CN212276045U - Optical fiber disc with free rotation and driving modes - Google Patents

Abstract

The utility model discloses an optical fiber dish with free rotation and drive mode, including optical fiber dish body and rotation axis, the rotation axis passes the centre bore setting, the end of rotation axis is equipped with the slide rail, be equipped with the lantern ring on the slide rail, be equipped with the hasp on the lantern ring, the hasp matches with the locating hole, the lantern ring can slide on the slide rail for in the hasp can the card go into the locating hole, the optical fiber dish body includes upper portion disk body and lower part disk body, upper portion disk body and lower part disk body structure identical, upper portion disk body and lower part disk body splice each other and form. The optical fiber disc of this application simple structure comprises two halves identical disk bodies, consequently only need one set of mould can, saved manufacturing cost, and the design of rotation axis makes the optical fiber disc of this application can satisfy multiple condition demand.

Description

Optical fiber disc with free rotation and driving modes

Technical Field

The utility model belongs to the technical field of the optic fibre frock and specifically relates to a design optic fibre dish with free rotation and drive mode.

Background

With the development of science and technology, communication products are already filled in our lives. Communication media has also been changed from coaxial cables, twisted pair wires, and optical fibers. How to install and protect these cables is an important consideration in the manufacture of telecommunications products.

It is well known that optical fibers have many advantages over conventional cables. The transmission frequency band is extremely wide, the communication capacity is very large, the anti-interference capability is strong, and the like. However, the optical fiber also has the fatal defects, the fineness is easy to damage, and the bending radius is not easy to be too small. These disadvantages make it necessary to protect the optical fibers during use, wherein the fiber box is a very good protection tool. However, the existing optical fiber tray has a complex structure, and cannot effectively protect the optical fiber in a construction site with a complex environment, for example, a composite optical fiber tray of chinese patent No. 201520797386.3 has an exposed side, a complex structure, and a high production cost.

In addition, because receive the restriction of optic fibre construction site of arranging, sometimes need optic fibre dish free rotation, sometimes need the external drive to rotate, and current optic fibre dish does not all have this function, consequently this application has improved current optic fibre dish to above-mentioned defect.

Disclosure of Invention

The utility model aims to solve the problem that to the shortcoming among the above-mentioned prior art, put forward improvement scheme or alternative, especially a simple structure can provide comprehensive protection to the optical fiber to reduction in production cost's that can be very big improvement or alternative of optical fiber disc.

In order to solve the above problem, the utility model discloses a scheme as follows: an optical fiber disc with free rotation and driving modes comprises an optical fiber disc body and is characterized in that the optical fiber disc body comprises an upper disc body and a lower disc body, the upper disc body and the lower disc body are identical in structure, and the upper disc body and the lower disc body are spliced with each other; the upper disc body comprises a flange plate and a hub, and the flange plate and the hub are integrally injection molded; the tail end of the hub is provided with a latch, a groove and a positioning tooth, the positioning tooth is positioned at two ends of the same diameter line on the hub, the latch and the groove are arranged between the two positioning teeth at intervals, the latch and the groove are respectively arranged at two sides of each positioning tooth, the width and the height of the latch and the height of the groove are the same, and the height of the positioning tooth is equal to half of the height of the groove; the upper disc body and the lower disc body are spliced through a hub, and a layer of foamed PE is glued on the hub; a central hole is formed in the axis of the flange plate; two sides of the central hole of the flange are respectively provided with a positioning hole along the diameter direction of the positioning teeth or along the diameter direction of the vertical positioning teeth; the optical fiber disc further comprises a rotating shaft, the rotating shaft penetrates through the center hole to be arranged, a sliding rail is arranged at the tail end of the rotating shaft, a sleeve ring is arranged on the sliding rail, a lock catch is arranged on the sleeve ring and matched with the positioning hole, and the sleeve ring can slide on the sliding rail, so that the lock catch can be clamped into the positioning hole.

The utility model provides an optical fiber dish adopts two identical upper portion disk bodies and lower part disk body concatenation to form, every upper portion disk body or lower part disk body all have ring flange and wheel hub, both splice through wheel hub, then sticky one deck foaming PE becomes on it, the concatenation forms the recess that is used for coiling optic fibre between two back ring flanges that form, two ring flanges can carry out effectual protection to coiling optic fibre wherein, because upper portion disk body and lower part dish are identical, only need one set of injection mold can, and its structure is also very simple, can practice thrift very many manufacturing cost. The utility model provides an optical fiber dish is through setting up the latch at wheel hub's end, recess and location tooth, and inject the both ends that the location tooth is located same diameter line on wheel hub, latch and recess interval set up between two location teeth, and the both sides of every location tooth are latch and recess respectively, the width and the height of latch and recess are the same, the height that highly equals the half of recess height of location tooth, so set up make upper portion disk body and lower part disk body have and only have the position of a concatenation, this provides the possibility of aiming at setting up on same vertical line for the locating hole on the ring flange.

The optical fiber disc is characterized in that a rotating shaft is arranged at the axis position of the middle part of the optical fiber disc, the rotating shaft is externally connected with a support or a power device and used for supporting the optical fiber disc, and when the optical fiber disc is required to rotate freely, a lantern ring is stirred to enable a lock catch to be separated from a positioning hole, so that the optical fiber disc can rotate on the externally connected support by the rotating shaft; when external drive is needed, the lock catch is clamped into the positioning hole through the sliding lantern ring, and then the external power device is pneumatically connected, so that the external drive is realized. Preferably, the two ends of the sliding rail are respectively provided with a magnetic baffle, and the lantern ring is made of a magnetic material, so that when the lantern ring moves on the sliding rail, the lantern ring is favorably positioned, and the lantern ring is prevented from sliding accidentally.

Furthermore, according to the design scheme, the optical fiber disc with the free rotation and driving modes is characterized in that two sides of the central hole of the flange plate are respectively provided with a positioning hole along the diameter direction of the positioning teeth or along the diameter direction of the vertical positioning teeth.

Because the upper disc body and the lower disc body can only be spliced by the positioning teeth at the same position, the positioning holes parallel or vertical to the diameter of the positioning teeth can be kept oppositely arranged after splicing.

Furthermore, according to the design scheme, the optical fiber disc with free rotation and driving modes is characterized in that the flange plate is provided with a threading hole, and the threading hole is formed in the bottom of the flange plate close to the hub; the number of the threading holes is two, and the threading holes are located on the same diameter of the flange plate.

Further, according to the optical fiber disc with free rotation and driving modes in the design scheme, the optical fiber disc is characterized in that reinforcing ribs are arranged on the outer side of the flange plate; the reinforcing ribs comprise annular reinforcing ribs and strip-shaped reinforcing ribs; the annular reinforcing ribs are positioned 3cm away from the edge of the flange plate; the bar strengthening rib is along the even distribution of ring flange diameter direction at the ring flange outside.

The utility model provides an optical fiber dish is provided with round annular strengthening rib and bar strengthening rib in the outside of ring flange, because optical fiber dish does not have the support when the site operation of majority, all place everywhere, structural strength requirement to the ring flange is very high, therefore, annular strengthening rib and bar strengthening rib have been add to this application on the ring flange, and set up the position at distance ring flange edge 3cm with annular strengthening rib, bar strengthening rib is outside at the ring flange along the even distribution of ring flange diameter direction, can often contact the position of ground bearing to the ring flange and strengthen.

Further, according to the optical fiber disc with the free rotation and driving modes in the above design scheme, the positioning holes are fan-shaped positioning holes.

Further, according to the optical fiber disc with the free rotation and driving modes in the design scheme, a circle of notch is formed in the position, located on the inner side of the hub, of the flange plate; a buckle is arranged in the notch; a flange buckle matched with the buckle is arranged at the notch position; a circle of annular groove is formed when the flange fastener is buckled into the notch; the annular groove is communicated with the threading hole. The central hole and the positioning hole are matched with each other and provided with a rotating shaft; one end is equipped with the slide rail on the rotation axis, be equipped with the lantern ring on the slide rail, be equipped with the hasp on the lantern ring, hasp and locating hole match.

Further, according to the optical fiber disc with free rotation and driving modes of the design scheme, the optical fiber disc is characterized in that two ends of the sliding rail are respectively provided with a magnetic baffle; the lantern ring is made of magnetic materials.

Further, according to the optical fiber disc with free rotation and driving mode of above-mentioned design, characterized in that, the slide rail is the bar groove that sets up on the rotation axis.

Through setting up the rotation axis that matches with centre bore and locating hole, the optic fibre dish of this design can rotate external force drive optic fibre dish and rotate or the free rotation on the rotation axis of optic fibre dish. The optical fiber disc can adapt to more construction sites.

The technical effects of the utility model are as follows: the utility model provides an optical fiber dish with free rotation and drive mode is formed by identical upper portion disk body and lower part disk body concatenation, then glues sticky one deck foaming PE behind the concatenation, consequently the optical fiber dish of this application only need mould plastics an upper portion disk body or lower part disk body can, very low to the production cost. In addition the optical fiber dish of this application is provided with round annular strengthening rib and bar strengthening rib in the outside of ring flange, because the optical fiber dish does not have the support when the site operation of majority, all place everywhere, it is very high to the structural strength requirement of ring flange, therefore, annular strengthening rib and bar strengthening rib have been add to this application on the ring flange, and set up annular strengthening rib in the position apart from ring flange edge 3cm, the bar strengthening rib is outside at the ring flange along the even distribution of ring flange diameter direction, can strengthen the position of ring flange frequent contact ground bearing.

Drawings

Fig. 1 is a schematic perspective view of an optical fiber tray.

Fig. 2 is a schematic structural view of a flange part.

Fig. 3 is a schematic sectional view taken along the direction a in fig. 2.

Fig. 4 is a schematic view of a rotating shaft structure.

Fig. 5 is a schematic view of the cross-sectional structure in the direction B of fig. 4.

Wherein, 1 is the optical fiber dish body, 2 is the flange knot, 3 is foaming PE, 4 are the card line hole, 5 are the centre bore, 6 are annular groove, 7 are the through wires hole, 8 are the bar strengthening rib, 9 are annular strengthening rib, 51 are the rotation axis, 52 are the lantern ring, 53 are the slide rail, 54 are the hasp, 55 are the magnetic baffle.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The meaning of the above terms in the present invention can be understood in specific cases by those skilled in the art.

Example (b): an optical fiber disc with free rotation and driving modes comprises an optical fiber disc body, wherein the optical fiber disc body comprises an upper disc body and a lower disc body, the upper disc body and the lower disc body are completely the same in structure, and the upper disc body and the lower disc body are spliced with each other; the upper disc body comprises a flange plate and a hub, and the flange plate and the hub are integrally injection molded; the tail end of the hub is provided with a latch, a groove and a positioning tooth, the positioning tooth is positioned at two ends of the same diameter line on the hub, the latch and the groove are arranged between the two positioning teeth at intervals, the latch and the groove are respectively arranged at two sides of each positioning tooth, the width and the height of the latch and the height of the groove are the same, and the height of the positioning tooth is equal to half of the height of the groove; the upper disc body and the lower disc body are spliced through a hub, and a layer of foamed PE is glued on the hub; a central hole is formed in the axis of the flange plate; two sides of the central hole of the flange are respectively provided with a positioning hole along the same diameter; the flange plate is provided with a threading hole, and the threading hole is formed at the bottom of the flange plate close to the hub; two threading holes are formed in the flange plate and are positioned on the same diameter of the flange plate; reinforcing ribs are arranged on the outer side of the flange plate; the reinforcing ribs comprise annular reinforcing ribs and strip-shaped reinforcing ribs; the annular reinforcing ribs are positioned 3cm away from the edge of the flange plate; the strip-shaped reinforcing ribs are uniformly distributed outside the flange plate along the diameter direction of the flange plate; the positioning holes are fan-shaped positioning holes; a circle of notches are formed in the positions, located on the inner side of the hub, of the flange plate; a buckle is arranged in the notch; a flange buckle matched with the buckle is arranged at the notch position; a circle of annular groove is formed when the flange fastener is buckled into the notch; the annular groove is communicated with the threading hole. The central hole and the positioning hole are matched with each other and provided with a rotating shaft; one end is equipped with the slide rail on the rotation axis, be equipped with the lantern ring on the slide rail, be equipped with the hasp on the lantern ring, hasp and locating hole match. Two clamping wire holes are formed in the outer side of the flange plate and used for enabling the head of the optical fiber to penetrate through the two clamping wire holes to be fixed; two ends of the sliding rail are respectively provided with a magnetic baffle; the lantern ring is made of a magnetic material; the slide rail is a strip-shaped groove arranged on the rotating shaft

The technical effects of the embodiment are as follows: the utility model provides an optical fiber dish with free rotation and drive mode is formed by identical upper portion disk body and lower part disk body concatenation, then glues sticky one deck foaming PE behind the concatenation, consequently the optical fiber dish of this application only need mould plastics an upper portion disk body or lower part disk body can, very low to the production cost. In addition the optical fiber dish of this application is provided with round annular strengthening rib and bar strengthening rib in the outside of ring flange, because the optical fiber dish does not have the support when the site operation of majority, all place everywhere, it is very high to the structural strength requirement of ring flange, therefore, annular strengthening rib and bar strengthening rib have been add to this application on the ring flange, and set up annular strengthening rib in the position apart from ring flange edge 3cm, the bar strengthening rib is outside at the ring flange along the even distribution of ring flange diameter direction, can strengthen the position of ring flange frequent contact ground bearing.

Claims (6)

1. An optical fiber disc with free rotation and driving modes comprises an optical fiber disc body and is characterized in that the optical fiber disc body comprises an upper disc body and a lower disc body, the upper disc body and the lower disc body are identical in structure, and the upper disc body and the lower disc body are spliced with each other; the upper disc body comprises a flange plate and a hub, and the flange plate and the hub are integrally injection molded; the tail end of the hub is provided with a latch, a groove and a positioning tooth, the positioning tooth is positioned at two ends of the same diameter line on the hub, the latch and the groove are arranged between the two positioning teeth at intervals, the latch and the groove are respectively arranged at two sides of each positioning tooth, the width and the height of the latch and the height of the groove are the same, and the height of the positioning tooth is equal to half of the height of the groove; the upper disc body and the lower disc body are spliced through a hub, and a layer of foamed PE is glued on the hub; a central hole is formed in the axis of the flange plate; two sides of the central hole of the flange are respectively provided with a positioning hole along the diameter direction of the positioning teeth or along the diameter direction of the vertical positioning teeth; the optical fiber disc further comprises a rotating shaft, the rotating shaft penetrates through the center hole to be arranged, a sliding rail is arranged at the tail end of the rotating shaft, a sleeve ring is arranged on the sliding rail, a lock catch is arranged on the sleeve ring and matched with the positioning hole, and the sleeve ring can slide on the sliding rail, so that the lock catch can be clamped into the positioning hole.

2. An optical fiber reel having a free-wheeling and driving mode as defined in claim 1 wherein the flange has threading holes therein, the threading holes being located at a bottom of the flange adjacent the hub; the number of the threading holes is two, and the threading holes are located on the same diameter of the flange plate.

3. An optical fiber reel having a free-wheeling and driving mode as defined in claim 1 wherein the flange has ribs on its outside; the reinforcing ribs comprise annular reinforcing ribs and strip-shaped reinforcing ribs; the annular reinforcing ribs are positioned 3cm away from the edge of the flange plate; the bar strengthening rib is along the even distribution of ring flange diameter direction at the ring flange outside.

4. The fiber optic tray having a free-wheeling and driving mode of claim 1, wherein the alignment holes are fan-shaped alignment holes.

5. A fiber optic disc according to claim 1, wherein a magnetic stop is disposed at each end of the track; the lantern ring is made of magnetic materials.

6. A fiber optic disc having a free-wheeling and driving mode as claimed in claim 1, wherein the slide is a bar-shaped groove disposed on the rotational axis.

Images