CN214351853U - Optical cable connector sign location frock - Google Patents

Abstract

The utility model relates to the technical field of optical cable connectors, in particular to an optical cable connector identification positioning tool, which comprises a base, a limiting component arranged on the base, and a sliding component which is in sliding fit with the base and is used for controlling the optical cable connector to be close to or far away from the limiting component; and one side of the limiting component, which is close to the sliding component, is provided with a positioning component. The utility model discloses can effectually fix a position optical cable connector, and then make can effectually carry out the sign to the navigation key on the optical cable connector, reduce because the sign is incorrect and cause the product to scrap.

Description

Optical cable connector sign location frock

Technical Field

The utility model relates to an optical cable connector sign technical field, in particular to optical cable connector sign location frock.

Background

The prefabricated optical cable connectors often need to be marked, and laser marking or silk-screen printing or spraying can be adopted according to the respective equipment conditions of manufacturers. The product needs to be marked in the direction of the positioning key, and the mark has two functions, namely, marking the product model and marking the position of the positioning key. The model needs to be identified because the appearances of different models are completely consistent and cannot be distinguished; the position of the positioning key is required to be marked because the positioning key cannot be seen in the finished product state, and the product can be assembled according to one direction when passing through the marking positioning key, so that the product is more attractive.

The existing technology is that the products are placed in a conventional tool V-shaped groove and are subjected to laser marking, and the following defects and risks exist:

A. the orientation of the positioning key is required to be confirmed when the positioning key is placed, and scrapping can be caused if the positioning key is placed wrongly and marked;

B. when the placing is required to be confirmed, whether the position is placed accurately or not is judged, otherwise, only half of numbers are marked during marking, and recognition is influenced to cause scrapping.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an optical cable connector sign location frock is provided, can effectually fix a position optical cable connector, and then make can effectually carry out the sign to the navigation key on the optical cable connector, reduce because the sign is incorrect and cause the product to scrap.

The utility model provides a solution that technical problem adopted is:

an optical cable connector mark positioning tool comprises a base, a limiting assembly and a sliding assembly, wherein the limiting assembly is installed on the base, and the sliding assembly is in sliding fit with the base and is used for controlling an optical cable connector to be close to or far away from the limiting assembly; and one side of the limiting component, which is close to the sliding component, is provided with a positioning component.

When the optical cable connector is used, the optical cable connector is installed on the sliding assembly, the sliding assembly is controlled to move to one side of the limiting assembly, the positioning nail and one end, close to the limiting assembly, of the optical cable connector are positioned through the positioning nail, the sliding assembly is locked with the base, the sliding assembly cannot move any more, and the identification device can be used for identification work.

In some possible embodiments, in order to effectively position the optical cable connector, the optical cable connector is prevented from moving when being marked; the limiting assembly further comprises a vertical plate arranged on the base and a limiting plate arranged on one side of the vertical plate close to the sliding assembly; the two limiting plates are arranged in parallel to form a cavity for connecting and extending the optical cable with the vertical plate; the positioning assembly is arranged on one side, close to the sliding assembly, of the vertical plate and is located between the two limiting plates.

When the optical cable connector is used, the sliding assembly moves towards one side close to the limiting plate under the control of external force to drive the optical cable connector to move towards one side close to the limiting assembly, and when the end part of the optical end enters the cavity, the optical cable connector is inserted into the positioning needle; if the positioning needle can penetrate into the optical cable connector, the optical cable connector is correctly installed on the installation seat, and the marking work of the position of the positioning key can be carried out, otherwise, the positioning needle is incorrectly installed, and the marking cannot be carried out.

In some possible embodiments, the sliding assembly includes a mounting seat having a mounting groove at the top and arranged parallel to the vertical plate, a sliding part mounted at the bottom of the mounting seat, and a guiding part mounted on the base and used in cooperation with the sliding part; the mounting seat is magnetically connected with the limiting plate; the mounting groove is communicated with the chamber.

In some possible embodiments, in order to effectively fix the optical cable connector, the situation that the direction and the position of the optical cable connector cannot be confirmed because the optical cable connector cannot be clamped is avoided; the mounting groove comprises a V-shaped groove arranged at the top of the mounting seat and a square groove which is arranged on one side of the mounting seat close to the limiting assembly and communicated with the V-shaped groove, and the center of the square groove and the center of the V-shaped groove are on the same straight line; the width of the square groove is larger than the distance between the two limiting plates.

In some possible embodiments, in order to effectively realize the connection and the separation of the mounting seat and the limiting assembly; the mounting seat is provided with a magnet and is magnetically connected with the limiting plate through the magnet.

In some possible embodiments, in order to effectively prevent the sliding part from being separated from the guide part, the whole device cannot be normally used; the guide limiting block is arranged on one side, away from the limiting component, of the sliding component and is installed on the base.

In some possible embodiments, in order to effectively realize the limitation of the guiding and sliding range of the mounting seat, the sliding part comprises a sliding rail mounted at the bottom of the mounting seat; one side of the guide limiting block, which is close to the slide rail, is provided with a groove matched with the size of the end face of the slide rail.

In some possible embodiments, the position of the positioning key on the cable connector is determined by the positioning pin for effective implementation; the locating component is a locating nail, the number of the locating nails is three and is arranged in an inverted isosceles triangle, wherein the base of the isosceles triangle formed by the two locating nails is far away from the base and is arranged in parallel with the base, and the center of the isosceles triangle and the center of the square groove are on the same straight line.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model effectively realizes the fixation and sliding of the optical cable connector through the sliding component;

the utility model effectively confirms the position and direction of the optical cable connector through the positioning needle, and further effectively confirms the position of the positioning key, thereby avoiding marking errors and scrapping products;

the utility model realizes the connection of the limiting component and the sliding component through the magnet, and the connection and the separation of the limiting component and the sliding component are simple;

the utility model discloses a setting is kept away from spacing subassembly one side and is installed the direction stopper on the base at the slip subassembly, and the effectual slip subassembly and the base separation of avoiding.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an isometric view of the middle stop assembly of the present invention;

fig. 3 is a schematic structural view of the sliding assembly of the present invention;

FIG. 4 is a schematic view of the connection relationship between the mounting seat, the slide rail and the guiding portion of the present invention;

FIG. 5 is a view showing a usage state of the present invention;

wherein: 1. a base; 2. a limiting component; 21. a vertical plate; 22. a limiting plate; 23. a positioning assembly; 3. a sliding assembly; 31. a mounting seat; 32. a V-shaped groove; 33. a square groove; 34. a slide rail; 35. a magnet; 36. a guide portion; 4. and a guide limiting block.

Detailed Description

To make the purpose, technical solutions and advantages of the present application clearer, the technical solutions in the present application will be clearly and completely described below with reference to the drawings in the present application, and it is obvious that the described embodiments are some, but not all embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The present invention will be further explained with reference to the drawings and examples.

The utility model is realized by the following technical proposal, as shown in figures 1-4,

an optical cable connector mark positioning tool comprises a base 1, a limiting component 2 arranged on the base 1, and a sliding component 3 which is in sliding fit with the base 1 and is used for controlling an optical cable connector to be close to or far away from the limiting component 2; and a positioning component 23 is arranged on one side of the limiting component 2 close to the sliding component 3.

When the optical cable connector is used, the optical cable connector is installed on the sliding assembly 3, the sliding assembly 3 is controlled to move towards one side of the limiting assembly 2, the positioning assembly and one end, close to the limiting assembly 2, of the optical cable connector are positioned through the positioning assembly, if the positioning assembly can be inserted into the optical cable connector, the positioning is correct, the sliding assembly 3 is locked with the base 1, the sliding assembly 3 cannot move any more, and the marking device can be used for marking; if the positioning assembly cannot be inserted into the optical cable connector, the positioning is wrong, and the installation direction of the optical cable connector on the sliding assembly 3 needs to be adjusted.

In some possible embodiments, in order to effectively position the cable connector, as shown in fig. 2, the limiting assembly 2 further includes an upright plate 21 mounted on the base 1, and a limiting plate 22 mounted on a side of the upright plate 21 close to the sliding assembly 3; the two limiting plates 22 are arranged in parallel to form a chamber for connecting and extending the optical cable with the vertical plate 21; the positioning nail is arranged on one side of the vertical plate 21 close to the sliding assembly 3 and is positioned between the two limiting plates 22.

When the optical cable connector is used, the sliding component 3 moves towards one side close to the limiting plate 22 under the control of external force to drive the optical cable connector to move towards one side close to the limiting component 2, and when the end part of the optical cable connector enters the cavity; if the positioning component can go deep into the inside of the optical cable connector, it indicates that the optical cable connector is correctly installed on the installation seat 31, and the identification work of the position of the positioning key can be performed, otherwise, it indicates that the installation is incorrect and the identification cannot be performed.

In some possible embodiments, as shown in fig. 3, the sliding assembly 3 includes a mounting seat 31 having a mounting groove at the top and disposed parallel to the side of the vertical plate 21, a sliding part mounted at the bottom of the mounting seat 31, and a guiding part 36 mounted on the base 1 and used in cooperation with the sliding part; the mounting seat 31 is magnetically connected with the limiting plate 22; the mounting groove is communicated with the chamber.

The optical cable connector is arranged in the mounting groove to realize clamping connection of the optical cable connector, when the optical cable connector is used, the mounting seat 31 is controlled to move towards one side close to the vertical plate 21, so that the optical cable connector moves towards one side close to the limiting component 2, when the positioning meets the requirement and the identification work is met, the mounting seat 31 and the limiting plate 22 are magnetically connected to realize locking of the optical cable connector and the limiting plate, and the position relation of the optical cable connector and the limiting plate cannot be changed when the identification work is carried out; the sliding portion cooperates with the guide portion 36 such that the guide portion 36 effectively guides the direction of movement of the sliding portion.

In some possible embodiments, in order to effectively fix the optical cable connector, the situation that the direction and the position of the optical cable connector cannot be confirmed because the optical cable connector cannot be clamped is avoided; as shown in fig. 3, the mounting groove includes a V-shaped groove 32 disposed at the top of the mounting seat 31, and a square groove 33 disposed at one side of the mounting seat 31 close to the position limiting component 2 and communicated with the V-shaped groove 32, and the center of the square groove 33 and the center of the V-shaped groove 32 are on the same straight line.

The optical cable connector comprises a cylindrical shell, a square fixture block and an end, wherein the square fixture block is connected with one side, close to the vertical plate 21, of the cylindrical shell, the end is arranged at one side, far away from the cylindrical shell, of the square fixture block, the V-shaped groove 32 is used for fixing the cylindrical shell, and the square groove 33 is used for fixing the square fixture block.

Preferably, in some embodiments, in order to achieve effective fixing of the cable connector, the distance a between the two limiting plates 22 is smaller than the width b of the square clamping block, and the square groove 33 is matched with the square clamping block, that is, the distance between the two limiting plates 22 is the width b of the square groove; the purpose of this arrangement is that, after the limiting plate 22 is connected with the mounting seat 31, the side of the limiting plate 22 close to the mounting seat 31 partially abuts against the square fixture block, so as to clamp the cable connector.

In some possible embodiments, in order to effectively realize the connection and the disconnection of the mounting seat 31 and the limiting assembly 2; the mounting seat 31 is provided with a magnet 35, and the mounting seat 31 is magnetically connected with the limiting plate 22 through the magnet 35.

Preferably, as shown in fig. 4, two magnets 35 are provided corresponding to the two limiting plates 22; so that both limiting plates 22 are magnetically connected with the mounting seat.

Preferably, a through hole is formed along the sliding direction of the mounting seat 31, and the magnet 35 is mounted in the through hole; the magnet 35 is placed in the through hole before use; when the mounting seat 31 abuts against the limiting plate 22, the magnet 35 will attract the limiting plate 22 and the mounting seat 31; the limiting block is contacted with the square clamping block to clamp the optical cable connector.

In some possible embodiments, as shown in fig. 1, in order to effectively avoid the sliding portion from coming off the guide portion 36; the device also comprises a guide limiting block 4 which is arranged on one side of the sliding component 3 far away from the limiting component 2 and is arranged on the base 1.

In some possible embodiments, as shown in fig. 1, the sliding part comprises a sliding rail 34 mounted at the bottom of the mounting seat 31; one side of the guide limiting block 4 close to the slide rail 34 is provided with a groove matched with the end face of the slide rail 34 in size.

The slide rail 34 is connected to the bottom of the mounting seat 31 by bolts.

Preferably, the guide part 36 is provided with a sliding groove used in cooperation with the sliding rail 34;

in some possible embodiments, the slide rails 34 are disengaged from the slide slots for efficiency; the sliding groove is a dovetail groove, and the sliding rail 34 is a dovetail sliding rail 34.

The groove is matched with the end face of the sliding rail 34, the relative position of the sliding rail 34 and the cavity is limited, after the mark is finished, the sliding assembly 3 moves to one side far away from the limiting assembly 2, and in order to prevent the sliding assembly 3 from sliding out of the sliding groove, the guide limiting block 4 is arranged on one side of the sliding assembly 3 far away from the limiting assembly 2; preferably, the distance between the guide portion 36 and the slide rail 34 is smaller than the length of the slide rail.

In the prior art, a positioning key is arranged in an optical cable connector, an inserting core square groove core cap is arranged in the optical cable connector, two small spaces are formed between the positioning key in the optical cable connector and the outer side of the inserting core square groove core cap, and a space is formed between one side of the inserting core square groove core cap, which is far away from the positioning key, and the inner side of the optical cable connector; in order to effectively determine the position of a positioning key on the cable connector through a positioning nail; locating component 23 is the location nail, the quantity of location nail is three and is the arrangement of inverted isosceles triangle, and wherein base 1 and base 1 parallel arrangement are kept away from to the base of the isosceles triangle that two location nails formed, and isosceles triangle's center is on same straight line with the center of square groove 33.

As shown in fig. 1, the three positioning nails are respectively arranged corresponding to the three spaces, when in use, the sliding component 3 drives the optical cable connector to move to one side close to the limiting component 2, if two positioning nails connecting the base of the isosceles triangle can be inserted into two small spaces, and when another positioning nail can be inserted into another space, the position of the optical cable connector is correct, and identification can be performed, at this time, the optical cable connector is continuously controlled to move to one side close to the limiting component 2, and the limiting plate 22 and the mounting seat 31 are magnetically connected to one side close to the limiting plate, and then identification can be performed.

In some possible implementation manners, two small spaces are formed on the outer sides of the positioning key and the insertion core square groove core cap in the optical cable connector, and the size of the space formed by one side, far away from the positioning key, of the insertion core square groove core cap and the inner side face of the optical cable connector is different from that of the space formed by the inner side face of the optical cable connector, so that the diameters of two positioning nails which are connected to form the bottom of an isosceles triangle in the three positioning nails are set to be smaller than that of the other positioning nail.

The foregoing detailed description of the embodiments of the present application has been presented, and specific examples have been applied in the present application to explain the principles and implementations of the present application, and the above description of the embodiments is only used to help understand the method and the core ideas of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (8)

1. The utility model provides an optical cable connector sign location frock which characterized in that: the device comprises a base, a limiting component arranged on the base and a sliding component which is in sliding fit with the base and is used for controlling an optical cable connector to be close to or far away from the limiting component; and one side of the limiting component, which is close to the sliding component, is provided with a positioning component.

2. The optical cable connector mark positioning tool according to claim 1, characterized in that: the limiting assembly further comprises a vertical plate arranged on the base and a limiting plate arranged on one side of the vertical plate close to the sliding assembly; the two limiting plates are arranged in parallel to form a cavity for connecting and extending the optical cable with the vertical plate; the positioning assembly is arranged on one side, close to the sliding assembly, of the vertical plate and is located between the two limiting plates.

3. The optical cable connector mark positioning tool according to claim 2, characterized in that: the sliding assembly comprises a mounting seat, a sliding part and a guide part, wherein the top of the mounting seat is provided with a mounting groove and is arranged in parallel with the vertical plate; the mounting seat is magnetically connected with the limiting plate; the mounting groove is communicated with the chamber.

4. The optical cable connector mark positioning tool according to claim 3, characterized in that: the mounting groove comprises a V-shaped groove arranged at the top of the mounting seat and a square groove which is arranged on one side of the mounting seat close to the limiting assembly and communicated with the V-shaped groove, and the center of the square groove and the center of the V-shaped groove are on the same straight line; the width of the square groove is larger than the distance between the two limiting plates.

5. The optical cable connector mark positioning tool according to claim 3, characterized in that: the mounting seat is provided with a magnet and is magnetically connected with the limiting plate through the magnet.

6. The optical cable connector mark positioning tool according to claim 3, characterized in that: the guide limiting block is arranged on one side, away from the limiting component, of the sliding component and is installed on the base.

7. The optical cable connector mark positioning tool according to claim 6, characterized in that: the sliding part comprises a sliding rail arranged at the bottom of the mounting seat; one side of the guide limiting block, which is close to the slide rail, is provided with a groove matched with the size of the end face of the slide rail.

8. The optical cable connector mark positioning tool according to claim 7, characterized in that: the locating component is a locating nail, the number of the locating nails is three and is arranged in an inverted isosceles triangle, wherein the base of the isosceles triangle formed by the two locating nails is far away from the base and is arranged in parallel with the base, and the center of the isosceles triangle and the center of the square groove are on the same straight line.

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