CN216760759U - Combined coating die for krah pipe - Google Patents
Combined coating die for krah pipe Download PDFInfo
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- CN216760759U CN216760759U CN202123212883.7U CN202123212883U CN216760759U CN 216760759 U CN216760759 U CN 216760759U CN 202123212883 U CN202123212883 U CN 202123212883U CN 216760759 U CN216760759 U CN 216760759U
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Abstract
The utility model provides a combined coating die for a Clar pipe, which relates to the technical field of pipeline production equipment and comprises a neck mold and a pipe core.
Description
Technical Field
The utility model belongs to the technical field of pipeline production equipment, and particularly relates to a combined coating die for a carat pipe.
Background
The hot winding forming High Density Polyethylene (HDPE) winding structure wall pipe is also called a Krah pipe, is one of the main pipes for municipal drainage and sewage discharge, adopts the hot winding forming technology to spirally wind the pipe wall and an outer rib at the same time, the pipe wall is formed by overlapping HDPE strips, the outer rib consists of an inner lining pipe (PP single-wall corrugated pipe) and an O-shaped HDPE belt layer, the outer rib is wound outside the pipe wall, and the outer rib and the pipe wall form a structure wall in a hot fitting mode.
Usually, the bush front end is straight hollow circular cylinder form, and the length design of straight section can influence the extrusion quality, and straight partial length generally is 2-6 times of bush internal diameter, and the internal diameter is little, gets great multiple, otherwise then is opposite, but straight partial length is too big, can make extrusion resistance too big again, causes to extrude the surface roughness.
In the coating process of the lining pipe, the O-shaped HDPE belt layer is easy to turn inwards when being demoulded, so that the coating effect is poor, the shrinkage trace is obvious, the corrugation phenomenon of the surface of the outer rib is generated, and the attractiveness and the performance are influenced. The inner lining pipe is coated with the O-shaped HDPE belt layer through the coating die, the key technical key points of the pipe are one of the key technical key points, the neck mold design of the coating die is one of the main factors influencing the coating quality, and the coating effect directly influences the appearance quality and the one-time qualification rate of the product.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a combined coating die for a Krah pipe, which can uniformly coat an O-shaped HDPE belt layer on the outer side of an inner liner pipe, so that the coating appearance is smooth, and the corrugation phenomenon on the surface of an outer rib is improved.
In order to achieve the purpose of the utility model, the utility model adopts the following technical scheme.
A combined cladding die for a Krah pipe comprises a die 1 and a pipe core 2, wherein the die 1 comprises a threaded joint 11, a die front end 12, a die rear end 13, a transition section 14 and a contraction section 15, the pipe core 2 comprises a clamping module 21, a clamping groove 22 and a blocking block 23, the clamping groove 22 is located in the middle of the clamping module 21, the pipe core 2 is in a hollow cylinder shape with three outer diameters and is sleeved on the die front end, an O-shaped HDPE belt layer 3 is formed in a shaping mode through an O-shaped gap between the die 1 and the pipe core 2, and a PP single-wall corrugated pipe 4 penetrates through the inner side of the die rear end 13 to the inner side of the die front end 12.
Furthermore, the ratio of the inner diameter of the front end 12 of the die to the outer diameter of the PP single-wall corrugated pipe 4 is (1.01-1.03): 1.
Further, the difference between the inner diameter of the core 2 and the outer diameter of the die tip 12 is equal to one half of the thickness of the "O" HDPE tape layer 3.
Further, the "O" HDPE tape layer 3 is extruded from the HDPE plastic melt through an extruder, and flows in the direction from the die rear end 13 to the die front end 12 in the "O" shaped gap formed between the die 1 and the tube core 2.
Further, the threaded joint 11 is mounted on the rear interface sleeve in a threaded manner.
Furthermore, the clamping groove 22 is located in the middle of the clamping module 21, and is in a concave ring shape for clamping the tube core on the outer mold body.
Furthermore, the rear end 13 of the neck mold is in tapered transition with the front end 12 of the neck mold, wherein the transition section 14 is in arc-shaped smooth curved surface transition.
Further, the front end 12 of the neck ring mold is an elongated straight cylinder, and the ratio of the length of the front end 12 of the neck ring mold to the inner diameter of the neck ring mold 1 is 1: (3-7), the purpose of lengthening is: the material flow resistance can be increased, and the O-shaped HDPE belt layer 3 is compact and compact.
Furthermore, the most front edge of the front end 12 of the neck ring mold is provided with a contraction section 15, the outer diameter of the front end 12 of the neck ring mold is reduced through the contraction section 15, and the length ratio of the contraction section 15 to the front end 12 of the neck ring mold is 1: (4-8) for the purpose of: the joint part of the O-shaped HDPE belt layer 3 and the PP single-wall corrugated pipe 4 forms transition, the O-shaped HDPE belt layer 3 is prevented from being turned inwards or forming a corrugated shape due to overlarge vertical clearance between the O-shaped HDPE belt layer 3 and the PP single-wall corrugated pipe 4, and the appearance quality of a product is improved.
Furthermore, the right edge surface of the blocking block 23 and the circular contour surface of the initial diameter reduction of the transition section 15 are in the same plane in the vertical direction.
Drawings
FIG. 1 is a cross-sectional view of a mold of the present invention.
FIG. 2 is a cross-sectional partial view of the mold of the present invention.
In the figure, the terms are respectively: the corrugated pipe comprises a 1-die, 11-thread joints, 12-die front ends, 13-die rear ends, 14 transition sections, 15 contraction sections, 2 pipe cores, 21 clamping modules, 22 clamping grooves, 23 sealing blocks, 3 'O' type HDPE (high-density polyethylene) belt layers and 4PP single-wall corrugated pipes.
Detailed Description
The present invention is described in detail below with reference to the attached drawings.
The combined cladding die for the krah pipe as shown in the attached figures 1 and 2 comprises a neck die 1, wherein the rearmost end of the neck die 1 is provided with a threaded joint 11, the threaded joint 11 is used for fixing the neck die 1, the neck die 1 is provided with a neck die rear end 13 and a neck die front end 12, the outer diameter of the neck die rear end 13 is larger than that of the neck die front end 12, the neck die rear end 13 and the neck die front end 12 are in tapered transition, the tapered transition region comprises a transition section 14, the transition section 14 is arc-shaped and can increase smoothness of material flow, the neck die front end 12 comprises a contraction section 15, the outer diameter of the contraction section 15 is transited to the outer diameter of a PP single-wall corrugated pipe 4, and transition in such a way can avoid that an O-shaped HDPE belt layer 3 is turned inwards or corrugated due to overlarge vertical clearance between the O-shaped HDPE belt layer 3 and the PP single-wall corrugated pipe 4, and improve appearance quality of a product.
When the PP single-wall corrugated pipe 4 is produced in a coating mode, the PP single-wall corrugated pipe 4 penetrates through a through hole of the die 1 and moves from the rear end 13 of the die to the front end 12 of the die, meanwhile, an extruder supplies molten HDPE raw materials to an O-shaped flow groove formed between the die 1 and the pipe core 2 to form an O-shaped HDPE belt layer 3, the PP single-wall corrugated pipe 4 and the O-shaped HDPE belt layer 3 move in the same direction and at the same speed, and a coating layer is formed on the outer side of the PP single-wall corrugated pipe 4.
Example 1.
In this embodiment, the ratio of the straight segment length of the die front end 12 of the die 1 to the die inner diameter is 1: 7, increasing the length of the front end 12 of the mouth mold to improve the extrusion compactness of the material flow and also stabilize the material flow; and the ratio of the length of the transition section 15 to the die front end 12 is designed to be 1: 5, the transition section 15 makes the wall thickness of bush front end 12 be linear reduction, through reducing the wall thickness of bush front end 12, reduces the cladding clearance of PP single wall bellows 4 and "O" type HDPE belting layer 3, prevents that the too big phenomenon of curling inwards takes place in "O" type HDPE belting layer 3 that makes in clearance, improves the cladding surface smoothness.
Example 2.
In this embodiment, the ratio of the straight segment length of the die front end 12 of the die 1 to the die inner diameter is 1: 6, increasing the length of the front end 12 of the mouth die to improve the extrusion compactness of the material flow and also stabilize the material flow; and the ratio of the length of the transition section 15 to the die front end 12 is designed to be 1: 6, the transition section 15 makes the wall thickness of bush front end 12 be linear reduction, through reducing the wall thickness of bush front end 12, reduces the cladding clearance of PP single wall bellows 4 and "O" type HDPE belting layer 3, prevents that the too big phenomenon of curling inwards takes place in "O" type HDPE belting layer 3 that makes in clearance, improves the cladding surface smoothness.
The above embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the concept and scope of the present invention, and various modifications and improvements can be made to the technical solution of the present invention without departing from the design concept of the present invention.
Claims (7)
1. A combined cladding die for a Krah pipe is characterized by comprising a neck die (1) and a pipe core (2), the mouth mold (1) comprises a threaded joint (11), a mouth mold front end (12), a mouth mold rear end (13), a transition section (14) and a contraction section (15), the tube core (2) comprises a clamping module (21), a clamping groove (22) and a blocking block (23), the clamping groove (22) is located in the middle of the clamping module (21), the tube core (2) is in a hollow cylinder shape with a plurality of outer diameters and is sleeved at the front end of the neck mold, the O-shaped HDPE belt layer (3) is molded and extruded through an O-shaped gap between the neck mold (1) and the tube core (2), the PP single-wall corrugated tube (4) penetrates from the inner side of the rear end (13) of the neck mold to the inner side of the front end (12) of the neck mold, and the molding extrusion of the O-shaped HDPE belt layer (3) and the penetrating movement of the PP single-wall corrugated tube (4) are carried out simultaneously.
2. A composite overcladding die for a clarinet according to claim 1, wherein one-half of the difference between the inner diameter of the core (2) and the outer diameter of the die nose (12) is equal to the thickness of the "O" -type HDPE tape layer (3).
3. The combined overmold die for a clarinet according to claim 1, wherein the retaining groove (22) is a concave ring for retaining the tube core in the outer body.
4. The composite overcladding die for a clarinet according to claim 1, wherein the transition between the die rear end (13) and the die front end (12) is tapered, and wherein the transition section (14) is a smooth curved transition with a circular arc shape.
5. A combined cladding die for a clarinet according to claim 1, wherein the die tip (12) has an elongated flat cylindrical shape, and the ratio of the length of the die tip (12) to the inner diameter of the die (1) is 1: (3-7).
6. A combined cladding die for a clarinet according to claim 1, wherein the most front edge of the die front end (12) is provided with a shrinking section (15), the outer diameter of the die front end (12) is reduced by the shrinking section (15), and the ratio of the length of the shrinking section (15) to the length of the die front end (12) is 1: (4-8).
7. A combined overmolding die for a carat tube according to claim 1, characterized in that the right side edge surface of the block piece (23) is in the same vertical plane as the circular profile surface of the initial reduced diameter of the narrowing portion (15).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123212883.7U CN216760759U (en) | 2021-12-21 | 2021-12-21 | Combined coating die for krah pipe |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202123212883.7U CN216760759U (en) | 2021-12-21 | 2021-12-21 | Combined coating die for krah pipe |
Publications (1)
Publication Number | Publication Date |
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CN216760759U true CN216760759U (en) | 2022-06-17 |
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CN202123212883.7U Active CN216760759U (en) | 2021-12-21 | 2021-12-21 | Combined coating die for krah pipe |
Country Status (1)
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CN (1) | CN216760759U (en) |
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2021
- 2021-12-21 CN CN202123212883.7U patent/CN216760759U/en active Active
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