CN110884967A - Steam tracing pipe winding device - Google Patents

Abstract

The invention provides a steam heat tracing pipe winding device which comprises a first unwinding mechanism for unwinding a heat tracing pipe, wherein the first unwinding mechanism comprises a feeding device, a correcting device and a pneumatic traction machine which are sequentially and transversely arranged, the feeding device is provided with the heat tracing pipe wound into a disc shape, the heat tracing pipe sequentially penetrates through the correcting device and the pneumatic traction machine, the winding device further comprises a second unwinding mechanism for unwinding E-glass fibers and a third unwinding mechanism for unwinding aluminum foils, a wrapping assembly for wrapping the E-glass fibers outside the heat tracing pipe is further arranged between the second unwinding mechanism and the third unwinding mechanism, and the third unwinding mechanism is driven by a driving mechanism to rotate so as to wind the aluminum foils outside the heat tracing pipe and the E-glass fibers. The invention ensures that the heat preservation effect of the heat tracing pipe can be increased and the heat loss rate is reduced, and simultaneously realizes the quick winding of the heat preservation material on the heat tracing pipe, thereby effectively saving the labor and the working time.

Description

Steam tracing pipe winding device

Technical Field

The invention relates to the technical field of steam tracing pipes, in particular to a winding device of a steam tracing pipe.

Background

The heat tracing pipe is called as a heat tracing pipe for short, in the design of an external pipe gallery of a petrochemical and chemical fertilizer enterprise, because the process material needs to be prevented from freezing and being prevented from being solidified, the viscosity of the material needs to be reduced or the temperature of the material needs to be prevented from being reduced in the process of conveying the process material, the material conveying pipeline needs to be indirectly heated by adopting heat sources such as steam, hot water, electricity and the like (which is called as heat tracing in a general way), in various heat tracing modes, steam is easy to obtain, convenient to convey and most widely applied due to high heat capacity, and the heat tracing pipes are all sleeved with rock wool felt or pearl wool to improve the heat preservation effect, but at present, the process of sleeving the heat tracing pipe with the rock wool felt or the pearl wool is very complicated, and the heat is only preserved by adopting the rock wool felt or the pearl wool, the heat preservation effect is poor, the heat loss rate reaches one hundred percent, and therefore equipment which can increase the heat preservation effect, reduce the heat loss rate to the maximum degree and is convenient for sheathing heat preservation materials is urgently needed.

Disclosure of Invention

The invention discloses a steam heat tracing pipe winding device, which solves the problems that the process of sleeving a heat tracing pipe with a heat insulation material is very complicated at present, and meanwhile, the heat insulation effect is poor and the heat loss rate reaches one hundred percent because rock wool felt or pearl wool is adopted for heat insulation.

In order to solve the technical problems, the invention specifically adopts the following technical scheme:

the utility model provides a steam heat tracing pipe wind, includes that carry out the first unwinding mechanism who unreels to the heat tracing pipe, first unwinding mechanism is including the loading attachment, correcting unit and the pneumatic tractor that are transverse arrangement in proper order, coiled discoid heat tracing pipe has been placed on the loading attachment, and the heat tracing pipe passes correcting unit and pneumatic tractor in proper order, still includes the second unwinding mechanism who unreels the fine E-glass and the third unwinding mechanism who unreels to the aluminium foil, still be equipped with the parcel subassembly of the fine parcel of E-glass outside the heat tracing pipe between second unwinding mechanism and the third unwinding mechanism, third unwinding mechanism is rotatory in order to twine the aluminium foil outside heat tracing pipe and the fine E-glass by actuating mechanism drive.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the heat tracing pipe is placed on the feeding device, and then is straightened when passing through the correcting device through the traction of the pneumatic traction machine, then the E-glass fiber is unreeled by the second unreeling mechanism, the E-glass fiber is wrapped on the heat tracing pipe by the wrapping assembly, and meanwhile, the aluminum foil is wound on the E-glass fiber by the driving mechanism driving the third unreeling mechanism to rotate, so that the processing of the heat tracing pipe is completed, the heat preservation effect of the heat tracing pipe can be increased, the heat loss rate is reduced, the heat preservation material can be rapidly wound on the heat tracing pipe, and the manpower and the working time are effectively saved.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic structural view shown in the present invention;

fig. 2 is a front view of the support frame of the present invention.

In the figure: 1. a feeding device; 2. a correction device; 3. a pneumatic tractor; 4. a carrier; 5. a gearbox; 6. a fixed seat; 7. a limiting seat; 8. a fixing plate; 9. a vertical rod; 10. a limiting wheel; 11. a tension roller; 12. a connecting plate; 13. unwinding wheels; 14. e-glass fiber; 15. a fixed arm; 16. loading a disc; 17. aluminum foil.

Detailed Description

The details of the present invention will be described below with reference to the accompanying drawings and examples.

As shown in fig. 1-2, the present invention provides a technical solution: the utility model provides a steam heat tracing pipe wind, includes that the first unwinding mechanism that unreels carries out the heat tracing pipe, and first unwinding mechanism is including the loading attachment 1, correcting unit 2 and the pneumatic tractor 3 that are transverse arrangement in proper order, the coiled discoid heat tracing pipe has been placed on loading attachment 1, and the heat tracing pipe passes correcting unit 2 and pneumatic tractor 3 in proper order, still includes the second unwinding mechanism that unreels the fine 14 of E-glass and unreels the third unwinding mechanism that unreels to aluminium foil 17, still be equipped with the parcel subassembly of the fine 14 parcel of E-glass outside the heat tracing pipe between second unwinding mechanism and the third unwinding mechanism, third unwinding mechanism is rotatory in order to twine aluminium foil 17 outside heat tracing pipe and the fine 14 of E-glass by actuating mechanism drive.

In the above scheme, as shown in fig. 1 and fig. 2, the second unwinding mechanism is disposed on a supporting frame 4 located between the pneumatic tractor 3 and the third unwinding mechanism, a connecting plate 12 is fixed on one side of the supporting frame 4, a plurality of unwinding wheels 13 are fixed on the connecting plate 12, a disc-shaped E-glass fiber 14 is sleeved on the unwinding wheels 13, and the E-glass fiber 14 unwinds the E-glass fiber 14 along with the movement of the heat tracing pipe after the heat tracing pipe is wrapped by the E-glass fiber 14. After the E-glass fiber 14 is placed on the unreeling wheel 13, when the heat tracing pipe is positioned above the bearing frame 4, the head end of the E-glass fiber 14 is wrapped at the head end of the heat tracing pipe.

As a preferred embodiment, as shown in fig. 2, the heat tracing pipe heat tracing device further comprises a positioning assembly arranged on the bearing frame 4 and used for positioning the heat tracing pipe, wherein the positioning assembly comprises a fixing plate 8 fixed on the top surface of the bearing frame 4, a plurality of vertical rods 9 which are vertically fixed are uniformly distributed on the fixing plate 8, and a group of limiting wheels 10 which are opposite up and down are fixed on the vertical rods 9. When the heat tracing pipe passes through the upper part of the bearing frame 4, the heat tracing pipe passes through the position limiting wheels 10 which are opposite up and down in each group, and the position limiting wheels 10 can play the roles of bearing and limiting the heat tracing pipe.

As a preferred embodiment, as shown in fig. 2, the wrapping assembly includes a fixing seat 6 fixed on the carrying frame 4 and close to the third unwinding mechanism, a limiting seat 7 is fixed on the fixing seat 6, the limiting seat 7 is composed of a transverse L-shaped plate and a funnel-shaped wrapping cylinder installed on the L-shaped plate, and after the heat tracing pipe is primarily wrapped by the E-glass fiber 14, the heat tracing pipe can be better wrapped by the E-glass fiber 14 when the heat tracing pipe passes through the wrapping cylinder on the limiting seat 7.

In a preferred embodiment, as shown in fig. 2, the fixing plate 8 is rotatably provided with a tension roller 11 having a limiting structure at both ends for limiting the E-glass fiber 14. The tensioning roller 11 plays a role in bearing and limiting the E-glass fiber 14 in the unreeling process.

As a preferred embodiment, as shown in FIG. 2, a limiting wheel 10 and a tension roller 11 positioned below the limiting wheel 10 are fixed on a vertical rod 9 on one side of the fixing plate 8 close to the limiting seat 7, and the E-glass fiber 14 passes through between the limiting wheel 10 and the tension roller 11. The E-glass fiber 14 is clamped by the matching of the limiting wheel 10 and the tensioning roller 11, and the E-glass fiber 14 in the unreeling process is further limited.

As a preferred embodiment, as shown in fig. 2, the driving mechanism includes a motor and a hard tooth surface gearbox 5 connected to a rotating shaft of the motor, a box body is fixed on the gearbox 5, a rotating drum which penetrates through two sides of the box body and is connected to an output shaft of the gearbox 5 through a transmission assembly is rotatably connected to the box body, and the height of the circle center of the rotating drum corresponds to the limiting seat 7. After the gearbox 5 is started, the rotary drum in the box body is driven to rotate through the transmission assembly, so that the third unwinding mechanism is driven to rotate to discharge the aluminum foil 17, and the aluminum foil 17 is wrapped outside the E-glass fiber 14.

As a preferred embodiment, as shown in fig. 2, the third unwinding mechanism comprises a plurality of fixed arms 15 welded on the feeding end of the drum and arranged obliquely and rotating along with the drum, a loading disc 16 is fixed on the fixed arms 15, and an aluminum foil 17 for further increasing the heat preservation effect is mounted on the loading disc 16 and wound on the E-glass fiber 14. Firstly, the aluminum foil 17 is adhered to the E-glass fiber 14 penetrating through the limiting seat 7, after the rotary drum is driven by the gearbox 5, the loading disc 16 rotates, and the aluminum foil 17 arranged in the loading disc 16 is wound on the E-glass fiber 14, so that the heat tracing pipe is further insulated.

As a preferred embodiment, the transmission assembly is a plurality of gears, or a belt and a pulley, or a chain and a sprocket, as shown in fig. 2. The transmission assembly can drive the gear fixed on the rotary drum to rotate through the meshing of the gears and then through the motor drive, or the rotary drum is rotated through the belt pulley or the belt sleeved on the rotary drum driven by the motor, the gears are installed on the rotary shafts of the rotary drum and the motor, and then the transmission is carried out through the meshing of the gears and the chain or the chain wheel.

As described in the scheme, the working process of the invention is as follows: firstly, E-glass fiber 14 and a heat tracing pipe pass through a wrapping cylinder on a limiting seat 7 together, so that the E-glass fiber 14 is positioned on a tensioning roller 11, the E-glass fiber 14 wraps the heat tracing pipe, then an aluminum foil 17 is wound on the E-glass fiber 14, after the E-glass fiber 14 and the heat tracing pipe are fixed through an adhesive tape, a pneumatic tractor 3 can be started to move the heat tracing pipe, a gearbox 5 is started to drive a rotating cylinder in a box body to rotate, a fixing arm 15 starts to rotate along with the rotating cylinder, the aluminum foil 17 slants to a laminated layer to wind the E-glass fiber 14 wrapped on the heat tracing pipe, the wound heat tracing pipe enters the rotating cylinder, the moving speed of the heat tracing pipe can be controlled according to a speed regulating switch which is arranged on a bearing frame 4 and connected with the pneumatic tractor 3 through a lead, then the wound heat tracing pipe comes out from the other end of the rotating cylinder, when a roll of, and (3) tearing the interlayer between the tail end of the E-glass fiber 14 in use and the head end of another roll of the E-glass fiber 14, clamping the two E-glass fibers 14 together, and feeding without stopping the machine.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (9)

1. The utility model provides a steam heat tracing pipe wind, includes the first unwinding mechanism who unreels to the heat tracing pipe, and first unwinding mechanism is including being transverse arrangement's loading attachment, correcting unit and pneumatic tractor in proper order, the coiled discoid heat tracing pipe has been placed to the loading attachment, and the heat tracing pipe passes correcting unit and pneumatic tractor, its characterized in that in proper order: the glass fiber heat tracing pipe is characterized by further comprising a second unwinding mechanism for unwinding the E-glass fibers and a third unwinding mechanism for unwinding the aluminum foil, a wrapping assembly for wrapping the E-glass fibers outside the heat tracing pipe is further arranged between the second unwinding mechanism and the third unwinding mechanism, and the third unwinding mechanism is driven by the driving mechanism to rotate so as to wind the aluminum foil outside the heat tracing pipe and the E-glass fibers.

2. The steam tracing pipe winding device of claim 1, wherein: the second unwinding mechanism is arranged on a bearing frame between the pneumatic tractor and the third unwinding mechanism, a connecting plate is fixed on one side of the bearing frame, a plurality of unwinding wheels are fixed on the connecting plate, E-glass fibers coiled into a disc shape are sleeved on the unwinding wheels, and the E-glass fibers unreel the E-glass fibers along with the movement of the heat tracing pipes after wrapping the heat tracing pipes.

3. The steam tracing pipe winding device of claim 2, wherein: still including set up in bear the locating component who carries out the location to the heat tracing pipe on bearing, locating component is including being fixed in bear the fixed plate on the top surface, evenly distributed has a plurality of montants that are vertical fixed on the fixed plate, be fixed with a set of spacing wheel relative from top to bottom that is on the montant.

4. The steam tracing pipe winding device of claim 3, wherein: the parcel subassembly is including being fixed in bear the fixing base that is close to third unwinding mechanism on the frame, be fixed with the spacing seat on the fixing base, the spacing seat comprises with installing the hourglass hopper-shaped parcel section of thick bamboo on the L shaped plate by being horizontal L shaped plate.

5. The steam tracing pipe winding device of claim 3, wherein: and the fixed plate is rotatably provided with a tensioning roller, two ends of the tensioning roller are provided with limiting structures for limiting the E-glass fiber.

6. The steam tracing pipe winding device of claim 4, wherein: a limiting wheel and a tensioning roller located below the limiting wheel are fixed on the vertical rod on one side, close to the limiting seat, of the fixing plate, and the E-glass fibers penetrate through the space between the limiting wheel and the tensioning roller.

7. The steam tracing pipe winding device of claim 6, wherein: the driving mechanism comprises a motor and a hard tooth surface gearbox connected with a motor rotating shaft, a box body is fixed on the gearbox, a rotary drum which penetrates through two sides of the box body and is connected with an output shaft of the gearbox through a transmission assembly is connected in the box body in a rotating mode, and the circle center height of the rotary drum corresponds to the limiting seat.

8. The steam tracing pipe winding device of claim 7, wherein: the third unwinding mechanism comprises a plurality of fixed arms which are welded on the feeding end of the rotary drum and obliquely arranged and rotate along with the rotary drum, a loading disc is fixed on the fixed arms, and aluminum foils used for winding on E-glass fibers to further increase the heat preservation effect are mounted on the loading disc.

9. The steam tracing pipe winding device of claim 7, wherein: the transmission component is a plurality of gears, or a belt and a belt pulley, or a chain and a chain wheel.

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