CN217932208U - Suspended storage rack - Google Patents

Abstract

The utility model relates to a suspension type storage frame belongs to the overhead installation storage optical cable's of power communication shaft tower technical field, and it is including the second connecting piece that is used for fixing mounting, first connecting piece, surplus cable frame on the shaft tower and is used for connecting optical cable, first connecting piece one end is fixed on the mounting, the other end is connected surplus cable frame, surplus cable frame is kept away from the second connecting piece is connected to the one end of first connecting piece. The present application has the following effects: the surplus cable frame is not directly established on the shaft tower, can not occupy the limited space of shaft tower itself to when being under construction or maintaining the installed part on original shaft tower, surplus cable frame can not cause local obstacle yet, under the prerequisite that can save surplus optical cable guaranteeing, has promoted the space utilization of shaft tower.

Description

Suspended storage rack

Technical Field

The application relates to the technical field of overhead storage optical cables installed on power communication towers, in particular to a suspended storage rack.

Background

Electric power communication shaft tower is when setting up the optical cable, because the production length of optical cable is limited, the continuation of optical cable is inevitable, consequently, often reserve surplus optical cable in shaft tower department, often set up one kind in shaft tower department in order to deposit surplus optical cable, but present surplus cable frame generally adopts the mode of direct fixation, it is fixed on above with shaft tower direct contact promptly to remain cable frame, because it has certain volume to remain cable frame, can occupy the space of shaft tower, so it fixes on the shaft tower after, the space of reserving for other installed parts is just less, to newly erect the optical cable, lead to the ground wire, and cause inconvenience when constructing or maintaining to the product on original shaft tower, cause the influence that local obstacle blockked, wait to improve.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that surplus cable frame occupies shaft tower space, this application provides a suspension type storage frame.

The application provides a suspended storage rack adopts following technical scheme:

a suspended storage rack comprises a fixing piece, a first connecting piece, a residual cable frame and a second connecting piece, wherein the fixing piece is used for being fixed on a tower, the second connecting piece is used for connecting an optical cable, one end of the first connecting piece is fixed on the fixing piece, the other end of the first connecting piece is connected with the residual cable frame, and one end, far away from the first connecting piece, of the residual cable frame is connected with the second connecting piece.

By adopting the technical scheme, the fixing piece is fixed on the tower, the remaining cable frame is connected to the fixing piece through the first connecting piece, one end of the second connecting piece is connected with the remaining cable frame, and the other end of the second connecting piece is connected with the optical cable, so that the remaining cable frame is suspended and fixed, and the remaining optical cable is stored on the remaining cable frame. Through this kind of design, remaining cable frame does not directly establish on the shaft tower, can not occupy the limited space of shaft tower itself, so can continue to erect the installed part of other optical cables or lead ground wire etc. on the shaft tower to when being under construction or maintaining the installed part on original shaft tower, remaining cable frame can not cause local obstacle yet, influences the operation. The overall design can promote the usable space of the tower and is convenient to use on the premise of ensuring the storage of surplus optical cables.

Preferably, the fixing part comprises a steel belt hoop and a steel belt connecting support, a connecting hole is formed in the steel belt connecting support, and the steel belt hoop penetrates through the connecting hole.

Through adopting above-mentioned technical scheme, thereby the steel band staple bolt can encircle on the pole and pass the trompil on the steel band connection support and fix the steel band connection support, and the installation is simple and easy and firm.

Preferably, the steel belt connecting support comprises a first fixing plate, a second fixing plate and a third fixing plate, the second fixing plate is fixedly connected to two ends of the first fixing plate, the third fixing plate is fixedly connected to one end, far away from the first fixing plate, of the second fixing plate, and the connecting hole is formed in the second fixing plate.

Through adopting above-mentioned technical scheme, be connected with the second fixed plate between first fixed plate and the third fixed plate, the steel band is connected the support and is adopted this kind of structural style and be convenient for set up the trompil, and simply firm, and the trompil setting is on the second fixed plate, thereby the design of trompil makes the steel band staple bolt wear to locate the steel band and connect the support and fix the steel band connection support.

Preferably, the first connecting piece comprises a first connecting ring, a second connecting ring and a connecting column, one end of the connecting column is connected with the first fixing plate, the other end of the connecting column is connected with the first connecting ring, the first connecting ring is buckled with the second connecting ring, and the second connecting ring is connected with the residual cable rack.

Through adopting above-mentioned technical scheme, first connecting piece one end is used the spliced pole to be connected the support with the steel band and is connected, the other end passes through the fix with screw and is connected with surplus cable frame, adopt this kind of mode to connect, it is simple firm, easy operation, in addition, adopt the connected mode that first go-between and second go-between detained mutually, make the optical cable have certain activity space on vertical face, and the length of whole first connecting piece has been increased, make surplus cable frame can place one section distance department of keeping away from the shaft tower, more spaces are vacated for the use of shaft tower.

Preferably, the second connecting ring is connected with the surplus cable frame through a first connecting piece, the first connecting piece is arranged on the second connecting ring, and the first connecting piece is connected with the surplus cable frame.

Through adopting above-mentioned technical scheme, set up first connecting piece at the both ends of second go-between, first connecting piece passes through the screw to be connected with surplus cable frame, and is simple and easy firm to use first connecting piece can increase with the area of contact of surplus cable frame, increase the installation steadiness.

Preferably, the residual cable frame comprises transverse flat steel and longitudinal flat steel, the transverse flat steel is fixedly connected with the longitudinal flat steel, the two ends of the transverse flat steel are connected with first flat steel, the first flat steel is far away from one end of the transverse flat steel is connected with second flat steel, the transverse flat steel, the first flat steel and the second flat steel are combined to form a storage space for placing an optical cable, the two ends of the longitudinal flat steel are connected with third flat steel, the third flat steel is far away from one end of the longitudinal flat steel is connected with fourth flat steel, the longitudinal flat steel, the third flat steel and the fourth flat steel are combined to form a storage space for placing the optical cable, one end of the transverse flat steel is connected with a first connecting steel sheet, the other end of the transverse flat steel is connected with a second connecting steel sheet, the first connecting steel sheet is connected with a first connecting piece, and the second connecting steel sheet is connected with a second connecting piece.

By adopting the technical scheme, the optical cable generally adopts the mode of rolling up and putting, connect first band steel at the both ends of horizontal band steel, the second band steel is connected to the one end of keeping away from horizontal band steel at first band steel, connect the third band steel at the both ends of vertical band steel, the fourth band steel is connected to the one end of keeping away from vertical band steel at the third band steel, horizontal band steel, the storage space and the vertical band steel that first band steel and second band steel formed, the storage space that third band steel and fourth band steel formed is the use of placing of surplus optical cable, provide the guarantee for the continuation of optical cable, connect first connecting steel sheet and second connecting steel sheet at the both ends of horizontal band steel, be for being connected with first connecting piece and second connecting piece in order to facilitate.

Preferably, the transverse flat steel and the longitudinal flat steel are both provided with mounting holes, and the mounting holes are used for additionally-arranged mounting pieces.

Through adopting above-mentioned technical scheme, horizontal band steel and vertical band steel all are equipped with the mounting hole, and the purpose provides the mounting hole for the installed part that additionally adds.

Preferably, the second connecting piece comprises a second connecting piece, a connecting portion and an optical cable preformed armor rod, two ends of the connecting portion are connected with the second connecting piece, the connecting portion is sunken towards the direction close to the rest of the cable frame, the second connecting piece is connected with the connecting steel sheet, the optical cable preformed armor rod is connected with the connecting portion, and the optical cable preformed armor rod is used for connecting an optical cable.

By adopting the technical scheme, the second connecting piece is connected with the rest cable frame through the second connecting piece, the connecting part is connected with the second connecting piece, the optical cable preformed armor rods are connected with the connecting part, the connecting part is sunken to be matched with the shape of the optical cable preformed armor rods, and the optical cable preformed armor rods are sleeved on the optical cable, so that the optical cable is fixedly connected with the second connecting piece.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the residual cable frame is not arranged on the tower, and the limited space of the tower can not be occupied, so that installation parts such as other optical cables or ground wires can be continuously erected on the tower, and the residual cable frame can not cause local obstacles and influence the operation when the installation parts on the original tower are constructed or maintained. On the premise of ensuring that surplus optical cables can be stored, the available space of the tower is also increased.

2. The first connecting ring and the second connecting ring are buckled with each other, so that the optical cable has a certain moving space on a vertical surface, the length of the whole first connecting piece is increased, the residual cable frame can be placed at a distance away from a tower, and more space is made for the use of the tower.

3. The transverse flat steel, the first flat steel and the second flat steel form a storage space capable of storing surplus optical cables, and the longitudinal flat steel, the third flat steel and the fourth flat steel also form a storage space capable of storing surplus optical cables, so that a guarantee is provided for splicing of the optical cables.

Drawings

Fig. 1 is a schematic view of the overall structure of a suspended storage rack according to an embodiment of the present application.

Fig. 2 is an enlarged view of a in fig. 1.

Fig. 3 is a schematic structural view of the remaining cable rack of the present application.

Fig. 4 is a schematic view of a connection structure of the remaining cable rack and the second connecting member according to the embodiment of the present application.

Fig. 5 is an enlarged view of B in fig. 4.

Description of reference numerals: 1. a fixing member; 11. steel belt hooping; 12. the steel belt is connected with the support; 121. a first fixing plate; 122. a second fixing plate; 123. a third fixing plate; 124. connecting holes; 2. a first connecting member; 21. connecting columns; 22. a first connecting ring; 23. a second connection ring; 24. a first connecting piece; 3. a surplus cable frame; 31. transverse flat steel; 311. a first flat steel; 312. a second flat steel; 313. a first connecting steel sheet; 314. a second connecting steel sheet; 32. longitudinal flat steel; 321. a third flat steel; 322. a fourth flat steel; 33. mounting holes; 4. a second connecting member; 41. a second connecting sheet; 42. a connecting portion; 43. pre-stranding an optical cable; 5. a pole tower; 6. an optical cable.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses suspended storage rack, refer to fig. 1, including mounting 1, first connecting piece 2, surplus cable frame 3 and second connecting piece 4, 2 one ends of first connecting piece are fixed on mounting 1, and surplus cable frame 3 is connected to the other end, and second connecting piece 4 is connected to the one end that surplus cable frame 3 kept away from first connecting piece 2.

The fixing piece 1 is fixed on the tower 5, one end of the first connecting piece 2 is fixedly connected with the fixing piece 1, the other end of the first connecting piece is connected with the residual cable frame 3, one end, far away from the first connecting piece 2, of the residual cable frame 3 is connected with the second connecting piece 4, and the second connecting piece 4 is connected with the optical cable 6, so that the residual cable frame 3 is suspended and fixed. Because surplus cable frame 3 has certain volume, compare on shaft tower 5 with the snap-on, this kind of fixed mode, surplus cable frame 3 does not contact with shaft tower 5, does not occupy shaft tower 5's space, can not cause the influence to the operation of subsequently setting up new optical cable 6 or earth connection etc. has improved the utilization ratio in shaft tower 5 space to when being under construction or maintaining the installed part on original shaft tower 5, surplus cable frame 3 also can not cause local obstacle.

Referring to fig. 1 and 2, the fixing member 1 includes a steel belt anchor ear 11 and a steel belt connecting support 12, the steel belt connecting support 12 includes a first fixing plate 121, a second fixing plate 122 and a third fixing plate 123, the second fixing plate 122 is fixedly connected to two sides of the first fixing plate 121, the third fixing plate 123 is fixedly connected to one side of the second fixing plate 122 away from the first fixing plate 121, the third fixing plate 123 is provided with two fixing plates, and is in contact with the tower 5, the first fixing plate 121, the second fixing plate 122 and the third fixing plate 123 are in a shape like a Chinese character 'ji' after being assembled, two connecting holes 124 are formed in the two second fixing plates 122, the steel belt anchor ear 11 surrounds the tower 5 and is fixed with the tower 5 through a buckle, the steel belt anchor ear 11 is provided with two connecting holes, and each steel belt anchor ear 11 sequentially penetrates through the two connecting holes 124 formed in the two second fixing plates 122.

Support 12 is connected to steel band adopts this kind of structure, be convenient for set up connecting hole 124 on support 12 is connected to the steel band, on the other hand, the area of contact of support 12 and shaft tower 5 is connected to the increase steel band to increase frictional force between the two, it is more firm to make the connection, two steel band staple bolts 11 all pass connecting hole 124 on two second connecting plates, steel band staple bolt 11 locks are fixed with shaft tower 5, thereby connect support 12 with the steel band and fix on shaft tower 5, provide the fixed department for subsequent installation annex.

The first connecting member 2 includes a connecting column 21, a first connecting ring 22 and a second connecting ring 23, one end of the connecting column 21 is welded and fixed to the first fixing plate 121, and the other end of the connecting column is welded and fixed to the first connecting ring 22, the first connecting ring 22 and the second connecting ring 23 are fastened with each other, the first connecting ring 22 is a circular ring, the second connecting ring 23 is a U-shaped ring, the second connecting ring 23 is connected to the remaining cable frame 3 through a first connecting piece 24, the first connecting piece 24 is fixedly connected to two ends of the second connecting ring 23, and the two first connecting pieces 24 are connected to the remaining cable frame 3 through screws.

The connecting column 21 is used for realizing the fixed connection of the first connecting ring 22 and the first fixing plate 121, and a connecting mode that the first connecting ring 22 and the second connecting ring 23 are buckled is adopted, so that a certain moving space is provided for the surplus cable frame 3 on a vertical surface, the length of the whole first connecting piece 2 is increased, the surplus cable frame 3 can be placed at a distance away from the tower 5, and more space is reserved for the use of the tower 5; the first connecting piece 24 is connected with the residual cable rack 3, so that the screw hole is easier to open compared with a U-shaped ring, and the contact area between the first connecting piece 24 and the residual cable rack 3 is larger, so that the connection is more stable.

Referring to fig. 3 and 4, the remaining cable rack 3 includes a transverse flat steel 31 and a longitudinal flat steel 32, the transverse flat steel 31 and the longitudinal flat steel 32 are fixedly connected by screws, and after connection, the transverse flat steel 31 and the longitudinal flat steel 32 are cross-shaped, the number of the screws is two, the superposed surface of the joint of the transverse flat steel 31 and the longitudinal flat steel 32 is rectangular, the rectangle has two diagonal lines, the two screws are arranged on the same diagonal line of the rectangle, the two ends of the transverse flat steel 31 are connected with first flat steel 311, the two first flat steel 311 and the transverse flat steel 31 are ninety degrees in length direction, the first flat steel 311 is connected with the second flat steel 312 at one end far away from the transverse flat steel 31, the two second flat steel 312 and the first flat steel 311 connected are ninety degrees in length direction and parallel to the transverse flat steel 31, the first flat steel 311 and the second flat steel 312 are combined to form a storage space capable of placing the optical cable 6, the two ends of the longitudinal flat steel 32 are connected with third flat steel 321, the two third flat steel 32 and the longitudinal flat steel 32 are connected with the nineteen flat steel 322, the nineteen flat steel 322 and the longitudinal flat steel 322 are connected to form a storage space capable of placing optical cable 322; one end of the transverse flat steel 31 is fixedly connected with a first connecting steel sheet 313, the first connecting steel sheet 313 is connected with the first connecting sheet 24 through a screw, the other end of the transverse flat steel 31 is fixedly connected with a second connecting steel sheet 314, and the second connecting steel sheet 314 is connected with the second connecting piece 4 through a screw; be equipped with two mounting holes 33 on the horizontal band steel 31, two mounting holes 33 equal from the distance of connecting the central point, also be equipped with two mounting holes 33 on the vertical band steel 32, two mounting holes 33 equal from the distance of connecting the central point, vertical band steel 32 adopts asymmetric design, and whole vertical band steel 32 is unequal from the distance of connecting the central point promptly, and the vertical band steel 32 that is located the top is less than the distance of the vertical band steel 32 that is located the below from connecting the central point.

Two fix with screws on the same diagonal line of horizontal band steel 31 and vertical band steel 32 coincidence face, make horizontal band steel 31 and vertical band steel 32 difficult emergence relative rocking, it is more firm to connect, horizontal band steel 31, first band steel 311 and the combination of second band steel 312 form storage space, and vertical band steel 32, third band steel 321 and the combination of fourth band steel 322 form storage space and are used for placing surplus optical cable 6, this kind of design, the equipment is simple and practical, the design of first connecting steel piece 313 and second connecting steel piece 314, be convenient for be connected with first connecting piece 24 and second connecting piece 4 at both ends, add mounting hole 33, supply to additionally erect new installed part and use, the vertical band steel 32 that is located the top is less than the distance of the vertical band steel 32 that is located the below from the central point of connection, make the centre of gravity behind the unsettled installation of whole surplus cable frame 3 downwards, stability in the use of surplus cable frame 3 has been promoted.

Referring to fig. 5, the second connecting member 4 includes a second connecting piece 41, a connecting portion 42 and an optical cable preformed armor rod 43, the second connecting piece 41 is divided into two pieces, two ends of the connecting portion 42 are both fixedly connected with the second connecting piece 41, the two second connecting pieces 41 are connected with a second connecting steel sheet 314 through screws, the connecting portion 42 is recessed toward the direction close to the remaining cable frame 3, one end of the optical cable preformed armor rod 43 is connected with the connecting portion 42, and the other end is used for sleeving the optical cable 6.

The two second connecting pieces 41 are connected with the second connecting steel sheets 314 through screws, the assembly is simple and stable, the connecting portion 42 is sunken towards the direction close to the rest cable frame 3 to match with the shape of the deformation of one end of the optical cable preformed armor rods 43, and the optical cable preformed armor rods 43 are connected with the optical cable 6 more stably.

The implementation principle of a suspended storage rack in the embodiment of the application is as follows: the steel belt connecting support 12 is fixed on the tower 5 through the steel belt anchor ear 11, then the first connecting ring 22 is welded on the steel belt connecting support 12, the second connecting ring 23 is buckled with the first connecting ring 22, so that the first connecting piece 2 is fixed on the steel belt connecting support 12, then the second connecting ring 23 is connected with the first connecting steel sheet 313 at one end of the residual cable frame 3 through the first connecting sheet 24, the second connecting steel sheet 314 at the other end of the residual cable frame 3 is connected with the second connecting sheet 41 through a screw, so that the residual cable frame 3 is connected with the first connecting piece 2, two ends of the second connecting sheet 41 are connected with the connecting part 42, the optical cable preformed wire 43 is connected with the connecting part 42, and the optical cable preformed wire 43 is connected with the optical cable 6, so that the second connecting piece 4 is connected with the residual cable frame 3 and the optical cable 6, the tower 5, the steel belt anchor ear 11, the steel belt connecting support 12, the first connecting piece 2, the residual cable frame 3, the second connecting piece 4 and the optical cable 6 are sequentially connected, and accordingly the suspended fixation of the residual cable frame 3 is realized.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a suspension type storage rack, its characterized in that, is including being used for fixing mounting (1), first connecting piece (2), surplus cable frame (3) on shaft tower (5) and second connecting piece (4) that are used for connecting optical cable (6), first connecting piece (2) one end is fixed on mounting (1), the other end is connected surplus cable frame (3), keep away from surplus cable frame (3) second connecting piece (4) are connected to the one end of first connecting piece (2).

2. The suspended storage rack according to claim 1, wherein the fixing member (1) comprises a steel band hoop (11) and a steel band connecting support (12), the steel band connecting support (12) is provided with a connecting hole (124), and the steel band hoop (11) passes through the connecting hole (124).

3. The suspended storage rack according to claim 2, wherein said steel strip connecting support (12) comprises a first fixing plate (121), a second fixing plate (122) and a third fixing plate (123), said second fixing plate (122) is fixedly connected to both ends of said first fixing plate (121), said third fixing plate (123) is fixedly connected to one end of said second fixing plate (122) far from said first fixing plate (121), and said connecting hole (124) is arranged on said second fixing plate (122).

4. A suspended storage rack according to claim 3, characterized in that said first connecting member (2) comprises a first connecting ring (22), a second connecting ring (23) and a connecting column (21), said connecting column (21) being connected at one end to said first fixing plate (121), said connecting column (21) being connected at the other end to said first connecting ring (22), said first connecting ring (22) being interlocked with said second connecting ring (23), said second connecting ring (23) being connected to said remaining cable rack (3).

5. A suspended storage rack according to claim 4, characterized in that the second connecting ring (23) is connected to the surplus cable rack (3) by means of a first connecting piece (24), the first connecting piece (24) being provided on the second connecting ring (23), the first connecting piece (24) being connected to the surplus cable rack (3).

6. The suspended storage rack according to claim 5, wherein the remaining cable rack (3) comprises a transverse flat steel (31) and a longitudinal flat steel (32), the transverse flat steel (31) and the longitudinal flat steel (32) are fixedly connected, two ends of the transverse flat steel (31) are connected with a first flat steel (311), one end of the first flat steel (311) far away from the transverse flat steel (31) is connected with a second flat steel (312), the transverse flat steel (31), the first flat steel (311) and the second flat steel (312) are combined to form a storage space for placing the optical cable (6), two ends of the longitudinal flat steel (32) are connected with a third flat steel (321), one end of the third flat steel (321) far away from the longitudinal flat steel (32) is connected with a fourth flat steel (322), the longitudinal flat steel (32), the third flat steel (321) and the fourth flat steel (322) are combined to form a storage space for placing the optical cable (6), one end of the transverse flat steel (31) is connected with a first connecting piece (313), and the other end of the first flat steel (31) is connected with a first connecting piece (314), and the other end of the first connecting piece (314) is connected with the second connecting piece (314).

7. A suspended storage rack according to claim 6, characterized in that the transverse flats (31) and the longitudinal flats (32) are each provided with mounting holes (33), the mounting holes (33) being provided for additional added mounting.

8. A suspended storage rack according to claim 6, characterized in that the second connecting part (4) comprises a second connecting piece (41), a connecting part (42) and a cable preformed strand (43) for connecting the cable (6), both ends of the connecting part (42) are connected with the second connecting piece (41), the connecting part (42) is recessed towards the remaining cable rack (3), the second connecting piece (41) is connected with the second connecting steel sheet (314), and the cable preformed strand (43) is connected with the connecting part (42).

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