CN205420708U - Half braces slewing mechanism overturns - Google Patents

Abstract

The utility model discloses a half braces slewing mechanism overturns, include: ship and resell on another market, gyration fork, its have with ship and resell on another market discontiguous rest condition and contact ship and resell on another market in order to drive the operating condition of half braces that overturns upset, gyration fork drive arrangement, it is connected to the gyration fork. Utilize the utility model discloses a braces operation module can realize half braces of upset for the fixed and upset of fixing the braces with simple mode, and then realizes the overlapping of undertoe.

Description

A kind of upset half braces rotating mechanism

Technical field

This utility model relates to hosiery machine field, particularly to the transfer device of hosiery machine.

Background technology

At present, when producing socks, it is usually the socks first producing semi-finished product in the syringe of hosiery machine, now the undertoe of socks is the most sutured, then with transfer device, the socks of semi-finished product are taken out from syringe, and transfer on margin to seam dish, then with head sewing machine, the undertoe of socks is sewed it up.

Transfer device the most all includes transfer head, and transfer head includes fixing half braces, overturning half braces and multiple transfer tooth.Overturn half braces and can overturn so that the two transfer tooth installed above is aligned with each other relative to fixing half braces, then can carry out the transfer of socks line.The mechanism that current realization upset half braces upset is used is the most complex.

Utility model content

Technical problem to be solved in the utility model is, it is provided that the upset half braces rotating mechanism of a kind of simple in construction.

For solving above-mentioned technical problem, this utility model provides one upset half braces rotating mechanism, including: ship and resell on another market；Revolution fork, it has and the described discontiguous dormant state and ship and resell on another market the duty driving described upset half braces to overturn described in contacting of shipping and reselling on another market；Revolution fork driving means, it is connected to described revolution fork.

In one embodiment, described revolution fork driving means includes: swiveling head, and it is fixed with described revolution fork；Rotary shaft, described swiveling head is fixed in described rotary shaft rotate with described rotary shaft；And rotary shaft driving means, it drives described rotary shaft traversing and rotates.

In one embodiment, described rotary shaft includes axle main body and is positioned at the gear part in described axle main body, and described rotary shaft driving means includes: cross sliding driving device, including: prong, its one end is fixed in described axle main body；Prong driver part, it connects the other end of described prong, drives described prong to move on the axis direction of described axle main body；Device of rotation driving, including: motor；Driving force transmission mechanism, it connects described cylinder or motor and described gear part to drive described gear part to rotate.

In one embodiment, described driving force transmission mechanism includes that gangbar, joint, push pedal and gear plate, gangbar one end are connected to cylinder or motor and move linearly up and down to do, and joint is connected to the other end of gangbar；One end of push pedal is connected to joint, and push pedal fix with gear plate so as together with rotate, gear plate engages with the gear part in axle main body.

In one embodiment, described prong driver part includes: prong bar, and it connects the other end of described prong；And cylinder, described prong bar inserts in described cylinder, it is possible to linear reciprocating motion in described cylinder；

In one embodiment, described prong driver part also includes prong bar spring, and it is sleeved on described prong bar, and one end is against revolution forked standard plate or fixing component.

In one embodiment, described upset half braces rotating mechanism is used for hosiery machine transfer device, and described hosiery machine transfer device includes:

Rotating turret；

Pipe is installed at center, and it is connected to described rotating turret；

Transfer head, it is arranged on described center and installs on pipe, including:

Fix half braces, it has at least one first function tooth；

Overturning half braces, it has at least one second function tooth, can overturn so that described first function tooth and described second function tooth alignment relative to described half braces of fixing, described first function tooth and described second function tooth are identical or different type；

Described upset half braces rotating mechanism rotates described upset half braces afterwards for being unlocked at described upset half braces.

In one embodiment, described transfer head is transfer margin to seam, and at least one in described first function tooth and described second function tooth is that tooth is sewed up in transfer, and described transfer is sewed up the outer surface of tooth and had the suture needle groove for coordinating with the suture needle of head sewing machine；Or described first function tooth and described second function tooth are single transfer tooth.

This utility model at least has the advantages that and can realize in a straightforward manner overturning the fixing of half braces and upset, is beneficial to the transfer of socks line.

Accompanying drawing explanation

Fig. 1 is the overall layout chart knitting socks device, it is shown that include the braces operating assembly of this utility model embodiment.

Fig. 2 is the part schematic perspective view of Fig. 1, for clarity sake, removes some parts, basically illustrates the braces operating assembly of this utility model embodiment.

Fig. 2 a is the part schematic perspective view of Fig. 1, it is shown that rotating turret.

Fig. 3 is the part schematic perspective view of Fig. 2, for clarity sake, removes some parts, basically illustrates transfer head and upset half braces locking mechanism.

Fig. 3 a is the view of another angle of Fig. 3.

Fig. 4 is the part exploded perspective schematic diagram of Fig. 3.

Fig. 5 is the schematic perspective view of movable latch fitting.

Fig. 6 is the partial enlarged drawing of Fig. 2, basically illustrates upset half braces locking mechanism, overturns half braces unlocking mechanism.

Fig. 7 is the part schematic perspective view of Fig. 6, for clarity sake, removes some parts, basically illustrates upset half braces unlocking mechanism.

Fig. 8 is the part schematic perspective view of Fig. 7, for clarity sake, removes some parts, it is shown that overturn half braces unlocking mechanism.

Fig. 9 is the exploded perspective schematic diagram of Fig. 8.

Figure 10 shows the schematic diagram of another embodiment of upset half braces locking mechanism.

Figure 11 is the part schematic perspective view of Fig. 2, for clarity sake, removes some parts, basically illustrates upset half braces runner assembly.

Figure 12 is the view of another angle of Figure 11.

Figure 13-16 is the part schematic perspective view of Figure 11, for clarity sake, removes some parts.

Figure 17-1 to Figure 17-6d shows the schematic construction of transfer tooth.

Description of reference numerals

100, rotating turret；

110, fixing mounting；120, half braces is overturn；140, half toothholder is fixed；

200, pipe is installed at center；

1000, movable latch fitting；1001, upper projection；1002, lower convexity；1003, side is protruding；

2000, half braces unlocking mechanism is overturn；2100, drag hook seat；2200, drag hook；2310, drag hook slide block；2321, lever piece；2322, lever seat；2323, cylinder part；2210, bearing pin；2110, bearing pin chute；2400, drag hook catch；

3000, half braces rotating mechanism is overturn；3100, ship and resell on another market；3200, revolution fork；3300, revolution fork driving means；3400, revolution forked standard plate；3310, swiveling head；3320, rotary shaft；3321, gear part；3351, prong；3352, prong bar；3353, cylinder；3354, prong bar spring；3340, motor；3341, gangbar；3342, joint；3343, push pedal

400, syringe driving wheel；800, backer；230, stand is rotated；S, syringe；T, transfer head；U1, upper table surface；U2, following table；W, suspended hood；P, go out the stocking leg；M, turn over socks bar.

Detailed description of the invention

With specific embodiment, this utility model is described in further detail below in conjunction with the accompanying drawings, but not as to restriction of the present utility model.

This utility model embodiment provides a kind of upset half braces rotating mechanism.

Hosiery machine transfer device introduced below.

Hosiery machine transfer device may include that rotating turret 100；Pipe 200 is installed at center, and it is connected to rotating turret 100；Transfer head, it is arranged on center and installs on pipe 200.Transfer head may include that fixes half braces 140, and it has at least one first function tooth H1；Overturning half braces 120, it has at least one second function tooth H2, can overturn so that the first function tooth H1 and the second function tooth H2 alignment relative to fixing half braces 140, the first function tooth H1 and the second function tooth H2 is identical or different type.

Rotating turret 100 shown in the drawings is only signal, and it can use various design, as long as it at least can realize can turning to above syringe S.So, after syringe S weaves socks, under the drive of rotating turret 100, whole hosiery machine transfer device can move to above syringe S, then utilizes transfer head to shift socks from syringe S.After being transferred out by socks, under the drive of rotating turret 100, whole hosiery machine transfer device can move to another position, carries out subsequent processing.

In the embodiment shown in the figures, as shown in Figure 2 a, rotating turret 100 includes seat pipe 100a, pivoted arm 100b and installs pipe 100c, and rotating turret moving assembly may be mounted in installation pipe 100c, to drive rotating turret 100 to move.This design structure is the simplest, it is simple to assembling miscellaneous part.Certainly it is further envisioned that rotating turret 100 can be simple frame unit, being similar to the structure without seat pipe 100a, now the miscellaneous part of transfer device is connected on pivoted arm.

It is only signal that pipe 200 is installed at center shown in the drawings, and it can use various design, as long as it at least plays the function of the mounting seat for transfer head.In the embodiment shown in the figures, center is installed pipe 200 and is positioned at rotating turret 100, is so easy to center and installs pipe 200 and the assembling of upper-part thereof and protection.

First function tooth H1 and the second function tooth H2 is identical or different type.The most basic function of function tooth is transfer stitch, and transfer head now is properly termed as single transfer head, and when they can assist stitching, transfer head is known as shifting margin to seam, and now this transfer device can be described as shifting stitching devices.It is meant that transfer head is transfer margin to seam during transfer stitching devices referred to herein, at least one in the first function tooth H1 therein and the second function tooth H2 is that tooth is sewed up in transfer.Transfer head shown in the drawings is the transfer margin to seam T that band transfer and auxiliary sew up function.According to sewing up needs, when the coil on the first function tooth H1 is transferred on the second function tooth H2, when the suture needle of head sewing machine coordinates, with the suture needle groove 10b of the second function tooth H2 on upset half braces 120, the stitching carrying out undertoe, tooth can be sewed up for transfer by the only second function tooth H2.As replacement, when transferring on the first function tooth H1 by the coil on the second function tooth H2, when the suture needle of head sewing machine coordinates, with the suture needle groove 10b of the first function tooth H1, the stitching carrying out undertoe, tooth can be sewed up for transfer by the only first function tooth H1.The structure of tooth is sewed up in transfer can see Figure 17, and its outer surface has the suture needle groove 10b for coordinating, certainly, the single transfer head without stitching function that transfer head can also be known in the art with the suture needle of head sewing machine, now has general list transfer tooth on half braces.Herein, if the most special indicating, when mentioning transfer device, it refers to only to have general transfer device of single transfer tooth and has transfer and sew up the transfer stitching devices of tooth, and transfer tooth refers to singly shift tooth and tooth is sewed up in transfer.

Fig. 1 also show upper table surface U1 and following table U2, and they are as the installed surface of each parts, and this is only signal certainly, and each parts can also use other mounting means outside Fig. 1.Fig. 1 also show suspended hood W in order to provide suction when socks shift, further it is shown that going out stocking leg P, further it is shown that rotate stand 230, rotating turret moving assembly is installed therein, it is shown that adjustment seat 240, can regulate the position rotating stand 230.Show backer 800, for coordinating with the collision block installed on rotating turret to limit the rotation limit position of rotating turret 100, further it is shown that turn over socks bar M.

Next braces operating assembly is introduced.

Fig. 1-16 shows the schematic perspective view of the braces operating assembly of this utility model embodiment.Braces operating assembly includes:

Overturning half braces locking mechanism, it is connected with upset half braces 120, and is connected with center installation pipe 200 or rotating turret 100, for being locked in the second function tooth H2 state down, state as shown in Figure 3 by overturning half braces 120；

Overturning half braces unlocking mechanism 2000, it drives upset half braces locking mechanism to move to unlock upset half braces 120；And

Overturning half braces rotating mechanism 3000, it can be connected to overturn half braces 120, rotates upset half braces 120 afterwards for being unlocked at upset half braces 120.

Wherein, overturn half braces locking mechanism and upset half braces unlocking mechanism 2000 constitutes upset half braces and keeps assembly.

In using, after the function tooth that socks are transferred in transfer head, elder generation is unlocked upset half braces 120 so that upset half braces 120 no longer keeps fixing by overturning half braces unlocking mechanism 2000, but can freely overturn, then by overturn half braces rotating mechanism 3000 rotate upset half braces 120, such first function tooth H1 and the second function tooth H2 alignment vertically aligned.Then can use and be embodied in various ways coil transfer between the first function tooth H1 and the second function tooth H2 and be beneficial to carry out subsequent handling.

Next upset half braces locking mechanism and unlocking mechanism is described in detail.Under following mentality of designing, can be with appropriately designed movable latch fitting 1000 and the structure of upset half braces unlocking mechanism.

In one embodiment, overturning half braces locking mechanism and can include movable latch fitting 1000, described upset half braces 120 is inserted in its one end, and the other end is installed pipe 200 with described center and is connected.Such as, movable latch fitting 1000 can be in the form of horizontal pin member, and described upset half braces 120 is inserted in one end, and the other end may be inserted into center and installs pipe 200.When needs unlock, overturn half braces unlocking mechanism and drive this horizontal pin member to move to depart from upset half braces 120.

In one embodiment, overturning half braces locking mechanism and can include movable latch fitting 1000, described upset half braces 120 is inserted in its one end, and the other end is connected with described rotating turret 100.Such as, movable latch fitting 1000 can form in comer pieces, one end inserts described upset half braces 120, and the other end may be inserted into center and installs pipe 200.When needs unlock, overturn half braces unlocking mechanism and drive this comer pieces to move to depart from upset half braces 120.

In one embodiment, described movable latch fitting 1000 inserts in described upset half braces 120 vertically movablely, has the side projection 1003 for being driven by described upset half braces unlocking mechanism 2000.

In one embodiment, as in Figure 3-5, overturn the fixing mounting 110 that half braces 120 is provided above being arranged on described center installation pipe 200, overturn half braces locking mechanism and include movable latch fitting 1000.In the shown example, movable latch fitting 1000 has upper protruding 1001, lower convexity 1002 and side projection 1003 best seen in Fig. 5, upper protruding 1001 insert in fixing mounting 110, lower convexity 1002 inserts in the lower convexity passage 121 in the lower convexity passage 111 in fixing mounting 110 and in upset half braces 120, best seen in Fig. 4.By being simply inserted into the installation that can realize movable latch fitting 1000 under this structure, because lower convexity 1002 is inserted simultaneously in fixing mounting 110, so movable latch fitting 1000 will not be because of lower section landing without support.Certainly, this is only signal, space can be had between the opposite face of fixing mounting 110 and upset half braces 120, so movable latch fitting 1000 can insert in fixing mounting 110 with one end, the other end only inserts in upset half braces 120, can be now that movable latch part 1000 designs necessary holding means, movable latch fitting 1000 is kept not fall out after upset half braces 120 release, such as it can be slidably inserted on center installation pipe simultaneously, or with extension spring pulling etc., under this teaching, can be designed that the multiple scheme realizing above-mentioned functions.

It addition, as shown in Figure 3-4, fixing mounting 110 can also have fixing ear 112, overturns half braces 120 and can also have fixing ear 122, and the fixing ear 112,122 of the two utilization can be hinged in lower end, and this structure is highly convenient for overturning the installation of half braces 120.

Next upset half braces unlocking mechanism 2000 is described in detail.

As illustrated in figures 6-10, half braces unlocking mechanism 2000 is overturn for unlocking upset half braces 120 so that upset half braces 120 is free.Overturn half braces unlocking mechanism 2000 to include:

Drag hook seat 2100, it installs on rotating turret 100, and drag hook seat 2100 can be independent parts, it is also possible to be one with rotating turret 100；

Drag hook 2200, it is connected on drag hook seat 2100；

Drag hook driving means, it drives drag hook 2200 to move up and down along drag hook seat 2100 so that drag hook 2200 has 1003 discontiguous position of rest protruding with side and contact side projection 1003 to promote the operating position of side projection 1003.

So, when needs unlock upset half braces 120, drive and move on drag hook 2200, drag hook 2200, by contact side projection 1003, continuation moves drag hook 2200, will promote side projection 1003, thus movably latch fitting 1000 unlocks upset half braces 120, so upset half braces 120 is i.e. unlocked.Utilize this structure, the unblock of upset half braces 120 can be realized by very simple structure.

Wherein, drag hook 2200 is positioned at the outside of movable latch fitting 1000 at position of rest.The meaning in outside here is, from top view, the two is the most overlapping.For example, it is possible to the profile of appropriate design drag hook is to realize this position relationship.So design can play the function of security protection, prevents protruding 1003 improper contacts the in drag hook 2200 and side from causing overturning half braces 120 and being not intended to unlock.In the case of transfer margin to seam T rotates, this safeguard function is particularly important.

Wherein, drag hook driving means can use the various mechanism that can realize shift in position function well known in the art.

Present embodiments providing a kind of simple in construction, the compactedness taking up room little designs.As illustrated in figures 6-10, drag hook driving means includes: drag hook slide block 2310, and it is clipped between drag hook seat 2100 and drag hook 2200；Drag hook slider-actuated parts, it drives drag hook slide block 2310 to slide to drive drag hook 2200 to move in drag hook seat 2100.

Wherein, drag hook slider-actuated parts can use the various mechanism that can realize shift in position function well known in the art.Present embodiments providing a kind of simple in construction, the compactedness taking up room little designs.As shown best in figs. 7-9, drag hook slider-actuated parts include:

Lever piece 2321, its one end connects drag hook slide block 2310, and this can realize in every way, by way of example, Fig. 9 shows have groove 2311 on drag hook slide block 2310, and one end of drag hook slide block 2310 is inserted in this groove 2311 by the slot 2120 on drag hook seat 2100；

Lever seat 2322, it is fixed to rotating turret 100, and lever piece 2321 is pivotally connected to lever seat 2322；And

Cylinder part 2323, has cylinder block and the piston slided in cylinder block, and the free end of piston can promote the other end of lever piece 2321.

So, under the promotion of piston, lever piece 2321 rotates with lever seat 2322 for pivot, thus drives drag hook slide block 2310 to slide in drag hook seat 2100, and then drives drag hook 2200 to move up and down.

It addition, drag hook 2200 can be slidably coupled to drag hook seat 2100 in every way.As an example, as best shown in Fig. 9, drag hook 2200 can be connected to drag hook seat 2100 by bearing pin 2210, and drag hook seat 2100 has bearing pin chute 2110, and bearing pin 2210 can slide in bearing pin chute 2110.

It addition, as shown in Figure 10, also including drag hook catch 2400, it is fixed on drag hook seat 2100 be sandwiched between drag hook catch 2400 and drag hook seat 2100 drag hook 2200.So can prevent dropping of drag hook 2200, it is also possible to for limiting the shift position of drag hook 2200.

Next upset half braces rotating mechanism 3000 is described in detail.

Overturn half braces rotating mechanism 3000 and can use the various mechanism that can realize shift in position function well known in the art.Present embodiments providing a kind of simple in construction, the compactedness taking up room little designs.Figure 11-16 shows the structure of upset half braces rotating mechanism 3000.As it can be seen, upset half braces rotating mechanism 3000 includes:

Shipping and reselling on another market 3100, its periphery being fixed to overturn half braces 120, best seen in Figure 10；

Revolution fork 3200, it has ships and resell on another market 3100 with the duties driving upset half braces 120 to overturn with the 3100 discontiguous dormant states and contacting of shipping and reselling on another market；

Revolution fork driving means 3300, it is connected to revolution fork 3200 so that revolution fork 3200 moves.

Diagram also show revolution forked standard plate 3400, and it is fixed on work top, and revolution fork driving means 3300 is arranged on revolution forked standard plate 3400, so can reasonably utilize space.But, the installation site of above-mentioned parts is not limited, and may be mounted on any suitable element.

Wherein, revolution fork driving means 3300 can use the various mechanism that can realize shift in position function well known in the art.Present embodiments providing a kind of simple in construction, the compactedness taking up room little designs.As best shown in Figure 13-16, revolution fork driving means 3300 includes:

Swiveling head 3310, it is fixed with revolution fork 3200；

Rotary shaft 3320, swiveling head 3310 is fixed in rotary shaft 3320 rotate with rotary shaft 3320；

Rotary shaft driving means, it drives rotary shaft 3320 traversing and rotates.

Wherein, rotary shaft driving means can use the various mechanism that can realize shift in position function well known in the art.Present embodiments providing a kind of simple in construction, the compactedness taking up room little designs.As best shown in Figure 13-16, rotary shaft 3320 includes axle main body and the gear part 3321 being positioned in axle main body, and rotary shaft driving means includes cross sliding driving device and device of rotation driving.

Wherein, cross sliding driving device includes: prong 3351, and its one end is fixed in axle main body；Prong driver part, it connects the other end of prong 3351, drives prong 3351 to move on the axis direction of axle main body.Prong 3351 can be fixed in axle main body in every way, such as, as Figure 14 best seen from, axle main body arranges another teeth portion 3322, gear part 3321 and another teeth portion 3322 that prong 3351 is sandwiched in axle main body, achieves the fixing of prong 3351 the most in a straightforward manner.In using, when needs rotate upset half braces 120, driving rotary shaft 3320 traversing by prong 3351, and then drive revolution fork 3200 traversing, revolution fork 3200 can contact ships and resell on another market 3100.When need not the two contact, prong 3351 can be driven reversely to retract home position.

Device of rotation driving includes: cylinder or motor 3340；Driving force transmission mechanism, it connects cylinder or motor 3340 and gear part 3321, the rotation of motor 3340 is transformed into the rotation of gear part 3321.

So, ship and resell on another market after 3100 in revolution fork 3200 contact, the power drive rotary shaft 3320 utilizing cylinder or motor 3340 rotates, and then drive revolution fork 3200 rotation to overturn overturning half braces 120, such first function tooth H1 and the second function tooth H2 is vertically aligned, then can use the socks line transfer being embodied in various ways between the first function tooth H1 and the second function tooth H2.Hereafter, reversely rotate go back to home position by overturning half braces 120, then lock with upset half braces locking mechanism.

Wherein, prong driver part can use the various mechanism that can realize shift in position function well known in the art.As best shown in Figure 16, prong driver part includes: prong bar 3352, and it connects the other end of prong 3351；Cylinder 3353, prong bar 3352 inserts in cylinder 3353, it is possible to linear reciprocating motion in cylinder 3353；

It addition, as best shown in Figure 15 and Figure 12, prong driver part can also include prong bar spring 3354, it is sleeved on prong bar 3352, and one end is against revolution forked standard plate 3400.So be conducive to location and the reset of prong.Certainly, in the case of being not provided with turning round forked standard plate 3400, prong bar spring 3354 can be against other fixing components.

Above-mentioned driving force transmission mechanism can use various structure, present embodiments provides a kind of simple in construction and space-saving design.As shown in figures 13-16, driving force transmission mechanism includes gangbar 3341, joint 3342, push pedal 3343 and gear plate 3344.Gangbar 3341 one end is connected to cylinder or motor 3340, does moving linearly up and down under the driving of cylinder or motor 3340.Joint 3342 is connected to the other end of gangbar 3341.One end of push pedal 3343 is connected to joint 3342, and push pedal 3343 fixing with gear plate 3344 so as together with rotate, gear plate 3344 engages with the gear part 3321 in axle main body.Thus achieve the transmission of driving force.

The structure of transfer tooth introduced below.

Figure 17-1 is the schematic perspective view of the transfer tooth of embodiment one.As shown in Figure 17-1, shifting tooth, including elongated body portions 10, it has top and bottom, and the lower end of elongated body portions 10 is between the pinhock 11a and needle latch 11b of the socks pin 11 inserting syringe；And fixed part 12, its one end is connected to the upper end of elongated body portions 10, and the other end is used for being fixed to braces.

As shown in Figure 17-1, the width of the lower end of elongated body portions 10 can be gradually reduced.So it is beneficial between the pinhock 11a and needle latch 11b of the socks pin 11 that syringe is inserted in lower end.

Figure 17-2 is the schematic perspective view of the transfer tooth of embodiment two.As shown in Figure 17-2, in the lower end of elongated body portions 10, elongated body portions 10 can have towards the surface of pinhock 11a has contact with groove 10a for coordinate with pinhock 11a.So, it is beneficial to by transfer toothholder between the pinhock 11a and needle latch 11b of socks pin 11, thus realizes the smooth transfer of undertoe coil.

Figure 17-3 is the schematic perspective view of the transfer tooth of embodiment three.As shown in Figure 17-3, the surface towards hook bolt 11b of elongated body portions 10 can have the suture needle groove 10b for coordinating with the suture needle of head sewing machine.Transfer tooth shown in Figure 17-3 has transfer concurrently and auxiliary sews up function, and tooth is sewed up in also referred to as transfer.Owing to having suture needle groove 10b, therefore can match with the suture needle of head sewing machine and carry out the stitching of undertoe.For the sake of difference, not there is the transfer tooth the most single transfer tooth sewing up function.

Figure 17-4 is the schematic perspective view of the transfer tooth of embodiment four.As shown in Figure 17-4, fixed part 12 can be provided with groove 12a.In conjunction with visible shown in Figure 17-5, utilize groove to be conveniently adjusted the fixing of transfer tooth, such as, can realize adjusting with the groove of the instrument multiple transfer teeth of insertion.

In Figure 17-1 to Figure 17-4, fixed part 12 is fixation hook, and fixation hook includes the first hook portion and the second hook portion connecting into inverted L shape, and the first hook portion is connected to the upper end of elongated body portions 10, and the second hook portion is used for being fixed to braces.Groove 12a can be provided with on the upper surface of the first hook portion.It addition, the angle of the first hook portion and the second hook portion can be acute angle, so it is fixed firmly on transfer device also for by transfer tooth.

Certainly, fixed part 12 can also use other various structures, as long as the function securing it on braces can be realized.Such as, fixed part 12 and elongated body portions 10 can form L shape, are equivalent to the situation without the second hook portion of the transfer tooth shown in Figure 17-1；Or form vertical bar shape, be equivalent to the situation without the first and second hook portions of the transfer tooth shown in Figure 17-1.

Elongated body portions 10 and fixed part 12 can integrally manufactured form.So conveniently manufacture and can ensure that the intensity shifting tooth is to prevent it from rupturing.

Figure 17-5 is that transfer tooth is arranged on the schematic diagram on the braces of hosiery machine transfer device.As shown in Figure 17-5, fixed part 12 is fixed on braces, and elongated body portions 10 exposes.Braces in figure is schematic, can use the various structure that can install transfer tooth.Fix half braces 140 and upset half braces 120 can include this braces.

During use, transfer tooth is fixed to fix on half braces 140 and upset half braces 120, after the syringe of hosiery machine weaves the socks that undertoe opens wide, transfer device is moved to the top of hosiery machine, then handles transfer device so that transfer tooth moves down thus inserts between the pinhock 11a and needle latch 11b of the socks pin 11 of syringe.nullFigure 17-6a shows that originally transfer device moves to the state above syringe，Now，Transfer tooth and socks pin 11 align the most one by one，Figure 17-6b shows the state that transfer tooth has just contacted with socks pin 11，Figure 17-6c shows that pinhock 11a rides over and has contact with on groove 10a，And under external force，Needle latch 11b closed needle hook 11a，Thus by transfer toothholder state between the pinhock 11a and needle latch 11b of socks pin 11，Undertoe coil is promoted to move up from socks pin 11 the most under external force，Owing to transfer toothholder is between the pinhock 11a and needle latch 11b of socks pin 11，So coil of undertoe can be transferred to shift in the elongated body portions 10 on tooth smoothly from socks pin 11，After Figure 17-6d shows coil transfer，The state moved on transfer tooth，Thus realize the transfer of socks.The most just transfer device can be removed syringe and be used for subsequent treatment.

In the description of this specification, it will be appreciated that, term " on ", D score, " front ", " afterwards ", " left ", " right ", " vertically ", " level ", " push up ", " end " " interior ", " outward ", " axially ", " radially ", orientation or the position relationship of the instruction such as " circumferential " are based on orientation shown in the drawings or position relationship, it is for only for ease of description the application and simplifies description, rather than indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

In the description of this specification, it will be appreciated that, term " connects ", " installation " etc. has broader sense, it is thus understood that include " being directly connected to ", " being indirectly connected with ", " being mounted directly thereon ", " the most mounted thereto by other elements " etc..

Certainly, it is above preferred implementation of the present utility model.It should be pointed out that, for those skilled in the art, on the premise of not unlocking this utility model ultimate principle, it is also possible to make some improvements and modifications, these improvements and modifications are also considered as protection domain of the present utility model.

Claims (10)

1. a upset half braces rotating mechanism, it is characterised in that including:

Ship and resell on another market (3100)；

Revolution fork (3200), it has ships and resell on another market (3100) discontiguous dormant state and duty that ship and resell on another market described in contacting (3100) overturn to drive described upset half braces (120) with described；

Revolution fork driving means (3300), it is connected to described revolution fork (3200).

Upset half braces rotating mechanism the most according to claim 1, it is characterised in that described revolution fork driving means (3300) including:

Swiveling head (3310), it is fixed with described revolution fork (3200)；

Rotary shaft (3320), described swiveling head (3310) is fixed to described rotary shaft (3320)；And

Rotary shaft driving means, it drives described rotary shaft (3320) traversing and rotates.

Upset half braces rotating mechanism the most according to claim 2, it is characterised in that described rotary shaft (3320) includes axle main body and the gear part (3321) being positioned in described axle main body,

Described rotary shaft driving means includes cross sliding driving device and device of rotation driving,

Wherein said cross sliding driving device, including:

Prong (3351), its one end is fixed in described axle main body；And

Prong driver part, it connects the other end of described prong (3351), drives described prong (3351) to move on the axis direction of described axle main body.

Upset half braces rotating mechanism the most according to claim 2, it is characterised in that described rotary shaft (3320) includes axle main body and the gear part (3321) being positioned in described axle main body,

Described rotary shaft driving means includes cross sliding driving device and device of rotation driving,

Described device of rotation driving includes:

Cylinder or motor (3340)；And

Driving force transmission mechanism, it connects described cylinder or motor (3340) and described gear part (3321) to drive described gear part (3321) to rotate.

Upset half braces rotating mechanism the most according to claim 4, it is characterized in that, described driving force transmission mechanism includes gangbar (3341), joint (3342), push pedal (3343) and gear plate (3344), gangbar (3341) one end is connected to cylinder or motor (3340) moves linearly up and down to do, and joint (3342) is connected to the other end of gangbar (3341)；One end of push pedal (3343) is connected to joint (3342), and push pedal (3343) is fixed with gear plate (3344), and gear plate (3344) engages with the gear part (3321) in axle main body.

Upset half braces rotating mechanism the most according to claim 3, it is characterised in that described prong driver part includes:

Prong bar (3352), it connects the other end of described prong (3351)；And

Cylinder (3353), described prong bar (3352) is inserted in described cylinder (3353), it is possible to linear reciprocating motion in described cylinder (3353).

Upset half braces rotating mechanism the most according to claim 6, it is characterized in that, described prong driver part also includes prong bar spring (3354), and it is sleeved on described prong bar (3352), and one end is against revolution forked standard plate (3400) or fixing component.

Upset half braces rotating mechanism the most according to claim 1, it is characterised in that described upset half braces rotating mechanism is used for hosiery machine transfer device, and described hosiery machine transfer device includes:

Rotating turret (100)；

Pipe (200) is installed at center, and it is connected to described rotating turret (100)；

Transfer head, its be arranged on described center install pipe (200) on, including:

Fix half braces (140), it has at least one first function tooth (H1)；

Overturn half braces (120), there is on it at least one second function tooth (H2), can overturn so that described first function tooth (H1) and described second function tooth (H2) alignment relative to described half braces (140) of fixing, described first function tooth (H1) and described second function tooth (H2) are identical or different type；

Described upset half braces rotating mechanism rotates described upset half braces (120) afterwards for being unlocked described upset half braces (120).

Upset half braces rotating mechanism the most according to claim 8, it is characterized in that, described transfer head is transfer sewing-end (T), at least one in described first function tooth (H1) and described second function tooth (H2) is that tooth is sewed up in transfer, and described transfer is sewed up the outer surface of tooth and had the suture needle groove (10b) for coordinating with the suture needle of head sewing machine.

Upset half braces rotating mechanism the most according to claim 8, it is characterised in that described first function tooth (H1) and described second function tooth (H2) are single transfer teeth.