DE102016007834B4 - line connection structure - Google Patents

Abstract

Line connection structure configured to connect two lines each forming a transmission path, the line connection structure including:
a connecting pipe (40) including engaging projections (43, 44) at respective end portions to have larger diameters than an outer diameter of a middle portion between the respective end portions;
a first pipe (20) fitted onto the connecting pipe (40) from one end of the connecting pipe (40) so as to pass over the engaging projection (43) at the one end; and
a second line (30) mounted on the connection line (40) from the other end of the connection line (40) so as to pass over the engagement projection (44) at the other end and on a part of the first line (20 ) is, which is mounted on the connecting line (40), wherein
a convexity or a plurality of convexities (21) are provided on a part of an outer periphery of the first pipe (20) in a predetermined position along a passage path direction from a mounting end (22) to serve as a positioning member in a process of mounting the second lead (30), the first lead (20) having a projection (23) on a lead outer peripheral wall of the first lead (20) in a region where the second lead (30) is laid on the first lead (20). , and which protrudes to such a height that does not interfere with the diameter expansion of the first pipe (20), the projection (23) being connected at its top to the inner peripheral wall of the second pipe (30) so that it has a sealing property the place where the second wire (30) is laid on the first wire (20), and the projection (23) protrudes 0.1 mm to 0.3 mm in height.

Description

BACKGROUND

technical field

The invention relates to a line connection structure.

Description of the prior art

In many cases, a plurality of hoses, also referred to below as lines, are connected to one another to form a passageway for a fluid. A structure for connecting wires by press-fitting a wire into another wire or a structure for connecting wires using a connecting wire different from the wires has been proposed to connect the wires ( JP H08-326975A and JP 2005-48857A ).

US2014/0326724A1 relates to a refueling system that avoids problems caused by electrostatic discharge during refueling.

DE 10 2004 035 802 B3 relates to a high-tensile pipe connection with the connection of a pipe to a socket.

JP H05-86089 U relates to a line with improved traction.

Various structures for connecting two lines have been proposed as in the above patent documents. However, a complicated structure is required to ensure the connection of two lines. Also, a secure connection of two wires requires a complicated structure for fixing the wires and causes an expansion of the outer diameter at a place where the two wires are connected to each other. With these problems in mind, it is an object of the invention to provide a wire connection structure which enables compact connection of two wires.

PRESENTATION

In order to solve at least part of the problems described above, the invention can be carried out by the aspects described below.

1. (1) According to an aspect of the invention, there is provided a wire connection structure. The line connection structure is adapted to connect two lines each forming a passageway, and includes a connection line including engagement projections at respective end portions to have larger outside diameters than an outside diameter of a middle portion between the respective end portions; a first line mounted on the connection line from one end of the connection line so as to pass over the engaging projection at the one end; and a second line that is mounted on the connection line from the other end of the connection line so that it runs over the engagement projection at the other end and that it is put on a part of the first line that has been mounted on the connection line. One or a plurality of convexities are provided on a part of an outer periphery of the first pipe at a predetermined position along a passage path direction from a mounting end to serve as a positioning member in a process of mounting the second pipe.

The wire connecting structure of this aspect is adapted by engaging the first wire with one engaging projection of the connecting wire and by engaging the second wire with the other engaging projection of the connecting wire so that the two wires are connected to each other via the connecting wire, and by placing the second Line that it lies on the first line that has been mounted on the connecting line. Accordingly, the lead connection structure of this aspect has a small outside diameter by expanding the diameter of only the second lead, and allows the two leads to be securely fastened to each other. The line connection structure of this aspect has the following advantages. The first lead is expanded in diameter so that it can be fitted onto the connection structure from the side of an engaging projection. The first pipe has a convexity or a plurality of convexities at the predetermined position along the passage path direction from the mounting end. A region of the first lead where the convexities are formed is also expanded in diameter to ride over the engagement projection to be assembled. The convexities provide the reinforcement function to increase the rigidity of the area where the convexities are formed. The pipe connection structure of this aspect has the convexities only in a part of the outer circumference of the first pipe. A region of the first line without the convexities does not provide the enhancement function. Accordingly, the line connection structure of this aspect does not interfere with the diameter expansion of the first line in the area, where the convexities are formed. This configuration provides a new wire connection structure that has the second wire laid over the first wire, increasing the assembly ability of the first wire. In addition, the first line is mounted on the connecting line before the second line is mounted. Correspondingly, the convexities of the first line can be used to position the second line. This structure eliminates the need for a marking operation to position the second lead. The lead connection structure of this aspect thus enhances the assembly ability of the second lead.

(2) In the wire connection structure of the above aspect, the convexities may be arranged discretely around an outer periphery of the first wire. This configuration of the lead connection structure enables the second lead to be positioned evenly around the circumference of the mounting end and stabilizes the mounting of the second lead. The discretely arranged convexities are used as the positioning guide for mounting the second lead. This simplifies the assembly of the second line.

(3) In the wire connection structure of either of the above two aspects, the first wire may have a protrusion on a wire outer peripheral wall of the first wire in a region where the second wire is laid on the first wire, and protrudes to such a height that that it does not interfere with a diameter expansion of the first line. The protrusion provides the sealing feature at the location where the second wire is laid over the first wire. This improves the sealing property at this point. The protrusion can have the height of 0.1 to 0.3 mm so that it does not interfere with the diameter expansion of the first line.

(4) In the pipe connection structure of any of the above aspects, the first pipe may have the mounting end expanded to abut against an inner wall of the second pipe. This provides the sealing property at the place where the mounting end of the first pipe abuts the inner wall of the second pipe.

character list

• 1 12 is an exploded view showing the schematic configuration of a hose assembly product according to an embodiment of the piping connection structure;
• 2 Fig. 12 is a diagram illustrating a cross-sectional view of a first tube taken along a line 2-2 in 1 ;
• 3 Fig. 14 is a diagram illustrating a cross-sectional view of the tube assembly product taken along a tube axial direction;
• 4 12 is a diagram illustrating a cross-sectional view of a hose assembly product according to a first modification, taken along the hose axial direction; and
• 5 12 is a diagram illustrating a cross-sectional view of a hose assembly product according to a second modification, taken along the hose axial direction.

DESCRIPTION OF THE EMBODIMENTS

The following describes an embodiment of the invention with reference to the drawings. 1 14 is an exploded view illustrating the schematic configuration of a hose assembly product 10 according to an embodiment of the piping connection structure. 2 12 is a diagram showing a cross-sectional view of a first tube 20 (hereinafter also referred to as a conduit) taken along a line 2-2 in FIG 1 illustrated. 3 12 is a diagram illustrating a cross-sectional view of the tube assembly product 10 taken along a tube axial direction.

As shown, the tubing assembly product 10 includes a connecting conduit 40 in addition to a first conduit 20 and a second conduit 30 intended to form a fluid passageway. The first line 20 is formed of a suitable resin, for example, polyamide (PA) such as nylon or ethylene vinyl alcohol copolymer (EOH), and is laid through an arbitrary path to be placed at a predetermined location (not shown), such as a engine compartment of a vehicle. As in 1 and 2 1, the first pipe 20 is mounted on the connecting pipe 40 (hereinafter also referred to as connecting pipe 40) at a mounting end 22 which is an end of the first pipe 20 and has four convexities 21 formed on a pipe outer peripheral wall and are arranged at equal intervals around the outer peripheral wall of the hose or line. In other words, the convexities 21 are provided in a partial area around the hose or pipe outer peripheral wall of the first pipe 20 . The positions where the convexities 21 are formed in the direction of the tube passageway will be described later.

The second pipe 30 is formed of a suitable rubber material, such as a polybutadiene-based, a nitrile-based, or a chloroprene-based rubber, and has an inner diameter expandable to the diameter that it can be laid on the first pipe 20 . This second line 30 is connected to the first line 20 using the connecting line 40 as described later, and is then laid together with the first line 20 through an arbitrary path. Both the second pipe 30 and the first pipe 20 described above are expanded in diameter to be put on the connection pipe 40 to be described later, so the second pipe 30 and the first pipe 20 are required to have hardness , which allows an expansion of the diameter.

The connection line 40 is used to connect the first line 20 to the second line 30, and has a first engagement projection 43 at one end and a second engagement projection 44 at the other end of a straight line body 42. The connection line 40 is made of a thermoplastic resin , such as polyacetal or polyamide is extrusion-molded using a die, so that the configurations of the linear conductive body 42 and the respective engaging projections 43 and 44 are kept constant.

A hose assembly process for manufacturing the hose assembly product 10 will be described below in terms of an assembly sequence. The first pipe 20 is first assembled to the connecting pipe 40 from the first engaging projection 43 side. Specifically, the first engagement projection 43 is inserted into the pipe hole at the mounting end 22 of the first pipe 20 so that the connection pipe 40 is inserted into the first pipe 20 by press fitting. The press fit engages the first lead 20 with the first engagement projection 43 such that the mounting end 22 of the first lead 20 is short of the second engagement projection 44 as shown in FIG 3 is shown. A diameter-expanding region of the first lead 20 rides over the first engagement projection 43 and is placed surrounding the first engagement projection 43 so that an engagement is made. The first lead 20 has the convexities 21 provided away from the mounting end 22 to be in the middle of the passage path of the linear lead body 42 in the press-fitting state where the mounting end 22 is just before the second engaging projection 44 . Accordingly, an area of the first lead 20 where the convexities 21 are formed is also expanded in diameter to ride over the first engaging projection 43 . Further, press-fitting the connection pipe 40 causes the convexities 21 to be located at the center of the passageway of the linear pipe body 42 .

After the completion of the press-fitting of the first pipe 20, the second pipe 30 is assembled to the connection pipe 40 from the second engagement projection 44 side. Specifically, the second engaging projection 44 of the connecting pipe 40 to which the first pipe 20 has been assembled is inserted into the pipe hole at a mounting end 31 of the second pipe 30 so that the connecting pipe 40 to which the first pipe 20 has been assembled passes through Press fit into the second line 30 is used. The press fitting causes the second lead 30 to be laid on the first lead 20 so that the mounting end 31 approaches the convexities 21 of the first lead 20 mounted on the connecting lead 40 as shown in FIG 3 is shown. This completes the assembly of the second line 30 . In this assembled state, the second line 30 is engaged with the second engagement projection 44 of the connecting line 40. A diameter-expanding region of the second line 30 rides over the second engagement projection 44 and is placed surrounding the second engagement projection 44 so that an intervention is made. In the assembled state of the second line 30, the first line 20 is in engagement with the first engagement projection 43 of the connection line 40, while the second line 30 is in engagement with the second engagement projection 44 of the connection line 40. This provides the hose assembly product 10 in which the second line 30 overlies the first line 20 which has been assembled to the connector line 40 . in 3 As shown, the mounting end 31 faces the convexities 21 across a gap. According to a modification, the second pipe 30 can be assembled so that the assembly end 31 abuts against the convexities 21 .

As described above, the hose assembly product 10 of the embodiment is configured by engaging the first line 20 with the first engaging projection 43 of the connection line 40 and engaging the second line 30 with the second engaging projection 44 so that the first line 20 and the second line 30 are connected to each other via the connection line 40, and the second line 30 is laid on the first line 20 which has been mounted on the connection line 40. Accordingly, the hose assembly product 10 of the embodiment has a small outer diameter by expanding the diameter of only the second pipe 30 and enables the two pipes to be securely fastened to each other.

The hose assembly product 10 of the embodiment has the piping connection structure that has the second piping 30 laid on the first piping 20 . The first pipe 20 is expanded in diameter in the area that runs over the first engagement projection 43 so that it is mounted so that the mounting end 22 is short of the second engagement projection 44 . According to the structure of the hose assembly product 10 of the embodiment, in the assembled state, the first pipe 20 places the convexities 21 on the first engagement projection 43 side of the linear pipe body 42 . The area of the first lead 20 where the convexities 21 are formed is also expanded in diameter to ride over the first engaging projection 43 during assembly to the connection lead 40. While the area of the first lead 20 where the convexities 21 are formed is expanded in diameter to ride over the first engaging projection 43, the convexities 21 provide the reinforcing function that the rigidity is increased in this area. However, the hose assembly product 10 of the embodiment has only the four convexities 41 arranged at equal intervals around the hose outer peripheral wall as shown in FIG 1 and 2 is shown. A region of the first line 20 without the convexities 21 provides no enhancement function. Accordingly, the hose assembly product 10 of the embodiment does not interfere with the diameter expansion of the first pipe 20 in the region where the convexities 21 are formed. This configuration provides the new wire connection structure that has laid the second wire 30 on the first wire 20, improving the assembly workability of the first wire 20.

In the hose assembly product 10 of the embodiment, the first pipe 20 has been assembled to the connection pipe 40 before the second pipe 30 is assembled. Correspondingly, the convexities 21 of the first line 20 can be used to position the second line 30 . As a result, this construction of the hose assembly product 10 of the embodiment eliminates the need for a marking operation to position the second conduit 30 prior to assembly. This improves the assembling operation of the second lead 30. Accordingly, omitting the marking operation improves work efficiency and reduces labor costs.

In the hose assembly product 10 of the embodiment, the convexities 21 are discretely arranged at equal intervals around the outer peripheral wall of the first pipe 20 . The configuration of the hose assembly product 10 of the embodiment thus enables the second pipe 30 to be positioned evenly around the circumference of the mounting end 31 and stabilizes the mounting of the second pipe 30. The discretely arranged convexities 21 are used as the positioning guide for mounting the second pipe 30 . This structure enables the second lead 30 to be directly laid on the first lead 20 and mounted thereto.

Some modifications are described below. 4 12 is a diagram illustrating a cross-sectional view of a hose assembly product 10A according to a first modification, the cross-sectional view being taken along the hose axial direction.

As illustrated, the hose assembly product 10A of the first modification is constructed by connecting the first pipe 20 to the second pipe 30 and using the connection pipe 40, as in the hose assembly product 10 described above, and is provided with a plurality of small projections 23 characterized, which are provided on the hose or line outer peripheral wall of the first line 20. These small projections 23 protrude to the height of 0.1 to 0.3 mm from the hose or pipe outer peripheral wall of the first pipe 20, and the tops of the small projections 23 are connected to the inner wall of the second pipe 30 on the first line 20 is placed. A region of the first lead 20 where the small projections 23 are formed is expanded in diameter to ride over the first engaging projection 43 during the assembling process of the first lead 20. However, the small projections 23 have the low height of 0, 1 to 0.3 mm and accordingly do not interfere with the diametric expansion of the area of the first lead 20 where the small projections 23 are formed. The small protrusions 23 are bonded to the inner peripheral wall of the second pipe 30 at their tops to provide a sealing property at the place where the second pipe 30 is laid on the first pipe 20, or particularly between the outer peripheral wall of the first pipe 20 and the Inner peripheral wall of the second pipe 30. The structure of the hose assembly product 10A of this modification accordingly improves the sealing property at the place where the second pipe 30 is put on the first pipe 20 without impairing the assembly property of the first pipe 20.

5 12 is a diagram illustrating a cross-sectional view of a tube assembly product 10B according to a second modification, taken along the tube axial direction.

As illustrated, the hose assembly product 10B of the second modification is constructed by connecting the first pipe 20 to the second pipe 30 using the connecting pipe 40, as in the hose assembly product 10 described above, and is characterized by a mounting end 22a of the first pipe 20, shaped as a flared opening end. As illustrated, the mounting flared end 22a is located just before the second engagement projection 44 of the connecting conduit 40 and abuts against the inner wall of the second conduit 30. In the hose assembly product 10B of this modification, the contact between the mounting flared end 22a and the inner wall of the second conduit 30 seals against Leakage of a fluid through a clearance between the inner wall surface of the first pipe 20 and the connecting pipe 40, or more specifically, a clearance between the first engaging projection 43 and the outer wall surface of the straight pipe body 42.

The invention is not limited to any of the embodiments, and the modifications described above can be supplemented with a variety of other configurations without departing from the scope of the invention. For example, the technical features of any of the above-described embodiments and modifications corresponding to the technical features of any of the aspects described in the outline of the invention may be appropriately exchanged or combined to solve part or all of the problems described above , or to achieve some or all of the beneficial effects described above. Any of the technical features can also be omitted as needed unless the technical feature is described as essential here.

In the embodiment described above, the four convexities 21 are arranged at equal intervals around the tube outer peripheral wall of the first tube 20 . According to a modification, only one convexity 21 may be provided. According to another modification, any number of multiple convexities 21 may be provided at equal intervals or at varying intervals in an area not interfering with the diameter expansion of the duct in the area where the convexities 21 are formed.

In the hose assembly product 10B of the second modification, the small protrusions 23 of the hose assembly product 10A of the first embodiment may be provided on the hose outer peripheral wall of the first pipe 20 . In the hose assembly product 10A of the first modification, as shown in FIG 4 As shown, a wire band Hb may be used to tie off the location where the second wire is laid over the first wire 20. This further improves the sealing property. The conduction band Hb can also be used for the hose assembly product 10 disclosed in 1 and 3 is shown, or for the hose assembly product 10B shown in 5 is shown.

The invention provides a line connection structure adapted to interconnect two lines forming a transmission path. The wire connection structure includes a connection wire provided with engagement projections at respective end portions to have outer diameters larger than the outer diameter of a central portion between the respective end portions; a first pipe fitted from one end of the connection pipe so as to pass over the engaging projection provided at the one end; and a second line mounted from the other end of the connection line so as to pass over the engagement projection at the other end and to be put on a part of the first line that has been mounted on the connection line. The wire connection structure has a small outside diameter by only expanding the diameter of the second wire, and allows the two wires to be securely fastened to each other.

Claims (1)

A pipe connection structure configured to connect two pipes each forming a passageway, the pipe connection structure including: a connection pipe (40) including engaging projections (43, 44) at respective end portions to have larger diameters than an outer diameter of a middle one area between the respective end areas; a first pipe (20) fitted onto the connecting pipe (40) from one end of the connecting pipe (40) so as to pass over the engaging projection (43) at the one end; and a second line (30) mounted on the connection line (40) from the other end of the connection line (40) so as to pass over the engaging projection (44) at the other end and on a part of the first line ( 20) mounted on the connecting pipe (40), wherein a convexity or a plurality of convexities (21) are provided on a part of an outer periphery of the first pipe (20) in a predetermined position along a direction of the passage leaving away from a mounting end (22) to serve as a positioning member in a process of mounting the second pipe (30), the first pipe (20) having a protrusion (23) on a pipe outer peripheral wall of the first pipe (20) in one area has, in which the second line (30) is placed on the first line (20), and which protrudes to such a height that does not interfere with the diameter expansion of the first line (20), the projection (23) on connected at its top to the inner peripheral wall of the second wire (30) to provide a sealing property at the place where the second wire (30) is laid on the first wire (20), and the protrusion (23) is 0.1 mm up to 0.3 mm in height.

Images