CN110961972A

CN110961972A - Machining device for smart phone

Info

Publication number: CN110961972A
Application number: CN201911212077.4A
Authority: CN
Inventors: 潘群; 曹银
Original assignee: Kersen Science & Technology Dongtai Co ltd
Current assignee: Jiangsu jinkesen Electronic Technology Co., Ltd
Priority date: 2019-12-02
Filing date: 2019-12-02
Publication date: 2020-04-07
Anticipated expiration: 2039-12-02
Also published as: CN110961972B

Abstract

The invention discloses a processing device for a smart phone, which comprises a bottom plate, a top plate, a material seat and at least one ejection mechanism, wherein the material seat and the at least one ejection mechanism are movably arranged between the bottom plate and the top plate, the bottom plate and the top plate are connected through a plurality of supporting plates, the ejection mechanism is positioned on the side edge of the bottom plate, a material to be processed is arranged on the material seat, the ejection mechanism further comprises a guide pillar, a rack movably arranged on the guide pillar, a positioning column, an ejection cylinder and a clamping tongue embedded into the rack, the upper end and the lower end of the guide pillar and the upper end and the lower end of the positioning column are respectively connected with the top plate and the bottom plate, the rack is movably connected with the guide pillar through. The automatic feeding device realizes automatic feeding of the material to be processed placed on the material seat, not only replaces manual work, improves processing efficiency, but also can avoid errors of manual feeding, ensures processing precision, can avoid accidental injury to personnel, and improves automation level of equipment.

Description

Machining device for smart phone

Technical Field

The invention relates to the field of processing equipment of mobile phone parts, in particular to a processing device for a smart phone.

Background

In an industrial product production line, after the upper part of a material to be processed is processed for one time, the finished product is cut, and then the material below the finished product is processed, so that the material to be processed is loaded to process the next layer of material. At present, most of production lines are manual operation, realize the material loading through the operator, but the not only precision of manual clamping is low, influences processingquality, and the cost of labor is high moreover, and is efficient, production cycle length.

Disclosure of Invention

The processing device for the smart phone realizes automatic feeding of a material to be processed placed on a material seat, replaces manual work, improves processing efficiency, can avoid errors of manual feeding, ensures processing precision, can avoid accidental injury to personnel, and improves automation level of equipment.

In order to achieve the purpose, the invention adopts the technical scheme that: a processing device for a smart phone comprises a bottom plate, a top plate, a material seat and at least one ejection mechanism, wherein the material seat and the at least one ejection mechanism are movably arranged between the bottom plate and the top plate;

the pushing mechanism further comprises a guide pillar, a rack movably mounted on the guide pillar, a positioning column, a pushing cylinder and a clamping tongue embedded into the rack, the upper end and the lower end of the guide pillar and the upper end and the lower end of the positioning column are respectively connected with the top plate and the bottom plate, the rack is movably connected with the guide pillar through at least one sliding block, and a piston rod of the pushing cylinder is connected with the sliding block and used for driving the sliding block to move up and down;

the positioning column is movably provided with a movable block, the movable block is connected with the material seat and used for driving the material seat to move up and down, a cavity is arranged in the movable block, the clamping tongue is embedded in the cavity and moves back and forth in the cavity, one end, opposite to the rack, of the clamping tongue is connected with a clamping cylinder and is also provided with a positioning cylinder, and the surface of one side, close to the positioning cylinder, of the positioning column is provided with a plurality of positioning grooves for embedding piston rods of the positioning cylinder;

the top plate is provided with two through holes for extending a material to be processed, a plurality of first limiting grooves are formed between the two through holes, a left push block, an extrusion block and a right push block are embedded in the first limiting grooves, the extrusion block is positioned between the left push block and the right push block, the surfaces of the extrusion block, the left push block and the right push block, which are contacted with each other, are inclined surfaces which are inclined inwards, the surfaces of the left push block and the right push block, which are contacted with the extrusion block, are inclined surfaces which are inclined outwards, one side of the left push block and one side of the right push block, which are opposite to the extrusion block, are provided with a pressure head, the pressure head extends out of the first limiting grooves and is contacted and connected with the side wall of the material to be processed, and a first air cylinder is arranged below the extrusion block and connected with the extrusion block;

the top plate is provided with at least one through hole for extending a material to be processed, a second limiting groove is formed in the top plate at one end of the through hole, a wedge block and a push block are arranged in the second limiting groove, the contact surface of the wedge block and the push block is an inclined surface which inclines inwards, the contact surface of the push block and the wedge block is an inclined surface which inclines outwards, a second air cylinder is arranged below the wedge block and connected with the wedge block, one side of the push block, opposite to the wedge block, is provided with a plurality of extrusion heads, and the extrusion heads extend out of the second limiting groove and are in contact connection with the material to be processed;

the material seat is further including the cushion that is located bottom plate upper surface both ends, the bridge joint in two support bars of two cushion tops and install in the flexible cushion of support bar upper surface, connect through a plurality of spliced poles between two support bars, the spliced pole that is located the support bar both ends is connected with the movable block, and the flexible cushion symmetry that is located on two support bars sets up, is provided with one on the flexible cushion that per two symmetries set up and treats the processing material, a right angle deflector is installed respectively to the lateral surface that the support bar has flexible cushion department, and it has a plurality of bar guide ways to open on the outer wall of this right angle deflector, and this a plurality of bar guide ways correspond the setting with the sand grip of treating the processing material.

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

1. in the above scheme, the number of the ejection mechanisms is two, and the two ejection mechanisms are respectively positioned on two sides of the bottom plate.

2. In the scheme, the guide columns and the positioning columns are arranged in parallel face to face.

3. In the above scheme, the top plate is provided with a through hole for the material to be processed to extend out.

4. In the above scheme, a dustproof cover casing is arranged above the top plate.

5. In the scheme, the left push block and the right push block are respectively provided with a strip-shaped step hole, the upper end of a screw is matched with the strip-shaped step hole, and the lower end of the screw is in threaded connection with the top plate.

6. In the above scheme, the number of the first limiting grooves is 2.

7. In the above scheme, the plurality of first limiting grooves are arranged in parallel.

8. In the scheme, the number of the extrusion heads on each push block is 2.

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

1. the invention relates to a processing device for a smart phone, wherein a pushing mechanism of the processing device further comprises a guide post, a rack movably arranged on the guide post, a positioning post, a pushing cylinder and a clamping tongue embedded in the rack, the upper and lower ends of the guide post and the positioning post are respectively connected with a top plate and a bottom plate, the rack is movably connected with the guide post through at least one sliding block, a piston rod of the pushing cylinder is connected with the sliding block and used for driving the sliding block to move up and down, a movable block is movably arranged on the positioning post and connected with a material seat and used for driving the material seat to move up and down, a cavity is arranged in the movable block, the clamping tongue is embedded in the cavity and moves back and forth in the cavity, one end, opposite to the rack, of the clamping tongue is connected with the clamping cylinder, the processing device also comprises a positioning cylinder, and a plurality of positioning grooves for embedding, through the arrangement of the ejection mechanism, automatic feeding of the material to be processed placed on the material seat can be realized, manual work is replaced, the processing efficiency is improved, errors of manual feeding can be avoided, the processing precision is guaranteed, accidental injury to personnel can be avoided, and the automation level of equipment is improved; furthermore, the mode that the rack is linked with the clamping tongue is adopted, the upward feeding distance can be ensured to be fixed and accurate each time, so that the thickness of each product is ensured to be consistent, and the consistency of the products and the precision quality of processing are improved; furthermore, the arrangement of the positioning groove and the positioning cylinder ensures the stability of the material seat for supporting the materials to be processed in the processing process of the materials to be processed, thereby ensuring the processing precision and stability.

2. The invention relates to a processing device for a smart phone, wherein a left push block, an extrusion block and a right push block are embedded in a first limit groove of the processing device, the extrusion block is positioned between the left push block and the right push block, the surfaces of the extrusion block, which are contacted with the left push block and the right push block, are inclined surfaces which are inclined inwards, the surfaces of the left push block and the right push block, which are contacted with the extrusion block, are inclined surfaces which are inclined outwards, one side of the left push block and one side of the right push block, which are opposite to the extrusion block, are respectively provided with a pressure head, the pressure heads extend out of the first limit groove and are contacted and connected with the side wall of a material to be processed, a first air cylinder is arranged below the extrusion block and is connected with the extrusion block, the extrusion block is pulled downwards through the first air cylinder, the side wall of the extrusion block, the left push block and the right push block are matched so that the side wall of the extrusion block pushes the left push block and the right push block outwards, and the pressure, the ejection cylinder is matched, after the ejection cylinder conveys the material to be processed upwards to a set position, the material to be processed is compressed and fixed, the material to be processed is convenient to process, the position precision of the material to be processed in the processing process is ensured, the conditions of position deviation or tool shaking and the like in the processing process are prevented, and the processing precision and the processing quality of a product are ensured; in addition, a wedge block and a push block are arranged in a second limiting groove, the surface of the wedge block, which is in contact with the push block, is an inclined plane which inclines inwards, the surface of the push block, which is in contact with the wedge block, is an inclined plane which inclines outwards, a second air cylinder is arranged below the wedge block and is connected with the wedge block, one side of the push block, which is opposite to the wedge block, is provided with a plurality of extrusion heads, the extrusion heads extend out of the second limiting groove and are in contact connection with the material to be processed, the wedge block is pulled downwards by the second air cylinder, the side wall of the wedge block is matched with the inclined planes of the push block to push the push block outwards, the extrusion heads of the push block compress and position the material to be processed instead of the material to be processed, the push cylinder is matched to push and fix the material to be processed after the material is sent upwards to a set position, the processing of the material to be processed is convenient, and the position accuracy of the material to be processed in the processing process is, the conditions of position deviation or tool vibration and the like in the processing process are prevented, and the processing precision and the processing quality of the product are ensured; furthermore, the left push block and the right push block are combined with each other to realize the extrusion positioning of two side walls of the materials to be processed, namely the materials to be processed are positioned in an all-dimensional manner, so that the positioning precision of the materials to be processed is further ensured, and the processing precision and the product quality are ensured.

3. The invention relates to a processing device for a smart phone, wherein a right-angle guide plate is respectively arranged on the outer side surface of a support bar with a flexible cushion block, a plurality of strip-shaped guide grooves are arranged on the outer wall of the right-angle guide plate and correspond to raised lines on the inner wall of a material to be processed, and the guide grooves on the right-angle guide plate are matched with the raised lines on the inner wall of the material to be processed.

Drawings

FIG. 1 is a schematic structural diagram of a processing device for a smart phone according to the present invention;

FIG. 2 is a side view of a part of the structure of the processing device for a smart phone according to the present invention;

FIG. 3 is a schematic view showing a partially exploded structure of a processing device for a smart phone according to the present invention;

FIG. 4 is a sectional view of a part of the structure of the processing device for the smart phone of the present invention;

FIG. 5 is a sectional view of a partial structure of a processing device for a smart phone according to the present invention;

FIG. 6 is a schematic view of a local structure of a processing device for a smart phone according to the present invention;

fig. 7 is a schematic diagram of a second exploded partial structure of the processing device for a smart phone according to the present invention.

In the above drawings: 1. a base plate; 2. a top plate; 3. a material seat; 4. a pushing mechanism; 5. a support plate; 6. a guide post; 7. a rack; 8. a positioning column; 9. pushing the cylinder; 10. a clamping tongue; 11. a slider; 12. a movable block; 13. positioning the air cylinder; 14. clamping the air cylinder; 15. positioning a groove; 17. a material to be processed; 18. a through hole; 19. a first limit groove; 21. a left push block; 22. extruding the block; 23. a right push block; 24. a pressure head; 25. a first cylinder; 26. a second limit groove; 27. a wedge block; 28. a push block; 29. a second cylinder; 30. an extrusion head; 31. cushion blocks; 32. a supporting strip; 33. a flexible cushion block; 34. connecting columns; 35. a right angle guide plate; 36. a strip-shaped guide groove; 37. and (4) raised strips.

Detailed Description

The invention is further described with reference to the following figures and examples:

example 1: a processing device for a smart phone comprises a bottom plate 1, a top plate 2, a material seat 3 and at least one ejection mechanism 4, wherein the material seat 3 is movably arranged between the bottom plate 1 and the top plate 2, the bottom plate 1 and the top plate 2 are connected through a plurality of supporting plates 5, the ejection mechanism 4 is positioned on the side edge of the bottom plate 1, and a material 17 to be processed is arranged on the material seat 3;

the ejection mechanism 4 further comprises a guide pillar 6, a rack 7 movably mounted on the guide pillar 6, a positioning column 8, an ejection cylinder 9 and a clamping tongue 10 embedded in the rack 7, the upper end and the lower end of the guide pillar 6 and the upper end and the lower end of the positioning column 8 are respectively connected with the top plate 2 and the bottom plate 1, the rack 7 is movably connected with the guide pillar 6 through at least one sliding block 11, and a piston rod of the ejection cylinder 9 is connected with the sliding block 11 and used for driving the sliding block 11 to move up and down;

a movable block 12 is movably mounted on the positioning column 8, the movable block 12 is connected with the material seat 3 and used for driving the material seat 3 to move up and down, a cavity is arranged in the movable block 12, the clamping tongue 10 is embedded in the cavity and moves back and forth in the cavity, one end, opposite to the rack 7, of the clamping tongue 10 is connected with a clamping cylinder 14 and a positioning cylinder 13, and a plurality of positioning grooves 15 for embedding piston rods of the positioning cylinder 13 are formed in the surface, close to the positioning cylinder 13, of one side of the positioning column 8;

the top plate 2 is provided with two through holes 18 from which materials 17 to be processed extend, a plurality of first limiting grooves 19 are formed between the two through holes 18, a left push block 21, an extrusion block 22 and a right push block 23 are embedded in the first limiting grooves 19, the extrusion block 22 is positioned between the left push block 21 and the right push block 23, the contact surface of the extrusion block 22 and the left push block 21 and the right push block 23 is an inclined surface which inclines inwards, the contact surface of the left push block 21 and the right push block 23 and the contact surface of the extrusion block 22 are inclined surfaces which incline outwards, a pressure head 24 is arranged on one side of each of the left push block 21 and the right push block 23, which is opposite to the extrusion block 22, the pressure head 24 extends out of the first limiting grooves 19 and is in contact connection with the side wall of the materials 17 to be processed, a first air cylinder 25 is arranged below the extrusion block 22, and the first air cylinder 25 is connected with the extrusion block 22;

the top plate 2 is provided with at least one through hole 18 for extending a material 17 to be processed, the top plate 2 at one end of the through hole 18 is provided with a second limiting groove 26, a wedge block 27 and a push block 28 are arranged in the second limiting groove 26, the surface of the wedge block 27, which is contacted with the push block 28, is an inclined surface which inclines inwards, the surface of the push block 28, which is contacted with the wedge block 27, is an inclined surface which inclines outwards, a second cylinder 29 is arranged below the wedge block 27, the second cylinder 29 is connected with the wedge block 27, one side of the push block 28, which is opposite to the wedge block 27, is provided with a plurality of extrusion heads 30, and the extrusion heads 30 extend out of the second limiting groove 26 and are contacted with the material 17 to be processed;

the material seat 3 further includes cushion 31 that is located bottom plate 1 upper surface both ends, bridge joint in two support bars 32 of two cushion 31 tops and install in the flexible cushion 33 of support bar 32 upper surface, connect through a plurality of spliced poles 34 between two support bars 32, the spliced pole 34 that is located support bar 32 both ends is connected with movable block 12, and the flexible cushion 33 symmetry that is located on two support bars 32 sets up, is provided with one on the flexible cushion 33 that per two symmetries set up and treats processing material 17, a straight angle deflector 35 is installed respectively to the lateral surface that support bar 32 has flexible cushion 33 department, and it has a plurality of bar guide ways 36 to open on the outer wall of this right angle deflector 35, and these a plurality of bar guide ways 36 correspond the setting with the sand grip 37 of treating processing material 17 inner wall.

The number of the pushing mechanisms 3 is two, and the two pushing mechanisms are respectively positioned at two sides of the bottom plate 1; the guide post 6 and the positioning post 8 are arranged in parallel and face to face; the top plate 2 is provided with a through hole for the material to be processed to extend out; a dust-proof cover is arranged above the top plate 2.

Example 2: a processing device for a smart phone comprises a bottom plate 1, a top plate 2, a material seat 3 and at least one ejection mechanism 4, wherein the material seat 3 is movably arranged between the bottom plate 1 and the top plate 2, the bottom plate 1 and the top plate 2 are connected through a plurality of supporting plates 5, the ejection mechanism 4 is positioned on the side edge of the bottom plate 1, and a material 17 to be processed is arranged on the material seat 3;

The left push block 21 and the right push block 23 are respectively provided with a strip-shaped step hole, the upper end of a screw is matched with the strip-shaped step hole, and the lower end of the screw is in threaded connection with the top plate 2; the number of the first limiting grooves 19 is 2; the first limiting grooves 19 are arranged in parallel; the number of the extrusion heads 30 on each of the above-mentioned push blocks 28 is 2.

When the processing device for the smart phone is adopted, the pushing mechanism is arranged, so that automatic feeding of materials to be processed placed on the material seat can be realized, manual work is replaced, the processing efficiency is improved, errors of manual feeding can be avoided, the processing precision is ensured, accidental injury to personnel can be avoided, and the automation level of equipment is improved; furthermore, the mode that the rack is linked with the clamping tongue is adopted, the upward feeding distance can be ensured to be fixed and accurate each time, so that the thickness of each product is ensured to be consistent, and the consistency of the products and the precision quality of processing are improved; furthermore, the arrangement of the positioning groove and the positioning cylinder ensures the stability of the material seat for supporting the material to be processed in the processing process of the material to be processed, thereby ensuring the processing precision and stability;

in addition, the extrusion block is pulled downwards by the first air cylinder, the side wall of the extrusion block is pushed outwards by the left and right push blocks through the matching between the extrusion block and the left and right push blocks, so that the press heads of the left and right push blocks can compress and position the work material to be processed, and the ejection air cylinder is matched to compress and fix the work material to be processed after the ejection air cylinder sends the work material to be processed upwards to a set position, so that the work material to be processed is processed conveniently, the position precision of the work material to be processed in the processing process is ensured, the work material to be processed is prevented from being displaced or shaking and the like in the processing process, and the processing precision and the processing quality of the product are ensured;

in addition, the wedge-shaped block is pulled downwards by the second air cylinder, the side wall of the wedge-shaped block is pushed outwards by the cooperation of the wedge-shaped block and the respective inclined surface of the pushing block, the pushing head of the pushing block is used for compressing and positioning the substitute processing material, and the pushing cylinder is matched for compressing and fixing the material to be processed after the pushing cylinder sends the material to be processed upwards to a set position, so that the material to be processed is conveniently processed, the position precision of the material to be processed in the processing process is ensured, the situations of position deviation or tool shaking and the like in the processing process are prevented, and the processing precision and the processing quality of a product are ensured;

furthermore, the left and right push blocks and the push blocks are combined, so that the extrusion positioning of two side walls of the material to be processed, which are perpendicular to each other, is realized, namely the omnibearing positioning of the material to be processed is realized, the positioning precision of the material to be processed is further ensured, and the processing precision and the product quality of the material to be processed are further ensured;

in addition, the guide grooves on the right-angle guide plate are matched with the raised lines on the inner walls of the materials to be processed, so that when the materials to be processed are installed on the material seat, the effect of limiting and guiding is achieved, the materials to be processed can be accurately loaded into the material seat conveniently, the position accuracy of the materials to be processed on the material seat is guaranteed, the materials to be processed can be limited in the processing process, the materials to be processed are prevented from being deviated, and the processing accuracy and the product quality are further guaranteed.

When the automatic feeding device is used, a material to be processed is placed on a material seat, a clamping tongue is embedded into a tooth groove at the lower end of a rack, a pushing cylinder is started, a driving sliding block drives the rack to move upwards, the rack drives the clamping tongue to move upwards, the clamping tongue drives a movable block to move upwards, the movable block drives the material seat to move upwards to achieve one-time automatic feeding, after the feeding is completed, a piston rod of a positioning cylinder extends out and is embedded into a positioning groove, the clamping tongue leaves the tooth groove under the driving of the clamping cylinder, a piston rod of the pushing cylinder contracts, the rack returns to the initial position, the clamping tongue extends out and is embedded into the previous tooth groove of the rack, and the layer-by-layer feeding of the material to be.

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

1. The utility model provides a processingequipment for smart mobile phone which characterized in that: the processing device comprises a bottom plate (1), a top plate (2), a material seat (3) and at least one ejection mechanism (4), wherein the material seat (3) is movably arranged between the bottom plate (1) and the top plate (2), the bottom plate (1) and the top plate (2) are connected through a plurality of supporting plates (5), the ejection mechanism (4) is positioned on the side edge of the bottom plate (1), and a material (17) to be processed is arranged on the material seat (3);

the ejection mechanism (4) further comprises a guide post (6), a rack (7) movably mounted on the guide post (6), a positioning column (8), an ejection cylinder (9) and a clamping tongue (10) embedded into the rack (7), the upper end and the lower end of the guide post (6) and the upper end and the lower end of the positioning column (8) are respectively connected with the top plate (2) and the bottom plate (1), the rack (7) is movably connected with the guide post (6) through at least one sliding block (11), and a piston rod of the ejection cylinder (9) is connected with the sliding block (11) and used for driving the sliding block (11) to move up and down;

a movable block (12) is movably mounted on the positioning column (8), the movable block (12) is connected with the material seat (3) and used for driving the material seat (3) to move up and down, a cavity is arranged in the movable block (12), a clamping tongue (10) is embedded in the cavity and moves back and forth in the cavity, one end, back on the rack (7), of the clamping tongue (10) is connected with a clamping cylinder (14) and is also provided with a positioning cylinder (13), and a plurality of positioning grooves (15) for embedding piston rods of the positioning cylinder (13) are formed in the surface, close to the positioning cylinder (13), of one side of the positioning column (8);

the top plate (2) is provided with two through holes (18) for extending a material to be processed (17), a plurality of first limiting grooves (19) are formed between the two through holes (18), a left push block (21), an extrusion block (22) and a right push block (23) are embedded in the first limiting grooves (19), the extrusion block (22) is positioned between the left push block (21) and the right push block (23), the contact surfaces of the extrusion block (22), the left push block (21) and the right push block (23) are inclined surfaces which are inclined inwards, the contact surfaces of the left push block (21) and the right push block (23) and the extrusion block (22) are inclined surfaces which are inclined outwards, one side of each of the left push block (21) and the right push block (23) opposite to the extrusion block (22) is provided with a pressure head (24), and the pressure head (24) extends out of the first limiting grooves (19) and is connected with the side wall of the material to be processed (17), a first air cylinder (25) is arranged below the extrusion block (22), and the first air cylinder (25) is connected with the extrusion block (22);

the machining device is characterized in that the top plate (2) is provided with at least one through hole (18) for extending a material (17) to be machined, a second limiting groove (26) is formed in the top plate (2) at one end of the through hole (18), a wedge block (27) and a push block (28) are arranged in the second limiting groove (26), the contact surface of the wedge block (27) and the push block (28) is an inward inclined surface, the contact surface of the push block (28) and the wedge block (27) is an outward inclined surface, a second air cylinder (29) is arranged below the wedge block (27), the second air cylinder (29) is connected with the wedge block (27), one side, opposite to the wedge block (27), of the push block (28) is provided with a plurality of extrusion heads (30), and the extrusion heads (30) extend out of the second limiting groove (26) to be connected with the material (17) to be machined;

the material seat (3) further comprises cushion blocks (31) positioned at two ends of the upper surface of the bottom plate (1), two supporting strips (32) bridged above the two cushion blocks (31) and flexible cushion blocks (33) arranged on the upper surfaces of the supporting strips (32), the two support bars (32) are connected through a plurality of connecting columns (34), the connecting columns (34) at the two ends of the support bars (32) are connected with the movable block (12), the flexible cushion blocks (33) on the two support bars (32) are symmetrically arranged, each two symmetrically arranged flexible cushion blocks (33) are provided with a material (17) to be processed, a right-angle guide plate (35) is respectively installed on the outer side face, provided with a flexible cushion block (33), of the support bar (32), a plurality of strip-shaped guide grooves (36) are formed in the outer wall of the right-angle guide plate (35), and the strip-shaped guide grooves (36) are arranged corresponding to the raised lines (37) on the inner wall of the material to be processed (17).

2. The processing device for smart phone of claim 1, wherein: the number of the ejection mechanisms (3) is two, and the two ejection mechanisms are respectively positioned on two sides of the bottom plate (1).

3. The processing device for smart phone of claim 1, wherein: the guide post (6) and the positioning post (8) are arranged in parallel face to face.

4. The processing device for smart phone of claim 1, wherein: the top plate (2) is provided with a through hole for the material to be processed to extend out.

5. The processing device for smart phone of claim 1, wherein: and a dustproof cover shell is arranged above the top plate (2).

6. The processing device for smart phone of claim 1, wherein: the left push block (21) and the right push block (23) are respectively provided with a strip-shaped step hole, the upper end of a screw is matched with the strip-shaped step hole, and the lower end of the screw is in threaded connection with the top plate (2).

7. The processing device for smart phone of claim 1, wherein: the number of the first limiting grooves (19) is 2.

8. The processing device for smart phone of claim 1, wherein: the first limiting grooves (19) are arranged in parallel.

9. The processing device for smart phone of claim 1, wherein: the number of the extrusion heads (30) on each push block (28) is 2.