CN218817431U - Battery cover gum rolling activation die - Google Patents

Abstract

The utility model discloses a battery cover gum rolling activation die, which relates to the technical field of battery cover preparation and comprises a bottom mounting seat and a top mounting frame; be provided with the y axle on the mount pad of bottom and remove the subassembly, the work piece bears the seat, be provided with the x axle on the mounting bracket of top and remove the subassembly, a fixed base, angle adjusting component and roll extrusion subassembly, angle adjusting component includes the connecting plate, first automatically controlled sharp extensible member, support the pterygoid lamina, the arc spout, the connecting rod, roll extrusion subassembly includes the automatically controlled sharp extensible member of second, the gyro wheel support, the gyro wheel, drive the connecting rod through first automatically controlled sharp extensible member, make the connecting plate be upright state or tilt state, the gyro wheel on the gyro wheel support is upright state or tilt state, combine the x axle to remove the subassembly, the y axle removes the subassembly, roll extrusion subassembly, make this battery cover gum roll extrusion activation mould can be suitable for the flat plane to the battery cover, the roll extrusion operation of inclined plane and bulge, the suitability is good, and angle modulation is convenient, be suitable for industrial application.

Description

Battery cover gum rolling activation die

Technical Field

The utility model relates to a battery cover preparation technical field specifically is a battery cover gum roll extrusion activation mould.

Background

After the mobile phone battery cover is assembled on the mobile phone middle frame, the back adhesive on the battery cover needs to be activated, and the general activation method is to roll the mobile phone battery cover. Due to low manual rolling efficiency and high labor intensity, the back glue rolling activation of the mobile phone battery cover is gradually completed by equipment.

The structure is many as the chinese utility model discloses of patent No. 202120547498.9 "a full-automatic mobile phone battery lid roll extrusion pressfitting machine", "start electric telescopic handle 7's control switch, electric telescopic handle 7 will drive adjusting part 8 and buffering subassembly 9 and move down, in the in-process that buffering subassembly 9 moved down, the elastic ring 908 in the gyro wheel 907 outside at first contacts with the mobile phone battery lid, later along with the gradual shrink of buffering subassembly 9 decline expanding spring 905 shortens, later start second driving motor 5's control switch, second driving motor 5 will make the second remove about the block 6 through second screw lead screw 4, thereby realize the pressfitting. "

Or as disclosed in chinese utility model No. 202221695670.6, "battery cover rolling device and battery cover rolling system of mobile terminal", when rolling the battery cover 3 of the mobile terminal, first the first rotating wheel 11 is made to correspond to the first side 31 of the battery cover 3, and the first rotating wheel 11 is rotated to roll the first side 31, that is, to roll the length direction of the battery cover 3. After the first side edge 31 is rolled, the second rotating wheel 12 is then made to correspond to the second side edge 32 of the battery cover 3, and the second rotating wheel 12 is rotated to roll the second side edge 32, i.e., the width direction of the battery cover 3.

The two battery cover rolling devices not only roll the battery cover, but also respectively avoid the damage of the mobile phone, and how to meet the rolling of the battery cover in different directions through one device, but both have the same defect that a roller (a rotating wheel) for rolling can only be suitable for the rolling of a straight surface, when the battery cover is provided with an inclined surface and a protrusion, the roller can not roll the inclined surface or the protrusion well, so that the gum of the inclined surface and the protrusion is in an un-rolled activated state, and the gum gluing effect of the battery cover is not expected. Therefore, it is necessary to invent a battery cover back glue rolling activation die which can perform back glue rolling activation on the straight surface of the battery cover and also can perform back glue rolling activation on the inclined surface and the convex part of the battery cover.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough to overcome above-mentioned condition, aims at providing a technical scheme that automatic turn-up equipment of protective sheath and method can solve above-mentioned problem.

In order to achieve the above object, the utility model provides a following technical scheme: a battery cover gum rolling activation die comprises a bottom mounting seat and a top mounting seat; a y-axis moving assembly is arranged on the bottom mounting seat, and a workpiece bearing seat is arranged on the moving end of the y-axis moving assembly; an x-axis moving assembly is mounted on the top mounting frame, a fixed seat is arranged at the moving end of the x-axis moving assembly, and an angle adjusting assembly and a rolling assembly are arranged on the fixed seat; the angle adjusting assembly comprises a connecting plate, a first electric control linear telescopic piece and a supporting wing plate arranged at the bottom of the fixed seat; an arc-shaped chute is formed on the support wing plate, and a connecting rod is arranged on the arc-shaped chute in a sliding way; the connecting plate is provided with an upper end and a lower end, wherein one end of the connecting plate is connected with the connecting rod, and the other end of the connecting plate is rotatably connected with the supporting wing plate; the main body of the first electric control linear telescopic piece is rotatably connected with the supporting wing plate, and the telescopic end of the first electric control linear telescopic piece is rotatably connected with the connecting rod; the rolling assembly comprises a second electric control linear telescopic piece arranged on the connecting plate, the telescopic end of the second electric control linear telescopic piece extends downwards and is connected with a roller support, and a roller is arranged on the roller support.

As a further aspect of the present invention: the reversing motor is arranged on the moving end of the x-axis moving assembly, the reversing motor is vertically arranged, and the fixing seat is arranged on a rotating shaft of the reversing motor.

As a further aspect of the present invention: the telescopic end of the first electric control linear telescopic piece is rotatably connected with the connecting rod through a bearing.

As a further aspect of the present invention: the first electric control linear expansion piece is an electric push rod.

As a further aspect of the present invention: the other end of the connecting plate is rotatably connected with the supporting wing plate through a rotating shaft.

As a further aspect of the present invention: a lifting guide rail is formed on the connecting plate, a lifting slide block matched with the lifting guide rail is connected to the roller support, and the sliding direction of the lifting slide block on the lifting guide rail is consistent with the direction of the second electric control linear telescopic piece driving the roller support.

As a further aspect of the present invention: the second electric control linear expansion piece is an electric control cylinder or an electric push rod.

As a further aspect of the present invention: the y-axis moving assembly is a motor lead screw assembly, and the workpiece bearing seat is arranged on a sliding block of the motor lead screw assembly.

As a further aspect of the present invention: the x-axis moving assembly comprises an x-axis guide rail arranged on the top mounting frame, an x-axis rack is arranged on the x-axis guide rail, an x-axis sliding block is arranged on the x-axis guide rail in a sliding mode, a driving motor is arranged on the x-axis sliding block, a gear is connected to a rotating shaft of the driving motor in an axis coupling mode, and the gear and the x-axis rack are arranged in a meshed mode.

Compared with the prior art, the beneficial effects of the utility model are as follows:

when the flat surface of the battery cover needs to be rolled, the first electric control linear expansion piece drives the connecting rod to enable the connecting plate to be in an upright state, namely, a roller on the roller bracket is in an upright state, and the rolling operation of the mobile phone provided with the battery cover on the workpiece bearing seat is completed by matching with the x-axis moving assembly, the y-axis moving assembly and the second electric control linear expansion piece; when the inclined surface and the convex part of the battery cover need to be rolled, the first electric control linear telescopic piece drives the connecting rod to enable the connecting plate to be in an inclined state, namely, the roller on the roller bracket is in an inclined state, and the rolling operation on the inclined surface or the convex cambered surface of the convex part of the battery cover is completed by matching with the x-axis moving assembly, the y-axis moving assembly and the second electric control linear telescopic piece;

through the design of the angle adjusting assembly, the x-axis moving assembly, the y-axis moving assembly and the rolling assembly are combined, so that the battery cover gum rolling activation die can be suitable for rolling operation of a straight surface, an inclined surface and a protruding part of the battery cover, the applicability is good, the angle adjustment is convenient, and the angle adjusting die is suitable for industrial application.

Drawings

Fig. 1 is a schematic structural view of the rolling battery cover of the present invention applied to a flat surface;

fig. 2 is another schematic structural view of the present invention applied to rolling a flat surface of a battery cover;

fig. 3 is a schematic structural view of the present invention applied to rolling the inclined surface or the protruding portion of the battery cover;

fig. 4 is another schematic structural diagram of the present invention applied to rolling the inclined surface or the protruding portion of the battery cover.

The reference numerals and names in the figures are as follows:

a y-axis moving component-1, a workpiece bearing seat-2, an x-axis moving component-3, a fixed seat-4, an angle adjusting component-5, a rolling component-6, a reversing motor-7,

an x-axis guide rail-101, an x-axis rack-102, an x-axis slide block-103, a driving motor-104, a gear-105,

a connecting plate-501, a first electric control linear expansion piece-502, a support wing plate-503, an arc chute-504, a connecting rod-505, a rotating shaft-506,

a second electric control linear expansion piece-601, a roller bracket-602, a roller-603, a lifting guide rail-604 and a lifting slide block-605.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, a battery cover glue rolling activation die includes a bottom mounting base and a top mounting base. The bottom mounting seat is provided with a y-axis moving assembly 1, the moving end of the y-axis moving assembly 1 is provided with a workpiece bearing seat 2, and the workpiece bearing seat 2 is used for bearing a workpiece to be rolled, namely a mobile phone provided with a battery cover. The y-axis moving assembly 1 is a motor lead screw assembly, the workpiece bearing seat 2 is installed on a sliding block of the motor lead screw assembly, and a motor of the motor lead screw assembly drives a lead screw to rotate so that the sliding block moves on the guide rail in the y-axis direction.

An x-axis moving assembly 3 is installed on the top installation frame, and a fixed seat 4 is arranged at the moving end of the x-axis moving assembly 3. The x-axis moving assembly 3 comprises an x-axis guide rail 101 installed on the top installation frame, an x-axis rack 102 is arranged on the x-axis guide rail 101, an x-axis sliding block 103 is arranged on the x-axis guide rail 101 in a sliding mode, a driving motor 104 is installed on the x-axis sliding block 103, a gear 105 is connected to a rotating shaft of the driving motor 104 in an axis mode, the gear 105 and the x-axis rack 102 are arranged in a meshed mode, rotation of the driving motor 104 is controlled, the gear 105 correspondingly rotates, and when the gear 105 rotates, the gear 105 is meshed with the fixed x-axis rack 102 to bear force, so that the x-axis sliding block 103 moves on the x-axis guide rail 101 in the x-axis direction.

An angle adjusting component 5 and a rolling component 6 are arranged on the fixed seat 4. The angle adjusting assembly 5 comprises a connecting plate 501, a first electrically controlled linear expansion member 502, and a support wing plate 503 mounted on the bottom of the fixed base 4.

An arc-shaped sliding groove 504 is formed on the support wing plate 503, and a connecting rod 505 is slidably arranged on the arc-shaped sliding groove 504. The connecting plate 501 has upper and lower ends, wherein one end of the connecting plate 501 is connected to the connecting rod 505, and the other end of the connecting plate 501 is rotatably connected to the support wing 503 through a rotating shaft 506.

The curved slot 504 is shown above the shaft 506, but in other embodiments, the curved slot may be even with or below the shaft. The relationship among the connecting plate 501, the connecting rod 505, the arc-shaped sliding groove 504 and the rotating shaft 506 satisfies that: when the connecting plate 501 rotates with the axis of the rotating shaft 506 as the rotation center line, the connecting rod 505 slides on the arc-shaped sliding groove 504 in an arc-shaped path. It can also be understood that: the round point of the arc corresponding to the arc chute is positioned on the axis of the rotating shaft.

The main body of the first electrically controlled linear expansion element 502 is rotatably connected to the support wing 503, and the expansion end of the first electrically controlled linear expansion element 502 is rotatably connected to the connecting rod 505 through a bearing. By the telescopic action of the first electrically controlled linear expansion element 502, the connecting rod 505 is pushed so that it slides in an arc-shaped path on the arc-shaped sliding slot 504, i.e. the connecting plate 50 performs angular adjustment in a rotating manner. The first electric control linear expansion piece is preferably an electric push rod, the expansion distance of the first electric control linear expansion piece is controllable, and correspondingly, the rotation angle of the connecting plate is controllable.

The forward/reverse rotation direction of the connecting plate 501 with respect to the support wing 503 is identical to the forward/reverse rotation direction of the body of the first electrically controlled linear expansion element 502 with respect to the support wing 503 and the forward/reverse rotation direction of the expansion end of the first electrically controlled linear expansion element 502 with respect to the connecting rod 504.

The rolling assembly 6 comprises a second electric control linear expansion piece 601 installed on the connecting plate 501, the expansion end of the second electric control linear expansion piece 601 extends downwards and is connected with a roller bracket 602, and a roller 603 is arranged on the roller bracket 602.

On the premise of only needing the telescopic function, the second electric control linear telescopic part is preferably an electric control cylinder, and the response speed is high. In other embodiments, the second electrically controlled linear expansion element may be a driving element with an adjustable expansion stroke, such as an electric push rod, for example, for the purpose of adjusting the expansion stroke, such as adjusting the expansion stroke at any time, or adjusting the expansion stroke after the rotation angle of the connecting plate is changed correspondingly.

When the flat surface of the battery cover needs to be rolled, as shown in fig. 1-2, the first electrically controlled linear expansion element 502 drives the connecting rod 505 to make the connecting plate 501 in an upright state, that is, the roller 603 on the roller bracket 602 in an upright state, and completes the rolling operation of the mobile phone with the battery cover on the workpiece bearing seat 2 by cooperating with the x-axis moving assembly 3, the y-axis moving assembly 1, and the second electrically controlled linear expansion element 601.

When the battery cover with an inclined surface and a raised part needs to be rolled, as shown in fig. 3-4, the first electrically controlled linear expansion member 502 drives the connecting rod 505, so that the connecting plate 501 is in an inclined state, that is, the roller 603 on the roller bracket 602 is in an inclined state, and the rolling operation on the inclined surface of the battery cover or the raised cambered surface of the raised part is completed by matching with the x-axis moving assembly 3, the y-axis moving assembly 1 and the second electrically controlled linear expansion member 601.

Preferably, a reversing motor 7 is installed on a moving end (i.e. the above x-axis slider) of the x-axis moving assembly 3, the reversing motor 7 is vertically arranged, and the fixed seat 4 is installed on a rotating shaft of the reversing motor 7. The design of the reversing motor 7 enables the roller 603 to be used for rolling in multiple directions. Fig. 1 to 4 show the rolling in the y-axis direction, which can be driven by the reversing motor to rotate 90 ° and then be suitable for the rolling in the x-axis direction, or can be driven by the reversing motor to rotate at other angles, so that the rolling in different directions including the long side direction of the battery cover and the short side direction of the battery cover can be satisfied. After the direction of the reversing motor 7 is adjusted, the offset distance between the roller 603 and the workpiece bearing seat 2 can be adjusted and adjusted back by the x-axis moving assembly 3 and the y-axis moving assembly 1.

Preferably, a lifting guide rail 604 is formed on the connecting plate 501, a lifting slider 605 matched with the lifting guide rail 604 is connected to the roller bracket 602, and the sliding direction of the lifting slider 605 on the lifting guide rail 604 is consistent with the direction of the second electrically controlled linear expansion piece 601 driving the roller bracket 602, so that the lifting is more stable.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. A battery cover gum rolling activation die is characterized by comprising a bottom mounting seat and a top mounting frame;

a y-axis moving assembly is arranged on the bottom mounting seat, and a workpiece bearing seat is arranged on the moving end of the y-axis moving assembly;

an x-axis moving assembly is mounted on the top mounting frame, a fixed seat is arranged at the moving end of the x-axis moving assembly, and an angle adjusting assembly and a rolling assembly are arranged on the fixed seat;

the angle adjusting assembly comprises a connecting plate, a first electric control linear telescopic piece and a supporting wing plate arranged at the bottom of the fixed seat; an arc-shaped chute is formed on the support wing plate, and a connecting rod is arranged on the arc-shaped chute in a sliding way; the connecting plate is provided with an upper end and a lower end, wherein one end of the connecting plate is connected with the connecting rod, and the other end of the connecting plate is rotatably connected with the supporting wing plate; the main body of the first electric control linear telescopic piece is rotatably connected with the supporting wing plate, and the telescopic end of the first electric control linear telescopic piece is rotatably connected with the connecting rod;

the rolling assembly comprises a second electric control linear telescopic piece arranged on the connecting plate, the telescopic end of the second electric control linear telescopic piece extends downwards and is connected with a roller support, and a roller is arranged on the roller support.

2. The battery cover gum rolling activation die of claim 1, wherein a reversing motor is mounted on the moving end of the x-axis moving assembly, the reversing motor is vertically arranged, and the fixing seat is mounted on a rotating shaft of the reversing motor.

3. The battery cover gum rolling activation die of claim 1, wherein the telescoping end of the first electrically controlled linear telescoping member is rotatably connected to the connecting rod through a bearing.

4. The battery cover gum rolling activation die of claim 1 or 3, wherein the first electrically controlled linear expansion member is an electrical push rod.

5. The battery cover glue-backed roll-activated die of claim 1, wherein the other end of the connecting plate is rotatably connected to the support wing by a rotating shaft.

6. The battery cover gum rolling activation die as claimed in claim 1 or 5, wherein a lifting guide rail is formed on the connecting plate, a lifting slider matched with the lifting guide rail is connected to the roller bracket, and the sliding direction of the lifting slider on the lifting guide rail is consistent with the direction of the second electric control linear expansion piece driving the roller bracket.

7. The battery cover gum rolling activation die of claim 1, wherein the second electrically controlled linear expansion member is an electrically controlled cylinder or an electrically driven push rod.

8. The battery cover gum rolling activation die of claim 1, wherein the y-axis moving assembly is a motor screw assembly and the workpiece bearing block is mounted on a slide block of the motor screw assembly.

9. The battery cover gum rolling activation die as claimed in claim 1, wherein the x-axis moving assembly comprises an x-axis guide rail mounted on the top mounting frame, an x-axis rack is disposed on the x-axis guide rail, an x-axis slider is slidably disposed on the x-axis guide rail, a driving motor is mounted on the x-axis slider, a gear is axially connected to a rotating shaft of the driving motor, and the gear and the x-axis rack are in an engaged arrangement.

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