Summary of the invention
The invention provides a kind of cover plate, to solve prior art complex structure and the heavy problem of entirety.
A kind of taking-up device frame assembly provided by the invention, be applied to the taking-up device of belt with pre-load device, described taking-up device comprises the spool and the pre-tightening apparatus that are wound around belt-strap, described pre-tightening apparatus comprises generating means, pretension pipe and driver element, described driver element is under the effect of generating means, act on described spool by described pretension pipe, drive this spool rotation;
Comprise taking-up device framework and cover plate;
Described taking-up device framework comprises and being oppositely arranged and the biside plate of fixed distance apart and the backboard that is fixedly installed at homonymy and biside plate; The corresponding described spool positions of biside plate is respectively arranged with two through hole, and biside plate is the first side plate and the second side plate, and corresponding, two through hole is the first through hole and the second through hole, and described the first through hole and the second through hole are for the structure of the relevant position of accommodating described spool;
It is spatial accommodation that described the first side plate, the second side plate and backboard surround the region forming, and described spatial accommodation is for accommodating described pretension pipe and described spool;
The end face of described taking-up device framework, be drawn out a side of direction corresponding to described belt-strap, be provided with the cover plate matching with this taking-up device framework, on this cover plate, offer the limiting holes that connects described cover plate, described pretension pipe has the outstanding pipeline section away from described spatial accommodation through described limiting holes, and the specification of described limiting holes can limit the described pretension pipe of relevant position.
Optionally, described pretension pipe comprises inverse u shape structure, and is arranged at after described spatial accommodation at described pretension pipe, and the bottom of " U " shape of inverse u shape structure is towards described cover plate direction, and stretch out outside cover plate by described limiting holes part, it stretches out cover plate part is described outstanding pipeline section; Described in the length of described limiting holes is less than, the maximum width of " U " type structure and/or described limiting holes width are less than the caliber of described outstanding pipeline section.
Optionally, on the edge of the described cover plate of close described backboard, be provided with connection bump, on this backboard, offer the connecting bore matching with this connection bump accordingly.
Optionally, described the first side plate presses the cover plate of described cover plate to fix ear or/and described the second side plate is provided with card, and the fixing ear of this cover plate and its place side plate are coplanar, comprise the first connecting portion and the first lug boss; Described the first connecting portion connects its place side plate and described the first lug boss, this first lug boss edge is perpendicular to having extension in described backboard the direction away from this backboard, gap thickness between described the first lug boss and its place side plate is identical with cover sheet thickness described in relevant position, accordingly, on described cover plate, be provided with corresponding to the position of described the first connecting portion the breach of dodging of avoiding this first connecting portion interference.
Optionally, the fixing ear of described cover plate is arranged on the position near described backboard on its place side plate.
Optionally, the position corresponding to side plate on described cover plate offers fixed orifice, and this fixed orifice has extension in the direction corresponding to described side plate on described cover plate; Accordingly, the relevant position on described side plate is provided with by the cover plate fixed lobe of the fixing described cover plate of fixed orifice described in this.
Optionally, described fixed orifice is arranged at the position away from described backboard on described side plate.
Optionally, described cover plate fixed lobe and respective side panels are coplanar, comprise the second connecting portion and the second lug boss, described the second connecting portion connects its place side plate and described the second lug boss, the length that described the second lug boss extends along respective side panels on described cover plate is greater than the length that described the second connecting portion extends along respective side panels on corresponding cover plate, but is not more than the development length of described fixed orifice in respective side panels.
Optionally, described cover plate is along comprising successively the first plate, the second plate and the 3rd plate away from the direction of this backboard, line between described the first plate and the second plate and between described the second plate and the 3rd plate is respectively First Line and the second line, described the 3rd plate edge relative with described the second line is called the 3rd line, described First Line, described the second line and described the 3rd line are parallel to each other and are all parallel to described backboard, described the first plate is near described backboard, described the second line with respect to First Line and the 3rd line away from described spool axis; Accordingly, described taking-up device framework has the structure matching with described cover plate.
Optionally, on described cover plate, be provided with reinforced rib.
Optionally, be provided with ribbon guide pin bushing on described cover plate, described ribbon guide pin bushing is that described cover plate is that described ribbon pulls out the perforation district offering.
The present invention also provides a kind of cover plate, is applied to the taking-up device of belt with pre-load device, and described taking-up device comprises spool, pre-tightening apparatus and taking-up device frame assembly;
Described spool is for connecting and winding belt-strap;
Described pre-tightening apparatus comprises generating means, pretension pipe and driver element, and described driver element, under the effect of generating means, acts on described spool by described pretension pipe, drives this spool rotation;
Described taking-up device frame assembly comprises taking-up device framework and cover plate, and described taking-up device framework comprises and being oppositely arranged and the biside plate of fixed distance apart and the backboard that is fixedly installed at homonymy and biside plate; The corresponding described spool positions of biside plate is respectively arranged with two through hole, and biside plate is the first side plate and the second side plate, and corresponding, two through hole is the first through hole and the second through hole, and described the first through hole and the second through hole are for the structure of the relevant position of accommodating described spool;
It is spatial accommodation that described the first side plate, the second side plate and backboard surround the region forming, and described spatial accommodation is for accommodating described pretension pipe and described spool;
The end face of described taking-up device framework is positioned at this taking-up device framework and is drawn out corresponding to described belt-strap a side of direction;
This cover plate is fixedly installed on the end face of taking-up device framework;
Described cover plate has the structure matching with described taking-up device framework;
On described cover plate, offer the limiting holes of fixing described pretension pipe;
Described pretension pipe comprises inverse u shape structure, and be arranged at after described spatial accommodation at described pretension pipe, " U " shape bottom of inverse u shape structure is towards described cover plate direction, and stretches out outside cover plate by described limiting holes part, and it stretches out cover plate part is described outstanding pipeline section; The corresponding scantling of structure of described limiting holes is less than extreme length and/or the caliber of described outstanding pipeline section corresponding to this limiting holes position.
Optionally, on the described cover plate edge near described backboard, be provided with the connection bump coordinating with connecting bore on described backboard.
Optionally, the position corresponding to side plate on described cover plate offers fixed orifice, and this fixed orifice has extension in the direction corresponding to described side plate on described cover plate, and described fixed orifice is arranged at the position away from described backboard on described side plate.
Optionally, described fixed orifice can allow to be arranged at the cover plate fixed lobe coordinating in respective side panels and with this fixed orifice and passes through.
Optionally, described cover plate is along comprising successively the first plate, the second plate and the 3rd plate away from the direction of this backboard, line between described the first plate and the second plate and between described the second plate and the 3rd plate is respectively First Line and the second line, described the 3rd plate edge relative with described the second line is called the 3rd line, described First Line, described the second line and described the 3rd line are parallel to each other and are all parallel to described backboard, described the first plate is near described backboard, described the second line with respect to First Line and the 3rd line away from described spool axis.
Optionally, on described the 3rd plate, be provided with fixed orifice, this fixed orifice can allow to be arranged at the cover plate fixed lobe coordinating in respective side panels and with this fixed orifice to be passed through.
Optionally, be provided with ribbon guide pin bushing on described cover plate, described ribbon guide pin bushing is that described cover plate is that described ribbon pulls out the perforation district offering.
Optionally, described ribbon guide pin bushing is the rectangular opening that is parallel to described backboard, and this rectangular opening edge is provided with boss.
Optionally, on described cover plate, be provided with reinforced rib.
In addition, the present invention provides a kind of safety device simultaneously, comprises a kind of taking-up device frame assembly of above-mentioned arbitrary characteristics and/or a kind of cover plate of above-mentioned arbitrary characteristics.
A kind of cover plate provided by the invention, be applied to belt with pre-load device taking-up device, this taking-up device comprises the spool and the pre-tightening apparatus that are wound around belt-strap, the end face of taking-up device framework is provided with the described cover plate that matches with this taking-up device framework, described pretension pipe has through the outstanding pipeline section away from described spatial accommodation through described cover plate, offers the limiting holes of the described pretension pipe of restriction on this cover plate.This design utilizes the described limiting holes on described cover plate to limit, fixes described pretension pipe, thereby effectively simplifies the structure of described taking-up device and the quality of the described taking-up device of reduction.
Accompanying drawing explanation
Fig. 1 is the overall pattern of a kind of belt with pre-load device taking-up device provided by the invention;
Fig. 2 is the constructional drawing of spool in Fig. 1;
Fig. 3 is the exploded view of spool in Fig. 2;
Fig. 4 is the constructional drawing of taking-up device frame assembly in Fig. 1;
Fig. 5 is the constructional drawing of taking-up device framework in Fig. 1;
Fig. 6 is the constructional drawing of Fig. 1 cover plate;
Fig. 7 is the schematic diagram of Locking Device in Fig. 1;
Fig. 8 is the constructional drawing of Locking Device in Fig. 7;
Fig. 9 is the assembling relationship figure of Locking Device and secondary side cover in Fig. 7;
Figure 10 is the exploded view of pre-tightening apparatus in Fig. 1;
Figure 11 is the exploded view of generating means in Figure 10;
Figure 12 is the constructional drawing of pretension pipe in Figure 10;
Figure 13 is the constructional drawing of drive unit assembly in Figure 10;
Figure 14 is the cooperation schematic diagram of driver element and Fig. 3 pedal wheel in Figure 13;
Figure 15 is the partial enlarged drawing of unit jump ring and pretension pipe annexation in Figure 10;
Figure 16 is the constructional drawing of unit jump ring in Figure 10;
Figure 17 is the first structure principle chart of unit jump ring and driver element in Figure 10
Figure 18 is the second structure principle chart of unit jump ring and driver element in Figure 10;
Figure 19 is the embodiment of connection mode in pretension pipe and generating means second in Figure 10;
Figure 20 is the exploded view of clip in Figure 19;
Figure 21 is understructure figure view A in Fig. 1;
Figure 22 is understructure figure view B in Fig. 1;
Figure 23 is the figure that coordinates of base and Locking Device in Figure 21;
1-1: spool, 1-2: base, 1-3: pre-tightening apparatus, 1-4: secondary side cover, 1-5: taking-up device frame assembly,
2-1: ratchet-gear wheel, 2-2: reel body, 2-3: pedal wheel,
3-1: the first ratchet-gear wheel, 3-2: the first torsion bar, 3-3: the first pedal wheel, 3-4: support board, 3-5: torsion bar through hole, 3-6: the second torsion bar, 3-7: the second ratchet-gear wheel, 3-8: the second pedal wheel,
4-1: cover plate, 4-2: taking-up device framework, 4-3: pretension pipe,
5-1: the first side plate, 5-2: backboard, 5-3: pretension pipe support protrusion, 5-4: cover plate connecting bore, 5-5: cover plate is fixed ear, 5-6: pretension pipe supplemental support, 5-7: the second side plate, 5-8: cover plate fixed lobe, 5-9: the second through hole, 5-10: spool supporting construction, 5-11: assembling folding ear, 5-12, slide block the first support guide structure, 5-13: the first rotary steering recess, 5-14: the first through hole, 5-15: ratchet section
6-1: the first plate, 6-2: ribbon guide pin bushing, 6-3: connection bump, 6-4: First Line, 6-5: the second line, 6-6: reinforced rib, 6-7: the 3rd plate, 6-8: the 3rd line, 6-9: fixed orifice, 6-10: the second plate, 6-11: limiting holes,
7-1: slide block, 7-2: locking lever,
8-1: slide block body, 8-2: auxiliary flute, 8-3: lever body, 8-4: rotary steering projection, 8-5: torsion spring, 8-6: S. A., 8-7: top recess, 8-8: compressing structure, 8-9: slider guide projection, 8-10: slide block vertically-guided handle,
9-1: guiding arc plate, 9-2: direction recess,
10-1: drive unit assembly, 10-2: the first bolt, 10-3: keep plate, 10-4: generating means, 10-5: unit pin, 10-6: unit jump ring,
11-1: closing cap, 11-2, tank body body, 11-3: chamber, 11-4: gas generator, 11-5: lip projection, 11-6: air gate, 11-7: the first tapped bore,
12-1: the first relief hole, 12-2: unit pin mounting hole, 12-3: pretension pipe guide frame, 12-4: generating means connecting bore, 12-5: unit jump ring mounting hole,
13-1: driver element, 13-2: belly groove,
16-1: jump ring head, 16-2: jump ring connecting portion, 16-3: jump ring auxiliary section,
19-1: clip,
20-1: clip body, 20-2: the first contiguous block, 20-3: the second bolt, 20-4: the second contiguous block, 20-5: the first mounting ring, 20-6: the second mounting ring,
21-1: the spacing bayonet socket of spool, 21-2: spool supports cambered surface, 21-3: slide block the second support guide structure, 21-4: the second rotary steering recess, 21-5: driver element curved guiding surface, 21-6: mounting limit, 21-7: air extractor vent, 21-8: driver element buffering step, 21-9: base body
22-1: generating means protective zone.
The specific embodiment
A lot of details are set forth in the following description so that fully understand the present invention.But the present invention can implement to be much different from alternate manner described here, and those skilled in the art can do similar popularization without prejudice to intension of the present invention in the situation that, and therefore the present invention is not subject to the restriction of following public concrete enforcement.
Fig. 1 is the application schematic diagram of the present embodiment---the overall pattern of belt with pre-load device taking-up device, and described in this, belt with pre-load device taking-up device can be applicable to the various occasions that need, herein take automobile as example introduction.
Described belt with pre-load device taking-up device (being called for short: taking-up device) comprises taking-up device frame assembly 1-5, spool 1-1, base 1-2, pre-tightening apparatus 1-3 and secondary side cover 1-4.
As shown in Figure 2, be the constructional drawing of described spool 1-1.Described spool 1-1 comprises reel body 2-2, pedal wheel 2-3 and ratchet-gear wheel 2-1.The axis of described reel body 2-2, pedal wheel 2-3 and ratchet-gear wheel 2-1 overlaps, and is described spool 1-1 axis.
Described reel body 2-2 is axle shape structure, and for connecting and being wound around belt-strap, it can be wound around belt-strap thereon and maybe the belt-strap being wound around be discharged around its axis rotation.
Described ratchet-gear wheel 2-1 or described pedal wheel 2-3 is arranged at described reel body 2-2 along one end at least in the two ends of described spool 1-1 axis direction, and described ratchet-gear wheel 2-1 both can be symmetrical arranged, and can one-sidedly arrange again; Described pedal wheel 2-3 both can be symmetrical arranged, and also can one-sidedly arrange, and the selection of both symmetries or one-sided setting was without correlative connection.
Described pedal wheel 2-3 comprises at least one wheel plate.Described wheel plate is perpendicular to described spool 1-1 axis and its axis and the circular platy structure that described spool 1-1 axis overlaps, and comprises the driving recess extending to described spool 1-1 axis that uniform array distributes.Described driving recess can be under the driving of described pre-tightening apparatus 1-3, and described spool 1-1 is rotated around this spool 1-1 axis.
In the present embodiment, described pedal wheel 2-3 comprises two wheel plates, keeps certain interval between two wheel plates.Certainly, can be according to wheel plate quantity described in actual conditions.If the single wheel plate of described pedal wheel 2-3, described pedal wheel 2-3 at least will keep certain interval between a side and adjacent parts.
Be provided with ratchet-gear wheel 2-1 near described pedal wheel 2-3 position, described ratchet-gear wheel 2-1 is provided with the ratchet of equidirectional.
Herein, described ratchet-gear wheel 2-1 is take the hand of rotation that rotates along the direction of teeth as positive dirction, otherwise is reversing sense.So-called with rotate be along the direction of teeth described ratchet-gear wheel 2-1 in the rotary course of described spool 1-1 axis, the tooth top portion of the single ratchet of this ratchet-gear wheel 2-1 is the motion front in tooth root portion all the time.
Fig. 3 is the exploded view of described spool 1-1.As can be seen from Figure 3, in the present embodiment, the pedal wheel of described spool 1-1 and ratchet-gear wheel are all symmetricly set in the two ends of described reel body 2-2, are respectively the first ratchet-gear wheel 3-1, the second ratchet-gear wheel 3-7, the first pedal wheel 3-3 and the second pedal wheel 3-8.
Described spool 1-1 also comprises torsion bar, support board 3-4 and torsion bar through hole 3-5.
Described reel body 2-2 arranges support board 3-4 along the rear and front end of its axis, and described support board 3-4 is the circular platy structure that axis overlaps with described spool 1-1 axis.
Described reel body 2-2 is provided with torsion bar through hole 3-5 along its axis, described torsion bar through hole 3-5 is cylindrical hole.
Described torsion bar is shaft-like, and is arranged among described torsion bar through hole 3-5 along described spool 1-1 axis, and its both ends at least extend to the ratchet-gear wheel 2-1 of described reel body 2-2 both sides.
Described torsion bar is fixedly connected with described reel body 2-2 after being placed in described torsion bar through hole 3-5.
In the present embodiment, described torsion bar medium position is vertically provided with stage casing external tooth, in described torsion bar through hole 3-5, is provided with internal tooth with matching, and both engagements, play fixation.
Described torsion bar adopts segmental structure, comprises the first torsion bar 3-2 and the second torsion bar 3-6, and the respective end on two sections of torsion bars is provided with the outer toothing matching with the internal tooth in described torsion bar through hole 3-5.
Described torsion bar has special mechanical specialities, can allow a small amount of torsional deflection and not be damaged.In actual conditions, can be by selecting the modes such as the length ratio between different materials and segmentation torsion bar to adapt to different torsion requirements.
Between described reel body 2-2, support board 3-4, pedal wheel 2-3 and ratchet-gear wheel 2-1, there is multiple connection mode, can be Integral design or adjacent more than two part Integral design wherein, determine according to actual conditions and installation method.
In the present embodiment, described ratchet-gear wheel 2-1 and described reel body 2-2 are separable, can adapt to so different taking-up device framework 4-2.Described torsion bar is fixedly connected with described ratchet-gear wheel 2-1.The mode of taking gear to coordinate in the present embodiment.
As shown in Figure 4, for shown in the constructional drawing of taking-up device frame assembly 1-5, comprise taking-up device framework 4-2, cover plate 4-1 and pretension pipe 4-3.
Fig. 5 is the constructional drawing of described taking-up device framework 4-2.
Described taking-up device framework 4-2 comprises and being oppositely arranged and the first side plate 5-1 and the second side plate 5-7 of fixed distance apart, and the backboard 5-2 being fixedly installed at homonymy and biside plate.Described the first side plate 5-1 and described the second side plate 5-7 are except the difference of explanation, and entirety is symmetrical structure.
For convenience of describing, related position relationship is all by location expression in figure herein, and biside plate (5-1 and 5-7) and described backboard 5-2 all vertically place.
Described spool 1-1 arranges in the mode of axis horizontal, and perpendicular to biside plate.The first through hole 5-14 and the second through hole 5-9 of accommodating described spool 1-1 corresponding construction are set respectively in described the first side plate 5-1 and the corresponding described spool 1-1 of described the second side plate 5-7 position.
In the present embodiment, described spool is provided with ratchet-gear wheel corresponding to lead to the hole site.
Described belt-strap is pulled out by the top of described taking-up device framework 4-2.Described the first through hole 5-14 and/or the corresponding described belt-strap pull-out direction of described the second through hole 5-9 are provided with ratchet section 5-15, on described ratchet section 5-15, are provided with the ratchet matching with described ratchet-gear wheel 2-1.Under normal circumstances, described ratchet-gear wheel 2-1 separates with described ratchet section 5-15, and described spool 1-1 is free to rotate.
The through hole edge that is provided with ratchet section 5-15 can be divided into ratchet section 5-15 and non-ratchet section.
Described the first side plate 5-1, described the second side plate 5-7 and described backboard 5-2 are surrounded to the region forming herein and be called for spatial accommodation, described spatial accommodation is for accommodating described pretension pipe 4-3 and described spool 1-1, i.e. installing space.
Described cover plate 4-1 is arranged at the top of described taking-up device framework 4-2, is drawn out a side of direction corresponding to described belt-strap.This cover plate 4-1 is platy structure.Described cover plate 4-1 comprises ribbon guide pin bushing 6-2, and described ribbon guide pin bushing 6-2 is the outlet that described belt-strap is drawn out described taking-up device.
Fig. 6 is the constructional drawing of cover plate 4-1.
In the present embodiment, described ribbon guide pin bushing 6-2 is opened in the upper round rectangle near described backboard 5-2 position of described cover plate 4-1 to connect region.For reducing friction to described belt-strap and guaranteeing the intensity of described cover plate 4-1, around described perforation region, be provided with boss, and at periphery rounding.
Upper other architectural features of described taking-up device frame assembly 1-5 are pointed out in conjunction with other parts hereinafter.
The bottom of described taking-up device framework 4-2 is connected with base 1-2.
Figure 21 and Figure 22 are the constructional drawing of base.
Described base 1-2 comprises that base body 21-9, the spacing bayonet socket 21-1 of spool, spool support cambered surface 21-2 and mounting limit 21-6.
Complete after assembling, the spacing bayonet socket 21-1 of described spool is arranged in corresponding described pedal wheel 2-3 the position at interval between wheel plate, if single wheel plate, the spacing bayonet socket 21-1 of this spool is arranged at the position at interval between described pedal wheel 2-3 and a side part.
The spacing bayonet socket 21-1 of described spool is at least one, can be according to actual conditions setting.The spacing bayonet socket of this spool plays position-limiting action, prevents that described spool left and right from jumping.
Described mounting limit 21-6 contacts with described taking-up device framework 4-2 outer after assembling completes, and plays position-limiting action, facilitates both assemblings.
In pretension process (with reference to belt with pre-load device specific works principle below), described spool supports cambered surface 21-2 and contacts with the spool 1-1 of relevant position, plays bearing effect, the motion of this spool of stable support 1-1.
Other architectural features of described base 1-2 are pointed out in conjunction with other parts hereinafter.
Figure 10 is the exploded view of pre-tightening apparatus 1-3.As can be seen from Figure 10, described pre-tightening apparatus 1-3 comprises generating means 10-4, drive unit assembly 10-1 and pretension pipe 4-3.Described drive unit assembly 10-1 comprises several driver elements 13-1, is arranged in described pretension pipe 4-3.The energy that in this drive unit assembly, the driver element 13-1 of 10-1 produces described generating means 10-4 in described pretension pipe 4-3 passes to described spool 1-1, and it is rotated around spool 1-1 axis.
Figure 11 is the exploded view of generating means 10-4, and described generating means 10-4 comprises gas generator 11-4 and tank body.Described gas generator 11-4 is connected with described pretension pipe 4-3 by tank body.
Described tank body comprises tank body body 11-2, chamber 11-3, pressure relief plate (not shown), lip projection 11-5, closing cap 11-1 and air gate 11-5.Described chamber 11-3 is the circular cylindrical cavity being arranged on described tank body body 11-2, comprises the first chamber and the second chamber that are separated by described pressure relief plate.The face of cylinder of described the first chamber coordinates with described gas generator 11-4, and the action direction of described gas generator 11-4 is parallel to the axis of described chamber 11-3.Described the second chamber is sealed by described closing cap 11-1, and inside is placed with metal wool, the gentle flow-disturbing effect of landing.
Described pressure relief plate is arranged in described chamber 11-3, is provided with the second relief hole on this pressure relief plate.
In the present embodiment, the second relief hole is the through-hole structure being opened on described pressure relief plate, and can be by adjusting maximum pressure in through-hole diameter setting and restriction the first chamber.
On described tank body body 11-2, offer the air gate 11-6 connecting with described the first chamber.Described tank body body 11-2 arranges lip projection 11-5 around described air gate 11-6, and this lip projection 11-5 enters pretension pipe 4-3 with matching, seals.
Described lip projection 11-5 enters after described pretension pipe 4-3, has anchor fitting that tank body and described pretension pipe 4-3 are fixed.
By finding out in Figure 10, in the present embodiment, described tank body and described pretension pipe 4-3 complete fixing between this tank body and this pretension pipe 4-3 by keep plate 10-3 and the first bolt 10-2, on corresponding described tank body body 11-2, are provided with the first tapped bore 11-7 coordinating with the first bolt 10-2.
As shown in figure 19, in the present invention, described tank body and described pretension pipe 4-3 also can adopt clip 19-1 to be fixed connection.Figure 20 is the exploded view of clip 19-1.Described clip 19-1 comprises clip body 20-1, the first mounting ring 20-5, the second mounting ring 20-6, the first contiguous block 20-2, the second contiguous block 20-4 and the second bolt 20-3.Described clip body 20-1 is loop configuration, and entirety coordinates with tank body circumferential profile.On this clip body 20-1, be connected with the first mounting ring 20-5 and the second mounting ring 20-6 that are oppositely arranged.Described the first mounting ring 20-5 and the second mounting ring 20-6 are respectively used to accommodating the first contiguous block 20-2 and the second contiguous block 20-4.Described the first contiguous block 20-2 and described the second contiguous block 20-4 are the trapezoid block with the second tapped bore matching with the second bolt 20-3, two trapezoid blocks are arranged at described the first mounting ring 20-5 and are connected by the second bolt 20-3 with after described the second mounting ring 20-6, in described the second bolt 20-3 rundown process, tank body and pretension pipe 4-3 can be tightened up.
For guaranteeing the stability of pre-tightening apparatus 1-3, described pretension pipe 4-3 arranges near described taking-up device framework 4-2, and is provided with special anchor fitting.Described generating means be arranged in the below of described pre-tightening apparatus 1-3 and be positioned at described spatial accommodation with respect to described side plate the side away from backboard 5-2.
In the present embodiment, described pretension pipe 4-3 bilateral symmetry arranges, and certainly, described pretension pipe 4-3 also can one-sidedly arrange.
Described pretension pipe 4-3 comprises common pipe, the first effect pipe and the second effect pipe.Described the first effect pipe is identical with the second effect tubular construction, includes an outlet, and the functional component on spool 1-1 is pointed in each outlet, i.e. pedal wheel 2-3; This first effect pipe and the second effect pipe are connected with the two ends of described common pipe respectively with relative mode.
Concrete structure is as follows:
Described pretension pipe 4-3 is started by generating means 10-4, along extending to biside plate perpendicular to the direction of side plate, arrive behind biside plate position, bending then edge direction is straight up extended, and arrives behind described cover plate 4-1 position, extends to described backboard 5-2 direction is bending, near after this backboard 5-2, downwards bending, behind described pedal wheel 2-3 position, described pedal wheel 2-3 is pointed in bending.
That is, described pretension pipe 4-3 is with the inverted U style setting near respective side panels, and wherein, inverted U pretension pipe 4-3 pipeline section has part can pass described cover plate 4-1, will be called outstanding pipeline section away from the part pretension pipe 4-3 of described spatial accommodation through this cover plate 4-1.
The pipeline section extending along side plate is the first effect pipe and the second effect pipe, is common pipe along the pipeline section extending perpendicular to side plate direction.
By finding out in Figure 10, described pretension pipe 4-3 is parallel with the axis direction of described chamber 11-3 with the bearing of trend at described generating means 10-4 mated position place.
Described pretension pipe 4-3 offers the generating means connecting bore 12-4 matching with described lip projection 11-5.
Pretension pipe has two outlets, and for guaranteeing stress equalization, this generating means connecting bore 12-4 is arranged at the position corresponding to described the first effect pipe and the second effect pipe symmetrical plane in described common pipe.
On described pretension pipe 4-3, also offer the first relief hole 12-1, unit pin mounting hole 12-2 and unit jump ring mounting hole 12-5.
Described the first relief hole 12-1 is the through hole of the tube wall offered on described pretension pipe 4-3 tube wall.This first relief hole 12-1 can, after pretension process completes, discharge the residual gas pressure in pretension pipe 4-3 rapidly, the fluctuation of belt-strap in mild limiter process, and 12-1 is simple in structure for this first relief hole, easily realizes.
As shown in figure 12, described the first relief hole 12-1 is arranged at the knee of described pretension pipe 4-3 exit end.The normally described driver element in this position impacts larger region to described pretension pipe 4-3.
The described pin mounting hole 12-2 of unit, for the pin 10-5 of unit of fixed drive unit block 10-1 is at ordinary times set, is destroyed under the effect of the driver element 13-1 that the pin 10-5 of this unit can drive at gas generator 11-4.
Described unit jump ring mounting hole 12-5 is for the fixing described pretension pipe 4-3 of engagement unit jump ring 10-6, and this unit jump ring 10-6 concrete structure is pointed out hereinafter.
Because described pretension pipe 4-3 exists certain bending tube section.Described driver element 13-1 can produce certain application force to pretension pipe 4-3 tube wall in motion process in pretension pipe 4-3.The exit end of described pretension pipe 4-3 has the trend that departs from predefined paths under described driver element effect.
The side that the exit end of described pretension pipe can stop described driver element to depart from predefined paths is called pretension pipe and departs from side.
Can there is amesiality centrifugal motion after going out described pretension pipe 4-3 in described driver element 13-1, described pretension pipe departs from side and centrifugal motion direction is positioned at the same side.
For making driver element 13-1 maximizing efficiency, need to be limited the sense of motion of described driver element 13-1, guide its precise and high efficiency to beat to described pedal wheel 2-3.Therefore, on described pretension pipe 4-3, be provided with pretension pipe guide frame 12-3.
Described pretension pipe guide frame 12-3 tries one's best without hindrance connection with the inwall of pretension pipe 4-3 described in junction.In the present embodiment, described pretension pipe guide frame 12-3 working face and the corresponding inwall of described pretension pipe 4-3 are tangent.
In the present embodiment, described pretension pipe guide frame 12-3 is rectangular plate-like structure, has the limit parallel with described spool 1-1 axis, and the outlet section of this pretension pipe guide frame 12-3 and described pretension pipe 4-3 is by being welded to connect.
Certainly, described pretension pipe guide frame 12-3 also can be formed by the cutting of described pretension pipe 4-3 exit end, the structure being integrated with described pretension pipe 4-3.
The bootable described driver element 13-1 of this pretension pipe guide frame 12-3 accurately beats to described pedal wheel 2-3.
As can be seen from Figure 5, corresponding with described pretension pipe guide frame 10-3, side plate relevant position is provided with pretension pipe supplemental support 5-6.
Described pretension pipe supplemental support 5-6 is positioned at the upper position corresponding to described pretension pipe guide frame 12-3 of described taking-up device framework 4-2, and is connected with the outer wall of described pretension pipe 4-3 relevant position, is connected with pretension pipe guide frame 12-3.
In the present embodiment, described pretension pipe supplemental support 5-6 is the rectangular plate-like structure identical with described pretension pipe guide frame 12-3.
The described pretension pipe supplemental support 5-6 described taking-up device framework 4-2 flange of serving as reasons obtains turnup structure.Certainly, also can replace by the mode of welding plate object.
This pretension pipe supplemental support 5-6 is fixedly linked by mode and the described pretension pipe guide frame 12-3 of semi-stamping.Certainly also can adopt welding to wait other to be fixedly connected with mode is fixedly linked both.
As shown in figure 13, be the constructional drawing of drive unit assembly 10-1.Multiple driver element 13-1 head and the tail complement each other to form complete soft drive chain.Figure 14 is the schematic diagram that coordinates that driver element 13-1 and pedal are taken turns 2-3.Described driver element 13-1 bilateral symmetry is provided with the belly groove 13-2 coordinating with the gear teeth on pedal wheel 2-3.Described driver element 13-1 beats after pedal wheel 2-3 and takes turns in the gap between 2-3 two wheel plates at this pedal, and described belly groove 13-2 engages with pedal wheel 2-3, thereby improves drive efficiency.
The structure of described driver element 13-1 can be determined according to the architectural feature of described pedal wheel 2-3.
For preventing that described driver element 13-1 is with described pedal wheel 2-3 rotation, affect follow-up driver element 13-1 and engage with described pedal wheel 2-3 and other motions of described spool 1-1.The spacing bayonet socket 21-1 of described spool peels off this driver element 13-1 from described pedal wheel 2-3.
For effectively supporting described spool 1-1 and the described pretension pipe 4-3 of restriction, described taking-up device frame assembly 1-5 comprises and utilizes self geometry feature to make a series of relevant design.Below will be described in detail.
Because the first side plate 5-1 and the second side plate 5-7 are platy structure, thickness is less, and therefore, in pretension process, the edge of the first through hole 5-14 and the second through hole 5-9 is less with the area that the structure of spool 1-1 relevant position contacts, the less stable of contact.
Therefore, described the first through hole 5-14 can support or/and described the second non-ratchet fragment position in through hole 5-9 edge is provided with the spool supporting construction 5-10 that described spool 1-1 corresponding construction is ratchet-gear wheel 2-1.This spool supporting construction 5-10 has the curved surfaces matching with described ratchet-gear wheel 2-1 periphery.
In the present embodiment, described spool supporting construction 5-10 is arranged at the position that respective through hole edge is relative with described ratchet section 5-15, and only arranges on a side plate.In the present embodiment, arrange on the edge of the second through hole 5-9.
Described spool supporting construction 5-10 is that the flange that respective side panels is extended to described spatial accommodation forms, and this spool supporting construction 5-10 is and the structure of its place side plate one, all has extension along described spool 1-1 axis direction and peripheral direction.Certainly, described spool supporting construction 5-10 and respective side panels can be Split type structure, and both are fixedly connected with.
For the stability that guarantees that taking-up device is made in work, on described taking-up device frame assembly 1-5, there is a series of particular design.
Corresponding and the described pretension pipe 4-3 position of described backboard 5-2 is provided with pretension pipe support protrusion 5-3.Described pretension pipe support protrusion 5-3 and described backboard 5-2 are structure as a whole, and cut apart lateral buckling in backward described spatial accommodation form for part in described backboard 5-2, and simple in structure like this, it saves material.Certainly also can Split type structure, adopt the modes such as welding to connect.
In the time of the installation site of described pretension pipe 4-3 in described spatial accommodation, this pretension pipe support protrusion 5-3 can lean on described pretension pipe 4-3.Because described pretension pipe 4-3 is tubular structure, for guaranteeing its stability, described pretension pipe support protrusion 5-5 has certain extension on the axis direction along described pretension pipe 4-3, and aligns with this direction.In addition, described pretension pipe support protrusion 5-3 has the arc structure matching with this pretension pipe 4-3, i.e. bearing surface near a side of described pretension pipe 4-3.
Particular location and quantity that described pretension pipe support protrusion 5-4 arranges can freely be determined according to actual conditions.Because the upper position near exit end of described pretension pipe 4-3 causes this position fugitiveness high compared with other positions because of the reason of described driver element 13-1 centnifugal force, and consider the cooperation of other structures, be only chosen in described backboard 5-2 and above corresponding to the position of described pretension pipe 4-3 exit end, described pretension pipe support protrusion 5-3 be set.
From Figure 10 and Figure 15, can find out, on this pretension pipe support protrusion 5-3, be provided with unit jump ring 10-6.
As Figure 16, described unit jump ring 10-6 comprises jump ring head 16-1, jump ring connecting portion 16-2 and jump ring auxiliary section 16-3.This unit jump ring 10-6 is symmetrical structure.Center of symmetry is described jump ring head 16-1.This jump ring head 16-1 is bending structure, has the connecting panel vertical with described backboard 5-2 and the action plate vertical with this connecting panel.Described action plate can enter pretension pipe 4-3 by described unit jump ring mounting hole 12-2, and with the coordinating of corresponding described driver element 13-1, fixing described driver element 13-1, guarantees that described driver element 13-1 is in position and the stability of off working state at ordinary times.
Figure 17 and Figure 18 are two kinds of structure principle charts of unit jump ring 10-6 and driver element 13-1, the end of action plate described in Figure 17 enters described belly groove 13-2, the end of action plate described in Figure 18 is positioned at the front end of described driver element, limit the motion of this driver element 13-1, thereby restriction is with the motion of the drive unit assembly 10-1 headed by this driver element 13-1.Two kinds of active positions have been heightened the functioning efficiency of described unit jump ring 10-6 simultaneously.
Described action plate end has along the inclined-plane of driver element 13-1 sense of motion, when described driver element 13-1 motion, this inclined-plane can promote described connecting panel under the effect of driver element 13-1, makes described action plate depart from the moving region of described driver element 13-1, does not hinder pretension process.
In the time that described driver element 13-1 impulsive force weakens, this action plate reenters described pretension pipe under the elastic force of described connecting panel, and fixing residue driver element 13-1, avoids remaining the impact of driver element 13-1 on the action of taking-up device residue.
As shown in Figure 6, described cover plate 4-1 is tabular mechanism, covers on described taking-up device framework 4-2.
Described cover plate 4-1 comprises limiting holes 6-11, connection bump 6-3 and fixed orifice 6-9.
Described limiting holes 6-11 arranges corresponding to described pretension pipe 4-3 position.For reaching restriction and fixing object, described pretension pipe 4-3 and described cover plate 4-1 adopt following structure:
Described cover plate 4-1 offers the limiting holes 6-3 of outstanding pipeline section described in the described pretension pipe of restriction.Described limiting holes 6-3 just can accommodating described pretension pipe 4-3 described outstanding pipeline section.
The length requirement of this limiting holes 6-11 will can limit fixing described outstanding pipeline section just.
Described pretension pipe 4-3 is that cross section is circular tubular structure, and known described outstanding pipeline section is rectangle in described cover plate 4-1 respective shapes, and described limiting holes 6-11 is rectangular configuration.The dimensional standard of this rectangular configuration should equal or be slightly less than the size of described outstanding pipeline section corresponding to this limiting holes 6-11.
The size of described limiting holes 6-11 can allow certain error, but should be can hold described pretension pipe 4-3 and can limit the motion of described pretension pipe 4-3 in the plane of described cover plate 4-1 as object.
Described cover plate 4-1, at the edge near described backboard 5-2, is provided with connection bump 6-3, and described connection bump 6-3 is in the time of installation site, perpendicular to described backboard 5-2.Accordingly, the upper relevant position of described backboard 5-2 offers cover plate connecting bore 5-4 with matching.For guaranteeing its stability, the connecting bore of cover plate described in the present embodiment 5-4 is rectangular opening, and longer sides is perpendicular to side plate.
Described cover plate 4-1 is being greater than the distance between biside plate perpendicular to the length in side plate direction, and described cover plate 4-1, in the time of installation site, has the part that exceeds biside plate.Described cover plate 4-1 is upper offers fixed orifice 6-9 away from the region of described backboard 5-2 and corresponding to the position of biside plate, and described fixed orifice 6-9 is elongated shape square hole, and the bearing of trend on its long limit is parallel to respective side panels.On corresponding side plate, be provided with cover plate fixed lobe 5-8.
Described cover plate fixed lobe 5-8 is coplanar with its place side plate and is connected to the platy structure at this side plate edge, comprises the second connecting portion and the second lug boss.Described the second connecting portion connects its place side plate and described the second lug boss.The length of described the second lug boss in parallel respective side panels edge direction is greater than the length of described the second connecting portion on equidirectional, but is less than the length on the long limit of described fixed orifice 6-9.
At described cover plate 4-1 during in installation site, described fixed orifice 6-9 touches near the side edge of described backboard 5-2 near the second connecting portion described in the edge of described backboard 5-2 and described cover plate fixed lobe 5-8.
The guiding of described fixed orifice 6-9 should allow the second lug boss entirety of described cover plate fixed lobe 5-8 through this fixed orifice 6-9, and after installation, described cover plate fixed lobe 5-8, by rotation, can fix described cover plate 4-1.
For guaranteeing effectively to limit described cover plate 4-1, described the first side plate 5-1 and/or the second side plate 5-7 are provided with card and press the cover plate of described cover plate 4-1 to fix ear 5-5.The fixing ear 5-5 of described cover plate position near described backboard 5-2 in respective side panels arranges, for the coplanar platy structure of its place side plate, comprise the first connecting portion and the first lug boss.Described the first lug boss is having extension perpendicular to described backboard 5-2 in the direction away from this backboard 5-2, and described the first connecting portion connects its place side plate and described the first lug boss one end near described backboard 5-2.The space that forms between described the first lug boss and its place side plate just and can hold the part of described cover plate 4-1 in relevant position.
Accordingly, described cover plate 4-1 is provided with to dodge described in the fixing ear 5-5 of described cover plate and dodges breach.
For coordinating said structure to fix, described cover plate 4-1 adopts bending platy structure.This cover plate 4-1 comprises the first plate 6-1, the second plate 6-10 and the 3rd plate 6-7 from back to front successively, and described the first plate 6-1 contacts with described backboard 5-2, and perpendicular to described backboard 5-2.
Intersection between described the first plate 6-1 and described the second plate 6-10 and described the second plate 6-10 and described the 3rd plate 6-7 is respectively First Line 6-4 and the second line 6-5, the line that described the 3rd plate 6-9 is relative with described the second line 6-2 is called the 3rd line 6-8, described First Line 6-4 and described the second line 6-5 are parallel to each other, and are all parallel to described backboard 5-2.Described the second line 6-5 is above described First Line 6-4.Described the 3rd line 6-9 is below described the second line 6-5.
Described fixed orifice 6-9 is arranged on described the 3rd plate 6-7.
Accordingly, described taking-up device framework 4-2 need have the structure matching with above-mentioned cover plate 4-1 shape facility.
So design, can only utilize its geometric configuration, can complete the fixing and restriction of described cover plate 4-1 without union pieces such as screws.
The upper non-bore region of described cover plate 4-1 is connected with reinforced rib 6-10 has increased its intensity.
Described taking-up device framework 4-2 is also provided with at least one assembling folding ear 5-11, this assembling folding ear 5-11 is connected with its place side plate and coplanar platy structure, after described assembling folding ear 5-11 connects corresponding communicating structure after assembling with other corresponding constructions, bend, thereby reach fixation.5-11 is simple in structure for this assembling folding ear, and realizes easily.
In the time that automobile meets accident, need to there is Locking Device to push described spool 1-1 to described ratchet section 5-15, then locked, therefore need special Locking Device.
Described Locking Device is arranged at the edge of the non-ratchet section of described the first through hole 5-14 and/or described the second through hole 5-9, and the position relative with described ratchet section 5-15 is or/and the position approaching with described ratchet section 5-15 relative position.
As shown in Figure 7, described Locking Device is arranged at the position relative with described ratchet section 5-15 in described the first through hole 5-14 edge.Described Locking Device comprises locking lever 7-2 and slide block 7-1.
Described locking lever comprises lever body 8-3, and described lever body 8-3 is connected with respective side panels by the S. A. 8-6 parallel with described spool 1-1 axis, and can rotate around this S. A. 8-6; Described lever body 8-3 has extension along described ratchet-gear wheel 2-1 circumferencial direction, and it is along being provided with the top recess 8-7 coordinating with the upper ratchet of described ratchet-gear wheel 2-1 on the top of positive dirction;
Described top recess 8-7 can make this top recess 8-7 jack-up this ratchet-gear wheel 8-1 matching with described ratchet section 5-15 in the time that ratchet corresponding to described ratchet-gear wheel 2-1 coordinates apart from the distance of described S. A. 8-6;
Described lever body 8-3 its top perk under the effect of external force.
As can be seen from Figure 8, described locking lever 7-2 also comprises torsion spring 8-5.Described lever body 8-5 can rotate around this S. A. 8-7 under the effect of torsion spring.
Certainly, described lever body 8-3 also can rotate under the effect of other external force except torsion spring 8-5, for example rotating driving device.
Described lever body 8-3 is the platy structure that is parallel to described ratchet-gear wheel 2-1 plane of rotation, has extension along described ratchet-gear wheel 2-1 circumferential profile direction.
Under described torsion spring 8-5 effect, described lever body 8-3 perk.Corresponding described ratchet-gear wheel 2-1 circumferential profile is through in described top recess 8-8.
One end that described lever body 8-3 is relative with top recess 8-7 with respect to described S. A. 8-6 is provided with rotary steering projection 8-4.Described rotary steering projection 8-4 is circular arc bulge-structure, and described taking-up device framework 4-2 relevant position is provided with rotary steering recess, and described rotary steering recess has the circular arc recess identical with described rotary steering projection.This rotary steering projection 8-4 matches with corresponding rotary steering recess, supports and limit rotatablely moving of described lever body 8-3.
Described rotary steering recess 8-4 comprises the first rotary steering recess 5-13 and the second rotary steering recess 21-4.Described the first rotary steering recess 5-13 is arranged at the position of respective through hole edge corresponding to described rotary steering projection 8-4.Described the second rotary steering recess 21-4 is arranged at the position of described base 1-2 corresponding to described rotary steering projection 8-4.Described the first rotary steering recess 5-13 and described the second rotary steering recess 21-4 support and limit rotatablely moving of described lever body 8-3 jointly.
Described slide block 7-1 comprises slide block body 8-1.
Described slide block body 8-1 is camber platy structure, comprises the drive configuration of intrados side and the slide construction of extrados side;
Described drive configuration has the contour structure identical with ratchet-gear wheel circumferential profile of setting radian, this drive configuration, in the time contacting with described ratchet-gear wheel 2-1, can be on described ratchet-gear wheel 2-1 drives this slide block to slide along corresponding slider support guide frame under the drive of ratchet;
Described slide construction has the contour structure with respective slide support guide structure bearing fit, can under the effect of external force, slide along slider support guide frame;
When described Locking Device off working state, do not contact with ratchet-gear wheel, described slide block 7-1 and described locking lever 7-2 are close, and the apex structure of described lever body is in described slide block body 8-1 below, and this slide block body 8-1 has the compressing structure 8-8 that stops described lever body 8-3 perk.
Described slide block body 8-1 is along described ratchet-gear wheel 2-1 periphery and be parallel on described spool 1-1 axis direction and all have extension, and extension in described ratchet-gear wheel 2-1 peripheral direction is greater than the extension being parallel on described spool 1-1 axis direction.
Described slide block body 8-1 is near the globoidal structure that respective through hole position is with described in relevant position, non-ratchet section is identical.
This slider support guide frame limits and supports described slide block 7-1 motion, comprises slide block the first support guide structure 5-12 that is arranged at taking-up device framework 4-2 relevant position and slide block the second support guide structure 21-3 that is arranged at described base 1-2 relevant position.
Described drive configuration drives described slide block 7-1 to slide along corresponding slider support guide frame while contact with described ratchet-gear wheel 2-1;
Described drive configuration is positioned at the side of described slide block body 8-1 near described spool 1-1.
On described drive configuration, offer at least three auxiliary flute 8-2.Between described auxiliary flute 8-2, be parallel to each other, and spacing equates.Certainly also can be auxiliary projection, three be parallel to each other above and spacing equate, principle is identical with auxiliary flute 8-2, increases the friction force of ratchet and drive configuration in the time contacting with ratchet-gear wheel 2-1.
Described slide block body 8-1 also comprises compressing structure 8-8, and described compressing structure 8-8 can stop this locking lever 7-2 perk at described slide block 7-1 during near described locking lever 7-2.This compressing structure offers the engages indentation of accommodating this lever body 8-3 top corresponding construction corresponding to described lever body 8-3 apical position.
Described slide block 7-1 also comprises guide frame.Described guide frame comprises slide block vertically-guided handle 8-10 and slider guide projection 8-9.It is parallel with respective side panels and away from a side of described spatial accommodation that described slide block vertically-guided handle 8-10 is arranged at described slide block body 8-1.Described slide block vertically-guided handle 8-10 extends perpendicular to spool 1-1 axis and to spool 1-1 axis.
Described slide block vertically-guided handle bottom 8-10 is provided with slider guide projection 8-9, and described slider guide projection 8-9 extends to the direction away from spatial accommodation with spool axis along parallel.
Described taking-up device framework 4-2 arranged outside has secondary side cover 1-4, is provided with guiding arc plate 9-1 and the direction recess 9-2 of the described slide block 7-2 motion of restriction on corresponding secondary side cover 1-4.Described slide block vertically-guided handle 8-10 coordinates with described guiding arc plate 9-1 near the end of spool 1-1 axis, and described slider guide projection 8-9 coordinates with described direction recess 9-2.Described guiding arc plate 9-1 and described direction recess 9-2 limit the path of motion of described slide block 7-1.
The side of the close corresponding secondary side cover 1-4 of described slide block vertically-guided handle 8-10 contacts with the side on this secondary side cover 1-4, guarantees the stability of described slide block 7-1 in motion process.
Guiding arc plate and directed side can be only set on described secondary side cover, and corresponding, described slide block only arranges slide block vertically-guided handle.
Described base 1-2 is provided with the second rotary steering recess 21-4 in relevant position for described Locking Device.Described the second rotary steering recess 21-4 coordinates with described rotary steering projection 8-4, limits rotatablely moving of described locking lever 7-2.
Described base 1-2 also comprises air extractor vent 21-7, driver element curved guiding surface 21-5, driver element buffering step 21-8 and generating means protective zone 22-1.
Described air extractor vent 21-7 is the through-hole structure being opened on described base body 21-9, can discharge in time internal high temperature high pressure gas, prevents destruction and damage to other parts.
The bootable described driver element 13-1 of described driver element curved guiding surface 21-5 accurately enters base 1-2 relevant position.
The dump energy that described driver element buffering step 21-8 can consume described driver element 13-1.
Described generating means protective zone 22-1 is the void space that described base 1-2 arranges corresponding to described generating means 10-4 position, fixes and protect described generating means 10-4.
Belt with pre-load device specific works principle:
Under normal circumstances, described spool 1-1 supports cambered surface 21-2 and does not all contact with Locking Device with spool supporting construction 5-10, spool.This spool 1-1 relies on corresponding bearing arrangement to support, and can under the traction of belt-strap, freely rotate.Described slide block 7-1 and described locking lever 7-2 are close, and this slide block 7-1 stops this locking lever 7-2 perk.
In the time that automobile meets accident, almost instantaneous blast of described gas generator 11-4, described driver element 13-1 washes the restriction of described unit pin 10-5 and described unit jump ring 10-6 open, in the middle motion of described pretension pipe 4-3, and beats to described pedal wheel 2-3.Described spool 1-1 relies on described Locking Device, spool supporting construction 5-10 and spool and supports cambered surface 21-2 under the impact of driver element 10-5, and is supported by them, and rotates around described spool 1-1 axis positive dirction.Described auxiliary flute 8-2 drives described slide block 7-1 to move (5-12 and 21-3) along described slider support guide frame under the effect of corresponding ratchet-gear wheel 2-1, thereby discharges described locking lever 7-2, and described in this process, Locking Device plays preloaded bearing.
Described locking lever 7-2 perk under torsion spring 8-5 effect, but due to teeth directional reason, do not affect positive dirction rotation.
After pretension has moved, described gas generator 11-4 reaction finishes, and described spool 1-1 rotates backward under the traction of belt-strap.Described ratchet-gear wheel 2-1 is due to teeth directional problem, thereby interacts and prop described ratchet-gear wheel with described top recess 8-8.Described spool is picked up after certain altitude, thereby described ratchet-gear wheel engages with described ratchet section 5-15, and due to the constructional feature of ratchet, both are locked, and described spool 1-1 cannot rotate, thereby belt-strap cannot rotate, and plays a protective role.
After described ratchet-gear wheel 2-1 engages with described ratchet section 5-15 and fixes, described locking lever 7-2 continues rotation under the effect of torsion spring 8-5, enters release position, does not affect spool 1-1 subsequent action.
Then described torsion bar generation deformation, does not repeat herein.
In the present embodiment, described belt with pre-load device needs the electric elements such as corresponding controller and induction installation, does not describe herein.
Although the present invention with preferred embodiment openly as above; but it is not for limiting the present invention; any those skilled in the art without departing from the spirit and scope of the present invention; can make possible variation and modification, therefore protection scope of the present invention should be as the criterion with the scope that the claims in the present invention were defined.