CN111992755A

CN111992755A - Drilling equipment is used in magnalium processing

Info

Publication number: CN111992755A
Application number: CN202010789318.8A
Authority: CN
Inventors: 孔德勇; 熊明
Original assignee: Chaohu Yian Yunhai Technology Co ltd
Current assignee: Chaohu Yian Yunhai Technology Co ltd
Priority date: 2020-08-07
Filing date: 2020-08-07
Publication date: 2020-11-27

Abstract

The invention discloses drilling equipment for processing magnesium-aluminum alloy, which comprises a base, a top frame and an electric drill, wherein the top of the base is provided with a rotating frame, the top of the rotating frame is provided with a bracket, the top of the base is fixedly connected with the top frame, sliding holes which are horizontally distributed are formed in four sides of the top frame, two groups of positioning rods which are in cross distribution are connected between the four groups of sliding holes in a sliding manner, and a sliding block is connected between the cross positions of the two groups of positioning rods in a sliding manner. According to the invention, firstly, a three-axis adjusting structure is adopted, linkage adjustment processing in X-axis, Y-axis and Z-axis directions of the electric drill can be realized, actual drilling of magnesium aluminum alloy is facilitated, and meanwhile, the applicability of drilling equipment is improved.

Description

Drilling equipment is used in magnalium processing

Technical Field

The invention relates to the technical field of aluminum magnesium alloy processing equipment, in particular to drilling equipment for processing magnesium aluminum alloy.

Background

Magnesium-aluminum alloy is one of the alloys, and the general density is 1.8 g-cm³On the other hand, the low density of the alloy of magnesium and aluminum improves its specific properties. The magnesium-aluminum alloy has good strength, rigidity and dimensional stability. At present, magnesium aluminum alloy plate is often processedDrilling at the designated position of the plate is often required, however, the existing drilling equipment for processing the magnesium-aluminum alloy still has the defects that: at first, most electric drills only can carry out the lift adjustment of vertical direction and handle, are difficult to according to the actual drilling demand of plate, carry out the diversified adjustment of electric drill and handle, the magnesium aluminum alloy's of being not convenient for actual drilling use, the suitability is relatively poor, secondly, when carrying out the inclined drilling processing to the plate, need pass through anchor clamps with the plate, fastener and fastener support fix just can carry out the inclined drilling use to appointed angle after, be difficult to realize the automatic adjustment of plate angle and handle, the convenience of adjustment is relatively poor.

Disclosure of Invention

The invention aims to: in order to solve the problems that the traditional drilling equipment for processing the magnesium-aluminum alloy is difficult to adjust and treat in multiple directions of a drill bit and is not convenient for the actual adjustment of the magnesium-aluminum alloy plate for drilling, the drilling equipment for processing the magnesium-aluminum alloy is provided.

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

a drilling device for processing magnesium aluminum alloy comprises a base, a top frame and an electric drill, wherein the top of the base is provided with a rotating frame, the top of the rotating frame is provided with a bracket, the top of the base is fixedly connected with a top frame, the four sides of the top frame are respectively provided with a sliding hole which is horizontally distributed, two groups of positioning rods which are crosswise distributed are connected between the four groups of sliding holes in a sliding way, a sliding block is connected between the intersection of the two groups of position adjusting rods in a sliding way, the top of the sliding block is provided with an electric telescopic rod, the telescopic end of the electric telescopic rod is connected with an electric drill in a transmission way, the front end and the left end of the top frame are both symmetrically and rotatably connected with two groups of transmission rollers, the transmission is connected with the drive belt between two sets of driving rollers, step motor who is connected with the driving roller transmission is all installed to the front end and the left end of roof-rack, install the push pedal between the top of drive belt and the positioning rod.

As a further description of the above technical solution:

a servo motor is installed at the bottom of the base, and the output end of the servo motor is in transmission connection with the rotating frame.

As a further description of the above technical solution:

the equal fixedly connected with in top both sides of revolving rack runs through the traveller of bracket, and wherein the spout that the cooperation traveller used is seted up to the inside of bracket.

As a further description of the above technical solution:

the right end of the rotating frame is provided with a first motor, the left end of the first motor is positioned below the bracket and is connected with a worm in a transmission manner, and the bottom of the bracket is fixedly connected with a tooth block matched with the worm.

As a further description of the above technical solution:

the top symmetry sliding connection of bracket has two sets of clamp splice, the equal fixedly connected with transmission pinion rack in inboard of two sets of clamp splice, fixedly connected with extension spring between transmission pinion rack and the clamp splice, the internally mounted of bracket has the second motor, the top transmission of second motor is connected with and two sets of transmission pinion rack intermeshing's toothed disc.

As a further description of the above technical solution:

the inner sides of the two groups of clamping blocks are provided with clamping grooves, and rubber pads are embedded in the inner sides of the clamping grooves.

As a further description of the above technical solution:

the two ends of the two groups of positioning rods are fixedly connected with limiting slide fasteners which are attached to the inner wall of the top frame, and the tops of the electric drills are symmetrically and fixedly connected with two groups of limiting rods which penetrate through the sliding blocks.

As a further description of the above technical solution:

the electric control switch is installed on the left side of the front end of the base, and the output end of the electric control switch is electrically connected with the input ends of the stepping motor, the electric telescopic rod, the electric drill, the servo motor, the first motor and the second motor respectively.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. in the invention, a three-shaft type adjusting structure is adopted, a driving roller, a driving belt, a push plate and a stepping motor are arranged between a top frame and a sliding block, meanwhile, an electric telescopic rod is arranged on the sliding block, when the electric drill needs to be adjusted in the X-axis direction, the step motor at the front end of the top frame can be controlled to work, under the transmission action between the transmission belt and the push plate, the whole slide block can be adjusted in the X-axis direction, when the direction of the electric drill Y is required to be adjusted, the stepping motor at the left end of the top frame can be controlled to work, the slide block can be integrally adjusted in the Y-axis direction, when the Z-axis direction of the electric drill needs to be adjusted, the electric telescopic rod can be controlled to contract inwards or extend outwards, the structure can realize linkage adjustment processing of X-axis, Y-axis and Z-axis directions of the electric drill, is convenient for actual drilling of magnesium aluminum alloy, and simultaneously improves the applicability of drilling equipment.

2. According to the invention, a distributed angle adjusting structure is adopted, a servo motor is arranged on a base, the rotating frame and the bracket can be driven to integrally rotate and adjust in the horizontal direction, meanwhile, a first motor, a worm and a tooth block are arranged between the rotating frame and the bracket, when the first motor works, the worm can be driven to rotate, and under the meshing transmission action between the worm and the tooth block, the bracket can rotate and adjust in the vertical direction at the top of the rotating frame.

3. According to the invention, an opposite clamping structure is adopted, the clamping blocks, the transmission toothed plate and the extension spring are arranged at the top of the bracket, the second motor and the gear plate are arranged in the bracket, when the second motor works, the gear plate can be driven to rotate, and under the meshing transmission action between the gear plate and the transmission toothed plate, the two groups of clamping blocks can synchronously move inwards or outwards, so that the plate is adjusted and clamped between the two groups of clamping blocks.

Drawings

FIG. 1 is a schematic front view of a drilling device for processing magnesium-aluminum alloy according to the present invention;

FIG. 2 is a schematic top view of the top frame of the present invention;

FIG. 3 is a schematic view showing a coupling structure of the turret and the bracket according to the present invention;

FIG. 4 is a schematic top view of the bracket of the present invention;

fig. 5 is a partially enlarged view of the position a in the present invention.

Illustration of the drawings:

1. a base; 2. rotating the frame; 201. a traveler; 3. a bracket; 301. a chute; 302. a tooth block; 4. a top frame; 401. a slide hole; 5. a slider; 6. a positioning rod; 601. a limiting slide fastener; 7. a driving roller; 8. a transmission belt; 801. pushing the plate; 9. a stepping motor; 10. an electric telescopic rod; 11. an electric drill; 12. a limiting rod; 13. a servo motor; 14. a first motor; 1401. a worm; 15. a clamping block; 1501. a clamping groove; 16. a transmission toothed plate; 17. a second motor; 1701. a gear plate; 18. an extension spring; 19. an electric control switch; 20. and (7) a rubber pad.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a drilling device for processing magnesium-aluminum alloy comprises a base 1, roof-rack 4 and electric drill 11, revolving rack 2 is installed at the top of base 1, bracket 3 is installed at the top of revolving rack 2, top fixedly connected with roof-rack 4 of base 1, sliding hole 401 that is the horizontal distribution is all seted up to the four sides inside of roof-rack 4, sliding connection has two sets of transposition poles 6 that are cross distribution between four groups of sliding holes 401, sliding connection has slider 5 between two sets of transposition pole 6 intersections, electric telescopic handle 10 is installed at the top of slider 5, electric telescopic handle 10's flexible end transmission is connected with electric drill 11, the front end of roof-rack 4 and the equal symmetrical rotation of left end are connected with two sets of driving rollers 7, the transmission is connected with drive belt 8 between two sets of driving rollers 7, step motor 9 of being connected with the transmission of driving roller 7 is all installed to the front end and the left end of roof-rack 4, install push pedal 801 between the top of drive belt 8 and the.

Specifically, as shown in fig. 1 and 3, servo motor 13 is installed to the bottom of base 1, and servo motor 13's output and revolving rack 2 transmission are connected, the equal fixedly connected with in top both sides of revolving rack 2 runs through the traveller 201 of bracket 3, wherein the spout 301 that cooperation traveller 201 used is seted up to the inside of bracket 3, first motor 14 is installed to the right-hand member of revolving rack 2, the left end of first motor 14 is located the below transmission of bracket 3 and is connected with worm 1401, wherein the bottom fixedly connected with of bracket 3 and worm 1401 assorted tooth piece 302, traveller 201 and the setting of spout 301 have promoted the stability of bracket 3 at the top rotation adjustment of revolving rack 2.

Specifically, as shown in fig. 1, 4 and 5, the top of the bracket 3 is symmetrically and slidably connected with two sets of clamping blocks 15, the inner sides of the two sets of clamping blocks 15 are fixedly connected with a transmission toothed plate 16, a tension spring 18 is fixedly connected between the transmission toothed plate 16 and the clamping blocks 15, a second motor 17 is installed inside the bracket 3, the top end of the second motor 17 is in transmission connection with a gear plate 1701 engaged with the two sets of transmission toothed plates 16, clamping grooves 1501 are formed in the inner sides of the two sets of clamping blocks 15, rubber pads 20 are embedded in the inner sides of the clamping grooves 1501, and the tension spring 18 is arranged to enable the two sets of clamping blocks 15 to generate inward elastic extrusion force after clamping plates, thereby promoted the fixed stability of plate centre gripping, the setting of pressing from both sides groove 1501, the fixed processing of centre gripping between clamp splice 15 and the plate of being convenient for, the setting of rubber pad 20 has promoted the contact frictional force between clamp splice 15 and the plate on the one hand, and on the other hand has reduced the plate and has pressed from both sides the production of hindering and double-layered trace phenomenon.

Specifically, as shown in fig. 1 to 3, two ends of two sets of positioning rods 6 are fixedly connected with two limiting slide fasteners 601 which are attached to the inner wall of the top frame 4, two sets of limiting rods 12 which penetrate through the sliding block 5 are fixedly connected to the top of the electric drill 11 symmetrically, an electric control switch 19 is installed on the left side of the front end of the base 1, the output end of the electric control switch 19 is electrically connected with the input ends of the stepping motor 9, the electric telescopic rod 10, the electric drill 11, the servo motor 13, the first motor 14 and the second motor 17, the setting of the limiting slide fasteners 601 improves the stability of the horizontal sliding adjustment of the positioning rods 6 in the sliding holes 401, and the setting of the limiting rods 12 improves the stability of the sliding adjustment of the electric drill 11 in the Y-axis direction on one hand, and reduces the generation of the autorotation phenomenon in the drilling process of the electric drill 11 on the other hand, and the setting of, The servo motor 13, the first motor 14 and the second motor 17 are energized and control-processed.

The working principle is as follows: when the device is used, a power supply is connected, when a plate needs to be clamped, the electric control switch 19 can be pressed to control the second motor 17 to work, the second motor 17 can drive the gear disc 1701 to rotate when working, under the meshing transmission action between the gear disc 1701 and the transmission toothed plate 16, the two groups of clamping blocks 15 can synchronously move inwards or outwards on the bracket 3, after the plate is adjusted and placed in the clamping grooves 1501 of the two groups of clamping blocks 15, the plate can be oppositely clamped between the two groups of clamping blocks 15 under the combined action of the second motor 17 and the extension spring 18, according to the actual processing requirement of the magnesium-aluminum alloy plate, when the angle of the plate needs to be adjusted, the servo motor 13 can be controlled to work through the electric control switch 19, the servo motor 13 can drive the rotating frame 2 and the bracket 3 to integrally rotate and adjust in the horizontal direction on the base 1, and when the angle of the vertical direction of the plate needs to be adjusted, the first motor 14 can be controlled to work, the first motor 14 can drive the worm 1401 to rotate, under the meshing transmission action between the worm 1401 and the tooth block 302, the bracket 3 can perform rotation adjustment processing in the vertical direction on the top of the rotating frame 2, after the plate is adjusted to a proper angle, the electric control switch 19 can control the stepping motors 9 at the front end and the left end of the top frame 4 to work, when the stepping motors 9 work, the driving rollers 7 can be driven to rotate, so as to drive the driving belt 8 and the push plate 801 to perform sliding adjustment processing in the horizontal direction, at the moment, the two groups of positioning rods 6 can slide in the sliding holes 401, so as to drive the sliding block 5 to perform adjustment processing in the X-axis direction and the Y-axis direction on the inner side of the top frame 4, after the electric drill 11 is adjusted to a proper position, the electric telescopic rod 10 can be controlled to work through the electric control switch 19, when the electric telescopic rod 10 extends outwards, the electric drill 11 can vertically move downwards, so as to perform drilling processing on the magnesium aluminum alloy plate, the drilling processing of the magnesium-aluminum alloy plate is completed.

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.

Claims

1. The utility model provides a drilling equipment is used in processing of magnalium, includes base (1), roof-rack (4) and electric drill (11), its characterized in that, revolving rack (2) are installed at the top of base (1), bracket (3) are installed at the top of revolving rack (2), top fixedly connected with roof-rack (4) of base (1), sliding hole (401) that are horizontal distribution are all seted up to inside the four sides of roof-rack (4), four groups sliding connection has two sets of positioning rod (6) that are cross distribution between sliding hole (401), sliding connection has slider (5) between two sets of positioning rod (6) intersections, electric telescopic handle (10) are installed at the top of slider (5), the flexible end transmission of electric telescopic handle (10) is connected with electric drill (11), the equal symmetry rotation in front end and the left end of roof-rack (4) is connected with two sets of driving rollers (7), the transmission is connected with drive belt (8) between two sets of driving roller (7), step motor (9) of being connected with driving roller (7) transmission are all installed to the front end and the left end of roof-rack (4), install push pedal (801) between the top of drive belt (8) and positioning rod (6).

2. The drilling equipment for processing the magnesium-aluminum alloy as claimed in claim 1, wherein the servo motor (13) is installed at the bottom of the base (1), and the output end of the servo motor (13) is in transmission connection with the rotating frame (2).

3. The drilling equipment for processing the magnesium-aluminum alloy according to claim 2, wherein the sliding columns (201) penetrating through the bracket (3) are fixedly connected to two sides of the top of the rotating frame (2), and sliding grooves (301) matched with the sliding columns (201) are formed in the bracket (3).

4. The drilling equipment for processing the magnesium-aluminum alloy is characterized in that a first motor (14) is installed at the right end of the rotating frame (2), the left end of the first motor (14) is located below the bracket (3) and is in transmission connection with a worm (1401), and a tooth block (302) matched with the worm (1401) is fixedly connected to the bottom of the bracket (3).

5. The drilling equipment for processing the magnesium-aluminum alloy according to claim 1, wherein two groups of clamping blocks (15) are symmetrically and slidably connected to the top of the bracket (3), a transmission toothed plate (16) is fixedly connected to the inner sides of the two groups of clamping blocks (15), a tension spring (18) is fixedly connected between the transmission toothed plate (16) and the clamping blocks (15), a second motor (17) is installed inside the bracket (3), and a gear plate (1701) meshed with the two groups of transmission toothed plates (16) is in transmission connection with the top end of the second motor (17).

6. The drilling equipment for processing the magnesium-aluminum alloy according to claim 5, wherein the two groups of clamping blocks (15) are respectively provided with a clamping groove (1501) at the inner side, and a rubber pad (20) is embedded at the inner side of each clamping groove (1501).

7. The drilling equipment for processing the magnesium-aluminum alloy according to claim 1, wherein two ends of the two groups of the positioning rods (6) are fixedly connected with two limiting slide fasteners (601) which are attached to the inner wall of the top frame (4), and two groups of the limiting rods (12) penetrating through the sliding block (5) are symmetrically and fixedly connected to the top of the electric drill (11).

8. The drilling equipment for processing the magnesium-aluminum alloy according to claim 1, wherein an electric control switch (19) is installed on the left side of the front end of the base (1), and the output end of the electric control switch (19) is electrically connected with the input ends of the stepping motor (9), the electric telescopic rod (10), the electric drill (11), the servo motor (13), the first motor (14) and the second motor (17) respectively.