Versions of lock for flat-knitting machine

专利摘要:
A knitting-transfer cam unit for V-bed flat knitting machines wherein needle butts of the needle bodies of slider needles are selectively lowerable in the needle channels of the needle beds by means of a needle selection device, and wherein the slider needles have sliders provided with slider butts and arranged for the transfer of stitches, comprises stationary and movable cam elements for engagement with the needle butts and the slider butts, and also comprises pressure cam elements. In order to be able to perform any combination of stitch formation and tuck loop formation with each traverse of the carriage, or in order to be able to transfer any stitches without additional transfer cam units, at least one movable cam element for engagement with the needle butts for the formation of stitches is provided and is movable at the positions of carriage reversal, symmetrical movable cam elements are provided for engagement with the needle butts and slider butts for the transfer of stitches, the cam elements for engagement with the slider butts are stationary or movable and are formed such that they define slider butt channels delimited on both sides for a relative movement between needle body and slider in the slider longitudinal direction, a selection position for the needle butts is provided at the central transverse axis of the cam unit and respective selection positions for the needle butts are provided towards each end of the cam unit.
公开号:SU1454261A3
申请号:SU833597501
申请日:1983-05-26
公开日:1989-01-23
发明作者:Кюнерт Готтфрид
申请人:Универсаль Машиненфабрик Др.Рудольф Шибер Гмбх Унд Ко.Кг (Фирма)；
IPC主号:

专利说明:

The invention relates to a knit machine industry, in particular to the locks of flat machines,
The purpose of the invention is to increase the pro- and water content of the castle.
FIG. I depicts a castle length. forming and wrapping loops for one needle bed of a flat roof mask, included for making loops, the first embodiment; Figure 2 is the same to form a half-stitch or loop; in fig. 3 - the same, for each in the low speed using the three-way technique; FIG. 4, for forming and looping hinges for both needle beds, with the lock for the front needle beds being turned on to transfer the loops, and the lock for the back needle beds for receiving the loops; in fig. 5 - a lock for forming and wrapping loops dp of one needle bed of a flat die machine, including dp for obtaining loops, second variant; in fig. 6 - the same, dp half looping or looping; in fig. 7 - the same, for each in the low speed using the three-way technique; in Fig. & - a lock dp for the formation and closure of loops for both needles, while the lock dp of the front needle bed is turned on for transfer, and the lock dp of the back needle case is for receiving peuel; figure 9 - dvizhkova needle in the position of dp transfer loop; FIG. 10 shows a lock dp for forming and wrapping loops for the needle bed of a flat zinging machine, included dp for obtaining loops, an embodiment; in fig. And - the same dp is the formation of a half-stitch or loop reception; fig. 1 2 - the same, dp rdbo you on a three-hd technique; on fit. 1 3 lock to form and cap loops. There are two needle beds, with a lock for the front needle bed, including dp transmission, and a lock for the back needle bed for receiving loops; in fig. 14-16 - the positions of the loop-transmitting engine and the loop-receiving needle when the hinges are fitted with a lock according to FIG. ten,
The proposed lock (Figures 1-4) is used to control the needle shaft and the needle engine in loop loops and to form a half loop, with a combination of types in a three-way technique (loop, fang, without looping) or during transmission and reception loop, as well as the simultaneous process of receiving and transferring loops on one looped p, do, i.e. with one stroke of the carriage from left to right or right to left. The lock is a symmetrical figure with respect to the middle transverse axis I. Therefore, locks can be installed several in number with each other, for example, two, three, four, and so on. Each lock has area A for controlling the body of the needle and area B for controlling the engine of the sliding needle (all rigid parts of the lock are shaded with vertical lines, turn on) Parts do not have hatching — are set to a non-working position or have slanting hatching — are included ). All parts of the lock in zone B for controlling the slider are rigidly fixed. When the lock in the first embodiment (Figs. 1-4) is used, parts 1 and 2 for gripping the needle thread 3 when loops are formed are activated in places where the carriage movement direction changes with swinging locks, which, when moving in front, look at When the direction of movement is changed, the carriage turns on when it is raised and turned off when it is lowered. Locking parts 4-6 are used in loop transfer. They are planted on a common plate and are turned on and off together. Lock parts 7 are pulling triangles that move in the plane of the lock. Each lock has a sampling device 8 for the needle supply tia of the middle transverse axis M of the lock, and also one device 9, 10 for the selection of needles for the needle flow on the front sides of the lock (the corresponding parts and lock for the rear needle II I are indicated by a stroke). Of the three selection devices 8-19, two are moving ahead, i.e. when moving the carriage from left to right - devices 9.and 8, when moving the carriage from right to left - devices 10 and 8,
The loops when the carriage moves from left to right (Fig. 1) of the lock part 4-6 are turned off, part 1 is set to the inoperative position during its swing, and part 2 is put into operation by swing.
The slider needles are in the main position (comb level)
before locking them with the parts of the castle, the heels of the needles 3 and the sliders 11 occupy the position shown on the right side of FIG. 1. At the same time, the hook of the sliding needle is closed. The selection device 9, which is included in the work, has 5 needles raised from the needle bar to the zone A of the lock. Ptki II engines are not required
comb is turned into a new half loop.
In the case of a three-way technique, the carriage moves from left to right (Fig. 3). 3 needle needles forming loops are picked up by device 9, and 3 needle needles that form half loops are picked up by device 8. Slide needles, remove them always located t-rye not in zhut, remain mainly pic in zone B of the castle.
When the needle 3 needle slides upwardly on the locking part 12 of the needle II of the engine, it is placed on part 13. The needle shaft and the engine make a mutual relative flow movement. The needle hook will not open and the end of the engine will not rest against the rod. Then they slide together, facing part 2 to a height where a loop is made — the old loop slides off the slider. In this position, the needle remains until the relative movement of the rod and engine is retracted by the parts 14 and 15 to the position of laying the thread. After this, the lock part advances the slider at the moment when the part 7 pulls back the needle rod. After the termination of this relative movement, i.e. when the needle hook is closed again, the rod and slider slide down to a depth determined by the amount of delay of the pulling triangle 7, and again: laid. the thread turns into a new loop.
During the formation of a half-loop or loop of loops when moving the carriage from left to right (Fig. 2), parts 4-6 are in the off position, the lock part 2 when moving in front is turned on by swinging into work, and part 1 is moved in the back position to non-working position. A selection device 8 is in a working position. The 3 needle needles, which form the half loops, are placed in the lock zone A and are pulled to the height of the fang with the help of the locking part 16. When upwards, the two 1G engines slide up onto the part 17, resulting in a relative movement between the needle shaft and the slider, which opens the needle hooks. The following stages of movement are carried out as in the formation of loops, with the difference that the newly laid thread when the needle is pulled is below the level
15
20
thirty
the needle pins are lowered into the needle room and cannot be locked by a lock.
To transfer the loops from front to back when the carriage moves from left to right (Fig. 4), parts 2 and 2 of the lock are turned on by swinging to the working position, parts 1 and 1 are put to the non-working position, and parts 4-6 - to the working position (the location of the parts above the front and the back of the needle cases).
The needles 3 of the needles transmitting the loops are set in the working position of the needle extraction device 9, and the weights of the 3 25 needles receiving the loops are set in the working position of the selection device 8. They are located in the corresponding zone A of the castle. Pt 11 and P engines do not require a selection, they are always in zone B of the castle.
If the carriage moves to the left, the webs of the 3 needles of the front needle bed are pushed by parts 2, 2 and 6 as long as part 18 does not catch the webs of the second engines and will not hold them, then due to relative movement between the needle shaft and the engine in the part area 13, the needle hooks open. The engines reach heights at which their supporting hinge surfaces hold the hinges in the extended position to pass through the opposite needles. V
The part 5 of the lock returns with the help of a needle 3 needles the needle core back to the level of the comb and near the selection device 8 puts it in an inoperative position, i.e. The pts 3 of the needle disappear in the needle case, while the needle core is attached with its end to the rotary plate. The pts of the 11 sliders remain in this position until the pits of the 3 rear needles that receive the hinges are selected by the device 8 and pulled out of the piece 16. The lock part 17 holds the nib II of the slide while the needle is moving until the needle hook will be opened and the needle with pin 3 will not be inserted into
35
50
55

614
comb is turned into a new half loop.
In the three-way technique, when the carriage moves from left to right (Fig. 3). 3 needle needles forming loops are picked up by device 9, and 3 needle needles forming half half loops are picked up by device 8. Sliding needles that are not remain mostly po15
0
0
the needle pins are lowered into the needle room and cannot be locked by a lock.
To transfer the loops from front to back when the carriage moves from left to right (Fig. 4), parts 2 and 2 of the lock are turned on by swinging to the working position, parts 1 and 1 are put to the non-working position, and parts 4-6 - to the working position (the location of the parts above the front and the back of the needle cases).
The needles 3 of the needles transmitting the loops are set to the working position of the needle extraction device 9, and the weights of the 3 5 needles receiving the hinges are set into the working position of the selection device 8. They are located in the corresponding zone A of the castle. Pt 11 and P engines do not require a selection, they are always in zone B of the castle.
If the carriage moves to the left, the webs of the 3 needles of the front needle bed are pushed by parts 2, 2 and 6 as long as part 18 does not catch the webs of the second engines and will not hold them, then due to relative movement between the needle shaft and the engine in the part area 13, the needle hooks open. The engines reach the height at which their supporting loops of the surface hold the loops in the extended position to pass through the opposite needles. V
The part 5 of the lock returns with the help of a needle 3 needles the needle core back to the level of the comb and near the selection device 8 puts it in an inoperative position, i.e. The pts 3 of the needle disappear in the needle case, while the needle core is attached with its end to the rotary plate. The pts of the 11 sliders remain in this position until the pits of the 3 rear needles that receive the hinges are selected by the device 8 and pulled out of the piece 16. The lock part 17 holds the nib II of the slide while the needle is moving until the needle hook will be opened and the needle with pin 3 will not be inserted into
five
0
five
extended front loop. The subsequent deflection movements of the loop-transmitting engine with helix 1, as well as the needle-receiving pin of the needle with hem 3, ensure perfect transmission or reception of loops from the front needles to the rear loops.
The lock part I8 has humps 18a and 18b, which serve to press the loops to the supporting surface on the slider during the forward movement near the cape and dp slightly loosen the loop at the end so that the needle receiving the loop in front of the loop can be threaded between two rigid parts mi engine. After this, the hump behind the back hump 18b places the loop in the transfer position and, with synchronous movement, the needle that receives the loop passes through the extended loop.
FIG. Figures 5-8 show another embodiment of a combined lock dp forming and wrapping loops dp slider needles. Instead of parts 4-6 (FIG. I-A), include parts 20-23 are included. The extension part 20 and the needle retraction part 2, as well as the extension 23 and retraction 22 parts of the lock are seated on one plate and included1) separately. Instead of parts 1 and 2, it is provided to be included in the work when moving ahead in the places of changing the direction of movement of the carriage and swinging in the plane. The frame relative to the middle M axis of the part 24 of the lock, which captures the needle's current 3 when loops are formed (Fig. 5-8 shows the swing position of the part 24 when the carriage moves from left to right).
Dp loops (fig. 5) - parts 20-23 are turned off and the forcibly turned part 24 of the lock is in the right position dp of the carriage movement from left to right. The loops of the 3 needles forming the loops are picked up by the device 9, i.e.
pts 3 needles LIFT 1LUTS IGOLNITS,
19 (not shown) and installed in zone A of the castle. Item 12 moves the needle with the ps 3 up. The part 17 during this movement holds the slider over the heel 11, as a result of which the needle hook opens and the end of the two is attached to the needle shaft.
After opening the needle hook, the lock part 24 carries out further
five
0
needle movement. A rigidly fixed common part of the lock between the channel for the flow of the sliders to form a half-loop and receive loops and. a channel for the formation of loops is formed from the middle part (part 25), having gaps between the middle part and the external parts — parts 17, 17. During the next extension of the needle shaft with the help of a 24 thread piece. 1 slider slides over part 25 - the old loops are on the slider. Following this, the deflecting movement of the needle core (needle 3 needle) and the slider (engine And slider) with the help of parts 14 and 15 sets the needle to the position of the thread laying. Part 26 moves the slider towards the needle hook while the lock part 7 pulls down the needle core. The relative movement of the needle and the stem that stops at the same time stops when the hook is closed,
5 needles, newly laid thread lies. needle in the hook, and the old loop on the engine. With further joint pulling down the needle and engine, the old loop is dropped through the closed needle hook and the newly laid thread begins to transform into a loop.
When forming a half-loop or receiving loops when the carriage moves
from left to right (fig. 6) details 20-23. out of work. The 3 needles forming the half loops are picked up by the device 8 and, when the carriage moves to the right, they are advanced by part 16 to the height corresponding to the fang. At this time, the heels of the 11 sliders are held by the part, 25, as a result of which the needle hook opens and is ready to lay the thread. During the subsequent deflection movement, the old loop and the newly laid thread lie together in the needle hook, while the newly laid thread, when pulled further down below the comb level, is converted into a half loop.
In the case of a three-way technique, when the carriage moves from left to right (Fig. 7), parts 20-23 are turned off. 3 needle needles forming loops are selected by device 9, and 3 needle needles that should form half loops are selected by device 8. Needles, which do not fit, remain in the main position at which n n0
five
The 3-needle ki are recessed into the needle bed and cannot be locked.
For the transfer of loops from front to back when the carriage moves from left to right (Fig. 8), parts 22 and 13 are included in the work. The 3 needle needles transmitting the loops are activated by the selection device 9. When pulling out the needles with the help of the thread 3 with the locking part 23, the weights of 11 engines are held by the locking component 13 until the hook opens and after that the engine is not forcibly seized by the needle stern. At the point of maximum insertion, the engine with its heel II falls into the part area 18. In this position, the loops are expanded and placed in a position in which the needle of the back needle bar can pierce the loop. Before this happens, the needle shaft in the front needle bar should be put back in the position corresponding to the level of the ridge. The locking part 22 pulls the needle away with the helix 3, while the heel with the heel II is held by the locking part 8, its position does not change. Parts 20 and 21 are turned off. If the needle with the heel 3 in the front needle plate has reached the level of the comb, in the back lock the needles with the hem 3 are put into operation in order to receive the loops. Details 20, 21 and 22, 23 are turned off. The selected needles with p-pts 3, are installed with the help of the lock part 16 in the fang position or the hinge receiving position. When advancing the hem, the 11 engines are held by the part 29, as a result of which the needle hook is opened and can be inserted into the prepared loop. The cape hinge with one direction of movement of the carriage can be carried out from the front to the rear needle bed and vice versa.
In this case, part 18 is equipped with humps 18a and 18b.
FIG. 9i shows a needle-transmitting needle with a rod 26 and a slider (closer) 27 in the needle bed 28 in a position in which the loop for transmitting the letkit on the loop support of the slider 27 and is expanded. The needle core has a heel 3, and the slider has a heel 11. The loop-receiving needle, in the opposite needle bed, is in the ready position to receive the loop.
Well
ten
15
20
454261 8
Another form of lock closure is possible for forming and wrapping loops for slider needles (Fig. 10-13), by which the reliability of the loop transfer process can be achieved. The included parts 4 and, using 1e for transferring the loops, are not located in zone A of the castle for controlling the needle shaft, l in zone B for controlling the slider and are indicated by the positions 29 and 30. The rest of the components of the lock in zone B for controlling the slider are rigidly mounted. . The included parts 30 and 29 are installed symmetrically with respect to the middle transverse axis M of the lock above the rigid part 18, which simultaneously fulfills the function of the part 17.
To form loops when moving the carriage from left to right (Fig. 10), the parts 1 and 2 of the lock are forcibly turned on when they are moving in front of and turned off from work when moving from the back of the swinging parts. When the carriage moves from left to right, part 2 of the lock is put into operation. Detail 5 - in zone A of the lock, parts 30 to 29 in zone B of the lock are turned off. The device 9 selection is included in the work. Those needles are selected that should loop. In this case, the 3 needle needles emerge from the needle cases, as a result of which they can be captured by the lock part 12. Ptki 11 engines captured by the part, 26 and make the movement up and down. At this time, the pins 3 of the needles move upwards.
In the area of the part 13, the relative motion of the needle and the slider current ends, i.e. needle hook open. The slider now abuts the needle rod and with further extension of the rod moves part 2 upward until the needle 11 of the slider is installed above part 18. At this position, the needle reaches the position of maximum extension, so that the thread can be laid during subsequent needle pulling. The following process is similar to that described (in FIG. 1).
When a half loop is formed or a loop is received when the carriage moves from left to right (Fig. 11), the lock components are turned on as described (Fig. 10), however, in this case, the device 8 is selected and selects needles that should form; half loops. 3 needle needles enter with
thirty
35
40
45
50
55
In this way, the locking edge 11 of the sliders is held by the part 18 in order to open the needle hook. Since part 1, when moving from behind, is out of operation, the needles remain at the height of the fang and after that they are pulled back, for
the needles are opened and threaded by a thread between the ready parts of the front slider (Fig. 14). Now the front engines are advanced with the help of the current 11 and the part 4. In this case, the loop rises by the supporting surface on the engine above the hook of the rear, receiving loop, needles (Fig. 15),
laying the filament and forming a half web If this position is reached, the back, receiving loop, the needle is lifted by part 16 to the loop receiving position (height of the fang). In this case, the needle hook that receives the loop passes through the loop (Fig. 16). With an additional deferment of the transmission loop of the slider, the loop falls into the hook of the receiving needle, as a result of which it can return to
whether.
In the three-way technique, when the carriage moves from left to right (Fig. 12), part 2 moves forward in motion, and part 1 in motion: it is turned off from work, parts 5, 29 and 30 are in an idle position. When moving the carriage to the right device
9, needle needles are selected, which must be looped at a level that forms a loop, and the device
8 pts of 3 needles, which should form during the transfer of the loop of 31 parts, call half-loops. All unsecured dvnzhk 27 transmitting loop, hold-needles are in the off position. live in an extended position with Needles passing through as described. 25 using a hook or a needle bar 26.
FIG. Figure 13 shows the switching position of the parts above the front and rear needles for transferring loops from front to back as the carriage moves from left to right.
With appropriate switching on of parts, the lock can transmit loops both from the rear to the front and from front to back and in both directions simultaneously with two directions of carriage movement.
Parts 2 and 2 turn on when moving ahead, and parts 1 and 1 turn off when moving.
from behind. Parts 29 and 5 are included in the work, you can install several locks with each other, for example, in the form of double, triple, etc. the castle.

权利要求:
Claims (10)
[1]
1. A lock for a flat-bed machine, containing sliding needles with hems, installed in the grooves of needle cases with the possibility of selective opus 50 Cani, needle thrusters with hems, systems of controlled and uncontrollable wedges for needle needles, each symmetrically relative to the center axis of the lock and having a wedge dl in an idle
55 and for transferring the hinges, pressure wedges of the needle picker, a system of wedges for the flow of sliders for the underside, located symmetrically with respect to the center axis of the lock and receiving the loop.
Using the proposed lock, it is possible, regardless of the direction of movement of the carriage, to obtain combinations of loops, half-loops and not to form loops both on the front and on the rear needle beds, or, optionally, to make a cape of the loops from the front needle bed to the back or from the rear on
front, or simultaneously in both directions, regardless of the direction where the carriage moves and the direction of the loop transfer. Since the lock is fully symmetrical
1. A lock for a flat-bed machine, containing sliding needles with hems, installed in the grooves of needle cases with the possibility of selective lowering, sliders of needles with hems, systems of controlled and uncontrollable wedges for needle weights, each symmetrically relative to the center axis of the lock and having a wedge dl in an idle
and for transferring the loops, the pressure wedges of the needle picker, a system of wedges for the flow of sliders for the knives, located symmetrically with respect to the center axis of the lock and forming channels that are limited on both sides in the longitudinal direction, which is characterized by the fact that , at least one of the wedges for the needles for the needle is installed with the possibility of swinging relative to the lock plate and interacting with the carriage in the places where the direction of its movement changes, wedge dp of transferring the loops dp ig l made in the form of lifting and lowering wedges, with the wedges located on one side of the axis of symmetry of the lock mounted on one plate and installed with the possibility of joint operation, and the pressure wedges of the device for picking needles are installed one at a time on the middle transverse axis of the lock and on its front sides.
[2]
2. The lock according to claim 1, characterized in that all the wedges for the slide engines are rigidly mounted on the key plate, and symmetrically to the axis of symmetry two wedges dp needles for the underside are rotated, while the wedge for transferring the loops is in the form symmetrical with respect to the middle axis of the lock of the lowering wedge and two lifting wedges symmetrically located with respect to the middle axis.
[3]
3. The lock according to claim 2, that is, so that all the wedges for transferring the loops are mounted on one plate and are installed with the possibility of joint operation.
[4]
4. The lock according to claim 1, which is one that has one of the wedges for under the needle and is made symmetrical about the middle axis of the lock.
[5]
5. The lock according to Claim 2, characterized in that each lifting wedge is mounted on the lock plate in front of the descending wedge as the carriage moves.
[6]
6. Lock according to claim 2, characterized in that the wedges for the sliders of the sliders contain wedges rigidly mounted on the key board
 for carrying and receiving loops.
[7]
7. The lock according to claim 6, I distinguish Sch and with the fact that the wedge for the current of the sliders dp of the transfer of the loops and for the whole are integral,
[8]
8. Lock according to claim 7, characterized in that the wedge for the slide current for transferring the loops is made symmetrical about the middle axis and has two lifting slopes arranged symmetrically relative to the middle axis.
[9]
9. A lock for a flat-panel machine, containing sliding needles with fleshes, installed in the grooves of the needle beds
with the possibility of selective lowering5, needle thrusters with nippers, systems of controlled and uncontrollable wedges for needle flow, each symmetrically relative to the middle axis of the lock and having a wedge for under and under
0 wedges for transferring loops, pushing wedges ycTpofiCTBa for selecting needles, a system of controllable and uncontrollable wedges for a flow of sliders located symmetrically with respect to the middle axis and forming channels that are limited on both sides in the longitudinal direction, different in that Increasing the capacity, at least two wedges for the needles are installed with the possibility of swinging relative to the keypad and interacting with the carriage of the machine in places where the direction of its movement changes, the wedge for transferring the hinges for the needles, they are made in the form of lifting and lowering wedges, while they are mounted on one plate and installed with the possibility of separate operation, and the pressure wedges of the needle pickers are installed one on the middle transverse axis of the lock and on its front sides, controlled wedges dp transfer loops
g needle engines mounted on one
plate with the possibility of separate operation in places of change. the direction of movement of the carriage of the machine.
[10]
10. The lock according to claim 9, characterized by the fact that the wedge for transferring the loops dp of the sliders is mounted above the uncontrollable wedge for a height for the flow of the sliders and are installed symmetrically about the middle axis
5 castle.
0
five
0
/ J
Figz
/ABOUT
7 4 / / 5
G5 77
, 8 Ю5 26 Г
3
Phie.
Fig. §
/ 5 Г7
Ml
/ 2ff 21 Yu
YU
15 77
BUT
YU
Fia.7
 / 2 years 23
M 0tt & 6
at
t
AT
four
/ (
7 2Q 21 JB
7 ha I lit
YU
eight
22
/ "/ G /: 1
eight
3
M .B
29
X; j
FIG, Yu
014g. eleven
eight
. T 1 2,
i / I I // 7 "PC
70
0 // g 12
26
FIG. IS
26

类似技术:

---

公开号 | 公开日 | 专利标题

---

SU1454261A3|1989-01-23|Versions of lock for flat-knitting machine

---

US6125661A|2000-10-03|Flat knitting machine

---

US6079233A|2000-06-27|Flat knitting machine with movable loop forming plates

---

US4019350A|1977-04-26|Method of producing double-knit fabric having additional fleece threads incorporated into oneface or both faces thereof

---

JP3085657B2|2000-09-11|Flat knitting machine

---

US5367892A|1994-11-29|Stitch increasing for flat knitting machines

---

JP2000506234A|2000-05-23|Process and circular knitting machine for producing a patterned pile fabric and a pile element therefor

---

EP0535985B1|1996-07-03|Method of transferring loops and apparatus for transferring loops integrated with a flat knitting machine

---

EP0751248B1|1999-09-29|Knitting and transfer cam for flat knitting machine

---

US4555917A|1985-12-03|Combined knitting-transfer cam unit for V-bed flat knitting machines with slider needles

---

EP0890667A2|1999-01-13|A stitch forming method and a flat knitting machine therefor

---

US4662192A|1987-05-05|Flat knitting machine

---

US5255537A|1993-10-26|Flat-bed knitting machine

---

US6178782B1|2001-01-30|Stitch loop retaining method by using a flat knitting machine

---

EP0042838B1|1984-04-11|Flat bed knitting machine and transfer systems therefor

---

US5390511A|1995-02-21|Method of manufacturing a jacquard pile fabric and sinkers used therein

---

EP0698679B1|1999-03-10|Knitting cam and cam apparatus

---

US4141228A|1979-02-27|Pattern mechanism for a flat bed knitting machine

---

GB2173220A|1986-10-08|Multisystem circular knitting machine

---

SU1373328A3|1988-02-07|Locking device for knitting and transferring loops for flat-knitting machines

---

JP3240325B2|2001-12-17|Plush fabric manufacturing method and knitting machine

---

US4550577A|1985-11-05|Knitting machine with rocking knock-over bits, and method of knitting therewith

---

KR100768347B1|2007-10-18|Weft knitting machine with transfer mechanism and transferring method

---

US4147042A|1979-04-03|Selection mechanism of circular knitting-machine

---

GB2044299A|1980-10-15|Links-links flat knitting machine

同族专利:

---

公开号 | 公开日

---

GB2120690B|1986-03-26|

---

ES281683U|1985-05-16|

---

DE3220055C2|1989-04-27|

---

IT8320912D0|1983-05-03|

---

JPS6219535B2|1987-04-30|

---

ES279043U|1985-04-01|

---

IT1163293B|1987-04-08|

---

US4474037A|1984-10-02|

---

ES279043Y|1985-11-01|

---

ES281682Y|1985-12-16|

---

GB8313889D0|1983-06-22|

---

FR2527657A1|1983-12-02|

---

ES281682U|1985-05-16|

---

FR2527657B1|1987-10-30|

---

JPS58214566A|1983-12-13|

---

DE3220055A1|1983-12-01|

---

GB2120690A|1983-12-07|

---

ES281683Y|1985-12-16|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

DE1760025C3|1968-03-23|1982-12-02|H. Stoll Gmbh & Co, 7410 Reutlingen|Lock for jacquard flat knitting machines with transfer device|

---

DE1785099C3|1968-08-09|1975-01-23|H. Stoll & Co, 7410 Reutlingen|ScMoe for flat knitting machine !! for transferring stitches from the needles of one to the other needle bed|

---

GB1339355A|1971-06-23|1973-12-05|Stibbe Monk Development Ltd|V-bed knitting machines|

---

IT1041890B|1974-09-10|1980-01-10|Universal Maschinenfabrik R Sc|SUSPENSION TRANSFER LOCK FOR STRAIGHT KNITTING MACHINE|

---

DE2445027A1|1974-09-20|1976-04-01|Stoll & Co H|LOCK FOR FLAT KNITTING MACHINES|

---

ES445984A1|1976-03-05|1977-07-01|Bosch Palacios Juan|Sliding latch needle|

---

WO1981000868A1|1979-10-01|1981-04-02|Bentley Alemannia Ltd|Flat bed knitting machine and transfer systems therefor|

---

DE3151225C2|1981-12-23|1985-01-31|Universal Maschinenfabrik Dr. Rudolf Schieber GmbH & Co KG, 7081 Westhausen|Needle for flat knitting machines|

---

DE3151150C2|1981-12-23|1984-09-13|Universal Maschinenfabrik Dr. Rudolf Schieber GmbH & Co KG, 7081 Westhausen|Compound needle|DE3327093C2|1983-07-27|1986-05-22|Universal Maschinenfabrik Dr. Rudolf Schieber GmbH & Co KG, 7081 Westhausen|Combined knitting padlock for R-R flat knitting machines with V-shaped needle beds and compound needles|

---

DE3334040C2|1983-09-21|1986-03-13|H. Stoll Gmbh & Co, 7410 Reutlingen|Single or multiple lock system for flat knitting machines|

---

DE3433628C2|1984-09-13|1986-12-18|H. Stoll Gmbh & Co, 7410 Reutlingen|Lock system for flat knitting machines and method for the combined formation and transfer of stitches on flat knitting machines|

---

JPH0137497B2|1985-05-02|1989-08-08|Shima Seiki Seisakusho Kk|

---

JPH0137495B2|1985-07-18|1989-08-08|Shima Seiki Seisakusho Kk|

---

JPH0137498B2|1985-07-19|1989-08-08|Shima Seiki Seisakusho Kk|

---

DE3661204D1|1985-09-04|1988-12-22|Steiger Sa Atelier Constr|Cam unit for a flat bed knitting machine, and knitting machine equipped with said cam unit|

---

DE3537612C2|1985-10-23|1994-07-28|Stoll & Co H|Lock system for flat knitting machines|

---

US5305619A|1990-03-26|1994-04-26|Shima Seiki Mfg. Ltd.|Stitch increasing method and cams for flat knitting machine having stitch increasing function|

---

JP2530242B2|1990-05-16|1996-09-04|株式会社島精機製作所|Steering cam for flat knitting machine with widening function|

---

TR25333A|1991-03-26|1993-01-01|Shima Seiki Mfg|KAM FOR KNITTING MACHINES WITH LOOP INCREASE METHOD AND LOOP INCREASE FUNCTION|

---

JP2694626B2|1991-09-17|1997-12-24|株式会社島精機製作所|Flat knitting machine|

---

US5937673A|1997-05-01|1999-08-17|Shima Seiki Manufacturing, Ltd.|Compound needle of a flat knitting machine|

---

US6047569A|1997-05-27|2000-04-11|Shima Seiki Manufacturing, Ltd.|Method for holding a stitch loop|

---

DE69809141T2|1997-07-11|2003-07-24|Shima Seiki Mfg|Mesh forming method and flat knitting machine therefor|

---

JP3085657B2|1997-08-08|2000-09-11|株式会社島精機製作所|Flat knitting machine|

---

JP3292836B2|1998-05-06|2002-06-17|株式会社島精機製作所|Flat knitting machine|

---

JP2995464B2|1998-05-15|1999-12-27|株式会社島精機製作所|Depositing device for stitch loop in flat knitting machine|

---

JP4015982B2|2003-10-10|2007-11-28|株式会社島精機製作所|Cam apparatus for knitting fabric|

---

EP1607503B1|2004-06-17|2011-08-03|H. Stoll GmbH & Co. KG|knitting cam|

---

JP4336305B2|2004-12-27|2009-09-30|株式会社島精機製作所|Combined cam system|

---

WO2006103957A1|2005-03-25|2006-10-05|Shima Seiki Mfg., Ltd.|Method of knitting cylindrical fabric in weft knitting machine and weft knitting machine|

---

DE102010010892B4|2010-03-10|2013-08-01|H. Stoll Gmbh & Co. Kg|Method of making a knit and flat knitting machine|

---

DE102010017948B4|2010-04-22|2013-04-25|H. Stoll Gmbh & Co. Kg|Lock system for a flat knitting machine|

法律状态:

优先权:

---

申请号 | 申请日 | 专利标题

---

DE19823220055|DE3220055C2|1982-05-27|1982-05-27|

---