SU1024259A1 - Power nut driver percussion mechanism - Google Patents

Abstract

IMPACT WASHER MECHANISM, comprising a housing, a drive housed therein, a drummer kinematically connected to it with working cams, mounted with the possibility of axial movement of the anvil spindle with working cams and an intermediate engagement element to connect the working cams of the striker with working cams anvils, IVI A Figure 1 characterized in that, in order to increase the energy-impact and reliability, it is provided with a spring-loaded lock, the spindle-anvil is made with a radial protrusion having a car hole, parallel to its axis, and a groove perpendicular to it with an L-shaped base acting as working cams, the intermediate element is designed as a symmetrical two-arm lever mounted to rotate on an axis fixed in the through-end oTBepctHH of the radial protrusion, spring-loaded tangential direction relative to the axis of rotation and having a synchronizing cam, symmetrically located relative to the arms of the lever and interacting with the working cams of the firing pin, and the spring-loaded fic The device is located in the radial protrusion perpendicular to its groove and interacts with the two-arm lever.

Description

. This invention relates to a portable mechanized tool, namely, impact wrenches for assembling and disassembling threaded connections.

A shock-pulse mechanism is known, comprising a housing, a drive shaft with spiral V-shaped grooves located therein, mounted on the drive shaft with the possibility of axial movement and an axle-spring-loaded drummer with working cams on the end face and V-shaped grooves on the inner surface, balls included in the V-grooves of the drive shaft and the striker, and the anvil spindle with counter working cams 1.

The disadvantage of the shock-pulse mechanism is that the shock pulses are transmitted at a frequency equal to the frequency of rotation of the drive shaft, as a result of which the drummer cannot accelerate to high speeds and accumulate significant kinetic energy.

The closest to the technical essence of the invention is a percussion mechanism of a wrench, comprising a housing, a drive housed therein, a drummer associated with it with working cams at the end, mounted with the spindle anvil with working cams axially moving and an intermediate engagement element designed for connection of the working cams of the striker with the working cams of the spindle anvil, and the intermediate element is made in the form of a double-sided cam clutch with teeth of different heights, mounted on the interval a full-time roller and a drummer interacting with the torxal teeth and a spindle anvil 2.

However, the impact mechanism of the wrench, has a low impact energy and high-loaded parts-cams, having a low service life.

The aim of the invention is to increase the impact energy and reliability.

The goal is achieved due to the fact that the impact mechanism of a wrench, comprising a casing, a drive located therein, an associated hammer with working cams, mounted for axial movement of the spindle anvil with working cams and an intermediate engagement element for connecting the working cams drummer with working cams, spindle-anvil, provided with a spring-loaded lock, spindle-anvil is made with a radial protrusion, a through hole, parallel to its axis, and perpendicular to it with L- braznym base which acts as the working cam, the intermediate element is a symmetrical double-arm lever, pivotally mounted on an axis for, fastening through hole in the radial projection, spring-loaded in a tangential direction relative to the pivot axis and having a synchromesh

a cam symmetrically located relative to the arms of the lever and interacting with the working cams of the striker, and the spring-loaded lock is placed in the radial spike perpendicular to its groove and interacts with the two shoulders rachag.

FIG. 1 shows the impact mechanism of the wrench, a longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows section A-A in FIG. 1 at the moment of transfer of kinetic energy to a threaded threaded joint, i.e. when the spindle anvil is shifted towards the firing pin.

The impact mechanism of the wrench includes a housing 1 with a handle (not shown),

placed in it drive (not shown),

kinematically coupled drive

shaft 2, rigidly connected drummer 3 with face cams 4, mounted with the possibility of axial movement of the spindle anvil 5 with working cams 6 and 7, intermediate engagement element 8 mounted in the drummer with the possibility

rotation intermediate shaft 9.

The spindle anvil 5 is made with a turnkey head 10 at the end and a radial protrusion 11 having a through hole 12 parallel to its axis and a groove 13 perpendicular to it with an L-shaped base acting as working cams 6 and 7. Intermediate element 8 is made in the form of a symmetrical two-arm lever mounted for rotation on an axis 14 fixed in the through hole 12 of the radial protrusion 11,

having a synchronizing cam 15, symmetrically located relative to the shoulders 16 and 17, performing the role of working cams, the height of which is less than the working cams 16 and 17.

The intermediate element 8 is spring-loaded in the tangential direction by a torsion spring 18, the ends of which are respectively secured in the anvil spindle 5 and the intermediate element 8. To hold the intermediate element 8 in

the neutral position in the radial protrusion 11 perpendicular to its groove 13 is placed spring-loaded. a latch 19 interacting with the intermediate element 8. The spindle-anvil 5 is spring-loaded relative to the intermediate shaft 9 by the spring 20.

Impact mechanism of the wrench works as follows.

In the process of tightening, when the motor reaches a wrench (not shown) and, accordingly, the drummer 3 of a certain number of revolutions, axially pressing the handle, overcoming the force of the spring 20, moves the anvil spindle 5 to the hammer 3. The synchronizing cam 15, the intermediate element 8- enters into contact with one of the end cams 4 of the striker 3, which rotates the intermediate element 8 around the axis 14 together with the synchronizing cam 15, which begins to slide along the inner surface of the cam 4. In this position of the cam The choke 16 of the intermediate element 8 is rotated towards the working cam 6 of the spindle-anvil 5, and the cam 17 is located perpendicular to the edge of the following End face cam 4 that strikes it.

Upon further rotation of the striker 3, its cam 4 comes into contact with the cam 17 of the intermediate element 8, rotates the latter around the axis 14 until the cam 16 touches the working cam 6 of the anvil spindle 5 and the shock occurs, in which the accumulated kinetic energy kinetic energy transfers with the sharpened screw connection.

To produce a second strike, it is necessary to remove the axial force from the handle, while under the action of the spring 20 the spindle anvil 5 returns to its original position, the synchronizing cam 15 comes out of contact with the front cam 4 of the striker 3, and under the action of the torsion spring 18 intermediate1

Element 8 also returns to its original neutral position, in which it is locked with a spring-loaded retainer 19..

Then the cycle repeats in the described sequence.

The impact mechanism of the wrench in the unscrewing mode is performed in the same sequence as when tightening the threaded connection, with the only difference that the direction of rotation of the engine changes to the opposite, and the end cam 4 of the impactor 3 interacts with the cam 16 intermediate element 8, the cam 12 of the latter interacts with the working cam 7 of the anchor pin 5.

By performing a spindle anvil with a radial protrusion having a through hole parallel to its axis, and a groove perpendicular to the latter, in which an axial element is arranged on the axis rotatably, the intermediate element made in the form of a symmetrical two-arm lever having a synchronizing cam located symmetrically related its shoulders, which interact with the working jaws of the firing pin and the anvil spindle, exclude the edge shocks of the working cams at any angular velocity of the firing pin and simplify Design of impact wrench mechanism.

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Claims (1)

SHOCK WRENCH MECHANISM, comprising a housing, a drive housed therein, a kinematically coupled drummer with working cams, axially movable spindle-anvil with working cams, and an intermediate engaging element for connecting the working cams of the hammer with the working cams of the anvil spindle characterized in that, in order to increase energy · impact and reliability, it is equipped with a spring-loaded clamp, the anvil spindle is made with a radial protrusion having a through hole parallel to its axis and a groove perpendicular to it with an L-shaped base that acts as working cams, the intermediate element is made in the form of a symmetrical two-shouldered lever mounted with the possibility of rotation on an axis fixed in a through hole of a radial protrusion spring-loaded in a tangential direction relative to the axis of rotation and having a synchronizing cam symmetrically located relative to the arms of the lever and interacting with the working cams of the hammer, and a spring-loaded lock is placed in the radial protrusion is perpendicular to its groove and interacts with the two-arm lever.