CN101259919A

CN101259919A - Sliding fork device

Info

Publication number: CN101259919A
Application number: CNA2008100824557A
Authority: CN
Inventors: 山口晴行
Original assignee: Nakanishi Metal Works Co Ltd
Current assignee: Nakanishi Metal Works Co Ltd
Priority date: 2007-03-06
Filing date: 2008-03-06
Publication date: 2008-09-10
Anticipated expiration: 2028-03-06
Also published as: JP2008214050A; CN101259919B; JP5040370B2

Abstract

The invention provides a sliding york which can process stretching movement swimmingly and reduce cost even if a carry object has heavy weight or stretching stroke. The sliding york apparatus (1) includes a fixing york (11), a middle york (21) supported to slide along length direction relative to the fixing york (11), and a front york (31) supported to slide along length direction relative to the middle york (21). A drive pinion driven by a rotary drive device (2) mounted on the fixing york (11) engages with a rack (22) mounted on the middle york (21) in the sliding york apparatus (1). All movable yorks (the middle york (21) and the front york (31)) are driven directly by the rotary drive device (2).

Description

Sliding fork device

Technical field

The present invention relates to be used for the improvement of sliding york (slide fork) device of goods shifting apparatus.

Background technology

Be used for conveyer, loading-unload machine such as fork truck or hoisting crane, carry out the sliding fork device of the handing-over of goods, has the swinging fork more than 2 grades that carries out slide relative with respect to skid-resistant fixation fork, and constitute by driver train and interlinked mechanism, this driver train is to being supported to can (being fixed frame F in patent document 1 with respect to fixation fork, in patent document 2, be one-level fork 31) slide at length direction, swinging fork near the higher level of fixation fork (is arm A1 in patent document 1, in patent document 2, be secondary fork 32) drive, higher level's swinging fork (is arm A2 and A3 to this interlinked mechanism in patent document 1 for the slip along with this swinging fork makes more, be three grades of forks 33 and level Four fork 34 in patent document 2) to near the identical direction of the higher level's of fixation fork swinging fork slide (for example, with reference to patent document 1 and 2).

Patent document 1: TOHKEMY 2006-176300 communique (Fig. 1)

Patent document 2: TOHKEMY 2006-1658 communique (Fig. 5, Fig. 7-9)

Because in the formation of this existing sliding fork device, drive swinging fork (arm A1 near its higher level with respect to fixation fork, secondary fork 32), and by with the above-mentioned interlinked mechanism of the mobile interlock of this swinging fork, make more higher level's swinging fork (arm A2, three grades of forks 33) and higher level's swinging fork (arm A3, level Four fork 34) flexible, therefore, owing to transmitting formation that swinging fork that the propulsive effort be installed in the actuating device on the fixation fork makes higher level slides than complexity etc., so cost increases, and, especially under the bigger situation of the heavier or flexible stroke of the weight of carried object, existence can not be carried out the situation of expanding-contracting action of higher level's swinging fork (preceding end yoke) swimmingly.

Summary of the invention

Therefore, the present invention is in view of above-mentioned condition, and the problem that solve is, a kind of sliding fork device is provided, even under the bigger situation of the heavier or flexible stroke of the weight of carried object, and the expanding-contracting action of end yoke before also can carrying out swimmingly, and can cost-cutting.

In order to solve above-mentioned problem, sliding fork device of the present invention has the swinging fork more than 2 grades that carries out slide relative with respect to fixation fork, and has an actuating device, this actuating device make by be installed in Drive pinion, drive sprocket or the driving pulley that rotating driving device that said fixing sticks drives or be erected at before and after sprocket wheel or driving chain between the belt wheel or rotating band, the tooth bar of sticking with the front end that is installed in the higher level who puts carried object, extend along the length direction of this fork, chain or band or bonded block combine synchronously.

Here, above-mentioned actuating device is to make above-mentioned Drive pinion, drive sprocket or driving pulley and be installed in above-mentioned tooth bar, the chain that above-mentioned front end sticks or be with the ingear device synchronously, and preferably constitute, the tooth bar, chain or the synchronous band that extend along the length direction of this fork also are installed on the swinging fork before above-mentioned beyond the end yoke, and make and the coaxial mounted Drive pinion of above-mentioned Drive pinion, drive sprocket or driving pulley, drive sprocket or driving pulley and this tooth bar, chain or band engagement synchronously, and by all swinging forks of above-mentioned rotating driving device direct drive.

And, the present invention is a kind of sliding fork device, has fixation fork, be supported to pitching with respect to the centre that this fixation fork slides along its length, with the preceding end yoke that is supported to sliding along its length with respect to this centre fork, preferably constitute, in the middle of above-mentioned on the upper and lower surface of the horizontal plate portion of the matrix of fork, the track of the fixing respectively line slideway that extends along the length direction of this fork is looked overlappingly on the plane, and the upper surface of the matrix of said fixing fork and above-mentioned before on the lower surface of matrix of end yoke, the fixing respectively a plurality of sliding units that separate along the length direction of this fork, the sliding unit of above-mentioned preceding end yoke is combined with the track of the upside of above-mentioned middle fork, and the sliding unit of said fixing fork is combined with the track of the above-mentioned middle downside of pitching.

And, preferably constitute, the matrix that makes above-mentioned middle fork is the H shape steel of upper and lower opening ground configuration, make the matrix of above-mentioned preceding end yoke be channel-section steel in the configuration of open lower side ground, make the matrix of said fixing fork be channel-section steel in the configuration of last side opening ground, and on by the H shape steel of fork in the middle of above-mentioned side opening and above-mentioned before in the space that forms of the open lower side of channel-section steel of end yoke and the channel-section steel of pitching by the open lower side and the said fixing of the H shape steel of fork in the middle of above-mentioned in the space that forms of side opening, set the line slideway about above-mentioned.

According to sliding fork device of the present invention, for having the sliding fork device that carries out the swinging fork more than 2 grades of slide relative with respect to fixation fork, and has actuating device, this actuating device makes by being installed in the Drive pinion that rotating driving device that said fixing sticks drives, drive sprocket or driving pulley, sprocket wheel or driving chain between the belt wheel or rotating band before and after perhaps being erected at, stick with the front end that is installed in the higher level who puts carried object, the tooth bar that extends along the length direction of this fork, chain or synchronous band, perhaps bonded block combination, therefore, owing to be installed in tooth bar that front end sticks etc. and the directly engagements such as Drive pinion that drive by the rotating driving device that is installed on the fixation fork, and via this Drive pinion etc. and tooth bar etc. by end yoke before the rotating driving device direct drive, even so under the bigger situation of the heavier or flexible stroke of the weight of carried object, the expanding-contracting action of end yoke before also can carrying out swimmingly.And, because can simplified structure, so can realize the raising of reliability and the reduction of cost.

And, constitute, above-mentioned actuating device is to make above-mentioned Drive pinion, drive sprocket or driving pulley and be installed in the above-mentioned tooth bar that above-mentioned front end is stuck, chain or be with the ingear device synchronously, and before above-mentioned, also install on the swinging fork beyond the end yoke along the tooth bar of the length direction extension of this fork, chain or synchronous band, and make and above-mentioned Drive pinion, the coaxial mounted Drive pinion of drive sprocket or driving pulley, drive sprocket or driving pulley and this tooth bar, chain or band engagement synchronously, and by all swinging forks of above-mentioned rotating driving device direct drive, this moment is except above-mentioned effect, because the position stability of the swinging fork beyond the preceding end yoke, and all swinging forks are via independent Drive pinion, drive sprocket or driving pulley and tooth bar, so chain or be with synchronously and be driven directly is the expanding-contracting action of end yoke before can further carrying out swimmingly.

And, be a kind of sliding fork device, has fixation fork, be supported to pitching with respect to the centre that this fixation fork slides along its length, with the preceding end yoke that is supported to sliding along its length with respect to this centre fork, and preferably constitute, in the middle of above-mentioned on the upper and lower surface of the horizontal plate portion of the matrix of fork, the track of the fixing respectively line slideway that extends along the length direction of this fork is looked overlappingly on the plane, and the upper surface of the matrix of said fixing fork and above-mentioned before on the lower surface of matrix of end yoke, the fixing respectively a plurality of sliding units that separate along the length direction of this fork, the sliding unit of above-mentioned preceding end yoke is combined with the track of the upside of above-mentioned middle fork, and the sliding unit of said fixing fork is combined with the track of the downside of above-mentioned middle fork, at this moment, except above-mentioned effect, because on the length direction of the upper and lower surface of the horizontal plate portion of the matrix of pitching in the middle of orbit plane is looked and is fixed on overlappingly up and down, so under state, link them fixing securely by the horizontal plate portion of the matrix of fork in the middle of up and down track is clamped, and because the section factor of middle fork becomes big, rigidity strengthens, even so in the weight of carried object under the heavy especially or king-sized situation of flexible stroke, the expanding-contracting action of end yoke before also can suppressing to carry out swimmingly agley.And, by the simple structure up and down of fork in the middle of line slideway is provided in, further cost-cutting.

And, constitute, the matrix that makes above-mentioned middle fork is the H shape steel of upper and lower opening ground configuration, make the matrix of above-mentioned preceding end yoke be channel-section steel in the configuration of open lower side ground, make the matrix of said fixing fork be channel-section steel in the configuration of last side opening ground, and on by the H shape steel of fork in the middle of above-mentioned side opening and above-mentioned before in the space that forms of the open lower side of channel-section steel of end yoke, and in the space that forms by the last side opening of the channel-section steel of the open lower side of the H shape steel of fork in the middle of above-mentioned and said fixing fork, set above-mentioned line slideway up and down, at this moment, except above-mentioned effect, owing to sliding guide mechanism (line slideway up and down) is provided in the opening of each fork, so can realize lightweight and densification.And, simplify owing to constitute very, and the matrix of each fork forms by gauge material, so cost-cutting significantly.

Description of drawings

Fig. 1 is the planar view of the sliding fork device of embodiments of the present invention.

Fig. 2 is the vertical profile front elevation of the left side fork of swinging fork (middle fork and preceding end yoke) elongation state, (a) formation of expression tooth bar, miniature gears and block, (b) formation of expression sliding guide mechanism (line slideway up and down).

Fig. 3 is the vertical profile front elevation of the left side fork of swinging fork (middle fork and preceding end yoke) contraction state, (a) formation of expression tooth bar, miniature gears and block, (b) formation of expression sliding guide mechanism (line slideway up and down).

Fig. 4 is the vertical profile back view of left side fork.

The specific embodiment

With reference to the accompanying drawings embodiments of the present invention are described in detail below, but the invention is not restricted to mode shown in the drawings, comprise all embodiments that satisfy the main points of putting down in writing in the patent claim.In addition, in this manual, a direction (with reference to arrow F among the figure) of establishing each fork elongation is the place ahead, establish when the place ahead about be about, establishing the figure that observes from the left side is front elevation.

Fig. 1～Fig. 4 is the instruction diagram of formation of the sliding fork device of expression embodiments of the present invention, Fig. 1 is a planar view, Fig. 2 is the vertical profile front elevation of the left side fork of swinging fork (middle fork and preceding end yoke) elongation state, Fig. 3 is the vertical profile front elevation of the left side fork of swinging fork (middle fork and preceding end yoke) contraction state, and Fig. 4 is the vertical profile back view of left side fork.In addition, the formation of Fig. 2 (a) and Fig. 3 (a) expression tooth bar, miniature gears and block, the formation of Fig. 2 (b) and Fig. 3 (b) expression sliding guide mechanism (line slideway up and down).

In the drawings, sliding fork device 1 by fixation fork 11, be supported for can with respect to fixation fork 11 slide along its length in the middle of fork 21, be supported for can with respect to the centre pitch the 21 preceding end yokes 31 that slide along its length and be fixed on the fixation fork 11 and direct drive before the actuating device etc. of end yoke 31 constitute.

At first, the slip support structure to centre fork 21 and preceding end yoke 31 describes.Because fork 21L and left front end yoke 31L in the middle of left fixation fork 11L shown in Figure 1, the left side, with right fixation fork 11R, right in the middle of fork 21R and right front end yoke 31R be identical structure, so be that representative describes with the left side fork.

As shown in Figure 4, the matrix of left fixation fork 11L is the channel-section steel (channel-section steel) in the configuration of last side opening ground, and the matrix of fork 21L is the H shape steel of upper and lower opening ground configuration in the middle of the left side, and the matrix of left front end yoke 31L is the channel-section steel (channel-section steel) of open lower side ground configuration.

On the channel-section steel of left fixation fork 11L in the side opening, by bolt 14 ..., be fixed with via coupling plate 12 before and after 2 (also can for more than 3) sliding units 13,13 (with reference to Fig. 2 (b) and Fig. 3 (b)), and in the open lower side of the channel-section steel of left front end yoke 31L, by bolt 35 ..., be fixed with via coupling plate 33 before and after 2 (also can for more than 3) sliding units 34,34 (with reference to Fig. 2 (b) and Fig. 3 (b)).

And, in the middle of as a left side the horizontal plate portion of the H shape steel of the matrix of fork 21L in the side opening, by bolt 27 ..., be fixed with along its length the track 25 that (fore-and-aft direction) extends via last coupling plate 23, and in the middle of as a left side in the open lower side of horizontal plate portion of the H shape steel of the matrix of fork 21L, by bolt 28 ..., be fixed with along its length the track 26 that (fore-and-aft direction) extends via following coupling plate 24.

And, owing to be that track 25 combines with the

sliding unit

34,34 of front and back and the last line slideway 41 that relatively slides along fore-and-aft direction, and be that track 26 combines with the

sliding unit

13,13 of front and back and the following line slideway 42 that relatively slides along fore-and-aft direction, so by this simple formation, fork 21L in the middle of the left side (fork 21R in the middle of right) is supported to sliding along fore-and-aft direction with respect to left fixation fork 11L (right fixation fork 21R), and left front end yoke 31L (right front end yoke 31R) is supported to sliding along fore-and-aft direction with respect to fork 21L in the middle of the left side (fork 21R in the middle of right).

As mentioned above, because on the length direction of the upper and lower surface of the horizontal plate portion of the matrix of centre fork 21,

track

25,26 planes are up and down looked overlappingly and are fixed, so in the middle of by

track

25,26 clampings up and down under the state of the horizontal plate portion of the matrix of fork 21, link them fixing securely, and, because the section factor of middle fork 21 becomes greatly, rigidity strengthens, even so under the heavy especially or king-sized situation of flexible stroke, also can suppress crooked and expanding-contracting action end yoke 31 before carrying out swimmingly in the weight of carried object.

And, owing in the opening of each

fork

11,21 and 31, be equipped with sliding guide mechanism (

line slideway

41,42 up and down), so can realize lightweight and densification.

And, owing to be to set the simple structures of

line slideway

41,42 up and down, and make the matrix of each

fork

11,21 and 31 be channel-section steel and H shape steel, so cost-cutting significantly as gauge material at each 11,21 and 31 of fork.

Then, the formation to the actuating device that drives swinging fork 31 describes.As shown in Figure 1, fixation fork 11 be with about

fixation fork

11L and 11R link and integrated, rotating driving devices 2 such as geared motor for example are installed on this fixation fork 11, on the output shaft of this rotating driving device 2, link and be fixed with spur gear 3A.

By about bearing

sub-assembly

4L and 4R support about

pinion shaft

5L and 5R on, link respectively by key 10 (with reference to Fig. 4) and to be fixed with major diameter miniature gears 6 and minor diameter miniature gears 7, and, about

pinion shaft

5L and 5R via about Hooke's

coupling

9L and 9R and linking by connection shaft 8.And, on right pinion shaft 5R, link and be fixed with and above-mentioned spur gear 3A ingear spur gear 3B.

And, about preceding end yoke 31L and the left and right directions inboard of 31R, link be fixed with above-mentioned about 6,6 engagements of major diameter miniature gears and along fore-and-aft direction extend about tooth bar 32,32.Therefore, the driving torque of rotating driving device 2 is passed to

spur gear

3A and 3B, right pinion shaft 5R and right major diameter miniature gears 6, and drives right front end yoke 31R by the tooth bar 32 with these miniature gears 6 ingear right sides.And, similarly, the driving torque of rotating driving device 2 is passed to left pinion shaft 5L and left major diameter miniature gears 6 via right Hooke's coupling 9R, connection shaft 8 and left Hooke's coupling 9L, and by synchronously driving left front end yoke 31L with the tooth bar 32 in this miniature gears 6 ingears left side with right front end yoke 31R.

So,

tooth bar

32,32 before being installed on the end yoke 31 and the Drive

pinion

6,6 that is driven by the rotating driving device 2 that is installed on the fixation fork 11 directly mesh, and via this

Drive pinion

6,6 and

tooth bar

32,32 and by end yoke 31 before rotating driving device 2 direct drives, even so under the bigger situation of the flexible stroke that puts or swinging fork heavier in the weight of the carried object on the preceding end yoke 31, the expanding-contracting action of end yoke 31 before also can carrying out swimmingly.And, since simple in structure, so can realize the raising of reliability and the reduction of cost.

In addition, the formation of the actuating device of driving swinging fork 31 of the present invention is not limited to above-mentioned formation, also can replace

tooth bar

32,32 and adopt chain or the synchronous band that extends along fore-and-aft direction, and making drive sprocket or driving pulley with this chain or be with synchronously and combine, this drive sprocket or driving pulley are driven by the rotating driving device 2 that is installed on the fixation fork 11.

And, about in the middle of the left and right directions inboard of

fork

21L and 21R, link be fixed with above-mentioned about 7,7 engagements of minor diameter miniature gears and along fore-and-aft direction extend about tooth bar 22,22.Therefore, the driving torque of rotating driving device 2 and above-mentionedly similarly be passed to right pinion shaft 5R and right minor diameter miniature gears 7, and by the tooth bar 22 with these miniature gears 7 ingear right sides drive right in the middle of fork 21R.And, the driving torque of rotating driving device 2 and above-mentionedly similarly be passed to left pinion shaft 5L and left minor diameter miniature gears 7, and by with the tooth bar 22 in this miniature gears 7 ingears left side with right in the middle of fork 21R synchronously drive fork 21L in the middle of the left side.

In addition, for example, under the situation that tooth pitch is identical and moduluses

miniature gears

6 and 7 are identical of

tooth bar

32 and 22, the pitch circle diameter that makes minor diameter miniature gears 7 be major diameter miniature gears 6 pitch circle diameter 1/2, that is, make in the middle of fork 21 moving velocity be preceding end yoke 31 moving velocity 1/2.

Like this, do not pitching beyond the preceding end yoke 31 of 21 ground direct drives by being installed in rotating driving device 2 on the fixation fork 11 via the centre, on fork 21 in the middle of the swinging fork, tooth bar 21 also is installed, 22, this

tooth bar

21,22 with drive before the Drive pinion 6 of

end yoke

31,6 coaxial mounted

Drive pinions

7,7 engagements, and by all swinging forks of rotating driving device 2 direct drives, so position stability of the swinging fork beyond the preceding end yoke 31 (middle fork 21), and all swinging forks are via independently Drive pinion and tooth bar direct drive, so the expanding-contracting action of end yoke 31 before can further carrying out swimmingly.The driving of the swinging fork (centre pitches 21) beyond this preceding end yoke 31 not necessarily still in order to carry out above-mentioned expanding-contracting action more swimmingly, preferably drives preceding end yoke 31 swinging fork (centre pitches 21) in addition.

In addition, above-mentioned actuating device be make above-mentioned drive sprocket or driving pulley and be installed in before on the end yoke 31 above-mentioned chain or synchronously under the situation with the ingear device, also can about in the middle of the chain that extends along its length or band synchronously also are installed on fork 21L and the 21R, and make with above-mentioned drive sprocket or with the coaxial mounted drive sprocket of driving pulley or driving pulley and this chain or synchronously band mesh.

According to formation as described above, by driven in rotation actuating device 2, the swinging fork between the state that can carry out smooth and easy and reliably extending mobile at state that swinging fork as shown in figure 3 (middle fork 21 and before end yoke 31) shrinks, with such as shown in Figures 1 and 2 swinging fork.

The end, front and back of fork 21L is equipped with from stop plate 29F, the 29B of the front and back that left surface is given prominence to the left in the middle of a left side, be equipped with from stop plate 29F, the 29B of the front and back that right flank is given prominence to the right in the end, front and back of right middle fork 21R, and, for example block 15F, the 15B of the front and back of neoprene system are installed on left fixation fork 11L and right fixation fork 11R, for example block 36F, the 36B of the front and back of neoprene system are installed on left front end yoke 31L and right front end yoke 31R.

Therefore, under the state that end yoke 31 extends before middle fork 21 such shown in Fig. 1 and Fig. 2 (a) reaches, backstop 15B, the 15B backstop of

back baffle plate

29B, 29B about middle fork 21 about by fixation fork 11, so middle fork 21 mobile being limited forwards, and, so

positive stop

36F, 36F about the preceding baffle plate 29F about this centre fork 21, the preceding end yoke 31 of 29F backstop are preceding end yoke 31 mobile being limited forwards.

And, under the state that end yoke 31 shrinks before middle fork 21 such shown in Fig. 3 (a) reaches, positive stop 15F, the 15F backstop of preceding

baffle plate

29F, 29F about middle fork 21 about by fixation fork 11, so middle fork 21 rearward moving are limited, and,

backstop

36B, 36B about the back baffle plate 29B about this centre fork 21, the preceding end yoke 31 of 29B backstop are so preceding end yoke 31 rearward moving are limited.

More than, be that the sliding fork device of 3 level structures of 2 grades (middle forks 21 and before end yokes 31) is illustrated to the swinging fork that can carry out slide relative, but the present invention is not limited to this structure with respect to fixation fork 11, swinging fork also can be for more than 3 grades.

Claims

1, a kind of sliding fork device has 2 grades or more multistage swinging fork carrying out slide relative with respect to fixation fork, it is characterized in that,

Has actuating device, this actuating device make by be installed in Drive pinion, drive sprocket or the driving pulley that rotating driving device that said fixing sticks drives or be erected at before and after sprocket wheel or driving chain between the belt wheel or rotating band, the tooth bar of sticking with the front end that is installed in the higher level who puts carried object, extend along the length direction of this fork, chain or band or bonded block combine synchronously.

2, the sliding fork device of putting down in writing as claim 1, wherein,

Above-mentioned actuating device is to make above-mentioned Drive pinion, drive sprocket or driving pulley and be installed in above-mentioned tooth bar, the chain that above-mentioned front end sticks or be with the ingear device synchronously,

The tooth bar, chain or the synchronous band that extend along the length direction of this fork also are installed on the swinging fork before above-mentioned beyond the end yoke, and make and the coaxial mounted Drive pinion of above-mentioned Drive pinion, drive sprocket or driving pulley, drive sprocket or driving pulley, with this tooth bar, chain or band engagement synchronously, and by all swinging forks of above-mentioned rotating driving device direct drive.

3, the sliding fork device of putting down in writing as claim 1, wherein,

Have fixation fork, be supported for can with respect to this fixation fork slide along its length in the middle of fork and being supported to can be with respect to this centre fork preceding end yoke of slip along its length,

In the middle of above-mentioned on the upper and lower surface of the horizontal plate portion of the matrix of fork, the track of the fixing respectively line slideway that extends along the length direction of this fork makes it overlapping on plane angle,

The upper surface of the matrix of said fixing fork and above-mentioned before on the lower surface of matrix of end yoke, be separately fixed at a plurality of sliding units that separate on the length direction of this fork,

The sliding unit of above-mentioned preceding end yoke is combined with the track of the upside of above-mentioned middle fork, and the sliding unit of said fixing fork is combined with the track of the above-mentioned middle downside of pitching.

4, the sliding fork device of putting down in writing as claim 3, wherein,

Make the matrix of above-mentioned middle fork be H shape steel in the configuration of upper and lower opening ground, make the matrix of above-mentioned preceding end yoke be channel-section steel in the configuration of open lower side ground, make the matrix of said fixing fork be channel-section steel in the configuration of last side opening ground, on by the H shape steel of fork in the middle of above-mentioned side opening and above-mentioned before in the space that forms of the open lower side of channel-section steel of end yoke and the channel-section steel of pitching by the open lower side and the said fixing of the H shape steel of fork in the middle of above-mentioned in the space that forms of side opening, set the line slideway about above-mentioned.