Sliding door two way damper and sliding door bidirectional damper method
Technical field
The present invention relates to a kind of damper and damping method, relate in particular to a kind of sliding door two way damper and sliding door bidirectional damper method.
Background technology
In existing sliding door, damping positioner often is arranged on guide rail two ends, and when sliding door was pushed both sides to, the hook of the pulley on sliding door coordinated with the unidirectional damping locator, forms the damping buffering effect.If when being arranged on the sliding door centre due to the unidirectional damping locator, can be inconsistent with the sliding door pulley, make the sliding door can't push-and-pull, therefore the unidirectional damping locator can only be arranged on guide rail both sides, this can cause in the sliding door with three door leafs or four door leafs, door leaf in the middle of it can't be located, and undamped buffering effect and be in free state during switch gate, thus easily because of the unequal odjective cause in floor cause door to shut after not the location be shifted.
Summary of the invention
Based on this, the invention reside in the defective that overcomes prior art, a kind of sliding door two way damper and sliding door bidirectional damper method are provided, described method can make the sliding door two way damper carry out bidirectional damper buffering and location to the sliding door door leaf that is arranged on each position.
Its technical scheme is as follows:
a kind of sliding door two way damper, comprise the first mount pad, the second mount pad, the first damper bar, the second damper bar, the first extension spring, the second extension spring, the first shifting block and the second shifting block, the first mount pad comprises the first guide-track groove, the second mount pad comprises the second guide-track groove, the first shifting block is slidably mounted in the first guide-track groove, the second shifting block is slidably mounted in the second guide-track groove, and the first shifting block and the second shifting block cooperatively interact, the first damper bar is connected with the first shifting block, the two ends of the first extension spring are connected on the first shifting block and the first mount pad, the second damper bar is connected with the second shifting block, the two ends of the second extension spring are connected on the second shifting block and the second mount pad.
The below describes further technical scheme:
described the first shifting block comprises the first movable shifting block and first shifting block that resets, the first movable shifting block and first shifting block that resets all is slidably mounted in described the first guide-track groove, and the first movable shifting block and first shifting block activity pivot joint that resets, described the second shifting block comprises the second movable shifting block and second shifting block that resets, the second movable shifting block and second shifting block that resets all is slidably mounted in described the second guide-track groove, and the second movable shifting block and second shifting block activity pivot joint that resets, the described first movable shifting block and second corresponding cooperation of shifting block that resets, the second movable shifting block and first corresponding cooperation of shifting block that resets, described the first damper bar and first shifting block that resets is connected, the two ends of the first extension spring are connected on the first movable shifting block and the first mount pad, described the second damper bar and second shifting block that resets is connected, the two ends of the second extension spring are connected on the second movable shifting block and the second mount pad.
The dual-side of described the first guide-track groove is provided with the first slideway mouth, the dual-side of the second guide-track groove is provided with the second slideway mouth, the first slideway mouth has the afterbody that turns to described the first guide-track groove bottom, the second slideway mouth has the afterbody that turns to described the second guide-track groove bottom, the described first movable shifting block and first resets and is respectively equipped with the projection that matches with the first slideway mouth on shifting block, and the described second movable shifting block and second resets and is respectively equipped with the projection that matches with the second slideway mouth on shifting block.
Described the first guide-track groove is provided with the location steering column at the afterbody place of the first slideway mouth, and described the second guide-track groove also is provided with the location steering column at the afterbody place of the second slideway mouth.
Described first shifting block that resets comprises the first clicking section, described second shifting block that resets comprises the second clicking section, the described first movable shifting block is provided with the first stop part, the described second movable shifting block is provided with the second stop part, described the first clicking section and the first stop part stagger mutually, make the first clicking section relative with the second stop part, described the second clicking section and the second stop part stagger mutually, make the second clicking section relative with the first stop part.
The described first movable shifting block and the second movable shifting block are equipped with crotch section, the two ends of the first extension spring are connected in the crotch section and the first mount pad of described the first movable shifting block, and the two ends of the second extension spring are connected in the crotch section and the second mount pad of described the second movable shifting block.
described the first mount pad also comprises the first installation portion, described the second mount pad also comprises the second installation portion, the first installation portion is fixedly connected on the end of described the first guide-track groove, and connect with the first guide-track groove, the second installation portion is fixedly connected on the end of described the second guide-track groove, and connect with the second guide-track groove, described the first damper bar is fixedly mounted in the first installation portion, described the second damper bar is fixedly mounted in described the second installation portion, the first damper bar and the second damper bar all have the movable telescopic end, the movable telescopic end of the first damper bar stretches in described the first guide-track groove and is connected with described the first shifting block, the movable telescopic end of the second damper bar stretches in described the second guide-track groove and is connected with described the second shifting block.
Described sliding door two way damper also includes upper fixed seat and lower fixed seat, and described the first mount pad is fixedly mounted on upper fixed seat, and described the second mount pad is fixedly mounted on described lower fixed seat.
Described upper fixed seat is provided with the track that is complementary with described the first mount pad, and this first mount pad is arranged in this track, and described lower fixed seat is provided with installing hole.
The present invention also provides a kind of sliding door bidirectional damper method, and the first mount pad is fixedly mounted on the sliding door guide rail, and the second mount pad is fixedly mounted on the sliding door door leaf, and the method is:
When the sliding door door leaf moves to first direction, the first shifting block and the second shifting block interact, the second shifting block is slided on the second guide-track groove, the second damper bar carries out damping buffering to this slip, described interaction then makes the first shifting block slide on the first guide-track groove, and the first extension spring carries out damping buffering to this slip;
When the sliding door door leaf moves to second direction, the first shifting block and the second shifting block interact, the first shifting block is slided on the first guide-track groove, the first damper bar carries out damping buffering to this slip, described interaction then makes the second shifting block slide on the second guide-track groove, and the second extension spring carries out damping buffering to this slip.
The below describes advantage or the principle of aforementioned techniques scheme:
1, the first shifting block and the second shifting block cooperatively interact, the sliding door door leaf is in the process that moves to first direction or second direction, the second shifting block can act on the first shifting block the first shifting block is slided on the first guide-track groove, the first shifting block can act on the second shifting block slides the second shifting block on the second guide-track groove, and the first damper bar, the first extension spring is connected with the first shifting block respectively, the second damper bar, the second extension spring is connected with the second shifting block respectively, the first damper bar, the second damper bar, the first extension spring and the second extension spring can carry out damping buffering to described slip, and then realize damping buffering and location in sliding door door leaf moving process, and this damper can be arranged on the centre of door leaf, and therefore, this damper can carry out to the sliding door door leaf that is arranged on each position bidirectional damper buffering and location.
2, the first movable shifting block and second corresponding cooperation of shifting block that resets, the second movable shifting block and first corresponding cooperation of shifting block that resets, second shifting block that resets slides the first movable shifting block and first shifting block that resets to the effect of the first movable shifting block or the second movable shifting block to the first interaction energy that resets shifting block in the first guide-track groove, and the first movable shifting block slides the second movable shifting block and second shifting block that resets to the second effect or first that resets shifting block shifting block that resets to the interaction energy of the second movable shifting block in the second guide-track groove; The activity pivot joint of shifting block and the first movable shifting block and first resets, the reset activity pivot joint of shifting block of the second movable shifting block and second, condition is provided, thereby has been conducive to realize that the sliding door door leaf still can pass through smoothly after being subjected to damping buffering turning to sinking, the second movable shifting block turning to sinking on the second guide-track groove on the first guide-track groove for the first movable shifting block.
3, described projection and the first slideway mouth coordinates, the first movable shifting block and first shifting block that resets can be slided in the first guide-track groove, described projection coordinates with the second slideway mouth, and the second movable shifting block and second shifting block that resets can be slided in the second guide-track groove; The first slideway mouth have turn to afterbody, can turn to sinking in the first guide-track groove when the first movable shifting block slides into this afterbody, dodging the second reset the passing through of shifting block, and then the sliding door door leaf can be smoothly when moving along first direction by and be not stuck; The second slideway mouth have turn to afterbody, can turn to sinking in the second guide-track groove when the second movable shifting block slides into the afterbody of the second slideway mouth, dodging the first reset the passing through of shifting block, so the sliding door door leaf can be smoothly when moving along second direction by and be not stuck.
4, the afterbody place of described slideway mouth is equipped with the location steering column, work as the first above-mentioned movable shifting block at the afterbody that slides into the first slideway mouth, the location steering column can block the first movable shifting block, the first movable shifting block is turned to sinking in the first guide-track groove, and when the second movable shifting block when sliding into the afterbody of the second slideway mouth, the location steering column can block the second movable shifting block, and two movable shifting blocks are turned to sinking in the second guide-track groove.
5, described the first clicking section and the first stop part stagger mutually, make the first clicking section relative with the second stop part, can make the first reset shifting block and the second corresponding cooperation of movable shifting block or interaction; And described the second clicking section and the second stop part stagger mutually, make the second clicking section relative with the first stop part, can make the second reset shifting block and the first corresponding cooperation of movable shifting block or interaction.
6, the described first movable shifting block and the second movable shifting block are equipped with crotch section, and the first extension spring can be assisted turning to sinking of the first movable shifting block by the crotch section that pulls the first movable shifting block; The second extension spring can be assisted turning to sinking of the second movable shifting block by the crotch section that pulls the second movable shifting block.
7, described the first mount pad is fixed on the sliding door guide rail by upper fixed seat, and described the second mount pad is fixed on the sliding door door leaf by lower fixed seat.
8, be provided with the track that is complementary with the first mount pad in described upper fixed seat, can facilitate when mounted and regulate the first mount pad in the exact position of sliding door guide rail left and right, be provided with installing hole in lower fixed seat, conveniently lower fixed seat is adjusted up and down.
9, described method can make described damper carry out bidirectional damper buffering and location to the movement of sliding door door leaf.
Description of drawings
Fig. 1 is the explosive view of the described sliding door two way damper of the embodiment of the present invention.
Fig. 2 is the assembly structure figure of described the first shifting block of the embodiment of the present invention.
Fig. 3 is the assembly structure figure of the described sliding door two way damper of the embodiment of the present invention.
Fig. 4 is the structural behavior figure of the described lower damper of embodiment of the present invention sliding door two way damper when moving to primary importance.
Fig. 5 is the structural behavior schematic diagram that the embodiment of the present invention the described first movable shifting block or the second movable shifting block have just been completed each accessory of sliding door two way damper when resetting.
Fig. 6 is the structural behavior figure of the described lower damper of embodiment of the present invention sliding door two way damper when moving to the second place.
Description of reference numerals:
1, upper fixed seat, 2, lower fixed seat, 3, the first mount pad, 31, the first guide-track groove, 311, the first slideway mouth, 32, the first installation portion, 4, the second mount pad, 41, the second guide-track groove, 411, the second slideway mouth, 42, the second installation portion, 5, the first movable shifting block, 51, the first stop part, 52, crotch section, 6, the second movable shifting block, 7, first shifting block that resets, 71, the first clicking section, 8, second shifting block that resets, 9, the first damper bar, 10, the second damper bar, 11, the first extension spring, 12, the second extension spring, 13, the location steering column, 571, projection, 14, the track type installing hole.
The specific embodiment
The below is elaborated to embodiments of the invention:
as shown in Figure 1 to Figure 3, a kind of sliding door two way damper, comprise the first mount pad 3, the second mount pad 4, the first damper bar 9, the second damper bar 10, the first extension spring 11, the second extension spring 12, the first shifting block and the second shifting block, the first mount pad 3 comprises the first guide-track groove 31, the second mount pad 4 comprises the second guide-track groove 41, the first shifting block is slidably mounted in the first guide-track groove 31, the second shifting block is slidably mounted in the second guide-track groove 41, and the first shifting block and the second shifting block cooperatively interact, the first damper bar 9 is connected with the first shifting block, the two ends of the first extension spring 11 are connected on the first shifting block and the first mount pad 3, the second damper bar 10 is connected with the second shifting block, the two ends of the second extension spring 12 are connected on the second shifting block and the second mount pad 4.
wherein, described the first shifting block comprises the first movable shifting block 5 and first shifting block 7 that resets, the first movable shifting block 5 and first shifting block 7 that resets all is slidably mounted in described the first guide-track groove 31, and the first movable shifting block 5 and first shifting block 7 activity pivot joints that reset, described the second shifting block comprises the second movable shifting block 6 and second shifting block 8 that resets, the second movable shifting block 6 and second shifting block 8 that resets all is slidably mounted in described the second guide-track groove 41, and the second movable shifting block 6 and second shifting block 8 activity pivot joints that reset, the described first movable shifting block 5 and second corresponding cooperation of shifting block 8 that resets, the second movable shifting block 6 and first corresponding cooperation of shifting block 7 that resets, described the first damper bar 9 and first shifting block 7 that resets is connected, the two ends of the first extension spring 11 are connected on the first movable shifting block 5 and the first mount pad 3, described the second damper bar 10 and second shifting block 8 that resets is connected, the two ends of the second extension spring 12 are connected on the second movable shifting block 6 and the second mount pad 4.The dual-side of described the first guide-track groove 31 is equipped with the first slideway mouth 311, the dual-side of the second guide-track groove 41 is equipped with the second slideway mouth 411, the first slideway mouth 311 has the afterbody that turns to described the first guide-track groove 31 bottoms, the second slideway mouth 411 has the afterbody that turns to described the second guide-track groove 41 bottoms, the described first movable shifting block 5 and first resets and is respectively equipped with the projection 571 that matches with the first slideway mouth 311 on shifting block 7, and the described second movable shifting block 6 and second resets and is respectively equipped with the projection 571 that matches with the second slideway mouth 411 on shifting block 8.Described the first guide-track groove 31 is provided with location steering column 13 at the afterbody place of the first slideway mouth 311, described the second guide-track groove 41 also is provided with location steering column 13 at the afterbody place of the second slideway mouth 411.Described first shifting block 7 that resets comprises the first clicking section 71, described second shifting block 8 that resets comprises the second clicking section, the described first movable shifting block 5 is provided with the first stop part 51, the described second movable shifting block 6 is provided with the second stop part, described the first clicking section 71 and the first stop part 51 stagger mutually, make the first clicking section 71 relative with the second stop part, described the second clicking section and the second stop part stagger mutually, make the second clicking section relative with the first stop part 51.The described first movable shifting block 5 and the second movable shifting block 6 are equipped with crotch section 52, the two ends of the first extension spring 11 are connected in the crotch section 52 and the first mount pad 3 of the described first movable shifting block 5, and the two ends of the second extension spring 12 are connected in the crotch section 52 and the second mount pad 4 of the described second movable shifting block 6.described the first mount pad 3 also comprises the first installation portion 32, described the second mount pad 4 also comprises the second installation portion 42, the first installation portion 32 is fixedly connected on the end of described the first guide-track groove 31, and connect with the first guide-track groove 31, the second installation portion 42 is fixedly connected on the end of described the second guide-track groove 41, and connect with the second guide-track groove 41, described the first damper bar 9 is fixedly mounted in the first installation portion 32, described the second damper bar 10 is fixedly mounted in described the second installation portion 42, the first damper bar 9 and the second damper bar 10 all have the movable telescopic end, the movable telescopic end of the first damper bar 9 stretches in described the first guide-track groove 31 and is connected with described the first shifting block, the movable telescopic end of the second damper bar 10 stretches in described the second guide-track groove 41 and is connected with described the second shifting block.Described sliding door two way damper also includes upper fixed seat 1 and lower fixed seat 2, and described the first mount pad 3 is fixedly mounted on upper fixed seat 1, and described the second mount pad 4 is fixedly mounted on described lower fixed seat 2.Described upper fixed seat 1 is provided with the track that is complementary with described the first mount pad 3, and this first mount pad 3 is arranged in this track, and described lower fixed seat 2 is provided with track type installing hole 14.
The first movable shifting block 5 and first reset shifting block 7 concrete structure figure as shown in Figure 2, because the reset structure of shifting block 8 of the second movable shifting block 6 and second is consistent with it, the present embodiment no longer illustrates its concrete structure.
For convenience of narration, described upper fixed seat 1, the first mount pad 3, the first damper bar 9, the first extension spring 11, the first movable shifting block 5 and first shifting block 7 that resets is combined and is collectively referred to as damper, and described lower fixed seat 2, the second mount pad 4, the second damper bar 10, the second extension spring 12, the second movable shifting block 6 and second shifting block 8 that resets is combined and is collectively referred to as lower damper.Upper damper is fixedly mounted on the sliding door guide rail, and lower damper is fixedly mounted on the sliding door door leaf;
Described " primary importance " is " first direction " to the direction of " second place ", and " second place " is " second direction " to the direction of " primary importance ".Described the first slideway mouth 311 the other end corresponding with its afterbody is called the head of the first slideway mouth 311, and described the second slideway mouth 411 the other end corresponding with its afterbody is called the head of the second slideway mouth 411.
The present embodiment also provides a kind of sliding door bidirectional damper method, and the method is:
When the sliding door door leaf moves to first direction, the first shifting block and the second shifting block interact, the second shifting block is slided on the second guide-track groove 41, damping buffering is carried out in second this slip of 10 pairs of damper bars, described interaction then makes the first shifting block slide on the first guide-track groove 31, and the first extension spring 11 carries out damping buffering to this slip;
When the sliding door door leaf moves to second direction, the first shifting block and the second shifting block interact, the first shifting block is slided on the first guide-track groove 31, damping buffering is carried out in first this slip of 9 pairs of damper bars, described interaction then makes the second shifting block slide on the second guide-track groove 41, and the second extension spring 12 carries out damping buffering to this slip.
In the present embodiment, when the sliding door door leaf is in primary importance, when namely descending damper to be in primary importance, the first movable shifting block 5 and first of the upper damper shifting block 7 that resets is in the head of the first slideway mouth 311, the second movable shifting block 6 and second of the lower damper shifting block 8 that resets is in the afterbody of the second slideway mouth 411, specifically as shown in Figure 4; When the sliding door door leaf is in the second place, when namely descending damper to be in the second place, the first movable shifting block 5 and first of the upper damper shifting block 7 that resets is in the afterbody of the first slideway mouth 311, the second movable shifting block 6 and second of the lower damper shifting block 8 that resets is in the head of the second slideway mouth 411, specifically as shown in Figure 6.
Normally close the door when location when sliding door, the first movable shifting block 5 is corresponding with the position of the second movable shifting block 6, and first reset shifting block 7 and second the reset position of shifting block 8 is also just in time corresponding, specifically as shown in Figure 3.
The specific works process of described sliding door two way damper is:
when the sliding door door leaf is begun to move to first direction by primary importance, namely descend damper to be begun to move to first direction by primary importance, at first the first movable shifting block 5 can stop second shifting block 8 that resets, make the second reset shifting block 8 drive the second movable shifting blocks 6 slide into head by the afterbody of the second slideway mouth 411 on the second guide-track groove 41, completed thus " resetting " of resetting shifting block 8 and the second movable shifting block 6 to second, in this process, damping buffering is carried out in the reset slip of shifting block 8 and the second movable shifting block 6 of 10 pairs second of the second damper bars, second reset shifting block 8 and the second movable shifting block 6 sliding door two way damper when just having completed " resetting " structural behavior figure as shown in Figure 5, then lower damper continues to move to first direction, the second reaction that resets 8 pairs of the first movable shifting blocks 5 of shifting block, can make the first movable shifting block 5 drive first shifting block 7 that resets and slide into afterbody by the head of the first slideway mouth 311 on the first guide-track groove 31, this moment, the first movable shifting block 5 turned to sinking to dodge second shifting block 8 that resets at the afterbody of the first slideway mouth 311, the sliding door door leaf smoothly by and move to the second place, in this process, damping buffering is carried out in 11 pairs of the first movable shifting blocks 5 of the first extension spring and the first slip that resets shifting block 7, when lower damper moves to the second place, the structural behavior figure of described sliding door two way damper as shown in Figure 6,
when the sliding door door leaf is begun to move to second direction by the second place, namely descend damper to be begun to move to second direction by the second place, at first the effect of 6 pairs first shifting blocks 7 that reset of the second movable shifting block, make the first reset shifting block 7 drive the first movable shifting blocks 5 slide into head by the afterbody of the first slideway mouth 311 on the first guide-track groove 31, completed thus " resetting " of resetting shifting block 7 and the first movable shifting block 5 to first, in this process, damping buffering is carried out in the reset slip of shifting block 7 and the first movable shifting block 5 of 9 pairs first of the first damper bars, the first movable shifting block 5 and first reset shifting block 7 sliding door two way damper when just having completed " resetting " structural behavior figure as shown in Figure 5, when then lower damper continues to move to second direction, the first reaction that resets 7 pairs of the second movable shifting blocks 6 of shifting block, can make the second movable shifting block 6 drive second shifting block 8 that resets and slide into afterbody by the head of the second slideway mouth 411 on the second guide-track groove 41, at this moment, the second movable shifting block 6 turns to sinking to dodge first shifting block 7 that resets at the afterbody of the second slideway mouth 411, the sliding door door leaf smoothly by and move to primary importance, in this process, damping buffering is carried out in 12 pairs of the second movable shifting blocks 6 of the second extension spring and the second slip that resets shifting block 8, when lower damper moves to primary importance, the structural behavior figure of sliding door two way damper as shown in Figure 4.
The damping buffering effect of above-mentioned the first damper bar 9, the first extension spring 11, the second damper bar 10 and the second extension spring 12, what embody on actual effect is that the sliding door door leaf is subject to damping buffering in mobile process.
In order to allow to see clearly more easily structure, the lower damper that is arranged on the sliding door door leaf shown in above-mentioned Fig. 4, Fig. 5, Fig. 6 has been done moving down of a segment distance with respect to the assembly structure figure of reality.Take Fig. 5 as example, its actual assembly structure figure should be Fig. 3.
The present embodiment has the following advantages:
1, the first shifting block and the second shifting block cooperatively interact, the sliding door door leaf is in the process that moves to first direction or second direction, the second shifting block can act on the first shifting block the first shifting block is slided on the first guide-track groove 31, the first shifting block can act on the second shifting block slides the second shifting block on the second guide-track groove 41, and the first damper bar 9, the first extension spring 11 is connected with the first shifting block respectively, the second damper bar 10, the second extension spring 12 is connected with the second shifting block respectively, the first damper bar 9, the second damper bar 10, the first extension spring 11 and the second extension spring 12 can carry out damping buffering to described slip, and then realize damping buffering and location in sliding door door leaf moving process, and this damper can be arranged on the centre of door leaf, and therefore, this damper can carry out to the sliding door door leaf that is arranged on each position bidirectional damper buffering and location.
2, the first movable shifting block 5 and second corresponding cooperation of shifting block 8 that resets, the second movable shifting block 6 and first corresponding cooperation of shifting block 7 that resets, second effect or 6 pairs of the first interaction energies that reset shifting block 7 of the second movable shifting block that reset 8 pairs of the first movable shifting blocks 5 of shifting block make the first movable shifting block 5 and first reset shifting block 7 in the first interior slip of guide-track groove 31, and the reset interaction energy of 7 pairs of the second movable shifting blocks 6 of shifting block of the effect or first of 5 pairs second shifting blocks 8 that reset of the first movable shifting block makes the second movable shifting block 6 and second reset shifting block 8 in the second interior slip of guide-track groove 41; The activity pivot joint of shifting block 7 and the first movable shifting block 5 and first resets, the reset activity pivot joint of shifting block 8 of the second movable shifting block 6 and second, condition is provided, thereby has been conducive to realize that the sliding door door leaf still can pass through smoothly after being subjected to damping buffering turning to sinking, the second movable shifting block 6 turning to sinking on the second guide-track groove 41 on the first guide-track groove 31 for the first movable shifting block 5.
3, described projection 571 and the first slideway mouth 311 coordinates, making the first movable shifting block 5 and first reset shifting block 7 can be in the first interior slip of guide-track groove 31, described projection 571 coordinates with the second slideway mouth 411, and making the second movable shifting block 6 and second reset shifting block 8 can be in the second interior slip of guide-track groove 41; The first slideway mouth 311 have turn to afterbody, can turn to sinking in the first guide-track groove 31 when the first movable shifting block 5 slides into this afterbody, dodging the second reset the passing through of shifting block 8, so the sliding door door leaf can be smoothly when moving along first direction by and be not stuck; The second slideway mouth 411 have turn to afterbody, can turn to sinking in the second guide-track groove 41 when the second movable shifting block 6 slides into the afterbody of the second slideway mouth 411, dodging the first reset the passing through of shifting block 7, so the sliding door door leaf can be smoothly when moving along second direction by and be not stuck.
4, the afterbody place of described slideway mouth is equipped with location steering column 13, work as the first above-mentioned movable shifting block 5 at the afterbody that slides into the first slideway mouth 311, location steering column 13 can block the first movable shifting block 5, the first movable shifting block 5 is turned to sinking in the first guide-track groove 31, and when the second movable shifting block 6 when sliding into the afterbody of the second slideway mouth 411, location steering column 13 can block the second movable shifting block 6, and two movable shifting blocks are turned to sinking in the second guide-track groove 41.
5, described the first clicking section 71 and the first stop part 51 stagger mutually, make the first clicking section 71 relative with the second stop part, can make the first reset shifting block 7 and the second corresponding cooperation of movable shifting block 6 or interaction; And described the second clicking section and the second stop part stagger mutually, make the second clicking section relative with the first stop part 51, can make the second reset shifting block 8 and the first corresponding cooperation of movable shifting block 5 or interaction.
6, the described first movable shifting block 5 and the second movable shifting block 6 are equipped with crotch section 52, and the first extension spring 11 can be assisted turning to sinking of the first movable shifting block 5 by the crotch section 52 that pulls the first movable shifting block 5; The second 12 of extension springs can be assisted turning to sinking of the second movable shifting block 6 by the crotch section 52 that pulls the second movable shifting block 6.
7, described the first mount pad 3 is fixed on the sliding door guide rail by upper fixed seat 1, and 4 of described the second mount pads are fixed on the sliding door door leaf by lower fixed seat 2.
8, be provided with the track that is complementary with the first mount pad 3 in described upper fixed seat 1, can facilitate when mounted and regulate the first mount pad 3 in the exact position of sliding door guide rail left and right, be provided with track type installing hole 14 in lower fixed seat 2, conveniently lower fixed seat 2 adjusted up and down.
9, described method can make described damper carry out bidirectional damper buffering and location to the movement of sliding door door leaf.
The above embodiment has only expressed the specific embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the scope of the claims of the present invention.Should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.