CN108697014A - Method for producing shell, shell and electronic equipment - Google Patents
Method for producing shell, shell and electronic equipment Download PDFInfo
- Publication number
- CN108697014A CN108697014A CN201810711020.8A CN201810711020A CN108697014A CN 108697014 A CN108697014 A CN 108697014A CN 201810711020 A CN201810711020 A CN 201810711020A CN 108697014 A CN108697014 A CN 108697014A
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- China
- Prior art keywords
- filling slot
- filling
- processed
- stitching section
- slot
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Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K5/00—Casings, cabinets or drawers for electric apparatus
- H05K5/02—Details
- H05K5/0217—Mechanical details of casings
Abstract
This application provides a kind of method for producing shell, shell and electronic equipment, the method for producing shell includes the following steps:Frame members to be processed are provided, there is the frame members to be processed first stitching section, first stitching section to have the first filling slot;Plate to be processed is provided, there is the plate to be processed second stitching section, second stitching section to have the second filling slot;The frame members to be processed are sheathed on the plate to be processed, and make relatively described first stitching section in second stitching section, second filling slot is aligned and is connected to first filling slot;Non-signal shielding material is filled into first filling slot and second filling slot, to obtain the interconnecting piece for being fixedly connected with first stitching section and second stitching section.Above-mentioned method for producing shell realizes quick spicing forming type middle frame structure, saves the digital control processing time, reduces processing cost.
Description
Technical field
This application involves technical field of electronic equipment, and in particular to a kind of method for producing shell, shell and electronic equipment.
Background technology
Electronic equipment includes center at present, and one block of metal proximate matter of generally use carries out digital control processing and forms center, above-mentioned
Processing method is less efficient, leads to long processing time, is unfavorable for reducing processing cost..
Invention content
A kind of method for producing shell of the application offer, shell and electronic equipment.
The application provides a kind of method for producing shell, includes the following steps:Frame members to be processed are provided, it is described to be processed
There is frame members the first stitching section, first stitching section to have the first filling slot;
Plate to be processed is provided, there is the plate to be processed second stitching section, second stitching section to have second to fill out
Fill slot;
The frame members to be processed are sheathed on the plate to be processed, and make second stitching section relatively described the
One stitching section, second filling slot are aligned and are connected to first filling slot;
Non-signal shielding material is filled into first filling slot and second filling slot, and institute is fixedly connected with to obtain
State the interconnecting piece of the first stitching section and second stitching section.
The application also provides a kind of shell, and the shell includes frame members and middle plate, and the frame members surround the middle plate
Setting, the frame members are equipped with the first stitching section, and first stitching section is equipped with the first filling slot, and the middle plate is equipped with second and spells
Socket part, relatively described first stitching section in second stitching section, second stitching section are equipped with to be aligned and be connected to described first and fill out
The second filling slot of slot is filled, non-signal shielding material is filled in second filling slot and first filling slot, it is described non-
Signal shielding material forms a fixed connection the interconnecting piece of first stitching section and second stitching section.
The application also provides a kind of electronic equipment, and the electronic equipment includes shell as described above.
Method for producing shell, shell and electronic equipment provided by the present application, by being sheathed on the frame members to be processed
The plate to be processed, and make relatively described first stitching section in second stitching section, second filling slot is aligned and connects
Lead to first filling slot so that first filling slot and second filling slot form filled cavity;To first filling
Non-signal shielding material is filled in slot and second filling slot, the non-signal shielding material cures in above-mentioned filled cavity,
Obtain and be fixedly connected with the interconnecting piece of first stitching section and second stitching section, so ensure the frame members to be processed and
The stability of the plate splicing to be processed.Above-mentioned method for producing shell realizes quick spicing forming type middle frame structure, saves numerical control
Process time reduces processing cost.
Description of the drawings
It, below will be to needed in the embodiment attached in order to illustrate more clearly of the technical solution of the embodiment of the present application
Figure is briefly described, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the present application, for this field
For those of ordinary skill, without creative efforts, other drawings may also be obtained based on these drawings.
Fig. 1 is the structural schematic diagram one of shell provided by the embodiments of the present application;
Fig. 2 is the structural schematic diagram two of shell provided by the embodiments of the present application;
Fig. 3 is the structural schematic diagram three of shell provided by the embodiments of the present application;
Fig. 4 is the structural schematic diagram four of shell provided by the embodiments of the present application;
Fig. 5 is the schematic cross-section at P-P in Fig. 4;
Fig. 6 is the corresponding decomposition diagrams of Fig. 5;
Fig. 7 is the structural schematic diagram five of shell provided by the embodiments of the present application;
Fig. 8 is the structural schematic diagram of electronic equipment provided by the embodiments of the present application;
Fig. 9 is the schematic cross-section at Q-Q in Fig. 8;
Figure 10 is the flow diagram of method for producing shell provided by the embodiments of the present application;
Figure 11 is the machining sketch chart of method for producing shell provided by the embodiments of the present application;
Figure 12 is the machining sketch chart of method for producing shell provided by the embodiments of the present application;
Figure 13 is the machining sketch chart of method for producing shell provided by the embodiments of the present application;
Figure 14 is the machining sketch chart of method for producing shell provided by the embodiments of the present application;
Figure 15 is the machining sketch chart of method for producing shell provided by the embodiments of the present application;
Figure 16 is the machining sketch chart of method for producing shell provided by the embodiments of the present application;
Figure 17 is the machining sketch chart of method for producing shell provided by the embodiments of the present application.
Specific implementation mode
Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete
Site preparation describes, it is clear that described embodiment is only a part of the embodiment of the application, instead of all the embodiments.Base
Embodiment in the application, those of ordinary skill in the art are obtained all without making creative work
Other embodiments belong to the range of the application protection.
In addition, the explanation of following embodiment is referred to the additional illustration, to illustrate the spy that the application can be used to implement
Determine embodiment.The direction term being previously mentioned in the application, for example, " top ", " bottom ", "upper", "lower", "front", "rear",
"left", "right", "inner", "outside", " side " etc. are only the directions with reference to annexed drawings, therefore, the direction term used be in order to
More preferably, it is illustrated more clearly that and understands the application, rather than indicating or imply signified device or element must have specifically
Orientation, with specific azimuth configuration and operation, therefore should not be understood as the limitation to the application.
The numberical range indicated with "~" in this specification refers to using "~" front and back numerical value recorded as minimum value
And the range that maximum value is included.In the accompanying drawings, structurally similar or identical to be indicated by the same numeral.
Referring to Fig. 1, the application also provides a kind of shell 100, the shell 100 includes frame members 1 and middle plate 2, described
Frame members 1 are arranged around the middle plate 2, and the frame members 1 are equipped with the first stitching section 101, and first stitching section 101 is equipped with the
One filling slot 11, the middle plate 2 be equipped with the second stitching section 201, relatively described first stitching section 101 in second stitching section 201,
Second stitching section 201 is equipped with the second filling slot 21 for being directed at and being connected to first filling slot 11, second filling slot
21 and first filling slot 11 in be filled with non-signal shielding material 3, the non-signal shielding material 3 forms a fixed connection institute
State the interconnecting piece 301 of the first stitching section 101 and second stitching section 201.It is understood that the shell 100 can answer
For electronic equipment 200, the electronic equipment 200 can be smart mobile phone, tablet computer, laptop or wearable intelligence
Equipment.
Referring to Fig. 2, in present embodiment, the middle plate 2 has loading end 27, and the middle plate 2 is in the loading end 27
Equipped with forming part, the forming part can be boss or groove.The middle plate 2 can support electronic equipment 200 by boss
Mainboard 6, printed circuit board or function element.The middle plate 2 can accommodate function element by groove.The loading end 27 has
First short side 271 and the second short side 272 being oppositely arranged with first short side 271 and the first long side 273 and with described
The second long side 274 that one long side 273 is oppositely arranged.First short side 271, first long side 273, second short side
272 and second long side 274 join end to end successively, form the edge of the loading end 27.The middle plate 2 is equipped in edge
Second stitching section 201, second stitching section 201 are fixedly connected with first stitching section 101 by the interconnecting piece 301, real
The existing frame members 1 are fixed on the edge of the middle plate 2 so that the frame members 1 can be that the device of the middle plate 2 carrying carries
For laterally protecting.The number of second stitching section 201 can be it is multiple, and the number of second stitching section 201 with it is described
The number of first stitching section 101 is identical, and the multiple second stitching section 201 is arranged along the periphery of the middle plate 2.Specifically,
The middle plate 2 is provided at least one second stitching section 201 in the loading end 27 at first long side 273,
At least one second stitching section 201 is provided at second long side 274 in the loading end 27, in the carrying
Face 27 is provided at least one second stitching section 201 at first short side 271, in the loading end 27 close to institute
It states and is provided at least one second stitching section 201 at the second short side 272.Pass through multiple described the first of the frame members 1
Stitching section 101 is fixedly connected with multiple second stitching sections 201 of the middle plate 2 so that the frame members 1 and the middle plate
2 periphery securely splices.
The frame members 1 are rectangular.The frame members 1 include two short side plates 102 being oppositely arranged and are oppositely arranged
Two long side plates 103.Described two long side plates 103 are connected between described two short side plates 102.Described two short side plates 102
The side of the middle plate 2 is respectively positioned on described two long side plates 103.The number of first stitching section 101 is multiple, Mei Yisuo
It states short side plate 102 and is equipped at least one first stitching section 101 along its length;Each long side plate 103 is along length side
To equipped at least one first stitching section 101.
Splicing seams 104 are formed between the frame members 1 and the middle plate 2.Specifically, one of them described short side plate 102
It is adjacent with first short side 271, and form the first gap between first short side 271;Another described short side plate
102 is adjacent with second short side 272, and forms the second gap between second short side 272;One of them described long side
Plate 103 is adjacent with first long side 273, and third gap is formed between first long side 273;Another described length
Side plate 103 is adjacent with second long side 274, and the 4th gap is formed between second long side 274.First seam
Gap, second gap, the third gap are connected with the 4th gap and form the splicing seams 104.Described first
Filling slot 11 has the filling opening 111 towards the splicing seams 104, and first filling slot 11 is through filling opening 111
It is connected to the splicing seams 104.The non-signal shielding material 3 is filled in the splicing seams 104, and through filling opening 111
Fill the first filling slot 11.The splicing seams 104 separate the frame members 1 and the middle plate 2, in the splicing seams 104
Filled with the non-signal shielding material 3, to form antenna headroom region, and further increase the frame members 1 and it is described in
The bond strength of plate 2.
Referring to Fig. 1, in present embodiment, the frame members 1 further include being oppositely arranged with first stitching section 101
Appearance portion 105.First stitching section 101 is located at the inner circumferential side of the frame members 1, that is, is located at the frame members 1 towards described
2 side of middle plate.The appearance portion 105 is located at the peripheral side of the frame members 1, that is, is located at the frame members 1 and deviates from the middle plate 2
Side.First filling slot 11 extends through the appearance portion 105, first filling by first stitching section 101
Non-signal shielding material 3 is filled in slot 11, to form antenna headroom region, convenient for passing through the external transmitting in this region or receiving day
Line signal.
Referring to Fig. 3, first filling slot 11 is with the first open end 112 and relatively, first open end 112 is set
The second open end 113 set.First filling slot 11 extends to second open end 113 by first open end 112.
First open end 112 extends to first stitching section 101 and is opened towards 201 side of the second stitching section, described second
It puts end 113 and extends to the appearance portion 105, the appearance portion 105 is run through in second open end 113.Second open end
113 sectional dimension is less than the sectional dimension of second open end 113 so that the region where second open end 113
Antenna slit is formed, to have preferable concealment in appearance, improves the complete appearance of the shell 100.
First stitching section 101 has the first Mosaic face 12 towards second stitching section 201.Second splicing
Portion 201 has the second Mosaic face 22 towards first stitching section 101.Second Mosaic face 22 and first Mosaic face
12 fit.Second Mosaic face 22 and first Mosaic face 12 are perpendicular with the loading end 27.Described first fills out
The second open end 113 for filling slot 11 extends to and first Mosaic face 12.Second filling slot 21 is described with extending to
The third open end 211 of second Mosaic face 22, the third open end 211 are aligned with first open end 112 so that described
First filling slot 11 is connected with second filling slot 21.Second filling slot 21 also has and the third open end
211 the 4th ends 212 being oppositely arranged.4th end 212 can be open end, or blind end.Second filling
Slot 21 extends to the 4th end 212 by the third open end 211.The extending direction of second filling slot 21 and described the
The extending direction of one filling slot 11 is parallel.Non-signal screen is filled in first filling slot 11 and second filling slot 21
Cover material 3, the non-signal shielding material 3 forms a fixed connection first stitching section 101 and second stitching section 201
Interconnecting piece 301.Wherein, the non-signal shielding material 3 can be plastic cement, can be by the modes such as being molded by the non-signal screen
It covers material 3 and is filled in first filling slot 11 and second filling slot 21, without by the way that weld or rivet can be real
The existing frame members 1 and the firm splicing of the middle plate 2, simplify splicing construction, reduce production cost.In other embodiment
In, it is arranged in angle between the extending direction of second filling slot 21 and the extending direction of first filling slot 11.
Further, referring to Fig. 4, first stitching section 101 is equipped with positioning convex platform 13, first filling slot 11 is opened
Set on the positioning convex platform 13, second stitching section 201 is equipped with the positioning groove 23 being connected to second filling slot 21, institute
It is mutually chimeric with the positioning convex platform 13 to state positioning groove 23.
In present embodiment, the positioning convex platform 13 is located at first Mosaic face 12.The positioning groove 23 is opened in
Second Mosaic face 22.Fig. 5 and Fig. 6 are please referred to, second stitching section 201, which also has, connects second Mosaic face 22
Top surface 24.The top surface 24 is parallel with the loading end 27.The positioning groove 23 has be opened in the top surface 24 the
One opening 232.The positioning convex platform 13 is embedded in the positioning groove 23 through first opening 232.The positioning groove 23 has
There is the bottom surface 231 to fit with 13 end face of the positioning convex platform, second filling slot 21, which has, is opened in the bottom surface 231
Second opening.First filling slot 11 has the third opening for being opened in 13 end face of the positioning convex platform.Pass through the positioning
Boss 13 is mutually chimeric with the positioning groove 23, ensures that second opening is directed at the third opening, improves the frame members 1
With the splicing precision of the middle plate 2.Also, the positioning convex platform 13 limits the frame members 1 with the cooperation of the positioning groove 23
Displacement on parallel 27 direction of the loading end, to increase the shell 100 splicing construction reliability.In this implementation
In mode, the positioning groove 23 is rectangular recess, the shape and size of the positioning convex platform 13 and the positioning groove 23
Shape and size are adapted.In other embodiments, the positioning groove 23 or arc groove or V-groove or other
The groove of shape.First stitching section 101 is equipped with the locating slot being connected with first filling slot 11, second splicing
Portion 201 is equipped with the positioning convex platform 13 mutually chimeric with the positioning groove 23.
Further, referring to Fig. 7, first stitching section 101 is additionally provided with the third for being connected to first filling slot 11
Filling slot 14, the extending direction of the third filling slot 14 and the extending direction of first filling slot 11 are perpendicular, described non-
Signal shielding material 3 is also filled up in the third filling slot 14.
In present embodiment, the extending direction of the third filling slot 14 and the loading end 27 of the middle plate 2 are perpendicular, institute
The extending direction for stating the first filling slot 11 is parallel with the loading end 27 of the middle plate 2.Due to prolonging for the third filling slot 14
It stretches direction and the extending direction of first filling slot 11 is perpendicular, the non-signal shielding being filled in the third filling slot 14
Material 3 forms a fixed connection the first limiting section of the interconnecting piece 301, and first limiting section limits 301 edge of interconnecting piece
The extending direction of first filling slot 11 is detached from first filling slot 11, to improve the interconnecting piece 301 and described the
The bond strength of one filling slot 11.Specifically, first filling slot 11, which has, is connected to first open end 112 and described
The first madial wall 115 between second open end 113 and the second madial wall 116.In first madial wall 115 and described second
Side wall 116 is oppositely arranged.First madial wall 115 and second madial wall 116 are perpendicular with the loading end 27.Institute
The number for stating third filling slot 14 is two, and a third filling slot 14 is opened in first madial wall 115, another
The third filling slot 14 is opened in second madial wall 116.The non-signal shielding material 3 is also filled up in described two
In three filling slots 14, so that two the first limiting sections being respectively embedded into described two third filling slots 14 are formed, described in prevention
Interconnecting piece 301 is detached from first filling slot 11.In the present embodiment, the third filling slot 14 is rectangular recess.At it
In his embodiment, the third filling slot 14 or V-groove, arc groove or dovetail groove.
Second stitching section 201 is additionally provided with the 4th filling slot 25 for being connected to second filling slot 21, and the described 4th fills out
The extending direction for filling the extending direction and second filling slot 21 of slot 25 is perpendicular, and the non-signal shielding material 3 also fills up
In the 4th filling slot 25.Wherein, second filling slot 21 is parallel with the loading end 27 of the middle plate 2, and the described 4th
The extending direction of filling slot 25 and the loading end 27 of the middle plate 2 are perpendicular.Due to the extending direction of the 4th filling slot 25
It is perpendicular with the extending direction of second filling slot 21, the non-signal shielding material 3 being filled in the 4th filling slot 25
Form a fixed connection the second limiting section 26 of the interconnecting piece 301, and second limiting section 26 limits the interconnecting piece 301 along institute
The extending direction for stating the second filling slot 21 is detached from second filling slot 21, to improve the interconnecting piece 301 and described second
The bond strength of filling slot 21.By improving the interconnecting piece 301 and first filling slot 11 and second filling slot 21
Bond strength, improve the interconnecting piece 301 and be fixedly connected with first stitching section 101 and second stitching section 201
Reliability, and then improve the reliability of the splicing construction of the frame members 1 and middle plate 2.
Referring to Fig. 8, the application also provides a kind of electronic equipment 200, the electronic equipment 200 includes shell as described above
Body 100.Referring to Fig. 9, the electronic equipment 200 further includes display screen 4, back-cover 5 and mainboard 6, the display screen 4 and the back of the body
Lid 5 is covered on the both sides of the middle plate 2 respectively, and the periphery of the periphery of the display screen 4 and the back-cover 5 is respectively fixedly connected with institute
The both sides of frame members 1 are stated, the mainboard 6 is fixed on the middle plate 2, and between the display screen 4 and the back-cover 5.
The mainboard 6 is electrically connected the display screen 4.
Referring to Fig. 10, the application also provides a kind of method for producing shell, the method for producing shell can be applied to
State the making of shell 100.The method for producing shell includes the following steps 101 to step 105:
101:1 is please referred to Fig.1, frame members 7 to be processed are provided, the frame members 7 to be processed have the first stitching section 101,
First stitching section 101 has the first filling slot 11.
In a step 101, the frame members to be processed 7 are also to be added with being oppositely arranged with first stitching section 101
71 outside work.First stitching section 101 is located at the inner circumferential side of the frame members 7 to be processed, the number of first stitching section 101
Mesh is multiple.The multiple being circumferentially arranged along the frame members 7 to be processed of first stitching section 101.The outside to be processed
71 are located at the peripheral side of the frame members 7 to be processed, and the outside 71 to be processed is circumferentially extended along the frame members 7 to be processed,
Allowance of the outside to be processed 71 for reserved processing appearance portion 105.The outside to be processed 71 is formed with gas vent
72, first filling slot 11 extends to the outside to be processed 71 and is connected to the gas vent 72.The gas vent 72 is used for
The gas in first filling slot 11 is arranged in the step of follow-up non-signal shielding material 3 fills the first filling slot 11
Go out, ensures that non-signal shielding material 3 is sufficient filling in first filling slot 11, avoiding being filled in first filling slot 11
Interior non-signal shielding material 3 generates bubble.The number of the gas vent 72 can be multiple, to improve exhaust effect.It is described
First filling slot 11 has the blind end 117 that the first open end 112 and relatively described first open end 112 are arranged, the closing
End 117 extends to the outside to be processed 71, i.e., first filling slot 11 does not run through the outside 71 to be processed, to
The outside 71 to be processed can enhance the resistance of the first filling slot 11 external force deformation as strengthening portion during following process
Ability, ensure machining accuracy.And the blind end 117 only close relatively by first open end 112, not with the external world
Isolation, the blind end 117 are connected to the gas vent 72 completely, realize first filling slot 11 through 72 row of the gas vent
Gas.First open end 112 is formed in first filling slot 11 far from described 71 one end of outside to be processed.
102:2 are please referred to Fig.1, provides plate 8 to be processed, the plate 8 to be processed has the second stitching section 201, described
Second stitching section 201 has the second filling slot 21.
In a step 102, the plate to be processed 8 is for plate 2 in being molded.The plate to be processed 8 has panel body
Portion.The panel body portion has loading end 27.The plate to be processed 8 has the forming part positioned at the loading end 27.Institute
It can be boss or groove to state forming part.The boss can be used for supporting the mainboard 6 of electronic equipment 200, printed circuit board or
Function element.The groove can be used for accommodating function element.The edge to be processed is in the side in the panel body portion
Edge.The plate to be processed 8 is molded through die-casting process so that the 8 drawn deformation of plate to be processed, bending deformation form
Type goes out the more structure feature on the plate to be processed 8 with rapid processing.The plate to be processed 8 is in the production process
Flash is not generated, waste material is not generated, avoids the waste of material, reduces the production cost of the plate to be processed 8.
Plate 8 to be processed is provided and includes step 1021 to step 1022:
1021:3 are please referred to Fig.1, a prefabricated plates 81 are provided, the prefabricated plates 81 have the Ministry of worker 811 to be added.
In step 1021, the prefabricated plates 81 are rectangular.The prefabricated plates 81 also have main part to be processed
812.The Ministry of worker to be added 811 is located at the edge of the main part 812 to be processed.The Ministry of worker to be added 811 is described for being molded
Stitching section.
1022:Figure is please referred to, die casting processing is carried out to the Ministry of worker to be added 811 of the prefabricated plates 81, has the to obtain
The plate 8 to be processed of two stitching sections 201.
In step 1022, die-casting process is carried out to the prefabricated plates 81, to obtain the plate to be processed 8.Wherein,
The Ministry of worker to be added 811 forms second stitching section 201 and the edge part to be processed through die casting processing.It is described to be added
Work main part 812 forms the panel body portion with the forming part through die casting processing.The Ministry of worker to be added 811 is in die casting
Squeezing action under experience tensile deformation formed with the second filling slot 21 the second stitching section 201, second stitching section 201
Flash is not generated in the production process, does not generate waste material, avoids the waste of material.The number of second stitching section 201 can be with
It is multiple, the multiple second stitching section 201 is arranged along the periphery of plate 8 to be processed.
103:4 are please referred to Fig.1, the frame members 7 to be processed are sheathed on the plate to be processed 8, and makes described the
Relatively described first stitching section 101 in two stitching sections 201, second filling slot 21 are aligned and are connected to first filling slot 11.
In the present embodiment, splicing seams 104 are formed between the frame members to be processed 7 and the plate to be processed 8.Institute
State circumferentially extending of the splicing seams 104 along plate 8 to be processed.The splicing seams 104 separate the frame members 1 and the middle plate 2
It opens, the non-signal shielding material 3 is subsequently filled into the splicing seams 104, to form antenna headroom region, and is further carried
The bond strength of the high frame members 1 and the middle plate 2.First filling slot 11 has filling out towards the splicing seams 104
Opening 111 is filled, first filling slot 11 is connected to the splicing seams 104 through filling opening 111.To the non-signal screen
When covering material 3 and being filled in the splicing seams 104, can also be open 111 filling 11 Hes of the first filling slot through the filling
Second filling slot 21 improves processing efficiency to reduce filling number.
First stitching section 101 has the first Mosaic face 12 towards second stitching section 201.Second splicing
Portion 201 has the second Mosaic face 22 towards first stitching section 101.Second Mosaic face 22 and first Mosaic face
12 fit.Second Mosaic face 22 and first Mosaic face 12 are perpendicular with the loading end 27.Described first fills out
The first open end 112 for filling slot 11 extends to and first Mosaic face 12.First open end 112 is aligned and is connected to described
Second filling slot 21.Second filling slot 21, which has, extends to the third open end 211 of second Mosaic face 22, and described the
Three open ends 211 are aligned with first open end 112 so that first filling slot 11 is connected with second filling slot 21
It is logical.Second filling slot 21 also has the 4th end 212 being oppositely arranged with the third open end 211.4th end 212
It can be open end, or blind end.Second filling slot 21 extends to the described 4th by the third open end 211
End 212.
5 are please referred to Fig.1, in a step 101, first stitching section 101 is formed with positioning convex platform 13, first filling
Slot 11 is opened in the positioning convex platform 13.Specifically, the positioning convex platform 13 is formed in first Mosaic face 12.The positioning
The shape and size of boss 13 are adapted with the shape and size of the positioning groove 23.
5 are please referred to Fig.1, in a step 102, second stitching section 201 is formed with to be connected to second filling slot 21
Positioning groove 23.Specifically, the positioning groove 23 is opened in second Mosaic face 22.Referring to Fig. 6, described second spells
Socket part 201 also has the top surface 24 for connecting second Mosaic face 22.The top surface 24 is parallel with the loading end 27.It is described
Positioning groove 23 has the first opening 232 for being opened in the top surface 24.The positioning groove 23 can be rectangular channel.At other
In embodiment, the positioning groove 23 can also be the groove of arc groove, dovetail groove or other shapes.
In step 103, the positioning convex platform 13 is embedded in the positioning groove 23.Specifically, the positioning convex platform 13
It is mutually chimeric with the positioning groove 23 by the positioning convex platform 13 through first opening, the 232 insertion positioning grooves 23,
The positioning convex platform 13 limits position of the frame members 1 on parallel 27 direction of the loading end with the cooperation of the positioning groove 23
Move, improve the reliability of the splicing construction of the frame to be processed and the plate to be processed 8, ensure the frame to be processed and
The splicing precision of the plate to be processed 8.
104:6 are please referred to Fig.1, non-signal is filled into first filling slot 11 and second filling slot 21 and shields material
Material 3, to obtain the interconnecting piece 301 for being fixedly connected with first stitching section 101 and second stitching section 201.
At step 104, since first filling slot 11 has the filling opening 111 towards the splicing seams 104, institute
The first filling slot 11 is stated through the 111 connection splicing seams 104 of filling opening, the non-signal shielding material 3 is filled in institute
It states in splicing seams 104, the non-signal shielding material 3 is filled in first filling slot 11 and institute through filling opening 111
State the second filling slot 21.The non-signal shielding material 3 in first filling slot 11 is filled through first open end 112
In in second filling slot 21.Wherein, the non-signal shielding material 3 can be plastic cement, by 7 He of frame members to be processed
The plate to be processed 8 is put into as inserts in mold, is filled in the non-signal shielding material 3 by nanometer Shooting Technique
The splicing seams 104, first filling slot 11 and second filling slot 21, without by the way that weld or rivet can be real
The existing frame members 1 and the firm splicing of the middle plate 2, simplify splicing construction, reduce production cost.Also, the above process is same
Step completes the filling of first filling slot 11, second filling slot 21 and the splicing seams 104, reduce process time and
Cost;104 or more three of first filling slot 11, second filling slot 21 and the splicing seams filler one at
Type is conducive to the consistent stability for increasing splicing construction.
105:7 are please referred to Fig.1, the outside 71 to be processed is removed, obtains appearance portion 105.
In step 105, the outside 71 to be processed is removed, since the gas vent is set to the outside to be processed
71 so that the removal of exhaust structure is completed during processing the appearance of frame, without carrying out additional procedure of processing, is reduced
Processing duration.The outside to be processed 71 can be removed by NC Milling Technology, to obtain the higher institute of machining accuracy
State appearance portion 105.During processing outside 71 to be processed, the blind end 117 is removed, is formed and runs through the appearance
The day linear slit 106 in portion 105.Since the filling of non-signal shielding material 3 being completed in the day linear slit 106, the closing is removed
In the step of holding 117, the filling layer surface in the day linear slit 106 is processed and keeps flat with the surface in the appearance portion 105
Together, the consistency of appearance is improved.
Referring to Fig. 7, in a step 101, first stitching section 101 also has be connected to first filling slot 11 the
Three filling slots 14, the extending direction of the third filling slot 14 and the extending direction of first filling slot 11 are perpendicular.In step
In rapid 104, the non-signal shielding material 3 is also filled up in the third filling slot 14.Wherein, the third filling slot 14
Extending direction and the loading end 27 are perpendicular, and the extending direction of first filling slot 11 is parallel with the loading end 27.
Since the extending direction of the extending direction and first filling slot 11 of the third filling slot 14 is perpendicular, it is filled in described
Non-signal shielding material 3 in three filling slots 14 forms a fixed connection the first limiting section of the interconnecting piece 301, first limit
Position portion limits the interconnecting piece 301 and is detached from first filling slot 11 along the extending direction of first filling slot 11, to carry
The bond strength of the high interconnecting piece 301 and first filling slot 11.
In a step 102, second stitching section 201 is additionally provided with the 4th filling slot for being connected to second filling slot 21
25, the extending direction of the extending direction and second filling slot 21 of the 4th filling slot 25 is perpendicular, at step 104,
The non-signal shielding material 3 is also filled up in the 4th filling slot 25.Wherein, second filling slot 21 and the middle plate 2
Loading end 27 it is parallel, the loading end 27 of the extending direction and the middle plate 2 of the 4th filling slot 25 is perpendicular.By institute
The extending direction for stating the extending direction and second filling slot 21 of the 4th filling slot 25 is perpendicular, is filled in the 4th filling
Non-signal shielding material 3 in slot 25 forms a fixed connection the second limiting section 26 of the interconnecting piece 301, second limiting section
The 26 limitation interconnecting pieces 301 are detached from second filling slot 21 along the extending direction of second filling slot 21, to improve
The bond strength of the interconnecting piece 301 and second filling slot 21.To which the interconnecting piece 301 is not easy to fill out from described first
It fills in slot 11 and second filling slot 21 and is detached from, and then improve the reliability of the splicing construction of the frame members 1 and middle plate 2.
Method for producing shell, shell and electronic equipment provided by the present application, by being sheathed on the frame members to be processed
The plate to be processed, and make relatively described first stitching section in second stitching section, second filling slot is aligned and connects
Lead to first filling slot so that first filling slot and second filling slot form filled cavity;To first filling
Non-signal shielding material is filled in slot and second filling slot, the non-signal shielding material cures in above-mentioned filled cavity,
Obtain and be fixedly connected with the interconnecting piece of first stitching section and second stitching section, so ensure the frame members to be processed and
The stability of the plate splicing to be processed.Above-mentioned method for producing shell realizes quick spicing forming type middle frame structure, saves numerical control
Process time reduces processing cost.
In conclusion although the application is disclosed above with preferred embodiment, which is not to limit
The application, one of ordinary skill in the field are not departing from spirit and scope, can make various changes and profit
Decorations, therefore the protective range of the application is subject to the range that claim defines.
Claims (15)
1. a kind of method for producing shell, which is characterized in that include the following steps:
Frame members to be processed are provided, there is the frame members to be processed first stitching section, first stitching section to have first to fill out
Fill slot;
Plate to be processed is provided, there is the plate to be processed second stitching section, second stitching section to have the second filling slot;
The frame members to be processed are sheathed on the plate to be processed, and second stitching section relatively described first is spelled
Socket part, second filling slot are aligned and are connected to first filling slot;
Non-signal shielding material is filled into first filling slot and second filling slot, and described the is fixedly connected with to obtain
The interconnecting piece of one stitching section and second stitching section.
2. method for producing shell as described in claim 1, which is characterized in that described in the step of providing frame members to be processed
Frame members to be processed also have outside the Ministry of worker to be added that is oppositely arranged with first stitching section, described to be processed to be externally formed with
Gas vent, first filling slot extend to the outside to be processed and are connected to the gas vent;
In the step of filling non-signal shielding material into first filling slot and second filling slot, the non-signal screen
It covers material to be filled in first filling slot, and the gas in first filling slot is discharged through the gas vent.
3. method for producing shell as claimed in claim 2, which is characterized in that first filling slot and second filling
After the step of filling non-signal shielding material in slot, the outside to be processed is removed, obtains appearance portion.
4. method for producing shell as claimed in claim 3, which is characterized in that described in the step of providing frame members to be processed
There is first filling slot blind end, the blind end to extend to the outside to be processed;
In the step for removing outside to be processed, the blind end is removed, forms the day linear slit through the appearance portion.
5. method for producing shell as claimed in claim 4, which is characterized in that described in the step of providing frame members to be processed
First filling slot also has the first open end being oppositely arranged with the blind end, and first open end is formed in described first
Filling slot is far from described external one end to be processed;
In the step of frame members to be processed are sheathed on the plate to be processed, first open end is aligned and is connected to institute
State the second filling slot;
In the step of filling non-signal shielding material into first filling slot and second filling slot, first filling
The non-signal shielding material in slot is filled in through first open end in second filling slot.
6. method for producing shell as described in claim 1, which is characterized in that described in the step of providing frame members to be processed
First stitching section also has a third filling slot for being connected to first filling slot, the extending direction of the third filling slot with it is described
The extending direction of first filling slot is perpendicular;
In the step of filling non-signal shielding material into first filling slot and second filling slot, the non-signal screen
Material is covered to also fill up in the third filling slot.
7. method for producing shell as claimed in claim 6, which is characterized in that in the step of plate to be processed is provided, described
Two stitching sections also have the 4th filling slot for being connected to second filling slot, the extending direction of the 4th filling slot and described the
The extending direction of two filling slots is perpendicular;
In the step of filling non-signal shielding material into first filling slot and second filling slot, the non-signal screen
Material is covered to also fill up in the 4th filling slot.
8. the method for producing shell as described in claim 1~7 any one, which is characterized in that provide frame members to be processed
In step, first stitching section is formed with positioning convex platform, and first filling slot is opened in the positioning convex platform;
In the step of providing plate to be processed, it is recessed that second stitching section is formed with the positioning being connected to second filling slot
Slot;
In the step of frame members to be processed are sheathed on the plate to be processed, the positioning convex platform insertion positioning is recessed
In slot.
9. a kind of shell, which is characterized in that the shell includes frame members and middle plate, and the frame members are set around the middle plate
It sets, the frame members are equipped with the first stitching section, and first stitching section is equipped with the first filling slot, and the middle plate is equipped with the second splicing
Portion, relatively described first stitching section in second stitching section, second stitching section, which is equipped with, is directed at and is connected to first filling
Non-signal shielding material, the non-letter are filled in second filling slot of slot, second filling slot and first filling slot
Number shielding material forms a fixed connection the interconnecting piece of first stitching section and second stitching section.
10. shell as claimed in claim 9, which is characterized in that first stitching section is additionally provided with connection first filling
The third filling slot of slot, the extending direction of the third filling slot and the extending direction of first filling slot are perpendicular, described
Non-signal shielding material is also filled up in the third filling slot.
11. shell as claimed in claim 10, which is characterized in that second stitching section is additionally provided with connection second filling
The extending direction of 4th filling slot of slot, the extending direction and second filling slot of the 4th filling slot is perpendicular, described
Non-signal shielding material is also filled up in the 4th filling slot.
12. the shell as described in claim 9~11 any one, which is characterized in that the frame members have and described first
The appearance portion that stitching section is oppositely arranged, first filling slot extend through the appearance portion by first stitching section.
13. the shell as described in claim 9~11 any one, which is characterized in that between the frame members and the middle plate
Form the splicing seams that are connected with first filling slot and second filling slot, the non-signal shielding material also fill up in
In the splicing seams.
14. the shell as described in claim 9~11 any one, which is characterized in that first stitching section is equipped with convex
Platform, first filling slot are opened in the positioning convex platform, and second stitching section is equipped with to be connected to second filling slot
Positioning groove, the positioning groove are mutually chimeric with the positioning convex platform.
15. a kind of electronic equipment, which is characterized in that the electronic equipment includes the shell described in claim 9~14 any one
Body.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810711020.8A CN108697014A (en) | 2018-06-30 | 2018-06-30 | Method for producing shell, shell and electronic equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810711020.8A CN108697014A (en) | 2018-06-30 | 2018-06-30 | Method for producing shell, shell and electronic equipment |
Publications (1)
Publication Number | Publication Date |
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CN108697014A true CN108697014A (en) | 2018-10-23 |
Family
ID=63851247
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201810711020.8A Pending CN108697014A (en) | 2018-06-30 | 2018-06-30 | Method for producing shell, shell and electronic equipment |
Country Status (1)
Country | Link |
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CN (1) | CN108697014A (en) |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN204836903U (en) * | 2015-06-25 | 2015-12-02 | 奥捷五金(江苏)有限公司 | Remove product center |
CN204887820U (en) * | 2015-06-29 | 2015-12-16 | 奥捷五金(江苏)有限公司 | Mobile electron product and metal center thereof |
CN206993173U (en) * | 2017-07-28 | 2018-02-09 | 赫比(上海)金属工业有限公司 | A kind of outer frame of mobile phone and the integrated structure of middle plate |
WO2018084443A1 (en) * | 2016-11-02 | 2018-05-11 | 주식회사 영진전기 | Method for manufacturing metal frame for mobile terminal |
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2018
- 2018-06-30 CN CN201810711020.8A patent/CN108697014A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN204836903U (en) * | 2015-06-25 | 2015-12-02 | 奥捷五金(江苏)有限公司 | Remove product center |
CN204887820U (en) * | 2015-06-29 | 2015-12-16 | 奥捷五金(江苏)有限公司 | Mobile electron product and metal center thereof |
WO2018084443A1 (en) * | 2016-11-02 | 2018-05-11 | 주식회사 영진전기 | Method for manufacturing metal frame for mobile terminal |
CN206993173U (en) * | 2017-07-28 | 2018-02-09 | 赫比(上海)金属工业有限公司 | A kind of outer frame of mobile phone and the integrated structure of middle plate |
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Application publication date: 20181023 |