RU1721960C - Impact power nut-driver - Google Patents

Abstract

FIELD: instrumentation engineering. SUBSTANCE: shock worker 2 with impact fingers 12 begins to rotate with acceleration together with the drive output shaft when the drive is switched on. Fingers 12 shift in longitudinal arc grooves 17 of synchronizer 10 until they interact with the lateral sides of the grooves. Then they entrain synchronizer 10. When synchronizer 10 rotates, its controlling track 20 shifts relative to finger 16. When the track encounters profile projection 21, intermediate roller 9 turns until its flats 14 lean against the profile projections-props of spindle 5. At the further rotation of shock worker 32 profile projection 21 interacts with finger 16. As a result synchronizer 10 together with impact fingers 12 shifts towards spindle 5. Impact fingers 12, encountering working cams 7 of the spindle, transfer them in the shape of an impact pulse the kinetic energy accumulated by shock worker 2. After that under the action of spring 11 synchronizer 10 together with impact fingers 12 returns into the initial position. The innovation relates to the hand mechanized tool. EFFECT: enhanced effectiveness at the expense of increasing the energy of the impact pulse. 2 cl, 4 dwg

Description

 The invention relates to a manual mechanized percussion instrument and can be used in various industries for tightening and disassembling threaded joints.

 The purpose of the invention is to increase efficiency by increasing the energy of the shock pulse transmitted to the tightened threaded connection.

 Figure 1 shows a General view of an impact wrench, a longitudinal section; figure 2 section aa in figure 1; figure 3 section BB in figure 1; figure 4 section BB in figure 1.

The impact wrench contains a housing 1, a drive with an output shaft (not shown in the drawing) placed in it, connected to the last hammer 2 with a central hole 3, stepped along the length, and semicircular longitudinal grooves 4 located on its inner surface, spindle 5 with a turnkey head 6 on one end and working cams 7 and a central blind hole 8 stepwise in length on the other, an intermediate roller 9, coaxially placed on the last synchronizer 10, axially spring-loaded relative to the spring spindle 5 11, and shock fingers 12 located in the semicircular longitudinal grooves 4. On the cylindrical surface bounding the step of the smaller diameter of the hole 8, diametrically arranged profile protrusions-stops 13 are turned, facing the axis of the spindle 5. At one end of the intermediate roller 9 diametrically arranged flats are made 14, designed to interact with the profile protrusions-stops 13 of the spindle 5, on the other there is a radial blind hole 15 into which the pin 16 is pressed in. The synchronizer 10 is made in the form of a sleeve having longitudinal arc grooves 17, each of whose lateral sides 18 is bounded by a curve having a radius equal to the radius of the impact finger 12, and a circular groove 19, and at the end facing the drive side, a control track 20 with a profile protrusion 21, intended for interaction with the finger 16. A sleeve 22 is pressed into the synchronizer 10. A circular groove 23 is made on the outer surface of the impact finger 12, which is located symmetrically relative to its ends. In the circular grooves 19 and 23 of the synchronizer 10 and the shock fingers 12, a split spring ring 24 is mounted kinematically connecting them to each other. Due to the symmetrical location of the circular groove 23 on the impact finger 12, it becomes possible to rotate 180 ^° in the event of wear of the working surface at one of its ends.

 Impact wrench works as follows.

 When the drive is turned on, together with its output shaft, the firing pin 2 begins to rotate with acceleration fingers 12, which move around the circumference in the longitudinal arc grooves 17 of the synchronizer 10. At the moment of interaction of the impact fingers 12 with the sides 18 of the longitudinal arc grooves 17, they carry the synchronizer 10, while its control track 20 starts to slide relative to the finger 16. At the moment of meeting the profile protrusion 21 of the synchronizer 10 with the finger 16, the resistance to movement increases and the finger 16 rotates in between th roller 9, while its flats 14 abut against the profile protrusions-stops 13 of the spindle 5. With further rotation of the hammer 2 together with the impact fingers 12 and the synchronizer 10, its profile protrusion 21 interacts with the finger 16, while the synchronizer 10, overcoming the force of the spring 11 , together with the shock fingers 12 begins to move towards the spindle 5. At the end of the synchronizer 10 with the shock fingers 12, the latter strike the working cams 7 of the spindle 5 and transfer the kinetic energy accumulated by the hammer 2, which is the last transferred to a tightened threaded connection (not shown). After that, under the influence of the reactive moment, a rebound of the striker 2 with shock fingers 12 occurs, the angular displacement of which does not exceed the width of the arc groove 17 of the synchronizer 10. At the same time, under the action of the spring 11, the synchronizer 10 together with the shock fingers 12 returns to its original position. Then, the drummer 2 starts to accelerate again along the arc groove to an angular displacement equal to the rebound, and the whole cycle is repeated in the above sequence.

Claims (3)

 1. SHOCK WRENCH, comprising a housing, a drive with an output shaft placed in it, connected to the last hollow hammer, having longitudinal semi-circular grooves on the inner surface, a spindle with a turnkey head on one end and working cams on the other, an intermediate roller coaxially located on the last synchronizer and shock fingers placed in the longitudinal semicircular grooves having an annular groove on the outer surface and kinematically connected with the synchronizers, characterized in that, in order to increase the effect This is due to the increase in the energy of the shock pulse transmitted to the tightened threaded connection, longitudinal arc grooves are made on the outer cylindrical surface of the synchronizer, each of the sides of which is bounded by a curve having a radius equal to the radius of the shock finger.  2. A wrench according to claim 1, characterized in that the annular groove of the impact finger is located symmetrically with respect to its ends.  3. A wrench according to claim 1, characterized in that a blind central stepwise lengthwise hole is made in the spindle on the side of the working cams, on the cylindrical surface bounding the step of the smaller diameter of the hole, diametrically arranged profile protrusions-stops facing the spindle axis are made at the end of the intermediate roller diametrically located flats intended for interaction with the profile protrusions-stops.

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