CN215577937U - Cable pipe viscose winding system - Google Patents

Abstract

The utility model provides a cable pipe adhesive winding system, which comprises a rack, wherein a hoop winding adhesive assembly is arranged on the rack, a side plate is arranged on the rack in the input direction of the hoop winding adhesive assembly, a positioning ring is arranged on the side plate, a through positioning hole is arranged on the positioning ring, the number of the positioning holes is more than 4, the positioning holes are uniformly distributed by taking the axis of the positioning ring as the center, a longitudinal laying positioning assembly is arranged on the rack in the input direction of the positioning ring, and a longitudinal adhesive assembly is arranged on the rack in the input direction of the longitudinal laying positioning assembly; after the embodiment is adopted, the winding device is reasonable in structure, good in winding effect and high in working efficiency.

Description

Cable pipe viscose winding system

Technical Field

The utility model relates to the technical field of cable pipes, in particular to a cable pipe adhesive winding system.

Background

Most of the existing cable tube winding devices are single, and when the longitudinal braided belt is wound, the annular braided belt is wound, so that the working efficiency is low; the existing braided belts are mostly directly wound on a cable tube, the braided belts wound by the method are not tight enough, the winding effect is poor, meanwhile, a plurality of groups of braided belts are easy to wind together when winding, so that dead knots are easy to form, the machine needs to be stopped and dredged by manpower after the dead knots are formed, and the labor intensity of the manpower is high; the existing cable tube winding viscose is mainly characterized in that a layer of glue is coated on a cable tube to be wound firstly, then a braided belt is wound on the cable tube to be wound, and finally a layer of glue is coated on the surface of the braided belt after winding.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides the cable pipe adhesive winding system which is reasonable in structure, good in winding effect and high in working efficiency.

In order to achieve the purpose, the technical scheme provided by the utility model is as follows: the utility model provides a cable duct viscose winding system, it is including the frame, install hoop winding viscose subassembly in the frame, install the curb plate in the frame of hoop winding viscose subassembly input direction, install the holding ring on the curb plate, be equipped with the locating hole that runs through on the holding ring, the quantity of locating hole is greater than 4, use the axis of holding ring as central evenly distributed, install in the frame of holding ring input direction and vertically lay locating component, vertically lay and install vertical viscose subassembly in the frame of locating component input direction.

The circumferential winding viscose assembly comprises a winding drum, a wire coil and a first rubber box, wherein the winding drum is horizontally and movably arranged on a rack, a rotating motor is arranged on the rack below the winding drum, the winding drum is driven to rotate by the rotating motor, an outlet is formed by an opening at one end of the winding drum, the wire coil is arranged on the winding drum at one end of the outlet, a wire box is arranged at one side of the wire coil in the direction of the outlet, a through wire hole is formed in the wire coil at the position of the wire box, a tensioning assembly is arranged at the other side of the wire coil, the mounted tensioning assembly is positioned between the wire hole and the winding drum, an inlet is formed by an opening at the other end of the winding drum, the end part of the winding drum at one end of the inlet is outwards expanded to form a wire coil, a viscose arm is arranged on the outer ring surface of the wire coil, a viscose groove is formed in the viscose arm, the first rubber box is arranged on the rack below the viscose arm, and a winding arm is horizontally fixed at the edge of the wire coil far away from one side of the wire coil, the side view of the winding arm after fixing and the viscose arm is L-shaped, the outer end of the winding arm is provided with a through winding hole, a guide arm is fixed on a winding cylinder between the wire coil and the winding ring, and the guide arm is provided with a through guide hole.

The tensioning assembly comprises end plates and a tensioning shaft, wherein the end plates are two and are fixed on a wire coil, a tensioning area is reserved between the two fixed end plates, inserting holes which penetrate through the end plates are formed in the end plates, a limiting plate is formed by expanding one end part of the tensioning shaft, a bolt end is formed after the other end of the tensioning shaft penetrates through the two inserting holes and the tensioning area, a bolt hole which penetrates through the bolt end is formed in the bolt hole, a limiting pin is inserted in the bolt hole, and a guide output shaft is installed between the two end plates which are located at one end of a winding cylinder.

The vertical locating component of laying including laying the seat, the flow distribution plate, wherein, lay the seat and install in the frame of holding ring input direction, it is equipped with the groove of laying of "n" shape to lay a seat both sides, it is fixed with the mounting panel on the seat of laying of groove both sides to lay, install the flow distribution plate between two mounting panels, be equipped with the diffluence pass that runs through on the flow distribution plate, be equipped with the collar in the frame between flow distribution plate and the holding ring, the collar is two, the collar is vertical respectively to be fixed on the lateral wall of frame both sides, the collar movable cartridge has the rotation axis, the rotation axis top upwards passes the collar and is connected with the tensioning plate bottom, the tensioning plate is equipped with the tensioning hole that runs through.

The longitudinal adhesive assembly comprises a mounting frame and a second adhesive box, wherein the mounting frame is fixed on a rack in the input direction of the laying base, a laying plate is vertically arranged on the upper portion of an input end of the mounting frame, a laying hole is formed in the laying plate, a glue scraping plate is vertically arranged on the upper portion of an output end of the mounting frame, a penetrating glue scraping hole is formed in the glue scraping plate, the length direction of the central line of the glue scraping hole is consistent with the length direction of the central line of the laying hole, cross beams are horizontally fixed on the two sides of the middle of the mounting frame, the two fixed cross beams are parallel, the second adhesive box is movably arranged between the two cross beams, two sides of the top of the second adhesive box are bent outwards to form bearing edges, the bearing edges are movably lapped on the corresponding cross beams, a limiting plate is movably arranged between the middle parts of the two bearing edges through a bolt, a guide plate is arranged in the second adhesive box, the guide plate is in a trapezoidal shape with a large side view and a small side view, and the guide plate positioned on one side of the guide plate extends to form a guide end, the flow guide end is positioned right below the frictioning plate; the limiting plate is L-shaped in side view, the two ends of a cross arm of the limiting plate are provided with penetrating bolt holes, the middle of a bearing edge is provided with a penetrating hole which penetrates up and down, a cross beam below the penetrating hole is provided with a limiting hole which penetrates up and down, the top of the bolt is expanded to form a limiting block, the bottom of the bolt sequentially penetrates through the bolt holes, the penetrating holes and the limiting holes downwards to form a limiting end, and the vertical wall of the mounted limiting plate is positioned on one side of the laying plate; and the corners of the limiting plates are in arc smooth transition.

A glue returning plate is horizontally arranged on the rack below the flow distribution plate, the higher end of the glue returning plate is fixed on the rack below the flow distribution plate, and the lower end of the glue returning plate is fixed on the top of the second glue box; the vertical section of the rubber return plate is arc-shaped, and the inner arc surface of the rubber return plate faces upwards.

After the scheme is adopted, the longitudinal braided belt passes through the longitudinal adhesive component, then passes through the longitudinal laying positioning component, then passes through the positioning hole and then is distributed on the cable pipe to be wound, and thus the cable pipe is longitudinally laid; meanwhile, the annular braided strap is glued by the annular winding glue assembly and then wound on the cable pipe to be wound, so that annular winding is carried out on the cable pipe; after the embodiment is adopted, the winding device is reasonable in structure, good in winding effect and high in working efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the tension assembly of the present invention.

Fig. 3 is a schematic structural view of the longitudinal laying positioning assembly of the present invention.

Fig. 4 is a schematic view of an installation structure of the glue returning plate of the present invention.

FIG. 5 is a schematic view of the longitudinal adhesive assembly of the present invention.

Fig. 6 is a schematic view of an installation structure of the stopper plate of the present invention.

Detailed Description

The utility model will be further described with reference to the accompanying drawings, in which preferred embodiments of the utility model are: referring to fig. 1 to 6, the cable pipe adhesive winding system according to this embodiment includes a frame 1, a hoop winding adhesive assembly is mounted on the frame 1, a side plate 207 is mounted on the frame 1 in an input direction of the hoop winding adhesive assembly, a positioning ring 208 is mounted on the side plate 207, a through positioning hole 209 is disposed on the positioning ring 208, the number of the positioning holes 209 is greater than 4, the positioning holes are uniformly distributed with an axis of the positioning ring 208 as a center, a longitudinal laying positioning assembly is mounted on the frame 1 in the input direction of the positioning ring 208, and a longitudinal adhesive assembly is mounted on the frame 1 in the input direction of the longitudinal laying positioning assembly; the circumferential winding viscose assembly comprises a winding cylinder 2, a wire coil 6 and a first glue box 4, wherein the winding cylinder 2 is horizontally and movably arranged on a rack 1, a rotating motor 5 is arranged on the rack 1 below the winding cylinder 2, the winding cylinder 2 is driven to rotate by the rotating motor 5, an outlet is formed by an opening at one end of the winding cylinder 2, the wire coil 6 is arranged on the winding cylinder 2 at one end of the outlet, a wire box 7 is arranged at one side of the wire coil 6 in the outlet direction, a through wire hole 8 is arranged on the wire coil 6 at the position of the wire box 7, a tensioning assembly is arranged at the other side of the wire coil 6, the mounted tensioning assembly is positioned between the wire hole 8 and the winding cylinder 2, an inlet is formed by an opening at the other end of the winding cylinder 2, a winding ring 9 is formed by outward expansion of the end part of the winding cylinder 2 at one end of the inlet, a viscose arm 10 is arranged on the outer ring surface of the winding ring 9, and a viscose groove 11 is arranged on the viscose arm 10, a first glue box 4 is installed on the rack 1 below the glue arm 10, a winding arm 12 is horizontally fixed at the edge of a winding ring 9 on one side far away from the wire coil 6, the fixed winding arm 12 and the glue arm 10 are in an L shape in side view, a penetrating winding hole 13 is formed in the outer end of the winding arm 12, a guide arm 14 is fixed on the winding cylinder 2 between the wire coil 6 and the winding ring 9, and a penetrating guide hole 15 is formed in the guide arm 14; the tensioning assembly comprises end plates 105 and a tensioning shaft 106, wherein the two end plates 105 are fixed on the wire coil 6, a tensioning area is reserved between the two fixed end plates 105, a penetrating insertion hole 1012 is formed in each end plate 105, a limiting plate 107 is formed by expanding one end part of the tensioning shaft 106, a bolt end is formed by penetrating the other end of the tensioning shaft 106 through the two insertion holes 1012 and the tensioning area, a penetrating bolt hole 108 is formed in each bolt end, a limiting pin 109 is inserted in each bolt hole 108, and a guide output shaft 1010 is arranged between the end parts of the two end plates 105 at one end of the winding drum 2; the longitudinal laying positioning assembly comprises a laying seat 202 and a shunt plate 205, wherein the laying seat 202 is mounted on a rack 1 in the input direction of a positioning ring 208, n-shaped laying grooves 203 are formed in two sides of the laying seat 202, mounting plates 204 are fixed on the laying seat 202 on two sides of the laying groove 203, the shunt plate 205 is mounted between the two mounting plates 204, a through shunt hole 206 is formed in the shunt plate 205, mounting rings 2012 are arranged on the rack 1 between the shunt plate 205 and the positioning ring 208, the two mounting rings 2012 are vertically fixed on the outer side walls of the two sides of the rack 1 respectively, a rotating shaft 2013 is movably inserted into the mounting ring 2012, the top of the rotating shaft 2013 upwards penetrates through the mounting ring 2012 to be connected with the bottom of a tensioning plate 2010, and the tensioning plate 2010 is provided with a through tensioning hole 2011; the longitudinal adhesive assembly comprises a mounting frame 301 and a second adhesive box 307, wherein the mounting frame 301 is fixed on the rack 1 in the input direction of the laying base 202, the laying plate 302 is vertically installed on the upper portion of the input end of the mounting frame 301, the laying plate 302 is provided with a laying hole 303, the adhesive scraping plate 304 is vertically installed on the upper portion of the output end of the mounting frame 301, the adhesive scraping plate 304 is provided with a penetrating adhesive scraping hole 305, the length direction of the central line of the adhesive scraping hole 305 is consistent with the length direction of the central line of the laying hole 303, the two sides of the middle of the mounting frame 301 are horizontally fixed with cross beams 306, the two fixed cross beams 306 are parallel, the second adhesive box 307 is movably installed between the two cross beams 306, the two sides of the top of the second adhesive box 307 are bent outwards to form bearing edges 308, the bearing edges 308 are movably overlapped on the corresponding cross beams 306, a limiting plate 309 is movably installed between the middles of the two bearing edges 308 through a bolt 3011, and a guide plate 3010 is installed in the second adhesive box 307, the guide plate 3010 is a trapezoid with a large upper part and a small lower part in side view, the guide plate 3010 positioned on one side of the rubber scraping plate 304 extends to form a guide end, and the guide end is positioned right below the rubber scraping plate 304; the limiting plate 309 is L-shaped in side view, the two ends of the cross arm of the limiting plate 309 are provided with through bolt holes 3015, the middle part of the supporting edge 308 is provided with through holes 3012 which are through up and down, the cross beam 306 below the through holes 3012 is provided with limiting holes 3013 which are through up and down, the top of the bolt 3011 is expanded to form a limiting block 3014, the bottom of the bolt 3011 sequentially passes through the bolt holes 3015, the through holes 3012 and the limiting holes 3013 downwards to form a limiting end, and the vertical wall of the installed limiting plate 309 is positioned on one side of the laying plate 302; the corners of the limiting plates 309 adopt arc smooth transition; a glue return plate 401 is horizontally arranged on the rack 1 below the flow distribution plate 205, the higher end of the glue return plate 401 is fixed on the rack 1 below the flow distribution plate 205, and the lower end of the glue return plate 401 is fixed on the top of the second glue box 307; the vertical section of the glue returning plate 401 is arc-shaped, and the inner arc surface of the glue returning plate faces upwards. After the embodiment is adopted, glue is injected into the first glue box and the second glue box, the longitudinal woven belt firstly passes through the laying hole, then passes through the glue scraping plate upwards after passing through the limiting plate downwards, one end of the woven belt between the laying plate and the glue scraping plate is reserved to enable the woven belt to droop, the woven belt below the limiting plate droops into the glue in the second glue box for gluing, the glued woven belt sequentially passes through the glue scraping hole, the shunting hole, the tensioning hole and the positioning hole and then is distributed on a cable pipe to be wound, and the line laying and positioning of the longitudinal woven belt are completed; when the longitudinal woven belt passes through the glue scraping hole, redundant glue is scraped off through the glue scraping plate, the scraped glue falls onto the flow guide end of the flow guide plate from the glue scraping plate under the self-gravity, and the glue on the flow guide end flows into the second glue box through the flow guide plate to be reused; when the second glue box is cleaned after the work is finished, the second glue box is only required to be dragged up, the bottom of the second glue box is higher than the cross beam, and then the mounting frame is moved out and placed in a cleaning area for cleaning; when the longitudinal braided strap is too tight, the longitudinal braided strap below the limiting plate rises, the longitudinal braided strap is abutted against the limiting plate and limited by the limiting plate, and the limiting plate is movably mounted in a bolt manner, so that the longitudinal braided strap and the limiting plate cannot generate rigid interference, and the longitudinal braided strap is effectively protected from being broken; the initial end of the annular braided strap sequentially passes through or bypasses the threading hole, the guide hole, the adhesive groove and the winding hole and then is fixed on a cable pipe to be wound, an external rotating motor drives the bobbin to rotate, the bobbin drives the guide arm, the wire spool and the wire winding ring to synchronously rotate, the wire winding ring drives the adhesive arm, the wire winding arm rotates by taking the axis of the bobbin as the center, the adhesive arm drives the ring to downwards move to the braided strap into a first adhesive box for adhering, the annular braided strap after adhering is driven by the wire winding arm to be wound on the cable pipe outside the longitudinal braided strap, and meanwhile, the cable pipe to be wound is pulled by external traction equipment, so that the cable pipe to be wound is subjected to annular winding; the excessive glue on the annular woven belt and the glue on the glue arm are thrown off and blocked by the baffle when the glue arm rotates upwards, and the glue blocked by the baffle flows back to the first glue tank for reuse under the action of the baffle; the glue end formed by gradual shrinkage is adopted, so that the glue on the glue arm is more easily thrown off; the hoop braided strap passes through the tensioning of tensioning axle, and the quantity of tensioning axle can increase or reduce according to the needs of the tensioning dynamics of hoop braided strap, still can adjust the interval between the adjacent tensioning axle according to the thickness of hoop braided strap simultaneously (when the braided strap is thick, an empty set of cartridge hole of tensioning axle mountable is installed one again to increase the interval between the adjacent tensioning axle), make thick hoop braided strap can not cliied by two adjacent tensioning axles when walking around the tensioning axle.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that the changes in the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a cable pipe viscose winding system, it is including frame (1), its characterized in that: install hoop winding viscose subassembly on frame (1), install curb plate (207) on rack (1) of hoop winding viscose subassembly input direction, install holding ring (208) on curb plate (207), be equipped with locating hole (209) that run through on holding ring (208), the quantity of locating hole (209) is greater than 4, use the axis of holding ring (208) to be central evenly distributed, install on holding ring (208) input direction's frame (1) and vertically lay locating component, vertically lay and install vertical viscose subassembly on frame (1) of locating component input direction.

2. The cable duct adhesive winding system of claim 1, wherein: the circumferential winding viscose assembly comprises a winding drum (2), a wire coil (6) and a first glue box (4), wherein the winding drum (2) is horizontally and movably mounted on a rack (1), a rotating motor (5) is mounted on the rack (1) below the winding drum (2), the winding drum (2) is driven to rotate through the rotating motor (5), one end of the winding drum (2) is opened to form an output port, the wire coil (6) is mounted on the winding drum (2) positioned at one end of the output port, a wire box (7) is mounted at one side of the wire coil (6) positioned in the direction of the output port, a penetrating threading hole (8) is formed in the wire coil (6) at the position of the wire box (7), a tensioning assembly is mounted at the other side of the wire coil (6), the tensioning assembly after mounting is positioned between the threading hole (8) and the winding drum (2), the other end of the winding drum (2) is opened to form an input port, the end part of the winding drum (2) at one end of the input port is outwards expanded to form a winding ring (9), install on the outer anchor ring of wire winding ring (9) glue arm (10), be equipped with viscose groove (11) on glue arm (10), install first gluey case (4) on frame (1) of glue arm (10) below, the edge of keeping away from wire winding ring (9) of drum (6) one side is the level and is fixed with wire winding arm (12), wire winding arm (12) after the fixing looks sideways at with glue arm (10) and is "L" shape, the outer end of wire winding arm (12) is equipped with wire winding hole (13) that run through, be fixed with guide arm (14) on winding cylinder (2) between drum (6) and wire winding ring (9), be equipped with guide hole (15) that run through on guide arm (14).

3. The cable duct adhesive winding system of claim 2, wherein: tensioning assembly including end plate (105), tensioning axle (106), wherein, end plate (105) are two, all fix on drum (6), it has the tensioning district to reserve between two end plate (105) after fixed, be equipped with cartridge hole (1012) that run through on end plate (105), tensioning axle (106) one end tip extension is formed with limiting plate (107), tensioning axle (106) other end passes and is formed with the bolt end behind two cartridge hole (1012) and the tensioning district, the bolt is served and is equipped with bolt hole (108) that run through, bolt hole (108) interpolation is equipped with spacer pin (109), be located and install direction output shaft (1010) between two end plate (105) tip of winding section of thick bamboo (2) one end.

4. The cable duct adhesive winding system of claim 1, wherein: the longitudinal laying positioning component comprises a laying seat (202) and a flow distribution plate (205), wherein, shop's seat (202) are installed on frame (1) of holding ring (208) input direction, shop's seat (202) both sides are equipped with the groove (203) of laying of "n" shape, lay and be fixed with mounting panel (204) on the seat (202) of laying of groove (203) both sides, install flow distribution plate (205) between two mounting panels (204), be equipped with through-going reposition of redundant personnel hole (206) on flow distribution plate (205), be equipped with collar (2012) on frame (1) between flow distribution plate (205) and holding ring (208), collar (2012) are two, vertical the fixing respectively is on the lateral wall of frame (1) both sides, collar (2012) internalization cartridge has rotation axis (2013), rotation axis (2013) top upwards passes collar (2012) and is connected bottom tensioning plate (2010), tensioning plate (2010) are equipped with through tensioning hole (2011).

5. The cable duct adhesive winding system of claim 1, wherein: the longitudinal adhesive assembly comprises a mounting frame (301) and a second adhesive box (307), wherein the mounting frame (301) is fixed on a rack (1) in the input direction of a paving seat (202), a paving plate (302) is vertically installed on the upper portion of an input end of the mounting frame (301), a paving hole (303) is formed in the paving plate (302), a glue scraping plate (304) is vertically installed on the upper portion of an output end of the mounting frame (301), a penetrating glue scraping hole (305) is formed in the glue scraping plate (304), the length direction of the center line of the glue scraping hole (305) is consistent with the length direction of the center line of the paving hole (303), cross beams (306) are horizontally fixed on two sides of the middle of the mounting frame (301), the two fixed cross beams (306) are parallel, the second adhesive box (307) is movably installed between the two cross beams (306), bearing edges (308) are formed by outwards bending two sides of the top of the second adhesive box (307), and the bearing edges (308) are movably lapped on the corresponding cross beams (306), a limiting plate (309) is movably arranged between the middle parts of the two supporting edges (308) through a bolt (3011), a guide plate (3010) is arranged in the second rubber box (307), the side view of the guide plate (3010) is in a trapezoid shape with a large upper part and a small lower part, the guide plate (3010) positioned on one side of the rubber scraping plate (304) extends to form a flow guiding end, and the flow guiding end is positioned under the rubber scraping plate (304); the limiting plate (309) is L-shaped in side view, two ends of a cross arm of the limiting plate (309) are provided with through bolt holes (3015), the middle of the supporting edge (308) is provided with through holes (3012) which penetrate through the cross arm up and down, limiting holes (3013) which penetrate through the cross arm up and down are arranged on a cross beam (306) below the through holes (3012), the top of each bolt (3011) is expanded to form a limiting block (3014), the bottom of each bolt (3011) sequentially penetrates through the bolt holes (3015), the through holes (3012) and the limiting holes (3013) downwards to form a limiting end, and a vertical wall of the limiting plate (309) after installation is located on one side of the laying plate (302); the corners of the limiting plates (309) are in arc smooth transition.

6. The cable duct glue winding system of claim 4 or 5, wherein: a rubber return plate (401) is horizontally arranged on the rack (1) below the flow distribution plate (205), the higher end of the rubber return plate (401) is fixed on the rack (1) below the flow distribution plate (205), and the lower end of the rubber return plate (401) is fixed on the top of a second rubber box (307); the vertical section of the rubber return plate (401) is arc-shaped, and the inner arc surface of the rubber return plate is upward.

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