CN210294598U - Main frame of motor support and aligning device - Google Patents

Abstract

The utility model provides a motor support can the stable body frame that supports integrated into one piece's accent core device, improves the product precision. The utility model relates to a motor support's technical scheme includes: a horizontal plane and an inclined plane; the horizontal surface is provided with at least one through hole II for connecting with a guide rail, and the guide rail is provided with an optical fiber propelling mechanism; the horizontal plane is also provided with at least one third through hole for connecting with the main frame; and a fifth through hole is formed in the inclined plane, one side of the inclined plane is used for mounting a motor, the other side of the inclined plane is used for mounting a gear mechanism and a screw rod mechanism, and the screw rod mechanism extends out of the fifth through hole and selectively pushes an elastic sheet of the core aligning mechanism.

Description

Main frame of motor support and aligning device

Technical Field

The utility model relates to an optical fiber splicer technical field, concretely relates to optical fiber splicer's motor support and body frame of accent core device.

Background

The optical fiber fusion splicer is mainly used for construction and maintenance of optical cables in optical communication, the optical fiber fusion splicer aligns the end parts of two sections of optical fibers on the same straight line by means of an imaging mechanism and a core aligning mechanism before splicing the optical fibers, and when a high-voltage discharging mechanism is used for melting the sections of the two optical fibers, a high-precision optical fiber pushing mechanism is used for gently pushing the two optical fibers to fuse the two optical fibers into one so as to realize coupling of an optical fiber mode field.

The prior art has the defects that the mechanism is processed according to a plurality of links, the consistency is difficult to ensure after the mechanism is assembled, a user needs to assemble the mechanism by other articles, and the loss stability of the welding machine is poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a motor support can the stable body frame that supports integrated into one piece's accent core device, improves the product precision.

The utility model relates to a motor support's technical scheme includes:

a horizontal plane and an inclined plane;

the horizontal surface is provided with at least one through hole II for connecting with a guide rail, and the guide rail is provided with an optical fiber propelling mechanism;

the horizontal plane is also provided with at least one third through hole for connecting with the main frame;

and a fifth through hole is formed in the inclined plane, one side of the inclined plane is used for mounting a motor, the other side of the inclined plane is used for mounting a gear mechanism and a screw rod mechanism, and the screw rod mechanism extends out of the fifth through hole and selectively pushes an elastic sheet of the core aligning mechanism.

Preferably, in the technical scheme of the motor bracket, the horizontal plane is provided with a groove, and the second through hole and the third through hole are both located on the groove.

Preferably, in the technical scheme of the motor bracket, the number of the second through holes is two, and the number of the third through holes is one.

Preferably, in the technical solution of the motor bracket, the through hole three is located between the two through holes two.

Preferably, in the above technical solution of the motor bracket, a metal support member is provided in the groove.

Preferably, in the technical scheme of the motor bracket, a sixth through hole is further formed in the inclined surface and used for being connected with the main frame.

The utility model relates to a technical scheme of body frame of accent core device includes:

the main frame body and a plurality of mounting positions which are integrated with the main frame body into a whole;

the two first mounting positions are horizontally aligned and used for mounting a guide rail, the motor support mentioned above is arranged below the first mounting positions, the second through hole is used for being connected with the guide rail, and the third through hole is used for being connected with the main frame body;

the two second installation positions are inclined oppositely from two sides to the middle direction and arranged in a same position for installing the imaging mechanism;

the two third installation positions are oppositely inclined from two sides to the middle direction and are arranged in a staggered mode and used for installing a core aligning mechanism.

Preferably, the upper part of the second mounting position is used for mounting the high-voltage discharge mechanism.

Preferably, the two second mounting positions are positioned on the central axis of the main frame body and are centrosymmetric.

Preferably, the third installation position located on the same side of the central axis is connected with the second installation position and located below the first installation position.

Preferably, the two first mounting positions and/or the third mounting position are both centrosymmetric.

Preferably, the arrangement direction of the two second mounting positions is perpendicular to the arrangement direction of the first mounting positions.

Preferably, each pair of core mechanisms comprises an elastic sheet and a core adjusting frame connected with the elastic sheet, and the elastic sheet is detachably connected with the third mounting position.

Preferably, the two fourth mounting positions correspond to the two elastic sheets one by one respectively, the fourth mounting positions are located below the first horizontal position and used for placing a motor support, a motor is mounted on one side of the motor support, a gear mechanism and a lead screw mechanism are mounted on the other side of the motor support, and the lead screw mechanism extends out of the third through hole and selectively pushes the elastic sheet motor support of the core aligning mechanism.

Preferably, the two fifth installation positions correspond to the two optical fiber pushing mechanisms one by one respectively, and are used for installing a second driving mechanism for driving the optical fiber pushing mechanisms to move.

The beneficial effect of adopting above-mentioned technical scheme is:

the utility model provides a be equipped with a plurality of installation positions on the body frame, be used for installing optic fibre advancing mechanism, imaging mechanism respectively, to core mechanism and high-pressure discharge mechanism, body frame integrated into one piece has improved the product precision. In addition, the installation positions are reasonably arranged, and the requirement for miniaturization of the main frame is met.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 and fig. 2 are structural diagrams of a motor bracket according to the present invention;

fig. 3 is a structural diagram of a main frame of the core adjusting device of the present invention.

Detailed Description

The utility model provides a motor support can the stable body frame that supports integrated into one piece's accent core device, improves the product precision.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 3, it is a main frame of the core adjusting device, and it includes a main frame body and a plurality of installation positions integrated with the main frame body.

The purpose of the above-mentioned plurality of mounting locations is to mount the fiber pushing mechanism 14, the core aligning mechanism 20, the imaging mechanism 16 and the high voltage discharging mechanism 22 through the mounting locations.

The optical fiber pushing mechanism 14 is used for pushing the two optical fibers to a preset position, the fiber cores can be observed and positioned through imaging of a lens 161 on the imaging mechanism 16, the control system controls the core mechanism 20 to be moved through the driving mechanism I23, the two optical fibers are aligned, and then the high-voltage discharging mechanism 22 is used for welding.

As shown in fig. 3, the two first mounting locations 13 are horizontally aligned, i.e. located on the same straight line as shown in the figure, and the two first mounting locations 13 are in central symmetry. The first installation position 13 is provided with a guide rail, and the guide rail is provided with an optical fiber propelling mechanism 14.

The first mounting position 13 is provided with at least one first through hole 131, the number is not limited to two as shown in the figure, and the screw penetrates through the first through hole 131 to be connected with the guide rail.

The first mounting position 13 is further provided with a fourth through hole 132, and the fourth through hole 132 can be located between the first through hole 131 and is used for passing through a screw to be fixedly connected with a motor bracket in the following.

The optical fiber pushing mechanism 14 is provided with at least one protrusion 141, the number of the protrusions 141 is two as shown in the figure, and both protrusions are embedded into the through holes on the clamp of the optical fiber fusion splicer.

Two optical fiber propulsion mechanisms 14 push optical fibers from two sides to the middle on the first installation position 13, two fifth installation positions 17 corresponding to the two optical fiber propulsion mechanisms one to one are needed to be arranged for installing a second driving mechanism 18 for driving the optical fiber propulsion mechanisms 14 to move, the second driving mechanism 18 comprises a motor, a gear mechanism and a screw rod mechanism, reciprocating linear movement of the screw rod mechanism in the horizontal direction is achieved through cooperation of the motor, the gear mechanism and the screw rod mechanism, and the screw rod mechanism drives the optical fiber propulsion mechanisms 14 to move.

The two second mounting positions 15 are inclined from two sides to the middle direction and are arranged in the same position, the two second mounting positions 15 are also positioned on the same straight line and are used for mounting the imaging mechanism 16, and the imaging mechanism 16 is also arranged in an inclined mode. The high-voltage discharge mechanism 22 is arranged above the second mounting position 15.

The two second mounting positions 15 are positioned on the central axis of the main frame body and are centrosymmetric, and the arrangement direction of the two second mounting positions 15 is perpendicular to the arrangement direction of the first mounting positions 13.

The imaging mechanism 16 includes a lens 161, and the second mounting position 15 is provided with a through hole 151 through which the lens 16 passes.

As shown in fig. 3, the imaging mechanism includes a lens 161, a holder 162, and a circuit board 164. The lens 161 is movably connected with the fixing frame 162, and the whole length of the two is adjustable. The circuit board 164 is connected to the fixing frame 162.

The imaging mechanism realizes that the lens 161 axially moves relative to the fixing frame 162 in the direction of the optical axis of the lens by utilizing the adjustable overall length of the lens 161 and the fixing frame 162, and the fiber core can be observed and positioned through the imaging of the lens 161, so that the imaging on a display screen is clearest.

In order to realize the movable connection between the lens 161 and the fixing frame 162, the lens 161 is sleeved in the fixing frame 162. On the basis, the lens 161 is provided with a first screw hole (not shown, the first screw hole is covered by the fixing frame 162), the fixing frame 162 is provided with a strip-shaped first adjusting hole 1621, and a first screw passes through the first adjusting hole 1621 and is fixed on the first screw hole.

In summary, the lens 161 is connected to the fixing frame 162 through the first screw, and the position of the first screw in the first adjusting hole 1621 is adjustable, so as to achieve the purpose of adjusting the length, that is, when the lens 161 needs to be extended or retracted outwards along the length direction of the fixing frame 162, the first screw is moved in the first adjusting hole 1621 through the matching relationship between the first screw and the first adjusting hole 1621, and finally the length required to be adjusted is achieved.

The first adjusting holes 1621 may be elliptical holes, and the number of the first adjusting holes 1621 may be two as shown in the figure, and when the fixing frame 162 has a cylindrical structure as shown in the figure, the two first adjusting holes 1621 may be symmetrically arranged along the center line of the fixing frame 162.

The periphery of the fixing frame 162 is provided with a mounting frame 163, the mounting frame 163 and the fixing frame 162 can be of an integral structure, and the mounting frame 163 is used for being movably connected with the second mounting position 15.

The number of the mounting brackets 163 of each imaging mechanism may be two, and the two mounting brackets 163 are symmetrically disposed along the center line of the fixing frame 162, that is, the connecting line of the two mounting brackets 163 coincides with the center line of the fixing frame 162, and the fixing frame 162 may have a cylindrical structure as shown in the figure.

The fine adjustment of the object distance of the imaging mechanism is realized by adjusting the overall length of the lens and the fixing frame, in addition, the two mounting frames 163 of each imaging mechanism can be movably connected with the second mounting position 15, the position of the imaging mechanism on the main frame can be adjusted, and the fine adjustment of the object distance can also be realized.

As shown in fig. 3, the core alignment apparatus includes a main frame and two imaging mechanisms 16, and the mounting frame 163 of each imaging mechanism 16 is movably connected to the main frame of the core alignment apparatus, so that the core can be observed and positioned from two directions by the two imaging mechanisms 16.

Taking one of the imaging mechanisms and one of the mounting locations as an example, two screw holes 1631 are respectively formed on the two mounting brackets 163 of each imaging mechanism, two elongated adjusting holes (not shown) are formed in the corresponding second mounting locations 15, and each screw two passes through the corresponding adjusting hole two and is fixed on the corresponding screw hole two 1631.

When the position of the imaging mechanism needs to be adjusted, the second screw is moved in the second adjusting hole through the matching relation of the second screw and the second adjusting hole, and finally the required position is reached. The second adjusting hole can be an elliptical hole.

The circuit board 164 is connected to the fixing frame 162, and specifically, the circuit board 164 is detachably connected to the bottom of the mounting frame 163 by screws.

Different from the second installation positions 15 which are positioned on the same straight line, two third installation positions 19 (one of which is not shown) are oppositely inclined from two sides to the middle direction and are arranged in a staggered mode and are used for installing a core aligning mechanism 20, and the third installation positions 19 are in central symmetry.

Each pair of core mechanisms 20 comprises an elastic sheet 201 and a core adjusting frame 202 connected with the elastic sheet 201, and the elastic sheet 201 is detachably connected with the third installation position 19.

A motor bracket 21 is disposed below each first mounting position 13, and the motor bracket 21 includes a horizontal surface 219 and an inclined surface 220. At least one through hole II 211 is arranged on the horizontal plane, the through hole II 211 corresponds to the through hole I131, a screw penetrates through the through hole II 211 and the through hole I131 to realize the connection of the motor support, the main frame body and the guide rail, and the optical fiber propelling mechanism 14 is installed on the guide rail.

The horizontal plane 219 is further provided with at least one third through hole 212, the third through hole 212 corresponds to the fourth through hole 132 on the first mounting position 13, and a screw passes through the third through hole 212 and the fourth through hole 132 to connect the motor bracket and the main frame body.

The inclined plane 220 is provided with a through hole five 213, the motor bracket is used for mounting a driving mechanism one 23, as shown in fig. 1 and fig. 2, one side of the inclined plane 220 is used for mounting a motor 231, the other side is used for mounting a gear mechanism 232 and a screw mechanism 233, and the screw mechanism 233 extends out of the through hole five 213 and selectively pushes the elastic sheet 201 of the core aligning mechanism 20.

The horizontal plane 219 is provided with a groove 218, the two through holes 211 and the three through holes 212 are located on the groove 218, the number of the two through holes 211 is two, the number of the three through holes 212 is one, and the three through holes 212 are located between the two through holes 211.

And a metal support is also arranged in the groove 218, so that the support strength is increased.

The inclined surface is also provided with a sixth through hole 214 which is used for being connected with a seventh through hole 215 on the main frame body. In addition, the motor support is also provided with eight through holes 216 which are connected with nine through holes 217 on the main frame body.

And a third mounting position 19 which is positioned on the same side of the central axis is connected with the second mounting position 15 and is positioned below the first mounting position 13.

The beneficial effect of adopting above-mentioned technical scheme is:

the utility model provides a be equipped with a plurality of installation positions on the body frame, be used for installing optic fibre advancing mechanism, imaging mechanism respectively, to core mechanism and high-pressure discharge mechanism, body frame integrated into one piece has improved the product precision. In addition, the installation positions are reasonably arranged, and the requirement for miniaturization of the main frame is met.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (7)

1. A motor bracket is characterized by comprising a horizontal plane and an inclined plane;

the horizontal surface is provided with at least one through hole II for connecting with a guide rail, and the guide rail is provided with an optical fiber propelling mechanism;

the horizontal plane is also provided with at least one third through hole for connecting with the main frame;

and a fifth through hole is formed in the inclined plane, one side of the inclined plane is used for mounting a motor, the other side of the inclined plane is used for mounting a gear mechanism and a screw rod mechanism, and the screw rod mechanism extends out of the fifth through hole and selectively pushes an elastic sheet of the core aligning mechanism.

2. The motor bracket of claim 1, wherein the horizontal surface has a groove, and the second and third through holes are located on the groove.

3. The motor bracket according to claim 1 or 2, wherein the number of the second through holes is two, and the number of the third through holes is one.

4. The motor bracket of claim 3, wherein the third through hole is located between two of the second through holes.

5. The motor mount in claim 2, wherein a metal support is provided in the recess.

6. The motor support according to claim 1, wherein the inclined surface is further provided with six through holes for connecting with the main frame.

7. A main frame of a core adjusting device is characterized by comprising a main frame body and a plurality of mounting positions which are integrated with the main frame body into a whole;

two first installation positions are horizontally aligned, and guide rails are installed on the first installation positions;

the motor support of any one of claims 1 to 6 is arranged below the first mounting position, the second through hole is used for being connected with the guide rail, and the third through hole is used for being connected with the main frame body.

Images