TWI482678B - Positioning structure and positioning method - Google Patents

Description

Positioning structure and positioning method

The invention relates to a positioning structure and a positioning method, and in particular to a positioning structure and a positioning method capable of reducing tolerances.

As technology continues to advance, more complex and more humane electronic products are being introduced. Taking a notebook computer as an example, due to its small size and light weight, the user is quite convenient to carry around, and the notebook computer has gradually become an indispensable tool for life and work.

Notebook computers are becoming more and more functional and more sophisticated, and the associated molding methods are becoming more complex. For example, the problem faced by multiple molding methods is the problem of stacking tolerance caused by multiple moldings, thus affecting subsequent related assembly problems.

In detail, due to the accumulation of variations in the assembly process of multiple components, these variations may be due to tolerances, deformation or offset of the components themselves, machining accuracy or human error. In addition, as the number of processing of components increases and the number of components to be assembled increases, assembly may fail due to excessive variation in assembly. As a result, production costs will be greatly increased.

The invention provides a positioning structure, which can effectively avoid the situation that the tolerance is accumulated due to multiple forming, and the subsequent assembly is difficult.

The present invention provides a positioning method that uses the positioning structure described above to reduce tolerances.

The invention provides a positioning structure suitable for aligning with a fixture. The jig includes a plurality of first positioning portions. The positioning structure includes a frame body including a plurality of second positioning portions corresponding to the first positioning portions. The positioning structure is aligned with the first positioning portion of the fixture by the second positioning portion of the frame body to form a frame body on the frame body, and the inner dimension of the frame body substantially conforms to the outer dimension of the insert member.

The invention further proposes a positioning method comprising the following steps. A jig is provided, wherein the jig includes a plurality of first positioning portions. A positioning structure is provided, wherein the positioning structure comprises a frame body, and the frame body comprises a plurality of second positioning portions corresponding to the first positioning portions. The second positioning portion of the alignment frame and the first positioning portion of the fixture. A frame is formed on the frame, wherein the inner dimension of the frame substantially conforms to the outer dimension of an insert.

Based on the above, the positioning structure and the positioning method of the present invention are aligned with each other by the second positioning portion of the frame and the first positioning portion of the fixture, and the inner dimensions of the frame are used as a reference, according to the size and embedding of the frame body. The difference in size outside the member determines the thickness of the frame to be formed on the frame such that the inner dimension of the frame substantially conforms to the outer dimensions of the insert, and the tolerance between the frame and the insert is reduced.

The above described features and advantages of the present invention will be more apparent from the following description.

In the conventional production and assembly process, usually with the most external components As a positioning reference, since many processing fixtures or assembly jigs are used throughout the production and assembly process, and the outermost components are used as the positioning reference, the amount of variation generated by the stepwise assembly of components is accumulated by layers. When the innermost components are assembled, they cannot be placed because they are not the same size.

In order to eliminate the amount of variation accumulated during processing or assembly of a plurality of components, in the present embodiment, a common positioning structure is set for the processing jig and the assembly jig, and the inside of the positioning structure is used as the positioning. Benchmarks, as long as it is confirmed that the outer dimensions of the components to be assembled in the positioning structure can conform to the inner dimensions of the positioning reference, the components to be loaded into the positioning structure can be assembled smoothly. The positioning structure will be described in detail below.

1 is a partial schematic view of a positioning structure and a jig according to an embodiment of the present invention. Referring to FIG. 1 , the positioning structure 100 of the embodiment is adapted to be aligned with a jig 10 . The jig 10 includes a plurality of first positioning portions 12. In the embodiment, the jig 10 can be a processing jig or an assembly jig, and the type of the jig 10 is not limited thereto. The positioning structure 100 includes a frame body 110 including a plurality of second positioning portions 112 corresponding to the first positioning portions 12. As shown in FIG. 1 , the first positioning portion 12 is a positioning post, and the second positioning portion 112 is a positioning hole. In other embodiments, the first positioning portion 12 can also be a positioning hole, and the second positioning portion 112 can also be positioned. Columns, but the types of the first positioning portion 12 and the second positioning portion 112 are not limited to the above. In addition, in FIG. 1 , since only the partial positioning structure 100 and the jig 10 are shown, the number of the first positioning portion 12 and the second positioning portion 112 is only one, but the first positioning portion 12 and the second positioning portion 112 The number is not limited by the number shown in FIG.

In this embodiment, the positioning structure 100 is aligned with the first positioning portion 12 of the jig 10 by the second positioning portion 112 of the frame body 110, and the jig 10 is taken as the reference by the inner dimension of the frame body 110. A frame 120 is formed on the body 110. Taking the processing jig as an example, after the first positioning portion 12 is aligned with the second positioning portion 112 of the frame body 110, the jig 10 is determined by the difference between the inner dimension of the frame body 110 and the outer dimension of the insert member 20. The thickness of the frame 120 is such that the inner dimensions of the frame 120 substantially conform to the outer dimensions of the insert 20. In this embodiment, the frame body 120 is formed on the frame body 110 by an encapsulation process. However, in other embodiments, the frame body 120 may be fixed to the frame body 110 in a manner of being attached. After the frame body 120 is formed on the frame body 110, the first positioning portion 12 of the assembly jig can be aligned with the second positioning portion 112 of the frame body 110 to accurately insert the insert member 20 into the frame body. 120 inside.

In this embodiment, the frame body 110 is the iron piece of the screen frame of the notebook computer, and the insert 20 is the glass of the screen of the notebook computer, so that the insert 20 and the frame body 110 do not collide due to direct contact or Wear, by providing the frame 120 on the frame 110 for shock absorption to carry the insert 20, and avoiding the insert 20 from directly contacting the frame 110. In this embodiment, the material of the frame 120 may be rubber or plastic, but the material of the frame 120 is not limited thereto.

Compared with the conventional use of the outermost component as a positioning reference, the layer accumulates the amount of variation when the components are assembled step by step, so that when the innermost insert 20 is to be assembled, it cannot be placed in the frame 120 because of the size difference. Or, the assembly jig presses the insert 20 down to the frame 120 to cause the insert 20 to be broken. The positioning structure 100 of the embodiment is processed by the frame 120 The first positioning portion 12 of the frame 10 is aligned with the second positioning portion 112 of the frame body 110, and the inner dimension of the frame body 110 is used as a reference to reduce the tolerance between the frame body 120 and the insert member 20, or by The thickness of the frame 120 is determined according to the difference between the inner dimensions of the frame 110 and the outer dimensions of the insert 20 such that the inner dimensions of the frame 120 substantially conform to the outer dimensions of the insert 20. At the time of assembly, the first positioning portion 12 of the jig 10 is also aligned with the second positioning portion 112 of the frame body 110, and the insert member 20 is accurately placed in the frame body 120.

2 is a schematic view of the positioning structure of FIG. 1 before being aligned with the first positioning portion. Referring to FIG. 2, the frame 110 includes a plurality of frames 114 connected in series. The frame 114 of the frame 110 may be slightly deformed as shown in FIG. 2 before being aligned with the jig 10. In this embodiment, a portion of the second positioning portion 112 can be located at the center of the frame 114, that is, at the position where the deformation amount of the frame body 110 is the largest.

3 is a schematic view of the positioning structure of FIG. 1 aligned with the first positioning portion. Referring to FIG. 3, after the first positioning portion 12 of the jig 10 is aligned with the second positioning portion 112 of the frame 110, the frame 114 of the frame 110 can be guided back by the first positioning portion 12 of the fixture 10. The correct position is to avoid the assembly of the frame 120 and the insert 20 after the deformation due to the deformation of the frame body 110 itself. Therefore, the positioning structure 100 of the embodiment can achieve the function of reducing the deformation amount of the frame body 110 by aligning the first positioning portion 12 of the jig 10 with the second positioning portion 112 of the frame body 110.

4 is a flow chart showing a positioning method according to an embodiment of the present invention. Referring to FIG. 4, the positioning method 200 of this embodiment includes the following steps: First, a fixture is provided, wherein the fixture includes a plurality of first positioning portions. (Step 210). In this embodiment, the jig can be a processing jig or an assembly jig, but the type of the jig is not limited thereto.

Also, a positioning structure is provided, wherein the positioning structure includes a frame body, and the frame body includes a plurality of second positioning portions corresponding to the first positioning portions (step 220). In this embodiment, the first positioning portion is a positioning post, and the second positioning portion is a positioning hole, but the types of the first positioning portion and the second positioning portion are not limited thereto.

Next, the second positioning portion of the alignment frame and the first positioning portion of the jig are aligned (step 230). In this embodiment, regardless of whether the fixture belongs to the processing fixture or the assembly fixture, the first positioning portion is aligned with the second positioning portion of the frame to ensure the consistency of the alignment in the subsequent steps.

Further, a frame is formed on the frame, wherein the inner dimensions of the frame substantially conform to the outer dimensions of an insert (step 240). In step 240, the jig belongs to a jig for processing the frame, and the jig is based on the inner dimensions of the frame. If the jig is a jig for providing an injecting process, the thickness of the frame may be determined according to the difference between the size of the frame and the size of the insert, so that the inner dimension of the frame substantially conforms to the outer dimension of the insert ( Step 242). If the jig is a jig for providing a laminating process, since the jig is also based on the inner dimensions of the frame, it can be effectively used as the reference based on the innermost dimensions of the frame. To reduce the tolerance between the frame and the fitting.

Finally, the insert is assembled into the housing (step 250). In step 250, after the first positioning portion of the jig (assembly jig) is aligned with the second positioning portion of the frame, the insert can be accurately placed into the frame.

In summary, the positioning structure of the present invention and the fixtures used in the processing or assembly process all utilize the same reference positioning (that is, the first positioning portion of the fixture is aligned with the second positioning portion of the frame), To ensure consistency in the alignment of the various processing and assembly stages. In addition, compared with the conventional use of the outermost component as a positioning reference, the layer accumulates the amount of variation when the components are assembled step by step, so that when the innermost embedded component is assembled, it cannot be placed in the frame because of the size difference. In the process of processing the frame body to the frame body, the positioning structure of the present invention uses the inner dimension of the frame body as a reference to reduce the tolerance between the frame body and the fitting member formed in the frame body. Or the thickness of the frame can be determined according to the difference between the size of the frame and the outer dimension of the insert, so as to ensure that the inner dimension of the frame can conform to the outer dimension of the insert, and the problem that the insert cannot be placed is avoided. . Moreover, the assembled assembly tolerances do not have to be considered for components assembled outside the frame, and only the tolerances of the dimensions inside the frame are considered, and the assembly is relatively simple.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the invention, and any one of ordinary skill in the art can make some modifications and refinements without departing from the spirit and scope of the invention. The scope of the invention is defined by the scope of the appended claims.

10‧‧‧ fixture

12‧‧‧First Positioning Department

20‧‧‧Inlays

100‧‧‧ Positioning structure

110‧‧‧ ‧ frame

112‧‧‧Second Positioning Department

114‧‧‧Border

120‧‧‧ frame

200‧‧‧ Positioning method

210~250‧‧‧Steps

1 is a partial schematic view of a positioning structure and a jig according to an embodiment of the present invention.

2 is a schematic view of the positioning structure of FIG. 1 before being aligned with the first positioning portion.

3 is a schematic view of the positioning structure of FIG. 1 aligned with the first positioning portion.

4 is a flow chart showing a positioning method according to an embodiment of the present invention.

10‧‧‧ fixture

12‧‧‧First Positioning Department

20‧‧‧Inlays

100‧‧‧ Positioning structure

110‧‧‧ ‧ frame

112‧‧‧Second Positioning Department

120‧‧‧ frame

Claims (10)

The positioning structure is adapted to be aligned with a fixture, the fixture includes a plurality of first positioning portions, the positioning structure includes: a frame body, and a plurality of second positioning portions corresponding to the first positioning portions, Wherein: the positioning structure is aligned with the first positioning portions of the fixture by the second positioning portions of the frame body to form a frame body on the frame body, and the inner dimensions of the frame body are substantially The upper part conforms to the outer dimensions of an insert. The positioning structure of claim 1, wherein the frame comprises a plurality of frames connected in pairs, and some or all of the second positioning portions are located at the center of the frames. The positioning structure of claim 1, wherein the frame is formed on the frame in an injecting or laminating manner. The positioning structure of claim 1, wherein each of the first positioning portions is a positioning post, and each of the second positioning portions is a positioning hole. A positioning method includes: providing a jig, wherein the jig includes a plurality of first positioning portions; providing a positioning structure, wherein the positioning structure comprises a frame body, the frame body corresponding to the first positioning portions a plurality of second positioning portions; the second positioning portions of the frame and the first positioning portions of the fixture; forming a frame on the frame, wherein the inner dimensions of the frame are substantially Meets the outer dimensions of an insert. The positioning method described in claim 5, wherein the frame is The body includes a plurality of frames connected in pairs, and some or all of the second positioning portions are located at the center of the frames. The positioning method of claim 5, wherein each of the first positioning portions is a positioning post, and each of the second positioning portions is a positioning hole. The positioning method of claim 5, wherein the frame is formed on the frame in an injecting or laminating manner. The positioning method of claim 5, wherein the step of forming the frame in the frame comprises: determining the frame according to a difference between an inner dimension of the frame and a size outside the insert The thickness is such that the inner dimensions of the frame substantially conform to the outer dimensions of the insert. The positioning method of claim 5, further comprising: assembling the insert into the frame, wherein the first positioning portions of the jig are located at the second positioning portions of the frame.