CN212953500U - Coil pipe tool and coil pipe system - Google Patents

Abstract

The application discloses coil pipe instrument and coil pipe system, it includes drive division, support, presses and covers pole, winding axle and pivot, press and cover the pole and be used for pressing to wait to coil pipe way, the winding axle is used for supplying to wait to coil pipe way winding, press and cover pole and winding axle and all install on the support, pivot detachably installs on the support, press and cover pole, winding axle and pivot parallel arrangement, the winding axle is located to press and covers between pole and the pivot, drive division drives the pivot and rotates, the pivot drives the winding axle through waiting to coil pipe way and rotates, pivot cavity, be provided with on the lateral wall of pivot and supply to wait to coil pipe way male jack. By the aid of the automatic coiler machine, coiler time can be saved, coiler efficiency is improved, labor intensity is reduced, and the automatic coiler machine is simple in structure, convenient to operate and low in coiler cost.

Description

Coil pipe tool and coil pipe system

Technical Field

The application relates to the technical field of pipelines, in particular to a coil pipe tool and a coil pipe system.

Background

The existing barbershop is usually provided with a heat recovery device on a shampoo bed to recover heat in shampoo used by guests, so as to save resources and reduce cost. The heat recovery device comprises an exchange cavity, a metal corrugated pipe is arranged in the exchange cavity, the hair washing water used by a client enters the exchange cavity, and the heat of the hair washing water is transferred to cold water in the metal corrugated pipe through the metal corrugated pipe to realize heat recovery. In order to increase the heat exchange time and contact area and improve the heat recovery rate, the metal corrugated pipe in the exchange cavity is generally arranged in a spiral shape. At present, the metal corrugated pipe is mainly processed into a spiral shape by bare hands of workers, so that the time and labor are wasted, and the labor intensity is high.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present application provides a coiled tubing tool and a coiled tubing system to solve the above technical problems.

The application provides a coil pipe tool, it includes: drive division, support, pressure cover pole, winding axle and pivot, press to cover the pole and be used for pressing to wait to coil the pipeline, the winding axle is used for supplying to wait to coil the pipeline winding, press to cover pole and winding axle and all install on the support, pivot detachably installs on the support, press to cover pole, winding axle and pivot parallel arrangement, the winding axle is located to press to cover between pole and the pivot, drive division drives the pivot and rotates, the pivot is through waiting that coil the pipeline drives the winding axle and rotates, pivot cavity, be provided with on the lateral wall of pivot and supply to wait to coil pipeline male jack.

Optionally, the stent comprises: first fixed plate, second fixed plate, bottom plate to and install first mounting panel, second mounting panel, first mounting groove and the second mounting groove on the bottom plate, first mounting panel and second mounting panel set up relatively, and the both ends of pressing the cover pole are rotationally installed respectively on first mounting panel and second mounting panel, first fixed plate is pegged graft in the first mounting groove, the second fixed plate is pegged graft in the second mounting groove, the both ends of winding axle are detachably installed respectively on first fixed plate and second fixed plate, install respectively on first fixed plate and second fixed plate at the both ends of pivot.

Optionally, the first mounting groove and the second mounting groove both include a first bending plate and a second bending plate which are arranged oppositely, the first bending plate and the second bending plate both include a transverse plate and a vertical plate which are connected perpendicularly, the vertical plate is arranged perpendicularly on the bottom plate, the insertion plates are extended from two opposite sides of the first fixing plate and the second fixing plate, and the insertion plates are inserted between the transverse plate and the bottom plate.

Optionally, the mounting structure further comprises a first limiting strip arranged on the base plate, the first limiting strip is located between the first mounting groove and the second mounting groove, the extending direction of the first limiting strip is perpendicular to the rotating shaft, and the first limiting strip is fixedly connected with the two vertical plates of the first mounting groove.

Optionally, the mounting structure further comprises a second limiting strip arranged on the base plate, the second limiting strip is parallel to the first limiting strip, the first mounting groove is located between the first limiting strip and the second limiting strip, a clamping plate is inserted between the first limiting strip and the first mounting groove, and the first fixing plate is clamped between the clamping plate and the second limiting strip.

Optionally, the mounting structure further comprises a third limiting strip arranged on the bottom plate, the second mounting groove is located between the first limiting strip and the third limiting strip, the first limiting strip and the third limiting strip are parallel, and the third limiting strip is fixedly connected with the two vertical plates of the second mounting groove.

Optionally, the rotating shaft comprises a pipe body, the insertion hole is formed in the side wall of the pipe body and communicated with the pipe orifice edge of the first end of the pipe body in the length direction to form a notch, and the second end of the pipe body in the length direction is used for being connected with the driving portion.

Optionally, a first notch and a second notch are formed in the edge of the pipe orifice of the second end of the pipe body in the length direction, a first transmission rod and a second transmission rod are vertically arranged on an output shaft of the driving portion, the output shaft penetrates through the second fixing plate and is inserted into the pipe body, the first transmission rod penetrates out of the first notch, and the second transmission rod penetrates out of the second notch.

Optionally, the driving part is a driving motor.

The application provides a coil pipe system, it is including treating the coil pipe way and as above the coil pipe instrument, treat that the one end of coil pipe way passes in proper order and covers the pole below, and clearance, winding axle below, jack between winding axle and the pivot are pegged graft in the pivot.

The application provides a coil pipe instrument and coil pipe system is through setting up the drive division, and a support, press and cover the pole, winding axle and pivot are all rotationally installed on the support, treat that the one end of coil pipe way passes in proper order and presses and cover the pole below, clearance between winding axle and the pivot, winding axle below, the jack, peg graft in the pivot, the drive division drives the pivot and rotates and carry out the coil pipe, thereby realize mechanized coil pipe, not only can save the coil pipe time, improve coil pipe efficiency, and reduce intensity of labour, moreover, the steam generator is simple in structure, high durability and convenient operation, the coil pipe is with low costs.

Drawings

FIG. 1 is a schematic structural view of the coil system of the present application.

Fig. 2 is a partially exploded view of the coiled tubing tool of the present application.

Fig. 3 is a schematic view of the first fixing plate and the clamping plate of the present application in cooperation.

Fig. 4 is a schematic view of the fit between the rotating shaft and the output shaft of the present application.

Detailed Description

The technical solutions of the present application are described in detail below with reference to the accompanying drawings and specific embodiments. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Fig. 1 shows a schematic structural diagram of a coiled tubing system of the present application, and as shown in fig. 1, the present application provides a coiled tubing tool comprising: the device comprises a driving part, a bracket 1, a pressing rod 2, a winding shaft 3 and a rotating shaft 4.

The pressing rod 2 is used for pressing a pipeline to be coiled, and the winding shaft 3 is used for winding the pipeline to be coiled. The covering rod 2 and the winding shaft 3 are both installed on the support 1, and the rotating shaft 4 is detachably installed on the support 1.

Press and cover pole 2, winding axle 3 and 4 parallel arrangement of pivot, winding axle 3 is located and presses and covers between pole 2 and the pivot 4, drive division drives pivot 4 and rotates, and pivot 4 drives winding axle 3 through treating the coil pipe way and rotates.

The rotating shaft 4 is hollow, and the side wall of the rotating shaft 4 is provided with an insertion hole 41 for inserting a pipe to be coiled.

When the coil pipe tool is used, one end of a pipe to be coiled sequentially penetrates through the lower portion of the pressing rod 2, the gap between the winding shaft 3 and the rotating shaft 4, the lower portion of the winding shaft 3 and the insertion hole 41, and is inserted into the rotating shaft 4.

As shown in fig. 1, the winding directions of the pipeline to be coiled on the winding shaft 3 and the rotating shaft 4 are opposite. In this embodiment, the rotation direction of the rotating shaft 4 is clockwise, the winding direction of the pipeline to be coiled on the winding shaft 3 is left-handed, and the winding direction of the pipeline to be coiled on the rotating shaft 4 is right-handed.

The driving part drives the rotating shaft 4 to rotate, and the pipeline to be coiled is wound on the rotating shaft 4. After the coil pipe is finished, the rotating shaft 4 is detached from the support 1, and the coiled pipeline is detached from the rotating shaft 4.

The utility model provides a coil pipe instrument is through setting up the drive division, and a support, press and cover the pole, winding axle and pivot are all rotationally installed on the support, treat that the one end of coil pipe way passes in proper order and press and cover the pole below, clearance between winding axle and the pivot, winding axle below, the jack, peg graft in the pivot, the drive division drives the pivot and rotates and carry out the coil pipe, thereby realize mechanized coil pipe, not only can save the coil pipe time, improve coil pipe efficiency, reduce intensity of labour, moreover, the steam generator is simple in structure, and convenient for operation, the coil pipe is with low costs.

Further, as shown in fig. 2, the stand 1 includes: a first fixing plate 33, a second fixing plate 34, a base plate, and a first mounting plate 21, a second mounting plate 22, a first mounting groove 31, and a second mounting groove 32 mounted on the base plate.

First mounting panel 21 and second mounting panel 22 set up relatively, and the both ends of covering pole 2 are rotationally installed respectively on first mounting panel 21 and second mounting panel 22.

The first fixing plate 33 is inserted into the first mounting groove 31, and the second fixing plate 34 is inserted into the second mounting groove 32.

Both ends of the winding shaft 3 are detachably mounted on the first fixing plate 33 and the second fixing plate 34, respectively, and both ends of the rotation shaft 4 are mounted on the first fixing plate 33 and the second fixing plate 34, respectively.

Set up support 1 into first fixed plate 33, second fixed plate 34, bottom plate to and install first mounting panel 21, second mounting panel 22, first mounting groove 31 and the second mounting groove 32 on the bottom plate, not only can simplify support 1's structure, will press in addition to cover the pole 2 and set up to rotatable, can conveniently treat the removal of coil pipe way, improve coil pipe efficiency.

Meanwhile, the two ends of the winding shaft 3 and the two ends of the rotating shaft 4 are both mounted on the first fixing plate 33 and the second fixing plate 34, the first fixing plate 33 is connected with the first mounting groove 31, and the second fixing plate 34 is connected with the second mounting groove 32 in an inserting mode, so that the mounting and dismounting are convenient, and the mounting and dismounting efficiency is improved.

Preferably, the first and second mounting grooves 31 and 32 each include a first bending plate and a second bending plate that are disposed opposite to each other, and the first and second bending plates are L-shaped plates. The first bending plate, the second bending plate and the bottom plate form a mounting groove.

First bending plate and second bending plate all include horizontal board and the vertical board of perpendicular connection, vertical board sets up perpendicularly on the bottom plate.

The first fixing plate 33 and the second fixing plate 34 have insertion plates 331 extending from opposite sides thereof, and the insertion plates 331 are inserted between the transverse plate and the base plate.

In this embodiment, the insertion plate 331 is attached to the lateral plate and the bottom plate, respectively.

Through setting up first mounting groove 31 and second mounting groove 32 as relative first bending plate and the second bending plate that sets up, under the circumstances of guaranteeing first fixed plate 33 and second fixed plate 34 installation fastness, can retrench the structure, reduce the dead weight, convenient loading and unloading.

Preferably, the coiled tubing tool further comprises a first limit bar 12 disposed on the bottom plate, the first limit bar 12 being located between the first installation groove 31 and the second installation groove 32.

The extending direction of the first limiting strip 12 is perpendicular to the rotating shaft 4, and the first limiting strip 12 is fixedly connected with the two vertical plates of the first mounting groove 31.

Through setting up at first spacing strip 12, can realize spacing to first fixed plate 33, make first fixed plate 33 and second fixed plate 34 all be located corresponding mounting groove.

Preferably, as shown in fig. 2 and 3, the coiled tubing tool further comprises a second limit strip 11 disposed on the bottom plate, the second limit strip 11 is parallel to the first limit strip 12, and the first installation groove 31 is located between the first limit strip 12 and the second limit strip 11.

A clamping plate 14 is inserted between the first limiting strip 12 and the first mounting groove 31, and the first fixing plate 33 is clamped between the clamping plate 14 and the second limiting strip 11, so as to further ensure the mounting firmness of the first fixing plate 33.

Further, the coil pipe tool further comprises a third limiting strip 13 arranged on the bottom plate, the second mounting groove 32 is located between the first limiting strip 12 and the third limiting strip 13, the first limiting strip 12 is parallel to the third limiting strip 13, and the third limiting strip 13 is connected with two vertical plates of the second mounting groove 32.

Through third spacing 13, can prevent that second fixed plate 34 from deviating from in second mounting groove 32, guarantee the fastness of installation.

In one embodiment, the rotating shaft 4 includes a tube body, the insertion hole 41 is disposed on a side wall of the tube body and is communicated with a tube opening edge of a first end of the tube body in the length direction to form a slot, and a second end of the tube body in the length direction is used for being connected with the driving portion.

Through setting up jack 41 notch form, treat that the coil pipe way coils the back, convenient dismantlement improves coil pipe efficiency.

Further, a first gap 42 and a second gap are arranged on the edge of the pipe orifice of the second end of the pipe body in the length direction. The first gap 42 and the second gap are arranged circumferentially along the nozzle.

The output shaft 5 of the driving part is vertically provided with a first transmission rod 51 and a second transmission rod, the output shaft 5 penetrates through the second fixing plate 34 and is inserted into the pipe body, the first transmission rod 51 penetrates out of the first notch 42, and the second transmission rod penetrates out of the second notch.

The output shaft 5 of the driving part drives the rotating shaft 4 to rotate through the first transmission rod 51 and the second transmission rod.

The first transmission rod 51 and the second transmission rod drive the rotating shaft 4 to rotate, so that the structure can be simplified, and the cost can be reduced.

Furthermore, the driving part can adopt a driving motor so as to reduce labor intensity and improve the efficiency of the coil pipe.

In one embodiment, the material of the bracket 1 may be plastic. The first fixing plate 33, the second fixing plate 34, the bottom plate, the first mounting plate 21, the second mounting plate 22, the transverse plate and the vertical plate are rectangular plates.

The pressing rod 2, the winding shaft 3 and the rotating shaft 4 can be made of plastic round pipes. The outer diameter of the winding shaft 3 is larger than the rotating shaft 4.

The first fixing plate 33 is provided with a first through hole and a second through hole. The first end of the winding shaft 3 is directly inserted into the first through hole, and the first end of the rotating shaft 4 is directly inserted into the second through hole.

The second fixing plate 34 is provided with a third through hole and a fourth through hole on the surface facing the first fixing plate 33, and the thickness of the second fixing plate 34 is greater than that of the first fixing plate 33.

The fourth through hole penetrates through the thickness direction of the second fixing plate 34, the second end of the winding shaft 3 is directly inserted into the third through hole, and the second end of the rotating shaft 4 is directly inserted into the fourth through hole.

The application also provides a coil pipe system, as shown in fig. 1, which comprises a pipeline to be coiled and the coil pipe tool, wherein one end of the pipeline to be coiled sequentially passes through a first gap between the pressing rod 2 and the bottom plate, a second gap between the winding shaft 3 and the rotating shaft 4, a third gap between the bottom of the winding shaft 3 and the bottom plate, and the insertion hole 41, and is inserted in the rotating shaft 4.

The utility model provides a coil pipe system is through setting up the drive division, and a support, press and cover the pole, winding axle and pivot are all rotationally installed on the support, treat that the one end of coil pipe way passes in proper order and press and cover the pole below, clearance between winding axle and the pivot, winding axle below, the jack, peg graft in the pivot, the drive division drives the pivot and rotates and carry out the coil pipe, thereby realize mechanized coil pipe, not only can save the coil pipe time, improve coil pipe efficiency, reduce intensity of labour, moreover, the steam generator is simple in structure, and convenient for operation, the coil pipe is with low costs.

The technical solutions of the present application are described in detail with reference to specific embodiments, which are used to help understand the ideas of the present application. The derivation and modification made by the person skilled in the art on the basis of the specific embodiment of the present application also belong to the protection scope of the present application.

Claims (10)

1. A coiled tubing tool, comprising: drive division, support, pressure cover pole, winding axle and pivot, press to cover the pole and be used for pressing to wait to coil the pipeline, the winding axle is used for supplying to wait to coil the pipeline winding, press to cover pole and winding axle and all install on the support, pivot detachably installs on the support, press to cover pole, winding axle and pivot parallel arrangement, the winding axle is located to press to cover between pole and the pivot, drive division drives the pivot and rotates, the pivot is through waiting that coil the pipeline drives the winding axle and rotates, pivot cavity, be provided with on the lateral wall of pivot and supply to wait to coil pipeline male jack.

2. The coiled tubing tool of claim 1, wherein the bracket comprises: first fixed plate, second fixed plate, bottom plate to and install first mounting panel, second mounting panel, first mounting groove and the second mounting groove on the bottom plate, first mounting panel and second mounting panel set up relatively, and the both ends of pressing the cover pole are rotationally installed respectively on first mounting panel and second mounting panel, first fixed plate is pegged graft in the first mounting groove, the second fixed plate is pegged graft in the second mounting groove, the both ends of winding axle are detachably installed respectively on first fixed plate and second fixed plate, install respectively on first fixed plate and second fixed plate at the both ends of pivot.

3. The coiled tubing tool of claim 2, wherein the first and second mounting slots each comprise first and second opposing bent plates, the first and second bent plates each comprise vertically connected transverse and vertical plates, the vertical plate is vertically disposed on the base plate, and the first and second fixed plates each have an insert plate extending from opposite sides thereof, the insert plates being inserted between the transverse and base plates.

4. The coiled tubing tool of claim 3, further comprising a first limiting strip disposed on the bottom plate, wherein the first limiting strip is disposed between the first installation groove and the second installation groove, the first limiting strip extends in a direction perpendicular to the rotation axis, and the first limiting strip is fixedly connected to the two vertical plates of the first installation groove.

5. The coiled tubing tool of claim 4, further comprising a second stop bar disposed on the bottom plate, the second stop bar being parallel to the first stop bar, the first mounting groove being disposed between the first stop bar and the second stop bar, a clamping plate being interposed between the first stop bar and the first mounting groove, the first retaining plate being sandwiched between the clamping plate and the second stop bar.

6. The coiled tubing tool of claim 5, further comprising a third limit strip disposed on the bottom plate, wherein the second mounting groove is located between the first limit strip and the third limit strip, the first limit strip and the third limit strip are parallel, and the third limit strip is fixedly connected to the two vertical plates of the second mounting groove.

7. The coiled tubing tool of claim 6, wherein the shaft comprises a tubular body, the socket is disposed on a sidewall of the tubular body and communicates with a nozzle edge of a first lengthwise end of the tubular body to form a slot, and a second lengthwise end of the tubular body is adapted to be coupled to the driving portion.

8. The coiled tubing tool of claim 7, wherein the second end of the length direction of the tubing has a first notch and a second notch at the edge of the orifice, the output shaft of the driving portion has a first driving rod and a second driving rod vertically disposed thereon, the output shaft passes through the second fixing plate and is inserted into the tubing, the first driving rod passes through the first notch, and the second driving rod passes through the second notch.

9. The coiled tubing tool of any of claims 1-8, wherein the drive portion is a drive motor.

10. A coiled tubing system comprising a pipe to be coiled and the coiled tubing tool of any of claims 1-9, wherein one end of the pipe to be coiled passes through the lower part of the pressing and covering rod, the gap between the winding shaft and the rotating shaft, the lower part of the winding shaft and the insertion hole in sequence, and is inserted into the rotating shaft.

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