CN210705908U - Integrated into one piece device of compound pipe of wire net winding reinforcing - Google Patents

Abstract

The utility model discloses an integrated forming device of a steel wire net winding reinforced composite pipe, which comprises a mounting platform arranged on a machine base, wherein the mounting platform is provided with a glue layer die, the glue layer die comprises a glue layer die fixing frame, a glue layer mounting backboard is fixed on the fixing frame, the glue layer mounting backboard is fixed with a glue layer outer die body and a glue layer inner die body which are concentrically arranged, a connector is arranged on the glue layer outer die body, a glue layer annular channel is arranged between the glue layer outer die body and the glue layer inner die body, a glue layer core die is fixed at the right end of the glue layer inner die body, a glue layer neck die mounting plate is mounted at the right end of the glue layer outer die body, a glue layer neck die is fixed on the glue layer neck die mounting plate, the glue layer neck die is sleeved at the periphery of the glue layer core die, a, and an outer layer cooling device is also arranged on the machine base, and the device reduces the debugging time.

Description

Integrated into one piece device of compound pipe of wire net winding reinforcing

Technical Field

The utility model relates to an integrated into one piece device for the integrated into one piece device of compound pipe of shaping wire net winding reinforcing.

Background

The steel wire net winding reinforced composite pipe is a novel composite pipe at present, and various comprehensive performances of the pipe are improved by arranging the wound steel wires in plastic layers of plastic pipes. However, the production process of the existing steel wire mesh winding reinforced composite pipe is as follows: the sandwich layer extruder extrudes plastic and forms a sandwich layer pipe through a sandwich layer die, the sandwich layer pipe is drawn to wind a steel wire mesh on the outer surface of the sandwich layer pipe through the steel wire winding machine, then the sandwich layer pipe with the steel wire mesh is firstly adhered with a glue layer outside the steel wire mesh through the glue layer forming device, so that the steel wire mesh is fixed with the sandwich layer pipe, then enters the outer forming device after passing through the primary cooling device and wraps up an outer plastic layer outside the glue layer, and then forms a composite pipe after passing through the secondary cooling device.

However, the above-mentioned glue layer forming device, primary cooling device, outer layer forming device and secondary cooling device are discretely distributed and fixed on different bases, so that the whole system needs a lot of time to debug the equipment, so that the equipment is concentric and the debugging time is long.

In addition, the aligning of current glue film forming device and skin forming device is also more troublesome, especially when changing different specifications, and the regulation time is longer, leads to whole production line down time long.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides an integrated into one piece device of compound pipe of wire net winding reinforcing, this integrated into one piece device can debug before dispatching from the factory, reduces the debugging time like this, and glue film forming device also can make things convenient for the independent control simultaneously, has shortened the debugging time of equipment.

In order to solve the technical problem, the technical scheme of the utility model is that: an integrated forming device of a steel wire mesh winding reinforced composite pipe comprises a machine base, wherein a mounting platform is arranged on the machine base, a glue layer die is arranged on the mounting platform and comprises a glue layer die fixing frame fixed on the mounting platform, a glue layer mounting back plate is fixed on the glue layer die fixing frame and is fixed with the left end of a concentrically arranged glue layer outer die body and a glue layer inner die body, a connecting port used for being matched and communicated with a discharge port of a glue layer extruder is arranged on the glue layer outer die body, a glue layer annular channel communicated with the connecting port is arranged between the glue layer outer die body and the glue layer inner die body, a glue layer is fixed at the right end of the glue layer inner die body, a glue layer die mounting plate is arranged at the right end of the glue layer outer die body through a glue layer aligning mechanism, and a glue layer die is detachably fixed on, the glue layer mouth mold is sleeved on the periphery of the glue layer core mold, an inclined glue layer annular forming flow channel is formed between the glue layer mouth mold and the glue layer core mold, and the glue layer annular forming flow channel is connected and communicated with the glue layer annular channel;

a glue layer cooling device for cooling the periphery of the pipe is arranged on the mounting platform and is positioned at the downstream of the glue layer die;

an outer layer die for wrapping outer layer plastic on the periphery of the pipe is arranged on the mounting platform and is positioned at the downstream of the glue layer cooling device;

and an outer layer cooling device for cooling the periphery of the pipe is arranged on the lower stream of the outer layer die on the machine base.

As a preferred scheme, glue film aligning mechanism is including adjusting the seat, should adjusting the seat and be fixed in the right-hand member of the outer die body of glue film, be provided with installation step hole on adjusting the seat, glue film bush mounting panel sets up in installation step hole, adjust four at least radial screw holes that are provided with the circumference equipartition on the seat, the tight bolt in top is installed to radial screw internal thread, and the inner top of every tight bolt in top is tight the periphery of glue film bush mounting panel.

As an optimal scheme, the right end of the adjusting seat can be detachably fixed with a glue line pressing ring, and the glue line pressing ring presses the surface of the glue line mouth mold mounting plate.

As an optimal scheme, the left end of the adhesive layer compression ring is provided with a compression convex ring part, and the corresponding matching step matched with the compression convex ring part in position is arranged on the surface of the adhesive layer neck mold mounting plate.

As a preferable scheme, an inner positioning step is further arranged on the glue layer port die mounting plate, and a positioning protrusion matched with the inner positioning step is arranged on the glue layer port die.

As a preferred scheme, the periphery of the right end of the glue layer inner mold body is provided with an annular concave pit, and the inner diameter of the annular concave pit is matched with the outer diameter of the glue layer core mold.

Preferably, the structure of the outer layer mold is the same as that of the glue layer mold, the inner diameter of the outer layer core mold of the outer layer mold is larger than that of the glue layer core mold, and the inner diameter of the outer layer mouth mold of the outer layer mold is larger than that of the glue layer mouth mold.

As a preferred scheme, glue film cooling device and outer cooling device's structure is the same, and glue film cooling device includes glue film forced air cooling ring fixing base, installs glue film forced air cooling ring on this glue film forced air cooling ring fixing base, outer cooling device includes outer forced air cooling ring fixing base, installs outer forced air cooling ring on this outer forced air cooling ring fixing base, and glue film forced air cooling ring and outer forced air cooling ring set up with one heart.

As a preferred scheme, an axial strip hole is formed in the glue layer die fixing frame, and the glue layer die fixing frame is fixed on the mounting platform through bolts constrained in the axial strip hole.

After the technical scheme is adopted, the utility model discloses an effect is: 1. the glue layer die, the glue layer cooling device, the outer layer die and the outer layer cooling device are all fixed on the same mounting platform, so that an integrated structure is formed, the aligning and fixing are directly carried out before delivery, and then the glue layer die, the glue layer cooling device, the outer layer die and the outer layer cooling device are transported to a customer site to be quickly debugged, so that the debugging time is saved; 2. in addition, the position of the glue layer mouth mold mounting plate is adjusted through the glue layer aligning mechanism, after the position is adjusted, the position of the glue layer mouth mold fixed on the glue layer mouth mold mounting plate is synchronously adjusted, and concentricity can be ensured between the glue layer mouth mold and the glue layer core mold. When the glue layer neck molds with different specifications need to be replaced, the glue layer neck mold is only required to be taken down from the glue layer neck mold mounting plate, concentricity can still be ensured between the replaced glue layer neck mold and the glue layer core mold, so that the glue layer neck mold is not required to be adjusted when being replaced every time, and the time for debugging equipment is greatly saved.

And because the right end of the adjusting seat can be detachably fixed with a glue layer pressing ring which presses the surface of the glue layer neck mold mounting plate, the glue layer neck mold mounting plate can be better pressed by using the glue layer pressing ring, and the positioning of the side surface is realized.

And because the left end of the glue layer compression ring is provided with the compression convex ring part, the corresponding matching step matched with the compression convex ring part in position is arranged on the surface of the glue layer neck mold mounting plate, and the compression convex ring part can better compress the matching step and better limit the glue layer neck mold mounting plate.

And because the glue layer neck mold mounting plate is also provided with the inner positioning step, and the glue layer neck mold is provided with the positioning bulge matched with the inner positioning step, when the glue layer neck mold is replaced, the inner positioning step and the positioning bulge are utilized to carry out accurate positioning, so that the assembly is simpler, and the precision is higher.

And because the periphery of the right end of the glue layer inner die body is provided with the annular pit, and the inner diameter of the annular pit is matched with the outer diameter of the glue layer core die, the glue layer core die can be better installed, and the positioning is more accurate.

And because the glue layer die fixing frame is provided with the axial strip holes and is fixed on the mounting platform through the bolts constrained in the axial strip holes, the position of the glue layer die fixing frame can be adjusted in an axial fine adjustment mode, and the adaptability is better.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a top view of an embodiment of the invention;

FIG. 3 is a schematic structural view of a mold for forming a glue layer according to an embodiment of the present invention;

FIG. 4 is a sectional view of the rubber layer mold according to the embodiment of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 4;

description of the drawings: 1. a machine base; 2. mounting a platform; 3. a glue layer die; 4. a glue layer mold fixing frame; 5. mounting a back plate on the adhesive layer; 6. an outer die body of the rubber layer; 7. an inner plastic layer mold body; 71. an annular recess; 8. a connecting port; 9. a glue layer annular channel; 10. a glue layer core mold; 11. a glue layer mouth mold mounting plate; 111. matching with the step; 112. positioning the step inside; 12. a glue layer opening die; 13. a glue layer annular forming flow channel; 14. a glue layer cooling device; 141. a glue layer air cooling ring fixing seat; 142. a glue layer air cooling ring; 15. an outer layer mold; 16. an outer layer cooling device; 17. an adjusting seat; 18. mounting a step hole; 19. a radial screw hole; 20. pressing a ring by using an adhesive layer; 201. compress tightly protruding ring portion.

Detailed Description

The present invention will be described in further detail with reference to the following examples.

As shown in figures 1-5, an integrated forming device for a steel wire mesh winding reinforced composite pipe comprises a machine base 1, a mounting platform 2 is arranged on the machine base 1, a glue layer mold 3 is arranged on the mounting platform 2, the glue layer mold 3 comprises a glue layer mold fixing frame 4 fixed on the mounting platform 2, a glue layer mounting backboard 5 is fixed on the glue layer mold fixing frame 4, the glue layer mounting backboard 5 is fixed with a glue layer outer mold 6 and a glue layer inner mold 7 which are concentrically arranged, a connecting port 8 used for being matched and communicated with a discharge port of a glue layer extruder is arranged on the glue layer outer mold 6, a glue layer annular channel 9 communicated with the connecting port 8 is arranged between the glue layer outer mold 6 and the glue layer inner mold 7, a glue layer core mold 10 is fixed at the right end of the glue layer inner mold 7, and a glue layer finish mold mounting plate 11 is arranged at the right end, a glue layer mouth mold 12 is detachably fixed on the glue layer mouth mold mounting plate 11 through a fastener, the glue layer mouth mold 12 is sleeved on the periphery of the glue layer core mold 10, an inclined glue layer annular forming flow channel 13 is formed between the glue layer mouth mold 12 and the glue layer core mold 10, and the glue layer annular forming flow channel 13 is connected and communicated with the glue layer annular channel 9; a glue layer cooling device 14 for cooling the periphery of the pipe is arranged on the mounting platform 2 and is positioned at the downstream of the glue layer die 3; an outer layer die 15 for wrapping outer layer plastic on the periphery of the pipe is arranged on the mounting platform 2 and is positioned at the downstream of the glue layer cooling device 14; an outer layer cooling device 16 for cooling the periphery of the pipe is arranged on the machine base 1 and is positioned at the downstream of the outer layer die 15.

In this embodiment, glue film aligning mechanism is including adjusting seat 17, should adjust the right-hand member that seat 17 is fixed in glue layer outer die body 6, be provided with installation step hole 18 on adjusting seat 17, glue film bush mounting panel 11 sets up in installation step hole 18, adjust four at least radial screw 19 that are provided with the circumference equipartition on the seat 17, tight bolt in top is installed to radial screw 19 internal thread, the tight glue film bush mounting panel 11's in inner top of every tight bolt periphery in top, the right-hand member of adjusting seat 17 still can be dismantled and be fixed with glue film clamping ring 20, this glue film clamping ring 20 compresses tightly the face of glue film bush mounting panel 11.

In this embodiment, the left end of the glue line pressure ring 20 is provided with the pressing convex ring portion 201, the surface of the corresponding glue line neck mold mounting plate 11 is provided with the matching step 111 matched with the position of the pressing convex ring portion 201, the glue line neck mold mounting plate 11 is further provided with the inner positioning step 112, the glue line neck mold 12 is provided with the positioning protrusion matched with the inner positioning step 112, the right end periphery of the glue line inner mold body 7 is provided with the annular pit 71, and the inner diameter of the annular pit 71 is matched with the outer diameter of the glue line core mold 10. The structure of the outer layer mold 15 is the same as that of the glue layer mold 3, the inner diameter of the outer layer core mold of the outer layer mold 15 is larger than that of the glue layer core mold 10, and the inner diameter of the outer layer neck mold of the outer layer mold 15 is larger than that of the glue layer neck mold 12.

Glue film cooling device 14 includes glue film forced air cooling ring fixing base 141, installs glue film forced air cooling ring 142 on this glue film forced air cooling ring fixing base 141, and outer cooling device 16 includes outer wind ring fixing base, installs outer forced air cooling ring on this outer wind ring fixing base, and glue film forced air cooling ring 142 and outer air cooling ring set up with one heart, and outer cooling device 16 is the same with glue film cooling device 14's structure.

In addition, the glue layer mold fixing frame 4 is also provided with axial strip holes, and the glue layer mold fixing frame 4 is fixed on the mounting platform 2 through bolts constrained in the axial strip holes.

When in use, a pipe sequentially passes through the glue layer die 3, the glue layer cooling device 14, the outer layer die 15 and the outer layer cooling device 16, the glue layer outer die body 6 and the glue layer inner die body 7 are concentrically arranged, the glue layer core die 10 is fixed at the right end of the glue layer inner die body 7, the glue layer bush mounting plate 11 is mounted at the right end of the glue layer outer die body 6 through a glue layer aligning mechanism, a glue layer bush 12 is detachably fixed on the glue layer bush mounting plate 11 and is sleeved at the periphery of the glue layer core die 10, the position of the glue layer bush mounting plate 11 is firstly adjusted through the glue layer aligning mechanism in the use process, the inner positioning step 112 is matched with the positioning bulge, the pressing convex ring part 201 is matched with the, the position of the glue layer mouth mold 12 fixed on the glue layer mouth mold mounting plate 11 is synchronously adjusted, so that the concentricity between the glue layer mouth mold 12 and the glue layer core mold 10 can be ensured.

When the glue layer neck mold 12 of different specifications needs to be replaced, only the glue layer neck mold 12 needs to be taken down from the glue layer neck mold mounting plate 11, when the new glue layer neck mold 12 is replaced, only the glue layer neck mold 12 needs to be fixed through the fastening piece again, and the position of the fastening piece does not change, so that the relative position of the replaced glue layer neck mold 12 and the relative position of the glue layer neck mold mounting plate 11 can not change, concentricity can still be ensured between the glue layer neck mold 12 and the glue layer core mold 10 after replacement, adjustment is not needed when the glue layer neck mold 12 is replaced every time, and the time for debugging equipment is greatly saved.

The outer layer mold 15 has the same structure as the glue layer mold 3, and is not described in detail herein.

The utility model provides a glue film mould 3, glue film cooling device 14, outer mould 15 and outer cooling device 16 all fix on same mounting platform 2, and formula structure as an organic whole can be directly carry out the aligning earlier before dispatching from the factory and fix, then transport the customer scene just can the rapid debug, has saved on-the-spot debug time, improves production efficiency.

The above-mentioned embodiments are only descriptions of the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and all modifications and changes made by the technical solution of the present invention should fall within the protection scope defined by the claims of the present invention on the basis of not departing from the spirit of the present invention.

Claims (9)

1. The utility model provides an integrated into one piece device of compound pipe of wire net winding reinforcing, includes the frame, its characterized in that: the machine base is provided with an installation platform, the installation platform is provided with a glue layer die, the glue layer die comprises a glue layer die fixing frame fixed on the installation platform, a glue layer installation back plate is fixed on the glue layer die fixing frame, the glue layer installation back plate is fixed with a concentric glue layer outer die body and the left end of a glue layer inner die body, a connector used for being matched and communicated with a discharge port of a glue layer extruder is arranged on the glue layer outer die body, a glue layer annular channel communicated with the connector is arranged between the glue layer outer die body and the glue layer inner die body, a glue layer core die is fixed at the right end of the glue layer inner die body, a glue layer die installation plate is installed at the right end of the glue layer outer die body through a glue layer aligning mechanism, a glue layer die is detachably fixed on the glue layer die installation, an inclined glue layer annular forming flow channel is formed between the glue layer mouth die and the glue layer core die and is connected and communicated with the glue layer annular channel;

a glue layer cooling device for cooling the periphery of the pipe is arranged on the mounting platform and is positioned at the downstream of the glue layer die;

an outer layer die for wrapping outer layer plastic on the periphery of the pipe is arranged on the mounting platform and is positioned at the downstream of the glue layer cooling device;

and an outer layer cooling device for cooling the periphery of the pipe is arranged on the lower stream of the outer layer die on the machine base.

2. The integrated forming device for the steel wire mesh winding reinforced composite pipe as claimed in claim 1, wherein: glue film aligning mechanism is including adjusting the seat, should adjusting the seat and be fixed in the right-hand member of the outer die body of glue film, be provided with the installation step hole on adjusting the seat, glue film bush mounting panel sets up in the installation step hole, adjust four at least radial screw that are provided with the circumference equipartition on the seat, radial screw internal thread installs the tight bolt in top, and the inner top of every tight bolt in top is tight the periphery of glue film bush mounting panel.

3. The integrated forming device for the steel wire mesh winding reinforced composite pipe as claimed in claim 2, wherein: the right-hand member of adjusting the seat still can dismantle and be fixed with the glue film clamping ring, and this glue film clamping ring compresses tightly the face of glue film bush mounting panel.

4. The integrated forming device for the steel wire mesh winding reinforced composite pipe as claimed in claim 3, wherein: the left end of glue film clamping ring is provided with and compresses tightly protruding ring portion, corresponds be provided with on the face of glue film bush mounting panel with compress tightly the cooperation step of protruding ring portion position adaptation.

5. The integrated forming device for the steel wire mesh winding reinforced composite pipe as claimed in claim 4, wherein: still be provided with interior location step on the glue film bush mounting panel, be provided with on the glue film bush with this location of interior location step adaptation protruding.

6. The integrated forming device for the steel wire mesh winding reinforced composite pipe as claimed in claim 5, wherein: the right-hand member periphery of the glue layer inner die body is provided with annular pit, and the internal diameter of this annular pit matches with the external diameter of glue layer mandrel.

7. The integrated forming device for the steel wire mesh winding reinforced composite pipe as claimed in claim 6, wherein: the structure of the outer layer die is the same as that of the glue layer die, the inner diameter of the outer layer core die of the outer layer die is larger than that of the glue layer core die, and the inner diameter of the outer layer mouth die of the outer layer die is larger than that of the glue layer mouth die.

8. The integrated forming device for the steel wire mesh winding reinforced composite pipe as claimed in claim 7, wherein: glue film cooling device includes glue film forced air cooling ring fixing base, installs glue film forced air cooling ring on this glue film forced air cooling ring fixing base, outer cooling device includes outer wind ring fixing base, installs outer forced air cooling ring on this outer wind ring fixing base, and glue film forced air cooling ring sets up with outer forced air cooling ring is concentric, and outer cooling device and glue film cooling device's structure is the same.

9. The integrated forming device for the steel wire mesh winding reinforced composite pipe as claimed in claim 1, wherein: the glue layer die fixing frame is provided with axial strip holes and is fixed on the mounting platform through bolts constrained in the axial strip holes.

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