CN216852777U - Electronic equipment shell - Google Patents

Abstract

The utility model provides an electronic equipment casing, including casing frame and composite board. The shell frame is a plastic structure formed by pre-injection molding. The housing frame includes a support bezel. The composite board is adhered to the support frame. The supporting frame comprises a frame body and a supporting frame. The support frame extends inwards from the frame body. The frame body is positioned on one side of the composite board. The support frame is located below the composite board. The bottom surface of the composite board is adhered to the support frame. The utility model provides a pair of electronic equipment casing through using the viscose layer with composite board adhesion on injection moulding's casing frame in advance, avoids leading to electronic equipment casing to warp because of shrink behind the casing frame shaping.

Description

Electronic equipment shell

Technical Field

The utility model relates to an equipment shell structure, concretely relates to electronic equipment casing.

Background

With the rapid development of computer technology and mobile communication technology, various intelligent mobile electronic devices such as notebook computers, tablet computers, mobile phones and the like are widely used. At the same time, consumer demand for portability of mobile electronic devices has also escalated. This has led to the development of various technologies for thinning and lightening mobile electronic devices. The present electronic device housing usually uses a structure of combining a carbon fiber plate with a plastic material, such as a plastic material wrapping the edge of the carbon fiber plate, thereby reducing the weight of the housing and increasing the impact strength of the housing. However, the carbon fiber plate is directly combined with the plastic material by in-mold forming, the formed plastic material has large shrinkage, and the carbon fiber plate has no shrinkage, which may cause deformation of the shell structure and affect the appearance of the shell.

Disclosure of Invention

In view of this, the present invention provides an electronic device casing to solve the technical problem that the shrinkage of the plastic material after molding results in the deformation of the casing structure.

The utility model provides an electronic equipment casing. The electronic equipment shell comprises a shell frame and a composite board. The shell frame is a plastic structure formed by pre-injection molding. The housing frame includes a support bezel. The composite board is adhered to the support frame. The supporting frame comprises a frame body and a supporting frame. The support frame extends inwards from the frame body. The frame body is positioned on one side of the composite board. The support frame is located below the composite board. The bottom surface of the composite board is adhered to the support frame.

Optionally, the composite board is adhered to the support frame through an adhesive layer. The material of the adhesive layer is epoxy adhesive or A/B adhesive.

Optionally, the adhesive layer has a thickness in the range of 0.05-0.2 mm. The width range of the adhesive layer is 1-50 mm.

Optionally, one side of the support frame, which is adhered to the bottom surface of the composite board, is provided with a slot. The adhesive layer is filled in the groove.

Optionally, the frame extends in a vertical direction. The support frame extends along the horizontal direction.

Optionally, a gap is formed between the composite board and the frame body in the horizontal direction.

Optionally, the electronic device housing further comprises a filler block. The filling block is filled in the gap so as to connect the composite board and the frame body into a whole.

The width ratio range of the filling blocks to the composite board is 1:500-1: 50.

Optionally, the cross section of the gap is provided with a step at a position close to the support frame.

Optionally, the frame body includes four frame body components located on four sides and connected to each other, the support frame includes four support frame components located on four sides and connected to each other, and the bottom surface of the composite board is correspondingly adhered to the four support frame components of the support frame.

The utility model provides a pair of electronic equipment casing through using the viscose layer with composite board adhesion on injection moulding's casing frame in advance, avoids leading to electronic equipment casing to warp because of shrink behind the casing frame shaping. The utility model discloses an electronic equipment casing provides the fluting on the casing frame to be used for filling the viscose layer, the adhesion size on calibration viscose layer ensures the adhesion effect. The utility model discloses an electronic equipment casing still provides the clearance on the horizontal direction between composite board and casing frame to fill the filling block in the clearance, with the more effectual emergence that prevents the casing deformation, realize the planarization of casing.

Drawings

In order to illustrate the technical solutions of the embodiments of the present invention more clearly, the drawings of the embodiments will be briefly described below, and it is obvious that the drawings in the following description only relate to some embodiments of the present invention, and are not intended to limit the present invention.

Fig. 1 is a schematic structural diagram of an electronic device housing according to an embodiment of the present invention.

Fig. 2 is a cross-sectional view of the electronic device housing along line a-a of fig. 1.

Fig. 3 is a schematic cross-sectional view of a part of an electronic device casing according to another embodiment of the present invention.

Fig. 4 is a schematic partial sectional view of an electronic device casing according to another embodiment of the present invention.

Fig. 5 is a schematic cross-sectional view of a part of an electronic device casing according to another embodiment of the present invention.

Fig. 6 is a schematic flow chart illustrating a method for manufacturing an electronic device housing according to an embodiment of the present invention.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined below to clearly and completely describe the technical solution of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. Based on the described embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1 and 2, an embodiment of the present invention provides an electronic device housing 900. The electronic device case 900 includes a composite board 100, a case frame 200, and an adhesive layer 300. The composite board 100 is adhered to the case frame 200 by the adhesive layer 300 to form the structurally stable electronic device case 900. In this embodiment, the composite board 100 is a carbon fiber board, and has high tensile strength. The housing frame 200 is made of plastic material, has light weight and plasticity, is easy to form, and is integrally portable with the electronic device housing 900 formed by combining the composite board 100, and has the effect of buffering and damping. The adhesive layer 300 is made of epoxy adhesive or A/B adhesive. After the housing frame 200 is injection molded and shrunk in advance, the housing frame is bonded with the composite board 100 through the adhesive layer 300, so that the electronic device housing 900 formed by the housing frame is stable in structure and not easy to deform.

Referring to fig. 1 and 2, the case frame 200 includes four support rims 210. The four support rims 210 are connected to each other to collectively enclose the housing frame 200. The composite board 100 is adhered to the support frame 210. The four supporting frames 210 include four frame bodies 211 and four corresponding supporting frames 212. In the present embodiment, the frame 211 includes four frame components connected to each other on four sides, and the supporting frame 212 includes four supporting frame components connected to each other on four sides. The frame 211 and the supporting frame 212 are integrally formed plastic structures. The frame body 211 is vertically higher than the support bracket 212 and horizontally located outside the support bracket 212. The frame body 211 wraps the edge of the composite board 100 from the horizontal direction, and the support frame 212 supports the edge of the composite board 100 from the vertical direction to enhance the impact strength of the edge of the composite board 100. The four bracket assemblies extend toward the inner sides of the case frame 200, respectively. Bottom surface 110 of composite board 100 is correspondingly adhered to four support frame assemblies of support frame 212.

Referring to fig. 2, one side of the supporting frame 212 adhered to the composite board 100 has a rectangular slot 2121, and the adhesive layer 300 is filled in the slot 2121. The thickness H of the adhesive layer 300 ranges from 0.05 to 0.2 mm. If the thickness H of the adhesive layer 300 is less than 0.05mm, the adhesive amount may be insufficient, and the composite board 100 may not be stably adhered to the case frame 200. If the thickness H of the adhesive layer 300 is greater than 0.2mm, the adhesive may overflow, which may cause unevenness of the electronic device housing 900 and affect the appearance of the electronic device housing 900. The width W of the adhesive layer 300 ranges from 1 to 50 mm. If the width W of the adhesive layer 300 is less than 1mm, the amount of adhesive may be insufficient, and the adhesive strength between the composite board 100 and the case frame 200 may be low. If the width W of the adhesive layer 300 is greater than 50mm, the adhesive may overflow, which may cause the electronic device housing 900 to be uneven and affect the appearance of the electronic device housing 900. In the present embodiment, the cross-sectional shape of the slot 2121 is rectangular. In other embodiments, the cross-sectional shape of the slot 2121 can have other shapes, such as a trapezoid.

Referring to fig. 2, the electronic device housing 900 further includes a filler block 400. A gap 500 is provided between composite board 100 and frame 211 in the horizontal direction. The lower end surface of the gap 500 is flush with the bottom surface 110 of the composite board. The filling block 400 is filled in the gap 500 to integrally connect the composite board 100 and the frame 211, thereby increasing the sealing performance of the electronic device case 900. The filling block 400 is made of plastic material or glue material the same as the glue layer 300, i.e. epoxy glue or a/B glue. The filling block 400 of plastic material is filled into the gap 500 by an in-mold injection molding process. The filling blocks 400 of glue material are filled into the gaps 500 by a glue dispensing process. The width ratio of the filling blocks 400 to the composite board 100 ranges from 1:500 to 1: 50. In the present embodiment, the cross-sectional shape of the gap 500 is rectangular, which simplifies the manufacturing process and facilitates the filling of the gap 500 with the filling block 400.

Referring to fig. 3, another embodiment of the present invention provides a schematic partial cross-sectional structure diagram of an electronic device casing 800. The electronic device case 800 includes a composite board 810, a case frame 820, an adhesive layer 830, and a filling block 840. The composite sheet 810 is adhered to the housing bezel 820 by an adhesive layer 830. The housing bezel 820 includes a frame 821 in a horizontal direction and a support 822 in a vertical direction. Bottom surface 811 of composite sheet 810 is adhered to support 822. A gap 850 is provided between the composite plate 810 and the frame 821 in the horizontal direction. The lower end surface of the gap 850 is flush with the bottom surface 811 of the composite board. The filling block 840 is filled in the gap 850. In this embodiment, the cross-sectional shape of the gap 850 is trapezoidal to increase the bonding force between the composite board 810 and the frame 811, and the filling block 840 is not easily removed after being filled into the gap 850 because the opening width of the gap 850 is smaller than the inner opening width.

Referring to fig. 4, another embodiment of the present invention provides a schematic partial cross-sectional structure diagram of an electronic device casing 700. The electronic device case 700 includes a composite board 710, a case frame 720, an adhesive layer 730, and a filling block 740. The composite board 710 is adhered to the housing frame 720 by an adhesive layer 730. The housing frame 720 includes a frame 721 in a horizontal direction and a supporting frame 722 in a vertical direction. The bottom 711 of the composite sheet 710 is adhered to the support frame 722. A gap 750 is provided between the composite board 710 and the frame 721 in the horizontal direction. The filling block 740 is filled in the gap 750 to connect the composite board 710 and the frame 721 into a whole. The electronic device case 700 of the present embodiment is different from the electronic device case 900 of the previous embodiment in that: the lower end surface of the gap 750 is at least partially embedded in the supporting frame 722 to further increase the bonding force between the casing frame 720 and the composite board 710, so that the electronic device casing 700 has a stable structure and is not easy to deform.

Referring to fig. 5, another embodiment of the present invention provides a schematic partial cross-sectional structure diagram of an electronic device casing 600. The electronic device case 600 includes a composite board 610, a case frame 620, an adhesive layer 630, and a filling block 640. The composite board 610 is adhered to the housing bezel 620 by an adhesive layer 630. The housing frame 620 includes a frame 621 in a horizontal direction and a support 622 in a vertical direction. The bottom surface 611 of the composite board 610 is adhered to the support frame 622. The composite board 610 and the frame 621 have a gap 650 therebetween in the horizontal direction. The filling block 640 is filled in the gap 650 to connect the composite board 610 and the frame 621 into a whole. The electronic device case 600 of the present embodiment is different from the electronic device case 800 of the previous embodiment in that: the lower end surface of the gap 650 is at least partially embedded in the supporting frame 622 to further increase the bonding force between the casing frame 620 and the composite board 610, so that the electronic device casing 600 has a stable structure and is not easy to deform.

Referring to fig. 6, a method for manufacturing an electronic device housing according to an embodiment of the present invention includes the following steps 902 and 910.

Step 902, pre-injection molding a housing frame, where the housing frame includes a support frame and a frame, and the support frame extends inward from the frame. In this embodiment, the housing frame made of plastic material is pre-manufactured by an injection molding process, so that the housing frame has the properties of light weight and plasticity. On concrete product structure, the framework is higher than the support frame in the vertical direction and is positioned outside the support frame in the horizontal direction. One side of the supporting frame is provided with a slot.

And 904, performing shrinkage treatment on the pre-injection molded shell frame.

Step 906, a gap is arranged between the composite board and the frame body of the shell frame in the horizontal direction.

Step 908, adhering the bottom surface of the composite board to the support frame of the housing frame in a vertical direction. And filling an adhesive layer in the groove of the support frame so as to adhere the support frame and the bottom surface of the composite board together. The adhesive layer is made of epoxy adhesive or A/B adhesive, the thickness range of the adhesive layer is 0.05-0.2mm, and the width range of the adhesive layer is 1-50 mm.

Step 910, a filling block is filled in the gap to connect the composite board and the frame body into a whole. The width ratio range of the filling blocks to the composite board is 1:500-1: 50.

The utility model provides a pair of electronic equipment casing through using the viscose layer with composite board adhesion on injection moulding's casing frame in advance, avoids leading to electronic equipment casing to warp because of shrink behind the casing frame shaping. The utility model discloses an electronic equipment casing provides the fluting on the casing frame to be used for filling the viscose layer, the adhesion size on calibration viscose layer ensures the adhesion effect. The utility model discloses an electronic equipment casing still provides the clearance on the horizontal direction between composite board and casing frame to fill the filling block in the clearance, with the more effectual emergence that prevents the casing deformation, realize the planarization of casing.

While the description and drawings of the present invention have been given for the purpose of illustration and description, it will be understood by those skilled in the art that these embodiments are not intended to limit the scope of the present invention, but are capable of modification in various forms and details without departing from the spirit and scope of the present invention. Accordingly, the scope of the present disclosure is not limited to the above-described embodiments, but should be determined by the claims and the equivalents thereof.

Claims (10)

1. The utility model provides an electronic equipment casing, a serial communication port, electronic equipment casing includes casing frame and composite board, casing frame is injection moulding's plastic structure in advance, casing frame is including supporting the frame, composite board adhesion is in support on the frame, it includes framework and support frame to support the frame, the support frame by the framework is inside to be extended, the framework is located composite board one side, the support frame is located the composite board below, composite board's bottom surface adhesion in on the support frame.

2. The electronic device casing according to claim 1, wherein the composite board is adhered to the supporting frame by an adhesive layer, and the adhesive layer is made of epoxy glue or a/B glue.

3. An electronic device housing as recited in claim 2, wherein the adhesive layer has a thickness in the range of 0.05-0.2mm and a width in the range of 1-50 mm.

4. The electronic device casing according to claim 3, wherein a groove is formed in a side of the supporting frame, which is adhered to the bottom surface of the composite board, and the adhesive layer is filled in the groove.

5. An electronic device enclosure as recited in claim 4, wherein said frame extends in a vertical direction and said support frame extends in a horizontal direction.

6. An electronic device casing according to claim 5, wherein a gap is provided between the composite board and the frame body in the horizontal direction.

7. The electronic device casing according to claim 6, further comprising a filling block filled in the gap to integrate the composite board with the frame.

8. An electronic device enclosure as recited in claim 7, wherein the width ratio of the filler block to the composite sheet material is in a range of 1:500 to 1: 50.

9. An electronic device casing as claimed in claim 8, wherein the cross section of the gap is stepped at a position close to the support frame.

10. The electronic device casing of claim 9, wherein the frame comprises four frame members connected to each other at four sides, the supporting frame comprises four supporting frame members connected to each other at four sides, and the bottom surface of the composite board is correspondingly adhered to the four supporting frame members of the supporting frame.

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