CN219506579U - Optical cable transportation tool - Google Patents

Abstract

The utility model discloses an optical cable transportation tool, which comprises a workbench body, wherein supporting columns are fixedly arranged at four corners of the lower end surface of the workbench body, universal wheels are fixedly arranged at the bottoms of the supporting columns, driving components for stabilizing the device are fixedly arranged at four corners of the upper end surface of the workbench body, and storage components for storing optical cables are arranged at the upper end surface of the workbench body; according to the OPGW optical cable storage device, the driving motor is arranged to drive the driving toothed belt wheel to rotate, the driving toothed belt wheel drives the driven toothed belt wheel to rotate through the driving toothed synchronous belt, the driven toothed belt wheel drives the threaded rod to rotate, and the threaded rod drives the telescopic rod below the top plate to move, so that the supporting block is driven to contact with the ground, the device is prevented from moving in the OPGW optical cable storage process, potential safety hazards are brought, the lifting ring is convenient to use a crane to hoist and move, and the device can be conveniently moved through the handle and the universal wheel.

Description

Optical cable transportation tool

Technical Field

The utility model relates to the technical field of transportation tools, in particular to an optical cable transportation tool.

Background

The optical fiber is placed in the ground wire of the overhead high-voltage transmission line to form an optical fiber communication network on the transmission line, and the structure has the dual functions of the ground wire and communication, which is commonly called OPGW optical cable, and the OPGW optical cable needs to be transported by a tool in a warehouse.

The utility model discloses a cable is placed and unloading frock car for CN206370640U is disclosed, including bottom plate and wheel to and set up the support body on the bottom plate, its characterized in that: the frame body is provided with a bearing A and a bearing B; the bottom plate is provided with a bearing C; the bearing A is connected with a sleeve; the bearing C is connected with a turntable. At least 8 bearings A are arranged; one side of the bearing A is connected to the frame body; a stop block is arranged on the other side of the bearing A; the sleeve is sleeved outside the bearing A.

However, the above structure has the disadvantage that the OPGW optical cable may move only by slight force due to the mobility of the rollers during the batch storage process, thereby bringing potential safety hazard.

Therefore, the utility model provides an optical cable transportation tool for solving the problems.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides an optical cable transportation tool, which solves the problems.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides an optical cable transportation frock, includes the workstation body, the equal fixed mounting in terminal surface four corners has the support column under the workstation body, equal fixed mounting in support column bottom has the universal wheel, the equal fixed mounting in terminal surface four corners has the drive assembly who is used for stabilizing this device on the workstation body, install the storage component who is used for depositing the optical cable in the middle of the workstation body up end.

The driving assembly comprises a fixed box fixedly mounted at four corners of the lower end face of the workbench body, a driving motor is fixedly mounted in the fixed box, the output end of the driving motor penetrates through the top of the workbench body through a bearing, a driving toothed belt wheel is mounted on one side, far away from the driving toothed belt wheel, of the upper end face of the workbench body, a driven toothed belt wheel is mounted on one side of the driving toothed belt wheel, a limiting sliding groove is formed in the outer side of the bottom of the driven toothed belt wheel in a rotating mode, the top of the workbench body and the driven toothed belt wheel are correspondingly provided with a limiting sliding groove, the limiting ring is rotationally connected in the limiting sliding groove, the driving toothed belt wheel and the driven toothed belt wheel are in transmission connection through a toothed synchronous belt, a threaded rod is in threaded connection with the axis of the driven toothed belt wheel, a through hole through which the threaded rod slides is matched and penetrates through is formed in the bottom of the workbench body, a supporting block is fixedly mounted on the lower end face of the threaded rod, a rubber pad is fixedly mounted on the outer wall of the supporting block, a top plate is fixedly mounted on the upper end face of the threaded rod, a top plate is located on two sides of the threaded rod, and the other end of the telescopic rod is fixedly mounted on the upper end face of the workbench body.

Preferably, the storage assembly comprises a base installed on the upper end face of the workbench body, upright posts are fixedly installed at four corners of the lower end face of the base, connecting rods are fixedly installed at four corners of the upper end face of the base, supporting plates are fixedly installed at the tops of the two symmetrical connecting rods, sleeves are fixedly installed at two sides of the tops of the two supporting plates, the outer wall of the upright posts is matched with the inner wall of the sleeves, two first circular grooves are formed in the middle of the tops of the supporting rods, two optical cable rolls are movably connected in the first circular grooves, supporting rods are rotatably connected to two sides of the optical cable rolls through rotating shafts, two same transverse plates are fixedly installed at the tops of the supporting rods, guide wheels for guiding optical cables are connected to the lower portions of the transverse plates, the optical cable rolls are located above the supporting rods, second circular grooves are formed in the bottoms of the convex blocks, bolts are connected with threaded holes in the two sides of the convex blocks through threaded holes in the tops of the supporting rods.

Preferably, the outer walls of the two side ends of the optical cable roller are matched with the inner parts of the first circular groove and the second circular groove.

Preferably, grooves are formed in two sides of the lower end of the base.

Preferably, handles are fixedly arranged on one side of the upper end face of the workbench body.

Preferably, the contact surfaces of the guide wheels and the optical cable are all concave arc-shaped.

Preferably, the two sides of the connecting rod are fixedly provided with hanging rings.

Preferably, a storage battery is fixedly arranged in the center of the lower end face of the workbench body, and the input end of the driving motor is connected with the storage battery through an external cable.

Advantageous effects

The utility model provides an optical cable transportation tool. Compared with the prior art, the method has the following beneficial effects:

(1) According to the OPGW optical cable storage device, the driving motor is arranged to drive the driving toothed belt wheel to rotate, the driving toothed belt wheel drives the driven toothed belt wheel to rotate through the driving toothed synchronous belt, the driven toothed belt wheel drives the threaded rod to rotate, and the threaded rod drives the telescopic rod below the top plate to move, so that the supporting block is driven to contact with the ground, and the device is prevented from moving in the OPGW optical cable storage process, so that potential safety hazards are brought.

(2) According to the utility model, through arranging the bolts and the convex blocks, the potential safety hazard caused by displacement in the process of moving the storage components can be prevented, through arranging the base in the storage components, a plurality of storage components can be longitudinally overlapped, the longitudinal space of a logistics warehouse can be effectively utilized, more positions are saved in the horizontal direction, the lifting ring is convenient to use a crane to hoist and move, the device can be conveniently moved through the handle and the universal wheels, and the rubber pad can prevent the device from deviating from the ground to influence the work.

Drawings

FIG. 1 is a perspective view of the external structure of the present utility model;

FIG. 2 is a front view of the internal structure of the present utility model;

FIG. 3 is a schematic diagram of a drive assembly of the present utility model;

FIG. 4 is a schematic diagram of a storage assembly of the present utility model;

fig. 5 is an enlarged schematic view at a of the present utility model.

In the figure 1, a workbench body; 2. a support column; 3. a universal wheel; 4. a groove; 5. a handle; 6. a hanging ring; 7. a storage battery; 100. a drive assembly; 101. a fixed box; 102. a driving motor; 103. driving a toothed belt wheel; 104. a driven toothed belt wheel; 105. a limiting ring; 106. limiting sliding grooves; 107. toothed synchronous belt; 108. a threaded rod; 109. a through hole; 110. a support block; 111. a rubber pad; 112. a top plate; 113. a telescopic rod; 200. a storage component; 201. a base; 202. a column; 203. a connecting rod; 204. a support plate; 205. a sleeve; 206. a first circular groove; 207. an optical cable roller; 208. a support rod; 209. a cross plate; 210. a cable duct; 211. a guide wheel; 212. a convex block; 213. a second circular groove; 214. and (5) a bolt.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiment one:

referring to fig. 1-5, an optical cable transportation tool comprises a workbench body 1, wherein support columns 2 are fixedly installed at four corners of the lower end face of the workbench body 1, universal wheels 3 are fixedly installed at the bottoms of the support columns 2, a driving assembly 100 for stabilizing the device is fixedly installed at four corners of the upper end face of the workbench body 1, and a storage assembly 200 for storing optical cables is installed in the middle of the upper end face of the workbench body 1.

The driving assembly 100 comprises a fixed box 101 fixedly arranged at four corners of the lower end surface of the workbench body 1, a driving motor 102 is fixedly arranged in the fixed box 101, the input end of the driving motor 102 is connected with a power supply through an external cable, the output end of the driving motor 102 penetrates through the top of the workbench body 1 through a bearing and is fixedly provided with a driving toothed belt wheel 103, one side, far away from the driving toothed belt wheel 103, of the upper end surface of the workbench body 1 is provided with a driven toothed belt wheel 104, the outer side of the bottom of the driven toothed belt wheel 104 is rotationally connected with a limiting ring 105, the top of the workbench body 1 and the driven toothed belt wheel 104 are provided with limiting sliding grooves 106 relative to the position, the limiting ring 105 is rotationally connected in the limiting sliding grooves 106, the driving toothed belt wheel 103 and the driven toothed belt wheel 104 are in transmission connection through a toothed synchronous belt 107, the axial center of the driven toothed belt wheel 104 is in threaded connection with a threaded rod 108, the bottom of the workbench body 1 is provided with a through hole 109 which is matched with the threaded rod 108 to slide through, the lower end surface of the threaded rod 108 is fixedly provided with a supporting block 110, the outer wall of the supporting block 110 is fixedly provided with a rubber pad 111, the rubber pad 111 can prevent the device from deviating from the ground to influence the work, the upper end surface of the threaded rod 108 is fixedly provided with a top plate 112, the lower end surface of the top plate 112 is positioned on two sides of the threaded rod 108 and is fixedly provided with telescopic rods 113, the other ends of the telescopic rods 113 are fixedly provided with the upper end surface of the workbench body 1, the device can be effectively stabilized in the OPGW optical cable storage process through the driving assembly 100, the device is prevented from moving, potential safety hazards are brought, when the device is required to be stabilized, the driving motor 102 is started to drive the driving toothed belt wheel 103 to rotate, the driving toothed belt 103 drives the driven toothed belt 104 to rotate through the toothed synchronous belt 107, the threaded rod 108 drives the telescopic rod 113 below the top plate 112 to move, so that the supporting block 110 is driven to contact with the ground, and the device is prevented from moving in the OPGW optical cable storage process, so that potential safety hazards are brought.

Embodiment two:

referring to fig. 1-5, the present embodiment provides a technical solution based on the first embodiment: the storage component 200 comprises a base 201 arranged on the upper end surface of a workbench body 1, upright posts 202 are fixedly arranged at four corners of the lower end surface of the base 201, connecting rods 203 are fixedly arranged at four corners of the upper end surface of the base 201, supporting plates 204 are fixedly arranged at the tops of the two symmetrical connecting rods 203, sleeves 205 are fixedly arranged at two sides of the tops of the two supporting plates 204, the outer wall of the upright posts 202 is matched with the inner wall of the sleeves 205, a first circular groove 206 is formed in the middle of the tops of the two supporting plates 204, optical cable rolls 207 are movably connected in the two first circular grooves 206, two sides of each optical cable roll 207 are rotatably connected with supporting rods 208 through rotating shafts, the tops of the two supporting rods 208 are fixedly provided with the same transverse plate 209, a cable guiding tube 210 parallel to the ground is connected below the transverse plate 209, a plurality of guiding wheels 211 for guiding the optical cables are arranged on the inner wall of the cable guiding tube 210, the optical cable rolls 207 are positioned above the supporting plates 204 and are provided with convex blocks 212, the bottom of the convex block 212 is provided with a second circular groove 213, both sides of the convex block 212 are respectively connected with a bolt 214 through screw holes, the bolts 214 are respectively connected with screw holes at the top of the supporting plate 204 through screw holes on the convex block 212, the outer walls of both sides of the optical cable roll 207 are respectively matched with the interiors of the first circular groove 206 and the second circular groove 213, the OPGW optical cable can be effectively stored through the arranged storage component 200, when the OPGW optical cable is required to be stored, the bolts 214 are taken out from the screw holes, the convex block 212 is separated from the supporting plate 204, then the optical cable roll 207 is placed in the interior of the first circular groove 206, a plurality of guide wheels 211 in the cable guide tube 210 can lead the optical cable to be in a straightened state when the optical cable is wound on the optical cable roll 207, then the convex block 212 is combined with the supporting plate 204, the bolts 214 are screwed, both sides of the lower end of the base 201 are provided with grooves 4, the recess 4 is convenient for fork truck transport storage module 200, and equal fixed mounting in terminal surface one side has handle 5 on the workstation body 1, and handle 5 is convenient for the staff promote this device, and a plurality of leading wheel 211 all is concave arc with the optical cable contact surface, and two equal fixed mounting in both sides of connecting rod 203 have rings 6, and rings 6 are convenient for the crane hoist and mount and remove storage module 200, and terminal surface central point puts fixed mounting to have battery 7 under the workstation body 1, and battery 7 is connected through external cable to driving motor 102 input.

And all that is not described in detail in this specification is well known to those skilled in the art.

During operation, firstly, a worker moves the device to a working place through the handle 5 and the universal wheel 3, then, the driving motor 102 is started to drive the driving toothed belt pulley 103 to rotate, the driving toothed belt pulley 103 drives the driven toothed belt pulley 104 to rotate through the driving toothed synchronous belt 107, the driven toothed belt pulley 104 drives the threaded rod 108 to rotate, the threaded rod 108 drives the telescopic rod 113 below the top plate 112 to move, thereby driving the supporting block 110 to contact with the ground, the device is prevented from moving in the OPGW optical cable storage process, potential safety hazards are brought, then, the bolt 214 is taken out from the threaded hole, the convex block 212 is separated from the supporting plate 204, the optical cable roller 207 is placed into the first circular groove 206, the plurality of guide wheels 211 in the cable duct 210 can enable the optical cable to be in a straightening state when the optical cable is wound on the optical cable roller 207, then, the convex block 212 is combined with the supporting plate 204, the bolt 214 is screwed up, the optical cable roller 207 cannot be displaced in the moving process, the potential safety hazards are generated, the plurality of storage components 200 can be longitudinally overlapped by inserting the upright posts 202 on the top storage component 200 into the corresponding sleeve inner walls 205, the longitudinal warehouse space can be effectively utilized, the longitudinal warehouse space of the physical distribution can be further saved, the lifting fork truck can be conveniently moved to the storage component 200 through the lifting fork truck 200 in the horizontal direction 4, and the lifting component can be conveniently moved by the lifting fork truck 200 through the lifting truck 200.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Optical cable transportation frock, including workstation body (1), its characterized in that: support columns (2) are fixedly arranged at four corners of the lower end face of the workbench body (1), universal wheels (3) are fixedly arranged at the bottoms of the support columns (2), driving assemblies (100) for stabilizing the device are fixedly arranged at four corners of the upper end face of the workbench body (1), and storage assemblies (200) for storing optical cables are arranged in the middle of the upper end face of the workbench body (1);

the driving assembly (100) comprises a fixed box (101) fixedly arranged at four corners of the lower end face of the workbench body (1), a driving motor (102) is fixedly arranged in the fixed box (101), the output end of the driving motor (102) penetrates through the top of the workbench body (1) through a bearing to be fixedly provided with a driving toothed belt wheel (103), one side, far away from the driving toothed belt wheel (103), of the upper end face of the workbench body (1) is provided with a driven toothed belt wheel (104), the outer side of the bottom of the driven toothed belt wheel (104) is rotationally connected with a limiting ring (105), the top of the workbench body (1) and the driven toothed belt wheel (104) are correspondingly provided with limiting sliding grooves (106), the limiting ring (105) is rotationally connected in the limiting sliding grooves (106), the driving toothed belt wheel (103) and the driven belt wheel (104) are in transmission connection through a toothed synchronous belt (107), the axis position of the driven toothed belt wheel (104) is in threaded connection with a threaded rod (108), the bottom of the workbench body (1) is provided with a through hole (109) which is matched with the threaded rod (108) to slide, the end face (108) is fixedly provided with a rubber pad (110), the upper end face of the threaded rod (108) is fixedly provided with a top plate (112), the lower end face of the top plate (112) is positioned on two sides of the threaded rod (108) and is fixedly provided with telescopic rods (113), and the other ends of the telescopic rods (113) are fixedly arranged on the upper end face of the workbench body (1).

2. The optical cable transportation tool according to claim 1, wherein: the storage component (200) comprises a base (201) arranged on the upper end face of a workbench body (1), upright posts (202) are fixedly arranged at four corners of the lower end face of the base (201), connecting rods (203) are fixedly arranged at four corners of the upper end face of the base (201), supporting plates (204) are fixedly arranged at the tops of the two connecting rods (203), sleeves (205) are fixedly arranged at two sides of the tops of the two supporting plates (204), the outer wall of the upright posts (202) is matched with the inner wall of the sleeves (205), a first circular groove (206) is formed in the middle of the tops of the two supporting plates (204), optical cable rollers (207) are movably connected in the two first circular grooves (206), supporting rods (208) are rotatably connected to the two sides of the optical cable rollers (207) through rotating shafts, identical transverse plates (209) are fixedly arranged at the tops of the two supporting rods (208), guide wheels (211) for guiding optical cables are arranged on the inner walls of the two guide cables (210) and are connected to the lower sides of the transverse plates (209) and are parallel to the ground, a plurality of guide optical cable rollers (211) are arranged on the inner walls of the guide cables (212), the two guide cables (212) are arranged on the two sides of the supporting plates (212), the bolts (214) are in threaded connection with threaded holes at the top of the supporting plate (204) through threaded holes in the convex blocks (212).

3. The optical cable transportation tool according to claim 2, wherein: the outer walls of the two side ends of the optical cable roller (207) are matched with the inner parts of the first circular groove (206) and the second circular groove (213).

4. The optical cable transportation tool according to claim 2, wherein: grooves (4) are formed in two sides of the lower end of the base (201).

5. The optical cable transportation tool according to claim 1, wherein: handles (5) are fixedly arranged on one side of the upper end face of the workbench body (1).

6. The optical cable transportation tool according to claim 2, wherein: the contact surfaces of the guide wheels (211) and the optical cable are concave arc-shaped.

7. The optical cable transportation tool according to claim 2, wherein: hanging rings (6) are fixedly arranged on two sides of the two connecting rods (203).

8. The optical cable transportation tool according to claim 1, wherein: the center of the lower end face of the workbench body (1) is fixedly provided with a storage battery (7), and the input end of the driving motor (102) is connected with the storage battery (7) through an external cable.