CN203484599U - Riveting tool special for aircraft hollow rivet - Google Patents

Abstract

The utility model discloses a riveting tool special for an aircraft hollow rivet. The riveting tool comprises a machine body, a squeezing rod and a transmission mechanism. The machine body is provided with a control part and a clamping opening established with the control part as a foundation part. One of two opposite parts of an opening of the clamping opening forms an anvil part, and the other one is a movable part with given working stroke in the opposite direction. One end of the squeezing rod is hinged to one side in the opposite direction of the portion of the movable part arranged on the machine body. The transmission mechanism is connected between the movable part and a hinged end of the squeezing rod and is used for transmission between the squeezing rod and the movable part. The riveting tool is easy to use and convenient to carry.

Description

Airborne vehicle tubular rivet Special riveting instrument

Technical field

The utility model relates to a kind of instrument for the riveted joint of airborne vehicle tubular rivet of shooting.

Background technology

In aircraft maintenance process, the situation that the tubular rivet that sometimes needs replacing to damage, particularly Boeing aileron actuator linkage shearing rivet etc. often sustain damage, changing tubular rivet is technique more common in aircraft maintenance.

Current aircraft system shop does not also all have special-purpose tubular rivet clincher tool, once as aileron is sheared rivet damage, the aileron pressurized strut linkage that can only more renew, causes the larger wasting of resources, has increased maintenance load, and then has improved the maintenance cost of airborne vehicle.

Utility model content

In view of this, the purpose of this utility model is to provide the simple portable aviation device of a kind of use tubular rivet Special riveting instrument, is a kind of hand-operated tools.

The utility model is by the following technical solutions:

An airborne vehicle tubular rivet Special riveting instrument, comprising:

Body, has to control parts and take and controls the bayonet socket that parts build as base portion, and two position one that wherein bayonet socket opening part is relative form anvil, and another for having the movable part of given impulse stroke in relative direction;

Pressure ram, one end is articulated with position that described body the is provided with described movable part side in described relative direction; And

Transmission mechanism, is connected between described movable part and the hinged end of described pressure ram, for the transmission between pressure ram and movable part.

According to said structure of the present utility model, utilize and control the stability that parts keep riveting process process, and then utilize pressure ram to produce larger extruding force based on lever principle, by the extruding force between anvil and movable part, complete the moulding of tubular rivet.Wherein said lever principle comes from the power output of pressure ram hinged end, bar part applies smaller power at the position away from pin joint, basic principle based on the arm of force, will produce larger driving force, naturally accordingly, the stroke coupling of the larger active arm of force less by the stroke of power arm, the also less stroke of lucky corresponding movable part (rivet distortion is general in very little scope, such as one or two millimeter).Bayonet socket is mainly used in snapping on one side from associated components, and two of relevant position parts are riveted.From above structure, can find out, because the transformational structure of the power of needs is compact, make its overall structure be tending towards compact, be easy to carry, and can in smaller space, implement riveting operation.

The better effect of the utility model is supported by following preferred technological means.

Above-mentioned airborne vehicle tubular rivet Special riveting instrument, described anvil comprises the first press section of a cylindricality, described movable part comprises the second press section of cylindricality;

The axis of the first press section and the second press section is in described relative direction;

One of the first press section and second press section axially have at it centre bore that is configured to pilot hole, and then one the squeezing needle that is directed at this centre bore partly lean out this pilot hole, and the guide end of squeezing needle is not less than the length of tubular rivet to be riveted by Compress Spring or air spring effect, the length of the section of leaning out.

Thereby according to said structure, squeezing needle probes into the endoporus of tubular rivet, play a supporting role, reduce the structural stability of tubular rivet main body.And the squeezing needle of stretching structure has the adaptability to different length tubular rivet.

Above-mentioned airborne vehicle tubular rivet Special riveting instrument, described the first press section and described the second press section are formed with conical protrusions on another the bottom surface of relative squeezing needle, thereby, mate described squeezing needle, there is good positioning action.

Above-mentioned airborne vehicle tubular rivet Special riveting instrument, the bottom surface indent that the first press section is relative with the second press section, the positioning molding portion of formation tubular rivet termination, can carry out initial alignment to two sections of tubular rivets, and form easy finishing die, make moulding more regular.

Above-mentioned airborne vehicle tubular rivet Special riveting instrument, changes moulding position for convenience, and described the first press section and the second press section are connected in bayonet socket corresponding site by releasable connection structure.

Above-mentioned airborne vehicle tubular rivet Special riveting instrument, described releasable connection structure is, at corresponding site, form mounting-positioning holes, and correspondingly, the link of the first press section and the second press section is provided with alignment pin, syndeton is simple, for convenience detach, and to thering is good adaptability because of the distortion that extruding produces.

Above-mentioned airborne vehicle tubular rivet Special riveting instrument, described alignment pin middle part is formed with the bulge loop for locking, and correspondingly, is formed with annular groove in mounting-positioning holes, and formed interface arrangment not only can quick-detachment, and has good positioning action.

Above-mentioned airborne vehicle tubular rivet Special riveting instrument, described bayonet socket is the adjustable bayonet socket of opening, thereby can mate the tubular rivet of different length.

Above-mentioned airborne vehicle tubular rivet Special riveting instrument, for convenience of regulating, described bayonet socket comprise from described control parts take described relative direction as benchmark to the extended linking arm of a side with the adjusting rod that is parallel to described relative direction and is engaged in linking arm elongated end, wherein the respective end Opposite direction connection arm that is configured in of adjusting rod coupling bayonet socket returns to prolong and forms the supporting member with described anvil;

Linking arm extended tip is formed with a hole, and described adjusting rod and described seat hole form shaft hole matching, has adjustment hole/groove at adjusting rod array simultaneously, and correspondingly, seat side, hole is provided with lock-screw, and lock screw ailhead coordinates with adjustment hole/groove.

Above-mentioned airborne vehicle tubular rivet Special riveting instrument, preferably, described handle part has the upwardly extending support bar in described relative side;

The side that the hinged basis of described pressure ram is support bar;

Correspondingly, support bar has the pilot hole for the described movable part that leads, and this pilot hole is configured to hold the space of described transmission mechanism simultaneously, and guiding hole wall has side opening, for being in transmission connection of described transmission mechanism and described pressure ram.

Accompanying drawing explanation

Fig. 1 is the structural representation (omission profiled part) of an airborne vehicle tubular rivet Special riveting instrument preferred embodiment.

Fig. 2 is a kind of anvil structural representation.

Fig. 3 is the structural representation of profiled part on a kind of movable part.

Fig. 4 is the structural representation that has been equipped with the airborne vehicle tubular rivet Special riveting instrument of profiled part.

Fig. 5 is the aileron ACTUATOR structural representation of not constructing.

Fig. 6 is the aileron ACTUATOR structural representation after construction.

Fig. 7 is the structural representation of riveted joint process status.

In figure: 1, adjusting rod, 2, adjustment hole, 3, steady pin, 4, connector, 5, linking arm, 6, support bar, 7, taper knob, 8, stop bit projection, 9, pressure ram, 10, bearing pin, 11, pressed end, the 12, second mounting-positioning holes, the 13, first mounting-positioning holes, 14, supporting member.

15, the first protruding changing, the 16, first alignment pin, the 17, first press section, 18, concave surface, 19, conical protrusions.

20, squeezing needle, 21, pilot hole, the 22, second press section, 23, spacing ring 24, spring cavity, 25, Compress Spring, the 26, second bulge loop, the 27, second alignment pin.

28, shear rivet, 29, aileron pressurized strut, 30, pin hole.

29, the shearing rivet after extrusion modling.

The specific embodiment

With reference to the aileron pressurized strut structure shown in accompanying drawing 5, the shearing rivet 28 using is typical tubular rivets.The tubular rivet using on aircraft is positioned at the edge of associated components mostly, thereby the selection of the riveting tool of being correlated with herein has certain specific aim.

In conjunction with Fig. 5 and Fig. 7, those skilled in the art has more clearly understanding.

First about tubular rivet (tubular rivet), be, on the basis of semitubular rivet, counterbore is worked into head always, due to lightweight, a little less than ailhead, for the riveted joint occasion with the little nonmetallic materials of load.In a lot of occasions, after riveted joint, need to keep the hollow integrality of tubular rivet.

At the first level; the instrument that tubular rivet riveted joint needs meets basic demand; the instrument is here the clincher tool that is exclusively used in the special use of airborne vehicle tubular rivet; nature, instrument has versatility under given service condition, therefore; herein; its Utility object does not form the concrete restriction to its protection domain, and only the generation of the clincher tool of airborne vehicle tubular rivet has more urgency, take herein that it describes as example.

Thereby at the first level, described airborne vehicle tubular rivet Special riveting instrument, should have following basic configuration:

Should have a basic type structural member, be called body, it is as the installation matrix of other critical pieces, and for the main holding assembly as manually riveting, its Main Function is the stability that keeps riveting status.Therefore, body should have the parts of controlling, support bar 6 as shown in Figure 1.

Mate the riveted joint object that aforesaid tubular rivet is general, as shown in Fig. 1,4,7, form a jaw that is similar to pipe wrench, being expressed as to control parts is here the bayonet socket that base portion builds, bayonet socket is generally semi-surrounding structure, be to be understood that it has opening here, and, should there is relative structural portion simultaneously, to meet the needed a pair of extruding force of riveting process, a power in a pair of extruding force is counter-force, and structure part is passive components, support component in other words, supporting member 4 parts as shown in Fig. 1 left end.

One of two parts that produce a pair of extruding force are movable part, can apply like this active force, and produce needed impulse stroke.

Should be appreciated that impulse stroke should be the stroke of instrument itself, rather than the stroke under some technique object conditions, nature has a stroke next time at each technique object, can be understood as technique stroke.

Thereby, based on above description, at bayonet socket, meeting opening allows under the condition that snaps in of riveted joint object, should there are two relative structural portion, to produce forward extrusion power, thereby two position one that bayonet socket opening part is relative form anvil, another for having the movable part of given impulse stroke in relative direction.

First about the selection of impulse stroke, can emphasize the use wide regional coverage of instrument applicable object, also can emphasize the property that turns of instrument applicable object, if single-minded design, can be designed as the single Stroke Control of coupling, but those skilled in the art is by the understanding to general riveting gun, manually riveting gun does not generally have and turns a property, a scope of application is just set conventionally, in the scope of application, there is suitable stroke.The selection of stroke also needs to consider size and the manually operated operability of extruding force, can not make manual operation end by excessive stroke or excessive power.

About anvil face, be generally the plane that a hardness is greater than processing object, in following content, this is had further and describe, at this, first seldom describe.

Further configurations is a pressure ram 9, as shown in Figure 1, its one end is articulated with position that described body the is provided with described movable part side in described relative direction, according to this structure, pressure ram has the ability of rotating around its pin joint by operation, the bearing pin that drive end can be take is as shown in Figure 1 benchmark, with respect to a side of pressure ram 9, here be not relatively absolute, with produce lever; During another kind of selection, the driven object of pressure ram and the power arm of pressure ram part are at homonymy, and the different piece of pressure ram 9 forms power arm and resistance arm.

Pressure ram 9 can amplify power by the variation of the arm of force based on lever principle or the equalising torque based on macroscopical based on lever principle.

The transmission mechanism further configuring, be connected between described movable part and the hinged end of described pressure ram, for the transmission between pressure ram and movable part, when pressure ram 9 can produce the amplification of larger power, the main effect of transmission mechanism is that the rotation of pressure ram is converted to the needed rectilinear motion of movable part.

As for transmission mechanism, need further amplification power, it is little than its necessity of conversion of forms of motion that inventor thinks.

Therefore the major function that, is appreciated that generally transmission mechanism is that rotation is converted to straight-line transmission mechanism.

In certain embodiments, couple positioned opposite one and half gears or sector gear about bearing pin 10 at pressure ram 9, because pressure ram 9 itself is movable, those skilled in the art be to be understood that here relatively in lever meaning relatively, be not absolute symmetry, but statement should be movable part side more accurately.So corresponding, corresponding can, for tooth bar, the meshing and directly rotation is converted to rectilinear motion with described half gear or sector gear of connecting of described movable part.

In certain embodiments, can utilize leverage to complete and turn to straight-line conversion, as slider-crank mechanism, running part is wherein mainly slide block, pressure ram 9 is formation crank wherein, can meet the configuration of slider-crank mechanism at the rod member that configures other, but structure is complicated a little.

Transmission mechanism mainly adopts gear drive, can also configure bevel gear, and the axis of the bevel gear of output is said relative direction, and gear shaft is configured to screw mandrel so, and movable part is driven by the screw on screw mandrel.

In structure as shown in Figure 1, do not configure extruder member, but himself also can be configured to needed anvil face and movable part in fact, as the first mounting-positioning holes 13 of Fig. 1 left end downside indication also can be configured to the Compound Cavity face of anvil face and molding structure, in like manner the second mounting-positioning holes 12 also can so configure.Even, in some more simple embodiment, the first residing position of mounting-positioning holes 13 is directly configured to whole anvil face.

With reference to Figure of description 4, in a further improved aspect, for being more conducive to the location of rivet, about described anvil, it comprises the first press section 17 of a cylindricality, described movable part comprises the second press section 22 of cylindricality, and such two lean out the locating that portion can better guarantee rivet; Said cylindricality can be regular prism structure, can be also column structure, and column structure processing is simpler, draws materials also than being easier to.

Mated, the axis of the first press section 17 and the second press section 22 is in described relative direction, and according to aforesaid content, two press sections are also relative certainly.

In further improved structure, one of the first press section 17 and second press section 22 axially have at it centre bore that is configured to pilot hole, pilot hole 21 as shown in Figure 3, and then one the squeezing needle 20 that is directed at this centre bore partly lean out this pilot hole 21, and the guide end of squeezing needle 20 is not less than the length of tubular rivet to be riveted by Compress Spring 25 or air spring effect, the length of the section of leaning out.

According to said structure, relatively in short-term, squeezing needle 20 is squeezed and retraction pilot hole 21 partly rivet, thereby the tubular rivet of different length is had to reasonable adaptability.Obviously, pilot hole is also here accommodation hole.

The existence of squeezing needle 20 not only can guarantee the stressed rationality that is involutory of extrusion process hollow core rivet for the location of tubular rivet, and institute's shaping end is more regular.And, due to the existence of squeezing needle 20, can in its end moulding process, form tubular rivet its endoporus is supported, prevent from radially producing excessive plastic deformation.

Squeezing needle 20, as shown in Figure 3, is a long column, and circle or chamfered can be led in its overhanging termination, to facilitate, probe into rivet endoporus.

The problem that relates to relevant tubular rivet location in content above, to guarantee that in extrusion modling process, the stressed directionality of rivet is relatively stable, produces less complex load, and can not produce excessive undesirable distortion.In the structure shown in Fig. 2 and Fig. 3, described the first press section 17 and described the second press section 22 are formed with conical protrusions 19 on another the bottom surface of relative squeezing needle.More direct, said bottom surface is working face compressive plane in other words.

The meaning that pyramid type projection 19 exists below, conical protrusions has guide function, to tubular rivet endoporus, conflicts after conical protrusions 19, can be along leading and then make tubular rivet endoporus concentric with conical protrusions 19.The form of expression about conical protrusions 19 in Fig. 3, is shown in the left side of the second press section 22, after abdicating pilot hole 21, can form outstanding cone structure.In the situation that not relying on squeezing needle 20, still there is good positioning action.

Certainly, coordinate squeezing needle 20 can form better positioning action, first squeezing needle 20 carries out along leading, and then uses conical protrusions 19 to produce reliable location.

Further, a kind of preferred structure is, the bottom surface that the first press section 17 is relative with the second press section 22, and two working face indents namely, form the positioning molding portion of tubular rivet termination, form localization part, form again moulding section.Thereby its design should design with reference to the version of tubular rivet final molding head, those skilled in the art is reference accordingly.

Tool wear, damage, even directly lost efficacy inevitable, the position of easily losing efficacy is mainly tool heads part, in so corresponding this case, tool heads part is mainly moulding section, in certain embodiments, as Fig. 2 and 3, moulding section is mainly the first press section 17 and the second press section 22, for fear of its inefficacy, directly causes tool failures, should be designed to removable structure, preferably mode adopts releasable connection structure that two press sections are connected in to a bayonet socket corresponding site, so also needn't damage the displacement that syndeton is carried out press section.

Certainly, we also know that a lot of tool heads are the structures that adopt as be welded to connect, and by cutting, change tool heads, and this case is not advocated and made in this way.Adopt releasable connection not affect it and use, although some releasable connection exists fit clearance, as be threaded, because extruding is normal pressure, fit clearance can not produce any negative effect.

The optional type of releasable connection is many, its general character is for convenience detach, for further simplified structure, as shown in Figures 1 to 3, described releasable connection structure is to form mounting-positioning holes at corresponding site, the first mounting-positioning holes 13 closes the second mounting-positioning holes 12 as shown in Figure 1, and correspondingly, the link of the first press section 17 and the second press section 22 is provided with alignment pin, the first alignment pin 16 as shown in Figure 2 and the second alignment pin 27 shown in Fig. 3.Pin is generally to adopt interference fit to realize reliable connection as location, also can not produce fit clearance, connects very firmly, and detachable is directly pulled out.

Interference fit has its shortcoming, as described in the first mounting-positioning holes 13 be blind hole, if the second alignment pin 16 fractures, taking out can be more difficult.If through hole can eject by another port.

When adopting the structure of pin, a kind of preferred structure is for adopting extra disconnecting prevention structure, as shown in Figures 2 and 3, described the first alignment pin 16 and described the second alignment pin 27 middle parts are formed with the bulge loop for locking, as shown in Figure 2 the second bulge loop 26 shown in the first bulge loop 15 and Fig. 3, excessive by inclined-plane between bulge loop and pin side face, and then correspondingly, in mounting-positioning holes, be formed with annular groove, can form fastening structure like this, reduced the risk of interference fit, and can install and remove fast.

Preferably, described bayonet socket is the adjustable bayonet socket of opening, can for the tubular rivet of different length, adjust the size of bayonet socket opening like this, has better adaptability versatility in other words.

The structure of adjusting about bayonet socket, should consider the following aspects, is first to adjust structure should reduce as much as possible the impact on bayonet arrangement stability, namely need to guarantee as much as possible two press sections over against, like this guarantee extruding force over against.The problem of another aspect is the convenience of adjusting.The problem of the 3rd aspect be adjust whether need stepless.

Below the structure that three problems are mated is above described one by one.

First structure is as shown in Figure 1 described, described bayonet socket comprise from described control parts take described relative direction as benchmark to the extended linking arm 5 of a side with the adjusting rod 1 that is parallel to described relative direction and is engaged in linking arm 5 elongated ends, wherein the respective end Opposite direction connection arm that is configured in of adjusting rod 1 coupling bayonet socket returns to prolong and forms the supporting member 4 with described anvil, has so just formed a simple C type structure.

In such a structure, linking arm 5 extended tips are formed with a hole, the square hole that namely connector shown in Fig. 14 forms, and described adjusting rod 1 forms shaft hole matching with described seat hole, the moment of torsion all producing with balance extruding force, at adjusting rod array, there is adjustment hole 2/ groove simultaneously, correspondingly, seat side, hole is provided with lock-screw, is expressed as steady pin 2 in Fig. 1, lock screw ailhead coordinates with adjustment hole/groove, for locking.

In one embodiment, upper surface at adjusting rod 1 has 7 circular fixed grooves, adjusting rod 1 is arranged in connector 4, by steady pin 3 rotations, be screwed into connector side sky and snap in the groove of adjusting rod 1, adjusting rod is fixedly connected on support bar, steady pin 3 is stuck in different grooves, the corresponding size that regulates rivet clipper opening.

Pressure ram 9 and support bar 6 link together by hinge (in figure, bearing pin 10), by being contained in the gear drive of support bar inside, pressure ram and rivet pressed end are linked, when pressure ram is during to the compressional movement of support bar direction, rivet pressed end is stretched out, otherwise, in rivet pressed end retraction support bar, thereby make rivet clipper opening have certain free-extension amount.In support bar hinge lower end, there is a raised structures, guarantee to keep certain interval between pressure ram and support bar, be convenient to worker's extrusion operation.

About shaft hole matching, unless adopt interference fit, otherwise be difficult to eliminate fit clearance, fit clearance can cause the first press section 17 and the second press section 22 disalignments, affects squeezing effect.

Coordinate said structure, can adopt two lock-screws, form resistance arm, the countertorque producing by a pair of lock-screw, can guarantee that the first press section 17 is coaxial with the second press section 22 relatively reliably.

In certain embodiments, square hole changes profiled holes into, produces the more strong point, can reduce to a certain extent gap.

Simple hole axle coordinates, and can adopt out the tight fit outside interference fit, and while coating lubricating oil, to facilitate the adjusting of adjusting rod 1.

About the convenience regulating, as shown in Figure 1, it is more convenient that the form adjustment of array adjustment hole 2 is got up, and meanwhile, because adjustment hole 2 can form and be connected reliably with steady pin 3, can guarantee the relative stability of opening.

In certain embodiments, cutting elongated groove on adjusting rod 1, steady pin 3 aligns with elongated slot, and is equipped with son at the abutting end of steady pin, or the square iron coordinating with elongated slot, and frictionally secured adjusted bar 1, by the multi-point support generation countertorque of square iron.

For simplified structure, and handled easily, described handle part has the upwardly extending support bar 6 in described relative side, as shown in Figure 1, the configuration mode based on aforesaid pressure ram 9 is known, and the hinged basis of described pressure ram 9 is a side of support bar 6, pressure ram 9 can form a pair of handle with support bar 6, bimanualness, very convenient, and overall structure is also compact.

Pressure ram 9 and support bar 6 are furnished with taper knob.

In order to prevent stroke, the side relative with support bar 6 at pressure ram 9 is provided with stop bit projection 8, as shown in Fig. 1 right middle.Stop bit projection 8 keeps pressure ram 9 and support bar 6 to have suitable gap at taper knob 7 places for stopping pressure ram 9, prevents from squeezing the hand of hindering operating personnel.

Correspondingly, support bar 6 has the pilot hole for the described movable part that leads, and this pilot hole is configured to hold the space of described transmission mechanism simultaneously, and guiding hole wall has side opening, for being in transmission connection of described transmission mechanism and described pressure ram 9.

Claims (10)

1. an airborne vehicle tubular rivet Special riveting instrument, is characterized in that, comprising:

Body, has to control parts and take and controls the bayonet socket that parts build as base portion, and two position one that wherein bayonet socket opening part is relative form anvil, and another for having the movable part of given impulse stroke in relative direction;

Pressure ram, one end is articulated with position that described body the is provided with described movable part side in described relative direction; And

Transmission mechanism, is connected between described movable part and the hinged end of described pressure ram, for the transmission between pressure ram and movable part.

2. airborne vehicle tubular rivet Special riveting instrument according to claim 1, is characterized in that, described anvil comprises the first press section of a cylindricality, and described movable part comprises the second press section of cylindricality;

The axis of the first press section and the second press section is in described relative direction;

One of the first press section and second press section axially have at it centre bore that is configured to pilot hole, and then one the squeezing needle that is directed at this centre bore partly lean out this pilot hole, and the guide end of squeezing needle is not less than the length of tubular rivet to be riveted by Compress Spring or air spring effect, the length of the section of leaning out.

3. airborne vehicle tubular rivet Special riveting instrument according to claim 2, is characterized in that, described the first press section and described the second press section are formed with conical protrusions on another the bottom surface of relative squeezing needle.

4. according to the airborne vehicle tubular rivet Special riveting instrument described in claim 2 or 3, it is characterized in that the bottom surface indent that the first press section is relative with the second press section, the positioning molding portion of formation tubular rivet termination.

5. airborne vehicle tubular rivet Special riveting instrument according to claim 2, is characterized in that, described the first press section and the second press section are connected in bayonet socket corresponding site by releasable connection structure.

6. airborne vehicle tubular rivet Special riveting instrument according to claim 5, is characterized in that, described releasable connection structure is at corresponding site, form mounting-positioning holes, and correspondingly, the link of the first press section and the second press section to be provided with alignment pin.

7. airborne vehicle tubular rivet Special riveting instrument according to claim 6, is characterized in that, described alignment pin middle part is formed with the bulge loop for locking, and correspondingly, is formed with annular groove in mounting-positioning holes.

8. airborne vehicle tubular rivet Special riveting instrument according to claim 1, is characterized in that, described bayonet socket is the adjustable bayonet socket of opening.

9. airborne vehicle tubular rivet Special riveting instrument according to claim 8, it is characterized in that, described bayonet socket comprise from described control parts take described relative direction as benchmark to the extended linking arm of a side with the adjusting rod that is parallel to described relative direction and is engaged in linking arm elongated end, wherein the respective end Opposite direction connection arm that is configured in of adjusting rod coupling bayonet socket returns to prolong and forms the supporting member with described anvil;

Linking arm extended tip is formed with a hole, and described adjusting rod and described seat hole form shaft hole matching, has adjustment hole/groove at adjusting rod array simultaneously, and correspondingly, seat side, hole is provided with lock-screw, and lock screw ailhead coordinates with adjustment hole/groove.

10. according to the airborne vehicle tubular rivet Special riveting instrument described in claim 1,8 or 9, it is characterized in that, described handle part has the upwardly extending support bar in described relative side;

The side that the hinged basis of described pressure ram is support bar;

Correspondingly, support bar has the pilot hole for the described movable part that leads, and this pilot hole is configured to hold the space of described transmission mechanism simultaneously, and guiding hole wall has side opening, for being in transmission connection of described transmission mechanism and described pressure ram.

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