SU1600942A1 - Impact nut-setter - Google Patents

Abstract

This invention relates to a handheld mechanized percussion instrument. The purpose of the invention is to increase reliability. The impact wrench includes a housing 1, a drive 2 therein, a drive shaft 3, anvil spindle 4 and a hammer 7 mounted on the drive shaft 3 with diametrically arranged longitudinal holes 11 in which movable impact fingers 12 are mounted, which interact with the working spindle cams 5 - anvils 4. The surfaces 19 of the longitudinal holes 11 of the striker 7 are made with a curvilinear forming equidistant curve of the axis of the fingers 12 at the moment of impact. When the threaded joint is tightened, the impact fingers 12 transmit the kinetic energy of the accelerated masses, periodically coming into contact with the working cams 6 of the spindle anvil 4. The impact fingers 12 are bent at the moment of impact and adjoin the surfaces of the 19 longitudinal holes 11 of the striker 7. 4 Il.

Description

The invention relates to a manual mechanized percussion tool, in particular to wrenches, and can be used in various industries in the assembly and disassembly of threaded connections.

The purpose of the invention is to increase reliability by reducing the effect of shock loads on wrench parts.

Figure 1 shows the impact wrench, a longitudinal section; FIG. 2 is a section A-A in FIG. one; on fig.Z - section bb in fig. one; figure 4 - section bb In figure 1.

The impact wrench includes a housing 1, a drive 2 with a drive shaft 3, anvil spindle 4 with working cams 5 at one end, and a turnkey head 6 at the other. On the drive shaft 3 there is mounted a drummer 7 and a lead 8 spring-loaded with spring 9 to the drummer 7. The drummer 7 has a groove 10 and two diametrically arranged longitudinal holes 11 in which shock fingers 12 are mounted for movement, having ends at the ends facing the spindle. the anvil is not 4, the cams 13. Impact fingers 12 are connected to each other by a driver 8 and are spring-loaded with springs 14 relative to the driver 8 in the direction of the spindle-anvil 4. The leash has a rectangular-shaped flange 15, which is placed in the groove 10 of the striker 7. The leash 8 is kinematically connected to the drive shaft 3 by means of a decoupling mechanism made in the form of V-shaped grooves 16 and 17, located respectively on the drive shaft 3 and on the inner cylindrical surface the leash 8, and the ball 18 placed in these grooves. Thus, the plate 8 can move relative to the hammer 7 in the axial direction and has a joint rotation with it. The surface 19 of the diametrically located longitudinal holes 11 of the striker 7 from the side of the spindle anvil 4 are made with a curvilinear generatrix, equidistant line of bending of the axis of the fingers 12 at the moment of impact.

The impact wrench works in the following way.

After installing an allen key (not shown) on the nut of the tightened threaded joint (not shown), the drive 2 is turned on. Rotation through the drive shaft 3, V-shaped groove 16, ball 18 and V-groove 17 is transmitted to the leash 8 and impact fingers 12 - on the drummer 7. Since the cams 13 shock fingers

12 interact with working cams 5 of the spindle anvil 4, the latter, rotating, transfers the torque to. screwed-on nut. As the nut is tightened, resistance in the threaded connection increases and the anvil spindle 4 is braked. In this connection, the impact pins 12, the firing pin 7 and the leash 8 slow down in rotation.

As the drive shaft 3 continues to rotate, as a result of the interaction of the V-shaped groove 16. of the ball 18 and the V-shaped groove 17, the driver 8 moves axially away from the anvil spindle 4. squeezing the spring 9. Together with the driver 8 they move axially impact fingers 12.

Thus, the kinetic energy of the drive shaft 3 is converted into the potential energy of the compressed spring 9.

Due to the axial movement, the cams 13 of the impact fingers 12 come out of the engagement with the working cams 5 of the spindle of the anvil 4. After this the lead 8. The impactor 7 and the impact fingers 12 begin to rotate together with the drive shaft 3. However, the axial movement of the lead 8, the impact fingers 12 and the compression of the spring 9 continues due to the inertia until then. until the rotation speed of the driver 8, the impact fingers 12 and the impactor 7 compares with the rotation speed of the drive shaft 3.

Then, under the action of the spring 9, the leash 8 and the shock fingers 12 begin to move to their original position and a pulse transformation occurs.

the potential energy of the compressed spring 9 into the kinetic energy of rotation of the leash 8, the hammer 7 and the impact fingers 12.

The axial movement of the driver 8 and the impact fingers 12 continues until the front surfaces 20 of the impact fingers 12 come into contact with the front surfaces of the 21 working cams 15 Chipindle-anvil 4. From this moment, only the leash 8 continues to axial movement to the anvil spindle 4 , while its flange 15 compresses the springs 14, and the end surfaces 20 of the impact fingers 12 slip along the end surfaces of the 21 working cams 5 of the anvil spindle 4.

As soon as the end surfaces 21 of the working cams 5 of the spindle-anvil 4 come out of contact with the end surfaces of the 20 impact fingers 12, the latter are moved to their original position by the action of the springs 14. Further, the shock fingers 12 move together with the driver 8, having a total rotation with the impact NIC 7 until the cams 13 of the impact fingers 12 come into contact with the working cams 5 of the spindle - however, 4. The impact occurs at which the full kinetic the energy of the accelerated mass is transferred to the threaded connection.

Further, as long as the actuator 2 is turned on, the blows are periodically repeated and the wrench operates in the described sequence. Due to the fact that the surfaces of the holes 11 of the striker 7 from the side of the spindle anvils 4 are made with a curvilinear generatrix 19, an equidistant line of bending of the axis of the fingers 12 at the moment of impact, due to the bending of the impact fingers, the time of the impact pulse increases, and the force decreases accordingly, leads to a decrease in destructive loads on the wrench as a whole.

Claims (1)

Claims of the invention: A impact nut driver, comprising a housing, a drive shaft with a drive shaft, and a pindel-anvil with working cams, mounted on the drive shaft with the possibility of joint rotation and relative axial movement of a leash and drummer, having a groove on the end face and diametrically arranged longitudinal apertures, placed in the latter with the ability to move along the axis of the shock fingers with cams at the ends for interacting with the working cams of the spindle anvil, characterized in that, in order to increase no reliability, the surface of the longitudinal holes from the spindle -nakovalni made with a curvilinear generatrix. Yu Aa Fie.2 Bb 21 Fig.d / 2 Fy