CN110596843A

CN110596843A - Cable bundling device

Info

Publication number: CN110596843A
Application number: CN201910888143.3A
Authority: CN
Inventors: 张永飞
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-09-19
Filing date: 2019-09-19
Publication date: 2019-12-20
Anticipated expiration: 2039-09-19
Also published as: CN110596843B

Abstract

The embodiment of the invention discloses a cable binder, which relates to the field of binding tools and comprises a steel wire binding device and two rope climbing devices, wherein the steel wire binding device comprises a fixed base plate, a gear driving motor, a transmission assembly, a gear mounting seat, two binding steel wire discs and a non-closed toothed ring, a bearing rail and a toothed ring rail are arranged on the inner side of the gear mounting seat, the non-closed toothed ring is rotatably arranged in the toothed ring rail, the two binding steel wire discs are respectively connected with one side, away from the fixed base plate, of the non-closed toothed ring through a steel wire disc mounting frame, a gear meshed with the non-closed toothed ring is rotatably arranged in each through hole, and a rotating shaft of the gear is connected with a rotating shaft of the gear driving motor. The steel strand wires and the optical cables can be automatically bundled together through the cable bundling device, the steel wire bundling device can move along the length direction of the steel strand wires under the driving of the rope climbing device, the parts needing to be bundled are bundled one by one, the operation efficiency is higher, and the safety is higher.

Description

Cable bundling device

Technical Field

The embodiment of the invention relates to the field of bundling tools, in particular to a cable bundling device.

Background

At present, the network speed of communication equipment is continuously improved, optical cable communication is very popular, the existing high-altitude erection of the optical cable is mainly divided into two construction modes of cable hanging and bundling, the existing bundling work is mainly realized by a people-sitting pulley, certain risks exist due to high-altitude operation, and the optical cable is hung or bundled, so that the labor intensity is high, and the psychological pressure is high. The optical cable is bundled up manually, so that the operation is inconvenient, the working efficiency is low, and the working property is dangerous.

Disclosure of Invention

Therefore, the embodiment of the invention provides a cable bundling device, which aims to solve the problems of high risk, inconvenience in operation and low working efficiency of the existing optical cable bundling technology.

In order to achieve the above object, an embodiment of the present invention provides a cable binder, including:

the steel wire bundling device comprises a fixed base plate with a notch, a gear driving motor, a transmission assembly, a gear mounting seat arranged on one side of the fixed base plate, two bundling steel wire discs and a non-closed gear ring, wherein the gear mounting seat is of a non-closed annular structure, a bearing rail and a gear ring rail are arranged on the inner side of the gear mounting seat, the non-closed gear ring is rotatably arranged in the gear ring rail, a plurality of fixed support columns are arranged on one side, away from the fixed base plate, of the non-closed gear ring at intervals, a bearing in sliding fit with the bearing rail is sleeved on each fixed support column, the two bundling steel wire discs are respectively connected with one side, away from the fixed base plate, of the non-closed gear ring through a steel wire disc mounting frame, a plurality of through holes are formed in the outer peripheral surface of the gear mounting seat, and a gear meshed with the non-closed gear ring is rotatably arranged, the rotating shaft of the gear is connected with the rotating shaft of the gear driving motor through the rotating assembly;

two rope climbing devices, two rope climbing devices set gradually along the length direction of steel strand wires and connect, one of them rope climbing device with fixed baseplate connects, rope climbing device is used for driving the length direction motion of steel wire binding apparatus along the steel strand wires.

Furthermore, the rope climbing device comprises a shell, at least one rope climbing power wheel, a power wheel driving motor, a pressing wheel, a lifting seat, a screw rod and a pressing wheel driving motor, wherein a steel strand channel for a steel strand and an optical cable to pass through is formed in the shell, and a wire inlet communicated with the strand channel is formed in one side of the shell; the rope climbing power wheel is rotatably arranged in the shell through a rotating shaft and is positioned on one side of the steel strand channel; the rotating shaft of the power wheel driving motor is connected with the rotating shaft of the rope climbing power wheel through a belt pulley and a belt; the inside of casing still is provided with pinch roller installation storehouse, pinch roller installation storehouse is located the opposite side of steel strand wires passageway, be provided with two at least guide bars perpendicular with the steel strand wires passageway in the pinch roller installation storehouse, the guide bar is located to lift seat slidable ground cover, the pinch roller rotationally sets up in the one end of lift seat, the other end of lift seat and the one end screw-thread fit of lead screw, the other end of lead screw passes through the belt pulley and the belt is connected with pinch roller driving motor's pivot.

Furthermore, two through holes are formed in the outer peripheral surface of the gear mounting seat.

Further, drive assembly is including setting up in driving pulley, belt, first driven pulley, second driven pulley and the third driven pulley of fixed baseplate opposite side respectively, driving pulley is connected with gear drive motor's pivot, first driven pulley is connected with the pivot of one of them gear, driving pulley passes through the belt with first driven pulley and is connected, the third driven pulley is connected with the pivot of another gear, the second driven pulley is connected through the opposite side of pivot and fixed baseplate, the second driven pulley is connected with first driven pulley, third driven pulley through the belt respectively.

Furthermore, the shells of the two rope climbing devices are connected through a universal connecting rod.

Further, the two tie-wire discs are symmetrical about the center of the non-closed ring gear.

Further, still be provided with the power storehouse in the casing, power wheel driving motor with compress tightly wheel driving motor all installs in the power storehouse.

Further, the width of the steel strand channel is larger than the thickness of the steel strand clamp plate.

The embodiment of the invention has the following advantages: the cable bundling device provided by the embodiment of the invention can realize automatic bundling of the steel stranded wires and the optical cables without manually climbing to a high place for bundling, and the steel wire bundling device can move along the length direction of the steel stranded wires under the driving of the rope climbing device to bundle the parts to be bundled one by one, so that the operation efficiency is higher, and the safety is higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

Fig. 1 is a schematic perspective view of a cable binder according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a cable binder after the steel wire binding device and the rope climbing device are separated according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of a steel wire tying apparatus according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a rope climbing device according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a lifting seat according to an embodiment of the present invention;

FIG. 6 is a schematic top view of a steel wire tying apparatus according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a non-closed toothed ring according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a steel strand clamp according to an embodiment of the present invention.

Description of reference numerals: 100. a steel wire bundling device; 200. a rope climbing device; 300. steel strand wires; 400. an optical cable; 500. a steel strand clamp; 110. fixing the substrate; 120. a gear drive motor; 130. a transmission assembly; 131. a drive pulley; 132. a first driven pulley; 133. a second driven pulley; 134. a third driven pulley; 140. a gear mounting seat; 150. bundling a steel wire disc; 160. a non-closing ring gear; 170. a toothed ring; 141. a bearing track; 142. a toothed ring track; 143. a bearing; 210. a housing; 220. rope climbing power wheel; 230. a power wheel drive motor; 240. a pinch roller; 250. a lifting seat; 260. a screw rod; 270. the pinch roller drives the motor.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 and 2, the cable binder includes a steel wire binding device 100 and two cable climbing devices 200, as shown in fig. 6, the steel wire binding device 100 includes a fixing substrate 110, a gear driving motor 120, a transmission assembly 130, a gear mounting base 140, two binding steel wire discs 150 and a non-closed toothed ring 160, the fixing substrate 110 is in a rectangular plate-shaped structure, a notch is formed at an edge of the fixing substrate 110, the notch can be passed through by a steel strand 300, an optical cable 400 and a steel strand clamp plate 500, the gear mounting base 140 is in a non-closed annular structure, the notch of the gear mounting base 140 is located at the same side as the notch of the fixing substrate 110, the gear mounting base 140 is disposed at one side of the fixing substrate 110, and preferably, the gear mounting base 140 is integrally formed with the fixing substrate 110. The gear mounting base 140 is provided at an inner side thereof with a bearing rail 141 and a ring gear rail 142, wherein the ring gear rail 142 is located between the bearing rail 141 and the fixed base plate 110, and the gear mounting base 140 is provided at an outer circumferential surface thereof with two through holes, although the number of the through holes is not limited to two, and each through hole is rotatably provided with a gear 170. As shown in fig. 7, the non-closing ring gear 160 is rotatably disposed in the ring gear track 142, engaging with the gear 170; the non-closed toothed ring 160 is provided with a plurality of fixed support columns at intervals on one side away from the fixed base plate 110, each fixed support column is sleeved with a bearing 143 in sliding fit with the bearing rail 141, the two binding steel wire discs 150 are respectively connected with one side of the non-closed toothed ring 160 away from the fixed base plate 110 through a steel wire disc mounting frame, in the embodiment, the two binding steel wire discs 150 are symmetrical about the center of the non-closed toothed ring 160, the binding steel wire discs 150 are in rotating fit with the steel wire disc mounting frame, and when the binding steel wires are pulled, the binding steel wire discs 150 rotate along with the steel. The gear driving motor 120 is used for driving the non-closed gear ring 160 to rotate in the gear ring track 142, the gear driving motor 120 is disposed on one side of the fixed substrate 110, and a rotating shaft of the gear driving motor 120 is connected with a rotating shaft of the gear 170 through a rotating assembly.

As shown in fig. 3, the transmission assembly 130 includes a driving pulley 131, a belt, a first driven pulley 132, a second driven pulley 133 and a third driven pulley 134 respectively disposed at the other side of the fixed base plate 110, the driving pulley 131 is connected to a rotating shaft of the gear driving motor 120, the first driven pulley 132 is connected to a rotating shaft of one of the gears 170, the driving pulley 131 is connected to the first driven pulley 132 through the belt, the third driven pulley 134 is connected to a rotating shaft of the other gear 170, the second driven pulley 133 is connected to the other side of the fixed base plate 110 through the rotating shaft, and the second driven pulley 133 is connected to the first driven pulley 132 and the third driven pulley 134 through the belt. When the gear driving motor 120 rotates, the gear driving motor 120 drives the two gears 170 to rotate through the rotating assembly, and the two gears 170 drive the non-closed toothed ring 160 to rotate, so that the steel strand 300 and the optical cable 400 are bundled together by using the bundling steel wire.

As shown in fig. 4, the rope climbing device 200 is used for driving the steel wire bundling device 100 to move along the length direction of the steel strand 300, two rope climbing devices 200 are sequentially arranged along the length direction of the steel strand 300, and the housings 210 of the two rope climbing devices 200 are connected through a universal connecting rod, so as to ensure that the two rope climbing devices 200 have a certain range of motion, wherein one rope climbing device 200 is connected with the fixed base plate 110. Rope climbing device 200 includes casing 210, two rope climbing power wheels 220, power wheel driving motor 230, pinch roller 240, lift seat 250, lead screw 260 and pinch roller driving motor 270, the inside of casing 210 has the steel strand wires passageway that can supply steel strand wires 300 and optical cable to pass, still be provided with the power storehouse in the casing 210, one side of casing 210 is provided with the income line mouth with the stranded conductor passageway intercommunication, the width of steel strand wires passageway is greater than the thickness of steel strand wires splint 500, the steel strand wires passageway can supply steel strand wires splint 500, steel strand wires 300 and optical cable 400 pass through. In this embodiment, the number of climbing rope power wheel 220 is two, certainly also can set up more climbing rope power wheel 220 as required, climbing rope power wheel 220 passes through the pivot rotatable the installation in casing 210, climbing rope power wheel 220 is located one side of steel strand wires passageway, power wheel driving motor 230 and pinch roller driving motor 270 are all installed in the power compartment, power wheel driving motor 230's pivot is passed through the belt pulley and the belt and is connected with the pivot of climbing rope power wheel 220, accessible belt pulley and belt drive climb rope power wheel 220 and rotate when power wheel driving motor 230 rotates, climbing rope power wheel 220 can drive the length direction motion of bundling the cable ware along steel strand wires 300. The inside of casing 210 still is provided with pinch roller installation bin, pinch roller installation bin is located the opposite side of steel strand wires passageway, be provided with four guide bars perpendicular with the steel strand wires passageway in the pinch roller installation bin, as shown in fig. 5, lift seat 250 slidable cover is located on the guide bar, pinch roller 240 rotationally sets up in the one end of lift seat 250, the other end of lift seat 250 and the one end screw-thread fit of lead screw 260, the other end of lead screw 260 passes through the belt pulley and the belt is connected with pinch roller driving motor 270's pivot. When the pinch roller driving motor 270 rotates, the pinch roller driving motor 270 drives the lead screw 260 to rotate through a belt pulley and a belt, and the lifting seat 250 is driven by the lead screw 260 to move in a direction perpendicular to the steel strand channel, so that the pinch roller 240 clamps and releases the steel strand 300.

The working principle is as follows: before the cable is bundled, the rope climbing power wheels 220 of two rope climbing devices 200 (namely, a first rope climbing device and a second rope climbing device, which are called as the first rope climbing device and the second rope climbing device at the back) are hung on the steel strand 300 respectively, the optical cable is also communicated and passed through a stranded wire channel, the optical cable is close to the other side of the shell 210, the pressing wheel driving motor 270 of the first rope climbing device and the second rope climbing device is controlled to rotate in the forward direction, the lead screw 260 drives the lifting seat 250 to be close to the steel strand 300, and when the pressing wheel 240 is matched with the rope climbing power wheels 220 to clamp the steel strand 300, the pressing wheel driving motor 270 of the first rope climbing device and the second rope climbing device is closed.

In the process of bundling the cable, the bundling steel wires are drawn out of the bundling steel wire disc 150, the steel stranded wires 300 and the optical cable 400 are bundled together by using the bundling steel wires, the solid bundling steel wires are fixed, the gear driving motor 120 is controlled to rotate (the gear driving motor 120 can only rotate in the forward direction), the gear driving motor 120 drives the two gears 170 to rotate through the rotating assembly, the two gears 170 drive the non-closed toothed ring 160 to rotate, the two bundling steel wire discs 150 rotate along with the non-closed toothed ring 160, the steel stranded wires 300 and the optical cable 400 are bundled together by using the bundling steel wires, and the gear driving motor 120 is turned off after a preset number of turns is reached.

In the advancing process, the power wheel driving motors 230 of the first rope climbing device and the second rope climbing device are controlled to rotate in the forward direction (the power wheel driving motors 230 can only rotate in the forward direction, namely can only drive the cable binder to move forwards), the power wheel driving motors 230 drive the rope climbing power wheels 220 to rotate through the belt pulleys and the belt, the rope climbing power wheels 220 can drive the whole cable binder to move forwards along the length direction of the steel strand 300 (the binding steel wires continue to be drawn out from the binding steel wire disc 150 in the process), and after the cable binder advances for a preset length, the power wheel driving motors 230 of the first rope climbing device and the second rope climbing device stop rotating.

Can accomplish surplus bundle cable operation through the above-mentioned bundle cable process of repetition and the process of marcing, bundle cable ware of this embodiment can realize automatic bundling steel strand wires 300 and optical cable 400 together, need not the manual work and climb the eminence and tie up to steel wire binding apparatus 100 can be in the length direction motion of steel strand wires 300 under the drive of climbing rope device 200, ties up the position that needs to tie up one by one, and the operating efficiency is higher, and the security is higher.

As shown in fig. 8, during the process of the cable binder moving from one cable pole to another cable pole, if a steel strand clamp 500 is encountered, the operation process of turning over the steel strand clamp 500 is further performed, and the specific process is as follows:

the power wheel driving motor 230 of the first rope climbing device and the second rope climbing device is controlled to stop rotating, the gear driving motor 120 is controlled to rotate, the gap of the non-closed gear ring 160 is overlapped with the gap of the gear mounting seat 140, and the gear driving motor 120 is controlled to stop rotating.

Controlling a pinch roller driving motor 270 of the first rope climbing device to rotate reversely, driving the lifting seat 250 to be far away from the steel strand 300 by the lead screw 260, closing the pinch roller driving motor 270 of the first rope climbing device when the lifting seat 250 descends to the lowest point, then controlling a power wheel driving motor 230 of the first rope climbing device to rotate forwardly, driving the cable binder to move forwardly, controlling the power wheel driving motor 230 of the first rope climbing device and the second rope climbing device to stop rotating when the steel strand clamp plate 500 enters between the pinch roller 240 and the rope climbing power wheel 220 of the first rope climbing device, controlling the pinch roller driving motor 270 of the first rope climbing device to rotate forwardly, controlling the pinch roller driving motor 270 of the first rope climbing device to stop rotating after the pinch roller 240 and the rope climbing power wheel 220 of the first rope climbing device clamp the steel strand clamp plate 500, and controlling the pinch roller driving motor 270 of the first rope climbing device to rotate reversely, the screw 260 drives the lifting seat 250 to move away from the steel strand 300, and when the lifting seat 250 descends to the lowest point, the pinch roller driving motor 270 of the second rope climbing device is turned off.

The power wheel driving motor 230 of the first rope climbing device and the second rope climbing device is controlled to rotate positively, the cable binder is driven to move forward, when the steel strand clamp plate 500 enters a space between the pinch roller 240 of the second rope climbing device and the rope climbing power wheel 220, the power wheel driving motor 230 of the first rope climbing device and the second rope climbing device is controlled to stop rotating, the pinch roller driving motor 270 of the second rope climbing device is controlled to rotate positively, and after the pinch roller 240 of the second rope climbing device and the rope climbing power wheel 220 clamp the steel strand clamp plate 500, the pinch roller driving motor 270 of the second rope climbing device is controlled to stop rotating. And then controlling the power wheel driving motor 230 of the first rope climbing device and the second rope climbing device to rotate forwards to drive the cable binder to move forwards, controlling the power wheel driving motor 230 of the first rope climbing device and the second rope climbing device to stop rotating after the first rope climbing device crosses the steel strand clamping plate 500, controlling the pinch roller driving motor 270 of the first rope climbing device to rotate forwards, and controlling the pinch roller driving motor 270 of the first rope climbing device to stop rotating after the pinch roller 240 of the first rope climbing device and the rope climbing power wheel 220 clamp the steel strand 300. And then controlling the power wheel driving motor 230 of the first rope climbing device and the second rope climbing device to rotate forwards to drive the cable binder to move forwards, controlling the power wheel driving motor 230 of the first rope climbing device and the second rope climbing device to stop rotating after the second rope climbing device crosses the steel strand clamping plate 500, then controlling the pinch roller driving motor 270 of the second rope climbing device to rotate forwards, and controlling the pinch roller driving motor 270 of the second rope climbing device to stop rotating after the pinch roller 240 and the rope climbing power wheel 220 of the second rope climbing device clamp the steel strand 300. Both rope climbing devices have now passed over the steel strand clamp 500. The above-described operation is repeated if a next strand clamp 500 is encountered.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. A cable tie, comprising:

2. The cable binder of claim 1, wherein the cable climbing device comprises a housing, at least one cable climbing power wheel, a power wheel driving motor, a pinch roller, a lifting seat, a screw rod and a pinch roller driving motor, a steel strand channel for a steel strand and an optical cable to pass through is arranged in the housing, and a cable inlet communicated with the strand channel is arranged on one side of the housing; the rope climbing power wheel is rotatably arranged in the shell through a rotating shaft and is positioned on one side of the steel strand channel; the rotating shaft of the power wheel driving motor is connected with the rotating shaft of the rope climbing power wheel through a belt pulley and a belt; the inside of casing still is provided with pinch roller installation storehouse, pinch roller installation storehouse is located the opposite side of steel strand wires passageway, be provided with two at least guide bars perpendicular with the steel strand wires passageway in the pinch roller installation storehouse, the guide bar is located to lift seat slidable ground cover, the pinch roller rotationally sets up in the one end of lift seat, the other end of lift seat and the one end screw-thread fit of lead screw, the other end of lead screw passes through the belt pulley and the belt is connected with pinch roller driving motor's pivot.

3. A cable tie-down according to claim 1 or 2, wherein two through holes are provided on the outer circumferential surface of the gear mounting seat.

4. The cable tie-up device of claim 3, wherein the transmission assembly comprises a driving pulley, a belt, a first driven pulley, a second driven pulley and a third driven pulley respectively arranged at the other side of the fixed base plate, the driving pulley is connected with a rotating shaft of the gear driving motor, the first driven pulley is connected with a rotating shaft of one of the gears, the driving pulley is connected with the first driven pulley through the belt, the third driven pulley is connected with a rotating shaft of the other gear, the second driven pulley is connected with the other side of the fixed base plate through the rotating shaft, and the second driven pulley is connected with the first driven pulley and the third driven pulley through the belt respectively.

5. A cable tie according to claim 4, wherein the housings of the two rope climbing devices are connected by a universal connecting rod.

6. A cable tie according to claim 1 or 2 wherein the two tying wire drums are symmetrical about the centre of the non-closing toothed ring.

7. The cable tie-up device of claim 2, wherein a power bin is further disposed in the housing, and the power wheel driving motor and the pinch wheel driving motor are both mounted in the power bin.

8. A cable tie according to claim 7, wherein the width of the steel strand channel is greater than the thickness of the steel strand clamp.