RU2149818C1 - Long-cut material winding device - Google Patents

Abstract

FIELD: medicine; production of surgical stitch threads. SUBSTANCE: device has drive, receiving mechanism, thread spreading mechanism including pair of lead screws receiving axial displacement from drive and carrying sliders with thread guides, and slider movement direction changing mechanism. Gear wheels fitted on lead screws are in meshing. Slider movement direction changing mechanism is made in form of turning lever carrying gear set into rotation by drive. With lever turned, gear comes into meshing alternately with one or other gear wheel. Microswitch is mounted on lever. Stops for engagement with microswitch are secured in sliders. EFFECT: increased accuracy of winding of thread of required length. 5 dwg

Description

 The invention relates to the production of surgical suture threads and can also be used for winding and other long material of limited length.

 Currently, the winding of surgical suture threads is carried out in the form of skeins, while the accuracy of the skein size is of great importance due to the high cost of such threads, as well as to ensure lengths of the thread of a certain length during various surgical operations. In addition, when winding skeins, visual control of each layer of thread should be provided to exclude the presence of dangling ends or any other defects.

 Widely known in the textile industry are devices for winding long materials, comprising a receiving device / reel, reel /, a spreader, a drive informing the rotation of the receiving device and the movement of the spreader, and a rev counter kinematically connected to the receiving device.

 Thus, for example, a device for winding skeins of the MPA-1M brand is described in the Catalog Directory of Laboratory Instruments for the Textile and Light Industry, M .: 1972, p. 34.

 The reel is driven from the electric motor through a system of pulleys and through a conical pair and a worm gear is a rev counter and a cam, which is kinematically connected to the thread guide. A protrusion is mounted on the counter disk for interacting with a lever associated with stopping after reaching a predetermined length of the wound thread.

 The reel is connected to the counter disk in such a way that with a single revolution of the disk, a predetermined thread length is achieved. The ledge disc deflects the lever, which, in turn, acts on the microswitch.

 The disadvantage of this device is that when rewinding surgical threads, it does not provide a skein of exactly the specified length, since the length of the wound thread depends on the circumference of the reel. Depending on this length, a certain number of reel revolutions is set on the counter, after which the device stops. Thus, the counter has an error equal to one revolution of the reel. In addition, to adjust the circumference of the reel and, therefore, the length of the skein is not possible.

 The closest in structural embodiment to the proposed one is a device for winding threads, described in US patent N 3061237 from 1962, class. 242-158. 4. It contains a drive, a receiving device and a layout mechanism. The latter includes a pair of spindles and a slider carrying thread guides mounted on the control shaft with the possibility of alternating engagement with the screws by means of half nuts for movement in one direction or another. At the ends of the screws mounted gears that receive rotation from the drive.

 The device also contains stops mounted on a sliding shaft with the possibility of interaction with the slider and microswitch.

 To clutch and disengage the slider with screws and, therefore, to change the direction of its movement, the device has a mechanism containing a pair of solenoids electrically connected to the microswitch and a lever mounted on a rotary shaft and connected to the solenoids.

 In the extreme positions of the slider, when it interacts with the stops, the microswitch acts on one or another solenoid, the control shaft rotates, the slider disengages with one screw and engages with another, thus changing the direction of its movement.

 The purpose of this known invention is to ensure the quality of winding of the thread by eliminating excessive winding near the flanges of the spool, if the reverse of the slider is late, or, on the contrary, "nedomota" in these places, if the reverse occurred earlier. Therefore, the stops are installed one - depending on the width of the coil flange, the other - on the length of the coil.

 An object of the present invention is to provide winding of a thread of precisely a predetermined length, mainly when rewinding surgical suture threads into skeins.

 This goal is achieved by the fact that in the proposed device comprising a drive, a receiving mechanism and a pick-up mechanism, including a pair of parallel-mounted spindles with gears mounted on them that are in mutual engagement, a slider mounted to move from the spindle and bearing thread guide, a mechanism for changing the direction of movement of the slider, a micro switch and stops for interacting with the latter, in accordance with the claimed proposal, the layout mechanism additionally contains a slider mounted to move from another lead screw, a mechanism for changing the direction of movement of the sliders is made in the form of a rotary lever carrying a gear kinematically connected to the drive for alternating interaction with gears on the lead screws, while the lead screws are mounted with the possibility of axial movement, stops mounted on sliders, and the microswitch is mounted on said lever.

The invention is illustrated by drawings, where
in FIG. 1 and 2 show a General view of the device, front view and side view,
in FIG. 3 - thread layout mechanism,
in FIG. 4 is a section AA in FIG. 3 and
in FIG. 5 is a section BB in FIG. 3.

 The device comprises a reel 1 mounted on a shaft 2, receiving rotation from an electric motor / not shown / by means of a pulley 3 and a pulley block 4, and a threading machine, including spindles 5 and 6. The latter are mounted on the housing 7 in the nuts 8 and 9 on which they are mounted gears 10 and 11.

 A rotary lever 13 is mounted on the axis 12 of the pulley block 4, on which the gear 14 is mounted, which receives rotation from the electric motor through the pulleys 3, 4 and 15. The gear 14 is mounted on the lever 13 so that when it rotates on the axis 12 it can engage with gears 10 or 11.

 The gears 10 and 11 are in constant gearing with one another, which allows the screws 5 and 6 to move in opposite directions.

 On the screws 5 and 6, the sliders 16 and 17 are fixed, bearing thread guides 18, 19 and stops 20, 21.

 A microswitch 22 is mounted on the lever 13.

 The sliders 16, 17 are fixed on the spindles in a position corresponding to the size of the skein. The number of thread guides on the sliders depends on the number of skeins wound.

 The device operates as follows.

 The threads from the bobbins or bobbins pass through the thread guides 18, 19 / or one of them / and are fixed on the reel 1. From the drive, the gear 14 is rotated on the lever 13. In this case, at one extreme position of the lever, the gear is engaged with the gear wheel 10, which through the nut 8 transmits a reciprocating movement to the spindle 5. The latter, moving a certain distance, limited by a stop 20, ensures the winding of the skein of a given length.

 With the other extreme position of the lever 13, the gear 14 is engaged with the gear wheel 11, which, through the nut 9, transmits the movement to the spindle 6.

 Since the gears 10 and 11 are in constant mutual engagement, when moving the spindle 5 according to the drawing to the right / Fig. 4 / screw 6 moves to the left and with its focus 21 acts on microswitch 22, stopping the reel. The operator looks through the skein wound and eliminates the defects. Then, by turning the lever 13, gear 14 is engaged with the gear 11, releasing the microswitch 22. The screw 5 moves to the left and acts on the microswitch that is in its way with the rotation of the lever. Simultaneously with the movement of the screw 5, the screw 6 moves to the right to the right. When the device stops, the next wound layer of skeins is visible, etc.

 The specified skein length is set as follows.

 Screws 5 and 6 are marked with divisions along which the stops 20, 21 are installed using the sliders 16, 17. A control winding is carried out, i.e. By moving the sliders, the length of the thread wound on the reel is adjusted to ensure winding accuracy.

 If necessary, you can adjust the pitch of the layout by selecting pulleys of a different diameter and, therefore, changing the speed of movement of the lead screws.

 Thus, in the device of the proposed design, the length of the wound thread does not depend on the circumference of the reel, the accuracy of its manufacture and the number of its revolutions, but depends only on the distance between the stops on the sliders, which can easily be adjusted by moving the sliders on the lead screws on the scale applied to them. This ensures the winding of threads of precisely the specified length, which is of particular importance for the winding of expensive surgical threads and which is not provided by the known devices described above.

Claims (1)

 A device for winding long material containing a drive, a receiving mechanism and a thread folding mechanism, including a pair of parallel-mounted spindles, made with the possibility of movement from the drive, mounted on them gears that are in mutual engagement, a slider mounted to move from the running a screw and a bearing thread guide, a mechanism for changing the direction of movement of the slider, a micro switch and stops for interacting with the latter, characterized in that the mechanism is the alignment the ki additionally contains a slider mounted with the ability to move from another lead screw, the mechanism for changing the direction of movement of the sliders is made in the form of a rotary lever carrying a gear kinematically connected to the drive, for alternating interaction with gears on the lead screws, while the lead screws are mounted with the possibility of axial movement, the stops are fixed on the sliders, and the microswitch is mounted on the said lever.

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