CN112620715A - Drilling equipment is used in production of computer shell - Google Patents

Abstract

The invention discloses a drilling device for producing a computer outer shell, which comprises a position adjusting component, a drilling component and a drilling component, wherein the position adjusting component is used for adjusting the Z-direction position and the X-direction position of the drilling component; the feeding assembly is arranged on one side of the base and used for continuously and intermittently supplying the materials to the outer shell; y is to the conveyer belt, and it is just fixed on the frame to distributing along Y for receive the shell body that comes from the feed subassembly, and the drilling subassembly, the drilling subassembly includes that the annular bores and gets subassembly and drift subassembly, and this device utilizes the motor drive rotary drum to rotate earlier when drilling, and then drives the annular drill bit through the rocking arm and rotate, thereby bore and get the annular, and meanwhile supply storehouse spouts oil-gas mixture in to the guide cylinder, and the lighter strikes sparks, utilizes the effort that the blasting produced to promote the drift and strikes downwards, realizes going on fast of drilling, has improved work efficiency.

Description

Drilling equipment is used in production of computer shell

Technical Field

The invention relates to the technical field of drilling, in particular to a drilling device for producing a computer outer shell.

Background

In the production process of the computer shell, the production process comprises the working procedures of stamping forming, drilling and the like, wherein when the outer shell is drilled, the conventional drilling device can achieve the purpose of improving the drilling efficiency through the improvement of a drill bit and the adjustment of parameters such as the rotating speed and the like, but the improvement is not obvious, and particularly for mass production, the improvement of the drilling efficiency has important significance.

Therefore, there is a need to provide a drilling device for computer casing production to solve the problems in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a drilling equipment is used in production of computer shell body which characterized in that: comprises that

The position adjusting assembly is used for adjusting the Z-direction position and the X-direction position of the drilling assembly;

the feeding assembly is arranged on one side of the base and used for continuously and intermittently supplying the materials to the outer shell;

a Y-direction conveyor belt distributed along the Y direction and fixed on the base for receiving the outer shell from the feeding assembly, an

The drilling subassembly, the drilling subassembly includes that the annular drills to get subassembly and drift subassembly, when drilling, drills to get the subassembly by the annular and drills to get the annular, and the drift subassembly strikes simultaneously, realizes quick drilling.

Further, as preferred, the feed subassembly includes fixed plate, guide rail, guide post, places frame and linear oscillator, wherein two sets of the fixed plate symmetry is fixed in one side of frame, is fixed with the guide post on one of them fixed plate, is fixed with the guide rail on another fixed plate, the common sliding connection of guide rail and guide post has places the frame, just still the cover is equipped with the setting on the guide post and is placing the oscillating spring of frame bottom, the up-and-down sliding action of fixed plate is driven by linear oscillator, linear oscillator fixes between two sets of fixed plates.

Further, as preferred, the position control subassembly includes installation arm, X to driver and Z to the driver, wherein X adopts two sets of installation arms to set up on the frame to the driver, just X is fixed with Z to the output of driver to the driver and is fixed with the drilling subassembly to the output of driver, X is to driver and Z to the driver and be screw drive structure.

Further, preferably, the annular groove drilling assembly comprises an installation bin, a transmission bin, a rotating arm and an annular groove drill bit, wherein the transmission bin is coaxially fixed below the installation bin and communicated with the installation bin;

the rotary drum is coaxially fixed on the rotary arm in the transmission bin, the upper end of the rotary drum extends into the mounting bin, a driven gear is coaxially fixed on the outer surface of the upper end of the rotary drum, the driven gear is meshed with a driving gear, the driving gear is driven by a motor, the motor is fixed in a sliding seat, and the sliding seat is fixed on one side of the mounting bin.

Further, as preferred, the annular groove drill bit includes two sets of inside and outside drilling inclined planes, it has the brill tooth to bore to get the inclined plane and has laid.

Further, as preferred, the middle part surface coaxial fixed of annular drill bit has the ladder cover of polishing, the ladder is polished the cover and is become by three different polishing cover bodies of external diameter of group.

Further, as preferred, the drift subassembly includes drift, piston, buffer spring, energy-absorbing ring seat and guide cylinder, wherein, the guide cylinder is the combination of drum and awl section of thick bamboo, and on it was fixed in the inner wall in installation storehouse, it is provided with the piston to slide in the guide cylinder, the below of piston adopts multiunit buffer spring to connect on the energy-absorbing ring seat, energy-absorbing ring seat embedded in on the bottom inner wall of guide cylinder, just the below middle part of piston still is fixed with the drift, the drift slides in proper order and passes energy-absorbing seat, rocking arm and annular drill bit, the downward impact action of drift is exploded the subassembly drive by burning.

Further, as preferred, the subassembly that explodes includes supply bin, lighter and negative pressure pipe, the top in installation storehouse is fixed in the supply bin for spout into oil gas mixture in to the guide cylinder, the negative pressure pipe links to each other with outside negative pressure generator, is arranged in the waste gas of the back suction guide cylinder that explodes at every turn.

Further, as preferred, what can crawl about on the installation arm installs the locator of crawling, it is fixed with the limit baffle towards Y to the conveyer belt direction on the locator of crawling.

Further, as preferred, Y is fixed with the base to the conveyer belt middle part for bear the weight of the shell body, the collection hole has been seted up at the middle part of base, the below in collection hole is provided with the collecting vat, the both sides of collecting vat are fixed with the electro-magnet of embedding in the base.

Compared with the prior art, the invention provides a drilling device for producing a computer outer shell, which has the following beneficial effects:

1. according to the device, the feeding assembly is arranged, when the outer shell is put in, the outer shell is oscillated by using the linear oscillator, so that the adhesion between the adjacent outer shells can be reduced, and more than two groups of outer shells are prevented from being adsorbed at one time when the outer shells are grabbed by the manipulator;

2. this device is when drilling, utilize motor drive rotary drum to rotate earlier, and then drive the annular drill bit through the rocking arm and rotate, thereby bore and get the annular, meanwhile supply the storehouse and spout into oil-gas mixture in to the guide cylinder, and the lighter strikes sparks, the effort that the utilization is exploded and is produced promotes the drift and strikes downwards, realize going on fast of drilling, the work efficiency is improved, compared with the prior art, this device need not to carry out whole brill to the hole body and gets, only need bore and get the annular can, and this annular is blind groove, utilize the drift to strike with this while, can realize quick drilling, promote one time with drilling efficiency at least.

Drawings

FIG. 1 is a schematic structural diagram of a drilling device for producing a computer casing;

FIG. 2 is a partially enlarged schematic view of FIG. 1;

FIG. 3 is a schematic structural view of a Y-direction conveyor belt and a base in a drilling device for producing a computer casing;

FIG. 4 is a schematic structural diagram of a drilling assembly in a drilling apparatus for producing a computer casing;

in the figure: 1. a machine base; 2. mounting an arm; 3. an X-direction driver; 4. a Z-direction driver; 5. a drilling assembly; 6. a supply assembly; 7. a Y-direction conveying belt; 8. a base; 9. a crawling positioner; 10. a collection well; 11. collecting tank; 12. an electromagnet; 61. a fixing plate; 62. a guide rail; 63. a guide post; 64. placing the frame; 65. a linear oscillator; 51. installing a bin; 52. a transmission bin; 53. a rotating arm; 54. a ring groove drill bit; 55. a rotating drum; 56. a slide base; 57. a motor; 58. drilling an inclined plane; 59. a step polishing sleeve; 510. a punch; 511. a piston; 512. a buffer spring; 513. an energy absorbing ring seat; 514. a supply bin; 515. a lighter; 516. a negative pressure tube; 517. a cone.

Detailed Description

Referring to fig. 1 to 4, in an embodiment of the present invention, a drilling device for producing a computer housing is characterized in that: comprises that

The position adjusting assembly is used for adjusting the Z-direction position and the X-direction position of the drilling assembly 5;

the feeding assembly 6 is arranged at one side of the base 1 and is used for continuously and intermittently supplying the outer shell;

a Y-direction conveyor belt 7 distributed along the Y direction and fixed on the machine base 1 for receiving the outer shell from the feeding assembly 6, an

Drilling subassembly 5, drilling subassembly 5 includes that the annular drills to get subassembly and drift subassembly, when drilling, drills to get the subassembly by the annular and drills to get the annular, and the drift subassembly strikes simultaneously, realizes quick drilling.

In this embodiment, as shown in fig. 2, the feeding assembly 6 includes a fixing plate 61, a guide rail 62, a guide post 63, a placing frame 64, and a linear oscillator 65, the fixing plate is of a [ type, two sets of fixing plates 61 are symmetrically fixed on one side of the base 1, one fixing plate 61 is fixed with the guide post 63, the other fixing plate 61 is fixed with the guide rail 62, the guide rail 62 and the guide post 63 are jointly slidably connected with the placing frame 64, specifically, one end of the placing frame 64 is fixed with a sliding sleeve for slidably disposing on the guide rail 62, the other end of the placing frame 64 is fixed with a sliding base for slidably disposing on the guide rail 62, the guide post 63 is further sleeved with an oscillating spring disposed at the bottom of the placing frame 64, the vertical sliding motion of the fixing plate 61 is driven by the linear oscillator 65, the linear oscillator 65 is fixed between the two sets of fixing plates 61, when the outer casing is dropped, utilize linear oscillator to vibrate the outer casing and can reduce the bonding between the adjacent shell body, prevent when the shell body is snatched to the manipulator, once adsorb the shell body more than two sets of.

In this embodiment, the position adjustment assembly includes installation arm 2, X to driver 3 and Z to driver 4, wherein X adopts two sets of installation arms 2 to set up on frame 1 to driver 3, just X is fixed with Z to driver 4 to the output of driver 3, Z is fixed with drilling subassembly 5 to the output of driver 4, X is the lead screw transmission structure to driver 3 and Z to driver 4, and it is current structure, and it is not repeated here.

In this embodiment, as shown in fig. 4, the ring groove drilling assembly includes an installation bin 51, a transmission bin 52, a rotating arm 53 and a ring groove drill 54, wherein the transmission bin 52 is coaxially fixed below the installation bin 51 and is communicated with the installation bin, the rotating arm 53 is rotatably arranged at the inner bottom of the transmission bin 52 by using a bearing, and the rotating arm 53 extends downwards along the axis thereof and extends out of the transmission bin 52 to be connected with the ring groove drill 54;

a rotating drum 55 is coaxially fixed on the rotating arm 53 in the transmission bin 52, the upper end of the rotating drum 55 extends into the mounting bin 51, a driven gear is coaxially fixed on the outer surface of the upper end of the rotating drum 55, the driven gear is meshed with a driving gear, the driving gear is driven by a motor 57, the motor 57 is fixed in a sliding seat 56, and the sliding seat 56 is fixed on one side of the mounting bin 51, so that the rotating drum 55 can be driven to rotate by the motor 57, and the annular groove drill 54 is driven to rotate through the rotating arm 53, and therefore an annular groove is drilled.

In a preferred embodiment, the ring bit 54 includes two sets of inner and outer drilling ramps 58, and the drilling ramps 58 have drilling teeth thereon.

In a preferred embodiment, a stepped polishing sleeve 59 is coaxially fixed on the outer surface of the middle part of the ring groove drill 54, and the stepped polishing sleeve 59 is composed of three groups of polishing sleeves with different outer diameters.

In this embodiment, the drift subassembly includes drift 510, piston 511, buffer spring 512, energy-absorbing ring seat 513 and guide cylinder 517, wherein, guide cylinder 517 is the combination of drum and awl section of thick bamboo, and it is fixed in on the inner wall of installation storehouse 51, it is provided with piston 511 to slide in the guide cylinder 517, the below of piston 511 adopts multiunit buffer spring 512 to connect on energy-absorbing ring seat 513, energy-absorbing ring seat 513 is embedded in on the bottom inner wall of guide cylinder 517, just piston 511's below middle part still is fixed with drift 510, drift 510 slides in proper order and passes energy-absorbing seat 513, rocking arm 53 and annular drill bit 54, the downward impact action of drift is driven by the subassembly that explodes to be provided with energy-absorbing ring seat in guide cylinder 517, can stop to rocking arm 3 pivoted influence when the piston impacts downwards.

In this embodiment, the subassembly that explodes includes supply bin 514, lighter 515 and negative pressure pipe 516, supply bin 514 is fixed at the top of installation storehouse 51 for spout into oil gas mixture in to guide cylinder 517, negative pressure pipe 516 links to each other with outside negative pressure generator, is used for the waste gas in the suction guide cylinder 517 after exploding at every turn.

In this embodiment, as shown in fig. 1, the mounting arm 2 is provided with a climbing locator 9 capable of climbing up and down, and the climbing locator 9 is fixed with a limit baffle facing the direction of the Y-direction conveyor belt 7.

In this embodiment, as shown in fig. 3, a base 8 is fixed to the middle of the Y-direction conveying belt 7 and used for bearing an outer shell, a collecting hole 10 is formed in the middle of the base 8, a collecting groove 11 is arranged below the collecting hole 10, and electromagnets 12 embedded in the base 8 are fixed to two sides of the collecting groove 11.

When the automatic drilling device is specifically implemented, a batch of outer shells are placed in the placement frame, the linear oscillator is used for carrying out timing interval oscillation, during feeding, the outer shells are grabbed and sent to the Y-direction conveying belt 7 by the external feeding mechanical arm and are transmitted until the outer shells are sent to the position of the crawling positioner 9, the outer shells are blocked by the limiting baffle on the crawling positioner 9, at the moment, the electromagnets start to work to adsorb and fix the outer shells, and finally, the drilling assembly 5 is used for drilling.

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 are equivalent to or changed within the technical scope of the present invention.

Claims (10)

1. A drilling equipment is used in production of computer shell body which characterized in that: comprises that

The position adjusting assembly is used for adjusting the Z-direction position and the X-direction position of the drilling assembly (5);

the feeding assembly (6) is arranged on one side of the base (1) and is used for continuously and intermittently supplying the outer shell;

a Y-direction conveyor belt (7) distributed along the Y direction and fixed on the machine base (1) and used for receiving the outer shell from the feeding assembly (6), an

Drilling subassembly (5), drilling subassembly (5) are bored including the annular and are got subassembly and drift subassembly, when drilling, are bored by the annular and get the subassembly and bore and get the annular, and the drift subassembly strikes simultaneously, realizes quick drilling.

2. The drilling device for producing the computer housing body according to claim 1, wherein: feed assembly (6) include fixed plate (61), guide rail (62), guide post (63), place frame (64) and linear oscillator (65), wherein two sets of fixed plate (61) symmetry is fixed in one side of frame (1), is fixed with guide post (63) on one of them fixed plate (61), is fixed with guide rail (62) on another fixed plate (61), guide rail (62) and guide post (63) sliding connection jointly place frame (64), just still the cover is equipped with the oscillating spring who sets up in placing frame (64) bottom on guide post (63), the upper and lower slip action of fixed plate (61) is driven by linear oscillator (65), linear oscillator (65) are fixed between two sets of fixed plate (61).

3. The drilling device for producing the computer housing body according to claim 1, wherein: the position control subassembly includes installation arm (2), X to driver (3) and Z to driver (4), wherein X adopts two sets of installation arms (2) to set up on frame (1) to driver (3), just X is fixed with Z to driver (4) to the output of driver (3), Z is fixed with drilling subassembly (5) to the output of driver (4), X is the screw drive structure to driver (3) and Z to driver (4).

4. The drilling device for producing the computer housing body according to claim 1, wherein: the annular groove drilling assembly comprises an installation bin (51), a transmission bin (52), a rotating arm (53) and an annular groove drill bit (54), wherein the transmission bin (52) is coaxially fixed below the installation bin (51) and communicated with the installation bin, the rotating arm (53) is rotatably arranged at the inner bottom of the transmission bin (52) by adopting a bearing, and the rotating arm (53) extends downwards along the axis of the rotating arm (53) and extends out of the transmission bin (52) to be connected with the annular groove drill bit (54);

a rotating drum (55) is coaxially fixed on the rotating arm (53) in the transmission bin (52), the upper end of the rotating drum (55) extends into the mounting bin (51), a driven gear is coaxially fixed on the outer surface of the upper end of the rotating drum (55), the driven gear is meshed with a driving gear, the driving gear is driven by a motor (57), the motor (57) is fixed in a sliding seat (56), and the sliding seat (56) is fixed on one side of the mounting bin (51).

5. The drilling device for producing the computer housing body according to claim 4, wherein: the ring groove drill bit (54) comprises an inner group of drilling inclined planes (58) and an outer group of drilling inclined planes (58), and drilling teeth are distributed on the drilling inclined planes (58).

6. The drilling device for producing the computer housing body according to claim 4, wherein: the outer surface of the middle part of the ring groove drill bit (54) is coaxially fixed with a step polishing sleeve (59), and the step polishing sleeve (59) is composed of three groups of polishing sleeve bodies with different outer diameters.

7. The drilling device for producing the computer housing body according to claim 4, wherein: the drift subassembly includes drift (510), piston (511), buffer spring (512), energy-absorbing ring seat (513) and guide cylinder (517), wherein, guide cylinder (517) is the combination of drum and awl section of thick bamboo, and it is fixed in on the inner wall of installation storehouse (51), it is provided with piston (511) to slide in guide cylinder (517), the below of piston (511) adopts multiunit buffer spring (512) to connect on energy-absorbing ring seat (513), energy-absorbing ring seat (513) embedded in on the bottom inner wall of guide cylinder (517), just the below middle part of piston (511) still is fixed with drift (510), drift (510) slide in proper order and pass energy-absorbing seat (513), rocking arm (53) and annular drill bit (54), the downward impact action of drift is driven by the subassembly that explodes.

8. The drilling device for producing the computer housing according to claim 7, wherein: the subassembly that explodes fires includes supply storehouse (514), makes firearm (515) and negative pressure pipe (516), supply storehouse (514) are fixed at the top of installation storehouse (51) for spout into oil gas mixture in to guide cylinder (517), negative pressure pipe (516) link to each other with outside negative pressure generator, are arranged in the waste gas of the back suction guide cylinder (517) of exploding at every turn.

9. The drilling device for producing the computer housing body according to claim 2, wherein: the climbing device is characterized in that the mounting arm (2) can climb up and down and is provided with a climbing positioner (9), and a limit baffle towards the direction of the Y-shaped conveying belt (7) is fixed on the climbing positioner (9).

10. The drilling device for producing the computer housing body according to claim 1, wherein: y is fixed with base (8) to conveyer belt (7) middle part for bear the weight of the shell body, collection hole (10) have been seted up to the middle part of base (8), the below of collecting hole (10) is provided with collecting vat (11), the both sides of collecting vat (11) are fixed with electro-magnet (12) of embedding in base (8).

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