阅读说明：本技术 一种浮动式钢丝绳捻股装置 (floating type steel wire rope stranding device ) 是由 陆伟春 周亚萍 薛丰斌 顾宏亮 严兴龙 于 2019-11-07 设计创作，主要内容包括：本发明公开了一种浮动式钢丝绳捻股装置,包括底座、线架、捻股机构、驱动机构、走线管、压线模、卷线辊、连接组件；本发明通过伸缩螺杆的外端在伸缩槽内进行伸缩移动后,再通过两个夹持螺母夹持在伸缩槽的内外两侧,如此使得伸缩螺杆形成锁定结构,如此可调节伸缩螺杆内端的走线环沿着旋转圆环径向的位置,从而调节各个钢丝走线的间距,避免钢丝在走线过程中打结缠绕一起。(The invention discloses an floating type steel wire rope stranding device which comprises a base, a wire frame, a stranding mechanism, a driving mechanism, a wire running pipe, a wire pressing die, a wire winding roller and a connecting assembly, wherein the outer end of a telescopic screw rod is used for telescopic movement in a telescopic groove and then is clamped on the inner side and the outer side of the telescopic groove through two clamping nuts, so that the telescopic screw rod forms a locking structure, the position of a wire running ring at the inner end of the telescopic screw rod along the radial direction of a rotating circular ring can be adjusted, the distance of wire running of each steel wire is adjusted, and the steel wires are prevented from being knotted and wound by during the wire running process.)

The floating type steel wire rope stranding device is characterized by comprising a base, a wire frame, a stranding mechanism, a driving mechanism, a wire feeding pipe, a wire pressing die, a wire winding roller and a connecting assembly, wherein the wire frame, the stranding mechanism, the wire feeding pipe, the wire pressing die and the wire winding roller are sequentially arranged on the base, the stranding mechanism comprises a rotary circular ring, a sliding sleeving block, a locking screw rod and a wire feeding ring, the driving mechanism is arranged on the base, the driving mechanism controls the rotary motion of the rotary circular ring, inserting notches are formed in the rotary circular ring, a plurality of locking grooves are uniformly distributed on the outer side of the periphery of the rotary circular ring, a sleeving groove is formed in the sliding sleeving block, a threaded groove communicated with the outer end of the sleeving groove is formed in the sleeving groove, a penetrating port communicated with the side of the sleeving groove is formed in the , a plurality of locking screw rods are in threaded rotary connection with , the sliding sleeving block penetrates through the inserting notches of the rotary circular ring, the sliding sleeving block penetrates through the two telescopic nuts in the telescopic groove, the telescopic nut is sleeved on the inner side of the telescopic groove, the telescopic nut is sleeved on the inner side of the telescopic groove, the telescopic nut is sleeved on the telescopic nut, and the telescopic nut are connected with the telescopic nut, the telescopic.

2. The floating type steel wire rope stranding device of claim 1, wherein the driving mechanism comprises a driving motor, a rotating shaft, a driving gear, a positioning ring body, a driven gear ring and a positioning rod, the positioning ring body is installed on the side of the rotating ring, the driven gear ring is installed on the outer side of the positioning ring body, the driving motor is installed below the wire feeding pipe, the driving motor is connected with the rotating shaft, the rotating shaft is connected with the driving gear, the driving gear is connected with the driven gear ring in an occlusion mode, the lower end of the positioning rod is fixed on the base, the upper end of the positioning rod is connected to the lower side of the positioning ring body, and the positioning ring body is rotatably clamped to the upper end of the positioning rod.

3. The floating type steel wire rope stranding device according to claim 2, wherein the positioning ring body is provided with a rotary clamping ring groove; the upper end of the positioning rod is provided with a rotary clamping and connecting plate; the positioning ring body is rotationally clamped on the rotary clamping plate at the upper end of the positioning rod through the rotary clamping ring groove; the rotary clamping and connecting plate is of an arc-shaped structure.

4. The floating type steel wire rope stranding device according to claim 1, wherein an elastic pressing piece and a pressing plate are arranged on the sliding sleeve joint block; the pressing plate is arranged in the sleeve joint groove of the sliding sleeve joint block; the middle of the pressing plate is provided with a penetrating port; the upper end of the pressing plate is connected with the upper end of the sleeving groove through a plurality of elastic pressing pieces; the pressing plate is pressed and attached to the outer side face of the rotary ring in an abutting mode through the elastic pressing piece; the locking screw rod is inserted into the locking groove of the rotary ring after rotating to pass through the thread groove and the penetrating port.

5. The floating wire rope stranding device according to claim 4, wherein the pressing plate is of an arc structure attached to an outer side surface of the rotating ring; the inner side surface of the sleeve connecting groove of the sliding sleeve connecting block is of an arc structure which is attached to the inner side surface of the rotating ring.

6. The floating wire rope stranding apparatus defined in claim 1 wherein the routing tubes are disposed perpendicular to the center of the rotating ring.

Technical Field

The invention relates to an floating type steel wire rope stranding device.

Background

The steel wire rope is a spiral steel wire bundle formed by twisting steel wires with mechanical property and geometric dimension meeting requirements on according to a rule of , and the steel wire rope consists of steel wires, a rope core and lubricating grease, wherein the steel wire rope is a spiral rope formed by twisting a plurality of layers of steel wires into strands, then taking the rope core as a center and twisting a plurality of strands of into a spiral shape, the number of the steel wires for stranding is limited by a stranding disc in the conventional stranding device of the steel wire rope, the number of the steel wires for stranding cannot be flexibly changed according to actual requirements, and if the number of the steel wires for stranding needs to be changed, the stranding disc needs to be replaced, so that the operation efficiency is inconvenient.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the problems of providing floating type steel wire rope stranding devices which can adjust the wire spacing, change the number of wires of the wires and use flexibility.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

floating type steel wire rope stranding device comprises a base, a wire frame, a stranding mechanism, a driving mechanism, a wire feeding pipe, a wire pressing die, a wire winding roller and a connecting assembly, wherein the wire frame, the stranding mechanism, the wire feeding pipe, the wire pressing die and the wire winding roller are sequentially mounted on the base, the stranding mechanism comprises a rotary circular ring, a sliding sleeve connecting block, locking screws and a wire feeding ring, the driving mechanism is mounted on the base and controls the rotary motion of the rotary circular ring, insertion notches are formed in the rotary circular ring, a plurality of locking grooves are uniformly distributed on the outer side of the periphery of the rotary circular ring, a sleeve connecting groove is formed in the sliding sleeve connecting block, a communicated thread groove is formed in the outer end of the sleeve connecting groove, a communicated penetrating port is formed in the side of the sleeve connecting groove, locking screws are in threaded rotary connection with the thread groove, the sliding sleeve connecting block penetrates through the insertion notches of the rotary circular ring, the sliding sleeve connecting block slides on the rotary sleeve connecting ring to perform arc motion on the rotary sleeve connecting ring through the thread groove, the sliding sleeve connecting block penetrates through the two telescopic grooves of the telescopic nut, the telescopic sleeve connecting block, the two telescopic nut is connected to the inner ends of the telescopic nut, the telescopic sleeve connecting block, the telescopic nut inner end of the telescopic nut is connected to the telescopic nut, and the telescopic nut, and the telescopic nut, the telescopic nut are connected with the telescopic.

, the driving mechanism comprises a driving motor, a rotating shaft, a driving gear, a positioning ring body, a driven gear ring and a positioning rod, the positioning ring body is installed on the side of the rotating ring, the driven gear ring is installed on the outer side of the positioning ring body, the driving motor is installed below the wiring pipe, the driving motor is connected with the rotating shaft, the rotating shaft is connected with the driving gear, the driving gear is connected with the driven gear ring in a meshing mode, the lower end of the positioning rod is fixed on the base, the upper end of the positioning rod is connected to the lower side of the positioning ring body, and the positioning ring body is rotatably clamped at the upper end of the positioning rod.

, a rotary clamping ring groove is arranged on the positioning ring body, a rotary clamping plate is arranged at the upper end of the positioning rod, the positioning ring body is rotatably clamped on the rotary clamping plate at the upper end of the positioning rod through the rotary clamping ring groove, and the rotary clamping plate is of an arc structure.

, arranging an elastic pressing piece and a pressing plate on the sliding sleeving block, installing the pressing plate in the sleeving groove of the sliding sleeving block, arranging a penetrating port in the middle of the pressing plate, connecting the upper end of the pressing plate to the upper end of the sleeving groove through a plurality of elastic pressing pieces, pressing the pressing plate against the outer side surface of the rotary circular ring through the pressing and attaching of the elastic pressing pieces, and inserting and connecting the locking screw into the locking groove of the rotary circular ring after the locking screw rotates to penetrate through the threaded groove and the penetrating port.

, the pressing plate is in an arc structure jointed with the outer side surface of the rotary ring, and the inner side surface of the sleeving groove of the sliding sleeving block is in an arc structure jointed with the inner side surface of the rotary ring.

And , the wiring pipes are vertically distributed with the center of the rotating ring.

The invention has the advantages of

1. According to the invention, after the outer end of the telescopic screw rod is telescopically moved in the telescopic groove, the telescopic screw rod is clamped at the inner side and the outer side of the telescopic groove through the two clamping nuts, so that the telescopic screw rod forms a locking structure, and the position of the routing ring at the inner end of the telescopic screw rod along the radial direction of the rotating ring can be adjusted, so that the distance between the routing of each steel wire is adjusted, and the steel wires are prevented from knotting and winding in the routing process.

2. The invention changes the structure of the traditional twisting disc, adds a stranding mechanism, penetrates through the insertion gap of the rotary ring through the sliding sleeve connecting block, the sliding sleeve connecting block is slidingly sleeved on the rotary ring through the sleeve connecting groove to do arc motion, so that a plurality of sliding sleeve connecting blocks are slidingly sleeved on the rotary ring, then the locking screw is inserted into the locking groove of the rotary ring after rotating through the threaded groove, thereby realizing the positioning of the sliding sleeve connecting block and the rotary ring, the wiring ring is arranged at the inner side of the sliding sleeve connecting block, so that the number of the wiring ring can be changed by changing the number of the sliding sleeve connecting blocks slidingly sleeved on the rotary ring, the number of steel wires penetrating into the wiring ring can be changed, the application range is , and the use is more flexible.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of a connection structure of the sliding sleeve block and the rotary ring of the present invention.

FIG. 3 is a partially enlarged structural view of the sliding sleeve block, the wire loop and the rotary ring of the present invention.

Figure 4 is a cross-sectional view of a sliding sleeve block and rotating ring of the present invention.

Fig. 5 is a cross-sectional view of a sliding splice block of the present invention.

Detailed Description

The present invention is further described in detail below with reference to the figures.

As shown in FIGS. 1 to 5, floating type steel wire rope stranding device comprises a base 1, a wire frame 2, a stranding mechanism 3, a driving mechanism 5, a routing pipe 4, a wire pressing die 5, a wire winding roller 6 and a connecting assembly 7, wherein the wire frame 2, the stranding mechanism 3, the wire feeding pipe 4, the wire pressing die 5 and the wire winding roller 6 are sequentially installed on the base 1, the stranding mechanism 3 comprises a rotary circular ring 31, a sliding sleeving block 32, a locking screw 33 and a routing ring 34, the driving mechanism 5 is installed on the base 1, the driving mechanism 5 controls the rotary motion of the rotary circular ring 31, the rotary circular ring 31 is provided with a plurality of insertion notches 312 which are convenient for the sleeving and entering of the sliding sleeving block 32, a plurality of locking grooves 311 are uniformly distributed on the outer side of the periphery of the rotary circular ring 31, the sliding sleeving block 32 is provided with a sleeving groove 321, the outer end of the sleeving groove 321 is provided with a communicated screw groove 322, the outer end of the sleeving groove 321 is provided with a plurality of insertion notches 312 which is sleeved with a connected with a socket opening which is arranged on the side of the sliding sleeving groove, the sliding block 32 is connected with the sliding ring 32, the sliding block 32, the sliding ring 32 is inserted into the inner end of the sliding ring 32, the sliding ring 32 is inserted into the sliding ring 32, the two telescopic nut is inserted into the two telescopic nut 32, the two telescopic nut 32 is inserted into the two telescopic nut 32, the telescopic nut 32 is inserted into the telescopic nut 32, the telescopic nut.

As shown in fig. 1 to 5, the driving mechanism 5 preferably includes a driving motor 51, a rotating shaft 52, a driving gear 53, a positioning ring 55, a driven gear ring 56 and a positioning rod 54, the positioning ring 55 is installed on the side of the rotating ring 31, the driven gear ring 56 is installed on the outer side of the positioning ring 55, the driving motor 51 is installed below the wire feeding pipe 4, the driving motor 51 is connected with the rotating shaft 52, the rotating shaft 52 is connected with the driving gear 53, the driving gear 53 is connected with the driven gear ring 56 in an engaged manner, the positioning rod 54 is fixed on the base 1 at the lower end and connected to the lower side of the positioning ring 55 at the upper end, the positioning ring 55 is rotatably engaged with the upper end of the positioning rod 54 for , the positioning ring 55 is provided with a rotating engaging ring groove 551, the positioning rod 54 is provided with a rotating engaging plate, the positioning plate 54 is provided with a rotating engaging plate, the positioning ring 55 is rotatably engaged with the rotating engaging plate at the upper end of the positioning ring 54, the rotating engaging plate is in an arc-shaped structure, the wire feeding engaging plate is provided with an arc-shaped structure, the sliding engaging plate 32 is provided with an elastic engaging plate 36 and a pressing plate 35, the pressing plate 35 is inserted into the pressing plate 35 and connected with the rotating engaging with the inner side of the rotating engaging plate 35, the rotating engaging with the pressing plate 35, the pressing plate passing through the pressing plate of the rotating engaging structure, the rotating engaging with the rotating engaging structure of the rotating engaging structure, the rotating engaging structure of the rotating engaging structure, the rotating engaging plate 35, the rotating engaging.

The invention changes the structure of the traditional twisting disc, adds a stranding mechanism 3, penetrates through an insertion notch 312 of the rotary ring 31 through a sliding sleeve connecting block 32, the sliding sleeve connecting block 32 is slidably sleeved on the rotary ring 31 to do arc motion through a sleeve connecting groove 321, so a plurality of sliding sleeve connecting blocks 32 are slidably sleeved on the rotary ring 31, then the locking screw 33 is inserted into a locking groove 311 of the rotary ring 31 after penetrating through a thread groove 322, the positioning of the sliding sleeve connecting blocks 32 and the rotary ring 31 is realized, the wire ring 34 is arranged at the inner side of the sliding sleeve connecting block 32, the number of the sliding sleeve connecting blocks 32 sleeved on the rotary ring 31 can be changed by changing the number of the sliding sleeve connecting blocks 31, and the use range of the wire rings 34 can be changed by changing the number of the sliding sleeve connecting blocks 32, so that the number of the steel wires which are sleeved on the rotary ring 31 can be changed flexibly.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.