CN213162762U - Pipeline piece flaring punch die and pipeline forming equipment - Google Patents

Abstract

The utility model belongs to the pipeline processing field, specifically speaking relates to a pipeline piece flaring punch die and pipeline former, the punch die includes the mould anterior segment, be equipped with flaring portion and insertion portion on the mould anterior segment, flaring portion with set up locking portion between the insertion portion, flaring portion's size is greater than the inside size of pipeline, locking portion's size is less than the inside size of pipeline, pipeline flaring in-process, the pipeline passes through in proper order insertion portion, locking portion with flaring portion, and by flaring portion is right the flaring operation is implemented to the pipeline. The warp the utility model discloses a pipe crossing pipeline after the flaring is carried out to the flaring mould its piping uniformity and location accuracy have all obtained effective improvement when piping with normal pipeline.

Description

Pipeline piece flaring punch die and pipeline forming equipment

Technical Field

The utility model belongs to the pipeline processing field, specifically speaking relates to a pipeline spare flaring punch die and pipeline former.

Background

The flaring pipeline piece produced by the flaring die in the pipeline workshop at present is directly connected with a large-angle transition part between a flaring section and a non-flaring section, so that a copper pipe matched with the flaring pipeline piece is easy to loosen or pop up under the action of external force, the consistency, the positioning accuracy and the post-process operation of the pipe distribution are affected, the production efficiency is reduced, and the appearance defects and the quality problems of products are easily caused.

Therefore, the utility model is provided.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a pipeline flared punch mould of flaring pipeline and normal pipeline's piping uniformity and location accuracy.

For solving the technical problem, the utility model provides a punch die for pipeline flaring, punch die includes the mould anterior segment, be equipped with flaring portion and insertion portion on the mould anterior segment, flaring portion with set up locking portion between the insertion portion, flaring portion's size is greater than the inside size of pipeline, locking portion's size is less than the inside size of treating the flaring pipeline, and the pipeline flaring in-process is treated the flaring pipeline and is passed through in proper order insertion portion, locking portion with flaring portion, and by flaring portion treats the flaring pipeline and implements the flaring operation.

Further preferably, the front section of the die is a first cylinder, and the flared part is a flared straight section on the first cylinder; the insertion part comprises a conical head arranged at the end part of the first cylinder, and the conical head is formed by extending the edge of the end part of the first cylinder to the middle part; the locking part is a concave ring positioned between the flaring straight section and the conical head, the diameter of the cross section of the flaring straight section is larger than the inner diameter of the pipeline, and the diameter of the cross section of the concave ring is smaller than the inner diameter of the pipeline.

Further, preferably, a transition portion is further arranged between the flared straight section and the concave ring, and the transition portion is a conical surface formed by extending an edge of one end, close to the concave ring, of the flared straight section to the concave ring.

Further preferably, the flared straight section, the concave ring and the tapered surface are integrally formed.

Preferably, the punch die further comprises a die middle section connected with the die front section, the die middle section is provided with an oil inlet hole, the conical surface of the conical head is provided with an oil nozzle, and oil ducts for connecting the oil inlet hole and the oil nozzle are arranged in the die front section and the die middle section.

Further preferably, the middle section of the mold is a second cylinder, the diameter of the second cylinder is larger than that of the first cylinder, the oil inlet hole is located on a side wall of the second cylinder, and the oil groove extends inside the first cylinder and the second cylinder to communicate the oil inlet hole with the oil nozzle.

Further preferably, a plurality of oil nozzles are arranged on the conical head, the oil nozzles are arranged around the conical surface of the conical head, and the oil passages are respectively communicated with the oil nozzles.

Further preferably, the punch die is arranged on the pipeline forming equipment and comprises a die rear section, the die middle section is located between the die front section and the die rear section, the die rear section is provided with a positioning groove, and the punch die is arranged on the pipeline forming equipment through the positioning groove.

Further preferably, at least the front section of the mold is coated with a DLC metal coating.

The utility model also provides a pipeline former of drift mould.

After the technical scheme is adopted, compared with the prior art, the utility model following beneficial effect has:

(1) the utility model discloses a flaring punch die realizes that the piping targets in place in one step, has solved the piping problem of kick-backing.

(2) The utility model discloses a flaring punch mould has avoided unnecessary solder to flow into the copper pipe and has caused the condition of welding stifled.

(3) The utility model discloses a thereby flaring punch die has guaranteed the piping degree of depth and has effectively solved the not enough problem of welding seam penetration.

(4) The utility model discloses a flaring section locking structure of flaring punch die has guaranteed the accuracy of piping and the uniformity of pipeline spare position, angle.

(5) The utility model discloses a flaring punch die has effectively promoted the work efficiency of piping operation.

(6) The utility model discloses an anomalous rate such as copper pipe fracture, flatten when flaring has been reduced in flaring punch die top oil spout lubrication.

(7) The utility model discloses a flaring punch mould promotes mould self-lubricity and wearability to improve mould life.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention, are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation. It is obvious that the drawings in the following description are only some embodiments, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

fig. 1 is a schematic structural view of a die punch according to an embodiment of the present invention.

Fig. 2 is a cross-sectional view of the die punch of fig. 1.

Fig. 3 is a side view in the direction of a in fig. 2.

Fig. 4 is a piping effect diagram after the die punch is flared.

Wherein, 1, a front section of the die; 11. a flared part; 12. a locking portion; 13. a transition section; 14. An insertion portion; 141. an oil jet; 15. a positioning section 15; 2. a middle section of the mold; 21. an oil inlet hole; 3. a rear section of the mold; 31. positioning a groove; 4. an oil passage.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept by those skilled in the art with reference to specific embodiments.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments, and the following embodiments are used for illustrating the present invention, but do not limit the scope of the present invention.

In the description of the present invention, it should be noted that the terms "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "connected", "contacting" and "communicating" are to be interpreted broadly, e.g. as either a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1-3, the punch die for flaring a pipeline includes a die front section 1, a flaring portion 11 and an insertion portion 14 are provided on the die front section 1, a locking portion 12 is provided between the flaring portion 11 and the insertion portion 14, the size of the flaring portion 11 is larger than the internal size of the pipeline, the size of the locking portion 12 is smaller than the internal size of the pipeline, during flaring of the pipeline, the pipeline passes through the insertion portion 14, the locking portion 12 and the flaring portion 11 in sequence, and flaring operation is performed on the pipeline by the flaring portion 11. The punch die of the embodiment is suitable for flaring operation of pipelines made of different materials, such as copper pipes, PVC pipes and the like, and can also be used for flaring operation of other pipeline pieces with different specifications and different purposes. This embodiment is through increasing one end locking portion 12 for form a locking portion 12 on the flaring pipeline, locked by locking portion 12 after normal pipeline inserts the flaring pipeline, thereby guaranteed the piping uniformity and the location accuracy of flaring pipeline and normal pipeline.

In the actual operation process, the punch die of the embodiment is installed on an automatic (semi-automatic) pipeline forming device, the flaring operation of the pipeline piece is carried out according to the production process, the locking part 12 at the front section of the die remodels the pipeline piece in the flaring process, and the locking part 12 is arranged at the flaring part of the produced pipeline piece. In the process of piping, the pipeline is inserted into the flaring locking part 12, so that two mutually matched pipeline pieces can be positioned and locked, and the purposes of preventing the rebound of the piping, and improving the consistency and the positioning accuracy of the piping are achieved.

Further preferably, the mold front section 1 is a first cylinder, the flared part 11 is a flared straight section located on the first cylinder, the design is better to be matched with the inner shape of the pipeline, the insertion part 14 is a conical head formed by extending the edge of the end part of the first cylinder to the middle part, the locking part 12 is a concave ring located between the flared straight section and the conical head, the cross section diameter of the flared straight section is greater than the inner diameter of the pipeline, and the cross section diameter of the concave ring is less than the inner diameter of the pipeline.

When the pipeline piece flared by the punch die of the embodiment is matched with a normal pipeline piece, the normal pipeline piece, namely the inner pipe, is inserted into the flaring section of the flaring pipeline piece, namely the outer pipe, and the inner pipe inserted into the flaring section is tightly clamped by the concave ring locking part 12 at the bottom end of the flaring section without a gap (as shown in fig. 4), so that the molten solder cannot flow into the pipe during welding in the subsequent welding process, and the welding blockage situation is avoided. Because no excessive solder flows into the pipe, the solder is completely left in the pipe gap of the pipe, thereby ensuring the melting depth. Furthermore, the outer piping in fig. 4 is further provided with a positioning section 15, the positioning section 15 is formed by another process, namely, a necking process, that is, the diameter of a section of pipeline is reduced to form a positioning ring, the inner diameter of the positioning section 15 is smaller than the outer diameter of the inner piping, the inner piping is inserted into the outer piping, and is stopped when reaching the positioning section 15, and the positioning section 15 has the function of ensuring the depth of the piping (namely, the depth of a welding seam, and the depth of the welding seam directly influences the welding quality of the pipeline parts).

Further preferably, a transition portion 13 is further provided between the flared straight section and the concave ring, and the transition portion 13 is a tapered surface formed by extending an edge of one end of the flared straight section close to the concave ring. In the embodiment, the flaring section of the die adopts a conical surface transition connection concave ring locking part 12 (as shown in fig. 1), so that the flaring section of the pipeline is gradually transited from the normal pipe diameter to the pipe diameter of the locking part 12, thereby not only ensuring the effectiveness and reliability of pipe locking, but also ensuring the smoothness and simplicity of pipe operation.

Further preferably, the flaring straight section, the concave ring and the conical surface are integrally formed, so that the whole punch die is smooth in structure, and the flaring operation quality is guaranteed.

Further preferably, the punch die further comprises a die middle section 2 connected with the die front section, the die middle section 2 is provided with an oil inlet hole 21, the conical surface of the conical head is provided with an oil nozzle 141, and the die front section 1 and the die middle section 2 are provided with an oil passage 4 connecting the oil inlet hole 21 and the oil nozzle 141. In the embodiment, the volatile oil passage 4 (as shown in fig. 2) is designed in the die, and before flaring operation, the volatile oil is sprayed out in a mist form from the oil spraying hole at the insertion end through the internal oil passage 4 to lubricate the pipe orifice of the pipeline, so that the condition that the pipe orifice is cracked or flattened in the flaring process due to drying of the pipeline is avoided.

Further preferably, the mold middle section 2 is a second cylinder, the diameter of the second cylinder is larger than that of the first cylinder, the oil inlet hole 21 is located on the side wall of the second cylinder, and the oil groove extends in an L shape inside the first cylinder and the second cylinder to communicate the oil inlet hole 21 with the oil nozzle 141. The diameter of the cross section of the middle section 2 of the die is larger than that of the cross section of the front section of the die, so that on one hand, the stroke of the oil duct 4 is prolonged, the oil storage space is increased, sufficient lubrication can be guaranteed to be carried out on the tube opening by one-time oil injection, on the other hand, the limiting effect can be achieved in the process of pipeline flaring, and the pipeline flaring length is prevented from being overlong. The oil passage 4 is designed into an L shape to play a role in buffering in the oil injection process.

Further preferably, the conical head is provided with a plurality of oil nozzles 141, the plurality of oil nozzles 141 are arranged around the conical surface of the conical head, and the conical surface of the conical head ring is arranged in a circular shape in this embodiment, but may also be in other shapes besides a circular shape, such as an oval shape, a square shape, and the like. The oil passages 4 communicate with a plurality of oil jets 141, respectively (shown in fig. 3). This embodiment can make the volatile oil from oil duct 4 spray on the pipeline inner wall along all directions through the oil spout 141 of circular arrangement through so designing oil spout 141, guarantees the lubricated homogeneity of pipeline inner wall oil spout to guarantee flaring quality.

In the embodiment, an oil inlet hole for volatile oil is designed in the middle section 2 of the punch die, and an atomizing oil nozzle 141 (shown in fig. 2 and 3) is designed on the conical head of the front section 1 of the punch die. Before the die is installed, an air pressure pump and a volatile oil pipeline are additionally arranged on pipeline forming equipment, the volatile oil is connected into a punch oil duct 4, and an induction device linked with the volatile oil air pressure pump is installed and is connected with a power supply. Like this just can carry out automatic oil spout lubrication to the mouth of pipe when the pipeline spare is close the drift, avoid leading to mouth of pipe fracture or flattening because the copper pipe is dry when the flaring, reduce the production defective rate.

Further preferably, the punch die is arranged on the pipeline forming equipment and comprises a die rear section 3, the die middle section 2 is located between the die front section and the die rear section 3, the positioning groove 31 is formed in the die rear section 3, and the punch die is installed on the pipeline forming equipment through the positioning groove 31. In the actual operation process, firstly, the air pressure oil way is connected into the oil inlet hole 21, the flaring die is installed and fixed on the pipeline forming equipment through the positioning groove 31 (the installation and positioning mode of the punch die designed in the embodiment is matched with the pipeline forming equipment used in the market, so the die can be exchanged and used with the traditional die), and the flaring operation of the pipeline piece can be carried out by opening the air source power supply.

Further preferably, at least the front section 1 of the die is coated with a DLC metal coating, and certainly, the whole punch die can be coated with the DLC metal coating, the DLC metal coating is coated on the surface of the whole punch die, so that self-lubrication is realized by utilizing the friction between the inner wall of the pipeline and the punch in the flaring operation process, the friction between the punch and the pipeline is reduced, the smoothness of the inner wall of the flaring is improved, and the abnormal constants such as flaring burrs, pipeline scratches and the like are reduced; besides, the DLC coating also improves the surface hardness and the wear resistance of the punch, thereby effectively prolonging the service life of the punch.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and although the present invention has been disclosed with reference to the above preferred embodiment, but not to limit the present invention, any person skilled in the art can make some changes or modifications to equivalent embodiments without departing from the scope of the present invention, and any simple modification, equivalent change and modification made to the above embodiments by the technical spirit of the present invention still fall within the scope of the present invention.

Claims (10)

1. The utility model provides a pipeline piece flaring punch die, its characterized in that, punch die includes mould anterior segment (1), be equipped with flaring portion (11) and insertion portion (14) on mould anterior segment (1), flaring portion (11) with set up locking portion (12) between insertion portion (14), the size of flaring portion (11) is greater than the inside dimension of pipeline, the size of locking portion (12) is less than the inside dimension of treating the flaring pipeline, and the pipeline flaring in-process is waited the flaring pipeline to pass through in proper order insertion portion (14) locking portion (12) with flaring portion (11), and by flaring operation is carried out to the flaring pipeline to flaring portion (11).

2. A pipe piece flaring punch die according to claim 1, wherein said die front section (1) is a first cylinder and said flared portion (11) is a flared straight section on said first cylinder; the insertion part (14) comprises a conical head arranged at the end part of the first cylinder, and the conical head is formed by extending the edge of the end part of the first cylinder to the middle part; the locking part (12) is a concave ring positioned between the flaring straight section and the conical head, the diameter of the cross section of the flaring straight section is larger than the inner diameter of the pipeline, and the diameter of the cross section of the concave ring is smaller than the inner diameter of the pipeline.

3. The pipe fitting flaring punch die of claim 2, wherein a transition portion (13) is further arranged between said flaring straight section and said concave ring, and said transition portion (13) is a tapered surface formed by extending the edge of one end of said flaring straight section close to said concave ring.

4. The piping component flaring punch die of claim 3, wherein said flaring straight section, said concave ring and said conical surface are integrally formed.

5. The pipe flaring punch die of any one of claims 2 to 4, wherein said punch die further comprises a die middle section (2) connected to said die front section, said die middle section (2) is provided with an oil inlet hole (21), said conical surface of said conical head is provided with an oil nozzle (141), and said die front section (1) and said die middle section (2) are provided with an oil passage (4) connecting said oil inlet hole (21) and said oil nozzle (141).

6. The pipe flaring punch die of claim 5, wherein said die center section (2) is a second cylinder having a diameter greater than a diameter of said first cylinder, said oil inlet hole (21) being located in a sidewall of said second cylinder, and oil grooves extending inside said first and second cylinders, said oil grooves communicating said oil inlet hole (21) with said oil jet (141).

7. The pipe fitting flaring punch die of claim 5, wherein said cone head is provided with a plurality of said oil jets (141), said plurality of said oil jets (141) surrounding the cone arrangement of said cone head, said oil passages (4) being respectively in communication with said plurality of said oil jets (141).

8. The pipe flaring punch die of claim 5, wherein said punch die is arranged on a pipe forming device, said punch die further comprises a die back section (3), said die middle section (2) is located between said die front section and said die back section (3), said die back section (3) is provided with a positioning groove (31), and said punch die is mounted on said pipe forming device through said positioning groove (31).

9. The piping component flaring punch die of claim 1, characterized in that at least said front die section (1) is coated with a DLC metal coating.

10. A pipe forming apparatus comprising a punch die as claimed in any one of claims 1 to 9.

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