CN103582736B - Vertical blind and hanger rail - Google Patents

Abstract

Vertical blind provided by the invention, there is axle (4), anti-vibration member (8) and block (10, 11), the both ends of axle (4) are supported in the both ends of hanger rail (1) in the mode that can rotate, anti-vibration member (8) is the mode of movement can be supported in hanger rail (1) and to insert for axle (4), and, when carrying out the folding operation of blade (3), anti-vibration member (8) and guide pulley (2a) are together moved by leaf folding direction, block (10, 11) anti-vibration member (8) is held in the Support Position place of the flexure stoping axle (4), on position beyond the side that block (10,11) is arranged at hanger rail (1).

Description

Vertical blind and hanger rail

Technical field

The present invention relates to vertical blind, this vertical blind is provided with the anti-vibration member of the vibration suppressing vane drive axle in hanger rail (hangerrail).

Background technology

In vertical blind, from can the mode of movement be supported in hanger rail multiple pulleys respectively suspension strut have blade, and, in each pulley, insert the angular adjustment axle be supported in the mode that can rotate in hanger rail.And when the operation by operating means makes angular adjustment axle rotate, each blade is in phase rotating.

In addition, by the operation of operating means, each pulley is moved in hanger rail, thus by each blade along hanger rail pull-out or folding.

In above-mentioned vertical blind, when each blade is folded, angularly regulating shaft is only by state that the both ends of hanger rail support.So, bend because of its deadweight at the length direction pars intermedia angular adjustment axle of hanger rail, thus cause carrying out when carrying out pulling operation to blade afterwards the operating physical force that pulley moves needed for operation and increase, or produce noise along with the rotation of angular adjustment axle.

Therefore, propose and possess when folding blade this vertical blind of anti-vibration member that the pars intermedia of angle regulating shaft supports.

Disclosed in patent document 1, vertical blind has turning cylinder and gap retaining member, and wherein, turning cylinder carries out rotating operation to blade, and gap retaining member is equally spaced support screw rod blade being carried out to conveying operations at the pars intermedia of guide rail.

[prior art document]

[patent document]

Patent document 1: JP Publication, in fact public clear No. 57-55917

Summary of the invention

In the vertical blind disclosed in patent document 1, when carrying out folding operation to blade, move to assigned position to make gap retaining member and remain on this assigned position place, and give prominence to latching at the assigned position place of the opposite medial surface of guide rail and be used as block, thus by this every a pair latching, gap retaining member is held in assigned position.

But, when this block is installed on guide rail, needs to have multiple hole squeezing into latching in the two sides, front and back of guide rail, then in this some holes, squeeze into latching respectively.

Therefore, the complicated and component count of the installation exercise of block increases thus causes cost increase.In addition, the head due to latching is exposed to the side of guide rail, and the aesthetic property that therefore there is guide rail declines this problem.

In addition, when arranging the locating slot extended in the horizontal direction in order to be squeezed in mode consistent in the height direction by the latching of separate configuration on rail length direction on the lateral surface of guide rail, the suffered restriction of design that there is guide rail increases this problem.

The object of the present invention is to provide a kind of vertical blind, the component count of the block of assigned position anti-vibration member being held in hanger rail can be cut down according to this vertical blind, and the aesthetic property of hanger rail can be improved.

Vertical blind provided by the invention has axle, anti-vibration member and block, the both ends of above-mentioned axle are supported in the both ends of hanger rail in the mode that can rotate, above-mentioned anti-vibration member is the mode of movement can be supported in above-mentioned hanger rail and to insert for above-mentioned axle, and, when carrying out the folding operation of blade, above-mentioned anti-vibration member and guide pulley are together moved by leaf folding direction, and above-mentioned anti-vibration member is held in the Support Position place of the flexure stoping above-mentioned axle by above-mentioned block.On position beyond the side that above-mentioned block is arranged at above-mentioned hanger rail.

In a form of the present invention, above-mentioned anti-vibration member is provided with engaging portion, this engaging portion engages with an above-mentioned block and above-mentioned anti-vibration member is held in the Support Position place of above-mentioned axle.

In a form of the present invention, above-mentioned block is arranged on the top margin of above-mentioned hanger rail.

In a form of the present invention, above-mentioned block is arranged on the shoulder above the side being formed at above-mentioned hanger rail.

In a form of the present invention, above-mentioned block is arranged on the base of above-mentioned hanger rail.

In a form of the present invention, above-mentioned block is given prominence to obliquely along the length direction of this hanger rail from the top margin of above-mentioned hanger rail, above-mentioned engaging portion has the elasticity bending when abutting against with the inclined-plane of above-mentioned block thus cross above-mentioned block.

In a form of the present invention, joint-cutting processing is implemented to above-mentioned hanger rail and forms above-mentioned block.

In a form of the present invention, length direction along above-mentioned hanger rail is provided with multiple above-mentioned block, and, the height given prominence to from above-mentioned hanger rail inner surface of each block is formed as at least two kinds of different height, so that the mode of movement multiple anti-vibration member can be supported with in above-mentioned hanger rail, each above-mentioned anti-vibration member is provided with engaging portion, and above-mentioned engaging portion engages from any one block of above-mentioned block thus makes above-mentioned anti-vibration member stop at multiple different Support Position place.

In a form of the present invention, with different length, joint-cutting processing is carried out to each above-mentioned block, thus the projecting height of each block is formed as multiple height, and, above-mentioned anti-vibration member is provided with the engaging portion of any one block engaging in the block different from projecting height.

In a form of the present invention, with different angles, joint-cutting processing is carried out to each above-mentioned block, thus the projecting height of each block is formed as multiple height, and, above-mentioned anti-vibration member is provided with the engaging portion of any one block engaging in the block different from projecting height.

In a form of the present invention, with different length and different angles, joint-cutting processing is carried out to each above-mentioned block, thus the projecting height of each block is formed as multiple height, and, above-mentioned anti-vibration member is provided with the engaging portion of any one block engaging in the block different from projecting height.

In a form of the present invention, above-mentioned block is arranged multiple row on the fore-and-aft direction of hanger rail, and, multiple blocks different for projecting height are separately positioned on each row.

In a form of the present invention, above-mentioned block is arranged on the position of above-mentioned axle being carried out along its length decile.

In a form of the present invention, be provided with multiple above-mentioned anti-vibration member, and, make the above-mentioned block engaged with each above-mentioned anti-vibration member be positioned at width range directly over above-mentioned axle and suitable with the diameter of above-mentioned axle.

In addition, the invention provides a kind of hanger rail, this hanger rail has the block at the Support Position place when carrying out folding operation to blade, anti-vibration member being held in axle.On position beyond the side that above-mentioned block is arranged at above-mentioned hanger rail.

In a form of the present invention, be processed to form above-mentioned block by joint-cutting.

In a form of the present invention, the length direction along above-mentioned hanger rail is provided with multiple above-mentioned block, and, the height given prominence to from above-mentioned hanger rail inner surface of each block is formed as at least two kinds of different height.

In a form of the present invention, with different length, joint-cutting processing is carried out to each above-mentioned block, thus the projecting height of each block is formed as multiple height.

In a form of the present invention, with different angles, joint-cutting processing is carried out to each above-mentioned block, thus the projecting height of each block is formed as multiple height.

In a form of the present invention, with different length and different angles, joint-cutting processing is carried out to each above-mentioned block, thus the projecting height of each block is formed as multiple height.

In a form of the present invention, above-mentioned block is arranged multiple row on the fore-and-aft direction of hanger rail, and, multiple blocks different for projecting height are separately positioned on each row.

(invention effect)

According to the present invention, the component count of the block of assigned position anti-vibration member being held in hanger rail can be cut down, and the aesthetic property of hanger rail can be improved.

Accompanying drawing explanation

Fig. 1 is the front view of the vertical blind representing the first embodiment.

Fig. 2 is the stereogram of the hanger rail representing the first embodiment.

Fig. 3 is the sectional view of the hanger rail representing the first embodiment.

Fig. 4 is the stereogram of the second anti-vibration member representing the first embodiment.

Fig. 5 is the stereogram of the first anti-vibration member representing the first embodiment.

Fig. 6 represents the second anti-vibration member of the first embodiment and the sectional view of block.

Fig. 7 represents the first anti-vibration member of the first embodiment and the sectional view of block.

Fig. 8 is the sectional view of the action of the second anti-vibration member representing the first embodiment.

Fig. 9 is the sectional view of the effect of the hanger rail representing the first embodiment.

Figure 10 is the sectional view of the effect of the hanger rail representing the first embodiment.

Figure 11 is the sectional view of the hanger rail representing the second embodiment.

Figure 12 is the sectional view of the hanger rail representing the 3rd embodiment.

Figure 13 represents the anti-vibration member of the 4th embodiment and the sectional view of block.

Figure 14 represents the anti-vibration member of the 5th embodiment and the sectional view of block.

Figure 15 represents the anti-vibration member of the 6th embodiment and the sectional view of block.

Figure 16 represents the anti-vibration member of the 7th embodiment and the sectional view of block.

Figure 17 is the sectional view of the hanger rail representing the 8th embodiment.

In Figure 18, (a) ~ (e) is the sectional view of the hanger rail representing the 8th embodiment.

Figure 19 is the sectional view of another example of the hanger rail representing the 8th embodiment.

Figure 20 is the sectional view of another example of the hanger rail representing the 8th embodiment.

Figure 21 is the sectional view of the hanger rail representing the 9th embodiment.

Figure 22 represents the anti-vibration member of the tenth embodiment and the lateral view of block.

Figure 23 is the exploded perspective view of the anti-vibration member representing the tenth embodiment.

Figure 24 is the lateral view representing the anti-vibration member of the tenth embodiment and the effect of block.

Figure 25 is the lateral view representing the anti-vibration member of the tenth embodiment and the effect of block.

Figure 26 is the exploded perspective view of another example of the anti-vibration member representing the tenth embodiment.

Figure 27 represents the anti-vibration member of another example of the tenth embodiment and the lateral view of the effect of block.

Figure 28 represents the anti-vibration member of another example of the tenth embodiment and the lateral view of the effect of block.

Figure 29 is the top view of the anti-vibration member representing the 11 embodiment.

Figure 30 is the top view of the anti-vibration member representing the 12 embodiment.

Figure 31 is the lateral view of the anti-vibration member representing the 13 embodiment.

Figure 32 represents the anti-vibration member of the 14 embodiment and the lateral view of block.

Figure 33 is the lateral view representing the anti-vibration member of the 14 embodiment and another example of block.

Figure 34 is the lateral view representing the anti-vibration member of the 14 embodiment and another example of block.

(symbol description)

1 ... hanger rail

2a ... guide pulley

3 ... blade

4 ... axle (angular adjustment axle)

8,9,47,50,53,56 ... anti-vibration member

10,11,31,32,41,42,43,44,45,46,51,52 ... block

19,21,48,49,54,55 ... engaging portion

Detailed description of the invention

(the first embodiment)

Below, with reference to the accompanying drawings the first embodiment of the present invention is described particularly.In the vertical blind shown in Fig. 1, multiple pulley 2 and guide pulley 2a (leadrunner) are can the mode of movement be supported in hanger rail (hangerrail) 1, further, from this pulley 2,2a respectively rotatably suspension strut have blade 3.In FIG, above-mentioned guide pulley 2a is positioned at the low order end side of hanger rail 1 relative to other pulleys 2.

The both ends being disposed in the angular adjustment axle 4 in above-mentioned hanger rail 1 are supported on the both ends of hanger rail 1 in the mode that can rotate, and angular adjustment axle 4 is inserted in above-mentioned each pulley 2,2a.

The left end of above-mentioned hanger rail 1 is provided with operating means 5, and from this operating means 5, suspension strut has hook stick 6.And, by the operation of hook stick 6, above-mentioned angular adjustment axle 4 being rotated, making each blade 3 in phase rotating according to the rotation of angular adjustment axle 4 via the worm and worm gear in each pulley 2,2a.

The operating rope 7 of ring-type hangs down from aforesaid operations device 5, and this operating rope 7 rotatably moves around in above-mentioned hanger rail 1.And one of the operating rope 7 moved around in hanger rail 1 is installed on above-mentioned guide pulley 2a.

According to above-mentioned formation, by operating the operating rope 7 hung down from aforesaid operations device 5, guide pulley 2a is moved along hanger rail 1.And when guide pulley 2a moves to arrow A direction, follow-up pulley 2 separates equal interval and is pulled successively.In addition, when guide pulley 2a moves to arrow B direction, the directed pulley 2a of follow-up pulley 2 pushes back successively thus is folded to the left end side of (being contained in) hanger rail 1.

Therefore, vertical blind in this embodiment is the vertical blind of following type: namely, from the left end side of hanger rail 1 to the right side along arrow A direction pull-out blade 3 or from the right-hand member side direction left end side of hanger rail 1 along single open form vertical blind of arrow B direction folding blade 3.

Under the state of right-hand member side that above-mentioned guide pulley 2a moves to hanger rail 1, first and second anti-vibration member 8,9 is held on the front end face (in figure right side) of guide pulley 2a.In this condition, magnet described later is utilized guide pulley 2a and first and second anti-vibration member 8,9 mutually to be adsorbed.

This first and second anti-vibration member 8,9 forms the parts preventing the antihunting device of the flexure of angular adjustment axle 4, when blade 3 being carried out folding, first and second anti-vibration member 8,9 is maintained at the position of the total length of angular adjustment axle 4 being carried out trisection, thus prevents the flexure of angular adjustment axle 4.

In addition, when the length of angular adjustment axle 4 short and utilize an anti-vibration member enough prevent flexure, by joint-cutting processing (lancingprocess) only in a place of the central portion of hanger rail 1, form block (stopper).In addition, when utilize because the length of angular adjustment axle 4 is long the anti-vibration member of more than three be equally spaced support angle regulating shaft 4, in equally spaced arranging the block with anti-vibration member equal number on hanger rail 1, this block arranges the position of staggering in the longitudinal direction on hanger rail 1.And, anti-vibration member needs arrange the engaging portion engaged with any one block in each block.

Then, the concrete formation of antihunting device is described.Above-mentioned hanger rail 1 is formed by extruded aluminium section, and as shown in Figures 2 and 3, utilize forcing press to implement elongated joint-cutting processing along the top margin of length direction to above-mentioned hanger rail 1 of above-mentioned hanger rail 1, thus on two positions, place of the top margin of above-mentioned hanger rail 1, form these two blocks of first and second block 10,11.

First and second block 10,11 above-mentioned is that its front end processes sheet towards the joint-cutting that the pull-out inclination of the right-hand member side of above-mentioned hanger rail 1, i.e. blade 3 is tiltedly outstanding.The Working position of first and second block 10,11 above-mentioned on hanger rail 1 length direction is: the Working position of the first block 10 is positioned on the position of about 1/3 distance of hanger rail 1 total length of being separated by with the left end side of hanger rail 1, and the Working position of the second block 11 is positioned on the position of about 1/3 distance of hanger rail 1 total length of being separated by with the right-hand member side of hanger rail 1.

In addition, first and second block 10,11 is formed on the position that the left and right directions in the fore-and-aft direction of hanger rail 1, i.e. Fig. 6 staggers, and the first block 10 is formed on the position of close back side edge of hanger rail 1.And first and second block 10,11 is formed in the width range suitable with the diameter of angular adjustment axle 4 above angular adjustment axle 4.

As shown in figure 5 and figure 7, the housing 12 of above-mentioned first anti-vibration member 8 is formed as thinner than the thickness of shell of above-mentioned pulley 2 rectangular-shaped by having flexible synthetic resin.Be formed in the both sides, front and back of above-mentioned housing 12 and guide teat 14, this guiding teat 14 is supported between the pair of ribs (rib) 13 on the medial surface being respectively formed at above-mentioned hanger rail 1 both sides.In addition, the bottom surface of above-mentioned housing 12 is formed with the end difference 16 engaged with the flank 15 of the both sides, opening portion of above-mentioned hanger rail 1.

And the first anti-vibration member 8 can move by being guided by the flank 13,15 of hanger rail 1 in hanger rail 1.

On the central portion of left and right directions side, the i.e. two sides of anti-vibration member moving direction of the housing 12 of above-mentioned first anti-vibration member 8, inlay with the state making magnet 17 expose and magnet 17 is installed.And, utilize the absorption affinity of magnet 17, the first anti-vibration member 8 can be adsorbed on be positioned at its moving direction both sides the second anti-vibration member 9 and above-mentioned guide pulley 2a on.

The lateral location place of the above-mentioned magnet 17 in above-mentioned housing 12 is formed with the inserting hole 18 can inserted for above-mentioned angular adjustment axle 4.And the first anti-vibration member 8 can be mobile in hanger rail 1 while utilizing inserting hole 18 support angle regulating shaft 4.

Top position on the end face of above-mentioned housing 12, above-mentioned inserting hole 18, be specifically formed with the first outstanding upward engaging portion 19 than the center of inserting hole 18 slightly by the medial surface side position place of hanger rail 1, this first engaging portion 19 engages with above-mentioned first block 10.In other words, above-mentioned first block 10 is formed as being positioned on the motion track of first engaging portion 19 of the first anti-vibration member 8 when hanger rail 1 is mobile.

As shown in Figure 4 and Figure 6, except the second engaging portion 21 being formed at housing 20 top, above-mentioned second anti-vibration member 9 has the formation identical with the first anti-vibration member 8.Give same symbol for the component part identical with the first anti-vibration member 8, and omit its detailed description.And the second anti-vibration member 9 can be mobile in hanger rail 1 while utilizing inserting hole 18 support angle regulating shaft 4.

Second engaging portion 21 of above-mentioned second anti-vibration member 9 is that the front end of the support chip 22 by being extended the side from housing 20 bends upward and projects to the height identical with above-mentioned first engaging portion 19 and formed.This second engaging portion 21 is formed in the mode of in the top position of above-mentioned inserting hole 18, specifically giving prominence to upward than the center of inserting hole 18 slightly by the center side position of housing 20, and this second engaging portion 21 engages with above-mentioned second block 11.In other words, above-mentioned second block 11 is formed as being positioned on the motion track of second engaging portion 21 of the second anti-vibration member 9 when hanger rail 1 is mobile.

In addition, above-mentioned second engaging portion 21 is flexibly supported by housing 20 via support chip 22, when making the second engaging portion 21 abut against from the left end side of hanger rail 1 and the inclined-plane of above-mentioned second block 11, the second card top 21 bends as shown in Figure 8 and crosses the second block 11.

In this embodiment, because the second anti-vibration member 9 can insert from the right-hand member side of hanger rail 1 and assemble, therefore do not need to possess the function flexibly supporting the second engaging portion 21.Therefore, the second engaging portion 21 also can be formed as giving prominence to upward from the end face of housing 20 in the same manner as the first engaging portion 19 of the first anti-vibration member 8.

Next, the effect of the vertical blind formed as described above is described.

The number of assembling steps of this vertical blind is described as follows: first, the long hanger rail material after being subjected to application or attrition process is cut off according to order width.Then, the above-mentioned joint-cutting processing of only stipulated number is implemented at the prior assigned position place according to ordering width setting.

Then, insert pulley 2 and guide pulley 2a and anti-vibration member from the end of hanger rail 1, and insert angular adjustment axle 4, then operating means 5 and end cap etc. are entrenched on hanger rail 1, wherein, inserted in above-mentioned pulley 2 and guide pulley 2a or be fixed with operating rope 7.Then, when operating rope 7 is adjusted to can rotate in hanger rail 1 time, just form the slide rail assembly (RailAssembly) hanger rail being provided with the tape member of required parts.

When by the slide rail assembly of this tape member via installation bracket or be directly fixed on installed surface, and, by blade suspension strut on each pulley and utilize the end restrict (bottomcode) be connected to each blade time, the setting of vertical blind just completes.

When assembling this vertical blind, the right-hand member of first and second anti-vibration member 8,9 from hanger rail 1 is inserted in hanger rail 1, and as shown in Figure 1 in the state be adsorbed on guide pulley 2a.

When guide pulley 2a is moved into the right-hand member side of hanger rail 1 and makes blade 3 be drawn out, first and second anti-vibration member 8,9 is adsorbed on guide pulley 2a as shown in Figure 9.

Move guide pulley 2a to arrow B direction in this condition and make blade 3 folded (collecting) when the left end side of hanger rail 1, first first and second anti-vibration member 8,9 is together moved with guide pulley 2a.

Then, when the second anti-vibration member 9 arrives the position of the second block 11, the second engaging portion 21 of the second anti-vibration member 9 engages with the second block 11, thus the second anti-vibration member 9 is pulled away from the first anti-vibration member 8, and in the state at this clamped position place support angle regulating shaft 4.

Then, guide pulley 2a moves to same direction further, when the first anti-vibration member 8 arrives the position of the first block 10, first engaging portion 19 of the first anti-vibration member 8 engages with the first block 10, thus the first anti-vibration member 8 is pulled away from guide pulley 2a, and in the state at this clamped position place support angle regulating shaft 4.Then, time near the left end that guide pulley 2a is moved into hanger rail 1, blade 3 is folded to the left end side of hanger rail 1.

Now, as shown in Figure 10, first and second anti-vibration member 8,9 is maintained at the position total length of angular adjustment axle 4 being divided into trisection, and becomes the bearing of rotatably support angle regulating shaft 4.

When the right-hand member side making guide pulley 2a to hanger rail 1 is in this condition moved, follow-up pulley 2 separates equal interval and is pulled successively, thus is pulled out by blade 3.When guide pulley 2a and the first anti-vibration member 8 abut against, the first anti-vibration member 8 to be adsorbed on guide pulley 2a thus to be together moved with guide pulley 2a.

When guide pulley 2a moves to same direction further and abuts against with the second anti-vibration member 9, the second anti-vibration member 9 is adsorbed on the first anti-vibration member 8, thus is together moved with guide pulley 2a and the first anti-vibration member 8.So blade 3 is drawn out, and guide pulley 2a and first and second anti-vibration member 8,9 are moved into the right-hand member side of hanger rail 1.

According to the vertical blind formed as described above, effect shown below can be obtained.

(1) when blade 3 is folded to the left end side of hanger rail 1, first and second anti-vibration member 8,9 is made to be positioned at the position total length of angular adjustment axle 4 being carried out dividing equally, thus can support angle regulating shaft 4.Therefore, it is possible to prevent angular adjustment axle 4 from bending because of its deadweight.

(2) first and second block 10,11 owing to first and second anti-vibration member 8,9 to be held in assigned position is arranged on the top margin of hanger rail 1, thus can prevent first and second block 10,11 from exposing to indoor.Therefore, it is possible to improve the aesthetic property of hanger rail 1.

(3) by carrying out joint-cutting processing to the top margin of hanger rail 1, easily can form first and second block 10,11, and can component count be cut down thus reduce costs.

(4) first and second block 10,11 can be utilized respectively to make first and second anti-vibration member 8,9 stop at the position of support angle regulating shaft 4.Therefore, form the block with anti-vibration member equal number, thus the formation process of block can be simplified and reduce manufacturing cost.

(5) because first and second block 10,11 is positioned at the width range suitable with the diameter of angular adjustment axle 4 above angular adjustment axle 4, therefore, even if make anti-vibration member 8,9 engage with a block 10,11 and make anti-vibration member 8,9 stop, anti-vibration member 8,9 also not easily produces the revolving force in the horizontal direction centered by angular adjustment axle 4.Therefore, it is possible to prevent the friction between angular adjustment axle 4 and inserting hole 18 from increasing.

(the second embodiment)

Second embodiment shown in Figure 11.What represent in this embodiment is the hanger rail used the two open form vertical blind folded from the length direction central portion of hanger rail to its both ends by blade.

In the hanger rail 1 shown in Figure 11, in the position by the total length of the total length of hanger rail 1, i.e. above-mentioned angular adjustment axle 4 roughly trisection, form the 3rd and fourth gear block 31,32 by carrying out joint-cutting processing towards mutually relative direction.

For the vertical blind of two open form, when blade is drawn out, two guide pulley are moved into the length direction central portion of hanger rail 1, and when this guide pulley is moved by the both ends to hanger rail 1, blade is folded to the both ends of hanger rail 1.

For the hanger rail 1 used in this pair of open form vertical blind, when carrying out the folding operation of blade, anti-vibration member and guide pulley together move from the central portion of hanger rail 1 to both ends, and engage with the 3rd and fourth gear block 31,32 thus be kept.

About the anti-vibration member of present embodiment, in the operation of the slide rail assembly of assembled belt parts, need anti-vibration member is moved between third gear block 31 and fourth gear block 32 from any one end of hanger rail 1.Therefore, use the second anti-vibration member 9 in the first embodiment, and, make the second flexure limit, engaging portion 21 limit cross third gear block 31 or fourth gear block 32 as shown in Figure 8, thus the second anti-vibration member 9 is moved between third gear block 31 and fourth gear block 32.

In addition, owing to being moved to its both ends by the length direction central portion of anti-vibration member from hanger rail 1 in present embodiment, therefore, third gear block 31 and fourth gear block 32 do not need staggered positions on the left and right directions in the fore-and-aft direction of hanger rail 1, i.e. Fig. 8.

According to the two open form vertical blind so formed, the effect identical with above-mentioned first embodiment can be obtained.

(the 3rd embodiment)

3rd embodiment shown in Figure 12.What represent in this embodiment is the hanger rail that use two hook sticks will use dual rod type (doublebatontype) vertical blind folding from the two ends of hanger rail 1 towards length direction central portion for blade.

In hanger rail 1 shown in Figure 12, in the position of total length roughly five decile by the total length of hanger rail 1, i.e. above-mentioned angular adjustment axle 4, processed by joint-cutting and be formed with the five ~ eight block 41 ~ 44.

5th and sixth gear block 41,42 carry out joint-cutting processing in the mode that the left end side towards hanger rail 1 is outstanding, 7th and the 8th block 43,44 carries out joint-cutting processing in the mode that the right-hand member side towards hanger rail 1 is outstanding, and, in the same manner as the first embodiment, the five ~ eight block 41 ~ 44 staggered positions and being formed on the fore-and-aft direction of hanger rail 1.

And, the anti-vibration member identical with above-mentioned first embodiment is adsorbed in move from the end side of hanger rail 1 towards length direction central portion in each guide pulley and by this guide pulley thus folding blade time, each anti-vibration member engages with the 5th and sixth gear block the 41,42 or the 7th and the 8th block 43,44 successively.Further, angular adjustment axle 4 is rotatably supported in this clamped position place.

According to the dual rod type vertical blind so formed, the effect identical with above-mentioned first embodiment can be obtained.

(the 4th embodiment)

4th embodiment shown in Figure 13.In this embodiment, squeeze into latching from the top margin of hanger rail 1 and form the 9th and the tenth block 45,46.9th and the tenth block 45,46 is arranged on the position total length of hanger rail 1 being divided into trisection in the same manner as the first embodiment, and is formed in the both sides of the fore-and-aft direction central portion of hanger rail 1.

As the anti-vibration member engaged with the 9th and the tenth block 45,46, use anti-vibration member 47 and anti-vibration member 50, anti-vibration member 47 has and extends in the horizontal direction and the engaging portion 48 engaged with the 9th block 45 from the side of housing, and anti-vibration member 50 has and extends in the horizontal direction and the engaging portion 49 engaged with the tenth block 46 from the central portion of housing.

According to above-mentioned formation, the effect identical with the effect (1) obtained in above-mentioned first embodiment, (2), (4) can be obtained.

(the 5th embodiment)

5th embodiment shown in Figure 14.In this embodiment in the same manner as the 4th embodiment, squeeze into latching from the top margin of hanger rail 1 and form the 11 and the 12 block 51,52.

11 and the 12 block 51,52 is arranged on the position total length of hanger rail 1 being divided into trisection, and is formed at the both sides of the fore-and-aft direction central portion of hanger rail 1.In addition, the 11 block 51 is formed on the position of the fore-and-aft direction central portion of hanger rail 1, and the 12 block 52 is formed on the position of the side of hanger rail 1.

As the anti-vibration member engaged with the 11 and the 12 block 51,52, use anti-vibration member 53 and anti-vibration member 56, anti-vibration member 53 has and extends in the horizontal direction and the engaging portion 54 engaged with the 11 block 51 from the side of housing, and anti-vibration member 56 has and extends in the horizontal direction and the engaging portion 55 engaged with the 12 block 52 from the central portion of housing.

According to above-mentioned formation, the effect identical with the effect (1) obtained in above-mentioned first embodiment, (2), (4) can be obtained.

(the 6th embodiment)

6th embodiment shown in Figure 15.In this embodiment, be formed as on the shoulder of inclined plane shape on the side top of hanger rail 1 towards oblique upper, be formed with the 9th and the tenth block 145,146.9th and the tenth block 145,146 is arranged on the position total length of hanger rail 1 being divided into trisection, and is formed on the position of staggering along the vertical direction.

As the anti-vibration member engaged with the 9th and the tenth block 145,146, use the anti-vibration member 147 with the engaging portion 148 engaged with the 9th and the tenth block 145,146 from the side of housing and the anti-vibration member (not shown) with the engaging portion only engaged with the tenth block 146 being positioned at below.

According to above-mentioned formation, the effect identical with the effect (1) obtained in above-mentioned first embodiment, (2), (3) can be obtained.

(the 7th embodiment)

7th embodiment shown in Figure 16.In this embodiment, be formed with the 11 and the 12 block 151,152 on the base of hanger rail 1.11 and the 12 block 151,152 is arranged on the position total length of hanger rail 1 being divided into trisection, and is formed on position that the fore-and-aft direction along hanger rail 1 staggers.

As the anti-vibration member engaged with the 11 and the 12 block 151,152, use and there is the anti-vibration member 154 of the engaging portion 153 engaged with the 11 and the 12 block 151,152 from the base of housing and there is the anti-vibration member (not shown) of the engaging portion only engaged with the 12 block 152.

According to above-mentioned formation, the effect identical with the effect (1) obtained in above-mentioned first embodiment, (2), (3) can be obtained.

(the 8th embodiment)

8th embodiment shown in Figure 17 ~ Figure 20.The hanger rail of the vertical blind that this embodiment is expressed as follows, this hanger rail has the block of maximum five of anti-vibration member engaging in assigned position place when folding blade.

In hanger rail 1, five blocks 61 ~ 65 are formed in the position total length of hanger rail 1 being divided into six deciles.In the same manner as the first embodiment, above-mentioned block 61 ~ 65 be towards the right-hand member side of hanger rail 1, namely the pull-out of blade 3 roll tiltedly outstanding joint-cutting processing sheet, further, block 61 ~ 65 has been carried out joint-cutting processing by with identical angle (in present embodiment being 45 degree) respectively.

The length of above-mentioned block 61,62 is formed as shorter than the length of block 63 ~ 65.

As shown in Figure 18 (c) ~ (e), above-mentioned block 63 ~ 65 is formed at different positions on the left and right directions of the fore-and-aft direction of hanger rail 1, i.e. Figure 18, and wherein, block 65 is formed in the position of the center side near hanger rail 1.

In addition, as shown in Figure 18 (a), (c), block 62 and block 65 are formed at same position place on the fore-and-aft direction of hanger rail 1.

Similarly, as shown in Figure 18 (b), (d), block 61 and block 64 are formed at same position place on the fore-and-aft direction of hanger rail 1.

For the hanger rail 1 so formed, prepare five kinds of anti-vibration members with the different cards bonding part engaged with any one block in block 61 ~ 65.And when folding blade, when making anti-vibration member engage with block 61 ~ 65 successively along with moving of guide pulley, each anti-vibration member is maintained at the position total length of hanger rail 1 being divided into six deciles.

According to above-mentioned such vertical blind formed, effect shown below can be obtained.

(1) when blade is folded to the left end side of hanger rail 1, the position thus support angle regulating shaft that anti-vibration member can be made to be positioned at the total length of angular adjustment axle is divided into six deciles.Therefore, even if when the angular adjustment axle 4 that hanger rail 1 and this hanger rail 1 support is elongated, also can prevent angular adjustment axle 4 from bending because of its deadweight.

(2) owing to block 61 ~ 65 to be arranged at the top margin of hanger rail 1, thus can expose to indoor by anti-stop block 61 ~ 65.Therefore, it is possible to improve the aesthetic property of hanger rail 1.

(3) because the length making block 61,62 and block 63 ~ 65 be formed as different, the projecting height namely given prominence to downward from the top margin of hanger rail 1 are different, therefore, as long as prepare the anti-vibration member with the engaging portion corresponding with each block, multiple anti-vibration member just can be utilized to carry out support angle regulating shaft 4.

(4) due to by the same position place of a block in a block in block 63 ~ 65 long for length and the short block 61,62 of length on the fore-and-aft direction of hanger rail 1 in being equipped with multiple row in column-like manner, therefore, be equipped with multiple block at the top margin of hanger rail 1, thus its shift position can be utilized to be carried out support angle regulating shaft by multiple anti-vibration members that each block limits.Therefore, though when hanger rail 1 and the angular adjustment axle 4 that supports by this hanger rail 1 elongated, also can prevent angular adjustment axle 4 from bending because its deadweight.

(5) when hanger rail 1 is shorter than the state shown in Figure 17, also as shown in figure 19 above-mentioned block 62 and block 63 ~ 65 can be formed on hanger rail 1, thus utilize four anti-vibration members to carry out support angle regulating shaft 4.

(6) when hanger rail 1 is shorter than the state shown in Figure 19, also as shown in figure 20 above-mentioned block 63 ~ 65 can be formed on hanger rail 1, thus utilize three anti-vibration members to carry out support angle regulating shaft 4.

(the 9th embodiment)

9th embodiment shown in Figure 21.Relative in the 8th embodiment be formed on hanger rail 1 different length block thus can corresponding multiple anti-vibration member, be that the joint-cutting processing by carrying out different angles forms block and obtains identical effect in the present embodiment.

As shown in figure 21, block 68,69 is different from the joint-cutting angle of block 70 ~ 72.Block 70 ~ 72 is the joint-cutting angle of 45 degree relative to the top margin of hanger rail 1 in the same manner as above-mentioned 8th embodiment.

Block 68,69 is the joint-cutting angle of about 30 degree relative to the top margin of hanger rail 1, and is formed as the length identical with block 70 ~ 72.Therefore, the projecting height of aspect ratio block 70 ~ 72 given prominence to downward from the top margin of hanger rail 1 of block 68,69 is low.Further, the projecting height of block 68,69 is formed as identical with the projecting height of the block 61,62 in the 8th embodiment.

According to above-mentioned formation, when using the anti-vibration member identical with the 8th embodiment, the effect identical with the 8th embodiment can be obtained.

In addition, by implementing the length joint-cutting processing all different with angle, also the block that projecting height is different as described above can be formed.

(the tenth embodiment)

Tenth embodiment shown in Figure 22 ~ Figure 28.Anti-vibration member in this embodiment is following anti-vibration member: namely, the housing being arranged at engaging portion and the anti-vibration member abutted on anti-vibration member and with block is formed as respectively independently parts and engaging portion can the mode of adjusting position be installed on the housing of anti-vibration member, further, this anti-vibration member is applicable to being used in the hanger rail 1 with block shown in the 8th or the 9th embodiment.

Anti-vibration member 75 shown in Figure 22 and the anti-vibration member shown in Figure 27 77, can the mode of movement be supported in hanger rail 1, and, compare the anti-vibration member 8,9 in above-mentioned first embodiment, the position of inserting of angular adjustment axle 4 is positioned at below, thus interval between the top margin of the end face of housing 76 and hanger rail 1 is larger.And, housing 76 is formed the inserting hole 86 of angular adjustment axle 4 and the inserting hole 87 for inserting for the conveying axis of conveying blade 3.

On the top margin of above-mentioned hanger rail 1, three above-mentioned blocks 63,64,65 are formed at the position of staggering on the length direction of fore-and-aft direction and hanger rail 1.In addition, as shown in Figure 27 and Figure 28, above-mentioned block 61 and above-mentioned block 64 and above-mentioned block 62 are formed at the same position place on fore-and-aft direction with above-mentioned block 65 and on the position of staggering on the length direction of hanger rail 1.

The end face of the housing 76 of above-mentioned anti-vibration member 75 is provided with locking member 80, and this locking member 80 is positioned at the lower position of above-mentioned block 61 ~ 65.Be described in detail as follows: namely, as shown in figure 23, on the end face of housing 76 along the fore-and-aft direction of hanger rail 1 in being equally spaced disposed with three mounting grooves 81.The section configuration of above-mentioned mounting groove 81 is formed as the shape downward in wide cut, and, mounting groove 81 only to the side of the length direction of hanger rail 1, the folding direction being specially blade and upper opening.

Above-mentioned locking member 80 to be formed and in the shape bending to crank (crank) shape by having flexible synthetic resin, the base of locking member 80 is formed can be chimeric with the mounting groove 81 of above-mentioned housing 76 two ridges 82.And, ridge 82 can be inserted from the side of adjacent any two mounting grooves 81 above-mentioned mounting groove 81 and be embedded in these two mounting grooves 81.

The top margin leading section of above-mentioned locking member 80 is bending upward and form engaging portion 83.And, as shown in Figure 22, Figure 24 and Figure 25, exchanging on fore-and-aft direction (left and right directions in Figure 22) relative to the installation site of mounting groove 81 and by the installation direction of locking member 80 by changing above-mentioned ridge 82, can select above-mentioned engaging portion 83 with which block in above-mentioned block 63 ~ 65 is engaged.

Above-mentioned anti-vibration member 77 is provided with locking member 84 on the end face of the housing 76 identical with above-mentioned anti-vibration member 75.As shown in figure 26, the top margin of above-mentioned locking member 84 is extended towards oblique upper, thus engaging portion 85 is formed in the position higher than the engaging portion 83 of above-mentioned locking member 80.Other formations are identical with above-mentioned locking member 80.

And, as shown in Figure 27 and Figure 28, by changing the ridge 82 of locking member 84 relative to the installation site of mounting groove 81, can select above-mentioned engaging portion 85 with which block in above-mentioned block 61,62 is engaged.

Therefore, by using anti-vibration member 75,77, the five kind anti-vibration members corresponding with the hanger rail 1 with five blocks 61 ~ 65 in the 8th embodiment or the hanger rail 1 with five blocks 68 ~ 72 in the 9th embodiment can be formed.

In addition, above-mentioned locking member 80,84 can utilize the elasticity of self that engaging portion 83,85 is bent downwards.Therefore, when assembling, also anti-vibration member 75,77 can be inserted in this hanger rail 1 from the left end side of hanger rail 1, and, make that anti-vibration member 75,77 crosses such as each inclined-plane of block 61 ~ 65 and the right-hand member side to hanger rail 1 is moved.

According to the vertical blind with the anti-vibration member 75,77 formed as described above, except the effect obtained in the first embodiment, effect shown below can also be obtained.

(1) by changing locking member 80,84 relative to the installation site of the mounting groove 81 of housing 76, identical housing 76 and locking member 80 and locking member 84 can be used to form five kinds of anti-vibration members corresponding with block 61 ~ 65 or block 68 ~ 72.Thus, due to common parts can be used to form anti-vibration member corresponding to the multiple block different with extrusion position from the projecting height outstanding from hanger rail 1, therefore, it is possible to cut down the component count of anti-vibration member.

(2) anti-vibration member 75,77 can be used in the conveying axis of angular adjustment axle 4 and conveying blade is rotatably supported in the vertical blind in hanger rail 1.

(the 11 embodiment)

11 embodiment shown in Figure 29.Relative to being by changing locking member 80,84 relative to the installation site of the housing 76 of anti-vibration member 75 in the tenth embodiment, define can be corresponding from the multiple blocks 61 ~ 65 formed with diverse location and different projecting height anti-vibration member 75,77, present embodiment be by make locking member relative to housing slide and can corresponding multiple block.

As shown in figure 29, on the end face of the housing 91 of anti-vibration member, locking member 93 is supported in guiding groove 92 in the mode can slided along the fore-and-aft direction of hanger rail 1.The edge of opening of guiding groove 92 is formed and locking member 93 is located and is held in the recess 94 on three positions, place, and, locking member 93 is formed the teat (not shown) flexibly engaged with recess 94.The end face of locking member 93 is provided with the engaging portion 95 abutted against with the block of hanger rail 1.

For above-mentioned locking member 93, two kinds of locking member that the height of engaging portion 95 is different are prepared, with the block 61 ~ 65 that corresponding projecting height is different.

According to the anti-vibration member so formed, owing to the position of locking member 93 can be adjusted to three positions, place along the fore-and-aft direction of hanger rail 1, therefore, when being inserted in the hanger rail 1 in the 8th embodiment, five kinds of anti-vibration members corresponding to block 61 ~ 65 can be formed.

(the 12 embodiment)

12 embodiment shown in Figure 30.Be configured in this embodiment: by the helical axis 96 be supported on housing 91 is screwed in locking member 97 in the mode that can rotate, by the rotary manipulation of helical axis 96, locking member 97 can be slided along the fore-and-aft direction of hanger rail 1 relative to housing 91.

For above-mentioned locking member 97, two kinds of locking member that the height of engaging portion 98 is different are prepared, with the block 61 ~ 65 that corresponding projecting height is different.

According to the anti-vibration member so formed, due to along the position of the fore-and-aft direction adjustment locking member 97 of hanger rail 1, therefore, when being inserted in the hanger rail 1 in the 8th embodiment, five kinds of anti-vibration members corresponding to block 61 ~ 65 can be formed.

(the 13 embodiment)

13 embodiment shown in Figure 31.Be configured in this embodiment: the base end part of engaging portion 99 is rotatably supported on the housing of anti-vibration member, and by making the top ends of engaging portion 99 along the fore-and-aft direction rotation of hanger rail 1 thus its position can being regulated.

According to the anti-vibration member so formed, due to along the turned position of the fore-and-aft direction adjustment engaging portion 99 of hanger rail 1, therefore, when being inserted in the hanger rail 1 in the 8th embodiment, three kinds of anti-vibration members corresponding to block 63 ~ 65 can be formed.

In addition, by changing the length of engaging portion 99, also can corresponding block 61,62.

(the 14 embodiment)

14 embodiment shown in Figure 32 ~ Figure 34.Situation on position beyond the top margin and the side block be processed to form by joint-cutting being formed at hanger rail 1 is shown as another example formed shown in Figure 15 and Figure 16 in this embodiment.

In Figure 32, the assigned position place on the length direction of hanger rail 1 is provided with block 101, and this block 101 is squeezed into latching and formed on the shoulder 102 being positioned at above side of hanger rail 1.And, be formed as: utilize the front end of the block 101 extended from oblique upper relative to anti-vibration member 103 to carry out locking anti-vibration member 103.Block 101 also can be processed to form by joint-cutting.

In fig. 33, squeeze into latching and the block 104,105 formed, be arranged on the shoulder 102,106 being positioned at above the side of both sides of hanger rail 1 at the assigned position place of the length direction of hanger rail 1.And block 104,105 is extended from the oblique upper of both sides relative to anti-vibration member 103, and be formed as utilizing the front end of block 104,105 by locking for anti-vibration member 103.Block 104,105 also can be processed to form by joint-cutting.

In Figure 34, block 108 is formed at the assigned position place on the length direction of hanger rail 1, and wherein, block 108 is that the horizontal plate 107 by extending in the horizontal direction towards inner side the side medial surface from hanger rail 1 carries out joint-cutting processing and gives prominence to formation downward.And, be formed as utilizing the front end of block 108 by locking for anti-vibration member 103.

In addition, the top margin of hanger rail 1 is formed with the through hole 109 that can insert for fixture, wherein, this fixture is used for implementing joint-cutting processing at the forming position place of block 108 to horizontal plate 107.

According to above-mentioned formation, anti-vibration member 103 is held in assigned position by the position beyond the top margin that block 101,104,105,108 can be arranged at hanger rail 1.In addition, because block is not exposed to the lateral surface of hanger rail 1, therefore, it is possible to improve the aesthetic property of hanger rail 1.

Above-mentioned embodiment also can be implemented in the following manner.

Also the anti-vibration member in the respective embodiments described above can be utilized only to be rotatably supported in hanger rail and the conveying axis of conveying insolation curtain-shaped cover member supports.

In the first ~ three embodiment, also can using from the latching squeezed into of hanger rail outside as each block.

In the first embodiment, also according to the total length of angular adjustment axle, block and anti-vibration member can be set as more than three or five.

Claims (22)

1. a vertical blind, it has:

Axle, its both ends are supported on the both ends of hanger rail in the mode that can rotate,

Anti-vibration member, it is the mode of movement can be supported in described hanger rail and to insert for described axle, and when carrying out the folding operation of blade, described anti-vibration member and guide pulley one move in leaf folding direction in the same way,

Block, described anti-vibration member is held in the Support Position place of the flexure stoping described axle by it, and, on the position beyond the side that this block is arranged on described hanger rail.

2. vertical blind as claimed in claim 1, is characterized in that,

Described anti-vibration member is provided with engaging portion, and described engaging portion engages with a described block and described anti-vibration member is held in the Support Position place of described axle.

3. vertical blind as claimed in claim 2, is characterized in that, be arranged at by described block on the top margin of described hanger rail.

4. vertical blind as claimed in claim 2, is characterized in that, be arranged on by described block on the shoulder above the side being formed at described hanger rail.

5. vertical blind as claimed in claim 2, is characterized in that, be arranged at by described block on the base of described hanger rail.

6. vertical blind as claimed in claim 3, is characterized in that,

Described block is given prominence to from the top margin of described hanger rail obliquely along the length direction of described hanger rail,

Described engaging portion has the elasticity bending when abutting against with the inclined-plane of described block thus cross described block.

7. as the vertical blind in claim 1 ~ 6 as described in any one, it is characterized in that, joint-cutting processing is implemented to described hanger rail and forms described block.

8. vertical blind as claimed in claim 7, is characterized in that,

Length direction along described hanger rail is provided with multiple described block, and, the height given prominence to from described hanger rail inner surface of each described block is formed as at least two kinds of different height,

The mode of movement can be supported with multiple described anti-vibration member in described hanger rail, each described anti-vibration member is provided with engaging portion, and described engaging portion engages from any one block of described block thus makes described anti-vibration member stop at multiple different Support Position place.

9. vertical blind as claimed in claim 8, is characterized in that,

With different length, joint-cutting processing is carried out to each described block, thus the projecting height of each described block is formed as multiple height,

Described anti-vibration member is provided with the engaging portion of any one block engaging in the described block different from projecting height.

10. vertical blind as claimed in claim 8, is characterized in that,

With different angles, joint-cutting processing is carried out to each described block, thus the projecting height of each described block is formed as multiple height,

Described anti-vibration member is provided with the engaging portion of any one block engaging in the described block different from projecting height.

11. vertical blind as claimed in claim 8, is characterized in that,

With different length and different angles, joint-cutting processing is carried out to each described block, thus the projecting height of each described block is formed as multiple height,

Described anti-vibration member is provided with the engaging portion of any one block engaging in the described block different from projecting height.

12., as the vertical blind in claim 9 ~ 11 as described in any one, is characterized in that,

Described block is arranged multiple row on the fore-and-aft direction of described hanger rail, and, multiple described blocks different for projecting height is separately positioned on each described row.

13., as the vertical blind in claim 1 ~ 6 as described in any one, is characterized in that, described block is arranged on the position of described axle being carried out along its length decile.

14. vertical blind as claimed in claim 7, it is characterized in that, described block is arranged on the position of described axle being carried out along its length decile.

15., as the vertical blind in claim 8 ~ 11 as described in any one, is characterized in that, described block is arranged on the position of described axle being carried out along its length decile.

16. vertical blind as claimed in claim 12, it is characterized in that, described block is arranged on the position of described axle being carried out along its length decile.

17. vertical blind as claimed in claim 3, is characterized in that,

Described vertical blind is provided with multiple described anti-vibration member, and, make the described block engaged with each described anti-vibration member be positioned at width range directly over described axle and suitable with the diameter of described axle.

18. 1 kinds of hanger rails, it has the block at the Support Position place when carrying out folding operation to blade, anti-vibration member being held in axle, on the position beyond the side described block being arranged at described hanger rail, and, processed by joint-cutting and form described block,

The feature of described hanger rail is,

Length direction along described hanger rail is provided with multiple described block, and, the height given prominence to from described hanger rail inner surface of each described block is formed as at least two kinds of different height.

19. hanger rails as claimed in claim 18, is characterized in that,

With different length, joint-cutting processing is carried out to each described block, thus the projecting height of each described block is formed as multiple height.

20. hanger rails as claimed in claim 18, is characterized in that,

With different angles, joint-cutting processing is carried out to each described block, thus the projecting height of each described block is formed as multiple height.

21. hanger rails as claimed in claim 18, is characterized in that,

With different length and different angles, joint-cutting processing is carried out to each described block, thus the projecting height of each described block is formed as multiple height.

22. hanger rails as described in claim 18 or 19, is characterized in that,

Described block is arranged multiple row on the fore-and-aft direction of described hanger rail, and, multiple described blocks different for projecting height is separately positioned on each described row.