CN108907284B

CN108907284B - Drilling device of automatic lock shell machining machine tool

Info

Publication number: CN108907284B
Application number: CN201810935101.6A
Authority: CN
Inventors: 余彦臻; 曾雄飞; 李军
Original assignee: Zhongshan Jixin Core Lock Co ltd
Current assignee: Zhongshan Jixin Core Lock Co ltd
Priority date: 2018-08-16
Filing date: 2018-08-16
Publication date: 2020-08-21
Anticipated expiration: 2038-08-16
Also published as: CN108907284A

Abstract

The invention relates to a drilling device of an automatic lock shell processing machine tool, which comprises a base, wherein a controller and a sliding track which can be used for sliding a lock shell are arranged in the base, a conveying mechanism which is positioned at the lower end of the sliding track and can drive the lock shell to slide in the sliding track is arranged in the base, the lock shell is provided with a liner inserting hole, the base is also provided with a drilling mechanism for processing the liner inserting hole and a positioning mechanism for fixing the lock shell on the sliding track, the drilling mechanism can be suitable for a deburring process or a bead expanding process for processing the liner inserting hole by replacing different cutters and changing the depth of feed, and the application range is wide; in addition, the conveying mechanism, the drilling mechanism and the positioning mechanism are respectively and electrically connected with the controller, so that automatic control is realized, the automatic drilling machine tool is matched with other mechanisms of an automatic lock shell machining machine tool in the prior art, the steps of feeding, positioning, machining, returning and the like of each procedure are automatically completed, the continuous operation between each procedure before and after is realized, the accumulation of machining errors is reduced, and the product percent of pass is improved.

Description

Drilling device of automatic lock shell machining machine tool

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of machining tools, in particular to a drilling device of an automatic machining tool for a lock shell.

[ background of the invention ]

The processing process of the lock shell comprises the working procedures of reaming and deburring, inserting a liner hole and deburring, expanding a ball hole, drilling a screw hole, chamfering a screw hole, tapping a screw tooth, chamfering a middle slotted hole and the like, the processing mode in the prior art is to put the workpieces into different processing machines one by one for processing through manpower, because the continuous operation can not be carried out among the working procedures, a large amount of labor force is needed to complete the feeding, the blanking and the conveying, the labor intensity is high, the production efficiency is low, moreover, the inconsistency among the working procedures can also cause the accumulation of processing errors, the product percent of pass is low, therefore, a lock shell automatic processing machine tool with high automation degree and integrating multiple functions is required to be designed, but the deburring device and the drilling device in the prior art cannot be directly butted with automatic equipment or an automatic assembly line, therefore, the invention is a drilling device for lock case automatic processing machine tool, which can be operated continuously with other processes.

In addition, burring device and drilling equipment among the prior art are the unipolar and remove, and lock shell has a plurality of courage holes of inserting, consequently need artifical position of adjusting lock shell in anchor clamps many times, just can accomplish the burring process or the hole process of expanding the pearl of inserting the courage hole, and degree of automation is low, and intensity of labour is big, generates inefficiency.

[ summary of the invention ]

In order to solve the problems, the invention provides the drilling device of the lock shell automatic processing machine tool, which realizes continuous operation with other procedures by adding structures such as a sliding track, a conveying mechanism, a positioning mechanism and the like, thereby reducing the accumulation of processing errors and improving the product percent of pass.

In order to achieve the purpose, the invention provides the following technical scheme:

a drilling device of an automatic lock shell machining machine tool comprises a base, wherein a controller and a sliding track capable of allowing a lock shell to slide are arranged in the base, a conveying mechanism which is located at the lower end of the sliding track and can drive the lock shell to slide in the sliding track is arranged in the base, the lock shell is provided with a liner insertion hole, and a drilling mechanism for machining the liner insertion hole and a positioning mechanism for fixing the lock shell on the sliding track are further arranged on the base; the conveying mechanism, the drilling mechanism and the positioning mechanism are respectively electrically connected with the controller.

As a preferred embodiment, further defined is: drilling mechanism include with base fixed connection's first support is in with the setting horizontal sliding pedestal seat on the first support, be provided with its lateral shifting's vertical sliding pedestal relatively on the horizontal sliding pedestal seat, be provided with its longitudinal shifting's relatively unit head on the vertical sliding pedestal seat, the output shaft of unit head has the cutter.

As a preferred embodiment, further defined is: the transverse sliding table base is provided with a transverse screw rod and two transverse sliding rails symmetrically distributed on two sides of the transverse screw rod, the transverse sliding table base is also provided with a transverse power motor capable of driving the transverse screw rod to rotate, the lower end of the longitudinal sliding table base is fixedly connected with a transverse sliding plate, and the lower end of the transverse sliding plate is provided with a transverse sliding block matched with the transverse sliding rail and a transverse nut in threaded connection with the transverse screw rod; the vertical slide block is characterized in that a vertical screw rod and two vertical slide rails symmetrically distributed on two sides of the vertical screw rod are arranged on the vertical slide block seat, the vertical slide block seat is further provided with a vertical power motor capable of driving the vertical screw rod to rotate, a second support is arranged at the side end of the power head, a vertical slide plate is arranged at the lower end of the second support, and the lower end of the vertical slide plate is provided with a vertical slide block matched with the vertical slide rail and a vertical nut connected with the vertical screw rod through threads.

As a preferred embodiment, further defined is: the cutting depth of the cutter is greater than or equal to the depth of the gallbladder insertion hole; the cutting radius of the cutter is equal to the radius of the gallbladder inserting hole.

As a preferred embodiment, further defined is: the cutting depth of the cutter is smaller than the depth of the gallbladder inserting hole; the cutting radius of the cutter is larger than that of the gallbladder insertion hole.

As a preferred embodiment, further defined is: the lower end of the lock shell is provided with a middle groove, the conveying mechanism comprises a feeding plate and a feeding power assembly which drives the feeding plate to reciprocate up and down, left and right relative to the sliding track, and the upper end of the feeding plate is provided with a plurality of shifting block seats which can be inserted into the middle groove and drive the lock shell to move backwards relative to the sliding track.

As a preferred embodiment, further defined is: the feeding power assembly comprises a rail arranged in the base and a lifting connecting plate positioned at the lower end of the rail, a lifting slide block which is matched with the rail and can slide left and right relative to the rail is arranged on the lifting connecting plate, a lifting block which can slide up and down relative to the lifting slide block is arranged in the lifting slide block, and the upper end of the lifting block is fixedly connected with the feeding plate; the lifting connecting plate is also provided with a lifting cylinder which can drive the feeding plate to move up and down; the lifting connecting plate is also connected with a rodless cylinder which can drive the lifting connecting plate to move left and right relative to the rail.

As a preferred embodiment, further defined is: the lower extreme of lift connecting plate still is provided with first removal connecting plate and second and removes the connecting plate, the both ends of rodless cylinder respectively with first removal connecting plate and second remove connecting plate fixed connection, the sliding block of rodless cylinder with base fixed connection, be provided with speed regulator respectively on first removal connecting plate and the second removal connecting plate.

As a preferred embodiment, further defined is: the sliding track comprises a first sliding rail and a second sliding rail which are symmetrically distributed on the base, and a sliding space for the lock shell to slide is formed between the first sliding rail and the second sliding rail; the positioning mechanism comprises a positioning sliding block and a positioning block which is arranged in the positioning sliding block and can slide back and forth relative to the positioning sliding block, a sliding groove for the positioning block to slide is formed in the positioning sliding block, the lower end of the positioning sliding block is fixedly connected with the base, a positioning cylinder capable of driving the positioning block to slide back and forth in the sliding groove is arranged at the rear end of the positioning sliding block, a positioning hole for the positioning block to penetrate through and be inserted into the middle groove is formed in the side end of the first sliding rail, and during positioning, the front end of the positioning block penetrates through the positioning hole and is inserted into the middle groove.

As a preferred embodiment, further defined is: the sliding track further comprises a plurality of reinforcing members, one end of each reinforcing member is fixedly connected with the upper end of the first sliding rail, and the other end of each reinforcing member is fixedly connected with the upper end of the second sliding rail.

The beneficial effects of the invention are as follows:

1. the drilling mechanism comprises a first support fixedly connected with the base and a transverse sliding table seat arranged on the first support, a longitudinal sliding table seat capable of transversely moving relative to the transverse sliding table seat is arranged on the transverse sliding table seat, a power head capable of longitudinally moving relative to the longitudinal sliding table seat is arranged on the longitudinal sliding table seat, an output shaft of the power head is connected with a cutter, the X-axis, the Y-axis and the Z-axis can move, and the drilling mechanism can be suitable for a deburring process of inserting a liner hole or a process of expanding a bead hole by replacing different cutters and changing the depth of feed, is wide in application range, high in automation degree and capable of effectively improving production efficiency;

2. the conveying mechanism, the drilling mechanism and the positioning mechanism are respectively and electrically connected with the controller, so that automatic control is realized, all the mechanisms are tightly matched, the production efficiency is effectively improved, and the automation degree is high;

3. the drilling mechanism is matched with other mechanisms of the lock shell automatic machining machine tool in the prior art through the sliding track and the conveying mechanism, the steps of feeding, positioning, machining, returning and the like of a liner inserting hole deburring procedure or a ball expanding hole procedure are automatically completed, continuous operation between the front procedure and the rear procedure is realized, accumulation of machining errors is reduced, and the product percent of pass is improved.

[ description of the drawings ]

FIG. 1 is a schematic structural diagram of the invention;

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

FIG. 3 is a schematic view of the lock housing;

FIG. 4 is a schematic structural view of a drilling mechanism;

FIG. 5 is an exploded schematic view of the drilling mechanism;

FIG. 6 is a schematic view of the structure of the conveying mechanism;

FIG. 7 is an exploded schematic view of the transport mechanism;

fig. 8 is a schematic structural view of the positioning mechanism.

[ detailed description ] embodiments

The invention is described in further detail below with reference to the following figures and detailed description:

as shown in the attached drawings 1 to 8, the drilling device of the lock shell automatic processing machine tool comprises a base 1, wherein a controller and a sliding track 2 for a lock shell 3 to slide are arranged in the base 1, the controller can adopt a single chip microcomputer or a programmable controller and the like commonly used by the automatic machine tool in the prior art, and automatic control is realized through a numerical control system. The lock shell machining device is characterized in that a conveying mechanism 4 which is located at the lower end of the sliding track 2 and can drive the lock shell 3 to slide in the sliding track 2 is arranged in the base 1, the sliding track 2 and the conveying mechanism 4 can be matched with a reaming device, a screw hole device, a tapping device and the like of an automatic lock shell machining machine tool in the prior art, the lock shell of the previous procedure is conveyed to the previous procedure for machining, the lock shell of the previous procedure is conveyed to the next procedure for machining, continuous operation between the previous procedure and the next procedure is achieved, machining error accumulation is reduced, and product percent of pass is improved. The lock shell 3 is provided with a liner inserting hole 31, and the base 1 is also provided with a drilling mechanism 6 for processing the liner inserting hole 31 and a positioning mechanism 5 for fixing the lock shell 3 on the sliding track 2; conveying mechanism 4, drilling mechanism 6 and positioning mechanism 5 respectively with the controller electricity is connected, realizes automated control, closely cooperates between each mechanism, effectively improves production efficiency, and degree of automation is high.

In this embodiment, drilling mechanism 6 include with base 1 fixed connection's first support 60 is in with the setting horizontal sliding pedestal seat 61 on the first support 60, be provided with its lateral shifting's vertical sliding pedestal seat 62 relatively on the horizontal sliding pedestal seat 61, be provided with its longitudinal shifting's relatively unit head 63 on the vertical sliding pedestal seat 62, the output shaft of unit head 63 has the cutter, can realize the removal of X axle, Y axle and Z axle to through changing different cutters and changing the depth of cut, applicable in the process of inserting courage hole burring process or expanding the pearl hole process, application scope is wide, and degree of automation is high, effectively improves production efficiency.

More specifically, the transverse slide pedestal 61 is provided with a transverse screw rod 64 and two transverse slide rails 65 symmetrically distributed on two sides of the transverse screw rod 64, the transverse slide pedestal 61 is further provided with a transverse power motor 66 capable of driving the transverse screw rod 64 to rotate, the lower end of the longitudinal slide pedestal 62 is fixedly connected with a transverse slide plate 67, and the lower end of the transverse slide plate 67 is provided with a transverse slide block 68 matched with the transverse slide rail 65 and a transverse nut 69 in threaded connection with the transverse screw rod 64; the X-axis axial movement of the longitudinal slide pedestal 62 on the transverse slide pedestal 61 is realized through the matching of the transverse screw rod 64 and the transverse nut 69 and the matching of the transverse slide rail 65 and the transverse slide block 68, the structure is simple, and the movement is stable. The longitudinal slide pedestal 62 is provided with a longitudinal screw rod 70 and two longitudinal slide rails 71 symmetrically distributed on two sides of the longitudinal screw rod 70, the longitudinal slide pedestal 62 is further provided with a longitudinal power motor 72 capable of driving the longitudinal screw rod 70 to rotate, a second bracket 73 is arranged at the side end of the power head 63, a longitudinal slide plate 74 is arranged at the lower end of the second bracket 73, and a longitudinal slide block 75 matched with the longitudinal slide rail 71 and a longitudinal nut 76 in threaded connection with the longitudinal screw rod 70 are arranged at the lower end of the longitudinal slide plate 74; the Y-axis axial movement of the power head 63 on the longitudinal slide block 62 is realized through the matching of the longitudinal screw rod 70 and the longitudinal nut 76 and the matching of the longitudinal slide rail 71 and the longitudinal slide block 75, the structure is simple, and the movement is stable. The power head 63 can adopt a power head with the model number of HD3-60 in the prior art, and can drive a cutter to realize Z-axis axial movement and rotary drilling.

In the present embodiment, the drilling mechanism 6 has two embodiments, the first embodiment is suitable for a gallbladder insertion hole deburring process, and the cutting depth of the cutter is greater than or equal to the depth of the gallbladder insertion hole 31; the cutting radius of the cutter is equal to the radius of the liner inserting hole 31, and the cutter can be a punching needle and inserted into the liner inserting hole for deburring. The second embodiment is applied to a bead expanding hole process, and the cutting depth of the cutter is smaller than the depth of the gallbladder inserting hole 31; the cutting radius of the cutter is larger than that of the gallbladder insertion hole 31, and the cutter is inserted into the upper end of the gallbladder insertion hole 31 and is rotationally cut at the upper end to form a pearl expansion hole.

In this embodiment, the lower end of the lock case 3 is provided with a middle groove 32, the conveying mechanism 4 comprises a feeding plate 41 and a feeding power assembly which drives the feeding plate 41 to reciprocate up, down, left and right relative to the sliding track 2, the upper end of the feeding plate 41 is provided with a plurality of shifting block seats 42 which can be inserted into the middle groove 32 and drive the lock case 3 to move backwards relative to the sliding track 2, through continuous reciprocating motion, automatic transportation of the lock case is realized, continuity is strong, the degree of automation is high, production efficiency is effectively improved, and machining errors are reduced.

In the prior art, there are various embodiments capable of achieving the up-down and left-right movement of the feeding plate 41, in this embodiment, one of the embodiments is listed, the feeding power assembly includes a rail 43 arranged in the base 1 and a lifting connection plate 44 located at the lower end of the rail 43, a lifting slider 45 matched with the rail 43 and capable of sliding left and right relative to the rail is arranged on the lifting connection plate 44, a lifting block 46 capable of sliding up and down relative to the lifting slider 45 is arranged in the lifting slider 45, and the upper end of the lifting block 46 is fixedly connected with the feeding plate 41; the lifting connecting plate 44 is also provided with a lifting cylinder 47 which can drive the feeding plate 41 to move up and down; the lifting block 46 can enable the lifting of the feeding plate 41 to be more stable, and limit the feeding plate 41; the lifting connection plate 44 is further connected with a rodless cylinder 48 which can drive the lifting connection plate to move left and right relative to the rail 43.

More specifically, the lower end of the lifting connecting plate 44 is further provided with a first moving connecting plate 49 and a second moving connecting plate 40, two ends of the rodless cylinder 48 are respectively and fixedly connected with the first moving connecting plate 49 and the second moving connecting plate 40, the sliding block 39 of the rodless cylinder 48 is fixedly connected with the base 1, the rodless cylinder 48 drives the lifting connecting plate 44 to move left and right, so that the left and right movement of the feeding plate 41 is realized, and the sliding block 45 moves left and right along the rail 43 during the movement. The first movable connecting plate 49 and the second movable connecting plate 40 are respectively provided with a speed stabilizer 38, so that the feeding plate 7 can move more stably.

In this embodiment, the sliding track 2 includes a first sliding rail 21 and a second sliding rail 22 symmetrically distributed on the base 1, and a sliding space 23 for the lock housing 3 to slide is formed between the first sliding rail 21 and the second sliding rail 22; the positioning mechanism 5 comprises a positioning slider 51 and a positioning block 52 which is arranged in the positioning slider 51 and can slide back and forth relative to the positioning slider 51, a sliding groove for the positioning block 52 to slide is arranged in the positioning slider 51, the lower end of the positioning slider 51 is fixedly connected with the base 1, a positioning cylinder 53 which can drive the positioning block 52 to slide back and forth in the sliding groove is arranged at the rear end of the positioning slider 51, a positioning hole for the positioning block to pass through and be inserted into the middle groove 32 is arranged at the side end of the first sliding rail 21, the structure is simple, and during positioning, the front end of the positioning block 52 passes through the positioning hole and is inserted into the middle groove 32, so that the lock shell is fixed on the sliding rail 2. The sliding track 2 further comprises a plurality of reinforcing members 24, one end of each reinforcing member 24 is fixedly connected with the upper end of the first sliding rail 21, and the other end of each reinforcing member 24 is fixedly connected with the upper end of the second sliding rail 22, so that the distances between the front and the back of the first sliding rail 21 and the distances between the front and the back of the second sliding rail 22 keep the same, the position error of the sliding space 24 is reduced, and the machining precision is improved.

Claims

1. A drilling device of an automatic lock shell machining machine tool is characterized by comprising a base (1), wherein a controller and a sliding track (2) capable of allowing a lock shell (3) to slide are arranged in the base (1), a conveying mechanism (4) which is located at the lower end of the sliding track (2) and can drive the lock shell (3) to slide in the sliding track (2) is arranged in the base (1), the lock shell (3) is provided with a liner inserting hole (31), a drilling mechanism (6) for machining the liner inserting hole (31) and a positioning mechanism (5) for fixing the lock shell (3) on the sliding track (2) are further arranged on the base (1); the conveying mechanism (4), the drilling mechanism (6) and the positioning mechanism (5) are respectively electrically connected with the controller; the lower end of the lock shell (3) is provided with a middle groove (32), the conveying mechanism (4) comprises a feeding plate (41) and a feeding power assembly for driving the feeding plate (41) to reciprocate up, down, left and right relative to the sliding track (2), and the upper end of the feeding plate (41) is provided with a plurality of shifting block seats (42) which can be inserted into the middle groove (32) and drive the lock shell (3) to move backwards relative to the sliding track (2); the sliding track (2) comprises a first sliding rail (21) and a second sliding rail (22) which are symmetrically distributed on the base (1), and a sliding space (23) for the lock shell (3) to slide is formed between the first sliding rail (21) and the second sliding rail (22); the positioning mechanism (5) comprises a positioning slide block (51) and a positioning block (52) which is arranged in the positioning slide block (51) and can slide back and forth relative to the positioning slide block, a sliding groove for the positioning block (52) to slide is formed in the positioning slide block (51), the lower end of the positioning slide block (51) is fixedly connected with the base (1), a positioning cylinder (53) capable of driving the positioning block (52) to slide back and forth in the sliding groove is arranged at the rear end of the positioning slide block (51), a positioning hole for the positioning block (52) to penetrate through and be inserted into the middle groove (32) is formed in the side end of the first slide rail (21), and during positioning, the front end of the positioning block (52) penetrates through the positioning hole and is inserted into the middle groove (32).

2. The drilling device of the lock shell automatic processing machine tool according to the claim 1, characterized in that the drilling mechanism (6) comprises a first bracket (60) fixedly connected with the base (1) and a transverse slide pedestal (61) arranged on the first bracket (60), a longitudinal slide pedestal (62) capable of moving transversely relative to the transverse slide pedestal is arranged on the transverse slide pedestal (61), a power head (63) capable of moving longitudinally relative to the longitudinal slide pedestal (62) is arranged on the longitudinal slide pedestal, and a cutter is connected to an output shaft of the power head (63).

3. The drilling device of the lock case automatic processing machine tool according to claim 2, characterized in that the transverse sliding base (61) is provided with a transverse screw rod (64) and two transverse sliding rails (65) symmetrically distributed on two sides of the transverse screw rod (64), the transverse sliding base (61) is further provided with a transverse power motor (66) capable of driving the transverse screw rod (64) to rotate, the lower end of the longitudinal sliding base (62) is fixedly connected with a transverse sliding plate (67), and the lower end of the transverse sliding plate (67) is provided with a transverse sliding block (68) matched with the transverse sliding rail (65) and a transverse nut (69) in threaded connection with the transverse screw rod (64); be provided with vertical lead screw (70) and two symmetric distributions on vertical pedestal (62) vertical slide rail (71) of vertical lead screw (70) both sides, still be provided with on vertical pedestal (62) and drive vertical lead screw (70) pivoted power motor (72), the side of unit head (63) is provided with second support (73), the lower extreme of second support (73) is provided with vertical slide (74), the lower extreme of vertical slide (74) be provided with vertical slide rail (71) assorted vertical slider (75) and with vertical lead screw (70) threaded connection's vertical nut (76).

4. Drilling device for lock case automatic processing machines according to claim 3, characterized in that the depth of the cutting edge of the tool is greater than or equal to the depth of the bore (31); the cutting radius of the cutter is equal to the radius of the gallbladder inserting hole (31).

5. Drilling device for lock case automatic processing machines according to claim 3, characterized in that the depth of the cutting edge of the tool is smaller than the depth of the bore (31); the cutting radius of the cutter is larger than the radius of the gallbladder inserting hole (31).

6. The drilling device of the lock shell automatic processing machine tool according to any one of the claims 1 to 5, characterized in that the feeding power assembly comprises a rail (43) arranged in the base (1) and a lifting connecting plate (44) positioned at the lower end of the rail (43), a lifting slide block (45) matched with the rail (43) and capable of sliding left and right relative to the rail is arranged on the lifting connecting plate (44), a lifting block (46) capable of sliding up and down relative to the lifting slide block (45) is arranged in the lifting slide block (45), and the upper end of the lifting block (46) is fixedly connected with the feeding plate (41); the lifting connecting plate (44) is also provided with a lifting cylinder (47) which can drive the feeding plate (41) to move up and down; the lifting connecting plate (44) is also connected with a rodless cylinder (48) which can drive the lifting connecting plate to move left and right relative to the rail (43).

7. The drilling device of the lock shell automatic processing machine tool according to claim 6, characterized in that the lower end of the lifting connecting plate (44) is further provided with a first moving connecting plate (49) and a second moving connecting plate (40), the two ends of the rodless cylinder (48) are respectively and fixedly connected with the first moving connecting plate (49) and the second moving connecting plate (40), the sliding block (39) of the rodless cylinder (48) is fixedly connected with the base (1), and the first moving connecting plate (49) and the second moving connecting plate (40) are respectively provided with a speed stabilizer (38).

8. Drilling device for lock housing automatic processing machines according to claim 7, characterized in that the slide rail (2) further comprises reinforcement elements (24), one end of the reinforcement element (24) being fixedly connected to the upper end of the first slide rail (21) and the other end being fixedly connected to the upper end of the second slide rail (22).