CN113771314B - 5G intelligent three-proofing mobile phone frame anti-falling structure and production process thereof - Google Patents

Abstract

The invention discloses a 5G intelligent three-prevention mobile phone frame anti-falling structure, which belongs to the technical field of smart phones and comprises a plurality of first anti-falling sleeves and second anti-falling sleeves which are fixedly glued on the outer surface of a frame body, and a plurality of anti-falling grooves which are arranged on two sides of the frame body and are convenient for fingers to place, wherein anti-falling lines are arranged on the side surfaces of the anti-falling grooves, far away from the frame body, of the first anti-falling sleeves, first anti-falling columns are fixedly glued on the front surface and the rear surface of the first anti-falling sleeves, and second anti-falling columns are fixedly glued on the front surface and the rear surface of the second anti-falling sleeves; the invention also discloses a production process of the 5G intelligent three-proofing mobile phone frame anti-falling structure; the intelligent three-proofing frame body is used for solving the technical problem that the anti-falling performance of the intelligent three-proofing frame body is poor in an existing scheme.

Description

5G intelligent three-proofing mobile phone frame anti-falling structure and production process thereof

Technical Field

The invention relates to the technical field of smart phones, in particular to a 5G smart three-proofing mobile phone frame anti-falling structure and a production process thereof.

Background

The intelligent three-proofing mobile phone is a mobile phone which is specially processed by a machine and can prevent falling (shock/compression), water and dust.

The frame of current 5G intelligence three proofings cell-phone can only reduce the injury to the cell-phone when dropping for the protection effect of frame is not good, and in the production process of frame, need with the help of the instrument just can conveniently quick take out the frame body that will process, influences the holistic production efficiency of frame body.

Disclosure of Invention

The invention aims to provide a 5G intelligent three-proofing mobile phone frame anti-falling structure and a production process thereof, which solve the following technical problems: how to solve the technical problems that the anti-falling performance of the intelligent three-prevention frame body in the existing scheme is poor, and the processed frame body cannot be taken out conveniently and rapidly.

The aim of the invention can be achieved by the following technical scheme:

the utility model provides a 5G intelligence three-prevention cell-phone frame prevents falling structure, including gluing the first cover of falling of a plurality of and the cover of falling of preventing of fixing at frame body surface, the first cover of falling of preventing of a plurality of and the cover of falling of preventing of second can play the effect of buffering, the anti-falling nature of side and a plurality of apex angle about having improved the frame, and the anti-falling groove that a plurality of that is convenient for finger placed of setting in frame body both sides, the side surface of preventing falling the groove and keeping away from the frame body is provided with the anti-falling line, the anti-falling groove of setting and anti-falling line, be convenient for the finger through preventing falling the groove and grasp the frame of 5G intelligent three-prevention cell-phone, stability when can improve 5G intelligent three-prevention cell-phone and use, the front and back surface of first cover of preventing all is glued and is fixed with first anti-falling post, the front and back surface of second anti-falling post of preventing of cover all glued and is fixed with the second and is prevented falling post, can cushion 5G intelligent three-prevention cell-phone when a plurality of first anti-falling post and second anti-falling post directly contacts with ground, and can prevent the positive and negative of 5G intelligent three-prevention cell-phone to prevent the frame three-protection cell-phone.

Further, the first anti-falling sleeves of a plurality of are symmetrically distributed at the two side positions of the upper end of the frame body, and the second anti-falling sleeves of a plurality of are symmetrically distributed at the two side positions of the lower end of the frame body.

Further, the anti-falling grooves are symmetrically distributed on two sides of the frame body.

A production process applied to a 5G intelligent three-proofing mobile phone frame anti-falling structure comprises the following steps:

before the frame body is processed, a plurality of dies are required to be installed and limited, the dies are placed on a moving plate, the dies are vertically moved downwards until the dies are abutted with a plurality of supporting rings and drawing mechanisms on the moving plate, so that the dies are accommodated on a plurality of first isolation plates on the moving plate;

starting an injection molding machine, controlling the movable plate to move from right to left on the supporting table, injecting a plurality of molds on the movable plate through an injection molding mechanism, and extruding the plurality of molds on the movable plate through an extrusion mechanism after injection molding is finished, so that injection molded materials in the plurality of molds are processed into the shape of the frame body;

after a plurality of moulds on the moving plate are sequentially injection-molded and extruded to generate a frame body, a supporting vertical plate on the drawing mechanism is rotated forwards through a rotating column, and a supporting transverse plate is rotated upwards through the rotation of the supporting vertical plate;

when the supporting vertical plate rotates forwards, the telescopic ring is extruded by the supporting vertical plate and the first storage groove, so that the buffer spring is contracted;

the upward rotation of the supporting transverse plate drives one side of the frame body to lift up, so that the formed frame body is conveniently separated from the die, after the frame body is separated from the die, the telescopic ring loses the extrusion of the supporting vertical plate and the first storage groove, so that the buffer spring stretches and returns to the original state, and the supporting vertical plate is pushed to return to the original position through the stretching of the buffer spring;

and separating the plurality of formed frame bodies from the die in sequence, and polishing two sides of the formed frame bodies to obtain a plurality of anti-falling grooves.

Further, the supporting bench sets up the below position at the injection molding machine front end, and movable plate sliding connection is in the upper end of supporting bench, and the upper end of movable plate is provided with the equidistant first division board of arranging the distribution of a plurality of, and the inside of a plurality of first division board all is provided with the first groove of accomodating and the second groove of accomodating that is used for accomodating the mould.

Further, the drawing mechanism is arranged in the first storage groove, and the supporting ring is fixedly arranged on the inner surface of the second storage groove.

Further, the drawing mechanism comprises a supporting transverse plate and a supporting vertical plate, and a rotating column penetrates through the connecting position of the supporting transverse plate and the supporting vertical plate.

Further, the upper surface of supporting the diaphragm and the back surface of supporting the riser are all fixed mounting have the second division board, and the front surface fixed mounting who supports the diaphragm has the expansion ring, is connected with a plurality of buffer spring that is the slope form arrangement and distributes between supporting riser and the expansion ring.

Further, the injection molding mechanism comprises a connecting pipe and an injection molding guide pipe, the extrusion mechanism comprises a connecting column and an extrusion plate matched with the die, and a push plate oil cylinder, an injection oil cylinder and a charging barrel are arranged in the injection molding machine.

Further, the lower extreme of movable plate is provided with a plurality of slider, and the inside of supporting bench is provided with the drive cylinder.

The invention has the beneficial effects that:

1. according to the invention, the first anti-falling sleeves and the second anti-falling sleeves can protect the frame of the 5G intelligent three-proofing mobile phone, so that the frame is prevented from being directly contacted with the ground and broken when the 5G intelligent three-proofing mobile phone falls, the first anti-falling sleeves and the second anti-falling sleeves can play a role in buffering, and the anti-falling performance of the left side, the right side and the top corners of the frame is improved;

2. according to the invention, the anti-falling grooves and the anti-falling lines are arranged, so that the fingers can grasp the frame of the 5G intelligent three-proofing mobile phone through the anti-falling grooves, and the stability of the 5G intelligent three-proofing mobile phone in use can be improved; when the front side or the back side of the 5G intelligent three-prevention mobile phone falls on the ground vertically, the first anti-falling columns and the second anti-falling columns can buffer the 5G intelligent three-prevention mobile phone when being in direct contact with the ground, and can protect the screen of the 5G intelligent three-prevention mobile phone, so that the anti-falling performance of the front side and the back side of the frame of the 5G intelligent three-prevention mobile phone is improved;

3. according to the invention, when the processed frame body needs to be taken out, the supporting vertical plate on the drawing mechanism rotates forwards through the rotating post, the supporting vertical plate rotates upwards through the rotation of the supporting vertical plate, and when the supporting vertical plate rotates forwards, the telescopic ring is extruded by the supporting vertical plate and the first storage groove, so that the buffer springs shrink, and the buffer springs distributed in an inclined arrangement can improve the stability of supporting the supporting vertical plate; the upward rotation of the supporting transverse plate drives one side of the frame body to be lifted upwards, so that the formed frame body is conveniently separated from the die, the frame body can be conveniently separated from the die, and the defect that the injection-molded frame body can be taken out by means of a tool in the existing scheme is overcome;

4. according to the invention, after the frame body is separated from the die, the telescopic ring loses the extrusion of the supporting vertical plate and the first storage groove, so that the buffer spring stretches and returns to the original state, and the supporting vertical plate is pushed to return to the original position through the stretching of the buffer spring, so that the use effect of the drawing mechanism can be improved.

Drawings

The invention is further described below with reference to the accompanying drawings.

Fig. 1 is a perspective view of an anti-falling structure of a 5G intelligent three-proofing mobile phone frame.

Fig. 2 is a perspective view of an injection molding machine according to the present invention.

Fig. 3 is an enlarged view of the invention at a in fig. 2.

Fig. 4 is a top view of a first separator according to the invention.

Fig. 5 is a perspective view of a drawing mechanism in the present invention.

Fig. 6 is a side view of the drawing mechanism of the present invention.

In the figure: 1. a frame body; 2. a first anti-drop sleeve; 3. a second anti-falling sleeve; 4. a first anti-drop column; 5. a second anti-drop column; 6. a through hole; 7. an anti-falling groove; 8. an injection molding machine; 9. a support table; 10. a moving plate; 11. an injection molding mechanism; 12. an extrusion mechanism; 13. a first partition plate; 14. a mold; 15. a first storage groove; 16. a drawing mechanism; 1601. a supporting cross plate; 1602. supporting a vertical plate; 1603. a rotating column; 1604. a telescopic ring; 1605. a second partition plate; 1606. a buffer spring; 17. a second storage groove; 18. and a support ring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1, the invention discloses a 5G intelligent three-prevention mobile phone frame anti-falling structure, which comprises a plurality of first anti-falling sleeves 2 and second anti-falling sleeves 3 which are fixedly glued on the outer surface of a frame body 1, and a plurality of anti-falling grooves 7 which are arranged on two sides of the frame body 1 and are convenient for fingers to place, wherein the side surfaces of the anti-falling grooves 7, which are far away from the frame body 1, are provided with anti-falling patterns, the plurality of first anti-falling sleeves 2 are symmetrically distributed on two side positions of the upper end of the frame body 1, the plurality of second anti-falling sleeves 3 are symmetrically distributed on two side positions of the lower end of the frame body 1, and the plurality of anti-falling grooves 7 are symmetrically arranged on two sides of the frame body 1; the first anti-falling sleeves 2 and the second anti-falling sleeves 3 are used for protecting the frame of the 5G intelligent three-proofing mobile phone, so that the frame is prevented from being directly contacted with the ground and broken when the 5G intelligent three-proofing mobile phone falls, the first anti-falling sleeves 2 and the second anti-falling sleeves 3 can play a role in buffering, and the anti-falling performance of the left side, the right side and the top corners of the frame is improved; the anti-falling grooves 7 and the anti-falling lines are arranged for placing the fingers, so that the fingers can conveniently grip the frame of the 5G intelligent three-proofing mobile phone through the anti-falling grooves 7, the stability of the 5G intelligent three-proofing mobile phone in use can be improved, and the shape of the anti-falling grooves 7 can be designed into an arc shape matched with the fingers in an imitation ergonomic way;

the front surface and the rear surface of the first anti-falling sleeve 2 are fixedly glued with a first anti-falling column 4, the front surface and the rear surface of the second anti-falling sleeve 3 are fixedly glued with a second anti-falling column 5, the heights of the first anti-falling column 4 and the second anti-falling column 5 on the 5G intelligent three-proofing mobile phone are higher than the heights of the screen on the 5G intelligent three-proofing mobile phone, a plurality of first anti-falling columns 4 and second anti-falling columns 5 are used for protecting the screen of the fallen 5G intelligent three-proofing mobile phone, when the front surface or the back surface of the 5G intelligent three-proofing mobile phone is vertically fallen on the ground, the plurality of first anti-falling columns 4 and the second anti-falling columns 5 are directly contacted with the ground and buffer the 5G intelligent three-proofing mobile phone, the screen of the 5G intelligent three-proofing mobile phone can be protected, the front surface and the back surface of the frame of the 5G intelligent three-proofing mobile phone are improved, and the safety of the screen of the 5G intelligent three-proofing mobile phone can be improved;

one side of the inner surface of the frame body 1 is provided with a plurality of through holes 6, the through holes 6 are used for assembling volume buttons and switch buttons, and the lower end of the inner surface of the frame body 1 is provided with a power-on hole; the frame body 1 is made of plastic, so that communication signals of the 5G intelligent three-proofing mobile phone can be improved, and interference of the metal material on the communication signals of the 5G intelligent three-proofing mobile phone is avoided.

Example two

Referring to fig. 2-6, a production process for an anti-falling structure of a 5G smart tri-proof mobile phone frame includes:

step one: before the frame body 1 is processed, a plurality of dies 14 are required to be installed and limited, the dies 14 are placed on the moving plate 10, the dies 14 are vertically moved downwards until the dies 14 are abutted with the supporting rings 18 and the drawing mechanisms 16 on the moving plate 10, the dies 14 are accommodated on the first isolation plates 13 on the moving plate 10, the drawing mechanisms 16 can limit the dies 14 on the first isolation plates 13, and the stability of the dies 14 in working can be improved;

step two: starting an injection molding machine 8, controlling a movable plate 10 to move from right to left on a supporting table 9, injecting a plurality of molds 14 on the movable plate 10 through an injection molding mechanism 11, and extruding the plurality of molds 14 on the movable plate 10 through an extrusion mechanism 12 after injection molding is finished, so that injection molded materials in the plurality of molds 14 are processed into the shape of the frame body 1;

step three: after the frames 1 are formed by sequentially injection molding and extrusion of the plurality of dies 14 on the moving plate 10, the supporting risers 1602 on the drawing mechanism 16 are rotated forward through the rotary posts 1603, and the supporting cross plates 1601 are rotated upward through the rotation of the supporting risers 1602;

step four: when the supporting riser 1602 rotates forward, the telescopic ring 1604 is pressed by the supporting riser 1602 and the first receiving groove 15, so that the buffer spring 1606 contracts; the contraction of the plurality of buffer springs 1606 may limit the range of rotation of the support risers 1602;

step five: the upward rotation of the supporting transverse plate 1601 drives one side of the frame body 1 to be lifted upwards, so that the formed frame body 1 is conveniently separated from the die 14, after the frame body 1 is separated from the die 14, the telescopic ring 1604 loses the extrusion of the supporting riser 1602 and the first storage groove 15, so that the buffer spring 1606 stretches and returns to the original state, and the supporting riser 1602 is pushed to return to the original position through the stretching of the buffer spring 1606;

step six: the formed frame bodies 1 are separated from the die 14 in sequence, and the two sides of the formed frame bodies 1 are polished to obtain the anti-falling grooves 7.

Referring to fig. 2, the supporting table 9 is disposed at a position below the front end of the injection molding machine 8, the moving plate 10 is slidably connected to the upper end of the supporting table 9, a plurality of sliding blocks are disposed at the lower end of the moving plate 10, a driving cylinder is disposed inside the supporting table 9, a push rod is connected between the driving cylinder and the plurality of sliding blocks, the driving cylinder drives the push rod to move from right to left, when the push rod moves, the moving plate 10 is pushed to slide at the upper end of the supporting table 9 by the plurality of sliding blocks, so that injection molding and extrusion operations on the plurality of dies 14 on the moving plate 10 can be sequentially performed, a plurality of first isolation plates 13 are disposed at the upper end of the moving plate 10 in an equidistant arrangement, and the plurality of first isolation plates 13 are used for isolating the dies 14 in operation, so that mutual influence among the dies 14 in different working states is avoided, and the stability of the dies 14 in operation can be improved;

the extrusion mechanism 12 is positioned at one side of the injection mechanism 11, the injection mechanism 11 comprises a connecting pipe and an injection guide pipe, the extrusion mechanism 12 comprises a connecting column and an extrusion plate matched with the die 14, a push plate cylinder, an injection cylinder and a charging barrel are arranged in the injection molding machine 8, the injection cylinder is connected with the connecting pipe and the injection guide pipe, the push plate cylinder is connected with the connecting pipe and the injection guide pipe, and the injection molding and extrusion operation of the injection molding machine 8 are all conventional schemes and are not repeated herein;

referring to fig. 3-4, a first receiving groove 15 and a second receiving groove 17 for receiving the mold 14 are provided in the first plurality of isolation plates 13, and the length of the first receiving groove 15 is greater than the length of the second receiving groove 17; wherein, the drawing mechanism 16 is arranged in the first receiving groove 15, the telescopic ring 1604 on the drawing mechanism 16 contacts with the inner surface of the first receiving groove 15, and the supporting ring 18 is fixedly arranged on the inner surface of the second receiving groove 17; the support ring 18 is used for supporting the lower surface of the mold 14, including the rear end, the left side and the right side of the lower surface of the mold 14; the drawing mechanism 16 supports and limits the front end of the lower surface of the die 14 in the first accommodating groove 15, so that the stability of the die 14 during accommodating can be improved;

referring to fig. 5-6, the drawing mechanism 16 includes a supporting cross plate 1601 and a supporting riser 1602, a rotating post 1603 penetrates through a joint of the supporting cross plate 1601 and the supporting riser 1602, two ends of the rotating post 1603 respectively penetrate through the first accommodating groove 15 to the first isolation plate 13, and the supporting cross plate 1601 and the supporting riser 1602 are rotatably connected with the first accommodating groove 15 through the rotating post 1603;

the upper surface of supporting diaphragm 1601 and the rear surface of supporting riser 1602 all fixed mounting have second division board 1605, second division board 1605 is used for keeping apart first division board 13 and supporting diaphragm 1601 and supporting riser 1602, the front surface fixed mounting who supports diaphragm 1601 has the expansion ring 1604, the cross-section of expansion ring 1604 is semi-circular, be connected with a plurality of and be the buffer spring 1606 that the slope form was arranged and distribute between supporting riser 1602 and the expansion ring 1604, the buffer spring 1606 that the slope form was arranged and distribute can improve the stability of supporting riser 1602 support, when frame body 1 after the processing needs to take out, supporting riser 1602 rotates forward, buffer spring 1606 is used for supporting spacingly to the supporting riser 1602 of upset, after frame body 1 takes out, can make the supporting riser of upset automatic the normal position through a plurality of buffer spring 1606, the convenience of drawing mechanism 16 use has been improved, the defect that needs only can take out injection moulding's frame body 1 with the help of instrument in the prior art has been overcome, frame body 1 integral processing efficiency has been improved.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases to those of ordinary skill in the art.

The foregoing describes one embodiment of the present invention in detail, but the description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims (5)

1. The utility model provides a 5G intelligence three-prevention cell-phone frame prevents falling structure, a serial communication port, including frame body (1) surface glue joint fixed a plurality of first anti-falling cover (2) and second anti-falling cover (3), and a plurality of anti-falling groove (7) that are convenient for finger to place that frame body (1) both sides set up, the side surface that frame body (1) was kept away from in anti-falling groove (7) is provided with prevents falling the line, the front and back surface of first anti-falling cover (2) all glue joint is fixed with first anti-falling post (4), the front and back surface of second anti-falling cover (3) all glue joint is fixed with second anti-falling post (5);

the production process of the 5G intelligent three-proofing mobile phone frame anti-falling structure specifically comprises the following steps: the plurality of dies (14) are placed on the moving plate (10), and the plurality of dies (14) are vertically moved downwards, so that the plurality of dies (14) are accommodated on the plurality of first isolation plates (13) on the moving plate (10);

injection molding is carried out on a plurality of dies (14) on the movable plate (10) through an injection molding mechanism (11), and after injection molding is finished, the plurality of dies (14) on the movable plate (10) are extruded through an extrusion mechanism (12), so that the injection molded materials in the plurality of dies (14) are processed into the shape of the frame body (1);

after a plurality of moulds (14) on the moving plate (10) are sequentially injection-molded and extruded to generate a frame body (1), a supporting vertical plate (1602) on the drawing mechanism (16) rotates forwards through a rotary column (1603), and a supporting transverse plate (1601) rotates upwards through the rotation of the supporting vertical plate (1602);

the upward rotation of the supporting transverse plate (1601) drives one side of the frame body (1) to be lifted upwards, the formed frame body (1) is separated from the die (14), and the supporting vertical plate (1602) is pushed to restore to the original position by the extension of the buffer spring (1606);

sequentially separating the plurality of molded frame bodies (1) from the mold (14), and polishing two sides of the molded frame bodies (1) to obtain a plurality of anti-falling grooves (7);

the movable plate (10) is slidably connected to the upper end of the supporting table (9), a plurality of first isolation plates (13) which are distributed at equal intervals are arranged at the upper end of the movable plate (10), and a first containing groove (15) and a second containing groove (17) for containing the die (14) are formed in the first isolation plates (13);

the drawing mechanism (16) is arranged in the first accommodating groove (15), and the supporting ring (18) is fixedly arranged on the inner surface of the second accommodating groove (17);

the drawing mechanism (16) comprises a supporting transverse plate (1601) and a supporting vertical plate (1602), and a rotating column (1603) penetrates through the joint of the supporting transverse plate (1601) and the supporting vertical plate (1602);

the front surface of the supporting transverse plate (1601) is fixedly provided with a telescopic ring (1604), and a plurality of buffer springs (1606) which are distributed in an inclined arrangement are connected between the supporting vertical plate (1602) and the telescopic ring (1604).

2. The 5G intelligent three-prevention mobile phone frame anti-falling structure according to claim 1, wherein a plurality of first anti-falling sleeves (2) are symmetrically distributed at two side positions of the upper end of the frame body (1), and a plurality of second anti-falling sleeves (3) are symmetrically distributed at two side positions of the lower end of the frame body (1).

3. The 5G intelligent three-prevention mobile phone frame anti-falling structure according to claim 2 is characterized in that a plurality of anti-falling grooves (7) are symmetrically distributed on two sides of the frame body (1).

4. The 5G intelligent three-proofing mobile phone frame anti-falling structure according to claim 1, wherein the injection molding mechanism (11) comprises a connecting pipe and an injection molding guide pipe, and the extrusion mechanism (12) comprises a connecting column and an extrusion plate matched with the die (14).

5. The 5G intelligent three-proofing mobile phone frame anti-falling structure according to claim 4 is characterized in that a plurality of sliding blocks are arranged at the lower end of a moving plate (10), and a driving cylinder is arranged inside a supporting table (9).