KR101216218B1 - Device for handling optical connector - Google Patents

Abstract

PURPOSE: A device for operating an optical connector is provided to facilitate construction of optical communication. CONSTITUTION: A height variation type matching member operating unit(400) arranges main lines of an optical cable assembled with a ferrule and operates a main line matching member. The height variation type matching member operating unit comprises a height variation type rail unit(410) and a rail seating type manipulating unit(430). The rail seating type manipulating unit is provided on a matching member. The rail seating type manipulating unit opens the matching member by being inserted into an inlet hole.

Description

Optical connector control device {Device for Handling Optical Connector}

The present invention relates to an optical connector operating device for optical connection that facilitates the operation of the connector during the optical connection, in particular, the optical connector using an optical connector, and more particularly, a jig for an existing optical connector. Simplify the structure of the tool and reduce the number of parts, thereby reducing costs, and especially the optical connector operation, which makes it easy to use in the field and ultimately enables the optical connection to make the optical communication easy and stable. Relates to a device.

Recently, as the spread of optical fiber cable (hereinafter, referred to as 'optical cable') networks expands, field assembly of optical fiber cables is rapidly increasing. For example, modem lines (Internet communication lines using telephone lines or coaxial cables) used in homes are currently being replaced by optical communication lines directly connecting optical cables (optical communication) to each home.

At this time, in the field assembly work of the optical cable, in order to connect the optical cable to the adapter of the optical modem connected to the computer (PC) of each home, an optical connector for optical fiber (main line) connection of the optical cable is used.

For example, a field assembly optical connector used for field assembly of such an optical cable is known, and such an optical connector is used for connecting and connecting an optical cable between an outdoor terminal and an optical modem in each home. Used.

That is, the optical connector enables field assembly of the optical cable between the outdoor terminal and the optical modem of each home, the length of the optical cable varies depending on the field environment.

Therefore, in the field assembly of the optical cable, the main line (optical fiber or core wire) of the optical cable is cut and connected to the optical connector.

For example, as shown in FIG. 1, the main line (optical fiber) of the ferrule 40 (refer to "42" in FIG. 2) using the conventional optical connector 100 and the main line of the optical cable 1 (optical fiber) (30) (see '30' in FIG. 2), the first and second matching members 112 and 114 are disposed inside the frame 120 of the optical connector 100 and assembled with each other. By using the elastic force of the leaf spring 116 surrounding the main line matching member 110 of the ferrule 40 and the main line 42, 30 of the optical cable 10 is arranged to match the connection. The matching gel may be processed at the matching portions of the main lines.

And, when the matching of the main line through the main line matching member 110, the operation projection 240 of the wedge unit 200, which is an operation tool described in detail in FIG. 2, is inserted into the insertion hole 115 formed in the matching member. In case of falling, the leaf spring 116 is opened, and when the operation protrusion 240 of the wedge unit is separated from the insertion hole, the main lines of the optical cable and the ferrule are matched while the first and second matching members 112 and 114 are pressed. Assembly (connection) is performed.

On the other hand, Figure 2 shows a conventional arrangement matching using the wedge unit 200, which is the optical connector manipulation tool outlined in Figure 1, disclosed in US Patent Publication No. 2005/0129378.

That is, as shown in Figure 2, the ferrule (40) coupled with the adapter 150 to transmit the actual optical signal to the opposite optical cable (ferrule), the basic skeleton of the connector and the front is the housing 130 And a rear end of the first and second matching members 112 and 114, as shown in FIG. 1, are inserted into the frame 120. do.

In addition, the coating part 20 in which the outer shell 10 of the optical cable 1 is removed inside the optical connector frame 120 (actually, a protective fiber made of asbestos is wrapped between the outer shell and the secondary coating). When the main line 30 of the optical cable wrapped by the ferrule 40 is assembled (connected), the wedge unit 200 is used as described in FIG. 1.

At this time, although not indicated by a separate code, the main line of the optical cable is composed of an inner core of the glass material and a cladding surrounding it, and the silicon between the main line 30 and the secondary sheath 20 It may also be coated.

In addition, as shown in Figure 2, the frame 120 of the conventional optical connector 100, the operation projection 240 of the wedge unit 200 for the clamping operation during the assembly (connection) of each ferrule and the optical cable, Holes 122 and (H) are inserted.

In addition, the housing 130 to which the frame 120 is assembled is connected to the adapter 150 of FIG. 2, and the adapter 150 is connected to an outdoor terminal or an optical modem of each home.

Therefore, in the case of the conventional optical connector 100, the actual optical matching is implemented by pressing the clamps according to the leaf spring operation of the optical connector frame for manipulating the matching of the ferrule main line and the optical cable main line with the wedge unit.

However, such a conventionally known optical connector 100 has to use a mechanism such as a separate wedge unit 200, but such a conventional wedge unit 200 has a complex structure.

For example, as shown in FIG. 2, the wedge unit 200 is connected to the optical connector support 210 into which the optical connector frame is inserted 210 and the connecting portion 220 of the structure bent (bent) to provide elastic force and the connection portion. It is provided with a pressing portion 230 provided horizontally in the upper portion and the operating projections 240 in the lower portion.

Accordingly, when the pressing portion 230 of the conventional wedge unit 200 is pressed, the manipulation protrusion 240 is inserted into the insertion hole 115 of the matching member as shown in FIG. 1, so that the first and second matching members 112 are formed by the thickness of the manipulation protrusion. (114) forcibly open, at which time the main line of the optical cable and the ferrule for the optical connection can be aligned (insertion into the matching member so that the ends abut each other), the pressing portion 230 of the wedge unit 200 When the pressing portion is returned to its original position by the elastic force of the connecting portion 220 and the operating protrusion 240 is separated from the matching member inserting portion 115, the first and second matching are performed by the elastic force of the leaf spring 116. The members are tightly pressed against each other to enable field assembly of the main line (optical fiber).

As a result, since the wedge unit 200 having a complicated structure is used in the field assembly of the main line using the conventional optical connector, the number of parts of the wedge unit has a problem that the manufacturing cost increases. For example, since such a wedge unit 200 is almost used as a single-use in the field assembly, the higher the manufacturing cost of the wedge unit is to increase the cost burden.

On the other hand, the Republic of Korea Patent Publication No. 2005-0100400 also shows an optical fiber connecting jig, although not shown in the drawings, in the case of other conventional optical fiber connecting jig, such a structure is very complicated and only the jig production Significant cost is incurred, and the jig of the complicated structure actually causes inconvenience, as well as a very short life of the jig.

The present invention has been proposed to solve the conventional problems as described above, the object of the aspect is to simplify the structure of the jig or tool for the existing optical connector can reduce the number of parts to reduce the cost, especially in the field use In other words, to provide an optical connector control device for the optical connection that ultimately makes the optical communication construction easy and stable.

As one technical aspect for achieving the above object, the present invention is provided to enable the operation of the main line matching member in which the main line of the ferrule and the optical cable assembled on-site are matched and the elastic body is surrounded and pressed, A variable height matching member operating tool provided to operate the main line matching member based on the height difference during the operation;

delete

It is provided to enable a host connection including,
The height variable type matching member operation tool is a variable height operation protrusion provided to be wider than the height variable rail means provided on the matching member, and inserted into the insertion hole provided in the matching member while sliding seating on the height variable rail means; It provides an optical connector operating device comprising a rail mounting operation means comprising a.

In another aspect, the present invention, the main line of the optical cable to be assembled on the field with the ferrule is provided to enable the operation of the matching line matching member that is aligned and matched to the elastic body, the main line matching member during the sliding operation A matching member cooperating operation tool provided to operate the matching matching member in cooperation with;

delete

It is provided to enable a host connection including,
The matching member cooperative operation tool is provided with one or more movable operation means for sliding operation, and the lower portion of the movable operation means, the matching member cooperation type provided to operate the matching member while being inserted into the variable width insertion hole provided in the main matching member Provided is an optical connector control device including a control projection.

According to the present invention, it is possible to reduce the number of components by reducing the number of parts by simplifying the structure compared to the conventional jig or tool for the optical connector for the operation of the connector when the optical connection using the field-mounted optical connector first .

In particular, the present invention is to make the optical connector easily and stably at the time of optical connection in the actual field, thereby improving the optical connection work efficiency.

1 is an operation state diagram showing the main line matching of the optical cable and the ferrule using a conventional matching member and the leaf spring
FIG. 2 is a perspective view showing a wedge unit, which is a tool (jig) for operating an optical connector having a manipulation protrusion used in matching arrangement of FIG.
Figure 3 is a perspective view showing a state using a variable height matching member operating tool of the optical connector operating apparatus of the first embodiment according to the present invention
Fig. 4 is an exploded perspective view of Fig.
5 is a perspective view illustrating main parts of the main line matching member when the height variable type matching member operating tool of FIG. 3 is used;
6 is a front structural diagram showing an operating state of the height variable type matching member operating tool of the first embodiment of the present invention;
7 is a perspective view showing a state of use of the matching member cooperative operation tool of the optical connector operating device of the second embodiment of the present invention;
8 is an exploded perspective view of FIG. 7;
Figure 9 is a perspective view showing the main portion matching member inserted into the operation projection when using the matching member cooperative operation tool of the present invention
10 is a front structural diagram showing an operating state of the present invention matching member cooperation operation tool.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

First, in FIGS. 3 to 6 and 7 to 10, the variable height matching member operating tool 400 and the matching member cooperative operating tool which are the first and second embodiments of the optical connector operating apparatus for the main line connection according to the present invention. 500 are shown respectively.

Meanwhile, in the following description of the embodiment of the present invention, the optical cable and the ferrule are denoted by 10 units, the optical connector is 300 units, and the first and second embodiments are described by 400 units and 500 units, respectively. do.

In addition, since the arrangement of the optical cable and the ferrule has been described above, this embodiment is simplified.

Next, as shown in Figs. 3, 4 and 7, 8, prior to the description of the operation tools 400 and 500 of the first and second embodiments of the present invention, the operation tools are substantially connected to the operation tools. First, the optical connector 300 including the matching member 310 that is opened or held is described.

For example, as shown in FIGS. 4-6 and 8-10, respectively, the optical connector 300 basically includes the main line matching member 310.

The main line matching member 310 is, in particular, the main line 42 (30) is inserted into the main line passage (not shown) between each other by the elastic force of the C-shaped leaf spring which is an elastic body 320 fastened to the outside each other. The first and second matching members 312 and 314 are pressed to enable matching connection of the main line.

Of course, these first and second matching members are also closely assembled with each other and can be disassembled if necessary, but since the disassembly of the parts is virtually unnecessary once the optical connection is made, the first and second matching members are combined with the projections. The fastening structure such as the groove can be closely assembled to each other.

In this case, the first and second matching members 312 and 314 of the elastic spring 320 of the leaf spring are inserted into the main matching member 310 while the operation protrusions of the operation tools described in detail below are inserted or slide after insertion. Manipulation protrusion insertion holes (316, 316 ') are formed to enable the operation to open with an elastic force.

Of course, as will be described in detail below, these insertion openings enable the first and second matching members to be opened by varying the thickness of the manipulation projection or the width of the insertion opening itself.

Accordingly, as shown in FIGS. 4-6 and 8-10, the main lines 42 and 30 of the ferrule 40 and the optical cable 1 enter between the first and second matching members 312 and 314 on both sides. In the case where the operation protrusions are inserted into the matching member insertion hole, the first and second matching members remain open, and when the alignment of the main lines is completed, the operation protrusions are separated from the insertion hole, and the first and second matching members are matched by the elastic force of the elastic body. The members are in close contact with each other to enable matching connection of the main lines.

Meanwhile, although schematically illustrated in FIGS. 4 and 8, the proper length of the ferrule and the main line of the optical cable is adjusted in advance so that the optical signals are transmitted through proper contact with each other when the main lines are drawn into the optical connector.

At this time, the main line matching member 310 made of the first and second matching members 312 and 314 of the present invention and surrounded by the elastic body 320 of the leaf spring is frame-like, as shown in FIGS. 4 and 8. Assembled to the plug 340, the frame-plug 34 is assembled to the frame 330, and the frame 330 is assembled to the housing 350.

For example, one side of the main line matching member 310 is provided with an inlet 318 through which the coating portion 20 and the main line 30 of the optical cable 1 respectively enter, and the ferrule on the other side of the main line matching member 310. A ferrule inlet 320 is provided in which 40 is inserted.

In addition, one side of the frame plug 340, the outer shell 30 of the optical cable (1) is fitted and fixed, the lower side is cut to the optical cable fixing portion 342 and the matching member 310 is elastically operated. Matching member inlet 344 in which the upper and lower sides are cut may be provided.

At this time, the outer end of the frame-plug 340 may be integrally provided with a fastening end 346 to be fastened to the fastening groove 334 of the frame 330.

In addition, an opening 332 for extending the manipulation protrusion into the matching member is elongated at the upper portion of the frame 330, and fastened to the fastening portion 354 of the housing 350 at one side of the frame 330. And a fastening part 336 to be assembled.

Accordingly, the optical connector 300 according to the present invention, in which the operating tools of the present invention are used, has a matching member-> frame plug-> frame- in advance so as to stably implement the ferrule and main line matching connection as shown in FIGS. 3 and 7. By assembling and providing in order of the housing, it is possible to easily assemble by sliding operation of the operating tool 400 (500) of the present invention at the site of the optical connection.

In this case, a cover 44 covered by the ferrule 40 may be inserted into one side of the housing 350.

On the other hand, the main line matching member 310 of the present invention in Figures 4-6 and 8-10 is shown as a hexagonal structure when viewed from the front, but is not necessarily limited to this, only in the case of hexagon has the advantage of easy mold operation to provide.

Accordingly, the elastic body 320 that surrounds the first and second matching members 312 and 314 of the main matching member 310 of the present invention and opens the matching members at the time of initial matching and the initial matching lead, ie, the plate. The spring may be appropriately adjusted in shape corresponding to the structure of the matching member.

On the other hand, the structure of the optical connector 300 according to the present invention described so far is not necessarily limited to this embodiment, but may be a structure that can implement the main line matching connection, but can be manipulated using the operating tools.

Next, it looks at with respect to the manipulation tool 400, 500 that is the first and second embodiments of the present invention.

First, as shown in FIG. 3 to FIG. 6, the optical connector operating device for the connection of the first embodiment of the present invention basically includes the main line 30 of the optical cable 1 assembled with the ferrule 40 described above. (42) is provided to enable the operation of the main line matching member 310 is aligned and matched therein and the elastic body 320 is surrounded and pressed, the height variable type provided to operate the main line matching member via the height difference during the sliding operation Matching member operating tool 400 is included.

At this time, the height-variable type matching member operating tool 400 of the present invention, the height-variable rail means 410 provided on the matching member and the matching member 310 while sliding seated on the height-variable rail means 410. It may be configured to include a rail seating operation means 430 including a variable thickness operation protrusion 432 provided to be inserted into the insertion hole 316 provided in the) to open the main line matching member.

Therefore, as shown in Figures 4 to 6, the height-variable matching member operating tool 400 of the present invention is to be inserted into the insertion hole 316 of the matching member 310 to open the first and second matching members when operating. To this end, the height difference is formed, and the thickness (D1 of FIG. 6) of the manipulation protrusion 432 is provided as a variable thickness decreasing downward.

As a result, as shown in FIG. 6, when the height of the manipulation protrusion is maximally high, only the lower knife portion of the manipulation protrusion 432 is inserted into the insertion hole 316 of the matching member 310, but the manipulation protrusion 432 is the most. In the lower portion, the manipulation protrusion 432 is inserted with a depth into the matching member insertion hole 316, and the first and second matching members are forcibly opened because the thickness D1 of the manipulation protrusion is thicker upward. .

Of course, the cross-sectional thickness D1 of the manipulation protrusion 432 should be adjusted in advance so as to spread the first and second matching members to a desired degree in a state where the manipulation protrusion is sufficiently inserted into the insertion hole 316.

In addition, as shown in Figure 5, in the case of the height-variable operation tool 400 of the first embodiment of the present invention to form a size deviation that opens the first and second matching members, the thickness of the operation protrusion 432 Since it is a width | variety, the operation projection insertion hole 316 of a matching member should just be formed uniformly without the width change.

On the other hand, the height-variable rail means 410 that implements a substantially height difference in the height-variable matching member operating tool 400 of the first embodiment of the present invention shown in Figure 4, is provided on the matching member 310 Rail means body 412, and the inclined rail 414 provided on the rail means body and the operation means is seated and sliding to form a height difference.

At the same time, the rail seating type operating means 430 of the operating tool 400 of the first embodiment of the present invention is mounted on the rail means body and the inclined rail, the operating means body 434 and sliding operation, and the operating means body One or more provided at the lower portion of the through the operation projection through the opening 416 includes a variable thickness operation projection 432 inserted into the insertion hole 316 of the main line matching member.

Therefore, the height-variable rail means 410 is seated on the housing 350 of the optical connector 300 described above, and sliding the operation means 430, the lower reverse inclined surface 436 of the operation means body 434 is inclined The rail 414 is moved along the sliding slope with the height difference according to the inclination of the inclined rail.

That is, even if the reverse inclined surface 436 provided below the operating means body 434 of the present invention slides in contact with the inclined surface of the inclined rail 414, the reverse inclined surface 436 is formed at the bottom thereof. The body 434 is slid to form a height difference while maintaining horizontality.

At this time, preferably, as shown in Figure 4, one side of the rail means body 412 may be provided with a stopper portion 416 to limit the flow of the operation means.

Therefore, as shown in FIGS. 3 and 4, in the case of the height variable type matching member operating tool 400 of the present invention, when the rail means 410 of the operating tool is seated on the optical connector 300 and the operation means 430 is slid, As described above, the manipulation protrusion 432 below the means body opens the first and second matching members by changing the thickness width while being inserted into the matching member insertion hole 316.

On the other hand, more preferably, as shown in Figure 3 and 4, through the elastically fastened hook means 450 provided on one side of the bottom of the body 412 of the rail means 410, Height-variable rail means 410 can be used easily and conveniently linked to the optical connector.

That is, as shown in Figure 4, the hook means 450 is a plate structure of the lower portion is opened and curved at the front, and seated fastening to the cylindrical portion to one side of the optical connector, in particular, the frame-plug 340 through the opened portion If necessary, the rail means can be easily pulled out by pulling it up.

Next, FIGS. 7 to 10 show a matching member cooperative operation tool 500, which is an optical connector operating device of the second embodiment of the present invention.

That is, the matching member cooperative operation tool 500 of the present invention is the first and second matching members 312 and 314 of the main line matching member 310 in association with the optical connector 300 of the present invention described above. If necessary, the opening operation is provided.

For example, the matching member cooperating operation tool 500 of the present invention is provided to operate the matching member in cooperation with the matching member 310 during the sliding operation.

Such a matching member cooperative operation tool 500 of the present invention, as shown in Figures 8 to 10, specifically, the sliding operation means 510 is sliding operation, and the lower portion of the movable operation means 510 It is provided with at least one, it is to include a matching member cooperation operation projection 530 provided to operate the matching member while being inserted into the variable width insertion hole 316 'provided in the main line matching member 310.

Therefore, in order to use the matching member cooperative operation tool 500 of the present invention, the opening width of the insertion hole 316 'of the matching member 310 is gradually narrowed to S1-> S2 as shown in FIG. It is necessary, instead, the thickness of the operating projection 530 is constant.

More specifically, the variable width insertion hole 316 ′ of the main line matching member of the present invention is formed in the first and second matching members 312 and 314 to be symmetrical with each other, so that an operation protrusion 530 having a constant thickness may be used. From the first insertion opening 316'a having the opening width S1 to be inserted into the second insertion opening 316'b, the opening width of which is gradually narrowed to S2 provided to enable the operation of opening the matching member during sliding movement of the operating projection. Is done.

Therefore, as shown in FIGS. 8 and 9, the matching member cooperative operation tool 500 of the present invention holds the movable operation means 510 and inserts the lower operation protrusion 530 into the insertion hole 316 ′ of the matching member 310. In the case of inserting the first insertion opening 136'a having a wide opening width, and sliding the operation means, the operation projection 530 is forcibly moved to the second insertion opening 136 'with the opening width being narrowed. As the operation protrusion of a certain thickness is entered, the first and second matching members 312 and 314 of the matching member are opened while developing the leaf spring which is an elastic body.

Of course, if the movable operation means is moved in the opposite direction, the opening width is slightly larger than the thickness of the operation protrusion so that the first and second matching members are pressed by the elastic force of the elastic body 320 which is the leaf spring to enable main line matching.

Therefore, the matching member cooperative type described above means that the matching member can be operated in cooperation with each other through the structure interlocking of the manipulation protrusion and the matching member side insertion opening 136 ′.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that various changes and modifications can be made in the art without departing from the spirit or scope of the invention as set forth in the claims below. It is to be understood that one of ordinary skill can easily know.

1 .... optical cable 30 .... optical cable arrangement (optical fiber)
40 .... Ferrule 42 .... Ferrule Arrangement (Optical Fiber)
300 .... Optical connector 310 .... Host matching member
316,316 '.... Control projection slot 330 .... Frame
340 .... Frame-Plug 350 .... Housing
400 .... Height Variable Matching Member
410 .... Adjustable rail means 412 .... Body rail means
414 .... inclined rail 416 .... through opening
430 .... Rail-mounted control means 432 .... control projection
434 .... Control body 436 .... Reverse slope
450 .... Hook means 500 .... Matching member
510 .... Mobile control means 530 .... Matching member

Claims (11)

The ferrule 40 and the main lines 30 and 42 of the optical cable 1 to be assembled on-site are aligned and matched therein, and the elastic line 320 is provided so as to enable manipulation of the main line matching member 310 to be pressed. A variable height matching member operating tool 400 provided to operate the main line matching member via a height difference during a sliding operation;
It is provided to enable a host connection including,
The height-variable matching member operating tool is inserted into the insertion hole 316 provided in the matching member 310 while sliding seat mounted on the height-variable rail means 410 and the height-variable rail means, the main line matching And a rail seated manipulation means (430) comprising a variable thickness operating protrusion (432) provided to spread the member.
delete The method of claim 1,
The variable height rail means 410, the rail means body 412 provided on the matching member; And
An inclined rail 414 provided on the rail means body to form a height difference while the operation means is seated and slid;
Including,
The rail means body is provided with a manipulation projection through opening 416, the optical connector operating device.
The method of claim 3,
The rail seating operation means (430) comprises a control means body 434 is mounted on the rail means body and the inclined rail and sliding operation; And
One or more provided at a lower portion of the manipulation means body and passing through the manipulation protrusion through opening 416 and inserted into the insertion hole 316 of the main line matching member;
Optical connector control device comprising a.
5. The method of claim 4,
The lower portion of the operating means body 434 is formed with a reverse inclined surface 436 in contact with the inclination of the inclined rail is configured to be slidable to form a height difference while maintaining the horizontal,
One side of the rail means body 412 is an optical connector operating apparatus, characterized in that the stopper portion 416 is provided integrally to limit the flow of the operation means.
The method of claim 3,
A hook means 450 provided on the rail means body 412 and elastically fastened to the optical connector;
Optical connector control device further comprises.
The method according to claim 6,
The hook means 450 is provided in a curved structure so as to face the lower both sides of the rail means body 412 is elastically detachably fastened to the frame-plug 340 to which the main line matching member 310 is assembled. Optical connector control device, characterized in that.
The ferrule 40 and the main lines 30 and 42 of the optical cable 1 to be assembled on-site are aligned and matched therein, and the elastic line 320 is provided so as to enable manipulation of the main line matching member 310 to be pressed. A matching member cooperative operation tool 500 provided to operate the matching line matching member in cooperation with the matching line matching member during the sliding operation;
It is provided to enable a host connection including,
The matching member cooperating operation tool is provided at least one of the movable operation means 510 and the movable operation means for sliding operation, and inserted into the variable width insertion hole 316 ′ provided to the main matching member 310. Optical connector operating device comprising a matching member cooperative operation projection (530) provided to operate the matching member.
delete 9. The method of claim 8,
The variable width insertion hole 316 'of the main line matching member has a width gradually provided to enable an operation of opening the matching member when the operation protrusion is moved with the first insertion hole 316'a into which the operation protrusion 530 is inserted. Optical connector operating device, characterized in that consisting of a reducing second insertion port (316'b).
The method according to claim 1 or 8,
The main line matching member 310 is formed of first and second matching members 312 and 314 which form an operation protrusion insertion hole at one side and are assembled to align the ferrule and the optical cable main line while being assembled through the elastic body 320. Become,
The frame-plug 340 in which the main line matching member is inserted and assembled is assembled to the frame 330 assembled to the housing 350 and provided as an optical connector.

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