Structure of engraving and milling machine

文档序号:110524 发布日期:2021-10-19 浏览:30次 中文

阅读说明:本技术 一种精雕机的结构 (Structure of engraving and milling machine ) 是由 黄杰 于 2021-06-30 设计创作,主要内容包括:本发明公开了一种精雕机的结构,包括机身、固定在机身上的龙门架、安装在龙门架上的刀具部分、活动安装在机身上的产品载具,机身上设有收集槽,刀具部分和收集槽均位于龙门架的前方,输送产品至产品载具的机械手安装在龙门架上且位于龙门架的后方,向机械手供料的供料机构位于龙门架的后方,所述产品载具能够沿前后方向穿过所述龙门架。本发明将机械手设置在龙门架的后方,冷却液不会到达龙门架的后方,龙门架的后方无需设置透明罩,也无需设置其他挡水设施,龙门架的后方具有足够的空间容纳机械手。因此,可以采用升降幅度和平移幅度较小的机械手,利于机械手占用体积减小、使用成本减小,以及结构简化。(The invention discloses a structure of an engraving and milling machine, which comprises a machine body, a portal frame fixed on the machine body, a cutter part arranged on the portal frame, and a product carrier movably arranged on the machine body, wherein a collecting tank is arranged on the machine body, the cutter part and the collecting tank are both positioned in front of the portal frame, a manipulator for conveying a product to the product carrier is arranged on the portal frame and positioned behind the portal frame, a feeding mechanism for feeding the manipulator is positioned behind the portal frame, and the product carrier can penetrate through the portal frame along the front-back direction. According to the invention, the manipulator is arranged behind the portal frame, the cooling liquid cannot reach the rear part of the portal frame, a transparent cover and other water retaining facilities are not required to be arranged behind the portal frame, and the rear part of the portal frame has enough space for accommodating the manipulator. Therefore, the manipulator with smaller lifting amplitude and translation amplitude can be adopted, so that the occupied volume and the use cost of the manipulator are reduced, and the structure is simplified.)

1. The utility model provides a structure of cnc engraving and milling machine, includes fuselage (10), fixes portal frame (20) on the fuselage, installs cutter part (30) on the portal frame, movable mounting product carrier (40) on the fuselage, is equipped with collecting vat (11) on the fuselage, and cutter part and collecting vat all are located the place ahead of portal frame, its characterized in that: the mechanical arm (50) for conveying the products to the product carriers is arranged on the portal frame and located behind the portal frame, the feeding mechanism (60) for feeding the mechanical arm is located behind the portal frame, and the product carriers can penetrate through the portal frame in the front-back direction.

2. The structure of an engraving and milling machine as claimed in claim 1, characterized in that: the left side and the right side of a manipulator (50) are respectively provided with a feeding station and a discharging station, a feeding mechanism is positioned on the feeding station, the discharging station is provided with a discharging container (70), the manipulator comprises a feeding device (52) and a discharging device (53) which are installed on the same motion module (51), and the feeding process of the feeding device from the feeding station and the discharging process of the discharging device from a product carrier (40) are carried out simultaneously.

3. The structure of an engraving and milling machine as claimed in claim 2, characterized in that: feeding mechanism (60) are equipped with silo (620) including vibration dish (61), propelling movement area (62) that one end and vibration dish are connected, stopper (63) that offsets with the propelling movement area other end, propelling movement area, and the stopper is equipped with spacing groove (630) that link up with the silo.

4. The structure of an engraving and milling machine as claimed in claim 2, characterized in that: the feeding device (52) comprises a first clamping jaw cylinder (521) and a first pair of profiling supporting blocks (522) arranged on the first clamping jaw cylinder; the blanking device (53) comprises a second clamping jaw cylinder (531) and a second pair of profiling supporting blocks (532) arranged on the second clamping jaw cylinder.

5. The structure of an engraving and milling machine as claimed in claim 4, characterized in that: the first pair of profiling supporting blocks (522) are provided with push strips (523) capable of lifting, the push strips are connected with a first lifting driving unit, and the first lifting driving unit is installed on the motion module (51).

6. The structure of an engraving and milling machine as claimed in claim 4, characterized in that: a gap is formed between the second pair of profiling supporting blocks (532), an inserting plate (533) is arranged above the gap and can downwards penetrate through the gap, the inserting plate is connected with a second lifting driving unit (534), and the second lifting driving unit is arranged on the motion module (51).

7. The structure of an engraving and milling machine as claimed in claim 1, characterized in that: product carrier (40) include riser (41), install fixed block (42) on the riser, movable fit movable rod (43) on the riser, set up electromagnet rod (44) on the fixed block, the one end of electromagnet rod is equipped with guide way (440), the one end of movable rod be equipped with guide way complex direction convex part (430), be equipped with magnet (45) and clamp splice (46) on the movable rod, be equipped with one side open-ended product positioning groove (410) on the riser, the clamp splice is located the opening side of product positioning groove.

Technical Field

The invention relates to machining equipment, in particular to a carving machine.

Background

The cnc engraving and milling machine, a kind of digit control machine tool, can carry out non-contact cutting to metal or non-metal panel, tubular product and punch.

The cnc engraving and milling machine is at the during operation, and the coolant liquid acts on the product, and the coolant liquid drops on in the collecting vat of fuselage, in order to avoid the coolant liquid to spill outward, installs the translucent cover on the fuselage, makes things convenient for the staff to observe the processing condition of product.

The machine body is provided with a portal frame, a cutter part for processing products is arranged in front of the portal frame, and correspondingly, the collecting tank and the transparent cover are positioned in front of the portal frame. The front of the portal frame is the front of the engraving and milling machine.

If the product is carried to the product carrier on the fuselage from the place ahead of cnc engraving and milling machine, then, the manipulator that is used for carrying the product needs to cross the lateral wall of translucent cover, and the manipulator needs great amplitude of rise and fall and translation range, and this will increase the occupation volume, use cost, and the structure complexity of manipulator.

Disclosure of Invention

The technical problems solved by the invention are as follows: the occupied volume and the structural complexity of a mechanical arm for conveying products to a product carrier of the engraving and milling machine are reduced.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a structure of cnc engraving and milling machine, includes the fuselage, fixes portal frame on the fuselage, installs cutter part, the product carrier of movable mounting on the fuselage on the portal frame, is equipped with the collecting vat on the fuselage, and cutter part and collecting vat all are located the place ahead of portal frame, carry the product to the manipulator of product carrier to install on the portal frame and be located the rear of portal frame, are located the rear of portal frame to the feed mechanism of manipulator feed, the product carrier can be followed the fore-and-aft direction and passed the portal frame.

Compared with the prior art that the manipulator for feeding is arranged in front of the portal frame, namely in front of the cutter part, the manipulator is arranged behind the portal frame, and the cooling liquid injection device is arranged on the cutter part and injects the cooling liquid forwards, so that the cooling liquid cannot reach the rear of the portal frame, and therefore, a transparent cover and other water retaining facilities are not required to be arranged behind the portal frame. And the cutter part is located the place ahead of portal frame, therefore, the back of portal frame has sufficient space to hold the manipulator, and moreover, the range of lift and translation of manipulator is less, does benefit to the manipulator and occupies that the volume reduces, use cost reduces to and the structure is simplified.

Drawings

The invention is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic view of a cnc engraving and milling machine viewed from the front;

FIG. 2 is a schematic view of the structure of the engraving and milling machine viewed from the rear;

fig. 3 is a schematic view of a combined structure of the feeding mechanism 60, the manipulator 50 and the blanking container 70;

FIG. 4 is a partial schematic view of a robot;

fig. 5 is a schematic view of product carrier 40.

The symbols in the drawings illustrate that:

10. a body; 11. collecting tank; 12. a guide rail;

20. a gantry;

30. a cutter portion;

40. a product carrier; 41. a vertical plate; 410. a product positioning groove; 42. a fixed block; 43. a movable rod; 430. a guide projection; 431. limiting the edge; 44. an electromagnetic rod; 440. a guide groove; 45. a magnet; 46. a clamping block; 47. an electromagnetic coil;

50. a manipulator; 51. a motion module; 52. a feeding device; 521. a first jaw cylinder; 522. a first pair of profiling support blocks; 523. pushing the strips; 53. a blanking device; 531. a second jaw cylinder; 532. a second pair of profiling support blocks; 533. inserting plates; 534. a second elevation driving unit; 535. a jaw of a second jaw cylinder; 54. a motion system;

60. a feeding mechanism; 61. a vibrating pan; 62. a push belt; 620. a trough; 63. a limiting block; 630. a limiting groove;

70. a blanking container;

80. and (5) producing the product.

Detailed Description

With reference to fig. 1 and 2, the engraving and milling machine comprises a machine body 10, a portal frame 20 fixed on the machine body, a cutter part 30 installed on the portal frame, and a product carrier 40 movably installed on the machine body, wherein a collecting tank 11 is arranged on the machine body, the cutter part and the collecting tank are both located in front of the portal frame, a manipulator 50 for conveying products to the product carrier is installed on the portal frame and located behind the portal frame, a feeding mechanism 60 for feeding the manipulator is located behind the portal frame, and the product carrier can penetrate through the portal frame along the front-back direction.

In operation, product carrier 40 is displaced rearwardly to the rear of gantry 20, and feed mechanism 60 feeds robot 50, which picks up product from feed mechanism 60 and transfers it to product carrier 40. The product carrier is moved to the front of the portal frame and is positioned below the cutter part 30, the cutter part processes the products on the product carrier, the transparent cover is closed during processing, and the cooling liquid spraying device on the cutter part 30 sprays cooling liquid to the products and the cutter. After the product is processed, the product carrier is moved to the rear of the portal frame 20, and the manipulator 50 transfers the product to the discharging container 70.

As shown in fig. 3, the left and right sides of the manipulator 50 are respectively provided with a feeding station and a discharging station, both of which are located behind the portal frame 20, the feeding mechanism is located on the feeding station, and the discharging station is provided with a discharging container 70, as shown in fig. 4, the manipulator includes a feeding device 52 and a discharging device 53 which are installed on the same moving module 51. The process of loading the loading device from the feeding station is performed simultaneously with the process of unloading the unloading device from the product carrier 40. Specifically, when the feeding device obtains the product to be processed from the feeding mechanism, the discharging device obtains the processed product from the product carrier, and when the feeding device places the product to be processed on the product carrier 40 along with the lifting and the translation of the motion module 51, the discharging device places the processed product into the discharging container 70. So, the design goes up unloading simultaneous movement, improves cnc engraving and milling machine's work efficiency.

As shown in fig. 3, the feeding mechanism 60 includes a vibrating plate 61, a pushing belt 62 with one end connected to the vibrating plate, and a limiting block 63 abutting against the other end of the pushing belt, the pushing belt is provided with a trough 620, and the limiting block is provided with a limiting groove 630 connected to the trough. The vibrating disk conveys the product to be processed into the trough, and the product moves to the limiting groove 630 along the trough. The loading device 52 of the robot 50 takes the product to be processed from the limit groove.

As shown in fig. 4, the feeding device 52 includes a first clamping jaw cylinder 521, a first pair of profiling supporting blocks 522 mounted on the first clamping jaw cylinder; the blanking device 53 comprises a second clamping jaw cylinder 531 and a second pair of profiling support blocks 532 arranged on the second clamping jaw cylinder. The motion module 51 is mounted on a motion system 54 capable of driving the motion module to regularly ascend and descend and to translate. The motion module can drive the feeding device to come to the limiting groove 630 by lifting and translating, and then the to-be-processed product is obtained and transferred to the product carrier 40. The lifting and translation of the motion module can drive the blanking device to come to the product carrier, and the finished product is obtained from the blanking device and transferred to the blanking container 70. This cnc engraving and milling machine processing has the product of hole site, and loading attachment 52 comes to spacing groove 630 department, and during first pair of profile modeling kickoff 522 inserted the product hole site downwards, later, first clamping jaw cylinder 521 propped open first pair of profile modeling kickoff to acquire the product. After the product is placed on the product carrier 40, the first jaw cylinder closes the first pair of profiling struts and the product falls from the first pair of profiling struts. The second pair of contoured braces 532 of the blanking device 53 take the finished product from the product carrier 40 on the same principle and release the product into the blanking container 70.

As shown in fig. 4, in order to ensure that the product to be processed can smoothly fall on the product carrier 40, the first pair of profiling supporting blocks 522 are provided with a lifting pushing bar 523, which is connected with a first lifting driving unit, and the first lifting driving unit is installed on the motion module 51. The bottom of the push bar is conical and clings to the side walls of the first pair of profiling supporting blocks. The push bar is driven by the first lifting driving unit to move downwards along the side walls of the first pair of profiling supporting blocks to push down the product. The number of the push bars is a plurality of, and the push bars are distributed around the first pair of profiling supporting blocks, the tops of all the push bars are connected with a first lifting driving unit, and the first lifting driving unit can be an air cylinder. In operation, first pair of profiling paddles 522 transfer product into product positioning slot 410 of product carrier 40, close together and no longer brace the product, and theoretically, rise and can disengage from the product. However, in practice, sticking may occur, causing the first pair of profiled gussets to carry product out of the product positioning slot 410. At this point, the push bar 523 moves downward, pushing the product away from the first pair of profile braces 522, ensuring that the product exits the first pair of profile braces and remains in the product positioning slot 410. The plurality of push bars 523 distributed around the first pair of profiling support blocks can press the product in the product positioning groove 410 properly, so that the product is accurately positioned in the product positioning groove.

As shown in fig. 4, in order to ensure that the finished product is separated from the second pair of profile supporting blocks, a gap is formed between the second pair of profile supporting blocks 532, an insert plate 533 is disposed above the gap and can pass through the gap downward, and the insert plate is connected to a second elevation driving unit 534, which is installed on the moving module 51. In operation, the second pair of profiling struts 532 delivers the finished product above the blanking container 70, the second pair of profiling struts closes and releases the product. In order to prevent the product from adhering to the second pair of profiling supporting blocks, the inserting plate 533 is inserted downwards and can pass through the gap between the second pair of profiling supporting blocks under the driving of the second lifting driving unit 534, so that the product can be detached from the second pair of profiling supporting blocks. Unlike the product to be processed being accurately positioned in the product positioning slot 410, the finished product is only required to fall into the blanking container 70, so that the plurality of push bars 523 are not required, and only the simple insertion plate 533 is required.

As shown in fig. 5, the product carrier 40 includes a vertical plate 41, a fixed block 42 installed on the vertical plate, a movable rod 43 movably fitted on the vertical plate, and an electromagnetic rod 44 disposed on the fixed block, wherein a guide groove 440 is disposed at one end of the electromagnetic rod, a guide protrusion 430 fitted with the guide groove is disposed at one end of the movable rod, a magnet 45 and a clamping block 46 are disposed on the movable rod, and a limiting edge 431 is disposed at one end of the movable rod having the guide protrusion to limit the magnet and the clamping block on the movable rod. The vertical plate is provided with a product positioning groove 410 with an opening at one side, and the clamping block is positioned at the opening side of the product positioning groove. The loading device 52 places the product to be processed into the product positioning slot, the electromagnetic rod 44 obtains forward current and has forward magnetic force, the magnetic force and the magnet 45 are mutually exclusive, under the action of the magnet, the clamping block 46 moves towards the product positioning slot to draw close, the product to be processed is clamped in the product positioning slot 410, and thus, the product is positioned in the product positioning slot. When the discharging device 53 needs to take the finished product out of the product positioning slot, the electromagnetic rod is reversely energized to have a reverse magnetic force, the magnetic force is attracted to the magnet 45, the clamping block 46 is far away from the product positioning slot 410 under the action of the magnet, the product in the product positioning slot is released, and the discharging device 53 can take the product out of the product positioning slot. In the design, the relation between the movable rod 43 and the fixed block 42 is designed to be movable, and due to the matching of the guide convex part 430 and the guide groove 440, no matter whether the movable rod is displaced relative to the vertical plate 41 under the action of magnetic force, the clamping block 46 is not influenced to clamp or release a product. If the relationship between the movable rod 43 and the vertical plate 41 or the relationship between the movable rod and the fixed block is designed to be a fixed relationship, under the long-term action of the magnetic force, the movable rod and the vertical plate or the movable rod and the fixed block are relatively loosened, which adversely affects the normal clamping or releasing of the product by the clamping block 46. The electromagnetic rod 44 is inserted into an electromagnetic coil 47, and the electromagnetic coil provides magnetic force to the electromagnetic rod by forward current or reverse current. The solenoid is fixed to the fixed block 42.

In operation, under the driving of the linear driving unit, the product carrier 40 is displaced along the guide rail 12 to the rear of the gantry 20, and the discharging device 53 obtains the finished product from the product positioning slot 410 and transfers the finished product to the upper part of the discharging container 70 for discharging. Simultaneously, the loading device 52 takes the product to be processed from the feeding mechanism 60 and delivers it to the product positioning slot 410 of the product carrier 40. Thereafter, the product carrier 40 is displaced along the guide rail 12 to the front of the gantry 20, and the cutter portion 30 processes the product. During processing, the transparent cover is closed, even the transparent cover can be designed to be in a normally closed state, the cooling liquid is sprayed to the product and the cutter by the cooling liquid spraying device, and the cooling liquid falls into the collecting tank 11 to be recovered.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description herein, since various changes and modifications can be made in the details of the embodiment and the application range according to the spirit of the present invention.

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