CN221008931U - Bottom plate structure of optical coupler bracket - Google Patents

Abstract

The utility model relates to the technical field of optocoupler supports, in particular to an optocoupler support bottom plate structure; the third positioning component is arranged on the base component and can slide in the left-right and front-back directions, on one hand, the first positioning component matched with the left-right sliding can correspondingly adjust according to the left-right width of the optocoupler support, and on the other hand, the second positioning component matched with the front-back sliding can move according to the front-back length of the optocoupler support, so that the device can be used after adjustment according to different dimensions of the optocoupler support, the first fixing component used for driving the first positioning column and the third positioning column to move, and the second fixing component used for driving the second positioning column and the third positioning column to move can rapidly adjust and fix the positions of the first positioning column, the second positioning column and the third positioning column; the problems that the size and the specification of the bottom plate of the optical coupler in the prior art are more, the manufacturing cost is increased, the management is inconvenient, and the time is wasted during wire replacement are solved.

Description

Bottom plate structure of optical coupler bracket

Technical Field

The utility model relates to the technical field of optocoupler supports, in particular to an optocoupler support bottom plate structure.

Background

In the optocoupler processing industry, the most important thing in the optocoupler packaging process is that the optocoupler support is generally rectangular in shape, and when the optocoupler support is used, a matched bottom plate is generally required to position and support the optocoupler support, so that a mechanical arm on the die bonder can conveniently position and take elements on the optocoupler support.

At present, a support bottom plate of an optical coupler support for a die bonder is generally manufactured according to the size of the optical coupler support so as to ensure the positioning effect of the optical coupler support, but different optical coupler supports may have different length and width sizes, so that a set of bottom plate is required to be customized for each support for a plurality of optical coupler supports with different specifications, and the following problems exist: on the one hand, the optical coupler support base plates with various specifications are increased in a large amount of stock and are unfavorable for the management of the jig, and meanwhile, the manufacturing cost of the jig is increased in a large amount.

Disclosure of utility model

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides an optical coupler bracket bottom plate structure, which solves the problems that the optical coupler bottom plate in the prior art has more dimension specifications, the manufacturing cost is increased, the management is inconvenient, and the time is wasted during wire replacement.

Technical proposal

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The base component is used as an installation carrier, a positioning mechanism used for positioning the optical coupler support is adjustably installed on the base component, and a fixing mechanism used for fixing the positioning mechanism is further arranged on the base component.

The positioning mechanism comprises a first positioning assembly which is arranged on the base assembly in a left-right sliding manner, a second positioning assembly which is arranged on the base assembly in a front-back sliding manner, a third positioning assembly which can slide left and right and front and back is further arranged on the base assembly, and a position connecting line of the first positioning assembly and the third positioning assembly is crossed with a position connecting line of the third positioning assembly and the second positioning assembly.

Preferably, the base assembly comprises a detachable base body, and three sliding grooves for sliding the first positioning assembly, the second positioning assembly and the third positioning assembly are formed in the base body.

Preferably, the first positioning component comprises a first sliding block which is arranged in one sliding groove in a left-right sliding manner, and a first positioning column for positioning the optocoupler support is arranged at the top of the first sliding block.

Preferably, the second positioning assembly comprises a second sliding block which is arranged in one sliding groove in a sliding way back and forth manner, and a second positioning column for positioning the optocoupler bracket is fixed at the top of the second sliding block.

Preferably, the third positioning component comprises a third sliding block which is arranged in one sliding groove in a front-back sliding mode, a sliding seat is arranged on the third sliding block in a left-right sliding mode, and a third positioning column is fixed at the top of the sliding seat.

Preferably, the fixing mechanism comprises a first fixing assembly for limiting the positions of the first sliding block and the sliding seat, and further comprises a second fixing assembly for limiting the positions of the second sliding block and the third sliding block, the first fixing assembly comprises a limiting plate which is arranged in the base assembly in a left-right sliding mode, two ends of the limiting plate are respectively fixed with two driving plates for driving the first sliding block and the sliding seat to move left and right, and a first threaded rod for driving the limiting plate to slide left and right is rotatably arranged on the base assembly.

Preferably, the second positioning assembly comprises a connecting block which is slidably arranged in the base assembly and used for driving the second sliding block and the third sliding block to slide back and forth, and a second threaded rod which is rotatably arranged in the base assembly and used for driving the connecting block to slide back and forth is rotatably arranged in the base assembly.

Advantageous effects

Compared with the prior art, the utility model provides an optical coupler bracket bottom plate structure, which comprises the following components

The beneficial effects are that:

1. The third locating component which is arranged on the base component and can slide in the left-right direction and the front-back direction can be correspondingly adjusted according to the left-right width of the optocoupler support by matching with the first locating component which slides in the left-right direction on one hand, and the second locating component which is arranged in the front-back direction by matching with the third locating component can be moved according to the front-back length of the optocoupler support on the other hand, so that the device can be used after adjustment according to different dimensions of the optocoupler support, the device is faster, a large amount of jig cost is saved, and meanwhile, the management is convenient.

2. The first fixing component is used for driving the first positioning column and the third positioning column to move, and the second fixing component is used for driving the second positioning column and the third positioning column to move, so that the positions of the first positioning column, the second positioning column and the third positioning column can be quickly and simultaneously adjusted, the first positioning column, the second positioning column and the third positioning column are fixed, and the second positioning column, the third positioning column and the second positioning column can be quickly adjusted when optical coupler supports of different sizes are processed.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a schematic view of a base assembly of the present utility model;

FIG. 3 is a schematic view of the positioning mechanism and the fixing mechanism of the present utility model.

In the figure: 1. a base assembly; 11. a base body; a. a chute; 2. a positioning mechanism; 21. a first positioning assembly; 211. a first slider; 212. a first positioning column; 22. a second positioning assembly; 221. a second slider; 222. a second positioning column; 23. a third positioning assembly; 231. a third slider; 232. a slide; 233. a third positioning column; 3. a fixing mechanism; 31. a first fixing assembly; 311. a limiting plate; 312. a driving plate; 313. a first threaded rod; 32. a second fixing assembly; 321. a connecting block; 322. and a second threaded rod.

Detailed Description

The following detailed description of embodiments of the present application will be given with reference to the accompanying drawings and examples, by which the implementation process of how the present application can be applied to solve the technical problems and achieve the technical effects can be fully understood and implemented.

Fig. 1-3 are diagrams showing an embodiment of the present utility model, which are improved on the existing base plate, so that the positioning part of the optocoupler bracket can be adjusted in a targeted manner according to the actual size of the optocoupler bracket, thereby meeting the use requirements of the optocoupler brackets with different sizes, greatly reducing the types of the base plate of the optocoupler bracket required, saving the inventory space and the cost of the jig, facilitating the management, and simultaneously saving the time required for replacing the jig when replacing and processing the optocoupler brackets with different sizes.

The utility model provides an optocoupler support bottom plate structure, including the base subassembly 1 as the installation carrier, be the optocoupler support bottom plate of prior art promptly, can set up the groove that is unanimous with optocoupler support size through at the surface and carry out spacingly to the optocoupler support, perhaps fix a plurality of spacing posts and carry out spacingly to convenient follow-up processing, the last positioning mechanism 2 that is used for fixing the optocoupler support of adjustable installing of base subassembly 1, still be equipped with the fixed establishment 3 that is used for fixing positioning mechanism 2 on the base subassembly 1, positioning mechanism 2 is an adjustable limit structure, consequently, adjust to the assigned position after, each part through fixed establishment 3 to positioning mechanism 2 is fixed, prevent that the part in the positioning mechanism 2 from taking place to remove and influence the spacing effect of optocoupler support in the use.

The positioning mechanism 2 comprises a first positioning component 21 which is arranged on the base component 1 in a sliding way left and right, and a second positioning component 22 which is arranged on the base component 1 in a sliding way back and forth, wherein a third positioning component 23 which can slide left and right and back is further arranged on the base component 1, the position connecting lines of the first positioning component 21 and the third positioning component 23 and the position connecting lines of the third positioning component 23 and the second positioning component 22 are arranged in a crossed way, simultaneously, the first positioning component 21, the second positioning component 22 and the third positioning component 23 are movably arranged, the first positioning component 21 and the third positioning component 23 move left and right through the first positioning component 21 and the third positioning component 23, the positions of the first positioning component 21 and the third positioning component 23 are adjusted according to the left and right width of the optocoupler bracket, the second positioning component 22 and the third positioning component 23 move back and forth through the second positioning component 23, the positions of the second positioning component 22 and the third positioning component 23 are adjusted according to the front and back length of the optocoupler bracket, the limit fixture of the optocoupler bracket with different sizes is realized through the structure, the position fixtures with different sizes are not needed, the optocoupler brackets with different sizes are convenient to be processed, and the manufacturing cost is saved, and the optocoupler brackets can be more convenient to manufacture and replaced.

As a preferred technical solution of this embodiment, the base assembly 1 includes a detachable base body 11, and three sliding grooves a for sliding the first positioning assembly 21, the second positioning assembly 22 and the third positioning assembly 23 are provided on the base body 11, so that the components on the first positioning assembly 21, the second positioning assembly 22 and the third positioning assembly 23 are more convenient when moving, and dislocation is avoided.

As a preferred technical solution of this embodiment, the first positioning component 21 includes a first slider 211 that is slidably disposed in one of the sliding grooves a, a first positioning column 212 for positioning the optocoupler support is mounted on top of the first slider 211, and positioning of a point of the optocoupler support is completed by matching the first positioning column 212 with a positioning hole on the optocoupler support.

As a preferred technical solution of this embodiment, the second positioning assembly 22 includes a second slider 221 slidably disposed in one of the sliding grooves a, a second positioning column 222 for positioning the optocoupler support is fixed on top of the second slider 221, and positioning of a second point of the optocoupler support is completed by matching the second positioning column 222 with a second positioning hole on the optocoupler support.

As a preferred technical solution of this embodiment, the third positioning component 23 includes a third slider 231 slidably disposed in one of the sliding grooves a, a slide base 232 is slidably mounted on the third slider 231, a third positioning column 233 is fixed on the top of the slide base 232, and the third positioning column 233 cooperates with a third positioning hole on the optocoupler bracket to complete positioning of a third point of the optocoupler bracket.

As a preferred solution of the present embodiment, the fixing mechanism 3 includes a first fixing component 31 for limiting the positions of the first slider 211 and the slider 232, and further includes a second fixing component 32 for limiting the positions of the second slider 221 and the third slider 231.

The first fixing assembly 31 comprises a limiting plate 311 which is installed in the base assembly 1 in a left-right sliding mode, two driving plates 312 which are used for driving the first sliding block 211 and the sliding seat 232 to move left and right are fixed at two ends of the limiting plate 311 respectively, a first threaded rod 313 which is used for driving the limiting plate 311 to slide left and right is installed on the base assembly 1 in a rotating mode, and the first sliding block 211 and the sliding seat 232 can be driven to slide left and right through the rotation of the first threaded rod 313 on the one hand through the limiting plate 311 and the driving plates 312, so that the first positioning column 212 and the third positioning column 233 can be driven to move left and right, the left width dimension of an optical coupler support is matched with the width dimension of the optical coupler support, and on the other hand, the fixing of the limiting plate 311 can be achieved through the third positioning column 233, and the fixing of the first positioning column 212 and the third positioning column 233 is finally achieved.

As a preferred technical solution of the present embodiment, the second positioning assembly 22 includes a connecting block 321 slidably mounted in the base assembly 1 for driving the second slider 221 and the third slider 231 to slide back and forth, a second threaded rod 322 for driving the connecting block 321 to slide back and forth is rotatably mounted in the base assembly 1, and similar to the effect of the first threaded rod 313, the second threaded rod 322 can also drive the third positioning post 233 and the second positioning post 222 to move through the back and forth movement of the connecting block 321, so that corresponding adjustment can be performed according to the back and forth length dimension of the optocoupler support.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. An optocoupler support chassis structure comprising a base assembly (1) as a mounting carrier, characterized in that: the base assembly (1) is adjustably provided with a positioning mechanism (2) for positioning the optocoupler bracket, and the base assembly (1) is also provided with a fixing mechanism (3) for fixing the positioning mechanism (2);

The positioning mechanism (2) comprises a first positioning assembly (21) which is arranged on the base assembly (1) in a left-right sliding manner, a second positioning assembly (22) which is arranged on the base assembly (1) in a front-back sliding manner, a third positioning assembly (23) which can slide left-right and front-back is further arranged on the base assembly (1), and position connecting lines of the first positioning assembly (21) and the third positioning assembly (23) are arranged in a crossed manner with position connecting lines of the third positioning assembly (23) and the second positioning assembly (22).

2. The optical coupler bracket bottom plate structure of claim 1, wherein: the base assembly (1) comprises a detachable base body (11), and three sliding grooves (a) used for sliding the first positioning assembly (21), the second positioning assembly (22) and the third positioning assembly (23) are formed in the base body (11).

3. The optocoupler support base plate structure of claim 2, wherein: the first positioning assembly (21) comprises a first sliding block (211) which is arranged in one sliding groove (a) in a left-right sliding mode, and a first positioning column (212) for positioning the optocoupler support is arranged at the top of the first sliding block (211).

4. An optocoupler support base plate structure according to claim 3, wherein: the second positioning assembly (22) comprises a second sliding block (221) which is arranged in one sliding groove (a) in a sliding mode in the front-back mode, and a second positioning column (222) used for positioning the optocoupler support is fixed at the top of the second sliding block (221).

5. The optical coupler bracket bottom plate structure of claim 4, wherein: the third positioning assembly (23) comprises a third sliding block (231) which is arranged in one sliding groove (a) in a front-back sliding mode, a sliding seat (232) is arranged on the third sliding block (231) in a left-right sliding mode, and a third positioning column (233) is fixed at the top of the sliding seat (232).

6. The optical coupler bracket bottom plate structure of claim 5, wherein: the fixing mechanism (3) comprises a first fixing component (31) for limiting the positions of the first sliding block (211) and the sliding seat (232), and a second fixing component (32) for limiting the positions of the second sliding block (221) and the third sliding block (231);

The first fixing assembly (31) comprises a limiting plate (311) which is installed in the base assembly (1) in a left-right sliding mode, two driving plates (312) which are used for driving the first sliding block (211) and the sliding seat (232) to move left and right respectively are fixed at two ends of the limiting plate (311), and a first threaded rod (313) which is used for driving the limiting plate (311) to slide left and right is installed on the base assembly (1) in a rotating mode.

7. The optocoupler support base plate structure of claim 6, wherein: the second positioning assembly (22) comprises a connecting block (321) which is slidably arranged in the base assembly (1) and used for driving the second sliding block (221) and the third sliding block (231) to slide back and forth, and a second threaded rod (322) which is rotatably arranged in the base assembly (1) and used for driving the connecting block (321) to slide back and forth is rotatably arranged.