专利摘要:
Control for a dobby mechanism with a wedge coupling between a drive shaft and an eccentric for the dobby motion, whereby the wedge is couplable and uncouplable with a coupling member in two coupling positions which are diametrically opposite to each other. Each coupling member is connected with one radially moveably mounted switching rod, that the two switching rods being in connection with each other via two control levers (which control levers under spring action are pulled into their starting position) and a coupling rod. One of the two control levers via a balance lever cooperates both with a known needle mechanism and with a control axle, the latter being moved back and forth synchronously in the rhythm of the pressure guides for the needle mechanism, whereas the other control lever is mounted on a fixed pivot axle.
公开号:SU1009280A3
申请号:SU792818047
申请日:1979-09-21
公开日:1983-03-30
发明作者:Брок Йозеф;Суркамп Пауль
申请人:Машиненфабрик Карл Цангс Аг (Фирма);
IPC主号:
专利说明:

This invention relates to a textile machinery industry and relates to the construction of a control mechanism for a rotary helix helix carriage.
A known ro.plate healizable carriage for a weaving machine, comprising a program carrier with pressure needles and control mechanisms for the number of shafts, each of which includes a connecting rod connected by means of a lever system with a hemmed stanchion and located on an eccentric mounted on the drive shaft by means of wedge keys placed in eccentric grooves with the possibility of periodically entering the diametrically opposite grooves of the drive shaft and controlled from the connecting elements associated with the rod and control with a lever, the axis of rotation of one of which is fixed til.
A disadvantage of the known carriage is the limited speed of operation due to the design of the carriage control mechanism, which adversely affects the performance of the weaving machine.
The purpose of the invention is to increase productivity.
This goal is achieved by the fact that in a rotary helix carriage for a loom containing a program carrier with pressure needles and control mechanisms for the number of shafts, each of which includes a connecting rod connected by a lever system with a helix machine and located on an eccentric mounted on a drive shaft by means of wedge keys placed in the grooves of the eccentric with the possibility of periodically entering the diametrically opposite grooves of the drive shaft and controlled from the connecting elements associated with the rod and control levers, the axis of rotation of one of which is fixed, the axis of the other control lever is mounted with the possibility of synchronous movement with the pressure needles, and each control mechanism has switching rods according to the number of control levers, each one the end is connected to the control lever, and the other to the connecting element, and a rocker mounted on the rod, controlled from the program carrier, and pivotally connected to the lever, the axis of rotation of which is installed with the possibility of movement, while the control levers are spring-loaded to one another.
In addition, the holes for the drive axle of the control lever and the hinge connecting the axis to the beam are oval.
FIG. 1 shows a diagram of the drive of the shank in the position of the lower pharynx; in fig. 2 - the same, in the position of the upper os; in fig. 3 - wedge coupling, side projection; in fig. 4 - section A-A nafig. 3 (with the wedge on and off); in fig. Figures 5-9 are schematic views of a wedge clutch control for moving the shafts from the lower pharynx to the upper one or vice versa and for fixing the shafts in the lower Eev's position or the upper side view, in fig. 10 is a variant of the V-clutch, side projection.
Remizka 1 through ti gi 2 is connected to the connecting rod 3, which is mounted on
0 to the eccentric disk 4. The eccentric disk 4 is connected by means of a key 5, mounted with the possibility of radial movement, to a drive shaft 6 having.
5 two diametrically opposed 1-axial groove 7 for a key 5.
The wedge 5 has an axially reverse groove 8, into which the connecting element 9 is attached, fixed at the ends of two diametrically opposite one another and controlled according to the sample include rods 10 and 11. At the entrance and exit of the groove 8 in the wedge 5 there are inclined surfaces 12, and the ends of the connecting element 9 are provided with curved surfaces 13 in order to ensure a smooth wedge 5 uninterruptedly in and out.
On the back of each wedge
0 5 a nozzle 14 is mounted, which enters a radially extending recess .15 of the eccentric disk 4 and has a blind hole 16 in which the pressure spring 17 is placed.
g. Above the wedge 5 there is a ring 18 concentric with the drive shaft b, which in the zone of both including rods 10 and 11 has two slots 19 in the axial direction,
Q which includes the outer end of the Kli, at 5 in the open position. Ring 18 covers the outer end of the Kli. by 5 also in the closed position so that axial movement of the wedge 5 is prevented and during its rotation.
The ring 18 is freely mounted in a fixed guide ring 20 for compensated rotation 0 in the event of an erroneous connection and is fixed by means of a stopper wedge 21.
The pins 22 are fastened on the guide ring 20, on which they are guided respectively by means of elongated holes 23 including rods 10 and 11.
Both connecting rods 10 and 11 at their outer ends through trunnions
24 are connected to control levers 25 and 26, which, in turn, are via rod 27 and axles 28 and
29 rotations are connected to each other.
On the axis of rotation 28 of the control lever 25, there is a rocker 30, to which two pressure rods 31 are hingedly attached. The pressure rods 31 are connected to the probes 32, which read the paper map being moved by the software cylinder 33. The hole in the paper map indicates that the probes 32 fail and the push rods 31 are displaced along the trajectory of the push bars 34.
The control lever 25 is mounted on a control axis 36 by means of a longitudinal hole 35, which, in the rhythm of the pressure bars 34, moves reciprocatingly. The control lever 26, on the contrary, is mounted on a fixed axis of rotation 37. Both control levers.
25 and 26 are attracted by the traction springs 38 to their original position. The stop 39 serves to limit the movement of the rocker arms 30.
The carriage works as follows.
When depicted in FIG. 5 position of the lower pharyngeal probes 32 found a hole in the paper map, so that the nikimichnye rods 31 lift the yoke 30 from their stop 39, and thereby shifted the axis of rotation 28 to the path Y, which through the connecting rod 27 and the control lever
26 creates a connecting path on the trunnion 24 of the actuating rod 11, so that the wedge 5 enters the groove 7 of the drive shaft 6.
On the pin 24 of the other including rod 10, the switching path Z is not created, since the control axis 36 is simultaneously shifted to the path X by means of the pressure bars 34.
When represented in FIG. 7 position of the upper shed wedge 5 after a half turn of the eccentric disk 4 is on the connecting element 9 including the rod 10 and
out of the groove 7. in the drive shaft 6. Presented in FIG. 5 and 7, the control position at the same time means that the wedge 5, which is opened by the switching rod 10, is not connected, and the heddle thus remains in the upper edge position.
When represented in FIG. 8 position of the upper pharynx probes 32 did not find holes in the paper map, so
that the push rods 31 also do not fall on the trajectory of the push bars 34 and therefore are not pressed. The yoke 30 remains adjacent to its stop 39 so that the axis 28
rotation is also not offset. But since axis 3 & control lever 25 with a fixed axis of rotation 28 is shifted to the path X, on the pin 24 of the switching rod 10
there is a way to turn on Z, so
that the wedge 5 enters again, into the groove 7 of the drive shaft 6. At half a turn of the eccentric disk 4, the heddle shifts from the position shown in FIG. 8 position of the upper pharynx in the position shown in FIG. 9 control position.
Presented in FIG. 9, the control position means that the shank 1 is in the position
bottom pharynx.
In order to compensate for production tolerances and to prevent control jamming, the control lever 25 can be mounted on the axis of rotation 28 by means of a continuous one. holes 40,
FIG. 10 shows another embodiment of a wedge jacket made in accordance with the invention;
the ring 18 and the stationary direction are missing. Ring 20. The external KpHlfH of the open wedge 5. They can enter the recess 41 of the stationary and spring-loaded locking lever 42. Otherwise, the drive and control remain unchanged.
. The proposed design of the control mechanism of the helix carriage is simple in design and allows for an increase in the operating speed and, consequently, an increase in the productivity of the equipment.
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权利要求:
Claims (2)
[1]
1. ROTARY CRAWLER FOR THE WEAVING MACHINE, containing a program carrier with pressure needles and control mechanisms according to the number of headers, each of which includes a connecting rod, connected by means of a lever system to the healder of the machine and located on an eccentric mounted on the drive shaft by means of wedge keys placed in eccentric grooves with the possibility of periodic entry into diametrically opposed grooves of the drive shaft and controlled from connecting elements associated with the rod and control levers, the rotation axis of one of which is fixed, characterized in that, in order to increase productivity, the rotation axis of the other control lever is mounted with the possibility of synchronous movement with pressure needles, and each control mechanism has connecting rods according to the number of control levers, each of which one end is connected to the control lever, and the other to the connecting element, and a beam mounted on the rod, controlled from the program carrier and pivotally connected to the lever, the pivot axis orot which is installed with the possibility of movement, while the control levers are spring loaded one to another.
[2]
2. The carriage in π. 1, characterized in that the holes for the drive axis of the control lever and the hinge connecting it to the beam are oval.
Fig. /
类似技术:
公开号 | 公开日 | 专利标题
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SU1109055A3|1984-08-15|Rotary heald-raising carriage for loom
US3378038A|1968-04-16|Control system for a dobby machine
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US4552184A|1985-11-12|Method and apparatus for controlling a rotation dobby
US4298031A|1981-11-03|Shed forming device for looms
SU739143A1|1980-06-05|Dobby of loom
US4699181A|1987-10-13|Rotary dobby
同族专利:
公开号 | 公开日
ES484366A1|1980-05-16|
IT1122545B|1986-04-23|
BR7905971A|1980-05-27|
JPS5545890A|1980-03-31|
FR2436832B1|1983-12-02|
DE2841278C2|1983-11-10|
CH639708A5|1983-11-30|
JPS5936012B2|1984-08-31|
FR2436832A1|1980-04-18|
IT7925885D0|1979-09-20|
US4315530A|1982-02-16|
DE2841278B1|1979-11-29|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题

SU123475A1|1958-10-17|1958-11-30|Рессель Вольфганг|Mechanism of yawning or changing the shuttle shuttle loom|
CH523984A|1970-05-29|1972-06-15|Staeubli Ag|Method for controlling a dobby and dobby for carrying out the method|
BE791170A|1972-02-17|1973-03-01|Amigues Lucien|IMPROVEMENTS TO RATIERS FOR A MACHINES|
US3804128A|1972-11-14|1974-04-16|L Amigues|Dobby for looms|DE2938451B1|1979-09-22|1980-09-11|Zangs Ag Maschf|Rotary dobby|
DE3001310C2|1980-01-16|1982-02-04|Maschinenfabrik Carl Zangs Ag, 4150 Krefeld|Rotary dobby|
EP0047791B1|1980-09-12|1984-12-19|GebràœDer Sulzer Aktiengesellschaft|Coupling system for operating the heald frames in a loom|
US4404993A|1981-10-16|1983-09-20|Sulzer Brothers Limited|Clutch arrangement for controlling a heddle of a weaving machine|
CH661063A5|1983-06-16|1987-06-30|Staeubli Ag|METHOD FOR OPERATING A DUMPING MACHINE AND DUMPING MACHINE FOR IMPLEMENTING THE METHOD.|
FR2884527B1|2005-04-15|2007-07-13|Staubli Faverges Sca|ARMOR CAM MECHANICS, METHOD OF ASSEMBLING SUCH A MECHANICAL AND WEAVING COMPRISING SUCH A MECHANICAL|
法律状态:
优先权:
申请号 | 申请日 | 专利标题
DE19782841278|DE2841278C2|1978-09-22|1978-09-22|Control for a rotary dobby|
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