CN102141068B - Riveted structure and method thereof - Google Patents

Abstract

The invention discloses a riveted structure and a riveting method thereof. The structure is provided with a first element, a second element and a rivet; the first element is provided with a jointing end, an insertion space and two fish eye holes, wherein the insertion space invaginates from the jointing end; the two fish eye holes are respectively arranged at two sides coaxially; the two fish eye holes are communicated with the insertion space; each fish eye hole is provided with a large diameter part and a small diameter part; the second element is provided with an insertion end and a rivet hole, wherein the insertion end is butted with the insertion space; the insertion end penetrates into the rivet hole in side direction; the rivet passes through the two fish eye holes and the rivet hole so that the first element and the second element are riveted; the rivet is provided with a rod body and two head parts, wherein the two head parts are respectively at two ends of the rod body and the outer diameters of the two ends are greater than the that of the rod body; each head part is respectively tightly jointed with the large diameter part of each fish eye hole, wherein each large diameter part of each fish eye hole is provided with an annular groove along the circumference surface; and each head part is provided with a raised stuffing part along a circumference surface ring, and the raised stuffing part fills the annular groove tightly. According to the invention, the riveted structure has higher impact resistance, twisting resistance or vibration-proof strength, and the service life of the riveted structure is prolonged.

Description

Riveted structure and clinching method

Technical field

The present invention relates to a kind of riveted structure and clinching method, in details of the words, refer to a kind of tool equipment that is applied in, have riveted structure and the clinching method of larger join strength.

Background technique

At present, in common mechanical equipment, riveted joint is one of connecting mode of commonly using.As requested, the number of the structural type of rivet, material, size, rivet and layout, with the combination of coupled and riveting method etc., different and different with purposes, as hand tools, sleeve, working machine etc.See also shown in Figure 1, a kind of known riveted structure that is applied to sleeve, a rivet 10 ' inserts the first sleeve 20 ' and the second sleeve 30 ', at least one end of this rivet 10 ' is pressed into rivet head and reaches riveted joint.

Consult simultaneously shown in Figure 2ly, this rivet 10 ' one end has a rivet head 12 ', connect a shaft 14 ' of this rivet head 12 ' and connect another rivet head (not shown) of establishing this shaft 14 ' opposite end.This rivet head 12 ' is installed with to a fish eyelet 22 ' that is opened in this first sleeve 20 ', and butt to shoulder face 24 ', and this shaft 14 ' wears a pivot hole 32 ' of this second sleeve 30 '.The common joggling of this fish eyelet 22 '.This rivet 10 ' forms slightly larger in diameter in this rivet head 12 ' of a minor diameter part of this fish eyelet 22 ' after the system of defeating of about 20-50 ton, this rivet head 12 ' side face usually can't be comprehensive fluid-tight engagement to this fish eyelet 22 ' inner peripheral surface, and form the slightly blunt edge 16 ' of reduction of a diametric plane, form a gap 26 ' with this fish eyelet 22 '.

Although known riveted structure has been reached the effect that links object, still easily produce loosening, and then reduce withstand shocks, the load-carrying ability of torsion or vibration; In addition, the loosening easier in use consumed power that cause in this gap 26 ' raises the cost.For example, be applied to air tool aforementioned sleeve, these air tool vibrations will significantly improve the loosening probability of known riveted structure, and common aforementioned sleeve reaches approximately 3000 when turning at this pneumatic tool, and the situation of rivet head fracture namely occurs.

Therefore, above-mentioned known technology still has inconvenient disappearance in fact, and is to be improved.

Summary of the invention

Main purpose of the present invention is to provide a kind of riveted structure and clinching method, can have higher shock-resistant, torsibility or vibration resistance intensity, extends the working life of riveted structure.

In order to achieve the above object, a kind of riveted structure provided by the present invention, it includes one first element, one second element and a rivet.This first element has a joint end, this joint end one of sets to the concave and to insert the space and respectively at these joint end both sides and coaxial two fish eyelets of offering certainly; Two these fish eyelets are communicated with this insertion space; Respectively this fish eyelet has a large-diameter portion and a minor diameter part.This second element has at least one pivot hole that one of the insertion space that is docked to this first element insertion end and side direction wear this insertion end.This rivet penetrates the pivot hole of two fish eyelets and this second element of this first element, makes this first, second element pivot joint; This rivet have a shaft and be divided into these shaft two ends and external diameter greater than two heads of shaft; Respectively the Department of this distinguishes the respectively large-diameter portion of this fish eyelet of fluid-tight engagement.Wherein, respectively the large-diameter portion of this fish eyelet more has an annular groove along side face one circle depression; Respectively this head more is protruding with a filling section along side face one circle, closely tamps this annular groove.

In order to achieve the above object, the invention provides a kind of clinching method, it comprises:

First, second element of purchasing; This first elements on either side is coaxial offers first, second fish eyelet, and two these Yu Yan Kong Department interconnect; Wherein, this first fish eyelet has the first large-diameter portion, the first minor diameter part and encloses the first annular groove of depression along this first large-diameter portion side face one; This second fish eyelet has the second large-diameter portion, the second minor diameter part and encloses the second annular groove of depression along this second large-diameter portion side face one; This second component side is at least one pivot hole that is equipped with;

One rivet is sequentially worn this first fish eyelet, this pivot hole and this second fish eyelet, and one of large-diameter portion, the second end section of stretching out that makes the pre-System head of one of this rivet first end be located in this first fish eyelet convexedly stretches in outside this second fish eyelet;

High pressure is suppressed this section of stretching out of the rivet, makes it to be deformed into a head, and the large-diameter portion of this second fish eyelet of close packed, makes simultaneously this head along the distortion of side face one circle, one filling section be arranged, closely to tamp this second annular groove; And

High pressure is suppressed the pre-System head of this rivet, makes it to be deformed into another head, and the large-diameter portion of this first fish eyelet of close packed, makes simultaneously this another head along the distortion of side face one circle, another filling section be arranged, closely to tamp this first annular groove.

Beneficial effect of the present invention: the resulting riveted structure of the present invention can have higher shock-resistant, torsibility or vibration resistance intensity, has extended the use longevity of riveted structure.

Description of drawings

Fig. 1 is that the sleeve of known riveted structure is used;

Fig. 2 is the partial enlarged drawing of Fig. 1;

Fig. 3 is the partial sectional view of riveted structure of the present invention;

Fig. 4 is the partial sectional view of the preferred embodiment of riveted structure of the present invention;

Fig. 4 A is the partial enlarged drawing of Fig. 4;

Fig. 4 B is the top view of Fig. 4;

Fig. 5 A to Fig. 5 D is the making schematic diagram of riveted structure of the present invention;

Fig. 6 is the flow chart of the preferred embodiment of clinching method of the present invention.

[primary component symbol description]

＜known

10 ': rivet, 12 ': rivet head, 14 ': shaft, 16 ': blunt edge, the 20 ': the first sleeve, 22 ': fish eyelet, 24 ': the shoulder face, 26 ': the gap, the 30 ': the second sleeve, 32 ': the pivot hole,

＜the present invention 〉

30: rivet, 31: shaft, 32: head, 321: filling section, 322: non-flat full circle week, 33: prefabricated head, 34: the section of stretching out, 40: the first elements, 41: joint end, 42: fish eyelet, 421: large-diameter portion, 422: minor diameter part, 423: the shoulder face, 424: annular groove, 43: insert the space, 50: the second elements, 51: insertion end, 52: the pivot hole, 60: docking structure, 32a: the first head, 321a: the first filling section, 32b: the second head, 321b: the second filling section, 42a: the first fish eyelet, 421a: large-diameter portion, 422a: minor diameter part, 423a: shoulder face, 424a: the first annular groove, 42b: the second fish eyelet, 421b: large-diameter portion, 422b: minor diameter part, 424b: the second annular groove, F: high pressure.

Embodiment

Be the effect that makes your juror further understand purpose of the present invention, feature and to reach, below hereby lift a preferred embodiment of the present invention, and after coordinating diagram to be described in more detail in.

Riveted structure of the present invention is a rivet that has a docking structure and be used for connecting this docking structure.This docking structure respectively is provided with a fish eyelet coaxially in both sides, and this two fish eyelet is to interconnect, and docking structure is one first element, one second element that comprises at least mutual docking.See also shown in Figure 3ly, it discloses docking structure 60 and has the both sides that the first element 40 of being pivoted mutually and the second element 50, two fish eyelets 42 are located at this first element 40.It mainly is: two fish eyelets are divided into the both sides of a docking structure 60, and can allow a rivet 30 to wear this docking structure 60.

As shown in Figure 4.This first element 40 has a joint end 41, one inserts space 43 and respectively in joint end 41 both sides and coaxial two fish eyelets 42 of offering from what joint end 41 set to the concave.Space 43 is inserted in two fish eyelets 42 connections; The annular groove 424 that each fish eyelet 42 has a large-diameter portion 421, a minor diameter part 422, the shoulder face 423 between large-diameter portion 421 and minor diameter part 422 and caves in along these large-diameter portion 421 side face one circles.

The second element 50 has an insertion end 51 in the insertion space 43 that is docked to the first element 40 and side direction wears this insertion end 51 at least one pivot hole 52.The quantity in this pivot hole 52 is not limited to, and can as shown in Figure 3, be single perforation; Or, the insertion end 51 of the second element 50, its configuration can similar the first element 40 joint end 41 be U-shaped (not shown), can stretch into the insertion space 43 of the first element 40, therefore, two pivot holes are to set up these insertion end 50 both sides and coaxial to two fish eyelets 42 that should the first element 40 separately.

This rivet 30 is two fish eyelets 42 of penetrating this first element 40 and the pivot hole of this second element 50 52, makes this first element 40 and these the second element 50 pivot joints; This rivet 30 have a shaft 31 and minute be located at these shaft 31 two ends and external diameter greater than two heads 32 of shaft 31.Each head 32 is large-diameter portion 421 and shoulder faces 423 of each fish eyelet 42 of fluid-tight engagement respectively; And each head 32 more is protruding with a filling section 321 along side face one circle, with the annular groove 424 that closely tamps fish eyelet 42.

Consult simultaneously Fig. 4 A, annular groove 424 is to be formed at large-diameter portion 421 in abutting connection with shoulder face 423 places, and can to make the diameter of annular groove 424 be the maximum diameter of hole of large-diameter portion 421, and filling section 32 is embedded in conjunction with this annular groove 424, increase area of contact therebetween, improve the adhesive strength of this riveted structure; Simultaneously, but the also minor diameter part 422 of each fish eyelet 42 of fluid-tight engagement of shaft 31.In addition, filling section 32 can further be welded to annular groove 424, more improves the anti-rupture strength of this riveted structure.

Again, as shown in Figure 4 B, the surface of each head 32 and each fish eyelet 42 junction points are to present an irregular and non-just non-flat full circle week 322 of circle because of the high pressure compacting.

See also Fig. 5 A to Fig. 5 D, be the making schematic diagram of the preferred embodiment of the riveted structure of Fig. 3; Consult simultaneously the flow chart of Fig. 6.

Step S10: the docking structure 60 of purchasing; Docking structure 60 comprises two independently one first element 40, one second elements 50 mutually; Docking structure 60 both sides have respectively a fish eyelet.Each fish eyelet has a large-diameter portion, a minor diameter part, the shoulder face between this large and small footpath section and the first annular groove of large-diameter portion side face one circle depression.

Step S12 mainly wears a docking structure with a rivet 30, makes prefabricated 33 of rivet 30 first ends be installed with the large-diameter portion of a fish eyelet therein, the section of stretching out of the second end protrudes out outside another fish eyelet.

In this preferred embodiment, two these fish eyelets are for being located at the first fish eyelet 42a and the second fish eyelet 42b of this first element 40 both sides.Be with, step S12 will more be subdivided into: rivet 30 is sequentially worn the first fish eyelet 42a of this first element 40, a pivot hole 52 of this second element 50 and the second fish eyelet 42b of this first element 40.

Therefore, the more detailed configuration state of step S12 is as follows:

One prefabricated 33 large-diameter portion 421a that is located in the first fish eyelet 42a of these rivet 30 first ends, this prefabricated 33 and butt are to the shoulder face 423a of this first fish eyelet 42a;

The shaft 31 of this rivet 30 sequentially pass this first fish eyelet 42a minor diameter part 422a, this pivot hole 52, with the large and small footpath 421b of section, the 422b of this second fish eyelet 42b; And

One section of stretching out 34 of the second end of rivet 30 convexedly stretches in outside the second fish eyelet 42b.

Step S14: with the section of stretching out 34 of high pressure F pressed rivet 30, make it to be deformed into the second head 32b, and the large-diameter portion 421b of close packed the second fish eyelet 42b, closely butt the second fish eyelet 42b shoulder 423b, make the second head 32b along side face one circle distortion, the one second filling 321b of section be arranged simultaneously, closely to tamp the one second annular groove 424b that is arranged with along large-diameter portion 421b side face one circle of the second fish eyelet 42b.

Wherein, this high pressure F is at least 100 tons and is better enforcement aspect.Again, provide the riveting equipment of high pressure also not limit to its enforcement technology, for example, can be and grind pendulum riveted joint or radial rivet.

At this moment, the surface of the second head 32b and the second fish eyelet 42b large-diameter portion 421b junction point, be because of the high pressure compacting, produce one and present irregular and non-just round non-flat full circle week, these structures also can improve the adhesive strength of this second head 32b and this second fish eyelet 42b.

Step S16: with prefabricated 33 of high pressure F pressed rivet 30, make it to be deformed into the first head 32a, and the large-diameter portion 421a of this first fish eyelet of close packed 42a, make simultaneously this first head 32a along side face one circle distortion, the one first filling 321a of section be arranged, closely to tamp along one first annular groove 424a of the large-diameter portion 421a side face one circle depression of this first fish eyelet 42a.

Same with step S14, this high pressure F is at least 100 tons.

Same with step S14, the surface of this first head 32a and this first fish eyelet 42a large-diameter portion 421a junction point are to present a non-flat full circle week of irregular and non-just circle because of the high pressure compacting.

Be with, step S10 to S16 can reach riveted structure of the present invention.

This clinching method can more comprise step S18: the high-temperature heating aforementioned structure, make the microtissue of these fillings 321a of section, 321b be welded to these annular grooves 424a, 424b, by this as-welded, make head and the tight also secure bond of fish eyelet of rivet, more improve the adhesive strength of this riveted structure.

This step S18 also can make originally, and fluid-tight engagement to these heads 32a, the 32b of these large- diameter portions 421a, 421b, also produces the microtissue welding; Or further make this shaft 31 also be welded to these minor diameter parts 422a, 422b.

When metallic material was subjected to the active force of repetitiousness variation, as easy as rolling off a log generation fatigue ruption can't be predicted again in advance.Because the metallic material of this riveted structure of the present invention is also unrestricted; Press, the fatigue strength of metallic material can be adjusted by heat treatment.Therefore, the metallographic structure of this riveted structure of this step S18 capable of regulating, eliminate and to add the internal stress that produces man-hour or to make the effect such as surface sclerosis, can further improve the anti-rupture strength of this riveted structure.

This high temperature is approximately more than 900 ℃, or preferably is approximately 950 ℃; Temperature range and metallic material are more closely related.

This clinching method can more comprise step S20: these heads 32a32b of processing aforementioned structure, make it surface and rough the flushing of these fish eyelets 42a42b, and enlarge the applicability of this riveted structure.

Aforementioned processing method comprises at least turning, grinds one of them.

This riveted structure of the present invention and clinching method are mainly that to solve the riveting intensity of rivet in fish eyelet not enough, and its main purpose is to have higher shock-resistant, torsibility or vibration resistance intensity, extends the working life of riveted structure.The tight also secure bond of rivet head and fish eyelet makes this riveted structure tool high bond strength, in use more easily transmits torsion, improves utilization efficiency and then reduces costs.This riveted structure is applicable to the riveted joint of air tool sleeve, and it can bear this pneumatic tool and reach at least 5000 and turn, and the side produces fracture.Compare with known riveted structure, really reach and improve purpose.

On take off all embodiments and the present invention be described and unrestricted.

In sum, riveted structure of the present invention and clinching method, simple in structure, easy operating; The conjugation grade that it is intended to increase rivet and fish eyelet improves the anti-rupture strength of this riveted structure, also improves transmission efficiency, the pioneering structure that to get of meaning ware, and the tool progressive, really closing must part in patent of invention, files an application in accordance with the law.

Claims (12)

1. riveted structure, it comprises:

One first element, have a joint end, certainly this joint end set to the concave one insert the space and respectively in these joint end both sides and coaxial two fish eyelets of offering; Two these fish eyelets are communicated with this insertion space; Respectively this fish eyelet has a large-diameter portion and a minor diameter part;

One second element has an insertion end in the insertion space that is docked to this first element and at least one pivot hole that side direction wears this insertion end; And

One rivet, the pivot hole that it penetrates two fish eyelets and this second element of this first element makes this first, second element pivot joint; This rivet have a shaft and minute be located at these shaft two ends and external diameter greater than two heads of shaft; Respectively this head is distinguished the respectively large-diameter portion of this fish eyelet of fluid-tight engagement;

It is characterized in that:

The large-diameter portion of each described fish eyelet more has an annular groove along side face one circle depression;

Each described head more is protruding with a filling section along side face one circle, closely tamps this annular groove.

2. riveted structure according to claim 1 is characterized in that: the diameter of described annular groove is the maximum diameter of hole of this large-diameter portion.

3. riveted structure according to claim 1 is characterized in that: each described fish eyelet has more the shoulder face between this large and small footpath section, and this annular groove is in abutting connection with this shoulder face.

4. the described riveted structure of any one according to claim 1 to 3 is characterized in that: described filling section be in this annular groove with this first element welding.

5. riveted structure according to claim 4 is characterized in that: the surface of each described head is a non-flat full circle week that presents irregular and non-just circle with this fish eyelet junction point respectively.

6. clinching method is characterized in that: comprising:

First, second element of purchasing; This first elements on either side is coaxial offers first, second fish eyelet, and two these fish eyelets are to interconnect; Wherein, this first fish eyelet has the first large-diameter portion, the first minor diameter part and encloses the first annular groove of depression along this first large-diameter portion side face one; The second annular groove that this second fish eyelet has the second large-diameter portion, the second minor diameter part and caves in along this second large-diameter portion side face one circle; This second component side is at least one pivot hole that is equipped with;

One rivet is sequentially worn this first fish eyelet, this pivot hole and this second fish eyelet, make a prefabricated head of this rivet first end be installed with the large-diameter portion at this first fish eyelet, the section of stretching out of the second end convexedly stretches in outside this second fish eyelet;

High pressure is suppressed the section of stretching out of this rivet, makes it to be deformed into a head, and the large-diameter portion of this second fish eyelet of close packed, makes simultaneously this head along the distortion of side face one circle, one filling section be arranged, closely to tamp this second annular groove; And

High pressure is suppressed the prefabricated head of this rivet, makes it to be deformed into another head, and the large-diameter portion of this first fish eyelet of close packed, makes simultaneously this another head along the distortion of side face one circle, another filling section be arranged, closely to tamp this first annular groove.

7. clinching method according to claim 6, is characterized in that: the pressure that described high pressure is 100 tons at least.

8. clinching method according to claim 6 is characterized in that: more comprise after the high pressure pressed rivet: the high-temperature heating aforementioned structure makes these fillings sections be welded to these annular grooves.

9. according to claim 8 clinching method, it is characterized in that: described high temperature is more than 900 ℃.

10. clinching method according to claim 9, is characterized in that, described high temperature preferably is 950 ℃.

11. the described clinching method of according to claim 6 to 10 any one, it is characterized in that: each described fish eyelet has more the shoulder face between this large and small footpath section, and this clinching method more comprises before wearing rivet: the annular grooves such as formation are adjacent to this shoulder face place at the large-diameter portion of these fish eyelets.

12. the described clinching method of any one according to claim 6 to 10, it is characterized in that: described rivet more comprises after making head: the heads such as processing make its surface flush with waiting fish eyelet.

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