CN215316785U - Precision machining device for aluminum alloy back cover - Google Patents

Abstract

The utility model discloses a precision machining device of an aluminum alloy back cover, which comprises an operation table, a tool seat and a mounting bracket, wherein a workpiece is installed on the tool seat, the mounting bracket is positioned on one side of the tool seat, the tool seat and the mounting bracket are both arranged on the operation table, a driving cylinder is arranged on the mounting bracket, a movable part, which can move along the vertical direction, of the driving cylinder is connected with a base plate arranged along the horizontal direction, one end of a discharge plate arranged along the horizontal direction is installed below the mounting plate, one end of a movable plate, which can move along the horizontal direction, is embedded into a groove, one end, which is far away from the feeding cylinder, of the movable plate is provided with a through hole corresponding to a magnet, and a horizontal supporting part of a right-angle supporting seat is connected with the upper surface of the base plate. The utility model can ensure the precision of the feeding channel and the discharging through hole in the vertical direction and further ensure the installation precision of the magnet in the process that the driving cylinder drives the substrate to repeatedly move in the vertical direction for a long time, particularly the position precision of the substrate in the vertical direction.

Description

Precision machining device for aluminum alloy back cover

Technical Field

The utility model relates to a precision machining device for an aluminum alloy back cover, and belongs to the field of electronic product machining.

Background

The magnet is widely applied to the life and production processes of people, for example, in the production and processing of electronic products, the magnet is generally required to be installed to meet the functional requirements, the magnet is combined into a shape and a size suitable for the equipment, and after the magnet and a base station are bonded through glue to form an assembled product, the assembled product is baked to complete the final shaping, so that the magnet and the base station are firmly combined.

The electronic product is the small-size magnet of going to frequently, the shape of magnet can be divided into annular and rectangular bodily form, wherein the overwhelming majority is rectangular bodily form's magnet piece, the operation of current assembly magnet piece is mostly artifical manual assembly and utilizes anchor clamps to assemble, because rectangular bodily form's magnet piece is difficult for fixing a position in the assembling process, consequently the assembly precision of magnet piece can not be guaranteed in artifical manual assembly, and, no matter be artifical manual assembly or utilize anchor clamps to assemble, all can consume great intensity of labour, and the production efficiency is reduced simultaneously.

In the actual operation in-process, generally a plurality of magnet are piled up and erect together, need buckle one magnet through artificial mode and put in the mounting hole, because there is great magnetic attraction between the adjacent magnet, lead to buckling down to lead to the time and energy waste that can be very with a single magnet, the inefficiency of magnet installation.

Disclosure of Invention

The utility model aims to provide a precision machining device for an aluminum alloy back cover, which can keep the stability of a mounting plate, particularly the position precision of the mounting plate in the vertical direction in the process that a driving cylinder drives a substrate to move repeatedly in the vertical direction for a long time, further ensure the precision of a feeding channel and a discharging through hole in the vertical direction and further ensure the mounting precision of a magnet.

In order to achieve the purpose, the utility model adopts the technical scheme that: a precision machining device for an aluminum alloy back cover comprises an operation table, a jig seat and a mounting support, wherein a workpiece is mounted on the jig seat, the mounting support is positioned on one side of the jig seat, the jig seat and the mounting support are both arranged on the operation table, a driving air cylinder is arranged on the mounting support, a base plate which is arranged along the horizontal direction is connected to a movable part, which can move along the vertical direction, of the driving air cylinder, a feeding air cylinder is mounted at one end, away from the jig seat, of the base plate, a mounting plate which is arranged along the vertical direction is mounted on the end face of the other end of the base plate, one end of a discharging plate which is arranged along the horizontal direction is mounted below the mounting plate, and the other end of the discharging plate extends to the position above a mounting groove which is formed in the workpiece and used for mounting a magnet;

a guide plate positioned above the discharge plate is in face-to-face fit with the mounting plate, and a feed chute which is penetrated along the vertical direction is arranged on the surface of the discharge plate facing the mounting plate, thereby forming a feeding channel between the mounting plate and the guide plate, a discharge through hole which is penetrated along the vertical direction is arranged in the area of the discharge plate above the mounting groove, the upper surface of the discharge plate is provided with a groove with two through ends, one end of a movable plate which can move along the horizontal direction is embedded into the groove, the other end of the movable plate is arranged on the movable part of the feeding cylinder, a through hole corresponding to the magnet is arranged at one end of the movable plate away from the feeding cylinder, when the movable plate is positioned at the first position, the through hole on the movable plate is positioned right below the feeding channel and is communicated with the feeding channel, and when the movable plate is positioned at the second position, the through hole on the movable plate is positioned right above the discharging through hole and is communicated with the discharging through hole;

a mounting seat is arranged above the discharging plate, a push plate capable of moving along the vertical direction is mounted on a movable part of a discharging cylinder mounted on the mounting seat, and the lower end of the push plate is used for pushing a magnet in a through hole of the movable plate to move downwards to a mounting groove of a workpiece;

the mounting panel is close to and opens on the surface of base plate one side and has a bar recess, the one end embedding of base plate in the bar recess and with mounting panel fixed connection, the perpendicular intersection department of base plate and mounting panel is provided with at least one right angle supporting seat that has horizontal support portion and vertical supporting portion, the horizontal support portion and the base plate upper surface connection of right angle supporting seat, the vertical supporting portion and the mounting panel of right angle supporting seat are connected.

The further improved scheme in the technical scheme is as follows:

1. in the above scheme, the feeding cylinder is fixedly installed on the lower surface of the substrate.

2. In the scheme, the lower surface of the discharging plate and the edge of the discharging through hole are provided with the baffle plates extending downwards.

3. In the above scheme, the mounting bracket further comprises a bottom plate horizontally mounted on the workbench, a vertically arranged support plate and 2 reinforcing seats arranged between the bottom plate and the support plate at intervals.

4. In the scheme, the fixing part of the driving cylinder is arranged on one side, back to the reinforcing seat, of the supporting plate.

5. In the above scheme, 2 the right angle supporting seats are connected between the base plate and the mounting plate at intervals.

Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

1. the precision machining device for the aluminum alloy back cover realizes automatic installation of the magnets with smaller sizes on the electronic equipment, and can effectively avoid the situations that a plurality of magnets are not easy to separate and the installation deviates due to the acting force among the magnets in the manual installation process, thereby improving the installation efficiency and precision;

2. according to the precision machining device for the aluminum alloy back cover, the surface of the mounting plate, close to one side of the base plate, is provided with the strip-shaped groove, one end of the base plate is embedded into the strip-shaped groove and is fixedly connected with the mounting plate, the vertical intersection of the base plate and the mounting plate is provided with the at least one right-angle supporting seat with the horizontal supporting part and the vertical supporting part, the horizontal supporting part of the right-angle supporting seat is connected with the upper surface of the base plate, and the vertical supporting part of the right-angle supporting seat is connected with the mounting plate.

Drawings

FIG. 1 is a schematic structural view of a precision machining apparatus for an aluminum alloy back cover according to the present invention;

FIG. 2 is a schematic view of a partial structure of a precision machining device for an aluminum alloy back cover according to the present invention;

FIG. 3 is a schematic view of a partial structure of a precision machining apparatus for an aluminum alloy back cover according to the present invention;

FIG. 4 is a schematic view of a part of a structure of a precision machining apparatus for an aluminum alloy back cover according to the present invention;

FIG. 5 is a schematic view of a partial structure of a precision machining apparatus for an aluminum alloy back cover according to the present invention;

FIG. 6 is a schematic view of a partial structure of a precision machining apparatus for an aluminum alloy back cover according to the present invention.

In the above drawings: 1. a substrate; 2. a feed cylinder; 3. mounting a plate; 4. a discharge plate; 5. a workpiece; 6. a magnet; 7. mounting grooves; 8. a guide plate 81, a feed chute; 9. a discharge through hole; 10. a groove; 11. a movable plate; 12. a through hole; 13. a mounting seat; 14. a discharging cylinder; 15. pushing the plate; 16. a baffle plate; 20. a strip-shaped groove; 21. a right-angle supporting seat; 211. a horizontal support portion; 212. a vertical support; 24. an operation table; 25. a jig base; 26. mounting a bracket; 261. a base plate; 262. a support plate; 263. a reinforcement base; 27. the cylinder is driven.

Detailed Description

In the description of this patent, it is noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The meaning of the above terms in this patent may be specifically understood by those of ordinary skill in the art.

Example 1: a precision machining device for an aluminum alloy back cover comprises an operation platform 24, a jig seat 25 provided with a workpiece 5 and a mounting bracket 26 positioned on one side of the jig seat 25, wherein the jig seat 25 and the mounting bracket 26 are both arranged on the operation platform 24, a driving cylinder 27 is arranged on the mounting bracket 26, a base plate 1 arranged along the horizontal direction is connected to a movable part of the driving cylinder 27 capable of moving along the vertical direction, a feeding cylinder 2 is arranged at one end, away from the jig seat 25, of the base plate 1, a mounting plate 3 arranged along the vertical direction is arranged on the end surface of the other end of the base plate 1, one end of a discharge plate 4 arranged along the horizontal direction is arranged below the mounting plate 3, and the other end of the discharge plate 4 extends to the position above a mounting groove 7 arranged on the workpiece 5 and used for mounting a magnet 6;

a guide plate 8 positioned above the discharge plate 4 is attached to the mounting plate 3 face to face, a feeding groove 81 which is through along the vertical direction is arranged on the surface of the discharge plate 4 facing the mounting plate 3, so that a feeding channel is formed between the mounting plate 3 and the guide plate 8, a discharge through hole 9 which is through along the vertical direction is arranged in the area of the discharge plate 4 positioned above the mounting groove 7, a groove 10 with two through ends is arranged on the upper surface of the discharge plate 4, one end of a movable plate 11 which can move along the horizontal direction is embedded into the groove 10, the other end of the movable plate 11 is arranged on the movable part of the feeding cylinder 2, a through hole 12 corresponding to the magnet 6 is arranged at one end of the movable plate 11 far away from the feeding cylinder 2, when the movable plate 11 is positioned at the first position, the through hole 12 on the movable plate 11 is positioned under the feeding channel and communicated with the feeding channel, when the movable plate 11 is located at the second position, the through hole 12 on the movable plate 11 is located right above the discharging through hole 9 and is communicated with the discharging through hole 9;

a mounting seat 13 is arranged above the discharging plate 4, a push plate 15 capable of moving along the vertical direction is mounted on a movable part of a discharging cylinder 14 mounted on the mounting seat 13, and the lower end of the push plate 15 is used for pushing the magnet 6 in the through hole 12 of the movable plate 11 to move downwards to the mounting groove 7 of the workpiece 5;

the mounting panel 3 is close to and opens on the surface of 1 one side of base plate and has a bar recess 20, the one end embedding of base plate 1 in the bar recess 20 and with mounting panel 3 fixed connection, base plate 1 is provided with at least one right angle supporting seat 21 that has horizontal support portion 211 and vertical support portion 212 with the vertical cross section of mounting panel 3, the horizontal support portion 211 and the 1 upper surface connection of base plate of right angle supporting seat 21, the vertical support portion 212 and the mounting panel 3 of right angle supporting seat 21 are connected.

The feeding cylinder 2 is fixedly arranged on the lower surface of the substrate 1; the discharge plate 4 has a downwardly extending baffle 16 on its lower surface at the edge of the discharge opening 9.

Example 2: a precision machining device for an aluminum alloy back cover comprises an operation platform 24, a jig seat 25 provided with a workpiece 5 and a mounting bracket 26 positioned on one side of the jig seat 25, wherein the jig seat 25 and the mounting bracket 26 are both arranged on the operation platform 24, a driving cylinder 27 is arranged on the mounting bracket 26, a base plate 1 arranged along the horizontal direction is connected to a movable part of the driving cylinder 27 capable of moving along the vertical direction, a feeding cylinder 2 is arranged at one end, away from the jig seat 25, of the base plate 1, a mounting plate 3 arranged along the vertical direction is arranged on the end surface of the other end of the base plate 1, one end of a discharge plate 4 arranged along the horizontal direction is arranged below the mounting plate 3, and the other end of the discharge plate 4 extends to the position above a mounting groove 7 arranged on the workpiece 5 and used for mounting a magnet 6;

a guide plate 8 positioned above the discharge plate 4 is attached to the mounting plate 3 face to face, a feeding groove 81 which is through along the vertical direction is arranged on the surface of the discharge plate 4 facing the mounting plate 3, so that a feeding channel is formed between the mounting plate 3 and the guide plate 8, a discharge through hole 9 which is through along the vertical direction is arranged in the area of the discharge plate 4 positioned above the mounting groove 7, a groove 10 with two through ends is arranged on the upper surface of the discharge plate 4, one end of a movable plate 11 which can move along the horizontal direction is embedded into the groove 10, the other end of the movable plate 11 is arranged on the movable part of the feeding cylinder 2, a through hole 12 corresponding to the magnet 6 is arranged at one end of the movable plate 11 far away from the feeding cylinder 2, when the movable plate 11 is positioned at the first position, the through hole 12 on the movable plate 11 is positioned under the feeding channel and communicated with the feeding channel, when the movable plate 11 is located at the second position, the through hole 12 on the movable plate 11 is located right above the discharging through hole 9 and is communicated with the discharging through hole 9;

a mounting seat 13 is arranged above the discharging plate 4, a push plate 15 capable of moving along the vertical direction is mounted on a movable part of a discharging cylinder 14 mounted on the mounting seat 13, and the lower end of the push plate 15 is used for pushing the magnet 6 in the through hole 12 of the movable plate 11 to move downwards to the mounting groove 7 of the workpiece 5;

the mounting panel 3 is close to and opens on the surface of 1 one side of base plate and has a bar recess 20, the one end embedding of base plate 1 in the bar recess 20 and with mounting panel 3 fixed connection, base plate 1 is provided with at least one right angle supporting seat 21 that has horizontal support portion 211 and vertical support portion 212 with the vertical cross section of mounting panel 3, the horizontal support portion 211 and the 1 upper surface connection of base plate of right angle supporting seat 21, the vertical support portion 212 and the mounting panel 3 of right angle supporting seat 21 are connected.

The mounting bracket 26 further includes a bottom plate 261 horizontally mounted on the work table 24, a supporting plate 262 vertically disposed, and 2 reinforcing seats 263 disposed between the bottom plate 261 and the supporting plate 262 at intervals; the fixed part of the driving cylinder 27 is mounted on the side of the supporting plate 262 opposite to the reinforcing seat 263; 2 right-angle support seats 21 are connected between the substrate 1 and the mounting plate 3 at intervals.

When the precision machining device of the aluminum alloy back cover is adopted, the automatic installation of the magnets with smaller sizes on the electronic equipment is realized, and the situations that a plurality of magnets are not easy to separate and the installation deviates due to the acting force among the magnets in the manual installation process can be effectively avoided, so that the installation efficiency and the installation precision are improved; in addition, it can keep the stability of mounting panel, especially its position accuracy in vertical direction at the in-process that drives actuating cylinder long-term drive base plate and reciprocate in vertical direction, and then guaranteed the precision of feedstock channel and discharging hole in vertical direction, further guaranteed the installation accuracy to magnet.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a precision machining device of aluminum alloy back of body lid, includes operation panel (24), installs tool seat (25) of work piece (5) and is located installing support (26) of tool seat (25) one side, tool seat (25) and installing support (26) all set up on operation panel (24), its characterized in that: the mounting bracket (26) is provided with a driving cylinder (27), a movable part of the driving cylinder (27) capable of moving along the vertical direction is connected with a substrate (1) arranged along the horizontal direction, one end of the substrate (1) far away from the jig seat (25) is provided with a feeding cylinder (2), the end surface of the other end of the substrate (1) is provided with a mounting plate (3) arranged along the vertical direction, one end of a discharging plate (4) arranged along the horizontal direction is mounted below the mounting plate (3), and the other end of the discharging plate (4) extends to the position above a mounting groove (7) which is formed in the workpiece (5) and used for mounting a magnet (6);

a guide plate (8) positioned above the discharge plate (4) is in face-to-face fit with the mounting plate (3), a feeding groove (81) which is through along the vertical direction is formed in the surface of the discharge plate (4) facing the mounting plate (3), so that a feeding channel is formed between the mounting plate (3) and the guide plate (8), a discharge through hole (9) which is through along the vertical direction is formed in the area of the discharge plate (4) positioned above the mounting groove (7), a groove (10) with two through ends is formed in the upper surface of the discharge plate (4), one end of a movable plate (11) which can move along the horizontal direction is embedded into the groove (10), the other end of the movable plate (11) is arranged on the movable part of the feeding cylinder (2), and a through hole (12) which corresponds to the magnet (6) is formed in one end of the movable plate (11) far away from the feeding cylinder (2), when the movable plate (11) is positioned at the first position, the through hole (12) on the movable plate (11) is positioned right below the feeding channel and communicated with the feeding channel, and when the movable plate (11) is positioned at the second position, the through hole (12) on the movable plate (11) is positioned right above the discharging through hole (9) and communicated with the discharging through hole (9);

a mounting seat (13) is arranged above the discharging plate (4), a push plate (15) capable of moving along the vertical direction is mounted on a movable part of a discharging cylinder (14) mounted on the mounting seat (13), and the lower end of the push plate (15) is used for pushing a magnet (6) in a through hole (12) of the movable plate (11) to move downwards into a mounting groove (7) of a workpiece (5);

mounting panel (3) are close to and open on the surface of base plate (1) one side and have a bar recess (20), the one end embedding of base plate (1) bar recess (20) in and with mounting panel (3) fixed connection, base plate (1) and the perpendicular intersection of mounting panel (3) are provided with at least one right angle supporting seat (21) that have horizontal support portion (211) and vertical support portion (212), horizontal support portion (211) and base plate (1) upper surface connection of right angle supporting seat (21), vertical support portion (212) and mounting panel (3) of right angle supporting seat (21) are connected.

2. The precision machining apparatus of an aluminum alloy back cover according to claim 1, characterized in that: the feeding cylinder (2) is fixedly arranged on the lower surface of the base plate (1).

3. The precision machining apparatus of an aluminum alloy back cover according to claim 1, characterized in that: and a baffle (16) extending downwards is arranged on the lower surface of the discharging plate (4) and is positioned at the edge of the discharging through hole (9).

4. The precision machining apparatus of an aluminum alloy back cover according to claim 1, characterized in that: the mounting bracket (26) further comprises a bottom plate (261) horizontally mounted on the operation platform (24), a vertically arranged support plate (262) and 2 reinforcing seats (263) arranged between the bottom plate (261) and the support plate (262) at intervals.

5. The precision machining apparatus of an aluminum alloy back cover according to claim 1, characterized in that: the fixing part of the driving cylinder (27) is arranged on one side of the supporting plate (262) opposite to the reinforcing seat (263).

6. The precision machining apparatus of an aluminum alloy back cover according to claim 1, characterized in that: 2 the right-angle supporting seats (21) are connected between the base plate (1) and the mounting plate (3) at intervals.

Images