CN104627268A - Lock and straddle type vehicle with same - Google Patents

Abstract

The invention relates to a lock and a straddle type vehicle with the same. The lock comprises a body, a control arm, a sliding block, a check block, a first spring, a positioning part and a second spring. The body forms a containing space. The control arm is located on the body in a rotatable mode. The sliding block is movably located in the containing space and abuts against the first end of the control arm. The check block is movably located in the containing space. The first spring is connected between the sliding block and the check block. The check block is provided with an advance path in the moving direction of the first spring. The positioning part is movably located in the containing space and used for being protruded out of the body. The moving direction of the positioning part is perpendicular to that of the sliding block. The second spring is connected between the positioning part and the body. The acting direction of the second spring is perpendicular to that of the first spring.

Description

Lockset and the Straddle type vehicle with lockset

Technical field

The present invention is about a kind of lockset and a kind of Straddle type vehicle with lockset.

Background technology

The bottom of locomotive has main backstop, and when locomotive is parked, main backstop can allow locomotive stably dock at ground.Generally speaking, if user worries that locomotive is stolen after parking, except locomotive main switch lock can being pinned, on wheel, also can lock horseshoe type lock or chain in addition, or lock disc brake lock (disc lock) in braking disc, to increase the difficulty of car steathily.

But when locomotive is parked, though main backstop can erect, and cannot prevent external force from being regained by main backstop, therefore locomotive is still likely moved easily.

Fig. 5 of following patent documentation 1 publication discloses a kind of lock integral with cycle, is with the accommodating slide block group 2 of lock 1, pushes away arm 3 of pulling, torque arm 4, torque spring 5, elastic bar 6 and fixed plate 7.Lock 1 is arranged the open surface that lock 1 closed by cover plate 8.When main foot rest A erects, the locations A2 of main foot rest A goes to upper lock position.After cable 9 pulls torque arm 4, the torque arm 4 abutted against by torque spring 5 and elastic bar 6 apply elastic force with push away arm 3 of pulling and can swing in the lump, band movable slider group 2 makes its clipping block 22 snap in the recess A21 of locations A2 and lock main foot rest A.

No. 519074th, [patent documentation 1] TaiWan, China patent

Summary of the invention

[invention institute is for the problem of solution]

In above-mentioned patent documentation 1, though solve the problem first need carrying out contraposition when main foot rest is locked, but there is the problem of anti-theft deficiency in its structure, such as when there being foreign object to be stretched into by recess A21, from when applying the thrust toward lockset direction to clipping block 22 between the contact surface of locations A2 and clipping block 22, because there is not any stop part the side of slide block group 2 relative positioning part A2, so clipping block 22 can be pushed and in interior retraction lock 1, and cannot engage with locations A2, therefore exist on antitheft and crack a little.But be this problem corresponding, may lock structure can be caused again to complicate, and make lockset cannot the problem of miniaturization.

[technological means of dealing with problems]

Given this present invention plants situation and completes, and its object is to provide one to guarantee the simple and miniaturization of structure, and the lockset of lifting operation convenience and anti-theft simultaneously.

One of the present invention technology aspect is a kind of lockset.

According to an embodiment of the present invention, a kind of lockset comprises body, Control arm, slide block, block, the first spring, locations and the second spring.Body forms an accommodation space.Control arm is positioned at accommodation space rotationally, and has first end and the second end.Slide block is movably located on accommodation space, and is resisted against the first end of Control arm.Block is movably located on accommodation space.First spring is connected between slide block and block, makes block have the travel path in the start direction along the first spring.Locations is movably located on accommodation space, in order to protrude from body.The start direction of locations is perpendicular to the moving direction of slide block.Second spring is connected between locations and body, and the start direction of the second spring is perpendicular to the start direction of the first spring.When locations not at the travel path of block and the second end tension of Control arm time, the first end of Control arm promotes slide block and moves along the start direction of the first spring, makes block move to the first side of locations, and the non-pressurized of the first spring.When locations be positioned at the travel path of block and the second end tension of Control arm time, the first end of Control arm promotes slide block and moves along the start direction of the first spring, makes block be resisted against the second side of adjacent first side of locations, and the first spring pressurized.

In an embodiment of the present invention, the start direction of above-mentioned first spring is the length direction of the first spring, and the start direction of the second spring is the length direction of the second spring.

In an embodiment of the present invention, above-mentioned slide block has the first protuberance, and the first protuberance is resisted against the first end of Control arm.Control arm can drive whole slide block to move by the first protuberance.

In an embodiment of the present invention, above-mentioned lockset more comprises the 3rd spring.3rd spring is connected between slide block and body, and the start direction of the 3rd spring is parallel to the start direction of the first spring.The elastic force that 3rd spring can provide slide block to reset.

In an embodiment of the present invention, above-mentioned slide block has the first protuberance and the second protuberance.First protuberance is resisted against the first end of Control arm.Second protuberance and the first protuberance are positioned at the relative both sides of slide block.One end of 3rd spring is connected to the second protuberance of slide block.3rd spring can drive whole slide block to move by the second protuberance.

Another technology aspect of the present invention is a kind of Straddle type vehicle.

According to an embodiment of the present invention, a kind of Straddle type vehicle comprises power unit, main backstop, bracing wire and lockset.Power unit is supported in a vehicle frame swingably.Main backstop is selectively arranged on power unit and vehicle frame.Lockset is installed on power unit and is integrated.Lockset comprises body, Control arm, slide block, block, the first spring, locations and the second spring.Body forms an accommodation space.Control arm is positioned at accommodation space rotationally, and has first end and the second end.Second end is connected to bracing wire.Slide block is movably located on accommodation space, and is resisted against the first end of Control arm.Block is movably located on this accommodation space.First spring is connected between slide block and block, makes block have the travel path in the start direction along the first spring.Locations is movably located on accommodation space, is resisted against main backstop in order to protrude from body.The moving direction of locations is perpendicular to the moving direction of slide block.Second spring is connected between locations and body, and the start direction of the second spring is perpendicular to the start direction of the first spring.When locations not at the travel path of block and bracing wire pulls Control arm time, the first end of Control arm promotes slide block and moves along the start direction of the first spring, makes block move to the first side of locations, and the non-pressurized of the first spring.When locations is positioned at the travel path of block and bracing wire pulls the second end of Control arm, the first end of Control arm promotes slide block and moves along the start direction of the first spring, makes block be resisted against the second side of adjacent first side of locations, and the first spring pressurized.

In an embodiment of the present invention, the start direction of above-mentioned first spring is the length direction of the first spring, and the start direction of the second spring is the length direction of the second spring.

In an embodiment of the present invention, above-mentioned power unit has the side of bottom surface and adjacent bottom surface, and lockset is selectively arranged at bottom surface and side.The bottom surface that lockset is positioned at power unit by the decentralization of Straddle type vehicle, can increase the stability driven.Lockset also can be positioned at the side of power unit according to design requirement.

In an embodiment of the present invention, above-mentioned main backstop has a rotation section and a ground contacting part.Rotation section has at least one plane of cambered surface and adjacent cambered surface.When cambered surface is against locations, locations compresses the second spring.When plane is against locations, uncompressed second spring of locations.

In an embodiment of the present invention, above-mentioned slide block has the first protuberance, and the first protuberance is resisted against the first end of Control arm.Control arm can drive whole slide block to move by the first protuberance.

In an embodiment of the present invention, above-mentioned lockset more comprises the 3rd spring.3rd spring is connected between slide block and body, and the start direction of the 3rd spring is parallel to the start direction of the first spring.The elastic force that 3rd spring can provide slide block to reset.

In an embodiment of the present invention, above-mentioned slide block has the first protuberance and the second protuberance.First protuberance is resisted against the first end of this Control arm.Second protuberance and the first protuberance are positioned at the relative both sides of slide block.One end of 3rd spring is connected to the second protuberance of slide block.3rd spring can drive whole slide block to move by the second protuberance.

State on the invention in embodiment, when locations is not pushed to the travel path of block by the rotation section of main backstop, main backstop is raised state.In this case, if bracing wire pulls Control arm, then block can be driven by slide block and move to the first side of locations, and the first spring can not pressurized.Now the position of rotation section is spacing by locations, and main backstop cannot be packed up and reach the object of locking main backstop.

In addition, when locations is pushed to the travel path of block by the rotation section of main backstop, main backstop is collapsed state.In this case, if bracing wire pulls Control arm, then block can be driven by slide block and against the second side of locations, and the first spring can pressurized.Now the position of rotation section is not yet spacing by locations.When main backstop is converted to raised state by collapsed state, locations, by the second spring reset, makes locations not at the travel path of block.Thus, block is subject to the elastic force of the first spring to move to rapidly the first side of locations.Now the position of rotation section is spacing by locations, and main backstop cannot be packed up and reach the object of locking main backstop.

[effect of invention]

By this, the present invention can provide one can guarantee the simple and miniaturization of structure, and the lockset of lifting operation convenience and anti-theft simultaneously.

Accompanying drawing explanation

Fig. 1 illustrates the lateral plan of Straddle type vehicle according to an embodiment of the present invention.

Fig. 2 illustrates the Straddle type vehicle of Fig. 1 from the backplan viewed from the D of direction.

The main backstop that Fig. 3 A illustrates Fig. 2 pack up but Control arm non-tension time lockset and the lateral plan of main backstop.

Fig. 3 B illustrates the lockset of Fig. 3 A and the backplan of main backstop.

The main backstop that Fig. 4 A illustrates Fig. 2 pack up and Control arm tension time lockset and the lateral plan of main backstop.

Fig. 4 B illustrates the lockset of Fig. 4 A and the backplan of main backstop.

The main backstop that Fig. 5 A illustrates Fig. 2 erect and Control arm tension time lockset and the lateral plan of main backstop.

Fig. 5 B illustrates the lockset of Fig. 5 A and the backplan of main backstop.

Fig. 6 illustrates the backplan of the lockset according to another embodiment of the present invention.

Fig. 7 illustrates the partial side view of the Straddle type vehicle according to another embodiment of the present invention.

The main backstop that Fig. 8 illustrates Fig. 7 pack up but Control arm non-tension time lockset and the lateral plan of main backstop.

The main backstop that Fig. 9 illustrates Fig. 7 pack up and Control arm tension time lockset and the lateral plan of main backstop.

The main backstop that Figure 10 illustrates Fig. 7 erect and Control arm tension time lockset and the lateral plan of main backstop.

Detailed description of the invention

Below will with a plurality of embodiments of graphic exposure the present invention, as clearly stated, the details in many practices will be explained in the following description.But should be appreciated that, the details in these practices is not applied to limit the present invention.That is, in some embodiments of the present invention, the details in these practices is non-essential.In addition, for the purpose of simplicity of illustration, some known usual structures and assembly illustrate it by the mode simply illustrated in the drawings.

Fig. 1 illustrates the lateral plan of Straddle type vehicle 200 according to an embodiment of the present invention.The Straddle type vehicle 200 that present embodiment is applied is scooter type vehicle.Wherein, the Straddle type vehicle 200 of the present invention is not limited to scooter type vehicle, also can be other Straddle type vehicle.

Fig. 2 illustrates the Straddle type vehicle 200 of Fig. 1 from the backplan viewed from the D of direction.Consult Fig. 1 and Fig. 2, Straddle type vehicle 200 comprises power unit 210, main backstop 220, bracing wire 230 and lockset 100 simultaneously.Wherein, power unit 210 is supported in vehicle frame 202 swingably.Main backstop 220 is selectively arranged at power unit 210 with on vehicle frame 202.The both sides of main backstop 220 have rotation section 222 and ground contacting part 224 respectively.When Straddle type vehicle 200 needs parking, main backstop 220, and to rotate relative to vehicle for centre of gration with rotation section 222, makes main backstop 220 for raised state, with ground contacting part 224 kiss the earth.When Straddle type vehicle 200 need move, main backstop 220, and to rotate relative to vehicle for centre of gration with rotation section 222, make main backstop 220 for collapsed state, and ground contacting part 224 departs from ground.

In the present embodiment, power unit 210 has the side 214 of bottom surface 212 and adjacent bottom surface 212, and lockset 100 is installed on the bottom surface 212 of power unit 210 and is integrated.When lockset 100 is arranged at the bottom surface 212 of power unit 210, by the decentralization of Straddle type vehicle 200, the stability driven can be increased.

In addition, Straddle type vehicle 200 has main switch lock 240, and main switch lock 240 is connected to one end of bracing wire 230 relation control arm 120.Main switch lock 240 has key hole 242 and location point P1, P2, and main switch lock 240 can insert for key, controls bracing wire 230 whether impose pulling force to Control arm 120 for user by key.For example, when key is by key hole 242 aligned position point P1, bracing wire 230 does not impose pulling force to Control arm 120.When key by key hole 242 with direction D1 rotate and aligned position point P2 time, bracing wire 230 pairs of Control arms 120 impose pulling force.

The main backstop 220 that Fig. 3 A illustrates Fig. 2 in collapsed state and Control arm 120 non-tension time lockset 100 and main backstop 220 lateral plan.Fig. 3 B illustrates the lockset 100 of Fig. 3 A and the backplan of main backstop 220.Consult Fig. 3 A and Fig. 3 B, lockset 100 comprises body 110, Control arm 120, slide block 130, block 140, first spring 150, locations 160 and the second spring 170 simultaneously.Wherein, body 110 forms accommodation space 112.The shape approximation V-arrangement of Control arm 120 or U-shaped.Control arm 120 is positioned at accommodation space 112 rotationally, and has first end 122 and the second end 124.Second end 124 of Control arm 120 is connected to the bracing wire 230 of Fig. 2.

Slide block 130 is movably located on accommodation space 112, and is resisted against the first end 122 of Control arm 120.Block 140 is movably located on accommodation space 112.First spring 150 is connected between slide block 130 and block 140, makes block 140 have the travel path in the start direction along the first spring 150.Locations 160 is movably located on accommodation space 112, is resisted against the rotation section 222 of main backstop 220 in order to protrude from body 110.The moving direction (such as direction D5) of locations 160 is perpendicular to the moving direction (such as direction D3) of slide block 130.Locations 160 has the first side 162 and the second side 164 adjoining the first side 162.

In the present embodiment, rotation section 222 has the plane 225 of cambered surface 223 and adjacent cambered surface 223.In more detail, rotation section 222 can comprise rotating shaft 226 and clamping block 228, and cambered surface 223 and plane 225 are formed on clamping block 228, and clamping block 228 is fixed on rotating shaft 226, can with rotating shaft 226 synchronous axial system.

In addition, the second spring 170 is connected between locations 160 and body 110, and the start direction of the second spring 170 is perpendicular to the start direction of the first spring 150.Wherein, the start direction of the first spring 170 is the length direction of the first spring 170, and the start direction of the second spring 170 is the length direction of the second spring 170.In addition, slide block 130 has the first protuberance 132.First protuberance 132 is resisted against the first end 122 of Control arm 120, makes Control arm 120 whole slide block 130 can be driven to move by the first protuberance 132.

When main backstop 220 be in collapsed state and Control arm 120 non-tension time, cambered surface 223 protrudes one end of body 110 against locations 160, locations 160 is pushed and compresses the second spring 170 with direction D6.Now, locations 160 is on the travel path of block 140.

The main backstop 220 that Fig. 4 A illustrates Fig. 2 in collapsed state and Control arm 120 tension time lockset 100 and main backstop 220 lateral plan.Fig. 4 B illustrates the lockset 100 of Fig. 4 A and the backplan of main backstop 220.Consult Fig. 4 A and Fig. 4 B, when main backstop 220 is packed up, locations 160, along the cambered surface 223 of clamping block 228, is promoted by it and compresses the second spring 170 with direction D6, locations 160 is positioned on the travel path of block 140 simultaneously.Thus, when bracing wire 230 (see Fig. 2) pulls the second end 124 of Control arm 120 with direction D7, the first end 122 of Control arm 120 promotes slide block 130 and moves along the start direction D3 of the first spring 150, make block 140 be driven by slide block 130 and be resisted against the second side 164 of locations 160, and the first spring 150 is compressed.

In this case, block 140 cannot stop locations 160 to compress the second spring 170 with direction D6, and the position of rotation section 222 is not yet spacing by locations 160.When main backstop 220 is converted to raised state by collapsed state, rotation section 222 is rotated toward direction D2, makes the plane 225 of rotation section 222 against locations 160.Now, locations 160 is resetted by the second spring 170 and moves toward direction D5, makes locations 160 not on the travel path of block 140.

The main backstop 220 that Fig. 5 A illustrates Fig. 2 in raised state and Control arm 120 tension time lockset 100 and main backstop 220 lateral plan.Fig. 5 B illustrates the lockset 100 of Fig. 5 A and the backplan of main backstop 220.Consult Fig. 5 A and Fig. 5 B simultaneously, to be resetted by the second spring 170 when locations 160 and after moving toward direction D5, because locations 160 is not on the travel path of block 140, therefore block 140 is subject to the elastic force of the first spring 150 automatically to move to rapidly the first side 162 of locations 160.Thus, the position of rotation section 222 is spacing by locations 160, main backstop 220 cannot be packed up and reach the object locking main backstop 220.In this case, the key hole 242 aligned position point P2 of Fig. 2.More specifically, be subject to an external force when main backstop 220 and make rotation section 222 toward when rotating in contrast to direction D2 (see Fig. 4 A), because the plane 225 being formed at clamping block 228 can produce the component of a direction D6 to locations 160, but because of locations 160 because its first side 162 is subject to the stop of block 140, and cannot move toward direction D6, make the clamping block 228 of rotation section 222 on the path of packing up direction of main backstop 220, be subject to the stop of locations 160, therefore main backstop 220 cannot be packed up, and reach the object of locking main backstop 220.

As the key hole 242 aligned position point P1 of Fig. 2, bracing wire 230 stops the pulling force (see Fig. 4 B) Control arm 120 being imposed to direction D7, and the first end 122 of Control arm 120 can drive the first protuberance 132 that whole slide block 130 is moved toward direction D4.Thus, locations 160 just can be promoted by rotation section 222, and therefore main backstop 220 can be packed up, and makes rotation section 222 and lockset 100 get back to the state of Fig. 3 A and Fig. 3 B.

But lockset 100 also has another kind of occupation mode.Consult Fig. 3 B and Fig. 5 B, when main backstop 220 is converted to the raised state of Fig. 5 B by the collapsed state of Fig. 3 B, locations 160 is resetted by the second spring 170 and moves toward direction D5, makes locations 160 not at the travel path of block 140 simultaneously.If bracing wire 230 (see Fig. 2) does not impose the pulling force of direction D7 to Control arm 120 when main backstop 220 is packed up, then after main backstop 220 erects, just can impose the pulling force of direction D7 to Control arm 120.Because locations 160 is not on the travel path of block 140, therefore block 140 still can be driven from slide block 130 and move to the first side 162 of locations 160 toward direction D3, and the first spring 150 can not pressurized.In this case, block 140 can stop locations 160 to compress the second spring 170 to move toward direction D6, make the position of rotation section 222 spacing by locations 160.Thus, main backstop 220 cannot be packed up and reach the object of locking main backstop 220.

That is, lockset 100, except user can be allowed when main backstop 220 is in collapsed state, first pulls Control arm 120, after erecting main backstop 220, automatically locks main backstop 220; Also can allow user after erecting main backstop 220, pull Control arm 120 to lock main backstop 220.

Fig. 6 illustrates the backplan of the lockset 100a according to another embodiment of the present invention.Lockset 100a comprises body 110, Control arm 120, slide block 130, block 140, first spring 150, locations 160 and the second spring 170.Place different from the embodiment described above is: the relative both sides of slide block 130 have the first protuberance 132 and the second protuberance 134, and lockset 100a also comprises the 3rd spring 180.3rd spring 180 is connected between slide block 130 and body 110, and the start direction of the 3rd spring 180 is parallel to the start direction of the first spring 150.One end of 3rd spring 180 is connected to the second protuberance 134 of slide block 130.

The elastic force that lockset the 100, three spring 180 of replaceable Fig. 2 to Fig. 5 B of lockset 100a can provide slide block 130 to reset, makes the 3rd spring 180 drive whole slide block 130 mobile toward direction D4 (see Fig. 5 B) by the second protuberance 134.

In the following description, the assembly described and its annexation will not repeat to repeat, and conjunction is first chatted bright.

Fig. 7 illustrates the partial side view of the Straddle type vehicle 200a according to another embodiment of the present invention.The Straddle type vehicle 200a that present embodiment is applied is scooter type vehicle.Wherein, the Straddle type vehicle 200a of the present invention is not limited to scooter type vehicle, also can be other Straddle type vehicle.Straddle type vehicle 200a comprises power unit 210, main backstop 220, bracing wire 230 and lockset 100b.Power unit 210 has the side 214 of bottom surface 212 and adjacent bottom surface 212.In the present embodiment, lockset 100b can be installed on the side 214 of power unit 210 according to design requirement and be integrated.

The main backstop 220 that Fig. 8 illustrates Fig. 7 in collapsed state and Control arm 120 non-tension time lockset 100b and the lateral plan of main backstop 220.Consult Fig. 7 and Fig. 8, lockset 100b comprises body 110, Control arm 120, slide block 130, block 140, first spring 150, locations 160 and the second spring 170 simultaneously.The place different from Fig. 2, Fig. 3 B embodiment is: lockset 100b is arranged at the side 214 of power unit 210, and the shape of slide block 130 and locations 160 and Fig. 2, Fig. 3 B different.In addition, the rotation section 222 of main backstop 220 has two planes 225.

The rotation section 222 of main backstop 220 has two planes 225 of cambered surface 223 and adjacent cambered surface 223.When main backstop 220 in collapsed state and Control arm 120 non-tension time, cambered surface 223, against one end of locations 160, makes locations 160 be pushed and compresses the second spring 170 with direction D6.Now, locations 160 is at the travel path of block 140.

The main backstop 220 that Fig. 9 illustrates Fig. 7 in collapsed state and Control arm 120 tension time lockset 100b and the lateral plan of main backstop 220.Consult Fig. 8 and Fig. 9, when main backstop 220 is packed up, locations 160 is promoted by rotation section 222 and compresses the second spring 170 with direction D6, makes locations 160 be positioned at the travel path of block 140 simultaneously.Thus, when bracing wire 230 (see Fig. 7) pulls the second end 124 of Control arm 120 with direction D7, the first end 122 of Control arm 120 promotes slide block 130 and moves along the start direction D3 of the first spring 150, make block 140 be driven by slide block 130 and be resisted against the second side 164 of locations 160, and the first spring 150 is compressed.

In this case, block 140 cannot stop locations 160 to compress the second spring 170 with direction D6, and the position of rotation section 222 is not yet spacing by locations 160.When main backstop 220 is converted to raised state by collapsed state, rotation section 222 is rotated toward direction D2, makes the plane 225 of rotation section 222 against locations 160.Now, locations 160 is resetted by the second spring 170 and moves toward direction D5, makes locations 160 not at the travel path of block 140.

The main backstop 220 that Figure 10 illustrates Fig. 7 in raised state and Control arm 120 tension time lockset 100b and the lateral plan of main backstop 220.Consult Fig. 9 and Figure 10 simultaneously, to be resetted by the second spring 170 when locations 160 and after moving toward direction D5, because locations 160 is not at the travel path of block 140, therefore block 140 is subject to the elastic force of the first spring 150 automatically to move to rapidly the first side 162 of locations 160.Thus, the position of rotation section 222 is spacing by locations 160, main backstop 220 cannot be packed up and reach the object locking main backstop 220.In this case, the key hole 242 aligned position point P2 of Fig. 7.

As the key hole 242 aligned position point P1 of Fig. 7, bracing wire 230 (see Fig. 7) stops pulling force Control arm 120 being imposed to direction D7, and the first end 122 of Control arm 120 can drive the first protuberance 132 that whole slide block 130 is moved toward direction D4.Thus, locations 160 just can be promoted by rotation section 222, and therefore main backstop 220 can be packed up, and makes rotation section 222 and lockset 100b get back to the state of Fig. 8.

But lockset 100b also has another kind of occupation mode.Consult Fig. 8 and Figure 10, when main backstop 220 is converted to the raised state of Figure 10 by the collapsed state of Fig. 8, locations 160 is resetted by the second spring 170 and moves toward direction D5, makes locations 160 not at the travel path of block 140 simultaneously.If bracing wire 230 (see Fig. 7) does not impose the pulling force of direction D7 to Control arm 120 when main backstop 220 is packed up, then after main backstop 220 erects, just can impose the pulling force of direction D7 to Control arm 120.Because locations 160 is not at the travel path of block 140, therefore block 140 still can be driven from slide block 130 and move to the first side 162 of locations 160 toward direction D3, and the first spring 150 can not pressurized.In this case, be subject to an external force when main backstop 220 and make rotation section 222 toward when rotating in contrast to direction D2, because the plane 225 being formed at clamping block 228 can produce the component of a direction D6 to locations 160, but because of locations 160 because its first side 162 is subject to the stop of block 140, block 140 can stop locations 160 to compress the second spring 170 to move toward direction D6, make the position of rotation section 222 spacing by locations 160.Thus, main backstop 220 cannot be packed up and reach the object of locking main backstop 220.

That is, lockset 100b, except user can be allowed when main backstop 220 is in collapsed state, first pulls Control arm 120, after erecting main backstop 220, automatically locks main backstop 220; Also can allow user after erecting main backstop 220, pull Control arm 120 to lock main backstop 220.

Above content is known, the invention provides one and can guarantee the simple and miniaturization of structure, and the lockset of lifting operation convenience and anti-theft simultaneously.The primary clustering of lockset is only Control arm, locations, slide block, block, the first spring and the second spring, and the simple structure of above-mentioned each assembly and volume is little, and the configuration mode of each inter-module of above, therefore lockset has the advantage of simple structure and miniaturization.Moreover, when locations be positioned at the travel path of block and the second end tension of Control arm time, block is resisted against the second side of locations, and the first spring pressurized.Afterwards when locations protrudes from body, block is subject to the elastic force of the first spring automatically to move to rapidly the first side of locations, and the travel path of locations is subject to the stop of block, even if locations is subject to an external force equidirectional with its travel path, also locations cannot be made to move, reach the object of locking main backstop.Therefore, lockset can lifting operation convenience and anti-theft.

According to an embodiment of the present invention, a kind of lockset comprises body, Control arm, slide block, block, the first spring, locations and the second spring.Body forms an accommodation space.Control arm is positioned at accommodation space rotationally, and has first end and the second end.Slide block is movably located on accommodation space, and is resisted against the first end of Control arm.Block is movably located on accommodation space.First spring is connected between slide block and block, makes block have the travel path in the start direction along the first spring.Locations is movably located on accommodation space, in order to protrude from body.The start direction of locations is perpendicular to the moving direction of slide block.Second spring is connected between locations and body, and the start direction of the second spring is perpendicular to the start direction of the first spring.

When locations not at the travel path of block and the second end tension of Control arm time, the first end of Control arm promotes slide block and moves along the start direction of the first spring, makes block move to the first side of locations, and the non-pressurized of the first spring.When locations be positioned at the travel path of block and the second end tension of Control arm time, the first end of Control arm promotes slide block and moves along the start direction of the first spring, makes block be resisted against the second side of adjacent first side of locations, and the first spring pressurized.

According to one of the invention described above embodiment, by by Control arm, slide block, block, locations is arranged at the accommodation space of body, and slide block is resisted against the first end of Control arm, first spring is connected between slide block and block, block is made to have the travel path in the start direction along the first spring, locations can protrude from body and its start direction perpendicular to the moving direction of slide block, second spring is connected between locations and body, and the start direction of the second spring is perpendicular to the technological maheup in the start direction of the first spring, and then the simple and miniaturization of lock structure can be guaranteed.

Moreover, when the second end tension of Control arm, the first end of Control arm promotes slide block and moves along the start direction of the first spring, block is made to move to the first side of locations, and the non-pressurized of the first spring, when locations be positioned at the travel path of block and the second end tension of Control arm time, the first end of Control arm promotes slide block and moves along the start direction of the first spring, block is made to be resisted against the second side of adjacent first side of locations, and the first spring pressurized, therefore, when locations protrudes from body, block is subject to the elastic force of the first spring automatically to move to rapidly the first side of locations, and the travel path of locations is subject to the stop of block, even if locations is subject to an external force equidirectional with its travel path, also locations cannot be made to move, and can the lockset of simultaneously lifting operation convenience and anti-theft.

In an embodiment of the present invention, the start direction of above-mentioned first spring is the length direction of the first spring, and the start direction of the second spring is the length direction of the second spring.

According to one of the invention described above embodiment, the first spring is connected between slide block and block, makes block have the travel path of the length direction along the first spring.Second spring is connected between locations and body, and the length direction of the second spring is perpendicular to the length direction of the first spring, and then locations is perpendiculared to one another with the moving direction of block, therefore the first spring and the second spring can guarantee the simple and miniaturization of lock structure, and lifting operation convenience.

In an embodiment of the present invention, above-mentioned slide block has the first protuberance, and the first protuberance is resisted against the first end of Control arm.

According to one of the invention described above embodiment, because the first protuberance is resisted against the first end of Control arm, when bracing wire stops imposing pulling force to Control arm, the first end of Control arm can drive the first protuberance that whole slide block is moved, and then allows block leave the travel path of locations.Thus, locations just can be promoted by rotation section, and main backstop is packed up.Therefore, the first protuberance can guarantee the simple and miniaturization of lock structure, and lifting operation convenience.

In an embodiment of the present invention, above-mentioned lockset more comprises the 3rd spring.3rd spring is connected between slide block and body, and the start direction of the 3rd spring is parallel to the start direction of the first spring.

According to one of the invention described above embodiment, the 3rd spring is connected between slide block and body, and the start direction of the 3rd spring is parallel to the start direction of the first spring.The elastic force that 3rd spring can provide slide block to reset, makes block can leave the travel path of locations.Therefore the 3rd spring can guarantee the simple and miniaturization of lock structure, and lifting operation convenience.

In an embodiment of the present invention, above-mentioned slide block has the first protuberance and the second protuberance.First protuberance is resisted against the first end of Control arm.Second protuberance and the first protuberance are positioned at the relative both sides of slide block.One end of 3rd spring is connected to the second protuberance of slide block.

According to one of the invention described above embodiment, because the first protuberance is resisted against the first end of Control arm, when bracing wire stops imposing pulling force to Control arm, the first end of Control arm can drive the first protuberance that whole slide block is moved, and then allows block leave the travel path of locations.Thus, locations just can be promoted by rotation section, and main backstop is packed up.Moreover the one end due to the 3rd spring is connected to the second protuberance of slide block, therefore the 3rd spring can drive whole slide block to reset by the second protuberance, makes block leave the travel path of locations.Therefore, the first protuberance and the second protuberance can guarantee the simple and miniaturization of lock structure, and lifting operation convenience.

According to an embodiment of the present invention, a kind of Straddle type vehicle comprises power unit, main backstop, bracing wire and lockset.Power unit is supported in a vehicle frame swingably.Main backstop is selectively arranged on power unit and vehicle frame.Lockset is installed on power unit and is integrated.Lockset comprises body, Control arm, slide block, block, the first spring, locations and the second spring.Body forms an accommodation space.Control arm is positioned at accommodation space rotationally, and has first end and the second end.Second end is connected to bracing wire.Slide block is movably located on accommodation space, and is resisted against the first end of Control arm.Block is movably located on this accommodation space.First spring is connected between slide block and block, makes block have the travel path in the start direction along the first spring.Locations is movably located on accommodation space, is resisted against main backstop in order to protrude from body.The moving direction of locations is perpendicular to the moving direction of slide block.Second spring is connected between locations and body, and the start direction of the second spring is perpendicular to the start direction of the first spring.

When locations not at the travel path of block and bracing wire pulls Control arm time, the first end of Control arm promotes slide block and moves along the start direction of the first spring, makes block move to the first side of locations, and the non-pressurized of the first spring.When locations is positioned at the travel path of block and bracing wire pulls the second end of Control arm, the first end of Control arm promotes slide block and moves along the start direction of the first spring, makes block be resisted against the second side of adjacent first side of locations, and the first spring pressurized.

According to one of the invention described above embodiment, by by Control arm, slide block, block, locations is arranged at the accommodation space of body, and slide block is resisted against the first end of Control arm, first spring is connected between slide block and block, block is made to have the travel path in the start direction along the first spring, locations can protrude from body and its start direction perpendicular to the moving direction of slide block, second spring is connected between locations and body, and the start direction of the second spring is perpendicular to the technological maheup in the start direction of the first spring, and then the simple and miniaturization of lock structure can be guaranteed.

Moreover, when the second end tension of Control arm, the first end of Control arm promotes slide block and moves along the start direction of the first spring, block is made to move to the first side of locations, and the non-pressurized of the first spring, when locations be positioned at the travel path of block and the second end tension of Control arm time, the first end of Control arm promotes slide block and moves along the start direction of the first spring, block is made to be resisted against the second side of adjacent first side of locations, and the first spring pressurized, therefore, when locations protrudes from body, block is subject to the elastic force of the first spring automatically to move to rapidly the first side of locations, and the travel path of locations is subject to the stop of block, even if locations is subject to an external force equidirectional with its travel path, also locations cannot be made to move, and can the lockset of simultaneously lifting operation convenience and anti-theft.

In an embodiment of the present invention, the start direction of above-mentioned first spring is the length direction of the first spring, and the start direction of the second spring is the length direction of the second spring.

According to one of the invention described above embodiment, the first spring is connected between slide block and block, makes block have the travel path of the length direction along the first spring.Second spring is connected between locations and body, and the length direction of the second spring is perpendicular to the length direction of the first spring, and then locations is perpendiculared to one another with the moving direction of block, therefore the first spring and the second spring can guarantee the simple and miniaturization of lock structure, and lifting operation convenience.

In an embodiment of the present invention, above-mentioned power unit has the side of bottom surface and adjacent bottom surface, and lockset is selectively arranged at bottom surface and side.

According to one of the invention described above embodiment, the bottom surface that lockset is positioned at power unit by the decentralization of Straddle type vehicle, can increase the stability driven.Lockset also can be positioned at the side of power unit according to design requirement.Therefore, lockset can lifting operation convenience.

In an embodiment of the present invention, above-mentioned main backstop has a rotation section and a ground contacting part.Rotation section has at least one plane of cambered surface and adjacent cambered surface.When cambered surface is against locations, locations compresses the second spring.When plane is against locations, uncompressed second spring of locations.

According to one of the invention described above embodiment, when main backstop is in collapsed state, cambered surface protrudes one end of body against locations, locations is pushed and compresses the second spring.When main backstop is in raised state, plane protrudes one end of body against locations.The cambered surface of rotation section and the design of plane can guarantee the simple and miniaturization of lock structure, and lifting operation convenience.

In an embodiment of the present invention, above-mentioned slide block has the first protuberance, and the first protuberance is resisted against the first end of Control arm.Wherein, Control arm can drive whole slide block to move by the first protuberance.

According to one of the invention described above embodiment, because the first protuberance is resisted against the first end of Control arm, when bracing wire stops imposing pulling force to Control arm, the first end of Control arm can drive the first protuberance that whole slide block is moved, and then allows block leave the travel path of locations.Thus, locations just can be promoted by rotation section, and main backstop is packed up.Therefore, the first protuberance can guarantee the simple and miniaturization of lock structure, and lifting operation convenience.

In an embodiment of the present invention, above-mentioned lockset more comprises the 3rd spring.3rd spring is connected between slide block and body, and the start direction of the 3rd spring is parallel to the start direction of the first spring.

According to one of the invention described above embodiment, the 3rd spring is connected between slide block and body, and the start direction of the 3rd spring is parallel to the start direction of the first spring.The elastic force that 3rd spring can provide slide block to reset, makes block can leave the travel path of locations.Therefore the 3rd spring can guarantee the simple and miniaturization of lock structure, and lifting operation convenience.

In an embodiment of the present invention, above-mentioned slide block has the first protuberance and the second protuberance.First protuberance is resisted against the first end of this Control arm.Second protuberance and the first protuberance are positioned at the relative both sides of slide block.One end of 3rd spring is connected to the second protuberance of slide block.

According to one of the invention described above embodiment, because the first protuberance is resisted against the first end of Control arm, when bracing wire stops imposing pulling force to Control arm, the first end of Control arm can drive the first protuberance that whole slide block is moved, and then allows block leave the travel path of locations.Thus, locations just can be promoted by rotation section, and main backstop is packed up.Moreover the one end due to the 3rd spring is connected to the second protuberance of slide block, therefore the 3rd spring can drive whole slide block to reset by the second protuberance, makes block leave the travel path of locations.Therefore, the first protuberance and the second protuberance can guarantee the simple and miniaturization of lock structure, and lifting operation convenience.

Although the present invention discloses as above with embodiment, so itself and be not used to limit the present invention, anyly have the knack of this those skilled in the art, without departing from the spirit and scope of the invention, when doing various changes and retouching, such as, the present invention is also applicable to the Straddle type vehicle beyond the scooter type vehicles such as sports type auto-bicycle, electric bicycle, light-duty auto-bicycle.

Nomenclature

100: lockset 100a: lockset

110: body 112: accommodation space

120: Control arm 122: first end

124: the second ends 130: slide block

132: the first protuberance 134: the second protuberances

140: block 150: the first spring

160: locations 162: the first side

164: the second side 170: the second springs

180: the three springs 200: Straddle type vehicle

200a: Straddle type vehicle 202: vehicle frame

210: power unit 212: bottom surface

214: side 220: main backstop

222: rotation section 223: cambered surface

226: rotating shaft 224: ground contacting part

230: bracing wire 228: clamping block

242: key hole 240: main switch lock

D1: direction D: direction

D3: direction D2: direction

D5: direction D4: direction

D7: direction D6: direction

P2: location point P1: location point

Claims (12)

1. a lockset, comprises:

One body, this body forms an accommodation space;

One Control arm, is positioned at this accommodation space rotationally, and has a first end and one second end;

One slide block, is movably located on this accommodation space, and is resisted against this first end of this Control arm;

One block, is movably located on this accommodation space;

One first spring, is connected between this slide block and this block, makes this block have the travel path in the start direction along this first spring;

Positioning piece, is movably located on this accommodation space, and in order to protrude from this body, wherein the moving direction of this locations is perpendicular to the moving direction of this slide block; And

One second spring, be connected between this locations and this body, and the start direction of this second spring is perpendicular to the start direction of this first spring, when this locations not at the travel path of this block and this second end tension of this Control arm time, this first end of this Control arm promotes this slide block and moves along the start direction of this first spring, this block is made to move to one first side of this locations, and the non-pressurized of this first spring; When this locations be positioned at the travel path of this block and this second end tension of this Control arm time, this first end of this Control arm promotes this slide block and moves along the start direction of this first spring, this block is made to be resisted against one second side of this first side adjacent of this locations, and this first spring pressurized.

2. lockset as claimed in claim 1, wherein the start direction of this first spring is the length direction of this first spring, and the start direction of this second spring is the length direction of this second spring.

3. lockset as claimed in claim 1, wherein this slide block has one first protuberance, and this first protuberance is resisted against this first end of this Control arm.

4. lockset as claimed in claim 1, more comprises:

One the 3rd spring, is connected between this slide block and this body, and the start direction of the 3rd spring is parallel to the start direction of this first spring.

5. lockset as claimed in claim 4, wherein this slide block has one first protuberance and one second protuberance, this first protuberance is resisted against this first end of this Control arm, this second protuberance is positioned at the relative both sides of this slide block with this first protuberance, and one end of the 3rd spring is connected to this second protuberance of this slide block.

6. a Straddle type vehicle, comprises:

One power unit, it is supported in a vehicle frame swingably;

One main backstop, it is selectively arranged on this power unit and this vehicle frame;

One bracing wire; And

One lockset, be installed on this power unit and be integrated, this lockset comprises:

One body, this body forms an accommodation space;

One Control arm, is positioned at this accommodation space rotationally, and has a first end and one second end, and wherein this second end is connected to this bracing wire;

One slide block, is movably located on this accommodation space, and is resisted against this first end of this Control arm;

One block, is movably located on this accommodation space;

One first spring, is connected between this slide block and this block, makes this block have the travel path in the start direction along this first spring;

Positioning piece, this locations is movably located on this accommodation space, is resisted against this main backstop in order to protrude from this body, and wherein the moving direction of this locations is perpendicular to the moving direction of this slide block; And

One second spring, be connected between this locations and this body, and the start direction of this second spring is perpendicular to the start direction of this first spring, when this locations not at the travel path of this block and this bracing wire pulls this Control arm time, this first end of this Control arm promotes this slide block and moves along the start direction of this first spring, this block is made to move to one first side of this locations, and the non-pressurized of this first spring; When this locations is positioned at the travel path of this block and this bracing wire pulls this second end of this Control arm, this first end of this Control arm promotes this slide block and moves along the start direction of this first spring, this block is made to be resisted against one second side of this first side adjacent of this locations, and this first spring pressurized.

7. Straddle type vehicle as claimed in claim 6, wherein the start direction of this first spring is the length direction of this first spring, and the start direction of this second spring is the length direction of this second spring.

8. Straddle type vehicle as claimed in claim 6, wherein this power unit has a side of a bottom surface and this bottom surface adjacent, and this lockset is selectively arranged at this bottom surface and this side.

9. Straddle type vehicle as claimed in claim 6, wherein this main backstop has a rotation section and a ground contacting part, this rotation section has a cambered surface and at least one plane adjoining this cambered surface, when this cambered surface is against this locations, this locations compresses this second spring, when this plane is against this locations, this locations this second spring uncompressed.

10. Straddle type vehicle as claimed in claim 6, wherein this slide block has one first protuberance, and this first protuberance is resisted against this first end of this Control arm.

11. Straddle type vehicle as claimed in claim 6, wherein this lockset more comprises:

One the 3rd spring, is connected between this slide block and this body, and the start direction of the 3rd spring is parallel to the start direction of this first spring.

12. Straddle type vehicle as claimed in claim 11, wherein this slide block has one first protuberance and one second protuberance, this first protuberance is resisted against this first end of this Control arm, this second protuberance is positioned at the relative both sides of this slide block with this first protuberance, and one end of the 3rd spring is connected to this second protuberance of this slide block.