CN114770351B - Bundling pipe and production process thereof - Google Patents

Abstract

The application relates to a bundling pipe and a production process thereof, and relates to the field of bundling pipes, which comprises a main pipe and a plurality of microtubes, wherein the microtubes are all positioned in the main pipe, the main pipe comprises an outer layer pipe, a honeycomb pipe and an inner layer pipe, and the honeycomb pipe is sleeved outside the inner layer pipe and fixedly connected with the inner layer pipe; the outer layer pipe is sleeved on the honeycomb pipe and fixedly connected with the honeycomb pipe; the inner wall of the inner layer tube is fixedly connected with a wax layer. The application has the effects of reducing the weight of the main pipe and improving the smoothness of the inner layer pipe by arranging the wax layer in the inner layer pipe while ensuring the supporting force of the main pipe.

Description

Bundling pipe and production process thereof

Technical Field

The application relates to the field of bundling pipes, in particular to a bundling pipe and a production process thereof.

Background

The bundling pipe is used for accommodating micro cables in the effective space of the microtubes when a certain number of microtubes are assembled in the main pipe, and the bundling pipe and the micro cables are installed by utilizing the air-blowing micro cable technology, and the method comprises the following steps of: the micro-pipe is firstly blown into the laid main pipe, and then the micro-cable is blown into the micro-pipe, so that the smoothness of the inner wall of the main pipe is required to be high, and the hardness of the main pipe is also required to be high for protecting the micro-cable, so that the micro-cable is difficult to deform.

In the related art, the wall of the parent tube is a solid wall so as to ensure that the hardness of the parent tube is higher. The Chinese application document with the application number of 202022483143.6 discloses a polishing device for an inner pipe of a steel pipe, wherein the polishing device for the inner wall comprises a fixed seat, two parallel sliding rails are arranged on the fixed seat, the same sliding table is connected to the sliding rails in a sliding manner, a first bearing is fixedly connected to the sliding table, a connecting rod is arranged in the first bearing, one end of the connecting rod is connected with a polishing head, the other end of the connecting rod is sleeved with a second belt wheel, the second belt wheel is connected with a first belt wheel through a belt, the first belt wheel is connected to a driving shaft of a motor, the motor is fixed to the sliding table through a bracket, a first telescopic rod is arranged below the sliding table and fixed to the fixed seat, and an output shaft of the first telescopic rod is fixed to the sliding table through a connecting piece; when the inner wall of the steel pipe is polished, the motor drives the polishing head to rotate, and meanwhile, the motor is driven to move left and right through the first telescopic rod, so that the inner wall of the steel pipe body is polished in a reciprocating mode, and polishing quality is improved.

In summary, the inventors believe that the above solution, while guaranteeing the rigidity of the main pipe, is heavy; and the inner wall of the main pipe is difficult to obtain a smooth enough inner wall of the main pipe only by polishing, and when the micro pipe is blown in, the generated resistance can influence the blowing speed of the micro pipe.

Disclosure of Invention

The application provides a cluster tube and a production process thereof, which aim to reduce the weight of a main tube and improve the smoothness of the inner wall of the main tube while ensuring the hardness of the main tube.

In a first aspect, the present application provides a cluster tube, which adopts the following technical scheme:

the cluster pipe comprises a main pipe and a plurality of microtubes, wherein the microtubes are positioned in the main pipe, the main pipe comprises an outer layer pipe, a honeycomb pipe and an inner layer pipe, and the honeycomb pipe is sleeved outside the inner layer pipe and fixedly connected with the inner layer pipe; the outer layer pipe is sleeved on the honeycomb pipe and fixedly connected with the honeycomb pipe; the inner wall of the inner layer tube is fixedly connected with a wax layer.

By adopting the technical scheme, the honeycomb tube is arranged, so that the weight of the main tube is reduced, but the supporting force of the main tube is not reduced, the main tube can keep the shape for a long time, and a plurality of micro tubes are protected, so that micro cables in the micro tubes are protected; the wax layer in the inner layer pipe sets up for the intraductal smoothness of inner layer is higher, when blow into the female intraductal with little cable, in the slip female intraductal that can be more smooth of little cable.

Optionally, the honeycomb net is made of plastic steel material.

Through adopting above-mentioned technical scheme, the honeycomb net that plastic steel material was made has certain toughness simultaneously, and hardness is higher, and the quality is lighter, has guaranteed that the constructor man is constructed time more convenient, and when the main pipe was as the protective layer of many microtubules, can play stronger guard action to the microtubule.

In a second aspect, the application provides a production process of a bundling tube, which adopts the following technical scheme:

a production process of a bundling pipe is characterized in that: the method comprises the following steps:

step 1, polishing the inner layer tube;

step 2, waxing the inner wall of the inner layer pipe after internal polishing;

step 3, sleeving the honeycomb tube on the inner layer tube, and fixedly connecting the honeycomb tube with the inner layer tube;

and 4, sleeving the outer layer on the honeycomb tube, and fixedly connecting the outer layer tube with the honeycomb tube.

By adopting the technical scheme, in the step 1, firstly, the inner layer pipe is internally polished, and burrs and bulges in the inner layer pipe are removed; in the step 2, waxing is carried out on the polished inner layer pipe, so that the smoothness of the inner wall of the inner layer pipe is higher, and when the microtube is blown into the mother pipe, the microtube is easier to enter the mother pipe; and 3, fixing the honeycomb tube and the outer tube in the step 4, finishing the machining of the main tube, and finally finishing the production of the bundling tube.

Optionally, in the step 2, when the inner wall of the inner layer pipe is waxed, the wax on the inner wall of the inner layer pipe is rubbed until the inner wall of the inner layer pipe is flat and smooth.

Through adopting above-mentioned technical scheme, when waxing in the inlayer pipe, through repeated friction inlayer pipe inner wall for the wax of inlayer pipe inner wall is paintd evenly in inlayer pipe inner wall, and with the unevenness department mill in the inlayer pipe, make inlayer pipe smoothness higher, the blowing in of microtubule of being convenient for.

Optionally, the step 2 of waxing uses a waxing device, where the waxing device includes a wax feeding component, a wax feeding box and a wax homogenizing block, and the wax feeding box is coated outside the wax feeding component and connected with the wax feeding component; the wax homogenizing block is coated outside the wax feeding box and connected with the wax feeding box.

Through adopting above-mentioned technical scheme, the setting of waxing equipment for give the wax box and pack into wax, give the wax subassembly extrusion and give the wax box, make the wax that gives in the wax box flow to the homowax piece, the homowax piece will give the even coating of the wax that the wax box gives in the inlayer pipe.

Optionally, the wax feeding assembly comprises a wax feeding disc and a wax feeding block, wherein a connecting rod is arranged in the center of the wax feeding disc in a penetrating way, and the connecting rod is fixedly connected with the wax feeding disc; the wax feeding disc is provided with a thread groove around the connecting rod, the wax feeding block is rotationally connected with the wax feeding disc along the direction of the thread groove, and the wax feeding block is fixedly connected with the wax feeding box.

Through adopting above-mentioned technical scheme, the screw thread groove on the wax disc sets up for after the fixed position of giving the wax stone, along with the rotation of giving the wax disc, the screw thread groove pulling is given the wax stone and is moved to being close to or keeping away from the direction of giving the wax box, makes to give the wax stone striking and gives the wax box, gives the wax box to the wax of samming wax piece.

Optionally, the wax feeding block is fixedly connected with a wax feeding plate, the wax feeding plate is fixedly connected with a wax feeding box, and one side of the wax feeding box, which is close to the wax feeding plate, is made of flexible materials.

Through adopting above-mentioned technical scheme, give the setting of wax board for when not increasing and giving wax piece volume and weight, enlarge the area of contact who gives wax piece and give the wax box, make and give the wax box for the wax board can be abundant extrusion, guarantee to give wax in the wax box by even extrusion, thereby guarantee equal wax piece to the even waxing of inlayer pipe inner wall.

Optionally, a sliding block is fixedly connected to the wax feeding block, the peripheral surface of the sliding block is arc-shaped, and the center point of the longitudinal section of the sliding block is positioned in the thread groove.

By adopting the technical scheme, the sliding block with the arc-shaped peripheral surface has higher convenience in sliding in the thread groove; because the center point department on the sliding block longitudinal section is located the screw thread inslot, then the sliding block can only slide in the screw thread inslot, can't break away from the screw thread inslot, guaranteed to give the wax piece can be when giving the wax dish rotation, stable extrusion gives the wax box, extrudees wax to on the wax homogenizing block for wax homogenizing block will wax even coating inner tube inner wall.

Optionally, the wax is filled in the wax feeding box, one side of the wax feeding box, which is close to the wax homogenizing block, is made of hard materials, and one side of the wax feeding box, which is close to the wax homogenizing block, is provided with a wax outlet.

By adopting the technical scheme, the side, close to the uniform wax block, of the wax feeding box is made of hard materials, so that the wax feeding box can stably support the uniform wax block, and the uniform wax block is ensured to uniformly coat the wax on the inner wall of the inner layer pipe; the wax outlet is used for extruding the wax in the wax feeding box.

Optionally, the wax homogenizing block is made of water-permeable flexible material.

Through adopting above-mentioned technical scheme, the equal wax piece setting of flexible material permeates water for wax can be even flow to inlayer pipe inner wall from equal wax piece, and equal wax piece is softer, when the inner tube is scribbled wax, guarantees that wax is scribbled evenly, has protected inlayer pipe.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the honeycomb tube is arranged, so that the weight of the main tube is reduced, but the supporting force of the main tube is not reduced, so that the main tube can keep the shape of the main tube for a long time, and a plurality of micro tubes are protected, so that micro cables in the micro tubes are protected; the wax layer in the inner layer pipe is arranged, so that the smoothness in the inner layer pipe is higher, and when the micro cable is blown into the main pipe, the micro cable can slide into the main pipe more smoothly;

2. firstly, polishing the inner layer pipe inwards to remove burrs and bulges in the inner layer pipe; in the step 2, waxing is carried out on the polished inner layer pipe, so that the smoothness of the inner wall of the inner layer pipe is higher, and when the microtube is blown into the mother pipe, the microtube is easier to enter the mother pipe; step 3 and step 4, fixing the honeycomb tube and the outer tube, finishing the processing of the main tube, and finally finishing the production of the bundling tube;

3. the setting of giving the wax board for when not increasing to give wax piece volume and weight, enlarge to give wax piece and give the area of contact of wax box, make for giving the wax board can be abundant extrusion give the wax box, guarantee to give wax in the wax box by even extrusion, thereby guarantee even wax piece to the even waxing of inlayer pipe inner wall.

Drawings

FIG. 1 is a schematic structural view of embodiment 1 of the present application;

FIG. 2 is a schematic structural view of embodiment 2 of the present application;

FIG. 3 is a schematic view showing a cross-sectional structure of the waxing device;

fig. 4 is an enlarged schematic view of the structure at a in fig. 3.

Reference numerals: 1. a main pipe; 11. an outer layer tube; 12. a honeycomb tube; 13. an inner layer tube; 14. a wax layer; 2. a microtube; 3. a wax feeding assembly; 31. a wax feeding disc; 311. a thread groove; 32. feeding wax blocks; 321. a sliding block; 322. feeding wax plates; 4. a wax feeding box; 41. a wax outlet hole; 42. a filling head; 5. wax homogenizing blocks; 6. a connecting rod; 7. a motor; 8. a first telescopic link.

Detailed Description

The application is described in further detail below with reference to fig. 1-4.

Example 1

The embodiment of the application discloses a bundling tube. Referring to fig. 1, a cluster tube includes a main tube 1 and a plurality of micro tubes 2, the main tube 1 is provided with one micro tube 2, the plurality of micro tubes 2 are located in the main tube 1, and an axis of the micro tube 2 in a length direction is parallel to an axis of the main tube 1 in a length direction.

Referring to fig. 1, a parent pipe 1 comprises an outer layer pipe 11, a honeycomb pipe 12 and an inner layer pipe 13, wherein the honeycomb pipe 12 is positioned in the outer layer pipe 11, and the inner wall of the outer layer pipe 11 is welded and fixed with the outer wall of the honeycomb pipe 12; the honeycomb tube 12 is made of plastic steel material, and a plurality of honeycomb-shaped cavities are uniformly formed in the honeycomb tube 12.

Referring to fig. 1, an inner tube 13 is positioned in a honeycomb tube 12, and the outer wall of the inner tube 13 is welded and fixed with the inner wall of the honeycomb tube 12; the inner wall of the inner layer tube 13 is uniformly coated with a wax layer 14.

The implementation principle of the cluster tube of the embodiment of the application is as follows: because the inner wall of the inner layer pipe 13 is smeared with the wax layer 14, the smoothness of the inner wall of the inner layer pipe 13 is higher, and when the microtube 2 is blown into the mother pipe 1, the microtube 2 smoothly slides into the mother pipe 1; since the honeycomb tube 12 is provided with a plurality of honeycomb-shaped cavities, the weight of the main tube 1 is reduced, and the main tube 1 is supported.

Example 2

The embodiment of the application discloses a production process of a bundling pipe. Referring to fig. 2 and 3, a process for producing a cluster tube requires application of a waxing device, wherein the waxing device comprises a wax feeding assembly 3, a wax feeding box 4 and a wax homogenizing block 5, the wax feeding assembly 3 is externally connected, the wax feeding box 4 is used for filling wax, and the wax feeding box 4 is used for filling wax; the outer side of the wax feeding box 4 is connected with a wax homogenizing block 5, and the wax homogenizing block 5 is used for uniformly smearing the wax extruded by the wax feeding box 4 on the inner wall of the inner layer pipe 13. The wax feeding component 3 is connected with a connecting rod 6, and the connecting rod 6 is connected with a motor 7 for driving the connecting rod 6 to rotate and a first telescopic rod 8 for driving the connecting rod 6 to move left and right.

Referring to fig. 3 and 4, the wax feed assemblies 3 may be arranged in one or more groups, and the wax feed assemblies 3 in this embodiment are arranged in three groups. The wax feeding assembly 3 comprises a wax feeding disc 31 and a wax feeding block 32, the wax feeding disc 31 is of a disc-shaped structure, and the connecting rod 6 penetrates through the center of the wax feeding disc 31 and is connected with the wax feeding disc 31 through a key; the wax feeding disk 31 is provided with a thread groove 311 which surrounds the center of the wax feeding disk 31. The number of the wax feeding blocks 32 can be multiple, in this embodiment, the number of the wax feeding blocks 32 is three, the three wax feeding blocks 32 are circumferentially distributed on the wax feeding disc 31, the wax feeding blocks 32 are rectangular, a sliding block 321 is fixedly connected to one side of the wax feeding blocks 32 close to the wax feeding disc 31, the number of the sliding blocks 321 is multiple, and the sliding blocks 321 and the wax feeding blocks 32 are integrally formed; the outer surface of the sliding block 321 is an arc surface, the circle center of a circle formed by surrounding the arc surface of the sliding block 321 is positioned in the thread groove 311, and the sliding block 321 is positioned in the thread groove 311 and is rotationally connected with the wax feeding disc 31 along the direction of the thread groove 311; the wax feeding plate 322 is fixedly connected to one side of the wax feeding block 32, which is close to the wax feeding box 4, the wax feeding plate 322 is an arc-shaped plate, the wax feeding plate 322 and the wax feeding block 32 are integrally formed, and the wax feeding plate 322 is connected with the wax feeding box 4.

Referring to fig. 3, the wax feeding box 4 is in a cylindrical barrel structure, the wax feeding box 4 is sleeved on the wax feeding plate 322, the interior of the wax feeding box 4 is in a cavity, and the wax feeding box 4 is fixedly connected with a filling head 42 for filling wax; the side of the wax feeding box 4, which is close to the wax feeding plate 322, is made of a flexible material, in this embodiment, a rubber material; the wax feeding plate 322 is adhered and fixed with the rubber side of the wax feeding box 4; the side of the wax feeding box 4 facing away from the wax feeding plate 322 is made of hard material, in this embodiment hard plastic; the wax outlet 41 is evenly arranged on one side of the hard plastic of the wax feeding box 4.

Referring to fig. 3, the wax homogenizing block 5 is in a cylindrical barrel structure, the wax homogenizing block 5 is made of a water permeable flexible material, the wax homogenizing block 5 in the embodiment is made of sponge, and the wax homogenizing block 5 is adhered and fixed with the wax feeding box 4.

When the motor 7 rotates, the motor 7 drives the connecting rod 6 to rotate, the connecting rod 6 drives the wax feeding disc 31 to rotate, and the positions of the wax feeding block 32 and the wax feeding plate 322 on the wax feeding disc 31 are fixed, so that the wax feeding block 32 drives the wax feeding plate 322 to extend or retract in the horizontal direction of the wax feeding disc 31, the wax feeding plate 322 extrudes one side of the flexible material of the wax feeding box 4, wax in the wax feeding box 4 is extruded from the wax outlet 41, and the wax flows onto the wax homogenizing block 5; the first telescopic rod 8 is started, the first telescopic rod 8 drives the motor 7, the wax feeding assembly 3, the wax feeding box 4 and the wax homogenizing block 5 to move left and right, and then the wax homogenizing block 5 slides left and right on the inner wall of the inner layer pipe 13 to wax the inner layer pipe 13 continuously.

A production process of a bundling pipe comprises the following steps:

step 1, placing a polishing head in an inner layer pipe 13, starting a first telescopic rod 8 and a motor 7, and enabling the first telescopic rod 8 and the motor 7 to drive the polishing head to move left and right and simultaneously rotate, wherein the polishing head polishes the inner wall of the inner layer pipe 13;

step 2, after polishing, replacing waxing equipment, and waxing the inner wall of the polished inner layer pipe 13 by using the waxing equipment; the motor 7 and the first telescopic rod 8 are started, the motor 7 drives the wax feeding disc 31 to rotate, and indirectly drives the wax feeding plate 322 to extrude the wax feeding box 4, so that the wax in the wax feeding box 4 is extruded onto the wax homogenizing block 5; the wax homogenizing block 5 adhered with the wax is driven by the first telescopic rod 8 to move left and right, and rubs the wax on the inner wall of the inner layer pipe 13 until the inner wall of the inner layer pipe 13 is flat and smooth, and the waxing of the inner layer pipe 13 is finished;

step 3, sleeving the honeycomb tube 12 on the inner layer tube 13, and welding and fixing the inner wall of the honeycomb tube 12 and the outer wall of the inner layer tube 13;

step 4, sleeving the outer layer pipe 11 on the honeycomb pipe 12, welding and fixing the inner wall of the outer layer pipe 11 and the outer wall of the honeycomb pipe 12, and finishing the preparation of the main pipe 1;

and 5, blowing the microtube 2 into the mother tube 1 to prepare a bundling tube.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (6)

1. A production process of a bundling pipe is characterized in that: the method comprises the following steps:

the bundling pipe comprises a main pipe (1) and a plurality of microtubules (2), wherein the microtubules (2) are all located in the main pipe (1), and the bundling pipe is characterized in that: the main pipe (1) comprises an outer layer pipe (11), a honeycomb pipe (12) and an inner layer pipe (13), wherein the honeycomb pipe (12) is sleeved outside the inner layer pipe (13) and is fixedly connected with the inner layer pipe (13); the outer layer pipe (11) is sleeved on the honeycomb pipe (12) and is fixedly connected with the honeycomb pipe (12); the inner wall of the inner layer pipe (13) is fixedly connected with a wax layer (14); the honeycomb tube (12) is made of plastic steel material;

step 1, polishing the inner layer tube (13) inwards;

step 2, waxing the inner wall of the inner layer tube (13) after internal polishing;

the waxing device comprises a wax feeding component (3), a wax feeding box (4) and a wax homogenizing block (5), wherein the wax feeding box (4) is coated outside the wax feeding component (3) and is connected with the wax feeding component (3); the wax homogenizing block (5) is coated outside the wax feeding box (4) and is connected with the wax feeding box (4);

the wax feeding assembly (3) comprises a wax feeding disc (31) and a wax feeding block (32), a connecting rod (6) is arranged in the center of the wax feeding disc (31) in a penetrating way, and the connecting rod (6) is fixedly connected with the wax feeding disc (31); a thread groove (311) is formed on the wax feeding disc (31) around the connecting rod (6), the wax feeding block (32) is rotationally connected with the wax feeding disc (31) along the direction of the thread groove (311), and the wax feeding block (32) is fixedly connected with the wax feeding box (4);

step 3, sleeving the honeycomb tube (12) on the inner layer tube (13), and fixedly connecting the honeycomb tube (12) with the inner layer tube (13);

and 4, sleeving the outer layer pipe (11) on the honeycomb pipe (12), and fixedly connecting the outer layer pipe (11) with the honeycomb pipe (12).

2. The process for producing a cluster tube according to claim 1, wherein: in the step 2, when the inner wall of the inner layer pipe (13) is waxed, the wax on the inner wall of the inner layer pipe (13) is rubbed until the inner wall of the inner layer pipe (13) is flat and smooth.

3. The process for producing a cluster tube according to claim 1, wherein: the wax feeding block (32) is fixedly connected with a wax feeding plate (322), the wax feeding plate (322) is fixedly connected with a wax feeding box (4), and one side, close to the wax feeding plate (322), of the wax feeding box (4) is made of flexible materials.

4. The process for producing a cluster tube according to claim 1, wherein: the wax feeding block (32) is fixedly connected with a sliding block (321), the peripheral surface of the sliding block (321) is arc-shaped, and the center point of the longitudinal section of the sliding block (321) is positioned in the thread groove (311).

5. The process for producing a cluster tube according to claim 1, wherein: the wax feeding box (4) is filled with wax, one side of the wax feeding box (4) close to the wax homogenizing block (5) is made of hard materials, and a wax outlet (41) is formed in one side of the wax feeding box (4) close to the wax homogenizing block (5).

6. The process for producing a cluster tube according to claim 1, wherein: the wax homogenizing block (5) is made of a water-permeable flexible material.