CN213425707U - Cable binding device - Google Patents

Abstract

The application discloses cable ligature device, including handheld pole, pressure hand, act as go-between, double gear linkage and tapered end subassembly, the tapered end subassembly includes first clamping jaw and second clamping jaw, and first clamping jaw and second clamping jaw inner wall side are equipped with the recess, are equipped with the locating hole on the first clamping jaw, are equipped with the location guide plate on the position that corresponds the locating hole on the second clamping jaw. When the nylon cable tie is used, the fixing of the nylon cable tie and the limiting of the positioning holes and the positioning guide pieces on the lock catch of the nylon cable tie, the tail position or the direction of the nylon cable tie are utilized, the first clamping jaw and the second clamping jaw are closed and driven to open, the action that the tail of the nylon cable tie automatically penetrates into the lock catch of the nylon cable tie is achieved, and therefore the automatic winding and locking processes of the nylon cable tie are achieved. The cable binding device is simple in structure, convenient to operate, convenient and easy to carry and high in binding efficiency.

Description

Cable binding device

Technical Field

The application relates to the technical field of electric power tools, in particular to a cable binding device.

Background

In a modern mine, the use quantity of cables such as mining safety monitoring cables, communication cables, telephone lines and the like is increased sharply, the problem that the cables are easy to fall off in the traditional mode of binding the cables on coal mine tunnels, downhill and uneven coal or rock tunnels is solved, and in order to ensure the stability of the positions of various cables in the mine, a hanging mode of binding the cables on cable trenches fixed on the inner wall of the mine is adopted in the modern mine.

At present, the operation process of binding the cable in the cable trench needs two workers to complete in a cooperative mode, one worker stabilizes the escalator during binding, the other worker carries the nylon binding belt, climbs to the position where the cable hook can be touched, firstly the cable is hung on the cable hook, and then the nylon binding belt is manually utilized to bind the cable on the cable hook. When the next position is bound, the escalator needs to be moved to a corresponding position by a worker. The binding process is complicated, time-consuming and labor-consuming in consideration of more positions needing to be bound in the mine.

SUMMERY OF THE UTILITY MODEL

The application provides a cable ligature device to solve current cable ligature process comparatively complicated, and the problem that wastes time, difficultly.

The application provides a cable binding device, which comprises a handheld rod, wherein one end of the handheld rod is provided with a lock head assembly, the lock head assembly comprises a first clamping jaw and a second clamping jaw which are arc-shaped and symmetrically arranged, the fixed ends of the first clamping jaw and the second clamping jaw are in cross connection, a double-gear linkage part is arranged at the cross part,

grooves are formed in the inner wall sides of the first clamping jaw and the second clamping jaw and used for embedding nylon ties; the free end of the first clamping jaw and the side surface facing the second clamping jaw are provided with penetrating positioning holes, and the positioning holes are used for clamping and releasing lock catches of nylon cable ties; a positioning guide piece is arranged on the second clamping jaw at a position corresponding to the positioning hole, and the positioning guide piece is used for limiting the belt tail direction of the nylon cable tie to face the positioning hole;

the other end of the hand-held rod is provided with a pressing hand, the pressing hand is connected with the double-gear linkage piece through a pull wire, and the pressing hand drives the first clamping jaw and the free end of the second clamping jaw to be separated or closed through the double-gear linkage piece.

Optionally, the inner walls of the first clamping jaw and the second clamping jaw are provided with hinge clamping plates.

Optionally, the cable tie device further comprises a shear knife.

Optionally, the cable tie device further comprises a waste recovery bag.

Optionally, the handheld bar is a telescopic bar.

The application provides a cable ligature device, including handheld pole, pressure hand, act as go-between, double gear linkage and tapered end subassembly, the tapered end subassembly includes first clamping jaw and second clamping jaw, and first clamping jaw and second clamping jaw inner wall side are equipped with the recess, are equipped with the locating hole on the first clamping jaw, are equipped with the location guide plate on the position that corresponds the locating hole on the second clamping jaw. When the nylon cable tie is used, the fixing of the nylon cable tie and the limiting of the positioning holes and the positioning guide pieces on the lock catch of the nylon cable tie, the tail position or the direction of the nylon cable tie are utilized, the first clamping jaw and the second clamping jaw are closed and driven to open, the action that the tail of the nylon cable tie automatically penetrates into the lock catch of the nylon cable tie is achieved, and therefore the automatic winding and locking processes of the nylon cable tie are achieved.

The cable binding device is simple in structure, convenient to operate, convenient and easy to carry and high in binding efficiency. In addition, only one binding work can be realized in the operation process, the labor is saved, and meanwhile, the high-altitude operation risk caused by the need of utilizing the escalator in the traditional binding process and the complex process of continuously moving the escalator are avoided.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of the cable tie device of the present application;

FIG. 2 is a schematic structural view of the lock cylinder assembly of the present application;

FIG. 3 is a schematic view of the positioning guide plate of the present application;

fig. 4 is a schematic structural diagram of the hinge clamping plate.

The designations in FIGS. 1-4 are respectively: 1-hand-held rod, 2-first clamping jaw, 21-positioning hole, 3-second clamping jaw, 31-positioning guide piece, 4-groove, 5-pressing hand, 6-pulling wire, 7-double-gear linkage piece, 8-hinge clamping plate, 81-fixing plate, 82-spring and 83-movable leaf.

Detailed Description

The application provides a cable ligature device is used for with cable ligature such as mining safety monitoring cable, communication cable, telephone line on the cable hook. FIG. 1 is the structure schematic diagram of the cable ligature device of this application, and as shown in FIG. 1, the cable ligature device includes handheld pole 1, is applicable to the ligature work of different height departments for this device conveniently, and in this application, handheld pole 1 is the telescopic link. One end of the handheld rod 1 is provided with a lock head assembly, fig. 2 is a schematic structural view of the lock head assembly, and the lock head assembly comprises a first clamping jaw 2 and a second clamping jaw 3 which are arc-shaped and symmetrically arranged as shown in fig. 2. The inner wall sides of the first clamping jaw 2 and the second clamping jaw 3 are provided with grooves 4, and the grooves 4 are used for embedding nylon ties. The free end of the first clamping jaw 2 and the side surface facing the second clamping jaw 3 are provided with penetrating positioning holes 21, and the positioning holes 21 are used for clamping and placing the lock catches of the nylon cable ties. A positioning guide piece 31 is arranged on the second clamping jaw 3 at a position corresponding to the positioning hole 21, and the positioning guide piece 31 is used for limiting the tail direction of the nylon cable tie to face the positioning hole 21.

Fig. 3 is a schematic structural diagram of the positioning guide plate of the present application, and as shown in fig. 3, the positioning guide plate 31 is a baffle plate disposed perpendicular to the groove 4, and a right-angle structure is formed between the groove 4 and the baffle plate. Under the effect of this right angle structure, the area tail of nylon ribbon stretches out recess 4 with the state of buckling into 90, and at this moment, the area tail of nylon ribbon points to the locating hole 21 that has set firmly nylon ribbon hasp, if closed with first clamping jaw 2 and second clamping jaw 3, then in nylon ribbon area tail will penetrate nylon ribbon hasp, realizes the ligature action of nylon ribbon.

For preventing that the nylon ribbon area body from taking place the displacement at the recess 4 of clamping jaw, in this application, the inner wall of first clamping jaw 2 and second clamping jaw 3 is equipped with hinge splint 8, and hinge splint 8 are used for fixing the stable card of nylon ribbon area body on the inner wall of clamping jaw to prevent that the displacement of nylon ribbon area body from leading to unable normal ligature action. Fig. 4 is a schematic structural view of the hinge clip of the present application, and as shown in fig. 4, the hinge clip 8 includes a fixing plate 81 fixed to an inner wall of the jaw, a spring 82, and a movable leaf 83. The process of utilizing hinge splint 8 to fix the nylon ribbon does: the free end of the movable leaf 83 is pulled open to enable the movable leaf 83 to be in an open state, after the nylon cable tie is clamped in the groove 4, the free end of the movable leaf 83 is pressed towards the inner wall of the clamping jaw, the movable leaf 83 enters a closed state, at the moment, the movable leaf 83 is tightly attached to the inner wall of the clamping jaw through the acting force of the spring 82, meanwhile, the movable leaf 83 applies an acting force towards the groove 4 to the nylon cable tie body, and therefore the nylon cable tie body is limited in the groove 4. After the nylon ribbon ligature was accomplished, when breaking away from clamping jaw and nylon ribbon, relative distancing between nylon ribbon and the activity page or leaf 83 took place, made to produce a pressure between nylon ribbon and the activity page or leaf 83, under this pressure effect, the nylon ribbon can be opened the free end of activity page or leaf 83 to make nylon ribbon and cable ligation device break away from. It should be noted that the hinge clamping plate 8 is a mechanical fitting commonly used in the art, and the specific structure and implementation process thereof will not be described in detail herein.

For the number of hinge splint 8 on the clamping jaw, those skilled in the art can set up according to actual needs, for example, 1, 2 or 3 hinge splint 8 are provided on each clamping jaw, and they all belong to the protection scope of the present application. In addition, to the concrete position that sets up of hinge splint 8 on the clamping jaw, technical personnel in the field can set up according to actual need, for example, set up at the middle part or both ends of clamping jaw to can be firm fixed nylon cable tie area body is the standard.

The fixed ends of the first clamping jaw 2 and the second clamping jaw 3 are in cross connection, and a double-gear linkage piece 7 is arranged at the cross position. The other end of the hand-held rod 1 is provided with a pressing hand 5, and the pressing hand 5 is connected with a double-gear linkage 7 through a pull wire 6. In practical use, the pressing hand 5 drives the first clamping jaw 2 and the second clamping jaw 3 to be separated or closed through the double-gear linkage piece 7. It should be noted that a dual gear linkage is a common component in the art, including a dual gear, which in use opens and closes the first and second jaws via a dual gear lever principle. In addition, in this application, also do not improve the concrete structure and the implementation process of double gear linkage to can realize the separation of first clamping jaw and second clamping jaw free end or close for the accuracy, will not describe its structure and implementation process here again.

The cable binding device further comprises a shearing knife which is used for shearing redundant nylon cable ties. It should be noted that the shearing blade is a common component in the art, and the structure and the using process thereof will not be described in detail herein.

The cable ligature device still includes waste recovery bag, and the nylon ribbon that shears falls into directly falls into waste recovery bag as the waste material in, reduces the process that the staff handled the waste material to and reduced the pollution of wastes material to the tunnel environment. It should be noted that the shearing blade is a common component in the art, and the structure and the using process thereof will not be described in detail herein.

It should be noted that the cable tie device of the present application may be made from ABS plastic or metal materials, all of which are within the scope of the present application.

To facilitate a better understanding of the structure of the device of the present application, the device of the present application will be further described by its use.

When the cable binding device is used for binding a cable, a worker presses a pressing hand on the handheld rod, and the lock head assembly is opened by utilizing the double-gear lever principle, so that the first clamping jaw and the second clamping jaw contain a cable hook and a cable; then, the pressing hand is loosened to enable the lock head assembly to be fastened, at the moment, the tail of the nylon cable tie penetrates into the lock catch, the cable is bound on the cable hook through the tensioned nylon cable tie, the shearing head cuts off the redundant nylon cable tie, and waste materials fall into the waste material recovery bag.

The application provides a cable ligature device, including handheld pole, pressure hand, act as go-between, double gear linkage and tapered end subassembly, the tapered end subassembly includes first clamping jaw and second clamping jaw, and first clamping jaw and second clamping jaw inner wall side are equipped with the recess, are equipped with the locating hole on the first clamping jaw, are equipped with the location guide plate on the position that corresponds the locating hole on the second clamping jaw. When the nylon cable tie is used, the fixing of the nylon cable tie and the limiting of the positioning holes and the positioning guide pieces on the lock catch of the nylon cable tie, the tail position or the direction of the nylon cable tie are utilized, the first clamping jaw and the second clamping jaw are closed and driven to open, the action that the tail of the nylon cable tie automatically penetrates into the lock catch of the nylon cable tie is achieved, and therefore the automatic winding and locking processes of the nylon cable tie are achieved.

The cable binding device is simple in structure, convenient to operate, convenient and easy to carry and high in binding efficiency. In addition, only one binding work can be realized in the operation process, the labor is saved, and meanwhile, the high-altitude operation risk caused by the need of utilizing the escalator in the traditional binding process and the complex process of continuously moving the escalator are avoided.

The above-described embodiments of the present application do not limit the scope of the present application.

Claims (5)

1. A cable binding device is characterized by comprising a handheld rod (1), wherein one end of the handheld rod (1) is provided with a lock head assembly, the lock head assembly comprises a first clamping jaw (2) and a second clamping jaw (3) which are arc-shaped and symmetrically arranged, the fixed ends of the first clamping jaw (2) and the second clamping jaw (3) are in cross connection, a double-gear linkage piece (7) is arranged at the cross position,

grooves (4) are formed in the inner wall sides of the first clamping jaw (2) and the second clamping jaw (3), and nylon ties are embedded into the grooves (4); a penetrating positioning hole (21) is formed in the free end of the first clamping jaw (2) and the side face, facing the second clamping jaw (3), of the first clamping jaw, and the positioning hole (21) is used for clamping and placing a lock catch of a nylon cable tie; a positioning guide piece (31) is arranged on the second clamping jaw (3) at a position corresponding to the positioning hole (21), and the positioning guide piece (31) is used for limiting the tail direction of the nylon cable tie to face the positioning hole (21);

the other end of the handheld rod (1) is provided with a pressing hand (5), the pressing hand (5) is connected with the double-gear linkage piece (7) through a pull wire (6), and the pressing hand (5) drives the first clamping jaw (2) and the free end of the second clamping jaw (3) to be separated or closed through the double-gear linkage piece (7).

2. A cable tie device according to claim 1, wherein the inner walls of the first jaw (2) and the second jaw (3) are provided with hinge clamping plates (8).

3. The cable tie device of claim 1, further comprising a shear knife.

4. The cable tie device of claim 1, further comprising a waste recovery bag.

5. A cable tie device according to claim 1, wherein the hand-held pole (1) is a telescopic pole.

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