阅读说明：本技术 一种可对零件内环进行检测的非标零件钻孔装置 (Nonstandard part drilling device capable of detecting inner ring of part ) 是由 邓雨函 张锏鹤 于 2021-07-19 设计创作，主要内容包括：本发明公开了一种可对零件内环进行检测的非标零件钻孔装置,具体为传送机构、驱动轨、钻孔机构和内环检测机构,所述驱动轨两侧的一端均固定有传送机构,且传送机构上均匀设置有零件胚料,所述驱动轨顶部远离传送机构的一端固定有废料收集箱,且废料收集箱的内部设置有抽风机,该可对零件内环进行检测的非标零件钻孔装置,通过设置有传送机构、旋转座和活动座,旋转座旋转可使限位座的开口与上料传送带、夹持座或卸料传送带对齐,从而进行上料、装夹或卸料操作,活动座在驱动轨内移动,可带动零件胚料在上卸料工位、检测工位和钻孔工位之间进行转移,即一次装夹便可完成内环检测、开槽检测和多个位置的钻孔加工,操作更便捷。(The invention discloses a non-standard part drilling device capable of detecting an inner ring of a part, which comprises a conveying mechanism, a driving rail, a drilling mechanism and an inner ring detection mechanism, wherein the conveying mechanism is fixed at one end of each of two sides of the driving rail, part blanks are uniformly arranged on the conveying mechanism, a waste collection box is fixed at one end, far away from the conveying mechanism, of the top of the driving rail, an exhaust fan is arranged in the waste collection box, the non-standard part drilling device capable of detecting the inner ring of the part is provided with the conveying mechanism, a rotary seat and a movable seat, the rotary seat rotates to enable an opening of a limiting seat to be aligned with a feeding conveying belt, a clamping seat or an unloading conveying belt, so that feeding, clamping or unloading operation is carried out, the movable seat moves in the driving rail, and can drive the part blanks to be transferred among an upper unloading station, a detection station and the drilling station, namely, the inner ring detection can be finished through one-time clamping, Grooving detection and drilling processing at multiple positions, and the operation is more convenient.)

1. The utility model provides a can carry out non-standard part drilling equipment that detects to spare part inner ring, includes transport mechanism (1), drive rail (3), drilling mechanism (10) and inner ring detection mechanism (13), its characterized in that: one end of each of two sides of the driving rail (3) is fixed with a conveying mechanism (1), part blanks (2) are uniformly arranged on the conveying mechanisms (1), one end, far away from the conveying mechanisms (1), of the top of the driving rail (3) is fixed with a waste collection box (14), an exhaust fan (1401) is arranged inside the waste collection box (14), bearing tables (18) are mounted at the other ends of the two sides of the driving rail (3), a mounting frame (12) is fixed at one end, close to the conveying mechanisms (1), of the top of each bearing table (18), an inner ring detection mechanism (13) is fixed at the middle position of the inner top end of each mounting frame (12), a frame body (9) is fixed at one end, close to the waste collection box (14), of the top of each bearing table (18), a drilling mechanism (10) is mounted at the middle position of the inner top of each frame body (9), a movable seat (4) is mounted inside the driving rail (3), and the top end of the inner part of the movable seat (4) is provided with a rotating bin (6), the inner part of the rotating bin (6) is provided with a rotating seat (5), the top end of the rotating seat (5) is provided with a processing table (8), the top of the processing table (8) is fixed with a limiting seat (15), the middle position of one end of the inner part of the limiting seat (15) is provided with a touch sensor (20), the two sides of the inner part of the limiting seat (15) are both provided with mounting grooves (1501), the middle positions of the two sides of the limiting seat (15) are both fixed with micro hydraulic telescopic rods (23), the inner part of the mounting grooves (1501) are both fixed with slotting detection mechanisms (22), the output ends of the micro hydraulic telescopic rods (23) all penetrate through the side wall of the limiting seat (15) to be connected with the slotting detection mechanisms (22), the mounting plate (24) is mounted at one end of the top of the movable seat (4), and the mounting plate (24) is far away from the middle position of one end of the limiting seat (15) and is mounted with a hydraulic push rod (19), the middle position of the mounting plate (24) close to one end of the limiting seat (15) is fixed with a clamping seat (1901), and the output end of the hydraulic push rod (19) penetrates through the mounting plate (24) to be connected with the clamping seat (1901).

2. The non-standard part drilling device capable of detecting the inner ring of the part as claimed in claim 1, wherein: the conveying mechanism (1) comprises a rack (101), a conveying belt (103) located at the top of the rack (101) and baffle plates (102) fixed at two ends of the conveying belt (103), the distances between the baffle plates (102) are matched with the width of the part blank (2), and the heights of the top of the conveying belt (103) and the top of the processing table (8) are consistent.

3. The non-standard part drilling device capable of detecting the inner ring of the part as claimed in claim 1, wherein: the waste collection box is characterized in that a driving motor (11) is fixed at one end, close to a waste collection box (14), in the driving rail (3), driving screw rods (1101) are mounted on two sides of the inside of the driving rail (3), the output end of the driving motor (11) is in transmission connection with the driving screw rods (1101) through a belt pulley mechanism, and screw rod grooves (401) matched with the driving screw rods (1101) are formed in two sides of the bottom end of the inside of the movable seat (4).

4. The non-standard part drilling device capable of detecting the inner ring of the part as claimed in claim 1, wherein: the middle position department that mounting panel (24) one end was kept away from at sliding seat (4) top installs step motor (21), and is provided with drive gear (2101) in sliding seat (4) of step motor (21) below, the periphery of roating seat (5) all evenly is provided with driving gear (7), and driving gear (7) all mesh mutually with drive gear (2101), the output of step motor (21) constitutes gear drive with roating seat (5) through drive gear (2101) and is connected.

5. The non-standard part drilling device capable of detecting the inner ring of the part as claimed in claim 1, wherein: the drilling mechanism (10) comprises a drilling disc (1004), a drilling motor (1001) located in the center of the top of the drilling disc (1004), four guide pillars (1002) penetrating through the top of a frame body (9) and enabling the bottom of the frame body to be in threaded connection with the corners of the drilling disc (1004), two hydraulic cylinders (1003) with the tops connected with the top end inside the frame body (9), seven drill bits (1005) rotatably connected with the bottom of the drilling disc (1004) and a collection bin (1006) located in the center of the bottom of the drilling disc (1004), wherein suction ports (1402) are fixed at positions, close to the drill bits (1005), of the bottom of the collection bin (1006) through pipes, and the middle position of the bottom of the collection bin (1006) is connected with a top feeding port of a waste collection box (14) through a hose.

6. The non-standard part drilling device capable of detecting the inner ring of the part as claimed in claim 5, wherein: a driving bin (1004 a) is arranged in the drilling disc (1004), a gear set (1001 a) is arranged in the driving bin (1004 a), the output end of the drilling motor (1001) is in gear transmission connection with seven drill bits (1005) through the gear set (1001 a), and the positions of the seven drill bits (1005) correspond to the seven positions to be drilled on the part blank (2) one by one.

7. The non-standard part drilling device capable of detecting the inner ring of the part as claimed in claim 1, wherein: inner ring detection mechanism (13) include casing (1301), be located inside gear motor (1302) of casing (1301), hydraulic lifting rod (1303) with casing (1301) bottom swivelling joint and detect seat (1306) with hydraulic lifting rod (1303) bottom output connection, the bottom of detecting seat (1306) inlays and is equipped with ball (1306 a), and detects the both sides of seat (1306) and install roughness detector (1304) and first laser range finder (1305) respectively, detect seat (1306) and wait to detect the coincidence of the axis of part stock (2) inner ring, and detect processing platform (8) top of seat (1306) below and seted up and detect the identical locating hole of seat (1306) bottom shape.

8. The non-standard part drilling device capable of detecting the inner ring of the part as claimed in claim 1, wherein: the limiting seat (15) is designed to be provided with an opening at one end, the opening width of the limiting seat (15) is matched with the width of a part blank (2), a feeding bin (801) is arranged at the top of a processing table (8) on the inner side of the limiting seat (15), feeding rollers (16) are uniformly arranged in the feeding bin (801), a feeding motor (17) is arranged in the processing table (8) below the feeding bin (801), and the output end of the feeding motor (17) is in transmission connection with the feeding rollers (16) through a belt pulley mechanism.

9. The non-standard part drilling device capable of detecting the inner ring of the part as claimed in claim 1, wherein: slotting detection mechanism (22) including fixed plate (2202) of being connected with miniature hydraulic telescoping rod (23) output, constitute elastic connection's splint (2204) and with fixed plate (2202) threaded connection through spring buffering post (2203) and detection post (2205) that splint (2204) central authorities are run through to tip with fixed plate (2202), second laser range finder (2201) is installed to one side that fixed plate (2202) are close to splint (2204), and the one end that fixed plate (2202) are kept away from in detection post (2205) inlays and is equipped with pressure sensitive sensor (25).

Technical Field

The invention relates to the technical field of non-standard part machining, in particular to a non-standard part drilling device capable of detecting an inner ring of a part.

Background

The hardware fitting refers to machine parts or components made of hardware and small hardware products, can be used independently and can also be used as auxiliary tools, such as hardware tools, hardware parts, daily hardware, building hardware, security articles and the like, most of the hardware is not final consumer goods but is used as a matching product of industrial manufacturing, a semi-finished product, tools used in the production process and the like, the existing non-standard hardware fitting comprises a main body, wherein one end of the main body is a metal piece, one end of the main body is in a regular triangle shape, the other end of the main body is in a square shape, the center inside of the square shape is provided with a circular groove, the two sides of the square shape are provided with grooves, and drilling processing needs to be carried out on multiple positions of a blank during processing.

Traditional processingequipment can't carry out fine fixed to this irregular non-standard part of shape, and can't accomplish the drilling processing of inner ring detection, fluting detection and a plurality of positions under the condition of clamping once, and the efficiency of processing is lower.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a non-standard part drilling device capable of detecting an inner ring of a part, and solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: a nonstandard part drilling device capable of detecting an inner ring of a part comprises a conveying mechanism, a driving rail, a drilling mechanism and an inner ring detection mechanism, wherein the conveying mechanism is fixed at one end of two sides of the driving rail, part blanks are uniformly arranged on the conveying mechanism, a waste collecting box is fixed at one end, far away from the conveying mechanism, of the top of the driving rail, an exhaust fan is arranged in the waste collecting box, a bearing platform is installed at the other end of two sides of the driving rail, a mounting frame is fixed at one end, close to the conveying mechanism, of the top of the bearing platform, the inner ring detection mechanism is fixed at the middle position of the top end in the mounting frame, a frame body is fixed at one end, close to the waste collecting box, of the top of the bearing platform, the drilling mechanism is installed at the middle position of the top end in the frame body, a movable seat is installed in the driving rail, and a rotary bin is arranged at the top end of the movable seat, the utility model discloses a hydraulic pressure telescopic handle, including a rotating bin, a rotating seat, a mounting groove, a mounting panel, a miniature hydraulic telescopic rod, a clamping seat, a processing platform, a limiting seat, a touch sensor, a mounting groove, a miniature hydraulic telescopic rod, a slotting detection mechanism, a limiting seat lateral wall and a slotting detection mechanism are all fixed on the inside of rotating bin, and the top of rotating bin installs the processing platform, the top of processing platform is fixed with the limiting seat, and the intermediate position department of limiting seat one end all is fixed with miniature hydraulic telescopic rod to the intermediate position department of limiting seat both sides, and miniature hydraulic telescopic rod's output all runs through the limiting seat lateral wall and is connected with the slotting detection mechanism, the mounting panel is kept away from the intermediate position department of limiting seat one end and installs hydraulic rod, the mounting panel is close to the intermediate position department of limiting seat one end and is fixed with the clamping seat, and hydraulic rod's output runs through the mounting panel and is connected with the clamping seat.

Optionally, the conveying mechanism comprises a frame, a conveying belt located at the top of the frame and baffles fixed at two ends of the conveying belt, the distance between the baffles is identical to the width of the part blank, and the heights of the conveying belt and the top of the processing table are identical.

Optionally, a driving motor is fixed to one end, close to the waste collecting box, inside the driving rail, driving lead screws are installed on two sides inside the driving rail, an output end of the driving motor is in transmission connection with the driving lead screws through a belt pulley mechanism, and lead screw grooves matched with the driving lead screws are formed in two sides of the bottom end inside the movable seat.

Optionally, the intermediate position department that mounting panel one end was kept away from at the sliding seat top installs step motor, and is provided with drive gear in the sliding seat of step motor below, the periphery of roating seat all evenly is provided with the driving gear, and the driving gear all meshes with drive gear mutually, step motor's output passes through drive gear and roating seat constitution gear drive and is connected.

Optionally, drilling mechanism includes drilling dish, the drilling motor that is located drilling dish top central authorities, four guide pillars that run through support body top and bottom and drilling dish turning threaded connection, the pneumatic cylinder that two tops and the inside top of support body are connected, seven drill bits with drilling dish bottom swivelling joint and the collection storehouse that is located drilling dish bottom central point department, the position department that the collection storehouse bottom is close to the drill bit all is fixed with through the pipe and inhales the material mouth, and the intermediate position department of collecting the storehouse bottom is connected with waste collecting box's top feed inlet through the hose.

Optionally, a driving bin is arranged inside the drilling disc, a gear set is arranged in the driving bin, the output end of the drilling motor is in gear transmission connection with seven drill bits through the gear set, and the positions of the seven drill bits correspond to the seven positions to be drilled on the part blank one by one.

Optionally, inner ring detection mechanism includes the casing, is located the inside gear motor of casing, with casing bottom swivelling joint's hydraulic lifting rod and the detection seat of being connected with hydraulic lifting rod bottom output, the bottom of detecting the seat is inlayed and is equipped with the ball, and detects the both sides of seat and install roughness measurement appearance and first laser range finder respectively, detect the seat and wait to detect the inner annular axis coincidence of part stock, and detect the processing bench top of seat below and set up and detect the identical locating hole of seat bottom shape.

Optionally, the limiting seat is designed to be an opening at one end, the opening width of the limiting seat is matched with the width of a part blank, a feeding bin is arranged at the top of the machining table on the inner side of the limiting seat, feeding rollers are uniformly arranged in the feeding bin, a feeding motor is arranged in the machining table below the feeding bin, and the output end of the feeding motor is in transmission connection with the feeding rollers through a belt pulley mechanism.

Optionally, fluting detection mechanism includes the fixed plate of being connected with miniature hydraulic telescoping rod output, constitutes elastic connection's splint and runs through splint central authorities with fixed plate threaded connection and tip through the detection post through spring buffering post and fixed plate, the fixed plate is close to one side of splint and installs second laser range finder, and detects the post and keep away from the one end of fixed plate and inlay and be equipped with pressure sensitive sensor.

The invention provides a non-standard part drilling device capable of detecting an inner ring of a part, which has the following beneficial effects:

1. the nonstandard part drilling device capable of detecting the inner ring of the part is provided with a conveying mechanism, a rotary seat and a movable seat, wherein the conveying mechanism can convey a part blank to be processed to the upper part of a processing table, a feeding roller rotates to enable the part blank on the processing table to be inserted into a limiting seat, then the rotary seat rotates 90 degrees, the triangular end of the part blank is rightly opposite to a clamping seat, a hydraulic push rod extends to drive the clamping seat to be close to the part blank and is limited and fixed by matching with the inner wall of the limiting seat, the opening of the limiting seat can be aligned with a feeding conveyor belt, the clamping seat or an unloading conveyor belt by the rotation of the rotary seat, so that the feeding, clamping or unloading operation is carried out, the movable seat moves in a driving rail and can drive the part blank to be transferred among an unloading station, a detection station and a drilling station, namely, the inner ring detection, the slotting detection and the drilling processing of multiple positions can be finished by one-time clamping, the operation is more convenient.

2. This can carry out non-standard part drilling equipment that detects to part inner ring, through being provided with inner ring detection mechanism and fluting detection mechanism, inner ring detection mechanism can stretch into in the inner ring of part stock, roughness detector and first laser range finder can detect the internal diameter and the inner wall roughness of part stock, fluting mechanism can detect the fluting degree of depth of stock part both sides, detect the part earlier before processing, avoid carrying out useless processing to the defective products, cause the waste of resource.

3. This can carry out nonstandard part drilling equipment that detects to part inner ring through being provided with drilling mechanism, and its drilling motor can drive seven drill bits simultaneously through the transmission of gear train and rotate, treats the drilling position to seven of part stock simultaneously and drills, need not to treat repeatedly that the drilling position fixes a position, and machining efficiency is higher, and the hole site of processing is more accurate.

4. This can carry out nonstandard part drilling equipment that detects to part inner ring, through being provided with waste collecting box, drilling mechanism bottom is equipped with collects the storehouse, collect the position department that the storehouse outside is close to the drill bit and all inhale the material mouth through pipe mounting, during drilling, air exhauster work in the waste collecting box, can be with the waste material that the drilling produced by inhaling in the material mouth inhales the collection storehouse, get into waste collecting box by the hose again in, accomplish the collection of waste material, avoid the waste material to scatter all around and pollute operational environment, influence the precision of processing.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic side view of the cross-sectional structure of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic structural diagram of a non-standard component of the present invention;

FIG. 5 is a schematic side sectional view of the movable seat of the present invention;

FIG. 6 is a schematic view of the front cross-sectional structure of the inner ring detection mechanism according to the present invention;

FIG. 7 is a schematic view of the front cross-sectional structure of the drilling mechanism of the present invention;

FIG. 8 is a schematic top sectional view of a drilling disk according to the present invention;

fig. 9 is a schematic front view of the slotting detection mechanism of the present invention.

In the figure: 1. a transport mechanism; 101. a frame; 102. a baffle plate; 103. a conveyor belt; 2. a part blank; 3. a drive rail; 4. a movable seat; 401. a screw rod groove; 5. a rotating base; 6. rotating the bin; 7. a transmission gear; 8. a processing table; 801. a feeding bin; 9. a frame body; 10. a drilling mechanism; 1001. a drilling motor; 1001a, a gear set; 1002. a guide post; 1003. a hydraulic cylinder; 1004. drilling a hole plate; 1004a, a drive bin; 1005. a drill bit; 1006. a collection bin; 11. a drive motor; 1101. driving the screw rod; 12. a mounting frame; 13. an inner ring detection mechanism; 1301. a housing; 1302. a reduction motor; 1303. a hydraulic lifting rod; 1304. a roughness detector; 1305. a first laser range finder; 1306. a detection seat; 1306a, a ball; 14. a waste collection tank; 1401. an exhaust fan; 1402. a material sucking port; 15. a limiting seat; 1501. mounting grooves; 16. a feed roller; 17. a feeding motor; 18. a bearing table; 19. a hydraulic push rod; 1901. a clamping seat; 20. touching the sensor; 21. a stepping motor; 2101. a transmission gear; 22. a slotting detection mechanism; 2201. a second laser rangefinder; 2202. a fixing plate; 2203. a spring buffer post; 2204. a splint; 2205. a detection column; 23. a micro hydraulic telescopic rod; 24. a fixing plate; 25. a pressure sensitive sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus are not to be construed as limiting the present invention, and furthermore, the terms "first", "second", "third", and the like are only used for descriptive purposes and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate, and those skilled in the art will understand the specific meaning of the above terms in the present invention in specific situations.

Referring to fig. 1 to 9, the present invention provides a technical solution: the utility model provides a can carry out nonstandard part drilling equipment that detects to part inner ring, including transport mechanism 1, drive rail 3, drilling mechanism 10 and inner ring detection mechanism 13, the one end of drive rail 3 both sides all is fixed with transport mechanism 1, and evenly be provided with part stock 2 on transport mechanism 1, transport mechanism 1 includes frame 101, be located the conveyer belt 103 at frame 101 top and be fixed in the baffle 102 at conveyer belt 103 both ends, and the distance between the baffle 102 all is identical with the width of part stock 2, conveyer belt 103 is highly uniform with the top of processing platform 8, two baffles 102 can be arranged in order to the part, make it can insert spacing seat 15 smoothly, highly uniform design makes part stock 2 can freely shift between conveyer belt 103 and processing platform 8, the material loading is unloaded more convenient, the design is more reasonable.

One end that drive rail 3 is inside to be close to garbage collection box 14 is fixed with driving motor 11, and drive lead screw 1101 is all installed to the inside both sides of drive rail 3, driving motor 11's output passes through belt pulley mechanism and constitutes the transmission with drive lead screw 1101 and is connected, and the both sides of the inside bottom of sliding seat 4 all set up with drive lead screw 1101 matched with lead screw groove 401, driving motor 11 work, accessible lead screw transmission effect drives sliding seat 4 back-and-forth movement in drive rail 3, thereby make, part stock 2 is at last unloading station, shift between detection station and the drilling station, clamping promptly alright accomplish the inner ring and detect, fluting detects and drilling processing, it is more convenient to operate.

A waste collection box 14 is fixed at one end of the top of the driving rail 3 far away from the conveying mechanism 1, an exhaust fan 1401 is arranged inside the waste collection box 14, bearing platforms 18 are installed at the other ends of the two sides of the driving rail 3, an installation frame 12 is fixed at one end of the top of the bearing platform 18 close to the conveying mechanism 1, an inner ring detection mechanism 13 is fixed at the middle position of the top end inside the installation frame 12, the inner ring detection mechanism 13 comprises a shell 1301, a speed reducing motor 1302 positioned inside the shell 1301, a hydraulic lifting rod 1303 rotatably connected with the bottom of the shell 1301 and a detection seat 1306 connected with the output end of the bottom of the hydraulic lifting rod 1303, balls 1306a are embedded at the bottom end of the detection seat 1306, a roughness detector 1304 and a first laser range finder 1305 are respectively installed at the two sides of the detection seat 1306, the detection seat 1306 coincides with the central axis of the inner ring of the part blank 2 to be detected, and a positioning hole matched with the shape of the bottom of the detection seat 1306 is formed at the top of the processing platform 8 below the detection seat 1306, hydraulic lifting rod 1303 extends, it moves down to drive detects seat 1306, the bottom of detecting seat 1306 inserts in the locating hole at processing platform 8 top, roughness detector 1304 and first laser range finder 1305 detect the internal diameter and the inner wall roughness of the inner ring of part stock 2 this moment, gear motor 1302 works when detecting, it is rotatory to drive detects seat 1306, thereby make roughness detector 1304 and first laser range finder 1305 carry out all-round detection to the inner ring of part stock 2, detect the part earlier before processing, avoid carrying out useless processing to the defective products, cause the waste of resource, the locating hole design can be spacing to detecting seat 1306 position, avoid it to take place the displacement when rotatory, influence the accuracy that detects, it is more accurate to detect.

A frame body 9 is fixed at one end of the top of the bearing table 18 close to the waste collecting box 14, a drilling mechanism 10 is installed at the middle position of the top end inside the frame body 9, the drilling mechanism 10 comprises a drilling disk 1004, a drilling motor 1001 located at the center of the top of the drilling disk 1004, four guide posts 1002 penetrating through the top of the frame body 9 and having the bottoms in threaded connection with the corners of the drilling disk 1004, two hydraulic cylinders 1003 having the tops in connection with the top end inside the frame body 9, seven drill bits 1005 in rotary connection with the bottom of the drilling disk 1004, and a collecting bin 1006 located at the center of the bottom of the drilling disk 1004, suction ports 1402 are fixed at the positions of the bottom of the collecting bin 1006 close to the drill bits 1005 through pipes, the middle position of the bottom of the collecting bin 1006 is connected with a top feed port of the waste collecting box 14 through a hose, the hydraulic cylinders 1003 extend to drive the drilling disk 1004 to move downwards, and the drill bits 1005 contacts with the part to be drilled of the part blank 2 to drill holes, during processing, the exhaust fan 1401 in the waste collection box 14 works, waste generated by drilling can be sucked into the collection bin 1006 through the suction port 1402, and then enters the waste collection box 14 through the hose, so that the waste is recycled, and the situation that the waste is scattered to pollute the working environment and affect the processing precision is avoided.

The driving bin 1004a is arranged inside the drilling disc 1004, the gear set 1001a is arranged in the driving bin 1004a, the output end of the drilling motor 1001 is in gear transmission connection with the seven drill bits 1005 through the gear set 1001a, the positions of the seven drill bits 1005 are in one-to-one correspondence with the seven positions to be drilled on the part blank 2, the drilling motor 1001 works, the seven drill bits 1005 are driven to rotate synchronously through the transmission effect of the gear set 1001a, meanwhile, the seven positions to be drilled of the part blank 2 are drilled, the seven positions to be drilled can be machined through one-to-one correspondence design, the seven positions to be drilled do not need to be repeatedly positioned, the machining efficiency is higher, and the machined hole positions are more accurate.

The internally mounted of drive rail 3 has movable seat 4, and the top of movable seat 4 inside is seted up there is rotary bin 6, the intermediate position department that mounting panel 24 one end was kept away from at the top of movable seat 4 installs step motor 21, and be provided with drive gear 2101 in the movable seat 4 of step motor 21 below, the periphery of roating seat 5 all evenly is provided with driving tooth 7, and driving tooth 7 all meshes with drive gear 2101 mutually, step motor 21's output constitutes gear drive through drive gear 2101 and roating seat 5 and is connected, step motor 21 work, it is rotatory to drive roating seat 5 through the gear drive effect, roating seat 5 is rotatory can make spacing seat 15's opening and material loading side conveyer belt 103, grip slipper 1901 or unload side conveyer belt 103 and align, thereby carry out the material loading, the clamping or the operation of unloading, the design is more reasonable.

The inside of the rotating bin 6 is provided with a rotating seat 5, the top end of the rotating seat 5 is provided with a processing platform 8, the top of the processing platform 8 is fixed with a limiting seat 15, the middle position of one end inside the limiting seat 15 is provided with a touch sensor 20, the limiting seat 15 is designed to be an opening at one end, the opening width of the limiting seat 15 is matched with the width of the part blank 2, the top of the processing platform 8 at the inner side of the limiting seat 15 is provided with a feeding bin 801, feeding rollers 16 are uniformly arranged in the feeding bin 801, a feeding motor 17 is arranged in the processing platform 8 below the feeding bin 801, the output end of the feeding motor 17 is in transmission connection with the feeding rollers 16 through a belt pulley mechanism, the part blank 2 can be smoothly carried in the limiting seat 15 through the opening at one end, the design of the width matching enables the limiting seat 15 to limit the position of the part blank 2, the left and right deviation of the part blank 2 is avoided, and the triangle end part can be just aligned with the clamping seat 1901, the clamping is convenient to be smoothly carried out, and the design is more reasonable.

Mounting grooves 1501 are formed in two sides of the interior of the limiting seat 15, a miniature hydraulic telescopic rod 23 is fixed in the middle of two sides of the limiting seat 15, a slot detection mechanism 22 is fixed in the interior of the mounting grooves 1501, the output end of the miniature hydraulic telescopic rod 23 penetrates through the side wall of the limiting seat 15 and is connected with the slot detection mechanism 22, the slot detection mechanism 22 comprises a fixing plate 2202 connected with the output end of the miniature hydraulic telescopic rod 23, a clamping plate 2204 elastically connected with the fixing plate 2202 through a spring buffer column 2203, and a detection column 2205 in threaded connection with the fixing plate 2202 and having an end penetrating through the center of the clamping plate 2204, a second laser range finder 2201 is installed on one side of the fixing plate 2202 close to the clamping plate 2204, a pressure-sensitive sensor 25 is embedded in one end of the detection column 2205 far away from the fixing plate 2202, the miniature hydraulic telescopic rod 23 extends to drive the slot detection mechanism 22 to approach to a part blank 2, and the end of the detection column 2205 is inserted into a slot of the part, at this time, the clamping plate 2204 is blocked outside the slot, the clamping plate 2204 can be tightly attached to the outer wall of the part blank 2 under the action of the spring elasticity of the spring buffering column 2203 to clamp the part blank 2, when the pressure-sensitive sensor 25 at the end of the detection column 2205 is contacted with the inner wall of the slot, the second laser range finder 2201 can detect the distance between the fixing plate 2202 and the clamping plate 2204 so as to determine the depth of the slot, the depth of the slot is detected before processing, and waste of resources caused by useless processing on defective products can be avoided.

Mounting panel 24 is installed to the one end at sliding seat 4 top, and mounting panel 24 keeps away from the intermediate position department of spacing seat 15 one end and installs hydraulic push rod 19, and mounting panel 24 is close to the intermediate position department of spacing seat 15 one end and is fixed with grip slipper 1901, and hydraulic push rod 19's output runs through mounting panel 24 and is connected with grip slipper 1901.

In summary, when the nonstandard part drilling device capable of detecting the inner ring of the part is used, a power supply is switched on, a part blank 2 to be processed firstly falls onto a conveyor belt 103 of a left conveying mechanism 1 from the previous process, a baffle plate 102 can align the part blank to align with an opening of a limiting seat 15, then the conveyor belt 103 works to drive the part blank 2 to be transferred to the top of a processing table 8, then a feeding motor 17 works to drive a feeding roller 16 to synchronously rotate, so that the part blank 2 is inserted into the limiting seat 15, a micro hydraulic telescopic rod 23 extends to drive a slotting detection mechanism 22 to approach the part blank 2, the end part of a detection column 2205 is inserted into a slot of the part, at the moment, a clamping plate 2204 is blocked outside the slot, the clamping plate 2204 can cling to the outer wall of the part blank 2 under the action of the spring elastic force of a spring buffer column 2203 to clamp the part blank 2, when a pressure-sensitive sensor 25 at the end part 2205 contacts with the inner wall of the slot, the second laser range finder 2201 can detect the distance between the fixed plate 2202 and the clamping plate 2204 so as to determine the depth of the groove, if the groove depth is qualified, the stepping motor 21 works to drive the rotating seat 5 to rotate 90 degrees through the gear transmission action so that the triangular end of the part blank 2 is rightly opposite to the clamping seat 1901, the hydraulic push rod 19 extends to drive the clamping seat 1901 to be close to the part blank 2, the part is fixed by matching with the inner wall of the limiting seat 15, then the driving motor 11 works to drive the movable seat 4 to move to the lower part of the inner ring detection mechanism 13 through the screw transmission action, the hydraulic lifting rod 1303 extends to drive the detection seat 1306 to move downwards, the bottom of the detection seat 1306 is inserted into the positioning hole at the top of the processing table 8, at the moment, the roughness detector 1304 and the first laser range finder 1305 detect the inner diameter and the roughness of the inner wall of the inner ring of the part blank 2, and the speed reducing motor 1302 works simultaneously, the detection seat 1306 is driven to rotate, so that the roughness detector 1304 and the first laser range finder 1305 detect the inner ring of the part blank 2 in all directions, if the detection is not qualified, the movable seat 4 returns to a feeding station, if the detection is qualified, the movable seat 4 is transferred to the lower part of the drilling mechanism 10, the hydraulic cylinder 1003 extends to drive the drilling disc 1004 to move downwards, the drill 1005 contacts the part to be drilled of the part blank 2, then the drilling motor 1001 works to drive the seven drill 1005 to synchronously rotate through the transmission action of the gear set 1001a, meanwhile, the seven parts to be drilled of the part blank 2 are drilled, the exhaust fan 1401 in the waste collection box 14 works during processing, waste generated by drilling can be sucked into the collection bin 1006 through the suction port 1402, then enters the waste collection box 14 through a hose to complete the recovery of the waste, after the processing is completed, the movable seat 4 returns to the feeding station, the clamping seat 1901 loosens the part blank 2, in the installation groove 1501 is withdrawed by the slotting detection mechanism 22, then the stepping motor 21 works to drive the rotating seat 5 to rotate 90 degrees again, so that the triangular end of the part blank 2 is aligned with the right-side conveyor belt 103, the feeding motor 17 works to drive the feeding roller 16 to rotate, and the part blank 2 is transferred to the right-side conveyor belt 103 to complete discharging.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.