressing unit 22, the second pressing unit 22 is disposed on the other side of the conveying mechanism, the second pressing unit 22 is also composed of a plurality of pressing components, and a plurality of pressing components are disposed along the X-axis direction.

The first compressing unit 21 and the second compressing unit 22 have the same structure and are composed of a plurality of compressing assemblies.

Specifically, the first adjusting frame 47 is provided with a first sliding rail 405, the bottoms of the first sliding seat 41, the second sliding seat 42 and the first movable block 81 are respectively provided with a first sliding block 406, and the first sliding blocks 406 are slidably assembled with the first sliding rail 405;

The second adjusting frame is provided with a second sliding rail, and the bottoms of the third sliding seat 51, the fourth sliding seat 52 and the second movable block 82 are respectively provided with a second sliding block, and the second sliding blocks are assembled with the second sliding rail in a sliding way.

The first sliding block 221 and the first sliding rail 231, and the second sliding block 221 and the second sliding rail 231 play a role in guiding, so that displacement of the first sliding seat 21, the second sliding seat 22 or the first movable block 81 in other directions except the X axis is prevented, and stability of the first sliding seat 21, the second sliding seat 22 and the first movable block 81 in the moving process is enhanced. The second adjusting unit 5 has the same structure as the first adjusting unit 4, and will not be described here.

Specifically, the first belt idler bracket 45, the second belt idler bracket 46, the third belt idler bracket 511 and the fourth belt idler bracket 521 have the same structure, and each comprises a base 451, a connecting frame 452, a lifting air bag 453, a lifting plate 454 and two sliding rods 455;

the two sliding rods 455 are respectively disposed on the base 451, the lifting plate 454 is slidably assembled with the two sliding rods 455, the lifting airbag 453 is disposed between the base 451 and the lifting plate 454, the connecting frame 452 is disposed on the top surface of the lifting plate 454, the first belt unit 6/the second belt unit 7 is mounted on the top of the connecting frame 452, and the base 451 is disposed on the top of the first sliding seat 41, the second sliding seat 42, the third sliding seat 51 or the fourth sliding seat 52.

The first belt idler bracket 45, the second belt idler bracket 46, the third belt idler bracket 511 and the fourth belt idler bracket 521 have the same structure, are connected with the first sliding seat 41, the second sliding seat 42, the third sliding seat 51 or the fourth sliding seat 52 through the base 451, and are connected with the first belt unit 6-

The second belt unit 7 is connected to serve the purpose of fixing the first belt unit 6/the second belt unit 7. By adopting the structure, the structure is simple and stable, and the installation is convenient.

In one embodiment of the present utility model, the lifting plate 454 is provided with two through holes, the positions of the two through holes are matched with the positions of the sliding rods 455, the lifting plate 454 is slidably assembled with the corresponding sliding rods 455 through the two through holes, and the sliding rods 455 play a guiding role, so that the lifting plate 454 is more stable in lifting. The lifting air bag 453 is communicated with an external air source, the lifting air bag 453 expands after being filled with air, and the lifting plate 454 is jacked up, so that the first belt unit 6/second belt unit 7 is driven to lift, and the purpose of adjusting the horizontal height of the first belt unit 6/second belt unit 7 is achieved.

In a preferred embodiment of the present utility model, the first belt unit 6 and the second belt unit 7 each include a belt frame 61, a conveying belt 62 and a belt driving device 63, the belt driving device 63 is disposed at one end of the belt frame 61, a belt driven wheel 64 is disposed at the other end of the belt frame 61, the conveying belt 62 is wound around an output end of the belt driving device 63 and an outer periphery of the belt driven wheel 64, and the belt frame 61 is fixedly connected to the first sliding seat 41, the second sliding seat 42, the third sliding seat 51 or the fourth sliding seat 52.

The first belt unit 6 and the second belt unit 7 can refer to existing conveyor belt structures. The belt driving device 63 drives the conveyor belt 62 to rotate, thereby causing the conveyor belt 62 to convey the sheet material. The belt frame 61 is fixedly connected with the first sliding seat 41, the second sliding seat 42, the third sliding seat 51 or the fourth sliding seat 52, so as to avoid interference between the conveying belt 62 and the first sliding seat 41, the second sliding seat 42, the third sliding seat 51 or the fourth sliding seat 52.

In some embodiments of the present utility model, the cutting apparatus further comprises an X-axis moving assembly 11, a Y-axis moving assembly 12, and a Z-axis lifting assembly 13;

The X-axis moving assembly 11 comprises an X-axis rack 111, an X-axis motor 112 and a cross beam 113, wherein the cross beam 113 is erected on the machine body 1, the two ends of the cross beam 113 are respectively provided with the X-axis motor 112, the two sides of the machine body 1 are respectively provided with the X-axis rack 111, and the driving end of the X-axis motor 112 is provided with an X-axis gear 114;

The Y-axis moving assembly 12 comprises a Y-axis rack 121, a Y-axis motor 122 and a Y-axis movable plate 123, wherein the Y-axis rack 121 is arranged on the top surface of the cross beam 113, the Y-axis motor 122 is fixed on the back side of the Y-axis movable plate 123, a Y-axis gear is arranged at the driving end of the Y-axis motor 122, and the Y-axis gear is meshed with the Y-axis rack 121;

The Z-axis lifting assembly 13 comprises a screw motor 131, a screw slider 132, Z-axis lifting rails 133 and Z-axis lifting sliders 134, wherein the screw motor 131 is arranged on the Y-axis movable plate 123, a screw of the screw motor 131 is vertically arranged, the screw slider 132 is in threaded connection with a screw of the screw motor 131, the cutting machine head 3 is fixed on the screw slider 132, the Z-axis lifting rails 133 are arranged on two sides of a screw of the screw motor 131, the Z-axis lifting sliders 134 are arranged on two sides of the screw slider 132 of the cutting machine head 3, and the Z-axis lifting sliders 134 are assembled with the Z-axis lifting rails 133 on the corresponding side in a sliding manner.

The X-axis moving assembly 11, the Y-axis moving assembly 12 and the Z-axis lifting assembly 13 can refer to the existing three-axis moving platform, the X-axis moving assembly 11 can drive the Y-axis moving assembly 12 and the Z-axis lifting assembly 13 to translate in the X-axis direction, so that the cutting machine head 3 can move in the X-axis direction, the Y-axis moving assembly 12 can drive the Z-axis lifting assembly 13 to translate in the Y-axis direction, so that the cutting machine head 3 can move in the Y-axis direction, and the Z-axis lifting assembly 13 can drive the cutting machine head 3 to move upwards or downwards, so that the cutting machine head 3 can be lifted. The cutting machine head 3 is matched with different cutting tools, so that complex machining of the plate can be performed, including cutting, grinding, drilling and other machining procedures.

The X-axis gear 114 is meshed with the X-axis rack 111 on the corresponding side, and when the X-axis motors 112 on both sides of the beam 113 are simultaneously started, the X-axis motors 112 drive the X-axis gear 114 to rotate, so that the beam 113 moves along the X-axis direction, and the Y-axis moving assembly 12 and the Z-axis lifting assembly 13 are driven. Similarly, when the Y-axis motor 122 is started, the Y-axis motor 122 drives the Y-axis gear to rotate, so that the Y-axis movable plate 123 moves along the Y-axis direction to drive the Z-axis lifting assembly 13 to horizontally move, and the Z-axis lifting assembly 13 realizes transmission in a lead screw nut transmission mode to drive the cutting machine head 3 to move upwards or downwards.

In a specific embodiment of the present utility model, the machine body 1 is further provided with an X-axis guide rail parallel to the X-axis rack 111, and the near ends of the two ends of the cross beam 113 are respectively provided with an X-axis slider, and the X-axis guide rail is slidably assembled with the X-axis slider. The side of the beam 113 is provided with a Y-axis guide rail parallel to the Y-axis rack 121, and the back side of the Y-axis movable plate 123 is also provided with a Y-axis slider, and the Y-axis guide rail is assembled with the Y-axis slider in a sliding manner. The X-axis guide rail and the X-axis sliding block, and the Y-axis guide rail and the Y-axis sliding block all play a role in guiding, so that the moving process is more stable, and the stability of the cutting device is improved.

The technical principle of the present utility model is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the utility model and should not be taken in any way as limiting the scope of the utility model. Other embodiments of the utility model will occur to those skilled in the art from consideration of this specification without the exercise of inventive faculty, and such equivalent modifications and alternatives are intended to be included within the scope of the utility model as defined in the claims.

Claims (10)

1. The basin hole round angle machine for machining the table panel is characterized by comprising a plate bearing platform and a cutting device, wherein the plate bearing platform comprises a machine body (1), a conveying mechanism and a pressing mechanism, wherein the conveying mechanism is assembled on the machine body (1) and is used for conveying workpieces to be machined;

The pressing mechanism comprises a first pressing unit (21), a movable frame (8) and a pressing sliding component, wherein the pressing sliding component is arranged on one side of the conveying mechanism, and the pressing sliding component is in transmission connection with the movable frame (8) so as to drive the movable frame (8) to move along the X-axis direction;

The cutting device comprises a cutting machine head (3), the cutting machine head (3) is arranged above the conveying mechanism, and the cutting machine head (3) is detachably connected with a cutting tool.

2. The basin hole corner rounding machine for machining of a deck plate according to claim 1, wherein the first pressing unit (21) is composed of a plurality of pressing assemblies, the pressing assemblies are arranged on the movable frame (8) along the X-axis direction, each pressing assembly comprises a pressing seat (211), a pressing cylinder (212) and a pressing baffle plate (213), each pressing seat (211) is arranged on the machine body (1), each pressing cylinder (212) and each pressing baffle plate (213) are arranged on the pressing seat (211), each pressing baffle plate (213) is located on one side of the driving end of each pressing cylinder (212), and a holding space is formed between each pressing baffle plate (213) and each driving end of each pressing cylinder (212).

3. The basin hole corner rounding machine for machining of the table top according to claim 1, wherein the machine body (1) is provided with a position adjusting mechanism, the position adjusting mechanism comprises a first adjusting unit (4) and a second adjusting unit (5) which are identical in structure, the first adjusting unit (4) is arranged at the near end of the discharging end of the machine body (1), the second adjusting unit (5) is arranged at the near end of the discharging end of the machine body (1), the first adjusting unit (4) is provided with a first sliding seat (41) and a second sliding seat (42), and the second adjusting unit (5) is provided with a third sliding seat (51) and a fourth sliding seat (52);

The conveying mechanism comprises a first belt unit (6) and a second belt unit (7), wherein the first belt unit (6) and the second belt unit (7) are arranged side by side along the Y-axis direction, the near end of the feeding end of the first belt unit (6) is assembled on a first sliding seat (41), the near end of the discharging end of the first belt unit (6) is assembled on a third sliding seat (51), the near end of the feeding end of the second belt unit (7) is assembled on a second sliding seat (42), and the near end of the discharging end of the second belt unit (7) is assembled on a fourth sliding seat (52);

The first adjusting unit (4) drives the first belt unit (6) to move along the Y-axis direction through the first sliding seat (41) and the third sliding seat (51), and the first adjusting unit (4) drives the second belt unit (7) to move along the Y-axis direction through the second sliding seat (42) and the fourth sliding seat (52);

The pressing sliding component is arranged on the first adjusting unit (4) and/or the second adjusting unit (5).

4. The basin hole chamfering machine for machining of the tabletop plate according to claim 3, wherein a first movable block (81) is arranged at the bottom of the movable frame (8), a third avoidance cavity (804) is formed in the middle of the first movable block (81), the pressing sliding assembly comprises a third driving belt (801), a third driven guide wheel (802) and a third driving motor (803), the third avoidance cavity (804) is provided with a fifth fixing seat (805) and a sixth fixing seat (806), one end of the third driving belt (801) is fixed to the fifth fixing seat (805), and the other end of the third driving belt (801) is wound on the outer sides of driving ends of the third driven guide wheel (802) and the third driving motor (803) and penetrates through the third avoidance cavity (804) to be fixed to the sixth fixing seat (806).

5. The basin hole corner rounding machine for machining of a deck plate according to claim 4, wherein the first adjusting unit (4) further comprises a first driving assembly, a second driving assembly, a first belt roller support (45), a second belt roller support (46) and a first adjusting frame (47), the first adjusting frame (47) is arranged on the machine body (1), the first driving assembly and the second driving assembly are respectively arranged on the first adjusting frame (47), the first sliding seat (41) is assembled on the driving end of the first driving assembly, and the first driving assembly drives the first sliding seat (41) to horizontally move along the Y-axis direction;

The first belt carrier roller bracket (45) is arranged on the first sliding seat (41), the near end of the feeding end of the first belt unit (6) is connected with the first belt carrier roller bracket (45), and the near end of the feeding end of the second belt unit (7) is connected with the second belt carrier roller bracket (46);

The second adjusting unit (5) further comprises a third driving assembly, a fourth driving assembly, a third belt idler bracket (511), a fourth belt idler bracket (521) and a second adjusting rack, wherein the second adjusting rack is arranged on the machine body (1), the third driving assembly and the fourth driving assembly are respectively arranged on the second adjusting rack, the third sliding seat (51) is assembled at the driving end of the third driving assembly, and the third driving assembly drives the third sliding seat (51) to horizontally move along the Y-axis direction;

The fourth sliding seat (52) is assembled at the driving end of the fourth driving assembly, the fourth driving assembly drives the fourth sliding seat (52) to horizontally move along the Y-axis direction, the third belt carrier roller bracket (511) is arranged on the third sliding seat (51), the near end of the discharging end of the first belt unit (6) is connected with the third belt carrier roller bracket (511), and the near end of the discharging end of the second belt unit (7) is connected with the fourth belt carrier roller bracket (521).

6. The basin hole corner rounding machine for machining of a deck plate according to claim 5, wherein the pressing mechanism comprises two pressing sliding assemblies, one pressing sliding assembly is arranged on the first adjusting unit (4), the other pressing sliding assembly is arranged on the second adjusting unit (5), a second movable block (82) is further arranged at the bottom of the movable frame (8), the first movable block (81) and the second movable block (82) are identical in structure, the first movable block (81) is assembled on the first adjusting frame (47) in a sliding mode, the second movable block (82) is assembled on the second adjusting frame in a sliding mode, the first movable block (81) is connected with a driving end of the pressing sliding assembly located on the first adjusting unit (4), and the second movable block (82) is connected with a driving end of the pressing sliding assembly located on the second adjusting unit (5).

7. The basin hole corner machine for machining of a deck plate according to claim 5, wherein the first driving assembly and the second driving assembly are arranged side by side, the first driving assembly comprises a first driving belt (431), a first driven guide wheel and a first driving motor (433), the first driven guide wheel is assembled on one side of a first adjusting frame (47), the first driving motor (433) is assembled on the other side of the first adjusting frame (47), the first sliding seat (41) is provided with a first avoiding cavity (411), the second sliding seat (42) is provided with a second avoiding cavity (421), the first avoiding cavity (411) is provided with a first fixing seat (401) and a second fixing seat (402), one end of the first driving belt (431) is fixed to the first fixing seat (401), and the other end of the first driving belt (431) is wound on the outer side of the first driven guide wheel and the driving end of the first driving motor (433) and penetrates through the second fixing seat (421) to be fixed to the second fixing seat (402);

The second driving assembly comprises a second driving belt (441), a second driven guide wheel and a second driving motor (443), the second avoidance cavity (421) is provided with a third fixing seat (403) and a fourth fixing seat (404), one end of the second driving belt (441) is fixed on the third fixing seat (403), and the other end of the second driving belt (441) is wound on the outer sides of driving ends of the second driven guide wheel and the second driving motor (443) and penetrates through the first avoidance cavity (411) to be fixed on the fourth fixing seat (404).

8. The basin hole chamfering machine for machining of a deck plate as recited in claim 1, characterized in that the pressing mechanism further includes a second pressing unit (22), the second pressing unit (22) being provided on the other side of the conveying mechanism, the second pressing unit (22) also being composed of a plurality of pressing assemblies, a plurality of the pressing assemblies being provided in the X-axis direction.

9. The basin hole chamfering machine for machining of a deck plate as recited in claim 6, characterized in that the first adjusting frame (47) is provided with a first slide rail (405), the bottoms of the first slide seat (41), the second slide seat (42) and the first movable block (81) are all provided with a first slide block (406), and the first slide block (406) is slidably assembled with the first slide rail (405);

the second adjusting frame is provided with a second sliding rail, the bottoms of the third sliding seat (51), the fourth sliding seat (52) and the second movable block (82) are respectively provided with a second sliding block, and the second sliding blocks are assembled with the second sliding rail in a sliding way.

10. The basin hole chamfering machine for machining of a deck plate as recited in claim 5, characterized in that the first belt idler bracket (45), the second belt idler bracket (46), the third belt idler bracket (511) and the fourth belt idler bracket (521) are identical in structure, each including a base (451), a connecting frame (452), a lifting air bag (453), a lifting plate (454) and two slide bars (455);

The two sliding rods (455) are respectively arranged on the base (451), the lifting plate (454) is in sliding assembly with the two sliding rods (455), the lifting air bag (453) is arranged between the base (451) and the lifting plate (454), the connecting frame (452) is arranged on the top surface of the lifting plate (454), the first belt unit (6)/the second belt unit (7) are arranged on the top of the connecting frame (452), and the base (451) is arranged on the top of the first sliding seat (41), the second sliding seat (42), the third sliding seat (51) or the fourth sliding seat (52).