SU1733226A1 - Pneumatic impact nut wrench - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in various branches of industry and construction for mechanized tightening of threaded connections. The purpose of the invention is to increase the reliability of the wrench design. After each impact, the shock mechanism 4 and the rotor 3 are braked, and the inertia mass 7 is rotated at a certain angle relative to the disk 5. When the inertial mass 7 is rotated by about 360 degrees. from

Description

The invention relates to mechanical engineering, in particular hand-held impact wrenches, and can be used in various industries and construction for controlled tightening of threaded connections.

A pneumatic percussion wrench is known, comprising a housing, an engine housed therein, associated with a percussion mechanism, and a control mechanism regulating the air supply. The value of the developed tightening torque is determined by the amount of air supplied to the impact mechanism.

Closest to the proposed technical entity is a pneumatic impact wrench, comprising a housing, an air motor with a rotor housed in it, connected to one end of the latter with a locking mechanism and an inertia mass mounted rotatably relative to the disk and spring-loaded to it, and an impact mechanism connected to the other end of the rotor.

A disadvantage of the known wrench is the complexity of the design, as a result of which its reliability decreases and, as a result, the moment variation increases.

The purpose of the invention is to increase reliability.

This goal is achieved by that in a pneumatic impact wrench containing a case, a pneumatic motor with a mouth placed in it is connected to one end of the latter with a fixation mechanism and inertial mass mounted rotatably relative to the disk and spring-loaded to it, and a shock mechanism connected to the other end of the rotor the disk has a radial groove; at the end of the inertial mass, an annular protrusion having a radial groove with a blind hole in the bottom; the fixation mechanism is made in the form of a disk placed in the radial groove and is intended ennogo for engagement with a radial groove protrusion inertial mass, spring loaded closure member on the axis, the socket having a groove, and disposed in the blind hole and intended for interacting with front

the groove is spring-loaded along the axis of the retainer, and in the housing there are radial grooves designed to interact with the locking element.

Figure 1 shows a pneumatic impact wrench (the position in which the locking element is placed in the groove of the glass), a longitudinal partial section; figure 2 - section aa in figure 1; FIG. 3 shows a pneumatic impact wrench (a position in which the locking element is fixed from the radial movement by a spring-loaded lock), a longitudinal partial section; figure 4 - section bb in fig.Z; figure 5 is a section of bb In figure 4; Fig. 6 shows a pneumatic impact wrench (a position in which the locking element is secured against radial movement by an annular protrusion) is a longitudinal partial section; figure 7 - section GG in figure 6; on Fig - section dD in figure 1.

The pneumatic impact wrench includes a housing 1, an air motor 2 with a rotor 3, a shock mechanism 4, a disk 5 rigidly connected to the housing 1, a fixation mechanism 6 and an inertial mass 7. The air piston 9 is connected to rotate by means of, for example, a square 8 sec. with the impact mechanism 4 and with the help of, for example, a face 9 - with a disk 5. The inertial mass 7 is tucked into the disk 5 by means of a cup spring 10, a nut 11 and a stud 12. connected to the rotor 3 by a pin 13. An annular projection is made on the face of the inertial mass 7 14 having a radial groove 15 with g a hole in the bottom. A cup 16 is rigidly connected to housing 1, having projections 17 and radial grooves 18 opposite to disk 5. On cup 16, a guide groove 19 is made. Cap 16 with a screw 21 is displaced in cup 16, and its head 22 is located in a guide the groove 19. The cap 20 is spring-loaded spring 23.

The locking mechanism 6 is made in the form of a disc 5 placed in a radial groove 24 and designed to interact with the radial groove 15 of an inertial mass 7 of a protrusion 14, spring-loaded 25 along the axis of the locking element 26. In the groove 15 of the mass 7 there is a clamp 28, spring loaded 27, included in the end groove 29, made on the locking element 26. The latter also has a bevel 30. In the disk 5, a surface 31 and a bevel 32 are made.

Pneumatic impact wrench works as follows.

Figures 1 and 2 show the position of the parts of the wrench before the next working cycle, when the locking element 26 is in one of the radial grooves 18 of the cup 16, while the air motor 2 cannot rotate because the rotor 3 is closed to the housing 1.

Before the next start-up of the engine 2, the cap 20 is pressed, which acts on the bevel 30 of the locking element 26, withdrawing it from one of the radial grooves 18, the latter being fixed by a clamp 28, which sinks under the action of the spring 27 into the end groove 29 of the locking element 26 (Fig.Z. 4). After that, the pressure is stopped and the cap under the action of the spring 23 (Fig. 1) returns to its original position.

When the air motor 2 is turned on, the threaded joint is tightened. After each impact, the impact mechanism 4 with the rotor 3 is braked to a stop, while the inertia mass 7 is rotated at a certain angle with the latch 28 relative to the disk 5.

When the retainer 28 reaches the bevel 32 of the disk 5, it leaves the groove 29 of the locking element 26, after which the locking element 26 moves towards the radial grooves 18 of the cup 16 until it stops at the annular protrusion 14 of the inertial mass 7, since at this time the annular protrusion 14 has already entered the groove 29 of the stop element 26 (FIG. 6. 7). Such

the movement of the locking element 26 eliminates the possibility of a latch 28 in the groove 29 when it approaches the locking element 26 from the opposite side.

When the inertial mass 7 rotates approximately 360 relative to the disk 5, the annular protrusion 14 emerges from the groove 29, the locking element 26 under the action of the spring 25 enters one of the grooves 18 of the cup 16, the air motor 2 stops. The tightening process ends.

The adjustment of the tightening torque is carried out by adjusting the force of pressing the disc spring 10.

Claims (1)

Invention Formula A pneumatic impact wrench, comprising a housing, an air motor with a rotor placed therein, a disk with a fixation mechanism and an inertial mass mounted rotatably relative to the disk and spring-loaded to it, and a shock mechanism connected to the other end of the rotor, differing in that, in order to increase reliability, a radial groove is made in the disk, on the end of the inertial mass - an annular protrusion having a radial groove with a blind hole in the bottom, the fixation mechanism is made in the form of p placed in the radial groove of the disk and intended to interact with the radial groove of the inertial mass of the protrusion, spring-loaded along the axis of the locking element having an end groove placed in the blind hole and intended to interact with the mechanical groove of the spring-loaded lock axis, and in the housing there are radial grooves designed for interacting with the locking element. 15 / 6 25 26 sixteen FIG. four FIG. five eight