SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the problems in the prior art and provides a jig film structure for a 3C product jig, which is used for converting a product film into a jig film, is beneficial to processing, reduces risks and avoids the defect of film tearing.
The purpose of the utility model can be realized by the following technical scheme: a jig film structure for a 3C product jig comprises a jig body and a composite film, wherein the composite film comprises a jig film, and a positioning groove is formed in a processing station of the jig body;
the jig film is attached in the positioning groove to form inosculation coverage.
In the jig film structure for the 3C product jig, the bottom surface of the jig film is an adhesive surface, the top surface of the jig film is a smooth surface, the adhesive surface is adhered to the bottom of the positioning groove, the outline of the jig film is consistent with the outline of the positioning groove, and the smooth surface of the top surface of the jig film is in contact with a product.
In the jig film structure for a 3C product jig, the positioning groove is internally provided with a plurality of positioning bulges in a protruding manner, the positioning bulges are arranged corresponding to the slotted holes on the product, the positioning groove is internally provided with a plurality of holes, the holes correspond to the protruding parts on the product, the jig film is provided with a plurality of openings, and the openings are matched with the positioning bulges and the holes in a matching manner in a one-to-one manner.
In the above jig film structure for a 3C product jig, the jig film includes a support film and centrifugal paper, the support film is attached to the top surface of the jig film, the centrifugal paper is adhered to the bottom surface of the jig film, the support film and the centrifugal paper are both larger in specification than the jig film, and the support film and the centrifugal paper form a sealing adhesion at the periphery of the jig film.
Before the jig film is used, namely before the jig body is bonded, the jig film is clamped and stored by the support film and the centrifugal paper, so that the jig film is prevented from being damaged, and meanwhile, the viscosity of the jig film is kept. When the jig is required to be used, the centrifugal paper is firstly torn off to expose the adhesive surface of the jig film, the jig film is flatly attached in the positioning groove of the jig body by using the rigid support of the support film, and finally the support film on the upper surface is torn off.
In the jig film structure for the 3C product jig, the jig film is specifically a PET film; the support film is specifically an acrylic plate.
In the jig film structure for the 3C product jig, the plurality of clamps are arranged around the processing station, and the clamping ports of the clamps face the edge part of the processing station.
The periphery of a product embedded into the positioning groove is clamped by the plurality of clamps arranged around the periphery so as to prevent the product from being dislocated in the machining process and further improve the machining precision.
In the jig film structure for the 3C product jig, the periphery of the processing station is provided with a plurality of positioning blocks, and the inner sides of the positioning blocks are provided with limiting grooves with the outlines consistent with those of the positioning grooves.
The positioning blocks arranged around the periphery of the product form abutting limit to prevent the product from being dislocated in the machining process, and machining precision is improved.
In the jig film structure for the 3C product jig, the jig body is a rectangular body, and the bottom of the jig body is provided with a plurality of support legs.
In the jig film structure for a 3C product jig described above, the processing station is provided on the top surface of the jig body.
Compared with the prior art, this a tool membrane structure for 3C product tool has following advantage:
1. the surface of the jig can be completely shielded by sticking the film on the surface of the jig, so that the risks of collision, scratch and crush are reduced.
2. Manpower for sticking and tearing the film of the corresponding product is reduced, so that labor cost is reduced, and production efficiency is improved.
3. Reduce corresponding pad pasting and dyestripping tool, further reduce processing cost.
4. The service life of the jig film is long, and only 1 jig needs to be replaced in one shift.
5. The consumption of the film is remarkably reduced.
Detailed Description
The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.
Example one
As shown in fig. 1 to 5, the jig film structure for a 3C product jig includes a jig body 4 and a composite film 10, the composite film 10 includes a jig film 2, and a positioning groove 5 is provided in a processing station of the jig body 4; the jig film 2 is attached in the positioning groove 5 to form a matching cover.
The advantages of using this approach are:
1. the surface of the jig can be completely shielded by sticking the film on the surface of the jig, so that the risks of collision, scratch and crush are reduced.
2. Manpower for sticking and tearing the film of the corresponding product is reduced, so that labor cost is reduced, and production efficiency is improved.
3. Reduce corresponding pad pasting and dyestripping tool, further reduce processing cost.
4. The service life of the jig film is long, and only 1 jig needs to be replaced in one shift.
5. The consumption of the film is remarkably reduced.
Example two
Based on the first embodiment, as shown in fig. 1 to 5, the bottom surface of the jig film 2 is an adhesive surface, the top surface is a smooth surface, the adhesive surface is adhered to the bottom of the positioning groove 5, the profile of the jig film 2 is consistent with the profile of the positioning groove 5, and the smooth surface of the top surface of the jig film 2 is in contact with the product.
Protruding a plurality of location archs of being equipped with in positioning groove 5, the corresponding setting of slotted hole on protruding and the product of location, a plurality of holes of seting up in positioning groove 5, the hole is corresponding with the bulge on the product, sets up a plurality of openings on the tool membrane 2, and the opening is the matching of coincide with protruding, the hole one-to-one in location.
The composite film 10 according to the first embodiment further includes a support film 1 and centrifugal paper 3, the jig film 2 is located between the support film 1 and the centrifugal paper 3, the support film 1 is attached to the top surface of the jig film 2, the centrifugal paper 3 is attached to the bottom surface of the jig film 2, the support film 1 and the centrifugal paper 3 are both larger than the jig film 2 in specification, and the support film 1 and the centrifugal paper 3 form a sealing adhesion on the periphery of the jig film 2. Before the jig film 2 is used, i.e., before the jig body 4 is bonded, it is sandwiched and stored by the support film 1 and the centrifugal paper 3, so that the jig film 2 is prevented from being damaged, while the adhesiveness of the jig film 2 is maintained. When the jig is required to be used, the centrifugal paper 3 is torn off, the adhesive surface of the jig film 2 is exposed, the jig film 2 is flatly attached to the positioning groove 5 of the jig body 4 by using the rigid support of the support film 1, and finally the support film 1 on the upper surface is torn off.
The jig film 2 is specifically a PET film; the support film 1 is specifically an acrylic plate.
The periphery of the processing station is provided with a plurality of clamps 6, and the clamping ports of the clamps 6 face the edge part of the processing station. The periphery of a product embedded into the positioning groove 5 is clamped by the plurality of clamps 6 arranged around the periphery so as to prevent the product from being dislocated in the machining process and further improve the machining precision.
The processing station is arranged on the top surface of the jig body 4.
This a tool membrane structure's for 3C product tool application technology does:
cover the smooth subsides of tool membrane 2 in the positioning groove 5 of tool body 4, make tool membrane 2 cover positioning groove 5 completely and identical with positioning groove 5 profile shape, put into tool membrane 2 in positioning groove 5 with the product on the surface, form the cladding nature protection to the product through tool membrane 2 from this, fix the product, then carry out the processing operation to the product, take out after this product processing is accomplished, need not change tool membrane 2, it can to directly put into next product and process.
The jig film 2 is different from a product film in that one jig is attached and the other jig is attached, and the product film needs to be equipped with jigs and a large amount of manpower, cannot completely cover the product, and is easy to generate the risks of bruising, scratching and crushing. The film sticking of the single-piece product consumes a large amount of film. Paste tool membrane 2 and can shield the tool surface completely, reduce and bump, fish tail, crush the risk, manpower and corresponding tool when reducing the laminating product membrane, and tool membrane 2 long service life reduces the loss of membrane.
EXAMPLE III
This embodiment is substantially the same as the first and second embodiments, except that:
as shown in fig. 5, a plurality of positioning blocks 7 are arranged around the periphery of the processing station, and the inner sides of the positioning blocks 7 are provided with limiting grooves having the same contour as the positioning grooves 5. The positioning blocks 7 arranged around the periphery of the product form abutting limit to prevent the product from being dislocated in the machining process, and machining precision is improved.
The jig body 4 is a rectangular body, and a plurality of support legs are arranged at the bottom of the jig body 4.
Compared with the prior art, this a tool membrane structure for 3C product tool has following advantage:
1. the surface of the jig can be completely shielded by sticking the film on the surface of the jig, so that the risks of collision, scratch and crush are reduced.
2. Manpower for sticking and tearing the film of the corresponding product is reduced, so that labor cost is reduced, and production efficiency is improved.
3. Reduce corresponding pad pasting and dyestripping tool, further reduce processing cost.
4. The service life of the jig film is long, and only 1 jig needs to be replaced in one shift.
5. The consumption of the membrane is remarkably reduced.
The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.
Although composite membranes 10 are used more herein; a support film 1; a jig film 2; centrifugal paper 3; a jig body 4; a positioning groove 5; a clamp 6; positioning block 7, etc., but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to the spirit of the present invention.
In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.