CN210909734U - Feeding template - Google Patents

Abstract

The present disclosure provides a loading template. The feeding template is used for fixing a communication cable, and the communication cable comprises a cable main body, a first connector and a second connector, wherein the first connector and the second connector are fixedly arranged on the cable main body. The feeding template comprises a template main body, and at least one pair of first clamping group and second clamping group which are arranged on the template main body in a protruding mode at intervals, wherein the first clamping group is elastically clamped on the first connector, and the second clamping group is elastically clamped on the second connector, so that the communication cables are packaged on the feeding template in a corresponding arrangement mode. The first clamping group and the second clamping group limit and assemble the communication cable on the feeding template so as to realize the positioning and packaging of the communication cable, and the packaging position is accurate. The material loading template can be fixed many communication cables according to corresponding arrangement, and communication cables draws the convenience in the equipment process to can be applied to automated production and processing, the packaging efficiency is high.

Description

Feeding template

Technical Field

The utility model belongs to the technical field of the encapsulation, a material loading template is related to.

Background

An RF cable (radio frequency cable) for transmitting electromagnetic energy in a radio frequency range is arranged in a mobile terminal such as a mobile phone, a notebook computer, a tablet computer, etc., wherein application types of signals transmitted by the RF cable include, but are not limited to, an antenna, WIFI, etc.

However, in the existing RF cable assembling process, the RF cables are distributed scattered and are not easy to be structured to corresponding tools, positioning and grabbing of automatic equipment cannot be achieved, and therefore the assembly of the RF cables and corresponding parts still adopts manual assembly, the generating efficiency is high, and the processing cost is high.

Disclosure of Invention

In view of this, the present disclosure provides a feeding template.

Specifically, the present disclosure is realized by the following technical solutions:

according to a first aspect of the embodiments of the present disclosure, a feeding template is provided, configured to fix a communication cable, where the communication cable includes a cable body, a first joint and a second joint that are fixedly disposed on the cable body, and the feeding template includes a template body, and at least a pair of a first clamping set and a second clamping set that are disposed on the template body at intervals in a protruding manner, where the first clamping set is elastically clamped to the first joint, and the second clamping set is elastically clamped to the second joint, so that the communication cable is packaged in the feeding template in a corresponding arrangement manner.

In an embodiment, when the template body is provided with two or more pairs of first clamping sets and second clamping sets, the first clamping sets of two adjacent pairs are distributed in parallel, and the second clamping sets of two adjacent pairs are distributed in parallel.

In one embodiment, the template body comprises a base plate, and the at least one pair of first clamping group and second clamping group are detachably connected with the base plate; or, the at least one pair of first clamping group and second clamping group and the substrate are integrally formed.

In an embodiment, the template main body further includes separation lines distributed at intervals on the substrate, the separation lines separate the substrate into at least two clamping areas, and each clamping area is provided with at least one pair of the first clamping group and the second clamping group.

In one embodiment, the base plate is provided with at least one positioning hole defining an assembly position of the template body.

In an embodiment, the first clamping set includes an end blocking piece, a first elastic piece and a second elastic piece opposite to the first elastic piece, the end blocking piece is located in an extending direction of a clamping space formed by the first elastic piece and the second elastic piece, an end of the first joint abuts against the end blocking piece, and the first elastic piece and the second elastic piece are clamped at two sides of the first joint.

In an embodiment, the first clamping set further includes a first guiding piece and a second guiding piece, and the first guiding piece and the second guiding piece are clamped to the cable main body to guide the extending direction of the cable main body.

In one embodiment, a center line of the clamping space of the first clamping group is inclined with respect to a center line of the clamping space of the second clamping group to guide a bending direction of the cable main body.

In one embodiment, an inclination angle between a center line of the clamping space of the first clamping group and a center line of the clamping space of the second clamping group is set as a, wherein a is less than or equal to 120 degrees.

In one embodiment, the first clamping set and the second clamping set are symmetrically distributed on the template main body; or the first clamping group and the second clamping group are distributed on the template main body in a staggered manner.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:

the first clamping group and the second clamping group limit and assemble the communication cable on the feeding template so as to realize the positioning and packaging of the communication cable, and the packaging position is accurate. The material loading template can be fixed many communication cables according to corresponding arrangement, and communication cables draws the convenience in the equipment process to can be applied to automated production and processing, the packaging efficiency is high.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

Fig. 1 is a schematic structural view of a loading template according to an exemplary embodiment.

Fig. 2 is a schematic structural diagram illustrating a loading template equipped with a plurality of communication cables according to an exemplary embodiment.

Fig. 3 is a schematic structural view illustrating a telecommunication cable being secured by a first clamp group and a second clamp group according to an exemplary embodiment.

Fig. 4 is a schematic structural view showing two telecommunication cables clamped by two pairs of first and second clamping groups in the same clamping area according to an exemplary embodiment.

Fig. 5 is a schematic diagram illustrating a configuration in which two telecommunication cables are clamped between two pairs of first and second clamping groups at different clamping areas, according to an exemplary embodiment.

Fig. 6 is a schematic cross-sectional view illustrating the first and second elastic pieces being detachably assembled to the mold plate main body according to an exemplary embodiment.

Fig. 7 is a schematic cross-sectional structure view illustrating a first elastic piece and a second elastic piece integrally formed with a mold plate main body according to an exemplary embodiment.

Wherein, the template body 10; positioning holes 11; a separation line 12; a substrate 13; a first clamping group 20; an end stop piece 21; a first elastic sheet 22; a support part 221; a guide portion 222; a stopper portion 223; a second elastic sheet 23; a first guide piece 24; a second guide piece 25; a third guide piece 26; a second clamping set 30; a communication cable 40; a first joint 41; a second joint 42; a cable body 43.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. In an alternative embodiment, the first information may also be referred to as second information, and similarly, the second information may also be referred to as first information, without departing from the scope of the present disclosure. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

Fig. 1 is a schematic structural view of a loading template according to an exemplary embodiment. Fig. 2 is a schematic structural diagram illustrating a feeding template equipped with a plurality of communication cables 40 according to an exemplary embodiment. As shown in fig. 1 and 2, the feeding module is used for fixing a communication cable 40, and the communication cable 40 includes a cable main body 43, and a first connector 41 and a second connector 42 fixed to the cable main body 43, wherein the first connector 41 and the second connector 42 may have the same or different shapes to adapt to different signal transmission modes. The communication cable 40 may be applied to various radio communication systems and electronic devices, for example, the communication cable 40 is a coaxial cable, which may be applied to different application scenarios such as mobile phone, wireless communication, broadcasting, television, radar, navigation, computer and meter. The feeding template is used for orderly packaging the communication cable 40 when the communication cable 40 is generated and assembled, so that the automatic assembly of the communication cable 40 in the electronic equipment assembling process is realized.

As shown in fig. 3, in an embodiment, the feeding template includes a template body 10, and at least a pair of first clamping set 20 and a pair of second clamping set 30 protruding from the template body 10 at intervals, wherein the first clamping set 20 is elastically clamped to the first connector 41, and the second clamping set 30 is elastically clamped to the second connector 42, so that the communication cables 40 are packaged in the feeding template in a corresponding arrangement manner.

The first clamping group 20 and the second clamping group 30 protrude from the formwork body 10 to form a boss-shaped clamping structure. The first clamping set 20 correspondingly clamps the first connector 41 in an elastic manner. When the external force applied to the first connector 41 is greater than the elastic clamping force, the first connector 41 can be separated from the first clamping set 20. Similarly, the second clamping set 30 correspondingly clamps the second connector 42 in a resilient manner. When the external force applied to the second joint 42 is greater than the elastic clamping force, the second joint 42 can be separated from the second clamping set 30.

The first connector 41 and the second connector 42 are respectively arranged at two ends of the communication cable 40, and when the first connector 41 and the second connector 42 are fixed by the material loading template, the cable main body 43 is correspondingly bent and positioned in an extending area between the first clamping group 20 and the second clamping group 30. The first clamping group 20 and the second clamping group 30 limit and assemble the communication cable 40 to the feeding template, so that the positioning and packaging of the communication cable 40 are realized, and the packaging position is accurate.

When the feeding template is provided with a plurality of pairs of first clamping groups 20 and second clamping groups 30, the feeding template can simultaneously clamp a plurality of communication cables 40. When a plurality of pairs of first clamping groups 20 and second clamping groups 30 are arranged regularly, the position of the communication cable 40 can be limited, the plurality of communication cables 40 can be fixed according to the corresponding arrangement mode by the feeding template, the communication cable 40 can be conveniently extracted in the assembling procedure, and the automatic production and processing can be applied, and the assembling efficiency is high. It should be noted that the distribution positions, distribution numbers and distribution directions of the first clamping group 20 and the second clamping group 30 disposed on the template main body 10 may be adaptively adjusted according to the application scenario, which is not limited herein.

As shown in fig. 4 and 5, the feeding module can arrange the plurality of communication cables 40 in a regular manner to implement the packaging operation. In one embodiment, when the template body 10 is provided with two or more pairs of first clamping groups 20 and second clamping groups 30, the first clamping groups 20 of two adjacent pairs are distributed in parallel, and the second clamping groups 30 of two adjacent pairs are distributed in parallel.

The first clamping group 20 and the second clamping group 30 are distributed in the template main body 10 in pairs, and the distribution rule thereof defines the arrangement rule of the communication cables 40. When the first clamping sets 20 of two adjacent pairs are parallel to each other, the first clamping sets 20 are distributed linearly or in a grid. For example, the first clamping groups 20 distributed on the template body 10 are in the same line to form a linear distribution. Alternatively, the first clamping groups 20 distributed on the formwork body 10 are located at the node positions of the grid lines to form a grid-like distribution. Likewise, the second clamping group 30 is disposed corresponding to the first clamping group 20 to fix the second connector 42 of the telecommunication cable 40. The second clamping set 30 may also be arranged linearly or in a grid.

The first clamping groups 20 of two adjacent pairs are arranged in parallel, so that the parallel arrangement of the first joints 41 can be determined, and the automatic production equipment can stably grab the first joints 41. Similarly, the second clamping sets 30 of two adjacent pairs are arranged in parallel to each other, so that the parallel arrangement of the second joints 42 can be determined, and the automatic production equipment can stably grab the second joints 42. The position of the communication cable 40 can be limited by limiting the position and the direction of the first clamping group 20, and the packaging effect is good.

In one embodiment, the template body 10 includes a base plate 13, and the at least one pair of first and second clamping sets 20 and 30 are detachably connected to the base plate 13. The first clamping set 20 may be formed of one or more components, each of which may be attached by screws, fasteners, or other means to be pressed against the base plate 13 to form a releasable attachment structure (as shown in fig. 6). For example, a plurality of components having a substantially "L" shape and a substantially "U" shape are fixed to the base plate 13 to form a first clamping group 20 having a clamping space. The first joint 41 is clamped by the parts at the corresponding position so as to be elastically clamped on the first clamping group 20, and the clamping position is convenient to adjust. The second clamping group 30 is assembled with the first clamping group 20 in a substantially same manner, so that the communication cable 40 is fixedly assembled, and the positioning effect is good.

In one embodiment, the template body 10 includes a base plate 13, and the at least one pair of first and second clamping sets 20 and 30 are integrally formed with the base plate 13 (as shown in fig. 7). The first clamping group 20 is provided with a plurality of protruding pieces or protruding ribs protruding out of the base plate 13, and a clamping space is formed between the two protruding pieces which are oppositely arranged. The first connector 41 is clamped by a plurality of lugs together, so that the clamping and positioning effects are good. The second clamping group 30 is assembled with the first clamping group 20 in a substantially same manner, so that the communication cable 40 is fixedly assembled, and the positioning effect is good. The first clamping group 20 and the second clamping group 30 are integrally formed with the substrate 13, so that the processing efficiency is high, and the overall stability is good. The plurality of first clamping groups 20 and the plurality of second clamping groups 30 are arranged on the substrate 13, so that the plurality of communication cables 40 can be clamped to form an evenly distributed structure, and the clamping effect is good.

As shown in fig. 2 and 3, in an embodiment, the template main body 10 further includes separation lines 12 distributed at intervals on the substrate 13, the separation lines 12 separate the substrate 13 into at least two clamping areas, and each clamping area is provided with at least one pair of the first clamping set 20 and the second clamping set 30.

The substrate 13 is in a strip sheet or thin plate structure, a plurality of separation lines 12 are arranged on the substrate 13, and each separation line 12 divides the substrate 13 into two clamping areas. Alternatively, the form body 10 may be divided along the separation line 12 into form bodies 10 of different sizes, and the size adjustment of the form body 10 is facilitated.

The first clamping set 20 and the second clamping set 30 are correspondingly distributed in the clamping area to define the assembling position of the communication cable 40. Alternatively, only one pair of the first clamping group 20 and the second clamping group 30 is provided in one clamping area, so that one clamping area can define one telecommunication cable 40. Optionally, two pairs of the first clamping group 20 and the second clamping group 30 are arranged in one clamping area, each pair of the first clamping group 20 and the second clamping group 30 forms a clamping mechanism, and the two clamping mechanisms are arranged at intervals and distributed in parallel. Or, the two first clamping groups 20 in the clamping area are positioned on the left side of the center line of the substrate 13 and distributed at intervals, and the two second clamping groups 30 in the clamping area are positioned on the right side of the center line of the substrate 13 and distributed at intervals. The first clamping group 20 far away from the center line and the second clamping group 30 near the center line form a clamping mechanism, and the first clamping group 20 near the center line and the second clamping group 30 far away from the center line form another clamping mechanism. It should be noted that each clamping area may be provided with one or more pairs of the first clamping group 20 and the second clamping group 30, and the pairs of the first clamping group and the second clamping group are distributed at intervals to clamp different numbers of communication cables 40, so as to adapt to different assembly scenarios of electronic devices, and the application is flexible.

The base plate 13 is provided with at least one pair of a first clamping group 20 and a second clamping group 30, and the loading templates of different structures are positioned by the template body 10. In one embodiment, the base plate 13 is provided with at least one positioning hole 11, and the positioning hole 11 defines the assembly position of the template body 10. The positioning holes 11 may define the position of the template body 10 and the first and second clamping groups 20 and 30, which in turn determine the position of the communication cable 40, providing a reference for the automated equipment. For example, each clamping area is provided with two positioning holes 11 distributed at intervals, and the two positioning holes 11 can limit the corresponding first clamping group 20 and second clamping group 30 in the clamping area, so that the positioning effect is good.

In an embodiment, the first clamping set 20 includes an end blocking piece 21, a first elastic piece 22 and a second elastic piece 23 opposite to the first elastic piece 22, and the end blocking piece 21 is located in an extending direction of a space clamped by the first elastic piece 22 and the second elastic piece 23. The end of the first joint 41 abuts against the end stop 21, and the first elastic piece 22 and the second elastic piece 23 are clamped on both sides of the first joint 41.

The end stop piece 21, the first elastic piece 22 and the second elastic piece 23 are distributed in a triangular shape to limit the assembling position of the first joint 41, and the positioning effect of the first joint 41 is good. Optionally, a clamping space between the first elastic sheet 22 and the second elastic sheet 23 is used for accommodating the first connector 41, wherein a width dimension of the clamping space is smaller than a width dimension of the first connector 41, so that the first elastic sheet 22 and the second elastic sheet 23 are elastically clamped to the peripheral wall of the first connector 41. Accordingly, the center plane of the clamping space coincides with the center line of the first joint 41.

Alternatively, the first elastic sheet 22 and the second elastic sheet 23 are symmetrically arranged to fit the structure of the first joint 41. For example, the first elastic sheet 22 and the second elastic sheet 23 are both in a sheet-shaped bent structure, wherein a trumpet-shaped opening is formed at the opening of the clamping space to facilitate the first connector 41 to be buckled into the clamping space. Optionally, the first elastic piece 22 and the second elastic piece 23 are disposed opposite to each other and are disposed asymmetrically to adapt to the shape structure of the first joint 41, so as to improve the stability of clamping. For example, the first elastic sheet 22 and the second elastic sheet 23 match the outer shape of the first joint 41.

As shown in fig. 6 and 7, in an alternative embodiment, the second elastic piece 23 is disposed symmetrically to the first elastic piece 22, and the first elastic piece 22 includes a supporting portion 221 fixedly disposed on the substrate 13 and a guiding portion 222 obliquely disposed on the supporting portion 221. The first and second elastic pieces 22 and 23 form a bell mouth at the guide portion 222 to guide the first connector 41 to be pressed into the clamping space. The support portion 221 is elastically deformed during the pressing of the first tab 41, and when the first tab 41 abuts against the base plate 13, the first tab 41 is defined between the support portion 221 of the first elastic sheet 22 and the support portion 221 of the second elastic sheet 23. Optionally, the first elastic piece 22 further includes a limiting portion 223 bent and disposed on the supporting portion 221, and the limiting portion 223 is used for limiting the first joint 41. The width dimension of the position of the limiting part 223 is smaller than that of the position of the supporting part 221, so that the first joint 41 is prevented from disengaging, and the locking effect is good.

The first elastic piece 22 and the second elastic piece 23 hold the first connector 41 and also guide the extending direction of the cable main body 43 connected to the first connector 41. In an embodiment, the first clamping set 20 further includes a first guiding piece 24 and a second guiding piece 25, and the first guiding piece 24 and the second guiding piece 25 are clamped to the cable main body 43 to guide the extending direction of the cable main body 43.

Optionally, the first guide piece 24 and the second guide piece 25 are oppositely arranged and located in the extending direction of the clamping space formed by the first elastic piece 22 and the second elastic piece 23, and the clamping reliability is high. Alternatively, the first guide piece 24 and the second guide piece 25 are arranged in a staggered manner and alternately clamped on two opposite sides of the cable main body 43, so that the guide range is wide. A portion of the cable main body 43 connected to the first contact 41 is sandwiched and defined by the first and second guide pieces 24 and 25 to guide the extending direction of the cable main body 43.

In an embodiment, when two or more pairs of the first clamping group 20 and the second clamping group 30 are disposed in the same clamping area, the first clamping group 20 further includes a third guiding piece 26, and the third guiding piece 26 of the first clamping group 20 is used to guide the cable main body 43 of the communication cable 40 clamped by the second clamping group 20, so as to prevent the two communication cables 40 from being folded or overlapped.

Similarly, the second clamping set 30 is defined in a similar manner as the first clamping set 20, and can clamp the cable main body 43 and/or the second connector 42 through two elastic ribs to define the assembling position of the communication cable 40, so that the packaging efficiency is high.

As shown in fig. 2 and 3, the first clamping group 20 is clamped to the first contact 41 and guides the extending direction of the cable main body 43 connected to the first contact 41, and accordingly, the first clamping group 20 has a clamping space for clamping the communication cable 40. The communication cable 40 is held by the first clamping group 20. accordingly, the first clamping group 20 has a center line of a holding space for holding the communication cable 40, which is parallel to or coincides with the center line of the cable main body 43 within this range. Likewise, the second clamping group 30 has a clamping space centerline for clamping the communication cable 40 that is parallel to or coincides with the centerline of the cable body 43 within this range. Alternatively, the clamping space centerlines of the first clamping group 20 are parallel with respect to the second clamping group 30 to be in the same line or different parallel planes.

In another embodiment, the clamping space centerline of the first clamping group 20 is inclined with respect to the clamping space centerline of the second clamping group 30 to guide the bending direction of the cable main body 43. The center line of the clamping space of the first clamping group 20 is inclined relative to the center line of the clamping space of the second clamping group 30, so that the communication cable 40 is in a bent structure, the width size of the feeding template is reduced, and the space utilization rate is improved. Optionally, an inclination angle between the center line of the clamping space of the first clamping set 20 and the center line of the clamping space of the second clamping set 30 is set as a, where a is less than or equal to 120 degrees. For example, the inclination angle between the center line of the clamping space of the first clamp group 20 and the center line of the clamping space of the second clamp group 30 is set to 45 degrees, 60 degrees, 90 degrees, 120 degrees, or the like. The center line of the clamping space of the first clamping set 20 and the center line of the clamping space of the second clamping set 30 are obliquely crossed, so that the communication cable 40 can be guided to be naturally bent, and the packaging effect is good. The smaller the inclination angle a, the smaller the width of the template body 10 and the longer the length of the communication cable 40 of the same length.

In an alternative embodiment, the first clamping set 20 and the second clamping set 30 are symmetrically distributed on the formwork main body 10. Correspondingly, the communication cable 40 is symmetrically bent and assembled on the feeding template, and the stress balance is good. In another alternative embodiment, the first clamping set 20 and the second clamping set 30 are distributed on the formwork main body 10 in a staggered manner. Correspondingly, the communication cable 40 is assembled on the feeding template according to the corresponding bending angle, so that the device is suitable for different grabbing angles, and the extraction effect is good. When the first clamping group 20 and the second clamping group 30 are distributed in a staggered manner, that is, the template main body 10 is in a long-strip structure, the first clamping group 20 and the second clamping group 30 are not in the same straight line in the length direction or the width direction, so that a staggered layout is formed.

The present disclosure is to be considered as limited only by the preferred embodiments and not limited to the specific embodiments described herein, and all changes, equivalents, and modifications that come within the spirit and scope of the disclosure are desired to be protected.

Claims (10)

1. A feeding template is used for fixing communication cables, each communication cable comprises a cable body, a first joint and a second joint, the first joint and the second joint are fixedly arranged on the cable body, and the feeding template is characterized by comprising a template body, at least one pair of first clamping groups and second clamping groups, the first clamping groups and the second clamping groups are arranged on the template body in a protruding mode at intervals, the first clamping groups are elastically clamped on the first joints, and the second clamping groups are elastically clamped on the second joints, so that the communication cables are packaged on the feeding template in a corresponding arrangement mode.

2. The feeding template according to claim 1, wherein when the template body is provided with two or more pairs of first clamping groups and second clamping groups, the first clamping groups of two adjacent pairs are distributed in parallel, and the second clamping groups of two adjacent pairs are distributed in parallel.

3. The loading template of claim 1, wherein the template body comprises a base plate, and the at least one pair of first and second clamping groups are removably coupled to the base plate; or, the at least one pair of first clamping group and second clamping group and the substrate are integrally formed.

4. The loading template according to claim 3, wherein the template body further comprises separation lines distributed at intervals on the substrate, the separation lines divide the substrate into at least two clamping areas, and each clamping area is provided with at least one pair of the first clamping group and the second clamping group.

5. The loading template of claim 3, wherein the base plate is provided with at least one positioning hole, the positioning hole defining an assembly position of the template body.

6. The feeding template according to claim 1, wherein the first clamping set comprises an end blocking piece, a first elastic piece and a second elastic piece opposite to the first elastic piece, the end blocking piece is located in the extending direction of a clamping space formed by the first elastic piece and the second elastic piece, the end of the first joint abuts against the end blocking piece, and the first elastic piece and the second elastic piece are clamped at two sides of the first joint.

7. The loading template according to claim 6, wherein the first clamping group further comprises a first guide piece and a second guide piece, and the first guide piece and the second guide piece are clamped on the cable main body to guide the extending direction of the cable main body.

8. The loading template of claim 6, wherein a clamping space centerline of the first clamping group is inclined with respect to a clamping space centerline of the second clamping group to guide a bending direction of the cable body.

9. The feeding template as claimed in claim 8, wherein the inclination angle of the centre line of the clamping space of the first clamping group and the centre line of the clamping space of the second clamping group is a, wherein a is less than or equal to 120 degrees.

10. The loading template according to claim 1, wherein the first clamping set and the second clamping set are symmetrically distributed on the template main body; or the first clamping group and the second clamping group are distributed on the template main body in a staggered manner.

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