RU2017463C1 - Drill - Google Patents

Abstract

FIELD: medical engineering; traumatology and orthopedics. SUBSTANCE: drill incorporates shaft 1 with passage 2 to receive wire 15, eccentrics 5 disposed in port 4 in shaft 1 and facing each other. Grooved working portions of these eccentrics are knurled. Flat springs 7 enable eccentrics 5 to retain initial position. Shaft 1 is set in rotary motion by electric motor 10 via gears 8 and 9. Telescopic attachment 13 having blanked-off opening of end link passage is secured to end portion of shaft 1. EFFECT: more advanced design. 5 dwg

Description

 The invention relates to medical equipment, is used in traumatology - orthopedics for transosseous needles.

 There are various drills for holding knitting needles of both domestic and foreign production: manual, electric, pneumatic. Various knots of knitting needles are also known, including eccentric knots, various kinds of knitting needles in the form of frame, telescopic attachments.

 The closest in technical solution to the invention is the Acculan electric drill manufactured by Aesculap. However, when using this device, after installing the knitting needle in the shaft channel, before it is inserted into the bone, it needs to be fixed (fixed) with the help of a special lever located on the surface of the drill, and for the staged advance of the knitting needle forward (as it is immersed in the bone tissue) it must be repeatedly released and lock again with the lever. Moreover, at each stage, the needle must be held by hand so that it does not come out of the drilled channel. Using a long needle during rotation leads to instability (in the form of significant swaying) of its protruding part from the shaft shank, which can either injure the surgeon, or catch operating linen, etc.

 The aim of the invention is to improve the usability of the device and reduce the time of the needles through the bone tissue.

 The goal is achieved by the fact that the knot of the knitting needles is made in the form of eccentrics pivotally mounted in the same plane in the shaft window, their working surfaces are facing each other, have a grooved shape with a transverse serrated notch, while the eccentrics are spring-loaded to the position of contact with each other in the region of maximum radii, and the telescopic nozzle is made with the possibility of rigid fixation on the shaft end, and the outer hole of the end link of the nozzle is muffled.

 Placing the eccentric clamps in the window of the drill shaft in one plane when they touch each other with regions of maximum radii ensures, when spokes are inserted between them, the latter is held. In this case, the spoke is held between the eccentrics by regions of their smaller radii, since when the spokes are introduced, the eccentrics deviate from each other, rotating on the axes. When holding the spoke through the bone, the pressure perceived by the spoke tends to move the spoke towards the tail of the drill. This causes a tendency for the eccentrics to return to their original position with their larger radii converging and more firm fixation of the spokes. The transverse serrated notch on the working surfaces of the eccentrics also contributes to this. The execution of the working surfaces grooved provides centered fixation of the spokes, which eliminates beating during its rotation. This cannot be achieved by fixing the knitting needles with not grooved surfaces. In addition, with grooved surfaces between the closed eccentrics, a slit-like opening remains, facilitating the insertion of a spoke between the working parts of the eccentrics. The use of several eccentrics provides free release of the spokes from their fixation while moving it forward. The use of one eccentric, which presses the spoke to the fixed part of the device, wedges it too firmly and additional manipulations are required to release the spoke, which occurs when using the known device. The placement of the telescopic nozzle, in contrast to the known analogues, not on the front but on the shaft end of the drill prevents the end of the spoke protruding from the back during operation of the device. The execution of the outer hole of the end link of the nozzle muffled provides the ability to advance the spokes anteriorly along the channel of the shaft as it enters the bone tissue.

 Figure 1 shows a General view of the device in lateral projection (section); in FIG. 2 - fixation unit with inserted needle (section); figure 3 is a cross section of the fixation unit with closed eccentrics; figure 4 is a cross-section of the fixation unit introduced between the eccentrics knitting needle; figure 5 - telescopic nozzle with extended links.

 The device consists of a shaft 1 with a channel 2, which are enclosed in a housing 3. At the front, having a larger diameter end of the shaft 1, a window 4 is made in which a knot for fixing the spokes is placed. The latter consists of opposite to each other eccentrics 5, pivotally mounted on the axes 6 inside the window 4. The working surface of the eccentrics 5 has a transverse gear notch and is made grooved. The eccentrics 5 are in contact with each other in the region of maximum radii, and this position is supported by the pressure of the free ends of the flat springs 7 on the flat surfaces of the eccentrics 5. The springs 7 are opposite ends fixedly mounted on the shaft 1. On the shaft 1, closer to its rear end, a bevel gear 8 constituting a pair with a bevel gear 9 mounted on the shaft of the electric motor 10. The latter is located in the handle 11 of the device. A button 12 for turning on the electric motor 10 is located on the handle 11. The rear end (shaft) of the shaft 1, like the front one, protrudes out of the housing 3, but is threaded to fix the telescopic nozzle 13, fixed by a lock nut 14. In the channel of the main link of the nozzle 13, a thread is made under the thread of the shaft shank 1, and the channel of the end link of the nozzle 13 is plugged.

 The device operates as follows.

 The spoke 15 is inserted with the working part into the channel 2 of the shaft 1 from the side of the shank. The end of the working part of the spoke 15 penetrates into the slit-like hole formed by the grooved surfaces of the eccentrics 5 closed under the action of the springs 7. Under the action of further advancement of the spokes 15, the eccentrics 5 are moved apart, rotating around the axes 6, while undoing the springs 7. The spoke 15 is advanced until it leaves the front openings of channel 2 by the required size. The spoke 15 under the action of the springs 7 remains compressed between the grooved toothed working surfaces of the eccentrics 5. The telescopic nozzle 13 is put on the protruding part of the spoke 15 in the position with the extended links, the main link is screwed onto the shaft end 1 and secured with the lock nut 14. The nozzle links 13 are shifted to the stop the muffled part of the end link into the tail of the spoke 15. The working part of the spoke 15 is mounted on the bone and, by pressing the button 12, the electric motor 10 is turned on. The spoke 15, sensing pressure on the bone during drilling, tends to move towards the tail of the drill. But, being hooked by the teeth of the eccentrics 5, the spoke 15, simultaneously with the action of the springs 7, tends to return the eccentrics 5 to their original position, bringing their working parts together with large radii and even more securing between them. This fixation is enough to insert 15 spokes into the bone. After immersing the spokes 15 to a certain depth in the bone, the electric motor is turned off and, exerting light pressure on the muffled part of the end link of the nozzle 13, the drill is advanced along the spoke 15 backwards. In this case, the spoke 15 relative to the fixing unit moves along the channel 2 of the shaft 1 anteriorly, again pushing the eccentrics 5 and unloading the springs 7. The links of the nozzle 13 are shifted. After the second exit of the spokes 15 from the front opening of the channel 2 to the required value, the sequence of actions is repeated. After holding the spoke 15 through the bone, the drill is moved posteriorly, removing from the spoke 15.

Claims (1)

 A DRILL containing a shaft with a longitudinal channel and a knot fixing unit, an engine and a telescopic nozzle, characterized in that, in order to improve the usability and reduce the time of holding the knitting needle, the knot fixing unit is made in the form of spring-loaded eccentrics pivotally mounted in the same plane in the shaft window , their working surfaces are facing one another, have a grooved shape with a transverse gear notch, and the telescopic nozzle is removable with the possibility of rigid fixation on the shaft shaft, and in the end hole of the end link is equipped with a plug.

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