CN105507721A

CN105507721A - Bi-directional damper device

Info

Publication number: CN105507721A
Application number: CN201610033706.7A
Authority: CN
Inventors: 许姜德
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-01-19
Filing date: 2016-01-19
Publication date: 2016-04-20
Anticipated expiration: 2036-01-19
Also published as: CN105507721B

Abstract

The invention relates to a bi-directional damper device which is characterized by comprising a shell, a left damper, a right damper and a sliding part. A sliding groove is formed in the shell. A left linkage hook turning point groove, a left poking hook turning point groove, a right linkage hook turning point groove and a right poking hook turning point groove are formed in the sliding groove. A left linkage block is arranged on a damping pipe of the left damper. A left linkage hook is arranged on the left linkage block. A left elastic part with one end fixed to the left linkage block is arranged in the shell. A right linkage block is arranged on a damping pipe of the right damper. A right linkage hook is arranged on the right linkage block. A right elastic part with one end fixed to the right linkage block is arranged in the shell. A poking hook sliding along the sliding groove is arranged on the sliding part and can drive the sliding part to move when poked. The poking hook can be turned into the left poking hook turning point groove or the right poking hook turning point groove when sliding in the sliding groove. The sliding part is provided with a left poking part and a right poking part. The bi-directional damper device is simple in structure and can achieve bi-directional damping.

Description

A kind of bidirectional damper apparatus

[technical field]

The present invention relates to a kind of damper device be applied on door leaf.

[background technology]

Door leaf is in the process of freely opening or closing, and often because excessive velocities produces the sound clashed into, can bring noise like this, door leaf also easily damages.In order to the translational speed controlling door leaf can install damper device usually; door leaf produces damping in unlatching or closing process; existing damper device is all generally unidirectional damping; the damping in a direction can only be produced; when door leaf moves left and right, when needing bidirectional damper, usually can use two damper devices; install complicated, cost is high.

[summary of the invention]

The object of the invention is to overcome the deficiencies in the prior art, a kind of bidirectional damper apparatus that can provide bidirectional damper is provided.

In order to solve the problem, the present invention by the following technical solutions:

A kind of bidirectional damper apparatus, is characterized in that, comprising:

Housing, is provided with chute in described housing, and hook flex point groove, left group hook flex point groove, right interlock hook flex point groove, right group hook flex point groove move in the Left-wing Federation that is provided with of described chute;

Left damper, it is located in described housing, the damper tube of described left damper is provided with can along Left-wing Federation's motion block of described chute direction movement, described Left-wing Federation's motion block is provided with movably and can turns in the Left-wing Federation that the described Left-wing Federation moves in hook flex point groove and move hook, be provided with one end in described housing and be fixed on left elastic component on Left-wing Federation's motion block;

Right damper, it is located in described housing, the damper tube of described right damper is provided with can along the right linkage block of described chute direction movement, described right linkage block is provided with movably the right interlock hook that can turn in described right interlock hook flex point groove, is provided with one end in described housing and is fixed on right elastic component in right linkage block;

Sliding part, which is provided with group hook along slide, sliding part described in driving when described group of hook is struck moves, described dial to be hooked in can to turn when sliding in described chute to dial hook flex point groove to a described left side or rightly dial in hook flex point groove, described sliding part is provided with can be stirred the described Left-wing Federation and move hook and turn and move hook flex point groove and the left clicking section of Left-wing Federation's motion block movement described in driving and can stir described right interlock hook and turn from described right interlock hook flex point groove and the right clicking section of right linkage block movement described in driving from the described Left-wing Federation.

A kind of bidirectional damper apparatus as above, it is characterized in that: described hook of dialling is provided with the left elastic hook and right elastic hook that can be extruded and suppress in housing, be provided with between described left elastic hook and right elastic hook for shifting block slip into stir groove, described dialling on hook is respectively equipped with the left slide guide post and right slide guide post that slide in chute above described left elastic hook and right elastic hook, described sliding part is provided with the left guide runner when described left slide guide post turns in left group of hook flex point groove to left slide guide post slide-and-guide, described sliding part is also provided with the right guide runner to right slide guide post slide-and-guide when described right slide guide post turns in right group of hook flex point groove.

A kind of bidirectional damper apparatus as above, it is characterized in that: the described Left-wing Federation moves hook and is hinged on described Left-wing Federation's motion block, the described Left-wing Federation moves hook and is provided with to slide in described chute and can turn in the described Left-wing Federation and moves left guide sliding part in hook flex point groove; Described right interlock hook is hinged in described right linkage block, and described right interlock hook is provided with and can slides in described chute and the right guide sliding part that can turn in described right interlock hook flex point groove.

A kind of bidirectional damper apparatus as above, it is characterized in that: the described Left-wing Federation moves hook and is provided with the Left-wing Federation slipped into for described left clicking section and moves allocating slot, the both sides that allocating slot moves in the described Left-wing Federation are respectively equipped with the first left wall and the first right wall, when described left guide sliding part slide into the Left-wing Federation move in hook flex point groove time, the described first left wall is lower than the described first right wall; Described right interlock hook is provided with the right interlock allocating slot slipped into for described right clicking section, the both sides of described right interlock allocating slot are provided with the second left wall and the second right wall, when described right guide sliding part slips in described right interlock hook flex point groove, the described second right wall is lower than the described second left wall.

A kind of bidirectional damper apparatus as above, it is characterized in that: described hook of dialling is located between described left damper and right damper, the external part of described left damper and the damper tube of right damper is oppositely arranged, when the damper tube of the left damper described in described Left-wing Federation's motion block drives extends, described Left-wing Federation's motion block pulls described left elastic component elastic elongation; When the damper tube of the right damper described in described right linkage block drives extends, described right linkage block pulls described right elastic component elastic elongation.

A kind of bidirectional damper apparatus as above, is characterized in that: the two ends of described housing are respectively equipped with elastic clamping block, described elastic clamping block is provided with two elastic walls be oppositely arranged, and described elastic wall is provided with projection.

Beneficial effect of the present invention has: this device is fixed in framework, door leaf is arranged the shifting block that can be stirred hook, arranges left damper and right damper in housing, such door leaf all can have a damper effect moving left and right in process, realize bidirectional damper, structure is simple, easy for installation; The two ends of housing are respectively equipped with elastic clamping block, and elastic clamping block can directly in draw-in groove, be installed simple and convenient by elastic card.

[accompanying drawing explanation]

Fig. 1 is stereogram of the present invention;

Sectional view when Fig. 2 is on the right side of of the present invention group of hook slides into;

Fig. 3 is explosive view of the present invention;

Fig. 4 is exploded view of the present invention;

Fig. 5 is the front view of the Left-wing Federation of the present invention motion block;

Fig. 6 is using state reference diagram of the present invention.

[detailed description of the invention]

Below in conjunction with accompanying drawing and detailed description of the invention, the present invention is described in further detail:

As shown in Figures 1 to 6, a kind of bidirectional damper apparatus, is characterized in that, comprising:

Housing 1, chute 11 is provided with in housing 1, the end of chute 11 is provided with the Left-wing Federation and moves hook flex point groove 12, left group hook flex point groove 13, right interlock hook flex point groove 14, right group hook flex point groove 15, individual flex point groove is all turn downwards, hook flex point groove 12 and right interlock hook flex point groove 14 outermost end at chute 11 is moved by the Left-wing Federation, left group hook flex point groove 13 moves the right side of hook flex point groove 12 in the Left-wing Federation, right hook flex point groove 15 of dialling is in the left side of right interlock hook flex point groove 14, and hook flex point groove 12 moves in the Left-wing Federation, left hook flex point groove 13 of dialling is symmetrical arranged with right interlock hook flex point groove 14, right hook flex point groove 15 of dialling respectively; The two ends of housing 1 are respectively equipped with elastic clamping block 9, elastic clamping block 9 is provided with two elastic walls be oppositely arranged 91, elastic wall 91 is provided with protruding 92, elastic clamping block 9 is U-shaped block, during installation, be pressed in U-shaped mounting groove by elastic wall 91, protruding 92 can snap onto in the groove of U-shaped mounting groove, install simple and convenient;

Left damper 2, it is located in housing 1, the damper tube of left damper 2 is provided with can along Left-wing Federation's motion block 3 of chute 11 direction movement, the damper tube of left damper 2 can be driven when Left-wing Federation's motion block 3 moves to stretch, Left-wing Federation's motion block 3 is provided with movably and can turns in the Left-wing Federation that the Left-wing Federation moves in hook flex point groove 12 and move hook 31, hook 31 moves in the Left-wing Federation, be provided with one end in housing 1 and be fixed on left elastic component 4 on Left-wing Federation's motion block 3, left elastic component 4 is spring, when Left-wing Federation's motion block 3 drives the damper tube of left damper 2 to extend, Left-wing Federation's motion block 3 pulls described left elastic component 4 elastic elongation, when Left-wing Federation's motion block 3 drives the damper tube of left damper 2 to extend, spring is stretched, the Left-wing Federation moves hook 31 and turns in the Left-wing Federation when moving in hook flex point groove 12, the higher end that hook 31 moves in the Left-wing Federation is low, the Left-wing Federation moves hook 31 and is hinged on Left-wing Federation's motion block 3, and the Left-wing Federation moves hook 31 and is provided with to slide in chute 11 and can turn in the Left-wing Federation and moves left guide sliding part 33 in hook flex point groove 12, and left guide sliding part 33 extend into slide guide in chute 11,

Right damper 5, it is located in housing 1, the damper tube of right damper 5 is provided with can along the right linkage block 6 of chute 11 direction movement, right linkage block 6 is provided with movably the right interlock hook 61 that can turn in right interlock hook flex point groove 14, be provided with one end in housing 1 and be fixed on right elastic component 7 in right linkage block 6, the external part of the damper tube of left damper 2 and right damper 5 is oppositely arranged, and when right linkage block 6 drives the damper tube of right damper 5 to extend, right linkage block 6 pulls right elastic component 7 elastic elongation; Left damper 2, Left-wing Federation's motion block 3, the Left-wing Federation move hook 31, are symmetrical arranged with right damper 5, right linkage block 6, right interlock hook 61; Right interlock hook 61 is hinged in right linkage block 6, and right interlock hook 61 is provided with and can slides in chute 11 and the right guide sliding part 63 that can turn in right interlock hook flex point groove 14, and right guide sliding part 63 extend into slide guide in chute 11;

Sliding part 8, which is provided with group hook 81 slided along chute 11, dialling hook 81 one end reaches outside housing 1, dialling hook 81 is located between left damper 2 and right damper 5, dialling when hook 81 is struck to drive sliding part 8 to move, dial hook 81 can turn when sliding chute 11 in and dial in hook flex point groove 13 or the right side group hook flex point groove 15 left, sliding part 8 is provided with can be stirred the Left-wing Federation and move hook 31 and turn to move hook flex point groove 12 from the Left-wing Federation and drive the left clicking section 82 of Left-wing Federation's motion block 3 movement and can stir right interlock hook 61 and turn from right interlock hook flex point groove 14 and the right clicking section 83 driving the movement of right linkage block 6.

Dial hook 81 to be provided with and can be extruded to the left elastic hook 84 in housing 1 and right elastic hook 85, left elastic hook 84 and right elastic hook 85 stretch out outside housing 1, be provided with between left elastic hook 84 and right elastic hook 85 for shifting block slip into stir groove 86, dialling on hook 81 above left elastic hook 84 and right elastic hook 85 (top refers to it is relative position relation) is respectively equipped with the left slide guide post 87 of slip chute 11 in and right slide guide post 88, being located at top mainly facilitates left elastic hook 84 and right elastic hook 85 to rotate, the width of left guide sliding part 33 is wider than left slide guide post 87, the width of right guide sliding part 63 is wider than right slide guide post 88, sliding part 8 is provided with the left guide runner 89 when left slide guide post 87 turns in left group of hook flex point groove 13 to left slide guide post 87 slide-and-guide, sliding part 8 is also provided with the right guide runner 80 to right slide guide post 88 slide-and-guide when right slide guide post 88 turns in right group of hook flex point groove 15, left guide runner 89 and right guide runner 80 have certain radian to downward-extension.When dial hook 81 shifting block be moved on door stir move right time, sliding part 8 also and then moves right, left clicking section 82 is stirred the Left-wing Federation and is moved hook 31 and turn and move hook flex point groove 12 from the Left-wing Federation, and slide to the right with Left-wing Federation's motion block 3, the damper tube of left damper 2 extends, left elastic component 4 extends, when dialling hook 81 and moving to right group of hook flex point groove 15, the right slide guide post 88 dialled on hook 81 slips into right group hook flex point groove 15, dial hook 81 one end downward, namely right elastic hook 85 is downward, and the shifting block on such moving door will depart from right elastic hook 85, and moving door can continue mobile.

The Left-wing Federation moves hook 31 and is provided with the Left-wing Federation slipped into for left clicking section 82 and moves allocating slot 34, the both sides that allocating slot 34 moves in the Left-wing Federation are respectively equipped with the first left wall 35 and the first right wall 36, when left guide sliding part 33 slide into the Left-wing Federation move in hook flex point groove 12 time, the first left wall 35 is lower than the first right wall 36; Right interlock hook 61 is provided with the right interlock allocating slot 64 slipped into for right clicking section 83, and the both sides of right interlock allocating slot 64 are provided with the second left wall 65 and the second right wall 66, and when right guide sliding part 63 slips in right interlock hook flex point groove 14, the second right wall 66 is lower than the second left wall 65.Time initial, the damper tube of damper is all be in not elongation state, spring does not also extend, the Left-wing Federation moves hook 31 and right interlock hook 61 and turns in respectively and move in hook flex point groove 12 and in right interlock hook flex point groove 14 in the Left-wing Federation, when sliding part 8 moves right, the Left-wing Federation that left clicking section 82 is slipped into moves in allocating slot 34, stir the first right wall 36, make the Left-wing Federation move hook 31 to rotate, left guide sliding part 33 moves in hook flex point groove 12 from the Left-wing Federation and turns out, Left-wing Federation's motion block 3 moves right, until when group hook 81 moves to right group of hook flex point groove 15, the right slide guide post 88 dialled on hook 81 slips in right group hook flex point groove 15, sliding part 8 can not move again.

Course of action: this device is arranged on doorframe, moving door is arranged a shifting block, when supposing initial, sliding part 8 and group hook 81 are positioned at the middle part of housing 1, the i.e. centre of two dampers, now the damper tube of damper and spring are not stretched, and the Left-wing Federation's left guide sliding part 33 moved on hook 31 turns in and moves in hook flex point groove 12 in the Left-wing Federation, and the right guide sliding part 63 of right interlock hook 61 turns in right interlock hook flex point groove 14.Stir hook 81 in order to the shifting block on moving door can be entered into stir in groove 86, shifting block can extrude left elastic hook 84 or right elastic hook 85, and make under in its housing 1 of retracting, shifting block just can slide into and stir in groove 86.When door slides to the right, shifting block stirs right elastic hook 85, make to dial hook 81 to move right, sliding part 8 is driven and moves right, now, left clicking section 82 leans is stirring the first right wall 36 side, the Left-wing Federation will be stirred move hook 31 and rotate, left guide sliding part 33 is moved in hook flex point groove 12 from the Left-wing Federation turn out, Left-wing Federation's motion block 3 moves right, the damper tube of left damper 2 and left elastic component 4 is pulled to extend, until when group hook 81 moves to right group of hook flex point groove 15, the right slide guide post 88 dialled on hook 81 slips in right group hook flex point groove 15, sliding part 8 can not move again, now right elastic hook 85 turns downwards, right elastic hook 85 is not blocking shifting block, such moving door can continue to walk.When moving door is moved to the left again, shifting block directly enters into be stirred in groove 86, shifting block stirs left elastic hook 84, make to dial hook 81 to rotate, right slide guide post 88 is dialled in hook flex point groove 15 from the right side and is turned out in chute 11, right elastic hook 85 rotates again, sliding part 8 is moved to the left, now left clicking section 82 is also moved in allocating slot 34 in the Left-wing Federation, the first Zuo Bi35Shi Left-wing Federation motion block 3 will be stirred be moved to the left, damper tube and the left elastic component 4 of left damper 2 bounce back, left elastic component 4 can help damper tube to reset, now without under the effect of external force, moving door can be moved to the left by the effect of left elastic component 4, when dial hook 81 move to housing 1 middle time, moving door moves into place, when continuing promotion moving door and being moved to the left, sliding part 8 continues to be moved to the left, the first left wall 35 is stirred in left clicking section 82, make the Left-wing Federation move hook 31 to rotate, the Left-wing Federation's left guide sliding part 33 moved on hook 31 turns in and moves in hook flex point groove 12 in the Left-wing Federation, first left wall 35 rotates downwards, first left wall 35 is not blocking shifting block, door can continue to be moved to the left, now right clicking section 83 will be stirred right interlock hook 61 and rotated, subsequent movement process is identical with the process moved right, just direction is contrary.It is on three door systems that this device the best uses, and housing 1 is arranged in the middle part of crossbeam, and moving door is intermediate door, intermediate door arranges shifting block, when shifting block stir hook 81 within the case 1 portion time, door is in pass door state, moving right as opening to the right, being moved to the left as opening left.

Claims

1. a bidirectional damper apparatus, is characterized in that, comprising:

Housing (1), be provided with chute (11) in described housing (1), hook flex point groove (12), left group hook flex point groove (13), right interlock hook flex point groove (14), right group hook flex point groove (15) move in the Left-wing Federation that is provided with of described chute (11);

Left damper (2), it is located in described housing (1), the damper tube of described left damper (2) is provided with can along Left-wing Federation's motion block (3) of described chute (11) direction movement, described Left-wing Federation's motion block (3) is provided with movably and can turns in the Left-wing Federation moved in hook flex point groove (12) of the described Left-wing Federation and move hook (31), be provided with one end in described housing (1) and be fixed on left elastic component (4) on Left-wing Federation's motion block (3);

Right damper (5), it is located in described housing (1), the damper tube of described right damper (5) is provided with can along the right linkage block (6) of described chute (11) direction movement, described right linkage block (6) is provided with movably the right interlock hook (61) that can turn in described right interlock hook flex point groove (14), is provided with one end in described housing (1) and is fixed on right elastic component (7) in right linkage block (6);

Sliding part (8), which is provided with group hook (81) slided along chute (11), sliding part (8) described in described group of hook (81) can drive when being struck is mobile, described group hook (81) can turn when sliding in described chute (11) to be dialled in hook flex point groove (13) or right group hook flex point groove (15) to a described left side, described sliding part (8) is provided with can be stirred the described Left-wing Federation and move hook (31) and turn and move hook flex point groove (12) and the left clicking section (82) of Left-wing Federation's motion block (3) movement described in driving and can stir described right interlock hook (61) and turn from described right interlock hook flex point groove (14) and the right clicking section (83) of right linkage block (6) movement described in driving from the described Left-wing Federation.

2. a kind of bidirectional damper apparatus according to claim 1, it is characterized in that: described hook (81) of dialling is provided with the left elastic hook (84) and right elastic hook (85) that can be extruded and suppress in housing (1), be provided with between described left elastic hook (84) and right elastic hook (85) for shifting block slip into stir groove (86), described dialling on hook (81) is respectively equipped with in the top of described left elastic hook (84) and right elastic hook (85) the left slide guide post (87) and right slide guide post (88) slided in chute (11), described sliding part (8) is provided with the left guide runner (89) when described left slide guide post (87) turns in left group of hook flex point groove (13) to left slide guide post (87) slide-and-guide, described sliding part (8) is also provided with the right guide runner (80) to right slide guide post (88) slide-and-guide when described right slide guide post (88) turns in right group of hook flex point groove (15).

3. a kind of bidirectional damper apparatus according to claim 1, it is characterized in that: the described Left-wing Federation moves hook (31) and is hinged on described Left-wing Federation's motion block (3), the described Left-wing Federation moves hook (31) and is provided with to slide in described chute (11) and can turn in the described Left-wing Federation and moves left guide sliding part (33) in hook flex point groove (12); Described right interlock hook (61) is hinged in described right linkage block (6), and described right interlock hook (61) is provided with can be slided and the right guide sliding part (63) that can turn in described right interlock hook flex point groove (14) in described chute (11).

4. a kind of bidirectional damper apparatus according to claim 3, it is characterized in that: the described Left-wing Federation moves hook (31) and is provided with the Left-wing Federation slipped into for described left clicking section (82) and moves allocating slot (34), the both sides that allocating slot (34) moves in the described Left-wing Federation are respectively equipped with the first left wall (35) and the first right wall (36), when described left guide sliding part (33) slide into the Left-wing Federation move in hook flex point groove (12) time, the described first left wall (35) is lower than the described first right wall (36); Described right interlock hook (61) is provided with the right interlock allocating slot (64) of slipping into for described right clicking section (83), the both sides of described right interlock allocating slot (64) are provided with the second left wall (65) and the second right wall (66), when described right guide sliding part (63) slips in described right interlock hook flex point groove (14), the described second right wall (66) is lower than the described second left wall (65).

5. a kind of bidirectional damper apparatus according to claim 1, it is characterized in that: described hook (81) of dialling is located between described left damper (2) and right damper (5), the external part of described left damper (2) and the damper tube of right damper (5) is oppositely arranged, when the damper tube of the left damper (2) described in described Left-wing Federation's motion block (3) drives extends, described Left-wing Federation's motion block (3) pulls described left elastic component (4) elastic elongation; When the damper tube of the right damper (5) described in described right linkage block (6) drives extends, described right linkage block (6) pulls described right elastic component (7) elastic elongation.

6. a kind of bidirectional damper apparatus according to claim 1, it is characterized in that: the two ends of described housing (1) are respectively equipped with elastic clamping block (9), described elastic clamping block (9) is provided with two elastic walls be oppositely arranged (91), and described elastic wall (91) is provided with projection (92).