CN110397729A - A kind of Rocker arm assembly of riveting process - Google Patents

Abstract

The invention discloses the Rocker arm assemblies of the riveting process of automobile rocker technical field, a kind of Rocker arm assembly of riveting process, including rocker arm ontology, bracing wire pin shaft, bushing and torsional spring pin shaft, the bracing wire pin shaft is riveted on the left of the leading flank of the rocker arm ontology, by opening up oil-feed tank at the top of turning set, and corresponding protrusion block is equipped in connector sleeve outer wall, connector sleeve can constantly drive the rotary motion in oil-feed tank of protrusion block in rotation, oil-feed tank is dredged, it avoids oil-feed tank and generates blocking because of foreign matter in use, its good greasy property is ensured, it is connected between connector sleeve and fixing axle using bearing, it rotates more flexible, it is fixed between pin shaft and rocker arm ontology using riveting method, so that junction is securely beautiful, and consistency is good, installation place between gear lever and rocker arm ontology is equipped with anti-wearing liner, Greatly reduce the abrasion generated when gear lever rotation to rocker arm ontology.

Description

A kind of Rocker arm assembly of riveting process

Technical field

The present invention relates to automobile rocker technical field, specially a kind of Rocker arm assembly of riveting process.

Background technique

When switching gear, driver is controlled with hand hang lever first manual gear vehicle, is hung lever and is passed through rocker arm machine gear Shifting block shift fork axis axis is moved, and is fixedly connected with shift fork in shift fork axle, recycle shift fork make the gear in gearbox into Row separation or engagement, to realize gear change.When speed changer needs to cut some specific gear, generally to be shaken by gear selecting Selector shaft is selected in arm control, then by selecting selector shaft that gear shifting block is driven to drive to shift fork axle, make shift fork axle move axially into Row is accurately cut in the gear.

Rocker arm needs to rotate during the work time, needs to lubricate its rotation section accordingly thus, at present conventional profit Sliding mode be the clast for opening up fuel feed hole in rotation section to be lubricated, and the fuel feed hole is generated due to abrasion in use and The entrance of foreign is easy to cause oil inlet hole plug, causes lubrication failure and then unstable wear, at the same gear lever and rocker arm it Between hinged place, rotation when easily to rocker arm ontology generate abrasion, furthermore in fixed pin shaft, fixed using welding manner, weld The stability connect is not relatively high, and caused by difference in appearance it is also larger.

Summary of the invention

The purpose of the present invention is to provide a kind of Rocker arm assemblies of riveting process, mentioned above in the background art to solve Fuel feed hole due to the entrance of the abrasion clast generated and foreign, is easy to cause oil inlet hole plug, cause in use Lubrication failure and then unstable wear, while the hinged place between gear lever and rocker arm easily generate mill to rocker arm ontology in rotation Damage, furthermore in fixed pin shaft, fixed using welding manner, the stability of welding is not relatively high, and caused by difference in appearance Larger problem.

To achieve the above object, the invention provides the following technical scheme: a kind of Rocker arm assembly of riveting process, including rocker arm Ontology, bracing wire pin shaft, bushing and torsional spring pin shaft, the bracing wire pin shaft is riveted on the left of the leading flank of the rocker arm ontology, described Bushing is fixed to be plugged on the right side of the leading flank of the rocker arm ontology, and the torsional spring pin shaft is riveted on the leading flank of the rocker arm ontology Right side, the torsional spring pin shaft are located at the downside of the bushing, and the upper side of the rocker arm ontology is described integrally formed with turning set Oil-feed tank is offered at the top of turning set, the upper side of the rocker arm ontology is plugged with fixing axle, the top position of the fixing axle In the inner cavity of the turning set, the top of the fixing axle is equipped with bearing, and the outer wall of the bearing is socketed with rotation bushing, institute The top of rotation bushing is stated integrally formed with connector sleeve, the connector sleeve is located at the upside of the oil-feed tank, the connector sleeve Left and right sides outer wall is equipped with protrusion block, and the protrusion block is located in the oil-feed tank.

Preferably, multiple lightening holes are offered on the left of the leading flank of the rocker arm ontology, multiple lightening holes are uniformly etc. Away from setting.

Preferably, the outer wall of the rocker arm ontology, bracing wire pin shaft and torsional spring pin shaft is plated with metallic chromium layer.

Preferably, the rocker arm ontology is run through in the bottom end of the fixing axle, and the bottom end of the fixing axle is riveted on described shake The downside of arm body is also cooperatively connected by key between the fixing axle and the rocker arm ontology.

Preferably, the internal chamber wall of the connector sleeve is uniformly provided with spline.

Preferably, by spline assembly connection between the bushing and the rocker arm ontology, the bushing is one-ton brass lining Set.

Preferably, the outer wall of the bushing is in contact integrally formed with baffle ring, the baffle ring with the rocker arm ontology.

Compared with prior art, the beneficial effects of the present invention are: the Rocker arm assembly of the riveting process, by turning set top Portion opens up oil-feed tank, and is equipped with corresponding protrusion block in connector sleeve outer wall, and connector sleeve can constantly drive protrusion block in rotation The rotary motion in oil-feed tank, dredges oil-feed tank, avoids oil-feed tank and generates blocking because of foreign matter in use, It has ensured its good greasy property, has been connected between connector sleeve and fixing axle using bearing, rotated more flexible, pin shaft and rocker arm It is fixed between ontology using riveting method, so that junction is securely beautiful, and consistency is good, between gear lever and rocker arm ontology Installation place is equipped with anti-wearing liner, greatly reduces the abrasion generated when gear lever rotation to rocker arm ontology.

Detailed description of the invention

Fig. 1 is schematic structural view of the invention；

Fig. 2 is sectional view along A-A in Fig. 1；

Fig. 3 is turning set top view in Fig. 2；

Fig. 4 is turning set structural schematic diagram of the present invention；

Fig. 5 is Fig. 1 top view；

Fig. 6 is Fig. 2 left view.

In figure: 100- rocker arm ontology, 110- turning set, 111- oil-feed tank, 120- fixing axle, 121- bearing, 130- rotation Bushing, 131- connector sleeve, 132- protrusion block, 133- spline, 140- lightening hole, 200- bracing wire pin shaft, 300- bushing, 310- gear Ring, 400- torsional spring pin shaft.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

The present invention provides a kind of Rocker arm assembly of riveting process, avoids oil-feed tank and generates in use because of foreign matter Blocking, has ensured its good greasy property, and junction is securely beautiful, and consistency is good, when greatly reducing gear lever rotation To the abrasion that rocker arm ontology generates, referring to Fig. 1, including rocker arm ontology 100, bracing wire pin shaft 200, bushing 300 and torsional spring pin shaft 400；

Fig. 2-4 is please referred to, integrally formed with turning set 110, the top of turning set 110 offers the upper side of rocker arm ontology 100 The upper side riveting of oil-feed tank 111, rocker arm ontology 100 has fixing axle 120, and the bottom end of fixing axle 120 is riveted on rocker arm ontology 100 Downside, between fixing axle 120 and rocker arm ontology 100 also by key be cooperatively connected, the top of fixing axle 120 is located at turning set 110 inner cavity, the top of fixing axle 120 are socketed with bearing 121, and the outer wall of bearing 121 is socketed with rotation bushing 130, rotation lining Integrally formed with connector sleeve 131, connector sleeve 131 is located at the upside of oil-feed tank 111, the left and right two of connector sleeve 131 on the top of set 130 Integrally formed with protrusion block 132, protrusion block 132 is located in oil-feed tank 111 side outer wall, and rocker arm ontology 100 uses cast iron or casting Steel, for being mounted in vehicle manual gear shift mechanism, turning set 110 is for accommodating fixing axle 120 and rotation bushing 130, oil inlet Enter channel of the slot 111 as external lubrication oil, the inner cavity that lubricating oil can enter turning set 110 by oil-feed tank 111 is to turn It is lubricated between dynamic bushing 130 and turning set 110, while can be also lubricated for bearing 121, fixing axle 120 is for fixing Installation rotation bushing 130, rotation bushing 130 are integrated with connector sleeve 131, and connector sleeve 131 is for being socketed in external shift pedestal On, connector sleeve 131 is inconjunction with the rotation of protrusion block 132 when rotating, the motion profile of protrusion block 132 passes through oil-feed tank 111, works as oil inlet When generating blocking in slot 111, protrusion block 132 rotates through oil-feed tank 111, can be dredged for it；

Fig. 1, Fig. 5 and Fig. 6 are please referred to, bracing wire pin shaft 200 is riveted on the left of the leading flank of rocker arm ontology 100, on bracing wire pin shaft 200 With pin hole, bracing wire pin shaft 200 is for connecting external gear-shifting bracing wire；

Please refer to Fig. 1 and Fig. 5, bushing 300 is fixed to be plugged on the right side of the leading flank of rocker arm ontology 100, specifically, bushing 300 with Rocker arm ontology 100 is interference fitted by spline, and when installation, bushing 300 is used for being socketed in gear lever, bushing 300 One-ton brass bushing, it is wear-resistant, in gear lever rotation, it can avoid gear lever and directly wear rocker arm ontology 100；

Fig. 1 and Fig. 6 are please referred to, torsional spring pin shaft 400 is riveted on the right side of the leading flank of rocker arm ontology 100, and torsional spring pin shaft 400 is for solid Dingan County fills external torsional spring, and torsional spring is plugged in the pin hole of torsional spring pin shaft 400 by when installation, and the other end is plugged on shift pedestal.

Referring to Fig. 1, offering multiple lightening holes 140 on the left of the leading flank of rocker arm ontology 100, multiple lightening holes 140 are Even to be placed equidistant with, lightening hole 140 is circular opening, and which reduce material utilization amounts, for mitigating the entirety weight of rocker arm ontology 100 Amount.

In order to make rocker arm ontology 100, bracing wire pin shaft 200 and torsional spring pin shaft 400 that there is preferable corrosion resistance, rocker arm sheet The outer wall of body 100, bracing wire pin shaft 200 and torsional spring pin shaft 400 is plated with metallic chromium layer, to completely cut off external oxygen.

Referring to Fig. 3, the internal chamber wall of connector sleeve 131 is uniformly provided with spline 133, spline 133 is used for pedestal of shifting gears with outside It is attached fixation.

Referring to Fig. 6, the outer wall of bushing 300, integrally formed with baffle ring 310, baffle ring 310 is in contact with rocker arm ontology 100, Baffle ring 310 is for limiting the position of bushing 300.

Although hereinbefore having been made with reference to some embodiments, present invention is described, of the invention not departing from In the case where range, various improvement can be carried out to it and can be with equivalent without replacement component therein.Especially, as long as not There are structural conflict, the various features in presently disclosed each embodiment can be combined with each other by any way It uses, the description for not carrying out exhaustion to the case where these combinations in the present specification is only to be in omit length and economize on resources The considerations of.Therefore, the invention is not limited to specific embodiments disclosed herein, and including falling within the scope of the appended claims All technical solutions.

Claims (7)

1. a kind of Rocker arm assembly of riveting process, it is characterised in that: including rocker arm ontology (100), bracing wire pin shaft (200), bushing (300) it is riveted on the left of the leading flank of the rocker arm ontology (100) with torsional spring pin shaft (400), the bracing wire pin shaft (200), institute It states on the right side of bushing (300) fixed leading flank for being plugged in the rocker arm ontology (100), the torsional spring pin shaft (400) is riveted on institute On the right side of the leading flank for stating rocker arm ontology (100), the torsional spring pin shaft (400) is located at the downside of the bushing (300), the rocker arm The upper side of ontology (100) offers oil-feed tank at the top of the turning set (110) integrally formed with turning set (110) (111), the upper side of the rocker arm ontology (100) is plugged with fixing axle (120), and the top of the fixing axle (120) is located at institute The inner cavity of turning set (110) is stated, the top of the fixing axle (120) is equipped with bearing (121), the outer wall of the bearing (121) It is socketed with rotation bushing (130), the top of rotation bushing (130) is integrally formed with connector sleeve (131), the connector sleeve (131) it is located at the upside of the oil-feed tank (111), the left and right sides outer wall of the connector sleeve (131) is equipped with protrusion block (132), the protrusion block (132) is located in the oil-feed tank (111).

2. a kind of Rocker arm assembly of riveting process according to claim 1, it is characterised in that: the rocker arm ontology (100) Leading flank on the left of offer multiple lightening holes (140), multiple lightening holes (140) are uniformly placed equidistant with.

3. a kind of Rocker arm assembly of riveting process according to claim 1, it is characterised in that: the rocker arm ontology (100), The outer wall of bracing wire pin shaft (200) and torsional spring pin shaft (400) is plated with metallic chromium layer.

4. a kind of Rocker arm assembly of riveting process according to claim 1, it is characterised in that: the fixing axle (120) The rocker arm ontology (100) is run through in bottom end, and the bottom end of the fixing axle (120) is riveted on the downside of the rocker arm ontology (100) Face is also cooperatively connected by key between the fixing axle (120) and the rocker arm ontology (100).

5. a kind of Rocker arm assembly of riveting process according to claim 1, it is characterised in that: the connector sleeve (131) Internal chamber wall is uniformly provided with spline (133).

6. a kind of Rocker arm assembly of riveting process according to claim 1, it is characterised in that: the bushing (300) and institute It states by spline assembly connection between rocker arm ontology (100), the bushing (300) is one-ton brass bushing.

7. a kind of Rocker arm assembly of riveting process according to claim 1, it is characterised in that: outside the bushing (300) Wall is in contact integrally formed with baffle ring (310), the baffle ring (310) with the rocker arm ontology (100).