CN219107840U - Get cap tool, get cap equipment and wearable equipment's circuit board - Google Patents

Abstract

The utility model relates to a get cap tool, get cap equipment and wearable equipment's circuit board, wherein, get the cap tool and be used for taking out the supplementary suction cap of dress component, supplementary suction cap is including continuous suction portion and holding portion, and the holding portion is used for holding dress component, gets the cap tool and includes the body and gets the cap structure, gets the cap structure setting in the body, gets the cap structure and is configured to be used for with suction portion cooperation and in getting cap direction to the suction portion spacing. Get cap tool and take off supplementary suction cap along getting cap direction motion time can be relaxed fast, make and get cap process more convenient high-efficient, can effectively improve and get cap work efficiency.

Description

Get cap tool, get cap equipment and wearable equipment's circuit board

Technical Field

The disclosure relates to the field of device patches, in particular to a cap taking jig, cap taking equipment and a circuit board of wearable equipment.

Background

More and more mounting elements are subjected to mounting welding in a surface mounting mode, and because part of special-shaped mounting elements do not have a suction surface of a suction nozzle of a chip mounter, an auxiliary suction cap is required to be added outside the special-shaped mounting elements to help the suction nozzle of the chip mounter to suck, and the auxiliary suction cap is removed after mounting is completed. At present, the efficiency of removing the auxiliary suction cap is lower, and the production efficiency is influenced.

Disclosure of Invention

In order to overcome the problems in the related art, the present disclosure provides a cap taking jig, a cap taking device and a circuit board of a wearable device.

The present disclosure provides a get cap tool for take out the supplementary cap that absorbs of mounting component, supplementary cap that absorbs includes continuous absorption portion and accommodation portion, the accommodation portion is used for the accommodation mounting component, it includes to get cap tool:

a body;

get cap structure, set up in the body, get cap structure configuration be used for with the cooperation of suction portion and in getting the cap direction to the suction portion is spacing.

In some embodiments of the disclosure, the cap taking structure includes a cap taking hole disposed on the body, the cap taking hole includes a via hole portion and a limiting hole portion, the via hole portion is used for the suction portion and part of the accommodating portion to pass through, and the limiting hole portion is used for the accommodating portion to pass through the via hole portion and limit the suction portion in the cap taking direction.

In some embodiments of the present disclosure, the via portion is a circular hole, the limiting hole portion is a waist-shaped hole, and the circular hole and the waist-shaped hole are partially overlapped;

the diameter of the round hole is larger than that of the suction part, and the width of the waist-shaped hole is larger than that of the accommodating part and smaller than that of the suction part.

In some embodiments of the disclosure, the cap taking structure includes a plurality of cap taking holes, and the arrangement directions of the via hole portions and the limiting hole portions of the plurality of cap taking holes are the same.

In some embodiments of the present disclosure, the body includes a plurality of cap removal areas, each of the cap removal areas being provided with the cap removal structure.

In some embodiments of the disclosure, the plurality of cap taking areas are arranged on the body in an array.

In some embodiments of the present disclosure, the number of cap access holes in each of the cap access regions is different; and/or the number of the groups of groups,

the arrangement modes of the cap taking holes in the cap taking areas are different.

In some embodiments of the disclosure, the cap-removing jig includes a hand-held portion disposed on the body; and/or the number of the groups of groups,

the cap taking jig comprises a matching part arranged on the body, and the matching part is used for being matched with the driving device.

The disclosure also provides a cap taking device, which comprises the cap taking jig as described above, and further comprises a driving device, wherein the driving device is used for driving the cap taking jig to move along the cap taking direction.

In some embodiments of the disclosure, the auxiliary suction cap and the mounting component are fixed to a circuit substrate to be processed, and are used for fixing the relative positions of the mounting component and the circuit substrate in a reflow soldering process.

In some embodiments of the present disclosure, the cap removing apparatus further includes a visual positioning device for detecting whether the mounting element is positioned to a target position.

The disclosure also provides a circuit board of a wearable device, which performs welding of at least part of the mounted elements through the cap taking device.

The technical scheme provided by the embodiment of the disclosure can comprise the following beneficial effects: get cap structure of cap tool and can cooperate and carry out spacingly to the suction portion of supplementary suction cap with the suction portion of supplementary suction cap, can easily take off supplementary suction cap fast when getting cap tool along getting cap direction motion, make and get cap process more convenient high efficiency, can effectively improve and get cap work efficiency.

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

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the utility model and together with the description, serve to explain the principles of the utility model.

FIG. 1 is a schematic view of a mounting element with an auxiliary suction cap added;

FIG. 2 is a schematic diagram of a cap extraction jig according to an example embodiment;

FIG. 3 is a schematic diagram of a cap removal structure according to an exemplary embodiment;

fig. 4 is a schematic structural view of a via portion shown according to an exemplary embodiment;

fig. 5 is a side view of a cap extraction device according to an exemplary embodiment.

In the figure:

100. mounting elements; 200. an auxiliary suction cap; 210. an accommodating portion; 220. a suction part; 300. taking a cap jig; 310. a body; 320. taking a cap structure; 321. taking a cap hole; 3211. a via portion; 3212. a limiting hole part; 330. taking a cap area; 340. a hand-held part; 350. a mating portion; 400. a driving device.

Detailed Description

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

In the related art, more and more mounting components are subjected to mounting welding in a surface mounting mode, and as part of special-shaped mounting components do not have a suction surface of a suction nozzle of a chip mounter, an auxiliary suction cap is additionally arranged on the outer side of the special-shaped mounting components to assist the suction nozzle of the chip mounter in suction. A schematic diagram of a mounting component structure with an auxiliary suction cap added is shown in fig. 1, and the auxiliary suction cap 200 needs to be removed after the mounting soldering is completed. At present, a manual cap taking mode or a mechanical cap taking mode is generally adopted, but the problem of low working efficiency exists in both manual cap taking mode and mechanical cap taking mode.

In order to solve the technical problem, the present disclosure provides a get cap tool, will get the cap structure of cap tool and the cooperation of the suction portion of supplementary suction cap set up to it is spacing to the suction portion, can easily take off supplementary suction cap fast when getting cap tool along getting cap direction motion, make get cap process more convenient high-efficient, can effectively improve and get cap work efficiency.

An exemplary embodiment of the present disclosure provides a cap taking jig, as shown in fig. 1 and 2, the cap taking jig 300 is used for taking out an auxiliary suction cap 200 of a mounting component 100, the auxiliary suction cap 200 includes a suction portion 220 and a receiving portion 210 connected to each other, the receiving portion 210 is used for receiving the mounting component 100, and the cap taking jig 300 includes: the body 310 and get cap structure 320, get cap structure 320 and set up in body 310, get cap structure 320 and be configured to be used for with the cooperation of suction portion 220 and to get the cap direction to spacing of suction portion 220. Illustratively, the body 310 of the cap taking jig 300 is in a plate-shaped structure, and the body 310 of the cap taking jig 300 includes a first surface (e.g., an upper surface of the cap taking jig 300 shown in fig. 5), a second surface (e.g., a lower surface of the cap taking jig 300 shown in fig. 5) and a side surface connecting the first surface and the second surface, wherein the first surface and the second surface are two surfaces with larger areas in the plate-shaped structure, and the side surface is a surface with narrower edges of the plate-shaped structure. It will be appreciated that the plate-like structures described herein may be flat plates, or may be other plate-like structures such as curved plates, wave plates, etc., as the disclosure is not limited in this regard. In addition, the plate-shaped structure is easier to manufacture, thereby reducing the production cost of the cap taking jig 300.

In this embodiment, as shown in fig. 2, by designing the cap taking structure 320 of the cap taking jig 300, the cap taking structure 320 is matched with the suction portion 220 of the auxiliary suction cap 200 and limits the suction portion 220 in the cap taking direction, that is, the suction portion 220 of the auxiliary suction cap 200 is fixed in the cap taking structure 320 so as not to move outside the cap taking structure 320, and the auxiliary suction cap 200 can move along with the cap taking structure 320 in the cap taking direction. The auxiliary suction cap 200 can be easily removed from the mounting component 100 by applying a pulling force in the cap-removing direction to the cap-removing structure 320, for example, applying a pulling force in the axial direction of the auxiliary suction cap 200, which is simple to operate and can effectively improve the cap-removing efficiency.

The cap-taking structure 320 may be any structure that can be engaged with the suction part 220 of the auxiliary suction cap 200 and limit the suction part 220 in the cap-taking direction, and in some embodiments, as shown in fig. 2, the cap-taking structure 320 may be a hole-like structure, for example, the hole-like structure may be an elongated hole-like structure with a diameter from large to small, and the suction part 220 of the auxiliary suction cap 200 may be inserted from a large diameter area of the hole-like structure, and move to a small diameter area in the direction of the hole-like structure, where the small diameter area can limit the suction part 220 in the cap-taking direction. In other embodiments, the cap-taking structure 320 may be a clip-shaped structure, for example, as shown in fig. 3, the clip-shaped structure has a gap length larger than the diameter of the accommodating portion 210 of the auxiliary suction cap 200 and smaller than the diameter of the suction portion 220 of the auxiliary suction cap 200, so as to limit the suction portion 220 in the cap-taking direction. The cap taking structure 320 may be disposed on the first surface or the second surface of the body 310, which is not limited in this disclosure.

In an embodiment, as shown in fig. 2 and 4, the cap taking structure 320 of the cap taking jig 300 includes a cap taking hole 321 disposed on the body 310, the cap taking hole 321 includes a via hole portion 3211 and a limiting hole portion 3212, the via hole portion 3211 is used for allowing the suction portion 220 and a part of the accommodating portion 210 to pass through, and the limiting hole portion 3212 is used for allowing the accommodating portion 210 to pass through the hole portion 3211 and limiting the suction portion 220 in the cap taking direction. The shape of the via 3211 may be circular, rectangular, or the like, so that the suction portion 220 and a part of the receiving portion 210 of the auxiliary suction cap 200 smoothly pass through. The limiting hole portion 3212 may be rectangular, arc-shaped, strip-shaped, etc., and the auxiliary suction cap 200 is moved to the position of the limiting hole portion 3212, and since the limiting hole portion 3212 only allows the receiving portion 210 of the auxiliary suction cap 200 to pass and the suction portion 220 of the auxiliary suction cap 200 cannot pass, the limitation of the suction portion 220 is achieved, and therefore, a force is applied in the cap-taking direction (i.e., the direction perpendicular to the cap-taking jig 300), so that the auxiliary suction cap 200 can be easily taken down.

Illustratively, the via portion 3211 of the cap-taking jig 300 is a circular hole, the limiting hole portion 3212 is a waist-shaped hole, and the circular hole and the waist-shaped hole partially overlap as shown in fig. 2 and 4. The diameter of the circular hole is larger than the diameter of the suction part 220, and the width of the waist-shaped hole is larger than the diameter of the receiving part 210 and smaller than the diameter of the suction part 220. The suction part 220 of the auxiliary suction cap 200 moves along the waist-shaped hole after passing through the round hole, and since the width of the waist-shaped hole is smaller than the diameter of the suction part 220, after a pulling force is applied in the direction perpendicular to the cap-taking jig 300, the suction part 220 of the auxiliary suction cap 200 receives the pulling force from the limit hole part 3212 of the cap-taking jig 300, so that the auxiliary suction cap 200 can be easily taken down.

In an embodiment, as shown in fig. 2 and 4, the cap taking structure 320 of the cap taking jig 300 includes a plurality of cap taking holes 321, and the arrangement directions of the via hole portions 3211 and the limiting hole portions 3212 of the plurality of cap taking holes 321 are the same. In general, the mounting component 100 has a plurality of auxiliary suction caps 200 to be picked up, so a plurality of cap picking holes 321 can be provided on the cap picking structure 320 of the cap picking jig 300, the positions of the plurality of cap picking holes 321 are in one-to-one correspondence with the positions of the plurality of auxiliary suction caps 200 to be picked up on the mounting component 100, and the arrangement directions of the via hole portions 3211 and the limiting hole portions 3212 of the plurality of cap picking holes 321 are the same, so the suction portions 220 of the plurality of auxiliary suction caps 200 can be moved through the via hole portions 3211 of the plurality of cap picking holes 321 at one time and then moved along the direction of the limiting hole portions 3212, and a pulling force of the vertical cap picking structure 320 is applied, so that all the auxiliary suction caps 200 in the whole electronic period can be picked up at one time, thereby greatly improving the working efficiency of cap picking.

In one embodiment, as shown in fig. 2, the body 310 of the cap removing jig 300 includes a plurality of cap removing areas 330, and each cap removing area 330 is provided with a cap removing structure 320. Since the mounting arrangements of the mounting elements 100 on each type of circuit board are different, different cap-taking jigs 300 should be selected when the cap-taking work is performed on the mounting elements 100 on different types of circuit boards. Illustratively, the cap removing jig 300 may be divided into a plurality of areas, for example, the cap removing jig 300 is divided into four cap removing areas 330 (the number of the divided cap removing areas 330 is not limited in the disclosure), one cap removing area 330 corresponds to one type of circuit board, and the cap removing structures 320 on the cap removing area 330 are correspondingly arranged according to the arrangement of the mounting elements 100 on the circuit board of the type. And so on, each cap-taking region 330 corresponds to a different kind of circuit board. Therefore, cap taking work can be performed on the mounting elements 100 on a plurality of different types of circuit boards at the same time, and the working efficiency is greatly improved.

Illustratively, the cap taking jig 300 may be unevenly divided into a plurality of cap taking areas 330 (the number of the cap taking areas 330 divided is not limited in the disclosure), each cap taking area 330 may correspond to different kinds of circuit boards, the area of each cap taking area 330 may be divided according to the corresponding mounting component 100, and at the same time, the cap taking structures 320 corresponding to the mounting components 100 are provided in each cap taking area 330, so that cap taking operations may be performed on a plurality of different mounting components 100 at one time, and the cap taking efficiency is greatly improved.

In one embodiment, as shown in fig. 2, the cap taking areas 330 of the cap taking jig 300 are arranged on the body 310 in an array. The plurality of cap taking areas 330 are located on the same plane and are arranged in an array, and illustratively, the plurality of cap taking areas 330 are arranged in a row on the cap taking jig 300, or the plurality of cap taking areas 330 are arranged in a line, or the plurality of cap taking areas 330 are arranged in a plurality of rows and a plurality of columns, so that the cap taking jig 300 is simpler and more convenient to manufacture. In addition, the circuit board on which the mounting element 100 is arranged in an array is more convenient, which is beneficial to simplifying the working steps of the cap taking process, thereby improving the cap taking working efficiency.

In an embodiment, the number of cap taking holes 321 in the cap taking region 330 of the cap taking jig 300 may be the same. The plurality of cap taking areas 330 of the cap taking jig 300 correspond to the same type of mounting component 100, and at this time, the number of cap taking holes 321 of each cap taking area 330 is the same, so that the cap taking jig 300 is simpler and more convenient to manufacture, and the plurality of same mounting components 100 can be simultaneously taken out when the cap taking jig 300 is used, thereby being beneficial to improving the working efficiency of the cap taking process.

In another embodiment, the number of cap removing holes 321 in the cap removing region 330 of the cap removing jig 300 may be different. The plurality of cap taking areas 330 of the cap taking jig 300 correspond to different types of mounting elements 100, at this time, the number of cap taking holes 321 of each cap taking area 330 is different, and the number of cap taking holes 321 is designed according to the needs of the different types of mounting elements 100, so that the number of cap taking holes 321 is consistent with the number of auxiliary suction caps 200 of the corresponding mounting elements 100, and when the cap taking jig 300 is used, the cap taking work can be performed on the plurality of different mounting elements 100 at the same time, thereby being beneficial to improving the working efficiency of the cap taking process.

In one embodiment, the cap taking holes 321 in each cap taking region 330 are arranged in the same way. For example, each cap taking area 330 may correspond to the same type of mounting element 100, and the arrangement of the cap taking holes 321 is correspondingly designed according to the arrangement of the auxiliary suction caps 200 of the type of mounting element 100, so that the positions of the auxiliary suction caps 200 of the mounting element 100 and the positions of the cap taking holes 321 on the cap taking structure 320 of the cap taking area 330 are in one-to-one correspondence, and thus, the cap taking jig 300 can perform cap taking operation on a plurality of mounting elements 100 of the same type at one time, and the cap taking efficiency is greatly improved.

In another embodiment, the cap taking holes 321 in the cap taking areas 330 are arranged differently. Illustratively, each cap taking area 330 corresponds to one type of mounting element 100, and the arrangement of the cap taking holes 321 on the cap taking structure 320 of each cap taking area 330 is correspondingly designed according to the positions of the auxiliary suction caps 200 of different mounting elements 100, so that the positions of the auxiliary suction caps 200 of the mounting elements 100 and the positions of the cap taking holes 321 on the cap taking structure 320 of the cap taking area 330 are in one-to-one correspondence, and thus, the cap taking jig 300 can perform cap taking work on a plurality of different types of mounting elements 100 at one time, and the cap taking work efficiency is greatly improved.

An exemplary embodiment of the present disclosure provides a cap removing jig, as shown in fig. 2, the cap removing jig 300 includes a hand-holding portion 340 disposed on a body 310. The suction part 220 and part of the accommodating part 210 of the auxiliary suction cap 200 on the mounting component 100 pass through the through hole part 3211 of the cap taking hole 321 and then move to the limit hole part 3212, and the worker holds the hand-held part 340 arranged on the body 310 by two hands and applies a pulling force along the direction perpendicular to the cap taking jig 300, and the cap taking jig 300 takes out the auxiliary suction cap 200 on the mounting component 100. Illustratively, the hand-holding portion 340 may be two handles or two holes, and the shape of the handles or the holes may be rectangular, elliptical, etc., and the shape of the hand-holding portion 340 is not limited in this disclosure, and the hand-holding portion 340 is symmetrically disposed at two sides of the cap-taking structure 320. The hand-held part 340 is arranged to enable the cap taking process to be easier to operate, and the working efficiency of the cap taking process is greatly improved.

The manual cap taking method also has the problem that the auxiliary suction cap 200 is unevenly stressed to cause the detachment of parts, the breakage of the auxiliary suction cap 200, and the like, so as shown in fig. 2 and 5, in an exemplary embodiment of the present disclosure, a cap taking jig is provided, which includes a fitting portion 350 disposed on the body 310, where the fitting portion 350 is used to be fitted with the driving device 400 (which will be described later). The mating portion 350 may be configured as a hole-like structure or a convex-shaped hole member to facilitate mating connection with the driving device 400. The number of the engaging portions 350 may be one or more, and may be specifically set according to the requirement of the driving apparatus 400. The matching portion 350 may be disposed on the first surface or the second surface of the body 310 of the cap removing jig 300, and the driving device 400 and the matching portion 350 are disposed in the same direction.

The present disclosure further provides a cap taking apparatus, as shown in fig. 2 and 5, where the cap taking apparatus includes a cap taking jig 300, and further includes a driving device 400, where the driving device 400 is used to drive the cap taking jig 300 to move along a cap taking direction. The cap taking jig 300 is used for being matched with the auxiliary sucking caps 200 of the mounting elements 100, the auxiliary sucking caps 200 are limited, after the driving device 400 is started, the cap taking jig 300 moves along the cap taking direction, namely, moves in the direction perpendicular to the cap taking jig 300, the auxiliary sucking caps 200 on all the mounting elements 100 on the circuit board are taken down at one time, the running speed of the driving device 400 can be adjusted, and the improvement of the working efficiency of the cap taking process is facilitated.

In this embodiment, the auxiliary suction caps 200 and the mounting device 100 are fixed on the circuit substrate to be processed, and are used for fixing the relative positions of the mounting device 100 and the circuit substrate during reflow soldering, so as to ensure the position accuracy of the mounting device 100 on the circuit substrate, and after soldering is completed, each auxiliary suction cap 200 can be conveniently and rapidly removed from the mounting device 100 by the cap removing device.

For example, the driving device 400 may be a linear motor, wherein a motor shaft of the linear motor is connected to the matching portion 350, and an axis of the motor shaft is perpendicular to the cap taking jig 300, so as to apply a tensile force to the body 310 of the cap taking jig 300 in a direction perpendicular to the body 310, thereby removing the auxiliary suction cap 200 from the limiting hole portion 3212. The linear motor is simple in structure and beneficial to the operation of workers, the linear motor performs linear motion, the force applied to the body 310 of the cap taking jig 300 can be ensured to be perpendicular to the body 310 of the cap taking jig 300, so that the problems that the mounting element 100 is damaged or the cap 200 is broken due to the uneven stress of the cap 200 is assisted to be absorbed are avoided, the scrappage of products is reduced, the production quality is ensured, the linear motor is low in cost and the production cost is saved.

The driving device 400 may be an air cylinder, which performs a reciprocating linear motion, is connected to the matching portion 350 and is perpendicular to the cap taking jig 300, and is used for applying a tensile force to the body 310 of the cap taking jig 300 in a direction perpendicular to the body 310, so as to take down the auxiliary suction cap 200 on the limiting hole portion 3212. The cylinder is in reciprocating linear motion, so that the force applied to the body 310 of the cap taking jig 300 is perpendicular to the body 310 of the cap taking jig 300, the problem that the mounting element 100 is damaged or the auxiliary suction cap 200 is broken due to uneven stress of the auxiliary suction cap 200 is avoided, the scrapping amount of products is reduced, the production quality is guaranteed, the cost of the cylinder is low, the production cost is saved, the cylinder is far away, the structure is simple, the operation of workers is facilitated, the cylinder is easy to install and maintain, and the service life of the cap taking jig 300 can be effectively prolonged.

In an embodiment, the cap taking device further includes a visual positioning device (not shown in the figure), where the visual positioning device is used for detecting whether the mounted element is positioned to a target position, that is, a welding position of the mounted element on the circuit board, and the accuracy of the position of the mounted element on the circuit board is further improved by the visual positioning device, and the positioning efficiency of the mounted element is improved. The visual positioning device may be, for example, an optical positioning device, an image recognition device, or the like.

In an embodiment, the body 310 of the cap taking jig 300 has a plate-shaped structure, and the axis of the driving shaft of the driving device 400 is perpendicular to the body 310. The driving device 400 moves linearly along the driving shaft, and the driving device 400 applies a pulling force in the vertical direction to the cap taking jig 300, so that the problem that the mounting element 100 is damaged or the auxiliary suction cap 200 is broken due to uneven stress of the auxiliary suction cap 200 is effectively avoided.

In an embodiment, the cap taking device further includes a positioning portion (not shown in the figure) for positioning the circuit board where the mounting component 100 is located, and the positioning portion may be configured as a positioning spring piece, a positioning notch, or the like, for example. One or more positioning parts can be arranged, and the specific number of the positioning parts can be correspondingly arranged according to the cap taking areas 330 divided by the cap taking equipment. The positioning parts may be arranged at four ends of the cap taking area 330 or at the midpoints of four sides of the cap taking area 330. The positioning part can fix the circuit board where the mounting element 100 is located on a horizontal plane, if the cap taking work is performed on the mounting elements 100 on the plurality of circuit boards at the same time, the plurality of circuit boards are fixed on the same horizontal plane according to the positions corresponding to the cap taking structure 320 of the cap taking device, so as to realize accurate and reliable positioning of the circuit board where the mounting element 100 is located. When the cap taking device is used for taking the cap from the mounting element 100 on the circuit board, the auxiliary suction cap 200 of the mounting element 100 on the circuit board can be easily and quickly taken down, and the working efficiency of the cap taking process is improved.

An exemplary embodiment of the present disclosure provides a circuit board of a wearable device, where the circuit board includes a circuit substrate and a mounting element disposed on the circuit substrate, and the circuit board may perform welding of at least part of the mounting element through the cap taking device, so that the assembly efficiency of the circuit board may be improved, and further the production efficiency of the wearable device may be improved.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It is to be understood that the utility model is not limited to the precise arrangements and instrumentalities shown in the drawings, which have been described above, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the utility model is limited only by the appended claims.

Claims (12)

1. The utility model provides a get cap tool for take out the supplementary cap of absorbing of mounting component, supplementary cap of absorbing includes continuous absorption portion and accommodation portion, accommodation portion is used for the accommodation mounting component, its characterized in that, get cap tool includes:

a body;

get cap structure, set up in the body, get cap structure configuration be used for with the cooperation of suction portion and in getting the cap direction to the suction portion is spacing.

2. The cap taking jig according to claim 1, wherein the cap taking structure comprises a cap taking hole arranged on the body, the cap taking hole comprises a via hole part and a limiting hole part, the via hole part is used for allowing the suction part and part of the accommodating part to pass through, and the limiting hole part is used for allowing the accommodating part to pass through the via hole part and limiting the suction part in the cap taking direction.

3. The cap removal jig according to claim 2, wherein the via hole portion is a circular hole, the limit hole portion is a waist-shaped hole, and the circular hole and the waist-shaped hole are partially overlapped;

the diameter of the round hole is larger than that of the suction part, and the width of the waist-shaped hole is larger than that of the accommodating part and smaller than that of the suction part.

4. The cap taking jig according to claim 2, wherein the cap taking structure includes a plurality of the cap taking holes, and the arrangement directions of the via hole portions and the limit hole portions of the plurality of cap taking holes are the same.

5. The cap extraction jig according to any one of claims 1 to 4, wherein the body comprises a plurality of cap extraction areas, each of the cap extraction areas being provided with the cap extraction structure.

6. The cap removal jig of claim 5, wherein a plurality of cap removal areas are arranged on the body in an array.

7. The cap extraction jig of claim 6, wherein the number of cap extraction holes in each cap extraction region is different; and/or the number of the groups of groups,

the arrangement modes of the cap taking holes in the cap taking areas are different.

8. The cap extraction jig according to any one of claims 1 to 4, wherein the cap extraction jig comprises a hand-held portion provided on the body; and/or the number of the groups of groups,

the cap taking jig comprises a matching part arranged on the body, and the matching part is used for being matched with the driving device.

9. A cap removing apparatus, characterized in that the cap removing apparatus comprises the cap removing jig according to any one of claims 1 to 8, and further comprises a driving device for driving the cap removing jig to move in the cap removing direction.

10. The cap removing apparatus according to claim 9, wherein the auxiliary suction cap and the mounting component are fixed to a circuit substrate to be processed for fixing relative positions of the mounting component and the circuit substrate during reflow soldering.

11. The cap removing apparatus according to claim 9, further comprising visual positioning means for detecting whether the mounting member is positioned to a target position.

12. Circuit board of a wearable device, characterized in that it is soldered to at least part of a mounted component by means of a cap-removing device according to any of claims 9 to 11.

Images