CN-122009252-A - Tooth-saving rope rail

Abstract

A toothed rope rail erected in a suspended mode comprises a steel wire rope 1, spiral teeth 2, positioning ribs 3, positioning ridges 4, ridge buckles 5, a rope frame 6 and screws 7, wherein symmetrical positioning ribs are arranged on two radial sides of the steel wire rope, the bottom of the steel wire rope is provided with the positioning ridges, spiral teeth are wound at equal intervals on the outside, gaps are uniformly reserved among the spiral teeth, ridge buckles are arranged below the positioning ridges at equal intervals and extend out of the gaps among the spiral teeth, a circular ring is arranged at the lower end of each ridge buckle, the five items form the rope rail together, the positioning ribs, the positioning ridges and the spiral teeth are formed by metal wires, the spiral teeth, the positioning ribs and the positioning ridges are tightly fixed on the steel wire rope through die extrusion, contact parts are mutually embedded and meshed under pressure, so that the positioning effect is achieved, the rope rail is mounted on the rope frame, a profiling groove is formed in the end face of the rope frame supporting the rope rail, the screws penetrate through the ridge buckles and are fixed in screw holes of the rope frame, the steel wire rope provides bearing capacity, the spiral teeth provide strong reverse thrust force for advancing in a track car, the positioning ribs are used for positioning the spiral teeth, the positioning rail car is used for positioning and rope rail positioning, the positioning teeth are used for reinforcing the spiral teeth are used for fixing the rope rail, and the positioning rail positioning is used for fixing the rope frame in a combined mode.

Inventors

• LI HUICHENG

Assignees

• 深圳市唘辉科技有限公司

Dates

Publication Date

20260512

Application Date

20241108

Claims (7)

1. 1. A tooth-saving rope rail comprises a steel wire rope 1, spiral teeth 2, positioning ribs 3, positioning ridges 4, ridge buckles 5, a rope frame 6 and screws 7 and is characterized in that the two radial sides of the steel wire rope are provided with symmetrical positioning ribs, the bottoms of the steel wire rope are provided with the positioning ridges, the outer parts of the steel wire rope are spirally wound with the spiral teeth in equal intervals, the pitch of the spiral teeth is 2.5 times of the diameter of a wire, ridge buckles are equidistantly arranged below the positioning ridges, the lower ends of the ridge buckles extend out of gaps of the spiral teeth, the five parts jointly form the rope rail, the positioning ribs, the positioning ridges and the spiral teeth are formed by metal wires, the rope rail is mounted on the rope frame in a suspended mode, the end faces of the rope frame supporting the rope rail are provided with profiling grooves which are matched with the rope rail, the screws penetrate through the circular rings at the lower ends of the ridge buckles to be fixed in screw holes of the rope frame, and lock catches are arranged at two ends of the tooth-saving rope rail, and the lock catches can be detached and mounted repeatedly.
2. 2. The steel wire rope according to claim 1 is an anti-rotation steel wire rope, the diameter of which is determined by the bearing capacity, and the steel wire rope is of various types.
3. 3. The positioning ridge and the ridge buckle of claim 1 are formed by bending and forging the same metal wire, the ridge buckle extends downwards from the clearance between the spiral teeth, the ridge buckle is in a tension state when being fixed on a rope frame, a rope rail is fixed, the positioning rib, the positioning ridge and the spiral teeth are mutually meshed and positioned by extrusion and winding of a die, the lengths of the rope rail are equal, the starting positions are the same, the two ends of a wire rod are subjected to stretching and shrinking treatment, corner-utilizing burrs are removed, the diameters of the wire rod forming the positioning rib, the positioning ridge and the spiral teeth are about one fourth of the diameter of an attached steel wire rope, and after the forming, the positioning rib, the positioning ridge and the spiral teeth are subjected to surface hardening, wear resistance and corrosion resistance treatment.
4. 4. The rope rack of claim 1 is made of high-carbon steel, is not easy to deform, has a ridge buckle groove on the vertical surface below the bearing surface, is matched with the ridge buckle, has a screw hole in the groove for positioning, and has a mounting hole on the other vertical surface for fixing and hanging, and one rope rail can be provided with a plurality of rope racks.
5. 5. The tooth-saving rope rail of claim 1 is mounted in a suspended manner, and the height requirement is that the carried goods do not contact the ground and the goods are convenient to take and place, and is generally 1-3 meters high.
6. 6. The screw of claim 1 having a circular wedge at the root thereof for engaging the circular ring of the spine fastener for wedging the tension cord track of the spine fastener.
7. 7. The shackle of claim 1 having profiled grooves for correspondingly receiving the helical teeth, the locating ribs and the locating ridges for securing the cord track structure and the cord car backstop at the start and end of the helical teeth.

Description

Tooth-saving rope rail Technical Field The invention relates to a transportation rail, in particular to a tooth-saving rope rail, and belongs to the technical field of rails. Background The invention discloses a transportation mode with low cost, convenient installation and high efficiency, a tooth cutting rope rail, which can be erected by providing anchor points for hanging, and can realize transportation by combining a rail car, thereby greatly extending transportation capacity, realizing transportation capacity coverage for walls of workshops, the outer sides of high buildings, sides of ships, construction sites, deep forests, miners' tunnels, cliffs and peaks of high mountains, and injecting strong vitality for productivity development. Disclosure of Invention The invention provides a rope rail with regularly arranged joint teeth, which comprises a steel wire rope 1, spiral teeth 2, positioning ribs 3, positioning ridges 4, ridge buckles 5, a rope frame 6 and screws 7, wherein symmetrical positioning ribs are arranged on two radial sides of the steel wire rope, the positioning ridges are arranged at the bottom, the spiral teeth are spirally wound at the outer part, gaps are uniformly reserved among the spiral teeth, ridge buckles are equidistantly arranged below the positioning ridges, the lower ends of the ridge buckles are provided with circular rings, the five items together form the rope rail, the positioning ribs, the positioning ridges and the spiral teeth are formed by metal wires, the spiral teeth, the positioning ribs and the positioning ridges are tightly fixed on the steel wire rope through die extrusion, contact parts are mutually embedded and meshed under pressure to play a role of positioning, the rope rail is arranged on the rope frame, the end face of the rope frame for supporting the rope rail is provided with profiling grooves which are matched with the rope rail, the screws penetrate through the ridge buckles to be fixed in screw holes of the rope frame, the steel wire rope provides bearing capacity, the spiral teeth provide strong counter-thrust for the track car advance, the positioning ribs are used for positioning the spiral teeth, the positioning ridges are used for positioning the track car orientation, the positioning ridges are used for positioning and rope guide rails, the positioning and positioning rails are used for positioning and rope guide rails, the positioning rails are used for fixing the spiral frame guide rails, and the positioning rails are used for fixing and hanging and guide rails. The technical scheme of the invention is as follows: and bending the selected metal wire, and forging and forming the metal wire by a die to produce the positioning ridge and the ridge buckle. The selected anti-rotation steel wire rope, two metal wires serving as positioning ribs and the machined positioning ridges are positioned by using a jig, and are fed into a winding machine on a linear track, the metal wires are wound on the linear track to serve as spiral teeth according to set intervals, and the spiral teeth, the positioning ribs and the positioning ridges are continuously conveyed forwards to be pressed by an extrusion die, so that the positioning ribs, the positioning ridges are mutually embedded and meshed to form a stable structure. The rope frame is formed by drilling, tapping and forging steel plates to form assembly holes and profiling features, bending and forming, and finally heat treatment hardening and corrosion prevention are carried out. The screw leaves a circular step as a wedge at the position of the screw rod close to the screw head on the basis of the common screw. Drawings FIG. 1 is a construction view (3D view) of a tooth-segment rope rail FIG. 2 is a cross-sectional view (side view) of a tooth-segment rope rail FIG. 3 is a schematic view of installation of a tooth-segment rope rail FIG. 4 is a schematic diagram showing the characteristics of a rope stand FIG. 5 is a schematic view of the screw characteristics FIG. 6 is a schematic view of a tooth segment rope rail suspension 1-Steel wire rope, 2-spiral teeth, 3-positioning ribs, 4-positioning ridges, 5-ridge buckles, 6-rope frames, 7-screws and 8-lock catches Detailed Description The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention. In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "both sides", etc. are based on the directions or positional relationships shown in the drawings, are mer