CN101131201A

CN101131201A - Clutch mechanism with advance buffering and safe back off function

Info

Publication number: CN101131201A
Application number: CNA2006101116585A
Authority: CN
Inventors: 刘仁炽
Original assignee: 刘仁炽
Current assignee: Jielongxing Gear Co., Ltd.
Priority date: 2006-08-21
Filing date: 2006-08-21
Publication date: 2008-02-27
Anticipated expiration: 2026-08-21
Also published as: CN101131201B

Abstract

The present invention relates to one kind of clutch mechanism with advance buffering and back safety functions. The clutch mechanism has one first spindle with one mating toothed surface towards the second spindle, one second spindle with one clutch sleeve, one shifting fork for controlling the axial displacement of the clutch sleeve, one clutch socket ring on the clutch sleeve, and one buffer mechanism between the clutch socket ring and the clutch sleeve and including at least one advance mesh buffering spring and at least one back reset safety spring for correct meshing and safe separation. The present invention has raised safety performance.

Description

Clutch mechanism with advance buffering and safe fallback function

Technical field

The present invention relates to a kind of driven off by shaft clutch mechanism that is widely used in advance buffering and safe fallback function.

Background technique

Existing general vehicle designs with driven off by shaft clutch mechanism, as No. the 5th, 997,428: U.S.'s patent of invention about the two powershift clutches designs of taking turns transmission and four-wheel transmission.

Disclose powerdriven clutch design organization between a kind of two rotating shafts in the prior art document, utilize the clutch that the set shift fork sleeve that is subjected to displacement produces transmission of power between two rotating shafts between two rotating shaft opposite ends.

And when in these designs, producing transmission of power and connect about shift fork sleeve displacement cross-over connection desire between two rotating shafts, for the shift fork sleeve by the rotating shaft top offset solution that another rotating shaft moment meshes not contraposition problem of desiring to be engaged and linked, because of the factor of designing technique and space kenel causes spare part complexity and occupy-place shortcoming, so all utilize the facility space outerpace that relevant damping mechanism is set separately, not only complex structure, volume is big, cost is high, and yet more time-consuming the taking a lot of work of assembling processing, and do not meet the usability of industry demand and the benefit of economic demand.

Therefore the present inventor once developed the clutch mechanism with pooling feature at the problems referred to above, and application Chinese patent, application number is 200610057290.9, denomination of invention is " clutch structure with pooling feature ", but in the design of above-mentioned application, the spare part that is had is more and to be set as volume also bigger, though this application has certain functional and industry applications, but the pursuit that principle that constantly progresses greatly based on technological innovation and product mass-energy constantly promote, reduce spare part, reduction cost and volume, truly have it to research and develop necessity of innovation again.

Summary of the invention

The present invention discloses a kind of " clutch mechanism with advance buffering and safe fallback function "; its feature is: the mesh tooth face that the second axle direction on one day is set on the axis body of clutch mechanism first axle; but establish a location engagement and the clutch sleeve of axial displacement on second spindle shaft on the leading portion axis body of second axle; clutch sleeve on this second spindle shaft is subjected to a fork controls axial displacement; and in a sheathed location engagement on the clutch sleeve and the clutch collar that can axial displacement on clutch sleeve; be provided with damping mechanism in clutch sleeve and clutch cover interannular; this damping mechanism comprises at least one or more than one a plurality of engagement damping spring and at least one or more than one a plurality of safety spring that resets that retreats of advancing; make clutch sleeve advanced by the shift fork interlock axial displacement generation clutch collar and mesh the first axle mesh tooth face; if each other during non-correct engagement contraposition; the engagement damping spring produces buffering by advancing; treat that both mesh contraposition moment; before push away the camphane that the trap ring reaches the clutch collar and the first axle mesh tooth face immediately by the engagement damping spring that advances and close interlock; on the contrary; when retreating, shift fork make clutch sleeve return original position when producing the clutch collar in advance and breaking away from the first axle mesh tooth face; if the clutch collar can't retreat disengaging for some reason; pull back the strength that resets of moving back by retreating the safety spring generation that resets; the clutch collar can be pulled back immediately move back and reach the effect that automatic disengaging resets, and then the security effectiveness of effectively protecting the clutch mechanism spare part to advance and be engaged and linked and retreat disengaging.

The object of the invention is:

1, provides the clutch mechanism that a structure is simplified, cost is low with buffering and Safety function.

2, provide the clutch mechanism that a volume is little, installation is easy to have buffering and Safety function.

3, provide one can not during contraposition and can not break away from for some reason the time, can effectively prevent the clutch mechanism that transmitting assemblies is damaged in gear engagement with buffering and Safety function.

4, provide once can ensure parts safety and with the life-span permanent have the buffering and a clutch mechanism of Safety function.

Description of drawings

Fig. 1 is a clutch mechanism embodiment's of the present invention structural representation.

Fig. 2 is that clutch mechanism of the present invention advances and desires to be engaged and linked and the schematic representation during contraposition not.

Fig. 3 be clutch mechanism of the present invention advance the engagement contraposition the interlock schematic representation.

Fig. 4 is that clutch mechanism of the present invention desires to retreat the schematic representation that breaks away from and do not break away from.

Fig. 5 is a clutch sleeve embodiment's of the present invention structural representation.

Fig. 6 is the right elevation of Fig. 5.

Fig. 7 is the left view of Fig. 5.

Fig. 8 is the 8-8 sectional view of Fig. 6.

Fig. 9 is a clutch collar embodiment's of the present invention structural representation.

Figure 10 is the right elevation of Fig. 9.

Figure 11 is the left view of Fig. 9.

Figure 12 is the 12-12 sectional view of Figure 10.

Figure 13 is that the engagement damping spring that advances of clutch sleeve of the present invention and clutch cover interannular is provided with schematic representation.

Figure 14 is that the safety spring that resets that retreats of clutch sleeve of the present invention and clutch cover interannular is provided with schematic representation.

Embodiment

Figure 1 shows that the present invention's " clutch mechanism " embodiment's structural representation with advance buffering and safe fallback function, wherein:

The mesh tooth face 10 of second axle, 2 directions on one day is set on the axis body of clutch mechanism first axle 1, but establish a location engagement and the clutch sleeve 3 of axial displacement on second axle, 2 axostylus axostyles on the leading portion axis body of second axle 2, clutch sleeve 3 on these second axle, 2 axostylus axostyles is subjected to a shift fork 4 control axial displacements, and in a sheathed location engagement on the clutch sleeve 3 and the clutch collar 5 that can axial displacement on clutch sleeve 3, be provided with damping mechanism in the

clutch sleeve

3 and 5 of the clutch collars, this damping mechanism comprises at least one or more than one a plurality of engagement damping spring 6 and at least one or more than one a plurality of safety spring 7 that resets that retreats of advancing, make clutch sleeve 3 advanced by the shift fork 4 interlock axial displacements generation clutch collar 5 and mesh first axle, 1 mesh tooth face 10, if each other during non-correct engagement contraposition, engagement damping spring 6 produces buffering by advancing, treat that both mesh contraposition moment, before push away trap ring 5 immediately by the engagement damping spring 6 that advances and reach being engaged and linked of the clutch collar 5 and first axle 1 mesh tooth face 10.

On the contrary, when retreating, shift fork 4 make clutch sleeve 3 return original position when producing the clutch collar 5 in advance and breaking away from first axle, 1 mesh tooth face 10, if the clutch collar 5 can't retreat disengaging for some reason, produce and pull back the strength that resets of moving back by retreating the safety spring 7 of resetting, the clutch collar 5 can be pulled back immediately move back and reach the effect that automatic disengaging resets.

Extremely shown in Figure 8 as Fig. 5, clutch sleeve 3 embodiments' of the present invention structural representation, wherein this clutch sleeve 3 is provided with a scrobicular ring 30 for shift fork 4 fastening interlocks, and quantity equals to advance, and (this case is advanced with three and is meshed the damping spring mounting points for embodiment is set in the cave 31 that is provided with of meshing damping spring 6 quantity, but therefore and the actual quantity of implement using of limitation this case) and quantity equal to retreat and reset that (the present invention retreats the safety spring mounting point that resets for embodiment is set with three for the cave 32 that is provided with of safety spring 7 quantity, but therefore do not limit to the actual quantity of implementing utilization of the present invention), and in cave 31 respectively is set, being provided with in 32 supplies to advance meshes damping spring 6 positioning shafts 60 and retreats the penetration hole 33 that safety spring 7 positioning shafts 70 that reset are installed, inner tube wall in clutch sleeve 3 cylindrical shells is provided with engageable engagement camphane bar 34 in second axle, 2 engagement camphane grooves 20 in addition, and the outer tube wall of clutch sleeve 3 cylindrical shells is provided with the engagement camphane groove 35 that can supply the clutch collar 5 to mesh.

Extremely shown in Figure 11 as Fig. 9, the clutch collar 5 embodiments' of the present invention structural representation, be provided with engageable engagement filler rod 50 in the clutch collar 5 internal ring walls in clutch sleeve 3 outer tube walls engagement caulking groove 35, but the clutch collar 5 external annulus then are provided with the mesh tooth face 51 of clutch in first axle, 1 mesh tooth face 10, on the clutch collar 5, be provided with in addition quantity equal to advance engagement damping spring 6 quantity be provided with hole 52 (the present invention with three engagement damping spring mounting points of advancing for embodiment is set, but therefore and the actual quantity of implement using of limitation the present invention) and quantity equal to retreat and reset that (the present invention retreats the safety spring mounting point that resets for embodiment is set with three for the hole 53 that is provided with of safety spring 7 quantity, but therefore do not limit to the actual quantity of implementing utilization of the present invention), and in hole 52 is set, be set as two internal diameters and can travel with the positioning shaft 60 that reaches the engagement damping spring 6 that advances and be provided with in the hole 52, and the engagement damping spring 6 that advances is kept out and is positioned to be provided with in the hole 52.

As shown in figure 13,5 of the clutch sleeve 3 and the clutch collars advance and mesh the assembled embodiment of damping spring 6 and positioning shaft 60, wherein this engagement damping spring 6 that advances is subjected to positioning shaft 60 location, and engagement damping spring 6 one ends that advance resist in clutch sleeve 3, end resists in the clutch collar 5 is provided with hole 52 with pad 61 in addition, to produce before the clutch sleeve 3 and then clutch cover ring 5 not during advanced in unison, can produce the compression engagement damping spring 6 that advances immediately, push away the strength (example as shown in Figure 2) of contraposition engagement before making the clutch collar 5 have automatically.

As shown in figure 14,5 of the clutch sleeve 3 and the clutch collars retreat the assembled embodiment of reset safety spring 7 and positioning shaft 70, wherein these positioning shaft 70 1 ends are fixed on the clutch sleeve 3, and the sheathed safety spring 7 that resets that retreats on the positioning shaft 70, the outside is nested with a sleeve 71 again, making this retreat safety spring 7 one ends that reset resists in sleeve 71 1 side neck end inwalls, end then resists the axle urogomphus ring 701 in positioning shaft 70 in addition, wherein these sleeve 71 tail ends turn up outside the clutch collar 5 is provided with 53 holes, hole, make the clutch collar 5 can only axial displacement on sleeve 71 and can not deviate from, retreat when resetting to produce clutch sleeve 3, if the clutch collar 5 makes when not retreating synchronously and retreats the safety spring 7 that resets in

sleeve

71 and 70 compressions of positioning shaft, pull back the strength (example as shown in Figure 4) of recessing trap ring 5 and produce.

Therefore, the present invention has following beneficial effect:

1, structure is simplified, cost is low.

2, volume is little, installation is easy.

3, can effectively prevent not contraposition and will separate in the time of but can't breaking away from for some reason the generation that may damage transmitting assemblies of gear engagement really.

4, can reach guarantee parts safety really, and the permanent benefit of using.

The present invention can be by independent separately assembly performance expectation function and action separately in embodiment's utilization, also can be more than one that neighbours and the assembly of interlock is set to an assembly, reveal the associating expectation function and the action of an above assembly by this component table.Therefore, these module diagnostics all should belong to the scope of the present invention alone or in combination, and this scope has also comprised technical pattern and the effect that can implement about creation characteristic of the present invention; Therefore, therefore the technology of the present invention thought creation characteristic is not confined among the embodiment shown in the present.

Claims

1. one kind has the advance buffering and the clutch mechanism of safe fallback function, but first axle and second axle and a location engagement and the clutch sleeve of axial displacement on second spindle shaft that comprise clutch mechanism, wherein establish a mesh tooth face at the axle head of first axle, but the leading portion axis body of second axle is provided with engagement camphane groove for location engagement and the clutch sleeve setting of axial displacement on second spindle shaft, it is characterized in that:

Clutch sleeve on second spindle shaft is subjected to fork controls can do axial displacement, the clutch collar that can axial displacement on clutch sleeve in engagement location on the clutch sleeve one, be provided with damping mechanism in clutch sleeve and clutch cover interannular, this damping mechanism comprises at least one advance engagement damping spring and at least one and retreats the safety spring that resets.

2. the clutch mechanism that has advance buffering and safe fallback function according to claim 1, it is characterized in that, described clutch sleeve is provided with a scrobicular ring for shift fork fastening interlock, and quantity equal to advance be provided with cave and the quantity of engagement damping spring quantity equals to retreat the cave that is provided with of safety spring quantity of resetting, and being provided with in the cave for the engagement damping spring positioning shaft and retreating that the advances penetration hole that the safety spring positioning shaft installs that resets in respectively being provided with, inner tube wall in the clutch sleeve cylindrical shell is provided with engageable engagement camphane bar in second axle engagement down groove in addition, and the outer tube wall of clutch sleeve cylindrical shell is provided with the engagement down groove that can supply the clutch collar to mesh.

3. the clutch mechanism that has advance buffering and safe fallback function according to claim 1, it is characterized in that, described clutch collar internal ring wall is provided with engageable engagement down bar in clutch sleeve outer tube wall engagement down groove, but clutch collar external annulus then is provided with the mesh tooth face of clutch in the first axle mesh tooth face, on the clutch collar, be provided with in addition quantity equal to advance engagement damping spring quantity be provided with hole (52) and quantity equal to retreat reset safety spring quantity hole (53) is set, and in hole (52) is set, be set as two internal diameters.

4. the clutch mechanism that has advance buffering and safe fallback function according to claim 1, it is characterized in that, described clutch sleeve and clutch cover interannular advance the engagement damping spring assembling be that positioning shaft one end is fixed on the clutch sleeve, and engagement damping spring one end that advances is resisted in clutch sleeve, end resists in the correspondence of the clutch collar is provided with hole (52) with pad in addition.

5. the clutch mechanism that has advance buffering and safe fallback function according to claim 1, it is characterized in that, the assembling that described clutch sleeve and clutch cover interannular retreat the safety spring that resets is that positioning shaft one end is fixed on the clutch sleeve, and the sheathed safety spring that resets that retreats on the positioning shaft, the outside is nested with a sleeve again, make this retreat safety spring one end that resets and resist in sleeve one side neck end inwall, end then resists the axle urogomphus ring in positioning shaft in addition.

6. the clutch mechanism that has advance buffering and safe fallback function according to claim 1, it is characterized in that, described clutch sleeve and clutch cover interannular advance the engagement damping spring before clutch sleeve and then clutch cover ring when contraposition does not engage into the mesh tooth face of first axle, this engagement damping spring that advances is into compressive state, pushes away the strength of contraposition engagement before making the clutch collar have automatically.

7. the clutch mechanism that has advance buffering and safe fallback function according to claim 1, it is characterized in that, the retreating of described clutch sleeve and the clutch cover interannular safety spring that resets retreats and the clutch collar when not retreating the mesh tooth face that breaks away from first axle in clutch sleeve, this retreats the safety spring that resets and is into compressive state, pulls back the strength of recessing the trap ring with generation.