CN118046537A - Intelligent mobile phone shell production and processing device - Google Patents

Abstract

The invention relates to the field of electronic product production, in particular to an intelligent mobile phone shell production and processing device. Technical problems: when the mobile phone shell is separated from the die after injection molding, the annular protruding part can be clamped on the groove of the die, and if the mobile phone shell is directly upwards ejected, the mobile phone shell is easy to deform because the just-molded mobile phone shell is softer. The technical implementation scheme of the invention is as follows: a smart mobile phone shell production and processing device comprises a base and the like. According to the invention, the connecting part drives the connecting ring to move downwards by controlling the electric push rod I, the connecting ring drives the push plate to move downwards, the push plate extrudes the formed protruding part, and the protruding part is extruded and pushed towards the outer side of the die core, so that the protruding part is separated from the arc-shaped groove, the formed mobile phone shell body is conveniently separated from the die core manually, and the protruding part on the inner side of the mobile phone shell body is prevented from being blocked on the arc-shaped groove and difficult to separate.

Description

Intelligent mobile phone shell production and processing device

Technical Field

The invention relates to the field of electronic product production, in particular to an intelligent mobile phone shell production and processing device.

Background

The prior Chinese patent: CN216400395U discloses an injection mold for processing of mobile phone protection shell, and it rotates through motor drive lead screw, makes lifter plate on the lead screw drive the ejector pin and rises, and the ejector pin drives the kicking block again and rises and with the mobile phone protection shell product in the lower mold core ejecting, accomplishes the product drawing of patterns, realizes high-efficient convenient drawing of patterns work, has reduced drawing of patterns time.

However, in order to fix the mobile phone shell on the mobile phone, an annular protruding part is usually arranged on the inner side of the mobile phone shell, after the mobile phone shell is injection molded, the annular protruding part on the inner side of the mobile phone shell is embedded in a groove corresponding to the mold, so that the annular protruding part can be clamped on the groove of the mold when the mobile phone shell is separated from the mold after being molded, if the mobile phone shell is directly ejected upwards, the mobile phone shell is easy to deform due to softer mobile phone shell which is just cooled and molded, the size of the mobile phone shell after demolding is deviated, and the product quality is affected.

Disclosure of Invention

In order to overcome the defect that the mobile phone shell is easy to deform because the mobile phone shell which is just formed is softer if the mobile phone shell is directly ejected upwards when the annular protruding part is clamped on the groove of the die after the mobile phone shell is formed and is separated from the die, the invention provides the intelligent mobile phone shell production and processing device.

The technical implementation scheme of the invention is as follows: a smart mobile phone shell production and processing device comprises a base, a frame, a hydraulic cylinder, a mounting plate, a pouring pipe and a guide post; the base is fixedly connected with a frame; the frame is fixedly connected with a hydraulic cylinder; the telescopic end of the hydraulic cylinder is fixedly connected with a mounting plate; the mounting plate is fixedly connected with a pouring pipe; the mounting plate is fixedly connected with a plurality of guide posts; the device also comprises an upper die frame, a lower die frame, a fixed block, a die core, a push ring, an electric push rod I, a connecting ring and a push piece; the mounting plate is fixedly connected with an upper die carrier, and the pouring pipe and the guide column penetrate through the upper die carrier; the lower side of the upper die frame is provided with a die cavity; the base is fixedly connected with a lower die carrier, and the lower die carrier is positioned right below the upper die carrier; the lower die carrier is fixedly connected with a plurality of fixing blocks; the fixed blocks are fixedly connected with a die core for molding the mobile phone shell body, the die core is positioned in the lower die frame, and a refrigerator is arranged in the die core; the mould core is provided with an arc-shaped groove; the lower die frame is connected with a push ring; the fixed block is fixedly connected with a plurality of electric push rods I; the telescopic end of each electric push rod I is fixedly connected with a connecting part; all the connecting parts are fixedly connected with a connecting ring, the connecting ring is tightly attached to the push ring, and the upper part of the connecting ring is level with the upper part of the push ring; the connecting ring is fixedly connected with a push plate, the push plate is positioned in the arc-shaped groove, the cross section of the push plate is arc-shaped, and the push plate is tightly attached to the arc-shaped groove.

Further, the upper side of the lower die carrier is provided with a bevel part.

Further, the pushing piece is made of alloy materials.

Further, the electric push rod II and the push plate are also included; a plurality of electric push rods II are fixedly connected to the inner side of the lower die frame; the telescopic end of each electric push rod II is connected with a push plate, the push plate is contacted with the push ring, and the push plate is contacted with the lower die frame; each push plate is fixedly connected with a plurality of convex parts, and the convex parts are tightly contacted with the right side and the left side of the die core.

Further, the device also comprises a fixing plate; the lower die carrier is fixedly connected with a plurality of fixing plates which are in close contact with the corresponding pushing plates.

Further, the brush also comprises a spring body, a rectangular plate, brush hairs and an electromagnet; each fixed plate is fixedly connected with a plurality of spring bodies; all the spring bodies positioned on the same fixed plate are fixedly connected with a rectangular plate made of magnetic materials, and the positive electrode of the rectangular plate faces downwards; each rectangular plate is fixedly connected with a plurality of brush hairs; each push plate is fixedly connected with an electromagnet, the positive electrode of the electromagnet faces upwards, and the electromagnet and the rectangular plate repel each other after being electrified.

Further, the lower die carrier is provided with two discharging holes distributed left and right, and the discharging holes are positioned below the bristles.

Further, the device also comprises a spring rod and a convex ball; the telescopic end of each electric push rod II is fixedly connected with a spring rod respectively, and the telescopic end of the spring rod is fixedly connected with a corresponding push plate; the inner side of the lower die frame is fixedly connected with a plurality of convex balls, and the convex balls are matched with the push plate.

Further, the electric push rod III and the U-shaped plate are also included; the base is fixedly connected with an electric push rod III; the push ring is connected with the lower die carrier in a sliding way; the push ring is in sliding connection with the connecting ring; the telescopic end of the electric push rod III is fixedly connected with a U-shaped plate, and the U-shaped plate is fixedly connected with a push ring.

Further, the device also comprises a graphite ring; the outer side of the push ring is fixedly connected with a graphite ring, and the graphite ring is in sliding connection with the lower die frame.

The invention has the following advantages: according to the invention, the connecting part drives the connecting ring to move downwards by controlling the electric push rod I, the connecting ring drives the push plate to move downwards, the push plate extrudes the formed protruding part, and the protruding part is extruded and pushed towards the outer side of the die core, so that the protruding part is separated from the arc-shaped groove, the formed mobile phone shell body is conveniently separated from the die core manually, and the protruding part on the inner side of the mobile phone shell body is prevented from being blocked on the arc-shaped groove and difficult to separate.

According to the invention, the push plate is controlled to drive the convex part to move backwards by controlling the electric push rod II, so that the convex part is far away from the die core, the convex part is pulled out from the open hole, the limit of the convex part on the mobile phone shell body is relieved, and the mobile phone shell body is conveniently taken out from the die core manually.

When the formed mobile phone shell body is taken out from the die core, the U-shaped plate is driven by the electric push rod III to move upwards, so that the push ring pushes the lower side of the mobile phone shell body upwards, and then the push plate is matched to push the protruding part to the outer side of the die core, so that the protruding part on the outer side of the push die core is contacted with the push ring firstly when the push ring pushes the lower side of the mobile phone shell body upwards, and the push ring uniformly applies force to the lower side of the mobile phone shell body, so that the mobile phone shell body is uniformly stressed, and the mobile phone shell body is pushed out of the die core, so that the mobile phone shell body is prevented from being pushed to deform, and the demoulding efficiency is improved.

Drawings

Fig. 1 is a schematic diagram of a structure disclosed by a smart phone shell production and processing device of the invention;

FIG. 2 is a partial cross-sectional view of a smart phone shell manufacturing and processing apparatus of the present invention;

fig. 3 is a schematic diagram of a combined partial structure of an upper die carrier, a lower die carrier, a fixed block, a die core and a push ring, which are disclosed by the intelligent mobile phone shell production and processing device;

fig. 4 is a schematic diagram of a combined partial structure of an upper die carrier, a lower die carrier, a die core, a push ring, an electric push rod II and a push plate, which are disclosed by the intelligent mobile phone shell production and processing device;

fig. 5 is a schematic diagram of a combined partial structure of an upper die carrier, a lower die carrier, a die core, a push ring and an electric push rod I disclosed by the intelligent mobile phone shell production and processing device;

Fig. 6 is a schematic diagram of a combined partial structure of a lower die frame, a die core, a push ring, an electric push rod I, a connecting ring and a push piece disclosed by the intelligent mobile phone shell production and processing device;

fig. 7 is a schematic diagram of a combined partial structure of a lower die frame, a die core, an electric push rod II, a push plate, a fixed plate, a spring body, a rectangular plate, bristles and an electromagnet, which are disclosed by the intelligent mobile phone shell production and processing device;

Fig. 8 is a schematic diagram of a partial structure of a mobile phone shell body disclosed by the smart mobile phone shell production and processing device of the invention.

In the above figures: 1-base, 2-frame, 3-pneumatic cylinder, 4-mounting panel, 5-pouring tube, 6-guide post, 7-cell-phone shell body, 101-upper die carrier, 102-lower die carrier, 103-fixed block, 104-die core, 105-push ring, 106-electric putter I, 107-go-between, 108-push plate, 201-electric putter II, 202-push plate, 203-fixed plate, 204-spring body, 205-rectangular plate, 206-brush hair, 207-electro-magnet, 208-spring bar, 209-convex ball, 301-electric putter III, 302-U-shaped plate, 303-graphite ring, 7 a-convex part, 7 b-open pore, 101 a-die groove, 102 a-inclined plane part, 102 b-discharge hole, 104 a-arc groove, 104 b-convex part, 106 a-connecting part.

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

The intelligent mobile phone shell production and processing device comprises a base 1, a frame 2, a hydraulic cylinder 3, a mounting plate 4, a pouring pipe 5 and a guide post 6 as shown in figures 1-8; the base 1 is fixedly connected with a frame 2; the frame 2 is connected with a hydraulic cylinder 3 through bolts; the telescopic end of the hydraulic cylinder 3 is fixedly connected with a mounting plate 4; the mounting plate 4 is fixedly connected with a pouring pipe 5; the mounting plate 4 is fixedly connected with two guide posts 6;

The device also comprises an upper die frame 101, a lower die frame 102, a fixed block 103, a die core 104, a push ring 105, an electric push rod I106, a connecting ring 107 and a push piece 108; the mounting plate 4 is fixedly connected with an upper die frame 101, and the pouring pipe 5 and the guide column 6 penetrate through the upper die frame 101; the lower side of the upper die frame 101 is provided with a die cavity 101a; the base 1 is fixedly connected with a lower die carrier 102, the lower die carrier 102 is positioned right below the upper die carrier 101, and the lower die carrier 102 is provided with a mounting hole matched with the guide post 6; the lower die carrier 102 is fixedly connected with two fixing blocks 103; all the fixing blocks 103 are fixedly connected with a die core 104, the die core 104 is positioned in the lower die frame 102, and a refrigerator is arranged in the die core 104; the die core 104 is provided with an arc-shaped groove 104a; the lower die carrier 102 is connected with a push ring 105; the fixed block 103 is connected with two electric push rods I106 through bolts; the telescopic end of each electric push rod I106 is fixedly connected with a connecting part 106a; all the connecting parts 106a are fixedly connected with a connecting ring 107, the connecting ring 107 is tightly attached to the push ring 105, and the upper part of the connecting ring 107 is level with the upper part of the push ring 105; the connecting ring 107 is fixedly connected with a push plate 108, the push plate 108 is positioned in the arc-shaped groove 104a, the cross section of the push plate 108 is arc-shaped, and the push plate 108 is tightly attached to the arc-shaped groove 104 a.

The lower mold frame 102 is provided with a slope 102a on its upper side.

The push piece 108 is made of alloy material, so that the thin push piece 108 is prevented from being deformed by high-temperature injection molding liquid, and the molding of the mobile phone shell body 7 is prevented from being influenced.

When in use, the external pump is communicated with the pouring tube 5, then the hydraulic cylinder 3 is controlled to drive the mounting plate 4 to drive the pouring tube 5, the guide post 6 and the upper die frame 101 to move downwards until the upper die frame 101 is contacted with the lower die frame 102, at the moment, the upper side of the push ring 105, the die core 104, the inner side of the lower die frame 102 and the die cavity 101a form a closed die cavity together, the pouring tube 5 is communicated with the closed die cavity, the guide post 6 is inserted into a positioning hole corresponding to the lower die frame 102 to tightly joint the upper die frame 101 with the lower die frame 102, the die cavity 101a is aligned with the die core 104, and the push piece 108 is tightly jointed with the arc-shaped groove 104a at the initial time, then the external pump is controlled to start, molten injection molding liquid is injected into the die cavity through the pouring tube 5 to perform injection molding operation, after the molten injection molding liquid is completely injected into the die cavity through the pouring tube 5, at the moment, the die cavity is filled with the injection molding liquid, then controlling the refrigerator in the die core 104 to work so that the die core 104 cools injection molding liquid, after the mobile phone shell body 7 is molded, at the moment, the push piece 108 is attached to the protruding part 7a at the inner side of the mobile phone shell body 7, then controlling the hydraulic cylinder 3 to drive the mounting plate 4 to move the pouring tube 5, the guide post 6 and the upper die frame 101 upwards until the guide post 6 is separated from the lower die frame 102, the upper die frame 101 and the lower die frame 102 are separated from each other, then controlling the electric push rod I106 to drive the connecting ring 107 to move downwards, the connecting ring 107 to drive the push piece 108 to move downwards, the push piece 108 extrudes the molded protruding part 7a to the outer side of the die core 104, so that the protruding part 7a is separated from the arc-shaped groove 104a, the molded mobile phone shell body 7 is conveniently separated from the die core 104 manually, the protruding part 7a at the inner side of the mobile phone shell body 7 is prevented from being blocked on the arc-shaped groove 104a, and difficult to disengage.

When the guide post 6 moves up and down in the positioning hole between the lower die frames 102, lubrication is usually needed to be carried out on the surface of the guide post 6 to reduce friction, but part of lubricating oil on the guide post 6 can adhere to the upper surface of the lower die frames 102, oil stains can flow into a die cavity on the inner side of the lower die frames 102 after a long time, adverse effects are caused on the molding of products, and the oil stains are guided to the outer side of the lower die frames 102 through the inclined surface part 102a arranged on the upper side of the lower die frames 102, so that the oil stains are prevented from flowing into the die cavity.

Example 2

Based on the embodiment 1, as shown in fig. 4-5 and fig. 7, the electric push rod II 201 and the push plate 202 are also included; the inner side of the lower die frame 102 is connected with two electric push rods II 201 which are distributed symmetrically left and right through bolts; the telescopic end of each electric push rod II 201 is connected with a push plate 202, the push plate 202 is contacted with the push ring 105, and the push plate 202 is contacted with the lower die frame 102; each push plate 202 is fixedly connected with a plurality of protruding parts 104b, and the protruding parts 104b are closely contacted with the right side and the left side of the die core 104.

A fixing plate 203 is also included; the lower die carrier 102 is fixedly connected with two fixing plates 203 which are distributed symmetrically left and right, and the fixing plates 203 are in close contact with the corresponding pushing plates 202.

Also comprises a spring body 204, a rectangular plate 205, bristles 206 and an electromagnet 207; each fixing plate 203 is fixedly connected with two spring bodies 204 which are distributed symmetrically left and right; all the spring bodies 204 positioned on the same fixed plate 203 are fixedly connected with a rectangular plate 205 made of magnetic materials, and the positive electrode of the rectangular plate 205 faces downwards; each rectangular plate 205 is fixedly connected with a plurality of bristles 206; each push plate 202 is fixedly connected with an electromagnet 207, the anode of the electromagnet 207 faces upwards, and the electromagnet 207 and the rectangular plate 205 repel each other after being electrified.

The lower die frame 102 is provided with two discharging holes 102b distributed left and right, and the discharging holes 102b are positioned below the bristles 206.

Also included are spring levers 208 and cam balls 209; the telescopic end of each electric push rod II 201 is fixedly connected with a spring rod 208, and the telescopic end of the spring rod 208 is fixedly connected with the corresponding push plate 202; a plurality of convex balls 209 are fixedly connected on the inner side of the lower die frame 102, and the convex balls 209 are matched with the push plate 202.

Because the mobile phone shell body 7 is used in cooperation with a mobile phone, the mobile phone shell body 7 is usually provided with the holes 7b for the earphone and the charging port, but because the holes 7b enable the mobile phone shell body 7 to be pulled out of the die core 104 by manpower when the molded mobile phone shell body 7 is pulled out of the die core 104, the mobile phone shell body 7 can be pulled out by manpower, therefore, after the mobile phone shell body 7 is molded, the upper die frame 101 moves upwards to be separated from the lower die frame 102, the convex part 104b is embedded in the holes 7b, at the moment, the electric push rod II 201 is controlled to enable the push plate 202 to drive the convex part 104b to move backwards, so that the convex part 104b is far away from the die core 104, the convex part 104b is pulled out of the holes 7b, and the limit of the mobile phone shell body 7 is released, so that the mobile phone shell body 7 is conveniently taken out of the die core 104 manually.

However, when the protrusion 104b is pulled out from the opening 7b, since the protrusion 104b is tightly adhered to the inner wall of the opening 7b immediately after the mobile phone shell 7 is formed, the protrusion 104b will pull the mobile phone shell 7, resulting in a large deformation of the mobile phone shell 7, and the deformation of the mobile phone shell 7 after cooling will be shaped, affecting the product quality, so that the fixed fixing plate 203 is disposed on the upper side of the push plate 202, thereby limiting the mobile phone shell 7, avoiding the deformation of the mobile phone shell 7 caused by the pull of the protrusion 104b, and smoothly pulling the protrusion 104b out of the opening 7 b.

Because the convex part 104b is tightly adhered to the open hole 7b after molding, when the convex part 104b is pulled out from the open hole 7b, the convex part 104b and the inner wall of the open hole 7b are forcedly separated, so that scraps can be adhered to the surface of the convex part 104b to influence the molding of the subsequent mobile phone shell 7, before injection molding liquid is injected into a mold cavity, the convex part 104b is tightly contacted with the mold core 104, at the moment, the electromagnet 207 is electrified, so that the electromagnet 207 generates repulsive magnetic force to the rectangular plate 205, the rectangular plate 205 drives the bristles 206 to move upwards under the action of the magnetic force, the spring body 204 is compressed until the bristles 206 are positioned above the electromagnet 207, the phenomenon that the bristles 206 block the movement of the push plate 202 is avoided, when the push plate 202 drives the convex part 104b to move away from the mold core 104, the electromagnet 207 is separated from the fixed plate 203, then, the electromagnet 207 is stopped to drive the bristles 206 to move downwards under the action of the rebound force of the spring body 204 after the magnetic force is lost, so that scraps adhered to the surface of the convex part 104b are scraped, and scraps adhered to the surface of the convex part 104b are prevented from being scraped, and scraps are prevented from being accumulated on the surface of the die carrier 102b, and the scraps are prevented from being accumulated and being removed from the subsequent die carrier 102.

In the process that the push plate 202 drives the convex part 104b to draw out the opening 7b and move to one side far away from the die core 104, the push plate 202 is limited by the convex ball 209, the push plate 202 moves upwards, the spring rod 208 is compressed, when the push plate 202 is separated from the convex ball 209, the spring rod 208 drives the push plate 202 to rebound and reset, and the push plate 202 is subjected to the action of rebound and reset of the spring rod 208, the push plate 202 generates up-and-down reciprocating vibration, the push plate 202 drives parts such as the convex part 104b to perform up-and-down reciprocating vibration, so that the convex part 104b is conveniently separated from the opening 7b, meanwhile, the convex part 104b reciprocates up-and-down in the separation process, the mobile phone shell body 7 also generates small-amplitude vibration, so that the mobile phone shell body 7 and the die core 104 are loosened, and the follow-up mobile phone shell body 7 and the die core 104 are conveniently demoulded.

Example 3

Based on the embodiment 2, as shown in fig. 2-6, the electric push rod III 301 and the U-shaped plate 302 are also included; the base 1 is connected with an electric push rod III 301 through bolts; the push ring 105 is in sliding connection with the lower die carrier 102; push ring 105 is slidably coupled to coupling ring 107; the telescopic end of the electric push rod III 301 is fixedly connected with a U-shaped plate 302, and the U-shaped plate 302 is fixedly connected with the push ring 105.

Also included is a graphite ring 303; the outer side of the push ring 105 is fixedly connected with a graphite ring 303, and the graphite ring 303 is in sliding connection with the lower die frame 102.

Although the formed protruding portion 7a is extruded by the push piece 108, the protruding portion 7a is pushed and pushed to the outer side of the die core 104, so that the protruding portion 7a is separated from the arc-shaped groove 104a, when the formed mobile phone shell body 7 is taken out from the die core 104, the rest parts of the mobile phone shell body 7 are still tightly attached to the die core 104, the mobile phone shell body 7 is separated from the die core 104 only by repeatedly pulling the mobile phone shell body 7 manually, the efficiency is low, the existing mode of pushing the formed mobile phone shell body 7 upwards is used for demolding, but the formed mobile phone shell body 7 is softer, so that the mobile phone shell body 7 is easily deformed in a pushing way when the formed mobile phone shell body 7 is pushed out, the product quality is influenced, when the formed mobile phone shell body 7 is taken out from the die core 104, the electric push rod III 301 is controlled to drive the push ring 105 to move upwards, the lower side of the mobile phone shell body 7 is pushed upwards, the protruding portion 7a is pushed and pushed out of the die core 104 by the push piece 108 in an upward pushing way, the force is evenly, and the push ring body 7 is prevented from being pushed and pushed out of the die core 105, and the force is evenly pushed and pushed out of the mobile phone shell body 7 is prevented from being pushed and pushed out of the die core 7a by the push piece 108.

Meanwhile, as the push ring 105 and the lower die frame 102 slide relatively, the friction assembly is large, if lubricating oil is used for lubricating the push ring 105, oil stains can enter the die cavity to influence the molding of products, so that the oil stains are inconvenient to use, and the friction force between the push ring 105 and the lower die frame 102 is reduced by arranging the graphite ring 303 on the outer side of the push ring 105.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The intelligent mobile phone shell production and processing device comprises a base (1), a frame (2), a hydraulic cylinder (3), a mounting plate (4), a pouring pipe (5) and a guide column (6); the base (1) is fixedly connected with a frame (2); the frame (2) is fixedly connected with a hydraulic cylinder (3); the telescopic end of the hydraulic cylinder (3) is fixedly connected with a mounting plate (4); the mounting plate (4) is fixedly connected with a pouring pipe (5); the mounting plate (4) is fixedly connected with a plurality of guide posts (6); the method is characterized in that: the device also comprises an upper die carrier (101), a lower die carrier (102), a fixed block (103), a die core (104), a push ring (105), an electric push rod I (106), a connecting ring (107) and a push piece (108); the mounting plate (4) is fixedly connected with an upper die carrier (101), and the pouring pipe (5) and the guide column (6) penetrate through the upper die carrier (101); the upper die frame (101) is provided with a die cavity (101 a); the base (1) is fixedly connected with a lower die carrier (102), and the lower die carrier (102) is positioned right below the upper die carrier (101); the lower die carrier (102) is fixedly connected with a plurality of fixed blocks (103); all the fixing blocks (103) are fixedly connected with a die core (104) for molding the mobile phone shell body (7) together, the die core (104) is positioned in the lower die frame (102), and a refrigerator is arranged in the die core (104); the die core (104) is provided with an arc-shaped groove (104 a); the lower die carrier (102) is connected with a push ring (105); the fixed block (103) is fixedly connected with a plurality of electric push rods I (106); the telescopic end of each electric push rod I (106) is fixedly connected with a connecting part (106 a); all the connecting parts (106 a) are fixedly connected with a connecting ring (107) together, the connecting ring (107) is tightly attached to the push ring (105), and the upper part of the connecting ring (107) is flush with the upper part of the push ring (105); the connecting ring (107) is fixedly connected with the pushing piece (108), the pushing piece (108) is positioned in the arc-shaped groove (104 a), the cross section of the pushing piece (108) is arc-shaped, and the pushing piece (108) is tightly attached to the arc-shaped groove (104 a).

2. The smart phone shell production and processing device according to claim 1, wherein: the upper side of the lower die carrier (102) is provided with a bevel part (102 a).

3. The smart phone shell production and processing device according to claim 1, wherein: the pushing piece (108) is made of alloy material.

4. A smart phone case production and processing apparatus according to any one of claims 1 to 3, characterized in that: the electric push rod II (201) and the push plate (202) are also included; a plurality of electric push rods II (201) are fixedly connected to the inner side of the lower die frame (102); the telescopic end of each electric push rod II (201) is connected with a push plate (202), the push plates (202) are contacted with the push ring (105), and the push plates (202) are contacted with the lower die frame (102); each push plate (202) is fixedly connected with a plurality of convex parts (104 b), and the convex parts (104 b) are closely contacted with the right side and the left side of the die core (104).

5. The smart phone case production and processing device according to claim 4, wherein: also comprises a fixed plate (203); the lower die carrier (102) is fixedly connected with a plurality of fixing plates (203), and the fixing plates (203) are in close contact with the corresponding pushing plates (202).

6. The smart phone shell production and processing device according to claim 5, wherein: the brush also comprises a spring body (204), a rectangular plate (205), brush hairs (206) and an electromagnet (207); each fixed plate (203) is fixedly connected with a plurality of spring bodies (204); all the spring bodies (204) positioned on the same fixed plate (203) are fixedly connected with a rectangular plate (205) made of magnetic materials, and the positive electrode of the rectangular plate (205) faces downwards; each rectangular plate (205) is fixedly connected with a plurality of bristles (206); each push plate (202) is fixedly connected with an electromagnet (207), the positive electrode of the electromagnet (207) faces upwards, and the electromagnet (207) and the rectangular plate (205) repel each other after being electrified.

7. The smart phone case production and processing device according to claim 6, wherein: the lower die frame (102) is provided with two discharging holes (102 b) distributed left and right, and the discharging holes (102 b) are positioned below the bristles (206).

8. The smart phone case production and processing device according to claim 4, wherein: the device also comprises a spring rod (208) and a convex ball (209); the telescopic end of each electric push rod II (201) is fixedly connected with a spring rod (208), and the telescopic end of the spring rod (208) is fixedly connected with the corresponding push plate (202); a plurality of convex balls (209) are fixedly connected on the inner side of the lower die frame (102), and the convex balls (209) are matched with the push plate (202).

9. The smart phone shell production and processing device according to claim 1, wherein: the electric push rod III (301) and the U-shaped plate (302) are also included; the base (1) is fixedly connected with an electric push rod III (301); the push ring (105) is in sliding connection with the lower die carrier (102); the push ring (105) is in sliding connection with the connecting ring (107); the telescopic end of the electric push rod III (301) is fixedly connected with a U-shaped plate (302), and the U-shaped plate (302) is fixedly connected with the push ring (105).

10. The smart phone case production and processing device as claimed in claim 9, wherein: also comprises a graphite ring (303); the graphite ring (303) is fixedly connected to the outer side of the push ring (105), and the graphite ring (303) is in sliding connection with the lower die frame (102).