CN110126210A - A kind of mobile phone shell embryo material - Google Patents

Abstract

The present invention provides a kind of mobile phone shell embryo material, it is characterized in that, it includes mobile phone shell and auxiliary rim charge, the auxiliary rim charge is located at mobile phone shell edge, the auxiliary rim charge is equipped with two or more strip projective structures, auxiliary location structure and material feeding structure, the strip projective structure is located at the obverse and reverse of the auxiliary rim charge, the strip projective structure of the positive strip projective structure and reverse side of the auxiliary rim charge is in staggered distribution, the material feeding structure is located at one section or side of the auxiliary rim charge, the thickness of the material feeding structure is greater than the thickness of the mobile phone shell, the thickness of the material feeding structure is greater than the thickness of all auxiliary rim charges in addition to the material feeding structure, the thickness of the material feeding structure of mobile phone shell embryo material of the present invention is greater than the thickness of the mobile phone shell and is greater than in addition to the material feeding structure All auxiliary rim charges reduce mobile phone shell internal stress, reduce the chance that spray pattern generates in mobile phone shell, composite material in mobile phone shell is prevented to be separated from each other.

Description

A kind of mobile phone shell embryo material

Technical field

The present invention relates to a kind of embryo material more particularly to a kind of mobile phone shell embryo materials.

Background technique

In the industrial production, embryo material refers to industrial raw material.

Mobile phone shell is the ornament that cell phone appearance is protected or decorated.

Currently, mobile phone shell embryo material is plastics, glass, ceramics and metal as raw material in mobile phone shell industry Manufactured, the mobile phone shell embryo material of plastic material, which is easy discoloration, a peculiar smell, glass, ceramic material mobile phone shell embryo material be easy to break into pieces and make People's injury is dangerous, and metal hand casing can cause certain intervention not to be able to satisfy the requirement of current 5G mobile phone to mobile phone signal, this Invention is using nonmetallic composite.

At present during the mobile phone shell embryo material of production, since material is unevenly distributed in mobile phone shell embryo material, Bu Nengtong When form, increase mobile phone shell embryo material internal stress, increase the chance that spray pattern in mobile phone shell embryo material generates, in mobile phone shell embryo material Composite material is easily separated from each other, and reduces mobile phone shell finished product yield, the present invention due to the main feed channel maximum gauge, The thickness of described point of feeding-passage, the thickness of the material feeding structure, the thickness of mobile phone shell and owning in addition to the material feeding structure The thickness of the auxiliary rim charge successively successively decreases, and the material feeding passage realized in mobile phone shell embryo material production process is successively successively decreased, mobile phone Material is evenly distributed in shell embryo material, almost forms simultaneously, reduces mobile phone shell embryo material internal stress, reduces and sprays in mobile phone shell embryo material The chance that line generates, prevents composite material in mobile phone shell embryo material to be separated from each other, simultaneously because being equipped with strip projective structure and auxiliary Location structure facilitates mobile phone shell embryo material to be processed into mobile phone shell, improves mobile phone shell finished product yield.

Summary of the invention

Based on the deficiencies of the prior art, it is an object of the present invention to a kind of mobile phone shell embryo materials, due to the master The maximum gauge of feeding-passage, the thickness for dividing feeding-passage, the thickness of the material feeding structure, mobile phone shell thickness in addition to The thickness of all auxiliary rim charges of the material feeding structure successively successively decreases, and realizes the material feeding in mobile phone shell embryo material production process Channel is successively successively decreased, and material is evenly distributed in mobile phone shell embryo material, almost forms simultaneously, is reduced mobile phone shell embryo material internal stress, is subtracted The chance that spray pattern generates in few mobile phone shell embryo material, prevents composite material in mobile phone shell embryo material to be separated from each other, simultaneously because being equipped with Strip projective structure and auxiliary location structure facilitate mobile phone shell embryo material to be processed into mobile phone shell, improve mobile phone shell finished product yield.

To achieve the goals above, the present invention provides a kind of mobile phone shell embryo materials, which is characterized in that it include mobile phone shell and Rim charge is assisted, the auxiliary rim charge is located at mobile phone shell edge, and it is convex that the auxiliary rim charge is equipped with two or more strips Structure, auxiliary location structure and material feeding structure out, the strip projective structure are located at the positive and anti-of the auxiliary rim charge The strip projective structure in face, the positive strip projective structure and reverse side of the auxiliary rim charge is in staggered distribution.

As the improvement of mobile phone shell embryo material of the present invention, the material feeding structure of mobile phone shell embryo material of the present invention is located at the auxiliary One section of rim charge or side, the thickness of the material feeding structure are greater than the thickness of the mobile phone shell.

As the improvement of mobile phone shell embryo material of the present invention, the thickness of the material feeding structure of mobile phone shell embryo material of the present invention, which is greater than, to be removed The thickness of all auxiliary rim charges of the material feeding structure, in addition to the thickness of all auxiliary rim charges of the material feeding structure Degree is less than or equal to the thickness of the mobile phone shell.

As the improvement of mobile phone shell embryo material of the present invention, mobile phone shell embryo material of the present invention includes two mobile phone shells, two hands Casing is symmetrical, is successively two material feeding structures, two points of feeding-passages and a master between two mobile phone shells Feeding-passage.

As the improvement of mobile phone shell embryo material of the present invention, the main feed channel of mobile phone shell embryo material of the present invention is in the leakage stood upside down Bucket shape shape, the two sides for dividing feeding-passage to be symmetrically distributed in the main feed channel described in two, the main feed channel with two Described point of feeding-passage is mutually perpendicular to, and divides note described in the thickness G T.GT.GT of feeding-passage described in the maximum gauge > in the main feed channel Expect structure thickness >=mobile phone shell thickness >=in addition to the material feeding structure it is all it is described auxiliary rim charges thickness, the master into Expect the maximum gauge in channel, the thickness for dividing feeding-passage, the thickness of the material feeding structure, mobile phone shell thickness in addition to institute The thickness for stating all auxiliary rim charges of material feeding structure successively successively decreases.

As the improvement of mobile phone shell embryo material of the present invention, the thickness of the material feeding structure of mobile phone shell embryo material of the present invention is more than institute State the one third or one third of the thickness of mobile phone shell or more.

As the improvement of mobile phone shell embryo material of the present invention, the auxiliary location structure of mobile phone shell embryo material of the present invention is positioning Hole, there are two the location holes or more than two.

As the improvement of mobile phone shell embryo material of the present invention, the height of the strip projective structure of mobile phone shell embryo material of the present invention Range is 0-2mm.

As the improvement of mobile phone shell embryo material of the present invention, the height of the strip projective structure of mobile phone shell embryo material of the present invention is 1.2mm。

Compared with prior art, mobile phone shell embryo material of the present invention has the advantages that due to the main feed channel Maximum gauge, the thickness for dividing feeding-passage, the thickness of the material feeding structure, mobile phone shell thickness in addition to the material feeding The thickness of all auxiliary rim charges of structure successively successively decrease, and realize material feeding passage in mobile phone shell embryo material production process successively Successively decrease, material is evenly distributed in mobile phone shell embryo material, almost forms simultaneously, reduces mobile phone shell embryo material internal stress, reduces mobile phone shell The chance that spray pattern generates in embryo material, prevents composite material in mobile phone shell embryo material to be separated from each other, and protrudes simultaneously because being equipped with strip Structure and auxiliary location structure facilitate mobile phone shell embryo material to be processed into mobile phone shell, improve mobile phone shell finished product yield.

Detailed description of the invention

Fig. 1 is the perspective view of the mobile phone shell embryo material of mobile phone shell embryo material preferred embodiment of the present invention.

Fig. 2 is the structural schematic diagram of the mobile phone shell embryo material of mobile phone shell embryo material preferred embodiment of the present invention.

Fig. 3 is the schematic diagram of the section structure of the mobile phone shell embryo material of mobile phone shell embryo material preferred embodiment of the present invention.

Fig. 4 is the structural schematic diagram of the mobile phone shell embryo material of mobile phone shell embryo material other embodiments of the present invention.

Fig. 5 is the schematic diagram of the section structure of the mobile phone shell embryo material of mobile phone shell embryo material other embodiments of the present invention.

Specific embodiment

Mobile phone shell embryo material of the present invention is suitable for producing various mobile phone shells or mobile phone.

With reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5, the preferred embodiment and other realities of the present invention is described in detail mobile phone shell embryo material Apply example.

In the present embodiment, the present invention provides a kind of mobile phone shell embryo material, which is characterized in that it includes mobile phone shell 4 and auxiliary Rim charge 9, the auxiliary rim charge 9 are located at 4 edge of mobile phone shell, and it is convex that the auxiliary rim charge 9 is equipped with two or more strips Structure 9.1, auxiliary location structure 9.2 and material feeding structure 9.3 out, the strip projective structure 9.1 are located at the auxiliary side The obverse and reverse of material 9, the positive strip projective structure 9.1 of the auxiliary rim charge 9 and the strip protrusion of reverse side Structure 9.1 is in staggered distribution.

In the present embodiment, the material feeding structure 9.3 of mobile phone shell embryo material of the invention is located at the one of the auxiliary rim charge 9 Section or side, the thickness of the material feeding structure 9.3 are greater than the thickness of the mobile phone shell.

In the present embodiment, the thickness of the material feeding structure 9.3 of mobile phone shell embryo material of the invention is greater than in addition to the note The thickness for expecting all auxiliary rim charges 9 of structure 9.3, in addition to the thickness of all auxiliary rim charges 9 of the material feeding structure 9.3 Degree is less than or equal to the thickness of the mobile phone shell 4.

In the present embodiment, mobile phone shell embryo material of the invention includes two mobile phone shells, and two mobile phone shells are symmetrical, It is successively two material feeding structures, 9.3, two point feeding-passages 10 and a main feed channel between two mobile phone shells 11。

In the present embodiment, the main feed channel 11 of mobile phone shell embryo material of the invention in stand upside down funnel shaped, two A two sides for dividing feeding-passage 10 to be symmetrically distributed in the main feed channel 11, described in the main feed channel 11 and two Divide feeding-passage 10 to be mutually perpendicular to, divides described in the thickness G T.GT.GT of feeding-passage 10 described in the maximum gauge > in the main feed channel 11 The thickness of thickness >=mobile phone shell 4 of material feeding structure 9.3 >=in addition to all thickness for assisting rim charges 9 of the material feeding structure 9.3 Degree, the maximum gauge in the main feed channel 11, the thickness for dividing feeding-passage 10, the material feeding structure 9.3 thickness, hand The thickness of casing 4 and the thickness of all auxiliary rim charges 9 in addition to the material feeding structure 9.3 successively successively decrease.

In the present embodiment, the thickness of the material feeding structure 9.3 of mobile phone shell embryo material of the invention is more than the mobile phone shell 4 Thickness one third or one third more than.

In the present embodiment, the auxiliary location structure 9.2 of mobile phone shell embryo material of the invention is location hole 9.2.1, institute It states there are four location hole 9.2.1.

In other embodiments, the auxiliary location structure 9.2 of mobile phone shell embryo material of the invention is location hole 9.2.1, There are two the location hole 9.2.1.

In other embodiments, the auxiliary location structure 9.2 of mobile phone shell embryo material of the invention is location hole 9.2.1, There are three the location hole 9.2.1.

In other embodiments, the auxiliary location structure 9.2 of mobile phone shell embryo material of the invention is location hole 9.2.1, The location hole 9.2.1 is there are four more than.

In the present embodiment, the height of the strip projective structure 9.1 of mobile phone shell embryo material of the invention is 1.2mm.

Compared with prior art, the invention has the following advantages: due to the maximum gauge in the main feed channel, The thickness of described point of feeding-passage, the thickness of the material feeding structure, the thickness of mobile phone shell and owning in addition to the material feeding structure The thickness of the auxiliary rim charge successively successively decreases, and the material feeding passage realized in mobile phone shell embryo material production process is successively successively decreased, mobile phone Material is evenly distributed in shell embryo material, almost forms simultaneously, reduces mobile phone shell embryo material internal stress, reduces and sprays in mobile phone shell embryo material The chance that line generates, prevents composite material in mobile phone shell embryo material to be separated from each other, simultaneously because being equipped with strip projective structure and auxiliary Location structure facilitates mobile phone shell embryo material to be processed into mobile phone shell, improves mobile phone shell finished product yield.

Above disclosed is only presently preferred embodiments of the present invention, cannot limit the right of the present invention with this certainly Range, therefore according to equivalent variations made by scope of the present invention patent, it is still within the scope of the present invention.

Claims (11)

1. a kind of mobile phone shell embryo material, which is characterized in that it includes mobile phone shell and auxiliary rim charge, and the auxiliary rim charge is located at mobile phone shell Edge, the auxiliary rim charge are equipped with two or more strip projective structures, auxiliary location structure and material feeding structure, institute State the obverse and reverse that strip projective structure is located at the auxiliary rim charge, the positive strip of the auxiliary rim charge The strip projective structure of projective structure and reverse side is in staggered distribution.

2. mobile phone shell embryo material according to claim 1, it is characterised in that: the material feeding structure is located at the one of the auxiliary rim charge Section or side, the thickness of the material feeding structure are greater than the thickness of the mobile phone shell.

3. mobile phone shell embryo material according to claim 2, it is characterised in that: the thickness of the material feeding structure is greater than in addition to the note Expect structure it is all it is described auxiliary rim charges thickness, in addition to the material feeding structure it is all it is described auxiliary rim charges thickness be less than or Person is equal to the thickness of the mobile phone shell.

4. mobile phone shell embryo material according to claim 3, it is characterised in that: including two mobile phone shells, two mobile phone shells pair Claim distribution, is successively that two material feeding structures, two points of feeding-passages and a main feed are logical between two mobile phone shells Road.

5. mobile phone shell embryo material according to claim 4, it is characterised in that: the main feed channel is in the funnel shaped to stand upside down, The two sides for dividing feeding-passage to be symmetrically distributed in the main feed channel described in two, the main feed channel with two described in point into Material channel is mutually perpendicular to, and material feeding structure described in the thickness G T.GT.GT of feeding-passage is divided described in the maximum gauge > in the main feed channel Thickness >=mobile phone shell thickness >=in addition to the material feeding structure it is all it is described auxiliary rim charges thickness, the main feed channel Maximum gauge, the thickness for dividing feeding-passage, the thickness of the material feeding structure, mobile phone shell thickness in addition to the material feeding knot The thickness of all auxiliary rim charges of structure successively successively decreases.

6. mobile phone shell embryo material according to claim 5, it is characterised in that: the thickness of the material feeding structure is more than the mobile phone shell Thickness one third or one third more than.

7. mobile phone shell embryo material according to claim 1, it is characterised in that: the auxiliary location structure is location hole, described fixed There are two position holes or more than two.

8. mobile phone shell embryo material according to claim 3, it is characterised in that: the range of the height of the strip projective structure is 0- 2mm。

9. mobile phone shell embryo material according to claim 4, it is characterised in that: the altitude range of the strip projective structure is 0- 2mm。

10. mobile phone shell embryo material according to claim 5, it is characterised in that: the altitude range of the strip projective structure is 0- 2mm。

11. according to the mobile phone shell embryo material of claim 8 or 10, it is characterised in that: the height of the strip projective structure is 1.2mm。