CN209747247U - Jacketing machine structure - Google Patents

Abstract

The utility model discloses a jacketing machine structure, including material feeding unit, reelpipe subassembly and spiral device, the reelpipe subassembly is located between material feeding unit and the spiral device, and the reelpipe subassembly includes first pillar and second pillar, first pillar is located one side that the second pillar is close to material feeding unit, the first anchor clamps of top fixedly connected with of first pillar, the top fixedly connected with of second pillar keeps the ware, first pillar and second pillar loop through first anchor clamps and keep ware and be connected with a cavity pipe jointly, the entrance hole has been seted up at the top of cavity pipe, and the relative pore wall in entrance hole all runs through the cavity pipe setting, be equipped with in the entrance hole with entrance hole assorted handhole door, along the even equidistance of straight line of seting up a plurality of section on the inner cover wall of handhole door be curved T type spout. The utility model discloses the convenience passes the cable in the cavity pipe, can prevent simultaneously that the winding condition of cable from taking place in the bellows.

Description

Jacketing machine structure

Technical Field

The utility model relates to a jacketing machine technical field especially relates to a jacketing machine structure.

Background

When the cable needs to be sleeved with protective outer sleeves such as a soft mesh pipe, the prior method mostly adopts manual sleeving to tile the cable on the ground, the protective sleeve is pushed forward by one section of a worker, the outer sleeve is easy to stack uneven appearance, the efficiency is low, the work area is wide, the workload is large, and the quality risk exists.

Through search, chinese patent No. CN205303074U discloses a cable jacketing machine, which includes a hollow conduit, a hollow conduit bracket and a winding device, wherein the hollow conduit is fixed on the hollow conduit bracket and has an inlet end and an outlet end. The outer wall of the hollow conduit is used for being sleeved with a protective sleeve, and the inner part of the hollow conduit is used for being penetrated by a cable which is penetrated from the inlet end. The reeling device is spaced a predetermined distance from the outlet end of the hollow conduit and is adapted to simultaneously pull and reel the cable and the protective sheath. The cable jacketing machine in the above patent has the following disadvantages: when the device is used, the cable on the feeding device is firstly fed into the hollow guide pipe, then the corrugated pipe is sleeved on the hollow guide pipe, and then the cable sleeved by the corrugated pipe is wound through the winding device; because the length of cavity pipe is longer, inconvenient with the cable through the cavity pipe, even can block up in the cavity pipe when the cable passes the cavity pipe, need carry out the threading again, the operation is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the cable is inconvenient to pass through the hollow guide pipe in the prior art and providing a jacketing machine structure.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

A jacketing machine structure comprises a feeding device, a pipe coiling assembly and a wire coiling device, wherein the pipe coiling assembly is located between the feeding device and the wire coiling device and comprises a first support column and a second support column, the first support column is located on one side, close to the feeding device, of the second support column, a first clamp is fixedly connected to the top of the first support column, a retainer is fixedly connected to the top of the second support column, the first support column and the second support column are connected with a hollow guide pipe through the first clamp and the retainer in sequence, a wire inlet hole is formed in the top of the hollow guide pipe, opposite hole walls of the wire inlet hole penetrate through the hollow guide pipe, a hole cover matched with the wire inlet hole is arranged in the wire inlet hole, a plurality of T-shaped sliding grooves with arc-shaped sections are formed in the inner wall of the hole cover uniformly and equidistantly along a straight line, and T-shaped sliding blocks matched with the T-shaped sliding grooves are symmetrically and slidably connected in the T, one end, far away from the bottom of the T-shaped sliding groove, of the T-shaped sliding block penetrates through a notch of the T-shaped sliding groove and extends outwards, a connecting rod is hinged to the T-shaped sliding block, the other end of the connecting rod is hinged to the inner pipe wall, far away from the hole cover, of the hollow guide pipe, and a spring is fixedly connected between the two connecting rods.

preferably, a circle of threads are fixedly arranged on the outer pipe wall of the hollow guide pipe close to the winding device, the hollow guide pipe is connected with a threaded sleeve through threads, one end of the threaded sleeve close to the winding device is fixedly connected with a pore plate, and a plurality of carding holes are formed in the pore plate.

Preferably, a ball groove is formed in one end, close to the bottom of the T-shaped sliding groove, of the T-shaped sliding block, a ball is connected in the ball groove in a rolling mode, and one end, far away from the bottom of the ball groove, of the ball penetrates through a groove opening of the ball groove and extends outwards, and is abutted against the bottom of the T-shaped sliding groove.

preferably, an isolation block is fixedly connected to the middle trough bottom of the T-shaped chute.

Preferably, a stabilizer bar is fixedly connected between the first pillar and the second pillar.

Preferably, the bottoms of the first support column and the second support column are fixedly connected with rubber pads.

Compared with the prior art, the utility model provides a jacketing machine structure possesses following beneficial effect:

1. This jacketing machine structure, through setting up the handhole door, the entrance hole, T type spout, T type slider, connecting rod and spring, when wearing the cable into the cavity pipe, apply an ascending power to the handhole door, open the cavity pipe, at this moment, two T type sliders carry out the slip in opposite directions in T type spout, through the connecting rod, make the spring compression, put into the cavity pipe with the cable through the entrance hole, cancel the power to the handhole door, the spring extension that is in compression state, and then drive the handhole door and reset and the laminating of entrance hole, can place the cable in the cavity pipe through upwards pulling the handhole door, the cable is conveniently placed in the cavity pipe.

2. This jacketing machine structure through setting up threaded sleeve, orifice plate and carding hole, places the back in the cavity pipe with the cable, passes the carding hole on the orifice plate with the cable, installs the orifice plate on the cavity pipe through threaded sleeve after that, and then when carrying out the spiral, combs the cable in the bellows neatly, prevents that the winding condition of cable from taking place in the bellows.

the part that does not relate to in the device all is the same with prior art or can adopt prior art to realize, the utility model discloses the cable is passed to the convenience in the cavity pipe, and the winding condition of cable takes place in the bellows simultaneously can be prevented.

Drawings

Fig. 1 is a schematic structural diagram of a jacketing machine structure according to the present invention;

Fig. 2 is a schematic structural view of a hollow conduit of a jacketing machine structure according to the present invention;

FIG. 3 is a sectional view taken along line A-A in FIG. 2;

Fig. 4 is an enlarged view of a portion B in fig. 3.

In the figure: the device comprises a feeding device 1, a pipe coiling assembly 2, a pipe coiling device 3, a first support column 4, a second support column 5, a first clamp 6, a retainer 7, a hollow guide pipe 8, a wire inlet hole 9, a hole cover 10, a chute 11T, a slide block 12T, a connecting rod 13, a spring 14, a threaded sleeve 15, a hole plate 16, a carding hole 17, a ball groove 18, a ball 19, a spacer 20 and a stabilizer bar 21.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

in the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-4, a jacketing machine structure includes a feeding device 1, a pipe coiling assembly 2, and a wire coiling device 3, wherein the specific structural comparison of the feeding device 1, the pipe coiling assembly 2, and the wire coiling device 3 is described in detail, i.e. in the prior art, since the technical problems are not described herein, and will not be described herein in detail, the pipe coiling assembly 2 is located between the feeding device 1 and the wire coiling device 3, and the pipe coiling assembly 2 includes a first pillar 4 and a second pillar 5, the first pillar 4 is located on a side of the second pillar 5 close to the feeding device 1, a first clamp 6 is fixedly connected to a top of the first pillar 4, the specific structural comparison of the first clamp 6 is described in detail, i.e. in the prior art, since the technical problems are not described herein, a retainer 7 is fixedly connected to a top of the second pillar 5, and the specific structural comparison of the retainer 7 is described in detail, that is, in the prior art, because the technical problems are not these, which is not described herein, the first support 4 and the second support 5 are connected to a hollow conduit 8 through the first clamp 6 and the retainer 7 in sequence, and the manner in which the first support 4 and the second support 5 are connected to the hollow conduit 8 through the first clamp 6 and the retainer 7 in sequence is described in detail in a comparative example, that is, because the technical problems are not these, which is not described herein in detail, the hollow conduit 8 is used for sleeving a corrugated pipe, the top of the hollow conduit 8 is provided with a wire inlet 9, opposite hole walls of the wire inlet 9 are all arranged to penetrate through the hollow conduit 8, a hole cover 10 matched with the wire inlet 9 is arranged in the wire inlet 9, a plurality of T-shaped chutes 11 with arc-shaped cross sections are uniformly and equidistantly arranged along a straight line on an inner cover wall of the hole cover 10, T-shaped sliders 12 matched with the T-shaped chutes 11 are symmetrically and slidably connected in the T-shaped chutes 11, one end of the T-shaped sliding block 12, which is far away from the bottom of the T-shaped sliding groove 11, penetrates through a notch of the T-shaped sliding groove 11 and extends outwards, and is hinged with a connecting rod 13, the other end of the connecting rod 13 is hinged on the inner pipe wall of the hollow guide pipe 8, which is far away from the hole cover 10, and a spring 14 is fixedly connected between the two connecting rods 13, when a cable penetrates into the hollow guide pipe 8, an upward force is applied to the hole cover 10 to open the hollow guide pipe 8, at the moment, the two T-shaped sliding blocks 12 slide in the T-shaped sliding groove 11 oppositely, the spring 14 is compressed through the connecting rod 13, the cable is placed into the hollow guide pipe 8 through the wire inlet hole 9, the force applied to the hole cover 10 is removed, the spring 14 in a compressed state extends, the hole cover 10 is driven to reset to be attached to the wire inlet hole 9, the cable can be placed in.

The fixed round screw thread that is equipped with on the outer pipe wall that cavity pipe 8 is close to spiral device 3, and cavity pipe 8 has threaded sleeve 15 through screw thread threaded connection, threaded sleeve 15 is close to the one end fixedly connected with orifice plate 16 of spiral device 3, a plurality of carding hole 17 has been seted up on the orifice plate 16, place the cable back in cavity pipe 8, pass the carding hole 17 on the orifice plate 16 with the cable, install orifice plate 16 on cavity pipe 8 through threaded sleeve 15 after that, and then when carrying out the spiral, it is neat to comb the cable in the bellows, prevent that the winding condition of cable from taking place in the bellows.

the ball groove 18 has been seted up to the one end that is close to T type spout 11 tank bottom of T type slider 12, and ball 19 is connected with in the ball groove 18 roll, and the one end that ball 19 kept away from the tank bottom of ball groove 18 passes the notch in ball groove 18 and outwards extends, and offsets with the tank bottom of T type spout 11, makes the gliding more swift of T type slider 12.

The middle bottom of the T-shaped chute 11 is fixedly connected with an isolation block 20.

A stabilizer bar 21 is fixedly connected between the first pillar 4 and the second pillar 5, so that the first pillar 4 and the second pillar 5 are more stably connected.

The equal fixedly connected with rubber pad in the bottom of first pillar 4 and second pillar 5 makes first pillar 4 and second pillar 5 place more stably.

In the utility model, when the cable is threaded into the hollow conduit 8, an upward force is applied to the hole cover 10, the hollow conduit 8 is opened, at the moment, the two T-shaped sliders 12 slide in the T-shaped sliding grooves 11 in opposite directions, the spring 14 is compressed through the connecting rod 13, the cable is placed into the hollow conduit 8 through the wire inlet hole 9, the force applied to the hole cover 10 is removed, the spring 14 in the compressed state is extended, the hole cover 10 is driven to reset and be attached to the wire inlet hole 9, the cable can be placed in the hollow conduit 8 by pulling the hole cover 10 upwards, and the cable is conveniently placed in the hollow conduit 8; after the cable is placed in the hollow guide pipe 8, the cable penetrates through the carding holes 17 in the pore plate 16, then the pore plate 16 is installed on the hollow guide pipe 8 through the threaded sleeve 15, and when the cable is wound, the cable in the corrugated pipe is carded in order, and the cable in the corrugated pipe is prevented from being wound.

Above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.

Claims (6)

1. A jacketing machine structure comprises a feeding device (1), a pipe coiling assembly (2) and a wire coiling device (3), and is characterized in that the pipe coiling assembly (2) is located between the feeding device (1) and the wire coiling device (3), the pipe coiling assembly (2) comprises a first support column (4) and a second support column (5), the first support column (4) is located on one side, close to the feeding device (1), of the second support column (5), the top of the first support column (4) is fixedly connected with a first clamp (6), the top of the second support column (5) is fixedly connected with a retainer (7), the first support column (4) and the second support column (5) are connected with a hollow guide pipe (8) through the first clamp (6) and the retainer (7) in a common mode, a wire inlet hole (9) is formed in the top of the hollow guide pipe (8), and the opposite hole wall of the wire inlet hole (9) penetrates through the hollow guide pipe (8), be equipped with in entrance hole (9) with entrance hole (9) assorted handhole door (10), along the even equidistance T type spout (11) that a plurality of section is curved of seting up of straight line on the inner cover wall of handhole door (10), symmetrical sliding connection has T type slider (12) with T type spout (11) assorted in T type spout (11), the notch of T type spout (11) is passed and outwards extends in the one end that T type spout (11) tank bottom was kept away from in T type slider (12), and articulated have connecting rod (13), the other end of connecting rod (13) articulates on hollow pipe (8) keep away from the inner pipe wall of handhole door (10), and common fixedly connected with spring (14) between two connecting rod (13).

2. The jacketing machine structure according to claim 1, characterized in that the outer pipe wall of the hollow conduit (8) close to the coiling device (3) is fixedly provided with a circle of threads, the hollow conduit (8) is connected with a threaded sleeve (15) through the threads, one end of the threaded sleeve (15) close to the coiling device (3) is fixedly connected with a pore plate (16), and the pore plate (16) is provided with a plurality of carding holes (17).

3. The jacketing machine structure according to claim 1, characterized in that one end of the T-shaped slide block (12) close to the bottom of the T-shaped sliding chute (11) is provided with a ball groove (18), a ball (19) is connected in the ball groove (18) in a rolling manner, and one end of the ball (19) far away from the bottom of the ball groove (18) passes through the notch of the ball groove (18) and extends outwards and abuts against the bottom of the T-shaped sliding chute (11).

4. A jacketing machine construction according to claim 1, wherein a spacer block (20) is fixedly attached to the middle deck of the T-chute (11).

5. A jacketing machine configuration according to claim 1, wherein a stabilizer bar (21) is fixedly connected between the first (4) and second (5) legs.

6. A jacketing machine construction according to claim 1, wherein rubber pads are fixedly attached to the bottom of both the first (4) and second (5) supports.