SU1331637A1 - Percussive power nut setter - Google Patents

Abstract

The invention relates to a handheld mechanized tool of impact and impulse action. The purpose of the invention is innovation and reliability due to the unloading of the first vacuum protect the axial forces from the 1st clutch. The impact wrench includes a housing 1, a drive 2 with an output shaft 3, and a slide 4 with impact cams 5. In the corns 1, a radial-unior bearing 25 is installed, 1en the hammer 7 with the plates 16 exchanged in it, and I have 17 cams. The drummer 7 is connected to the output shaft 3 through a Hiapii safety clutch, which is formed by an annular eccentric groove 10, 1 drums 13 and 14, and a spring 15. A synchronous sleeve 21 is installed with a protrusion 22, which interacts with the cam 17 of one of the nlast 16. Sync w LCA 21 under relatively 1ruzhnnena nishndel 4 nruzhi- hydrochloric power 23. Rotation of the firing pin 7 under the action of forces tseptrobezhnyh plate 16 with cams 17 are moved toward the spindle 4 and is applied to blow the cams 17, but the cams 5 4. 3 nshindel yl. i (L co oo O5 00

Description

one

The invention relates to a handheld mechanized tool of a pulse-impact action, in particular to wrenches, and can be used in the assembly and disassembly of threaded connections.

The purpose of the invention is to increase productivity and reliability by unloading the ball-type clutch from axial forces.

FIG. 1 shows a impact wrench, longitudinal section; in fig. 2 shows section A-A in FIG. I; in fig. 3 shows a section BB in FIG. one.

The impact wrench includes a housing 1, a drive 2 disposed therein with an output shaft 3, a spindle 4 with impact cams 5 and a central bore 6. At the output shaft 3 there is a hammer 7 with an inner conical surface 8 and a groove 9. The hammer 7 is kinematically connected to the drive shaft through ball safety clutch. In the hammer 7, an internal annular eccentric groove 10 is formed.

In the drive shaft 3, a central hole 11 and radial holes 12 entering it are made. In the radial holes 12 and the central hole 11 of the drive shaft 3 balls 13 and 14 are placed, respectively, the ball 14 is spring-loaded to balls 13 by spring 15. The balls 13 and 14 are jointly with spring 15,

1331637

with a sleeve 21. In this case, the ends of the plates 16, located in the groove 9 of the striker 7, begin to diverge to the sides and, interacting with the tapered surface 8,

g move in the direction of pishndel 4 together with the guide sleeve 18, compressing the spring 19, and then through the synchronizing sleeve 21 - the power spring 23. In this case, the compression force of the spring 23 is transmitted through the synchronizing sleeve 21, its height 22, abutting plate 16 on the tapered surface 8 of the impactor 7, and then through the impactor 7, the angular contact bearing 25 is directed to the housing 1. At the same time, the moment transmitted to the ball guard. with the coupling, does not change until the end of the acceleration of its striker, and its cams 5 and the surface of the eccentric annular groove 10 of the striker 7 do not experience additional axial pressure.

When the striker 7 reaches a certain 20 angular velocity, the protrusion 22 of the synchronizing sleeve 21 interacts with the bevel 24 of one of the cams 5 of the spindle 4, at which time the synchronizing sleeve 21 turns at an angle to the axis of the output shaft 3 and releases the plates 16. As a result, both plates 16 moves to the spindle 4 and their cams 17 strike the cams 5 p pindel 4, which transfers the kinematic energy accumulated by the striker 7 and the plates 16 to

drive shaft 3 and the surface of the KA. - threaded threaded connection. In that

The hammer 10 of the hammer 7 is formed of a ball clutch. In the groove 9 of the striker 7 centrifugal weights are made in the form of plates 16 with working cams 17. A guide bushing 18 is mounted on the output shaft 3, which is spring-loaded relative to the spindle 4 by the spring 19 and communicates with the plates 16 by means of pins 20 entering the apertures of the plates 16 and guide bush 18. In the central opening 6 of p1pind 4, a synchronizing sleeve 21 with a protrusion 22 is placed, which is spring-loaded relative to the spindle 4 by the power spring 23. The impact cams 5 of the spins 1 and 4 are made with bevels 24. The impactor 7 is set It is fastened in a housing on a radial-stop bearing 25. Spindle 4 together with synchronization sleeve 21, plates 16, drummer 7, bearing 25 and housing 1 form a closed kinematic chain. The protrusion 22 of the sleeve35

The moment the hammer 7 slows down and the safety clutch slips, while the balls 13 act on the ball 14 and sink it into the hole 11, the latter squeezes the spring 15. After the impact, the force spring 23 pushes the synchronizing sleeve 21, and with it the plate 16 from the spindle 4 and return the sleeve 21 to its original position. In this case, the plates 16 under the action of the spring 19 are pushed into the groove 9 of the impactor 40, and the protrusion 22 of the synchronizing sleeve 21 goes under the cam 17 of one of the plates 16.

45

After the cams 17 of the plates 16 come out of engagement with the cams 5 of the spindle 4, the hammer 7 is able to rotate, and the torque transmitted to it from the output shaft 3 through the spring-loaded clutch increases smoothly to the value determined by the force

The ki 21 enters the groove 9 of the striker 7, Q of the spring 15. Then the cycle is repeated in order to ensure the joint rotation of the sleeve 21 with the striker 7.

Impact wrench works as follows.

When the actuator 2 is turned on, the rotation of its drive shaft 3 is transmitted through the ball safety clutch to the hammer 7, which begins to accelerate together with the plates 16 and synchronizes the sequence.

Claims (1)

Invention Formula A impact wrench, comprising a housing, 55 accommodated therein a drive with an output shaft, a spindle with impact cams and a central hole enclosing the end of the drive shaft, mounted on 31637 with a sleeve 21. In this case, the ends of the plates 16, located in the groove 9 of the striker 7, begin to diverge to the sides and, interacting with the tapered surface 8, g move in the direction of pishndel 4 together with the guide sleeve 18, compressing the spring 19, and then through the synchronizing sleeve 21 - the power spring 23. In this case, the compression force of the spring 23 is transmitted through the synchronizing sleeve 21, its height 22, abutting plate 16 on the tapered surface 8 of the impactor 7, and then through the impactor 7, the angular contact bearing 25 is directed to the housing 1. At the same time, the moment transmitted to the ball guard. with the coupling, does not change until the end of the acceleration of its striker, and its cams 5 and the surface of the eccentric annular groove 10 of the striker 7 do not experience additional axial pressure. When the striker 7 reaches a certain 20 angular velocity, the protrusion 22 of the synchronizing sleeve 21 interacts with the bevel 24 of one of the cams 5 of the spindle 4, at which time the synchronizing sleeve 21 turns at an angle to the axis of the output shaft 3 and releases the plates 16. As a result, both plates 16 moves to the spindle 4 and their cams 17 strike the cams 5 p pindel 4, which transfers the kinematic energy accumulated by the striker 7 and the plates 16 to tightened threaded connection. In that The moment the hammer 7 slows down and the safety clutch slips, while the balls 13 act on the ball 14 and retract it into the hole 11, the latter squeezes the spring 15. After the impact, the force spring 23 pushes the synchronizing sleeve 21, and with it the plate 16 from the spindle 4 and return the sleeve 21 to its original position. In this case, the plates 16 under the action of the spring 19 are pressed into the groove 9 of the striker to its original position, and the protrusion 22 of the synchronizing sleeve 21 goes under the cam 17 of one of the plates 16. 45 After the cams 17 of the plates 16 come out of engagement with the cams 5 of the spindle 4, the hammer 7 is able to rotate, and the torque transmitted to it from the output shaft 3 through the spring-loaded clutch increases smoothly to the value determined by the force  Q is spring 15. Next, the cycle is repeated in the sequence indicated. Invention Formula A impact wrench, comprising a housing, 55 accommodated therein a drive with an output shaft, a spindle with impact cams and a central hole enclosing the end of the drive shaft, mounted on the latter is a drummer with an inner conical surface and a groove, kinematically connected to the drive shaft through a ball-type clutch, centrifugal weights arranged in the groove of the striker, made in the form of plates with working cams, covering the drive shaft and spring-wise relative to the pin-width of the guide sleeve, interacting with plates, and placed in the center hole of the shpinddel and A-A spring-loaded synchronization sleeve with a protrusion designed to interact with the cam of one of the plates, characterized in that, in order to increase performance and reliability, it is equipped with a angular contact bearing placed between the housing and the hammer, and the spindle together with the synchronization sleeve, the plates , a drummer, - YDN1IPNIK and a kinematic chain is formed by a casing. Bb 24 FIG. 2 Fig