CN213646863U - Multi-station three-shaft processing machine - Google Patents

Abstract

The utility model relates to the technical field of numerical control processing, in particular to a multi-station three-axis processing machine, which comprises a frame, a workbench arranged on one side of the frame, a waste recovery device arranged on the frame and positioned below the workbench, an X-axis transmission device arranged on the frame and positioned on one side of the workbench, a Y-axis transmission device arranged on the X-axis transmission device in a transmission way, a Z-axis transmission device arranged on the Y-axis transmission device in a transmission way, and a processing device arranged on the Z-axis transmission device; the working table comprises a linear sliding rail, at least one group of linear sliding tables which can be movably arranged on the linear sliding rail, and an auxiliary clamp which is detachably arranged on the linear sliding tables, and the machining device faces the linear sliding tables; the utility model discloses the workstation adopts slidable structure, has sharp slip table, and sharp slip table can set up the multiunit and realize that the multistation processes, and machining efficiency is high, and stability is good, and the practicality is strong.

Description

Multi-station three-shaft processing machine

Technical Field

The utility model relates to a numerical control processing technology field especially relates to a multistation triaxial processing machine.

Background

The numerical control machine is a machining center machine tool, also called CNC numerical control machine, called machining center machine for short. Machining center machines are generally high-efficiency automatic machines consisting of a control system, a servo system, a detection system, a mechanical transmission system and other auxiliary systems and suitable for machining workpieces with complex shapes. The machining center machine is a highly electromechanical integrated machine tool and can continuously complete various working procedures such as drilling, boring, milling, reaming and the like, so that the time of workpiece clamping, measurement, machine tool adjustment and other auxiliary working procedures is greatly reduced, and the machining center machine has good economic benefits for parts with complex machining shapes, high precision requirements and frequent variety replacement.

The existing processing machine can only fixedly process products, generally has only one processing position, so that the processing efficiency is lower, the products are put into the processing machine after the processing is finished, and meanwhile, the difficulty in removing waste materials generated in the processing process is higher, so that the problems need to be further improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a workstation adopts slidable structure, has sharp slip table, and sharp slip table can set up the multiunit and realize that the multistation is processed, and machining efficiency is high, and stability is good, the multistation triaxial processing machine that the practicality is strong.

The utility model adopts the technical proposal that: a multi-station three-shaft processing machine comprises a frame, a workbench arranged on one side of the frame, a waste recovery device arranged on the frame and positioned below the workbench, an X-axis transmission device arranged on the frame and positioned on one side of the workbench, a Y-axis transmission device arranged on the X-axis transmission device in a transmission manner, a Z-axis transmission device arranged on the Y-axis transmission device in a transmission manner, and a processing device arranged on the Z-axis transmission device;

the further improvement of the scheme is that the workbench comprises a linear slide rail, at least one group of linear sliding tables which can be movably arranged on the linear slide rail, and an auxiliary clamp which can be detachably arranged on the linear sliding tables, and the processing device faces to the linear sliding tables.

The further improvement to the above scheme is that the frame comprises a lower support platform and an upper support platform positioned on one side of the lower support platform, the workbench is installed on the lower support platform, and the X-axis transmission device is installed on the upper support platform.

The further improvement of the scheme is that the linear sliding table comprises a movable seat which is driven by the linear sliding rail, a fixed platform which is arranged on the movable seat and a fixed groove which is arranged on the fixed platform, and the auxiliary clamp is arranged on the fixed groove.

The further improvement of the scheme is that the movable seats are provided with a plurality of groups, the movable seats of each group are provided with locking holes, and the locking holes are threaded holes and communicated to the linear slide rails.

The further improvement of the scheme is that the waste recovery device comprises a recovery support arranged on the frame, a recovery conveying roller erected on the recovery support, a recovery conveying belt conveyed to the recovery conveying roller, and a recovery motor arranged on the frame and connected with the recovery conveying roller.

The further improvement to the above scheme is that the recovery conveyer belt is located below the linear sliding table.

The scheme is further improved in that a recovery box is arranged at the tail end of the recovery conveying belt.

The further improvement of the scheme is that the X-axis transmission device, the Y-axis transmission device and the Z-axis transmission device are all linear modules, and each linear module comprises a motor, a linkage element in driving connection with the motor, a linear guide rail positioned on one side of the linkage element, and a transmission seat which is installed on the linear guide rail and connected with the linkage element.

The further improvement of the scheme is that the linkage element is a gear and rack, a transmission screw or a synchronous belt.

The further improvement of the scheme is that the Z-axis transmission device is provided with a plurality of groups of buffer cylinders, and the buffer cylinders are connected with the processing device.

The utility model has the advantages that:

compare traditional processing machine, the utility model discloses set up waste recovery device in the workstation below, can carry the waste material that produces in the course of working to retrieve, do not need artifical cleanness, adopt carry clean can, degree of automation is high, and simultaneously, the workstation adopts slidable structure, has sharp slip table, and sharp slip table can set up the multiunit and realize that the multistation is processed, and machining efficiency is high, and stability is good, and the practicality is strong. The waste recovery device is characterized by comprising a rack, a workbench arranged on one side of the rack, a waste recovery device arranged on the rack and positioned below the workbench, an X-axis transmission device arranged on the rack and positioned on one side of the workbench, a Y-axis transmission device arranged on the X-axis transmission device in a transmission manner, a Z-axis transmission device arranged on the Y-axis transmission device in a transmission manner, and a processing device arranged on the Z-axis transmission device; the X-axis transmission device, the Y-axis transmission device and the Z-axis transmission device are matched to realize three-axis transmission, the three-axis transmission device is used for driving the processing device to process products, the processing stability is good, and the efficiency is high.

In addition, the workstation includes linear slide, can move in at least a set of sharp slip table of linear slide and demountable installation in the supplementary anchor clamps of sharp slip table, processingequipment orientation is used for the slip of sharp slip table through linear slide in sharp slip table, and is used for fixing the product centre gripping through supplementary anchor clamps, and is fixed effectual, convenient processing.

Drawings

Fig. 1 is a schematic perspective view of a multi-station three-axis processing machine according to the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is an enlarged view of the structure at B in FIG. 1;

FIG. 4 is an enlarged view of the structure at C in FIG. 1;

fig. 5 is an enlarged schematic view of the structure at D in fig. 1.

Description of reference numerals: the device comprises a machine frame 100, a lower support table 110, an upper support table 120, a workbench 200, a linear slide rail 210, a linear sliding table 220, a movable seat 221, a fixed platform 222, a fixed groove 223, a locking hole 224, an auxiliary clamp 230, a waste recovery device 300, a recovery support 310, a recovery conveying roller 320, a recovery conveying belt 330, a recovery box 331, a recovery motor 340, an X-axis transmission device 400, a Y-axis transmission device 500, a Z-axis transmission device 600, a buffer cylinder 610 and a processing device 700.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 5, a multi-station three-axis processing machine includes a frame 100, a table 200 mounted on one side of the frame 100, a scrap collecting device 300 mounted on the frame 100 and located below the table 200, an X-axis transmission device 400 mounted on the frame 100 and located on one side of the table 200, a Y-axis transmission device 500 mounted on the X-axis transmission device 400 in a transmission manner, a Z-axis transmission device 600 mounted on the Y-axis transmission device 500 in a transmission manner, and a processing device 700 mounted on the Z-axis transmission device 600.

The frame 100 includes lower support table 110 and is located the last supporting bench 120 of lower support table 110 one side, the workstation 200 is installed in lower support table 110, X axle transmission 400 is installed in last supporting bench 120, and through last supporting bench 120 cooperation lower support table 110 be used for the structural support installation, simple to operate, the support effect is good, and structural reliability is strong.

Referring to fig. 2, the workbench 200 includes a linear slide rail 210, at least one set of linear slide table 220 movable on the linear slide rail 210, and an auxiliary fixture 230 detachably mounted on the linear slide table 220, and the processing device 700 faces the linear slide table 220, is used for sliding the linear slide table 220 through the linear slide rail 210, and is used for clamping and fixing a product through the auxiliary fixture 230, so that the fixing effect is good, and the processing is convenient.

The linear sliding table 220 comprises a movable seat 221 which is driven by the linear sliding rail 210, a fixed platform 222 which is installed on the movable seat 221, and a fixed groove 223 which is formed in the fixed platform 222, the auxiliary clamp 230 is installed in the fixed groove 223, specifically, the movable seat 221 can be movably arranged on the linear sliding rail 210, the sliding effect is good, the fixed groove 223 is used for fixedly installing the auxiliary clamp 230, and the installation is convenient and the fixing effect is good.

The movable base 221 is provided with a plurality of groups, a locking hole 224 is formed in each group of movable base 221, the locking hole 224 is a threaded hole and is communicated to the linear slide rail 210, and a screw can be locked through the locking hole 224 to lock and fix the position of the movable base 221, so that the position of the linear slide table 220 is fixed.

Referring to fig. 3, the scrap recycling device 300 includes a recycling bracket 310 installed on the rack 100, a recycling conveyor roller 320 installed on the recycling bracket 310, a recycling conveyor belt 330 conveyed to the recycling conveyor roller 320, and a recycling motor 340 installed on the rack 100 and connected to the recycling conveyor roller 320, the recycling bracket 310 is used for supporting and installing the structure, the recycling conveyor belt 330 is driven by the recycling conveyor roller 320 to recycle scraps generated in the processing process, the processing is convenient, meanwhile, the recycling motor 340 is used for driving the recycling conveyor roller 320 to transmit, the recycling conveyor roller 320 drives the scraps to convey and recycle in the transmission process, and the degree of automation is high.

Retrieve conveyer belt 330 and be located sharp slip table 220 below, retrieve conveyer belt 330 end and be provided with collection box 331, conveniently retrieve the piece that produces in the course of working. Still have collection box 331 to retrieve, conveniently with the refuse collection aftertreatment.

The X-axis transmission device 400, the Y-axis transmission device 500 and the Z-axis transmission device 600 are all linear modules, each linear module comprises a motor, a linkage element in driving connection with the motor, a linear guide rail located at one side of the linkage element, and a transmission seat mounted on the linear guide rail and connected with the linkage element, and all the linear modules adopt linear transmission structures, are conventional linear drives, and are not described in the drawings.

Wherein, the linkage element is gear and rack, drive screw or hold-in range, selects to use according to the transmission position, and the homoenergetic is used for linear drive.

Z axle transmission 600 is provided with the cushion cylinder 610 of a plurality of groups, cushion cylinder 610 is connected with processingequipment 700, sets up cushion cylinder 610 and is used for cooperating processingequipment 700 to process, and the drive is effectual, and structural reliability is strong.

The utility model discloses set up waste recovery device 300 in workstation 200 below, can carry the waste material that produces in the course of working to retrieve, do not need artifical cleanness, adopt carry clean can, degree of automation is high, simultaneously, workstation 200 adopts slidable structure, has sharp slip table 220, and sharp slip table 220 can set up the multiunit and realize that the multistation is processed, and machining efficiency is high, and stability is good, and the practicality is strong. Specifically, the machine comprises a frame 100, a workbench 200 arranged at one side of the frame 100, a waste recovery device 300 arranged at the frame 100 and positioned below the workbench 200, an X-axis transmission device 400 arranged at one side of the workbench 200 and arranged at the frame 100, a Y-axis transmission device 500 arranged at the X-axis transmission device 400 in a transmission way, a Z-axis transmission device 600 arranged at the Y-axis transmission device 500 in a transmission way, and a processing device 700 arranged at the Z-axis transmission device 600; the X-axis transmission device 400, the Y-axis transmission device 500 and the Z-axis transmission device 600 are matched to realize three-axis transmission, so that the machining device 700 is driven to machine products, the machining stability is good, and the efficiency is high.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a multistation triaxial processing machine which characterized in that: the automatic waste recovery device comprises a rack, a workbench, a waste recovery device, an X-axis transmission device, a Y-axis transmission device, a Z-axis transmission device and a processing device, wherein the workbench is arranged on one side of the rack;

the workbench comprises a linear slide rail, at least one group of linear sliding tables which can be movably arranged on the linear slide rail, and an auxiliary clamp which is detachably arranged on the linear sliding tables, and the processing device faces to the linear sliding tables.

2. The multi-station, three-axis machine of claim 1, wherein: the frame includes the under bracing platform and is located the last supporting bench of under bracing platform one side, the workstation is installed in the under bracing platform, X axle transmission installs in last supporting bench.

3. The multi-station, three-axis machine of claim 1, wherein: the linear sliding table comprises a movable seat which is driven to move on the linear sliding rail, a fixed platform which is arranged on the movable seat, and a fixed groove which is arranged on the fixed platform, and the auxiliary clamp is arranged on the fixed groove.

4. A multi-station, three-axis machine according to claim 3, wherein: the movable seat is provided with a plurality of groups, the movable seat of each group is provided with a locking hole, and the locking hole is a threaded hole and is communicated to the linear slide rail.

5. The multi-station, three-axis machine of claim 1, wherein: the waste recovery device comprises a recovery support arranged on the frame, a recovery conveying roller erected on the recovery support, a recovery conveying belt conveyed to the recovery conveying roller, and a recovery motor arranged on the frame and connected with the recovery conveying roller.

6. The multi-station, three-axis machine of claim 5, wherein: the recovery conveyer belt is located below the linear sliding table.

7. The multi-station, three-axis machine of claim 6, wherein: the tail end of the recovery conveying belt is provided with a recovery box.

8. The multi-station, three-axis machine of claim 1, wherein: the X-axis transmission device, the Y-axis transmission device and the Z-axis transmission device are all linear modules, and each linear module comprises a motor, a linkage element in driving connection with the motor, a linear guide rail located on one side of the linkage element, and a transmission seat which is installed on the linear guide rail and connected with the linkage element.

9. The multi-station, three-axis machine of claim 8, wherein: the linkage element is a gear and rack, a transmission screw or a synchronous belt.

10. The multi-station, three-axis machine of claim 9, wherein: the Z-axis transmission device is provided with a plurality of groups of buffer cylinders, and the buffer cylinders are connected with the processing device.

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