CN218893306U - Coil pipe device - Google Patents

Abstract

A coil pipe device belongs to the technical field of coil pipes. Including rotation axis (5), first fender dish (3) and second fender dish (4) interval set up last, the both ends rotation of rotation axis (5) set up on the supporting seat, first fender dish (3) and/or second fender dish (4) axial slip set up on rotation axis (5), still be equipped with on rotation axis (5) and promote first fender dish (3) and second fender dish (4) axial reset spring (8) that move in opposite directions, still be equipped with hose end fixed column (6) on rotation axis (5), the axis of hose end fixed column (6) axis perpendicular to rotation axis (5). The axial reset spring pushes the first baffle disc and the second baffle disc to compress the hose, so that the hose can only be coiled in a single column, one end of the hose is spliced with the fixing column at the end of the hose before coiling, the hose is further ensured to be coiled in a plane, the hose can be conveniently fixed, and the use is convenient.

Description

Coil pipe device

Technical Field

A coil pipe device belongs to the technical field of coil pipes.

Background

The hose is required to be folded by the coil pipe device after the hose is used, so that the occupied space of the coil pipe is reduced, the hose is orderly coiled, and the problem that the hose is difficult to be unfolded in the next use after being wound is avoided. The coil unit is usually composed of a rotating shaft around which the hose is wound, and baffles provided on both sides of the rotating shaft, which define the winding length of the coil.

The interval between two baffle discs of current coil pipe device is great, and the hose is the coiling of layer upon layer usually, and every layer coils at least 10 lines of hoses, can reduce the diameter after the whole coil pipe is coiled like this, but petrochemical industry requires the hose to coil in a plane according to 5S standardized management, and the length of a hose is 20m generally, utilizes to connect the hose when using, but current coil pipe device all can not coil the hose in a plane, and the hose diameter is different moreover, can only adopt the manual work to coil the hose at ground at present, work efficiency is low.

Disclosure of Invention

The utility model aims to solve the technical problems that: the utility model provides a overcome prior art's not enough, provides a coil pipe device, can coil the hose in a plane to can coil the hose of different diameters, convenient to use.

The technical scheme adopted for solving the technical problems is as follows: the coil pipe device comprises a rotating shaft, a first baffle disc and a second baffle disc, wherein the first baffle disc and the second baffle disc are arranged at intervals, two ends of the rotating shaft are rotatably arranged on a supporting seat, and the coil pipe device is characterized in that: the first baffle disc and/or the second baffle disc are/is axially and slidably arranged on the rotating shaft, an axial reset spring for pushing the first baffle disc and the second baffle disc to move in opposite directions is further arranged on the rotating shaft, and a hose end fixing column is further arranged on the rotating shaft between the first baffle disc and the second baffle disc, and the axis of the hose end fixing column is perpendicular to the axis of the rotating shaft.

Preferably, a spring fixing disc is fixed on the rotating shaft, one end of the axial return spring is relatively fixed with the spring fixing disc, and the other end of the axial return spring is relatively fixed with the first baffle disc or the second baffle disc.

Preferably, the axial return spring comprises a tower spring and a cylindrical spiral spring, the cylindrical spiral spring is arranged on one side of the spring away from the first baffle disc or the second baffle disc, one end of the tower spring is fixedly connected with the cylindrical spiral spring, and the diameter of the tower spring is gradually increased along the direction away from the cylindrical spiral spring.

This application sets up axial reset spring into tower spring and cylindrical coil spring two-section structure, and the tower spring can provide less resistance, reduces the resistance that coils hose in-process and produce, and cylindrical coil spring fixes on the rotation axis, can fix a position the tower spring, avoids the swing of tower spring.

Preferably, the first baffle disc is axially arranged on the rotating shaft in a sliding manner, the axial return spring is arranged between the first baffle disc and the spring fixing disc, the second baffle disc is provided with an adjusting shaft sleeve, the adjusting shaft sleeve is provided with a top thread hole, and the adjusting shaft sleeve is fixedly connected with the rotating shaft through a top thread penetrating through the top thread hole.

Preferably, the first baffle disc is provided with a sliding shaft sleeve, and the diameter of the sliding shaft sleeve is larger than that of the cylindrical spiral spring. With the progress of coiling, the hose produces more little dislocation at the axial of rotation axis in the later stage of coiling, and these dislocation increase the back and can surpass the control scope of tower spring, and sliding sleeve begins to extrude cylindrical coil spring this moment, utilizes cylindrical coil spring to provide bigger resistance, ensures that the hose can single-column coiling.

Preferably, the rotating shaft is provided with a plurality of hose end fixing columns, and the lengths of the hose end fixing columns are gradually increased along the circumferential direction of the rotating shaft.

Preferably, a sliding sleeve is arranged on the rotating shaft between the first baffle disc and the second baffle disc, the sliding sleeve is in sliding connection with the rotating shaft through a spline or a flat key, and the hose end fixing column is fixed on the sliding sleeve.

Preferably, the hose end fixing column is a hollow column. The end part of the hose can be inserted into the inner side of the hollow column, the end part of the hose can be inserted into the outer side of the hollow column, and more specifications of hoses can be used.

Preferably, one end of the rotating shaft is connected with a rotation driving mechanism. The rotary driving mechanism drives the rotary shaft to rotate, so that the condition that the drive shaft is easy to be injured when the first baffle disc or the second baffle disc rotates is avoided.

Preferably, the rotation driving mechanism comprises a worm and gear speed reducer, wherein the input end of the worm and gear speed reducer is connected with a rocker arm, and the output end of the worm and gear speed reducer is connected with a rotation shaft.

Compared with the prior art, the technical scheme of the coil pipe device has the beneficial effects that:

according to the utility model, the first baffle disc and the second baffle disc are pushed to move in opposite directions by the axial return spring, so that the first baffle disc and the second baffle disc compress the hose, the hose can be coiled in a single column, one end of the hose is spliced with the hose end fixing column before coiling, the initial stage of coiling the hose can be ensured to be vertical to the axis of the rotating shaft, the hose is further ensured to be coiled in a plane, and the hose can be very conveniently fixed and is convenient to use.

Drawings

Fig. 1 is a perspective view of example 1 of the coil apparatus.

Fig. 2 is a partial enlarged view at a in fig. 1.

Fig. 3 is a side view of embodiment 1 of the coil assembly.

Fig. 4 is a cross-sectional view at B-B in fig. 3.

Fig. 5 is a partial enlarged view at C in fig. 4.

Fig. 6 is a partial cross-sectional view at D-D in fig. 3.

Fig. 7 is a schematic view of the coiled tubing set after coiling the tubing.

Fig. 8 is a perspective view of example 2 of the coil apparatus.

Wherein: 1. the device comprises a bottom plate 2, a supporting upright post 3, a first baffle disc 4, a second baffle disc 5, a rotating shaft 6, a hose end fixing column 7, a bearing seat 8, an axial return spring 9, a spring fixing disc 10, a sliding sleeve 11, a hose 12, a worm gear reducer 13, a rocker arm 301, a sliding shaft sleeve 401, an adjusting shaft sleeve 402, a jackscrew hole 801, a tower spring 802 and a cylindrical spiral spring.

Detailed Description

The utility model is further described below with reference to fig. 1 to 8.

Example 1

Referring to fig. 1-2, this coil pipe device includes rotation axis 5, first fender dish 3 and second fender dish 4 interval set up last, and rotation of rotation axis 5's both ends sets up on the supporting seat, and first fender dish 3 axial slip sets up on rotation axis 5, and second fender dish 4 and rotation axis 5 fixed connection still are equipped with axial reset spring 8 on rotation axis 5, utilize axial reset spring 8 can promote first fender dish 3 to slide to the direction that is close to second fender dish 4 on rotation axis 5.

The supporting seat in this embodiment includes bottom plate 1 and support post 2, and two support posts 2 interval are fixed in the upside of bottom plate 1, and the both ends of rotation axis 5 are fixed in the upper end of support post 2 through bearing frame 7. In order to facilitate the movement of the coil device, walking rollers may be mounted on the four corners of the underside of the base plate 1.

A spring fixing disc 9 is fixed on the rotating shaft 5, one end of the axial return spring 8 is relatively fixed with the spring fixing disc 9, and the other end of the axial return spring 8 is relatively fixed with the first baffle disc 3. The axial return spring 8 in this embodiment includes a coil spring 801 and a cylindrical coil spring 802, the cylindrical coil spring 802 being disposed on a side of the spring away from the first shutter 3, one end of the coil spring 801 being fixedly connected with the cylindrical coil spring 802, the diameter of the coil spring 801 being gradually increased in a direction away from the cylindrical coil spring 802. The axial return spring 8 is arranged to be of a two-section structure of the tower spring 801 and the cylindrical coil spring 802, the tower spring 801 can provide small resistance, resistance generated in the process of coiling the hose 11 is reduced, the cylindrical coil spring 802 is fixed on the rotating shaft 5, the tower spring 801 can be positioned, and swing of the tower spring 801 is avoided.

In this embodiment, a hose end fixing post 6 is further disposed on the rotating shaft 5 between the first baffle plate 3 and the second baffle plate 4, and the axis of the hose end fixing post 6 is perpendicular to the axis of the rotating shaft 5. Before coiling, one end of the hose 11 is spliced with the hose end fixing column 6, so that the initial stage of coiling of the hose 11 can be ensured to be perpendicular to the axis of the rotating shaft 5, further the coiling of the hose 11 in a plane is ensured, and the hose 11 can be very conveniently fixed, and the use is convenient.

The hose end fixing column 6 in this embodiment is a hollow column, and the hose 11 can be inserted in the outside of the hollow column, or inserted in the inside of the hollow column, and the diameter of the hose 11 is selected, so that the hose 11 with at least two diameters can be fixed by one hollow column.

Referring to fig. 3-5, an adjusting sleeve 401 is arranged on the second baffle plate 4, a top thread hole 402 is arranged on the adjusting sleeve 401, and the adjusting sleeve 401 is fixedly connected with the rotating shaft 5 through a top thread penetrating through the top thread hole 402. The interval between the second baffle disc 4 and the first baffle disc 3 can be adjusted through the adjusting shaft sleeve 401 to be slightly smaller than the diameter of the hose 11 to be coiled, and the axial return spring 8 is utilized to provide proper pressure, so that the hose 11 is coiled in a plane, and the second baffle disc 4 is prevented from generating very large resistance to the hose 11 when the diameter of the hose 11 is large.

The first baffle disc 3 is provided with a sliding shaft sleeve 301, and the diameter of the sliding shaft sleeve 301 is larger than that of the cylindrical spiral spring 802. As the coiling proceeds, the hose 11 is more and less displaced in the axial direction of the rotary shaft 5, and the displacement may be beyond the control range of the tower spring 801 after the displacement increases, at this time, the sliding sleeve 301 starts to press the cylindrical coil spring 802, and the cylindrical coil spring 802 provides a larger resistance, so that the hose 11 can be coiled in a single column.

The first baffle disc 3 in this embodiment may be connected to the rotation shaft 5 through a flat key or a spline, that is, the first baffle disc 3 rotates synchronously with the rotation shaft 5, and the first baffle disc 3 may also rotate relative to the rotation shaft 5, which does not affect the limiting effect of the first baffle disc 3 on the hose 11.

Referring to fig. 6, a sliding sleeve 10 is arranged on the rotating shaft 5 between the first baffle plate 3 and the second baffle plate 4, the sliding sleeve 10 is slidably connected with the rotating shaft 5 through a spline, and a plurality of hose end fixing columns 6 are fixed on the sliding sleeve 10 at intervals. The sliding sleeve 10 can slide in the axial direction of the rotating shaft 5 while rotating and coiling the hose 11 along with the rotating shaft 5, when the axial reset spring 8 pushes the first baffle disc 3 to slide, the hose end fixing column 6 can slide along with the first baffle disc, and when the hoses 11 with different diameters are coiled, the hose end fixing column 6 can be basically positioned between the first baffle disc 3 and the second baffle disc 4, so that the end deflection of the hose 11 is avoided, and the hose 11 is further ensured to be coiled in a plane. The sliding sleeve 10 in this embodiment can also be slidably connected to the rotary shaft 5 by a flat key.

The initial coiled end of the hose 11 is spliced on the hose end fixing column 6, and although the hose is convenient to use, the initial coiled end of the hose 11 can generate a larger bending angle during coiling, in order to avoid damage to the end of the hose 11 caused by overlarge bending angle during coiling, the lengths of the hose end fixing columns 6 in the embodiment are gradually increased along the circumferential direction of the rotating shaft 5, the hose 11 is supported by the hose end fixing columns 6, and the end damage of the hose 11 is avoided.

The using process comprises the following steps:

when the hose 11 needs to be coiled, firstly, one end of the hose 11 is inserted into a hose end fixing column 6 with a shorter length, the second baffle disc 4 is manually rotated to drive the rotating shaft 5 and the hose end fixing column 6 to rotate, so that the hose 11 is gradually coiled on the rotating shaft 5, and the hose 11 is always coiled in a radial plane due to the fact that the first baffle disc 3 is pushed by the axial return spring 8 to press the hose 11, as shown in fig. 7, the hose 11 is finally coiled between the first baffle disc 3 and the second baffle disc 4.

Example 2

Referring to fig. 8, one end of the rotation shaft 5 in the present embodiment is connected with a rotation driving mechanism, and the rotation shaft 5 is driven to rotate by the rotation driving mechanism, so as to avoid injury when a worker manually rotates the second baffle plate 4 or the first baffle plate 3. The rotation driving mechanism in this embodiment includes a worm gear reducer 12, the input end of the worm gear reducer 12 is connected with a rocker arm 13, and the output end of the worm gear reducer 12 is connected with a rotation shaft 5. The rotation of the rotating shaft 5 can be prevented by utilizing the self-locking characteristic of the worm gear reducer 12, and the use is more convenient.

Of course, the rotation shaft 5 can be driven to rotate by adopting a motor driving mode, but the problem that a power supply is not easy to find exists in outdoor construction.

The above description is only a preferred embodiment of the present utility model, and is not intended to limit the utility model in any way, and any person skilled in the art may make modifications or alterations to the disclosed technical content to the equivalent embodiments. However, any simple modification, equivalent variation and variation of the above embodiments according to the technical substance of the present utility model still fall within the protection scope of the technical solution of the present utility model.

Claims (10)

1. The utility model provides a coil pipe device, includes rotation axis (5), first fender dish (3) and second fender dish (4), and first fender dish (3) set up on with second fender dish (4) interval, and the both ends of rotation axis (5) rotate and set up on the supporting seat, its characterized in that: the first baffle disc (3) and/or the second baffle disc (4) are/is axially and slidably arranged on the rotating shaft (5), an axial reset spring (8) for pushing the first baffle disc (3) and the second baffle disc (4) to move oppositely is further arranged on the rotating shaft (5), a hose end fixing column (6) is further arranged on the rotating shaft (5) between the first baffle disc (3) and the second baffle disc (4), and the axis of the hose end fixing column (6) is perpendicular to the axis of the rotating shaft (5).

2. The coil apparatus of claim 1, wherein: a spring fixing disc (9) is fixed on the rotating shaft (5), one end of the axial return spring (8) is fixed relative to the spring fixing disc (9), and the other end of the axial return spring (8) is fixed relative to the first baffle disc (3) or the second baffle disc (4).

3. A coil arrangement according to claim 1 or 2, wherein: the axial reset spring (8) comprises a tower spring (801) and a cylindrical spiral spring (802), the cylindrical spiral spring (802) is arranged on one side, away from the first baffle disc (3) or the second baffle disc (4), of the spring, one end of the tower spring (801) is fixedly connected with the cylindrical spiral spring (802), and the diameter of the tower spring (801) is gradually increased along the direction away from the cylindrical spiral spring (802).

4. A coil assembly according to claim 3, wherein: the first baffle disc (3) is axially arranged on the rotating shaft (5) in a sliding mode, the axial return spring (8) is arranged between the first baffle disc (3) and the spring fixing disc (9), the second baffle disc (4) is provided with an adjusting shaft sleeve (401), the adjusting shaft sleeve (401) is provided with a top thread hole (402), and the adjusting shaft sleeve (401) is fixedly connected with the rotating shaft (5) through a top thread penetrating through the top thread hole (402).

5. A coil assembly according to claim 3, wherein: the first baffle disc (3) is provided with a sliding shaft sleeve (301), and the diameter of the sliding shaft sleeve (301) is larger than that of the cylindrical spiral spring (802).

6. The coil apparatus of claim 1, wherein: the rotary shaft (5) is provided with a plurality of hose end fixing columns (6), and the lengths of the hose end fixing columns (6) are gradually increased along the circumferential direction of the rotary shaft (5).

7. The coil apparatus of claim 1 or 6, wherein: a sliding sleeve (10) is arranged on a rotating shaft (5) between the first baffle disc (3) and the second baffle disc (4), the sliding sleeve (10) is in sliding connection with the rotating shaft (5) through a spline or a flat key, and a hose end fixing column (6) is fixed on the sliding sleeve (10).

8. The coil apparatus of claim 1 or 6, wherein: the hose end fixing column (6) is a hollow column.

9. The coil apparatus of claim 1, wherein: one end of the rotating shaft (5) is connected with a rotating driving mechanism.

10. The coil apparatus of claim 9, wherein: the rotary driving mechanism comprises a worm gear reducer (12), wherein the input end of the worm gear reducer (12) is connected with a rocker arm (13), and the output end of the worm gear reducer (12) is connected with a rotary shaft (5).

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