SU1158307A1 - Tool for cutting gypsum immobilizing bandages - Google Patents

Abstract

A TOOL FOR CUTTING THE PLASTER STRIPS, containing a hollow body with a cutting head and a tooth and a shank, characterized in that, in order to increase productivity and ensure safety, the tool is equipped with a pin with a ball support mounted on the end of the body and is positioned in the body of the crown with a crown lead at the end of the body and located in the cavity of the body with a crown ledge ledge and a crown ledge with a ball bearing cap and located in the body cavity with a crown lead with a crown ledge and a crown protrusion mounted on the end of the body. between the bearing balls and the screw, one end of which is rigidly connected to the crown, and the other is fixed in the housing. 1 (L sd 00 oo

Description

The invention relates to rotary-type cutting tools used for cutting fibrous and other hard pastes in medicine, in particular for cutting gypsum straps. Various tools and equipment for cutting plaster casings are known. The shears for cutting plaster casings are a cutter hinged to the nsytw handles. The cutting of the plaster dressing is done by carving an ft H strip in it, equal to the width of the knife. Using scissors, it is possible to make cuts of plaster moldings 4 mm thick and, in addition, when moving and inserting the knife between the plaster and soft fabric, traumatization of soft tissue may occur. Saw blades with saw blades and an oscillating hand drive are used to cut plaster straps over 4 mm thick. Due to oscillatory movements of the saw blade, soft tissue is not injured. However, the saws with an optalling drive have an unsustainable productivity and to ensure their operation a pick-up device is necessary, since the gypsum dust remaining in the cutting zone interferes with the operation of the saw blade. The closest device to the present invention is the First drill consisting of a cutting lane and a shank in the form of a hollow pipe through which the suction of drilling products p is produced. A known device is the ability to drill plaster, but it is not possible to produce milling. In addition, when drilling a plaster dressing, soft tissue injury is possible. The purpose of the invention is to increase the processing performance and to maintain safety when cutting gypsum straps. The delivered chain is achieved by the fact that the tool for cutting gypsum straps, containing a hollow body with cutting teeth and a shank, is provided with a bushing mounted on the end of the body with a ball bearing and located in the housing cavity with a crown with protrusions, placed bearing balls, so 07 ONE end which is rigidly auger. it is connected with the crown and the other is fixed in the collar. FIG. 1 schematically shows the cutter, total view, section; in FIG. 2, section A-A in FIG. 1 (section along the cutting part and the screw)} in FIG. 3 view B in FIG. 1 (view of the holes in the face of the upper part of the cutter). The tool for cutting plaster straps consists of a hollow. the housing 1 with the cutting part 2, the shank 3, the screw 4 mounted rotatably in the internal bore 5 of the hollow body 1. The screw 4 is rigidly connected to the CORON. 6, the protrusions 7 of which are located. placed between the balls of the support 8 installed in the inner bore 5 of the housing 1. The inner ring of the bearing B is rigidly connected to the stopper 9. At the outer diameter of the crown 6 there is an O-ring E. The cutting of the plaster straps is carried out as follows. The shank 3 is inserted into the engine cartridge with a C of 500-1500 rpm. Signal 9 rests against the soft tissue around the dressing being cut, and the engine is turned on. The instrument is then brought to the beginning of the intended incision, not the detachment of the binder 9 from soft tissues. The cutting part 2 starts cutting the dressing, the cutting products through the windows 11 enter the inner bore 5. The outer ring of the bearing 8 rotates and the inner ring is held by the bushing 9, therefore through the balls of the bearing 8 and the protrusions 7 of the crown 6 to the screw 4 is transferred. The torque and the screw 4 rotates. With a frequency of 2.4-2.7 times smaller than the cutting edges, pushing the products of cutting through the holes 12. This ensures that the cutting products are removed from the treatment area. When moving the tool in the direction of the intended cut, it is necessary to create a certain vertical force, so that the follower 9, due to the friction of the soft tissues, does not turn with a minimum turn of m. The cutting teeth do not come in contact with soft 1gcans and this ensures their safety when cutting the gypsum fold. 3 Application of the proposed tool allows to increase the productivity of the gypsum cutting process 11583074. Exit safety while maintaining safety.

Claims (1)

Gypsum dressing cutting tool containing a hollow housing with cutting teeth and a shank, characterized in that, in order to increase productivity and ensure safety, the tool is equipped with a thrust bearing with ball bearing and a crown located in the housing cavity with protrusions placed between the bearing balls , as well as a screw, one end of which is rigidly connected to the crown, and the other is fixed in the housing. Fi9. fifteen