RU2202967C2 - Device for drilling bones - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has working member having penetration depth restrictor member and holder designed as two ratchets. One ratchet is connected to the driving member. The other one is connected to the working member. Spring-loaded connection rod having stopper member is placed inside of the ratchets to establish rigid connection with ratchet and screw. The screw hinders connection rod escape from the other ratchet without hindering rotation. The working member has cutting edge and threaded part. The threaded part has measuring scale for setting penetration depth. The penetration depth restrictor member has two nuts one of which is lock nut. EFFECT: enabled drilling holes of preset depth; reduced risk of soft tissue injuries. 2 dwg

Description

 The invention relates to medicine, namely to traumatology and orthopedics, and can be used to form a channel in bone tissue.

 A surgical drill is known that contains a shank and a two-stage working element, in which a step of a smaller diameter is equal to the inner diameter of the screw thread used for bonding bone fragments. At the step of a larger diameter of the working element, a movable sleeve with end teeth is installed. The diameter of the step of a larger diameter is equal to the diameter of the screw neck, and the outer diameter of the movable sleeve is equal to the diameter of the screw head [1].

Known surgical drills have significant disadvantages:
1. The depth of channel formation in the bone is determined visually.

 2. It is possible that the drill penetrates deeper than necessary.

 3. Additional injury to soft tissues.

 Closest to the proposed is a device for drilling a bone containing a working element with a depth gauge and a cartridge in the form of two ratchets, one ratchet connected to the drive element and the other ratchet connected to the working element [2].

 The disadvantage of this device is its invasiveness.

 Based on the current level of technology and the elimination of the disadvantages of the known devices, the task was set: to ensure the required depth of drilling of the bone canal and reduce the morbidity of manipulation.

 The problem is solved as follows. In the design of the proposed device for drilling a bone containing a working element with a depth gauge and a cartridge in the form of two ratchets, one of the ratchets being connected to the driving element and the other to the working element, a spring-loaded connecting rod with a stopper for tight connection is placed inside the ratchets with one shank and with a screw that prevents the connecting rod from leaving another ratchet without interfering with rotation, while the working element is made with a cutting part and with a threaded shaft The device is equipped with a measuring scale for setting the insertion depth, and the insertion depth limiter is made in the form of two nuts, one of which is a lock nut.

 We explain the significance of the distinctive features of the device. The execution of the cartridge in the form of two ratchets connected by a spring-loaded rod allows only bone tissue to be drilled: when the drill rests on the bone, the ratchets are engaged on the spring-loaded rod and drilling is performed. After passing the bone, the spring, without meeting the proper resistance, opens the ratchets and drilling stops.

 The presence in the proposed device of one pair of ratchets simplifies the manufacture of the structure, reduces the cost of manufacture, facilitates sterilization, improves reliability.

 The presence of a stopper in the spring-loaded rod provides a rigid connection of the rod with one of the ratchets.

 The connection of one ratchet with a driving element, and the other with a cutting element allows the replacement of the driving element and the cutting element of different sections, and also simplifies the sterilization of the proposed device for drilling bones.

 The supply of the cutting element with a limiter of the depth of introduction is necessary for drilling in the bone of the channel of a strictly specified depth.

 Patent studies on subclasses A 61 B 17/06 and analysis of scientific and medical information reflecting the current level of known devices for making holes in bone tissue did not reveal structures identical to the one proposed. Thus, the proposed device for drilling bone is new.

 The interconnection and interaction of the essential structural elements of the proposed device ensures the achievement of a new technological and medical result in solving the problem, namely, ensuring the required depth of drilling of the bone canal and reducing the morbidity of manipulation. Thus, the proposed design of a device for drilling bone has an inventive step.

 The proposed device for drilling bones is industrially applicable in the field of practical health care, as it can be reproduced repeatedly and used to make holes in bone tissue.

 The essence of the design of the proposed device for drilling bones is illustrated in the drawing, where Fig.1 shows a General view of the device, Fig.2 is a sectional view of the device.

 A device for drilling a bone consists of two ratchets 1-2, a connecting rod 7, a stopper 5, a screw 6, a tension spring 8, a working element 3 containing a threaded and cutting part, an insertion depth limiter 4 made in the form of two nuts, one of which is a lock nut. The ratchet 1 has a shank 9, and the ratchet 2 has a threaded connection 10. The threaded part of the working element has a graduated scale 11, with which the drilling depth of the bone is set. The ratchet 1 is connected to the ratchet 2 by the connecting rod 7. The stopper 5 rigidly connects the ratchet 2 to the rod 7. The screw 6 prevents the connecting rod 7 from leaving the ratchet 1, but does not interfere with its rotation. A tension spring 8 located in the ratchet 1 prevents ratchet engagement. A drive element, for example a drill, is connected to the shank 9. The working element 3 is connected to the ratchet by means of a threaded part 2. The depth gauge 4 consists of two nuts, which, when twisted, form a protrusion fixed at the required distance from the end of the cutting part, which prevents further slipping of the working element into the conductor.

 A bone drilling apparatus is used as follows. After sterilization, the drill through the shank 9 is connected to the drill. A soft tissue puncture is made in the area of the proposed drilling and a standard tubular conductor with a diameter of 1 mm greater than the diameter of the working element 3 is brought into the bone through it. The working element 3 is inserted into the conductor until the cutting part stops against the bone. Measure on a measuring scale 11 the distance from the outer edge of the conductor, equal to the required drilling depth. To it is added a predetermined distance equal to the difference in length of the spring 8 in the open and compressed states. At this particular level, the depth of insertion nut 4 closest to the conductor is installed. To prevent it from turning, a second "lock nut" is brought to it until it is in tight contact.

 During the stop of the cutting part of the working element 3 in the bone, the spring 8 is compressed, the ratchets 1 and 2 are engaged along the connecting rod 7 and drilling is carried out. After the bone element 3 has passed through the bone tissue, spring 8, without meeting the necessary resistance, is opened, breaking the ratchets 1 and 2. When the spring is unclenched, only the ratchet 1 rotates with the drill, and the ratchet 2 with the working element remains stationary, except for “winding” soft tissues on the cutting end of the work item. The limiter of the depth of insertion 4 in the form of nuts prevents further slipping of the working element into the conductor, and therefore, further movement of the working element deep into the soft tissues is excluded.

 Thus, the proposed device for drilling bones in comparison with the known structures allows you to drill holes in the bone tissue of a strictly specified depth and to prevent trauma to soft tissues on the basis of "two-level" protection: excluding the rotation of the working element and moving it to a depth greater than specified by the operation conditions. Drilling can be carried out at the required angle to the long axis of the bone.

Sources of information
1. SU 929084, 1982.

 2. DE 1541103, 1975.

Claims (1)

 A device for drilling a bone containing a working element with a depth gauge and a cartridge in the form of two ratchets, one ratchet connected to a driving element and the other to a working element, characterized in that a spring-loaded connecting rod with a stopper is placed inside the ratchets for tight connection with one ratchet and with a screw that prevents the connecting rod from leaving the other ratchet without interfering with rotation, while the working element is made with a cutting part and a threaded part provided with a measured a scale for setting the depth of introduction, and the limiter of the depth of introduction is made in the form of two nuts, one of which is a lock nut.

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