KR20060132961A - Level adjustment device, cam harness mounting mechanism incorporating said device and weaving machine fitted with said mechanism - Google Patents

Abstract

The invention relates to a weaving machine which is fitted with a cam harness mounting mechanism (10), wherein the frames are actuated by oscillating levers (11) provided with cam followers (19A) and mounted on a common shaft (15) whereby the position thereof can be varied in relation to the frame (16) with the aid of at least one eccentric (17). The angular orientation of said eccentric (17) is controlled with the aid of a motorization unit (40, 41) which is articulated (en 42) on the frame (16) about an axis (X42) which is globally parallel to the pivoting axis (X17) of the eccentric l (17), and the output shaft of the motorization unit (40, 41) is rotationally coupled to or formed by, a threaded rod (46) which is engaged in a plate nut (50) of a maneuvering arm (60) of the eccentric (17).

Description

Level adjustment device, cam harness mounting mechanism incorporating said device and weaving machine fitted with said mechanism}

The present invention relates to an apparatus for leveling the positions of frames of a weaving machine in which a cam weaving mechanism is installed. The invention also relates to a weaving mechanism having such a device and a weaving machine provided with such a mechanism.

Cam weaving mechanisms in the weaving field are known to have a series of reciprocating levers equal to the number of idle frames mounted to the loom. Each reciprocating lever is designed to be connected to either of the frames, and is equipped with two rollers that interact with two tracks of the complementary cam which are rotated by a common axis. During certain operations for repair or adjustment of the loom, it is necessary to move all the loom frames to the same height. This is the case when it is necessary to repair particularly warp threads.

To this end, it is necessary to install various levers with rollers on the eccentric according to EP-A-0 580 528 and to rotate the eccentric to move the various levers to a common position called the horizontal adjustment position. Known. In this type of device, the rotation of the eccentric is controlled by a worm-gear reducer or a motor equipped with a reduction gear with a spur pinion. The reduction ratio of this kind of equipment must be high, which requires the use of several reduction steps for the reduction gear with spur pinions. For worm gear reducers this kind of equipment is bulky, complex and inconvenient to adjust. In all cases, such reducers are relatively expensive.

The present invention proposes to solve these problems in more detail, and proposes a horizontal adjusting device which is particularly simple to manufacture and use, and which makes it possible to move the various roller levers of the cam weaving mechanism with great precision. do.

The present invention relates to an apparatus for horizontally adjusting the positions of frames of a weaving machine in which a cam weaving mechanism is installed, in which these frames have cam follower mechanisms and the position of the apparatus with respect to the frame is changed by at least one eccentric It is actuated by reciprocating levers mounted on a common shaft which may be. Such a device is controlled by a drive assembly in which the angular direction of the eccentric is articulated about a center that is generally parallel to the pivot center of the eccentric on the frame, the output axis of which is the mooring nut of the adjusting arm of the eccentric. The screw is connected to the fixedly rotated with respect to the formed rod, or characterized in that formed by the rod.

Due to the invention, the threaded rod, which is rotated by the motor, acts directly on the mooring nut of the adjusting arm. The nut acts to rotate this adjustment arm about the pivot center of the eccentric. In other words, it serves to control the positioning of the common axis of the reciprocating roller lever along the trajectory of the arc provided by the eccentric.

According to a preferred but not mandatory aspect of the present invention, the leveling device may incorporate one or more of the following features.

The nut is articulated with respect to the adjusting arm about a center which is at least generally parallel to the pivot center of the eccentric.

When the eccentric is in a position consistent with the use of the weaving mechanism for weaving, a surface for pressing against the moving end stop is provided on the adjustment arm.

The member driven by the eccentric can press against the moving end stop when the levers are in the horizontal adjustment position. In such a case, this member is preferably fixedly attached to the adjustment arm.

A moving end stop is provided with means for sensing the pressure of the arm or the pressure of the above-mentioned member at either of the above-mentioned positions.

In an arrangement using a weaving mechanism for weaving, the geometric center of the axis common to the levers, the geometric center of the drive shaft of the cams, and the geometric pivot center of the eccentrics are substantially parallel and on the same plane. This aspect of the invention aids in the good stability of the weaving mechanism in the weave arrangement.

The axis common to the lever is supported relative to the frame by two eccentrics, each arranged near one of the ends of the axis.

The invention also relates to a cam weaving mechanism for a weaving machine having a horizontal adjusting device as described above. Such a mechanism is more economical, more reliable and easier to use than the known types of equipment, especially in leveling the frames of the loom.

Finally, the present invention relates to a weaving machine in which the weaving mechanism as described above is installed. Such a loom is easier to use than a loom of the prior art.

Through the detailed description of the weaving mechanism and the weaving machine in which the horizontal adjusting device according to the present invention is installed, the present invention will be better understood and other advantages of the present invention will become more apparent. The detailed description is given by way of example only, and is described with reference to the accompanying drawings as follows.

1 is a partial schematic view of the principle of a weaving machine according to the invention.

2 is an enlarged schematic view of the weaving mechanism of the weaving machine of FIG. 1 in a weaving arrangement;

3 shows a portion of the instrument of FIG. 2 when the instrument transitions from the weave arrangement to the horizontal adjustment position.

4 is a view similar to FIG. 3 when the instrument is in a horizontal adjustment arrangement.

FIG. 5 is an enlarged view of detail V of FIG. 2.

FIG. 6 is an enlarged view of detail VI of FIG. 4.

FIG. 7 is a perspective view of some elements forming the horizontal adjustment device of the instrument shown in FIGS.

The loom M shown in FIG. 1 has a plurality of idle frames, only one of which is indicated by reference numeral 1 in the drawing. The various frames of the weaving machine M operate in the vertical reciprocating motion shown by the double arrow F ₁ and are forced from the cam mechanism 10. The output levers 11 of the cam mechanism 10 respectively act on the connecting rods 12, which are connected to the frame by means of the connecting rods 14, with the associated curved levers 13.

The levers 11 are provided in the same number as the number of the carp frames 1, and by a double arrow F ₂ about the longitudinal axis of the common axis 15 supported by the frame 16 of the instrument 10. Rotate as shown. Two eccentrics 17, 17 ′, which support the shaft 15 and are supported by two unshown bearings formed by the frame 16, are installed at the two ends of the shaft 15.

The instrument 10 also has a plurality of corresponding cams 18 having a pair of tracks 18A, 18B pressed by rollers 19A, 19B of the same lever 11. Each lever 11 therefore follows the movement imparted by the structure of the tracks 18A, 18B of the cam 18 associated with the lever.

At the end of the shaft 21 common to the cams 18, a ring pinion assembly 20 is installed. For clarity, the ring pinion assembly 20 is shown only in FIGS. 1 and 2.

Cover 16B, which is installed in frame 16 and whose outline is shown in dashed lines only in FIGS. 1 and 2, makes it possible to space elements 15 to 21 from the outside.

In FIG. 2 the track of axis 15 is shown by a dashed line, the geometric center of the axis being referred to as X ₁₅ . One jeomswae one line in the same way represents the ₁₇ X geometrical pivot center of the eccentric (17, 17 '), it refers to the geometric center ₂₁ of the X-axis (21). These centers are parallel to each other as a whole.

In the weave arrangement shown in FIG. 2 in which the reciprocating levers 11 are designed to drive the carp frames 1 and their equivalents, the centers X ₁₅ , X ₁₇ , X ₂₁ are coplanar. This means that the separating forces between the shafts 15, 21 resulting from the influence on the levers of the cams do not tend to rotate the eccentric 17 and do not put a load on the control device of the eccentric.

When the user needs to make horizontal adjustments of the frames 1, the user must move the levers 11 in the arrangement shown in FIG. 4. In this arrangement the rollers 19A, 19B are separated from the cams 18 and all the levers 11 have the same angular position with respect to the center X ₁₅ .

To this end, the electric motor 40 is installed in the support 41 which is articulated based on the center X ₄₂ formed by the two bearings. Only one of the bearings is shown in FIG. 2 by reference numeral 42. These bearings are supported by the central portion 16A of the frame 16. Center X ₄₂ is generally parallel to centers X ₁₅ , X ₁₇ , X ₂₁ .

The assembly formed by the elements 40, 41 can therefore be rotated about the center X ₄₂ shown by the double arrow F ₃ .

The output shaft 40A of the motor 40 is supported by the bearing portion 41 by the bearing 44 and is received in the sleeve 43. The pin 45 makes it possible to rotatably couple the shaft 40A and the sleeve 43. Furthermore, the threaded rod 46 is connected to the sleeve 43 and is rotatably fixedly attached to the sleeve by the coater 47. Therefore, the threaded rod can be rotated in the direction according to the supply current of the motor 40 by the motor 40.

As a variant, the output shaft of the motor 40 protrudes outward of the support part 41, and a screw may be formed.

A nut 50 whose threaded surface corresponds to the screw of the rod 46 is mounted on the rod and is fixedly attached to the eccentric ₁₇ and extends substantially radially relative to the center X ₁₇ . It is held constrained at the end of 60. The arm 60, which makes it possible to generate torque for rotating the eccentric ₁₇ about the center X ₁₇ , has a main part 60A and a plate 60B which is installed in the main part 60A. The nut 50 is held in the yoke between the elements 60A, 60B. The nut is provided with two trunnions (biaxial), only one of which is shown at 61. The trunnions are coupled to the corresponding holes of the elements 60A, 60B, so that the nut 50 is centered substantially parallel to the centers X ₁₅ , X ₁₇ , X ₄₂ with respect to the arm 60. X ₆₁ ) relative to the joint.

It should be noted that the plate 60B is not shown in Figures 2-6 for clarity of the drawing.

When it is necessary to move the various reciprocating levers 11 to the horizontal adjustment position of the lever, the motor 40 is operated to drive the threaded rod 46 in the rotational direction to move the nut 50 to the arrow F _4. It moves in the direction of the support part 41 shown by the following. The effect of this movement is to rotate the arm 60 and the eccentric 17 in the direction of arrow F ₅ , and in FIG. 3 by rotating the geometric center X ₁₅ in the same direction with respect to the geometric center X ₁₇ . It is equivalent to the effect of moving the axis 15 away from the axis 21 along the trajectory in the arc of the circle C shown by the dashed line.

Thus, by penetrating the intermediate position of FIG. 3, it is possible to reach the position of FIG. 4, in which all the rollers 19A, 19B of the levers 11 are separated from the cams 18 so that the levers coincide. Thus, the frames 1 also match.

The assembly is formed by the motor 40 and the point at which the support 41 is mounted to reciprocate with respect to the center X ₄₂ is such that the nut 40 moves upward along the rod in the direction of the support 41. To achieve the various directions necessary for the threaded rod 46. These various directions result from the deformation in the horizontal gap between the central center X ₄₆ and the center X ₁₇ of the rod 46.

A stop 70 is mounted to the frame 16 and supports the contact switch 71. The contact switch is provided with a rod 72 to which the surface 62 of the arm 60 is pressed, as shown in FIG. 5. This makes it possible to detect whether the eccentrics 17, 17 ′ are actually positioned at the moving end position where the rollers of the various levers 11 are at a reduced play position relative to the pair of tracks of the associated cams 18. have. When the switch 71 is operated, the supply of the motor 40 is cut off and weaving can proceed.

Further, the nut 50 is rotated, and in the radial direction opposite to the end of the arm 60 which is pressed against the surface of the stop 70 in the arrangement of FIG. 4, the arm 60 is extended to the extension 63. Is extended by. According to a variant of the invention, not shown, a switch of the same type as the switch 71 may be provided in the stop 70 to detect whether the weaving mechanism is in a horizontal adjustment arrangement.

The invention is not limited to the single embodiment described, but may also be used in particular in the devices shown in FIGS. 2 and 5 of EP-B-0 580 528.

According to a variant of the invention, not shown, the center of the joint of the drive assembly may be arranged on the opposite side of the motor output shaft with respect to the motor, ie where the numbers are indicated on the motor.

The present invention relates to an apparatus for leveling the positions of frames of a weaving machine in which a cam weaving mechanism is installed. The invention also relates to a weaving mechanism having such a device and a weaving machine provided with such a mechanism.

Claims (10)

An apparatus for horizontally adjusting the positions of frames of a weaving machine in which a cam weaving mechanism is installed, the frames having cam followers and mounted on a common axis whose position relative to the frame of the instrument can be changed by at least one eccentric. Actuated by reciprocating levers, the angular direction of the eccentrics 17, 17 ′ is driven jointly with respect to the center X _{42 which} is generally parallel to the pivot center X ₁₇ of the eccentric on the frame Controlled by assemblies 40 and 41, the output shaft 40A of the drive assembly rotates with respect to the threaded rod 46 connected to the mooring nut 50 of the adjusting arm 60 of the eccentric 17. Characterized in that it is fixedly attached or formed by a rod. The method of claim 1, The nut 50 is articulated with respect to the adjustment arm 60 at least about a center X ₆₁ which is generally parallel to the pivot center X ₂₇ of the eccentrics 17, 17 ′. Leveling device. The method of claim 1, wherein When the eccentrics 17, 17 ′ are in a position (FIGS. 2, 5) consistent with the use of the weaving mechanism for weaving, the surface 62 for pressing against the moving end stop 70 is adjusted. Leveling device, characterized in that provided on the arm (60). The method of claim 1, wherein The device is driven by the eccentric 17 and is capable of pressing against the moving end stop 73 when the levers 11 are in the horizontal adjustment position (FIGS. 4 and 6). 63) comprising a horizontal adjusting device. The method of claim 4, wherein And said member (63) is fixedly attached to said adjustment arm (60). The method according to any one of claims 3 to 5, Horizontal stop device characterized in that the stop (70, 73) is provided with means (71) for detecting the pressure of the arm (60) or the pressure of the member (63) in the position. The method of claim 1, wherein In the arrangement using the weaving mechanism for weaving (FIGS. 2 and 5), the geometric center X ₁₅ of the axis 15 common to the levers 11 and the drive shaft 21 of the cams 20 the geometric center (X ₂₁₎ and a horizontal adjustment device for geometrically pivot center (X ₁₇₎ is characterized in that substantially parallel and in the same plane of the eccentric (17, 17 '). The method of claim 1, wherein The shaft 15, which is common to the levers 11, is supported with respect to the frame 16 by two eccentrics 17, 17 ′ which are respectively disposed near one of the ends of the shaft. Feature leveling device. Cam weaving mechanism for a weaving machine, characterized in that it comprises a horizontal adjusting device (40-72) as claimed in any of the preceding claims. Loom (M) provided with a weaving mechanism (10) as claimed in claim 9.

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