SU1144866A1 - Inertial power nut-driver - Google Patents

Abstract

1. INERTIAL WIPER, comprising a housing, a hollow shaft housed therein, in which a drive shaft, flywheels, a spindle with a wrench head mounted on a housing, an actuator connected to it is installed, a kinematic connection, its switch and an overrunning clutch is connected with the spindle, and external - with. drive shaft, distinguished by the fact that, in order to reduce overall dimensions and simplify the design, the drive is made in the form of a pair of handles connected by a kinematic connection with a hollow shaft, one of which is mounted on the housing with the possibility of rotation around its axis, The hollow shaft is mounted rotatably around an axis and is spring-loaded in the circumferential direction, the flywheels are fixed on the hollow shaft and one of them has cams, and on the outer cage there are cams that interact with the cams of the flywheel. 2. The wrench according to claim 1, is also distinguished by the fact that, in order to reduce the idle time, it is equipped with interchangeable flywheels mounted on the spindle. SP 3. Wrench according to claims 1 and 2, characterized in that, in order to improve performance, it is equipped with an accelerating two-stage cylindrical gear train connected to a kinematic link. 1 30 9 a

Description

This invention relates to portable power tools for tightening or loosening bolts or nuts. A wrench is known, comprising a housing, a hollow shaft, a flywheel housed therein, an overrunning clutch, an actuator, which is nematically connected to the hollow shaft, a spindle with a wrench head and a mechanism connected to the latter. Driving overrunning clutch ij. The specified wrench is characterized by insufficient torque / volume, which does not allow it to be used for loosening tight nuts. The closest to the invention is an inertial wrench, comprising a housing, a hollow shaft housed therein, in which a water shaft is installed, flywheels, a spindle with a wrench head, a drive mounted on the housing, a kinematic connection connected to it, the coupling, the inner race of which is rigidly connected with the spindle and the outer one with the drive shaft 2j. The disadvantage of the known wrench is the significant size and complexity of the design. The purpose of the invention is to reduce hectares of barites and simplify the design. The goal is achieved by the fact that in an inertial wrench, comprising a housing placed in a non-hollow shaft, in which a water shaft is mounted, flywheels, a spindle with a wrench head, a drive mounted on the housing, a kinematic connection connected to it, an e switch and an overrunning clutch whose inner race is rigidly connected with the spindle, and outer with the drive shaft, the drive is made in the form of a pair of handles connected by a kinematic connection with the half shaft, one of which is mounted on the housing with the possibility of rotation around its axis, the switch is placed in the handles, the hollow shaft is mounted rotatably around an axis and spring-loaded in the circumferential direction, the flywheels are fixed on the hollow shaft and one of them has cams, and on the outer cage there are cams interacting with the flywheel cams. In addition, in order to reduce the idling time, the inertial wrench is equipped with interchangeable flywheels mounted on the spindle. Moreover, in order to increase productivity, the wrench is equipped with an accelerating two-stage spur gear connected to a kinematic link. FIG. 1 schematically shows the inertial impact wrench, general view; Fig. 2 shows a section A-A in Fig. 1; in Fig. 3 an accelerated gear transmission. The inertial wrench contains a cylindrical body 1, a hollow shaft 2 located in it, in which a drive shaft 3 is installed, flywheels 4 and 3 rigidly fixed on the hollow shaft 2. Spindle 6 with a replaceable nut head 7 with its flange 8, which is an integral sprocket overrunning clutch 9, pivotally mounted on the cylindrical pin 10 of the drive shaft 3. The other spindle 11 is fixedly mounted on the threaded end 12 of the drive shaft 3. However, the fastening of the spindle 11 on the drive shaft 3 is possible as well as the spindle 6, i.e. with integrated overrunning clutch. The arrangement of spindles 6 and 11 permits both screwing and unscrewing the bolt 13 with one direction of rotation of the hollow shaft 2 due to the rotation of the entire wrench by 180 °. The outer race 14 of the overrunning clutch 9 is made on the drive shaft 3. and has cams 15 in contact with counter cams 16 made on the flywheel 4. The handles 17 and 18, which are driven, are mounted on the housing 1, and the handle 17 is fixed it is motionless on it, and the handle 18 is rotatable with the possibility of rotation around its axis. The spring 19 returns the handle 18 to its original position. In the central clean and hollow shaft 2 there is a ratchet wheel 20, which is mounted on the ball bearings 21 in the housing 1 and fixed in it by a nut 22. The hollow shaft 2 is installed in the housing 1 rotatably around an axis and spring-loaded in the circumferential direction relative to it by means of a torsion coil spring 23, which is a force element. The noFJopoTa angle of the hollow shaft 2 is limited to be made in it and in the nut 22 sectorN groove 24 (angle of the sector 60-120), in which the pin 25 is screwed into the drive shaft 3. The torsion spring 26 provides for the return of the drive shaft 3 to its original position after its working rotation, together with the outer ring 14, spring-loaded ratchet pawls 27 and 28 are embedded in the arms 17 and 18. The ratchet wheel 20 and ratchet paws 27 and 28 that are in contact with it constitute a kinematic connection connecting the handles 17 and 18 with a hollow shaft 2. In the body of the handle 17 and 18 are embedded that the spring-loaded sleeve 29 and 30 having a possibility rsevogo movement, in which they are performed is disengaged from the ratchet wheel 20, pawls 27 and 28, i.e., kinematic connection of the handle 17 and 18 with the hollow shaft 2. In the sleeves 29 and 30 screws 31; 32 are installed, and the sleeve 29 is provided with a lock nut 33, which adjusts its axial position. Replace the nut head 7 can be installed, if necessary, in the spindle 6 or in the spindle 11. The restrictive pin 34, interacting with the housing 1, provides a pre-angular preload of the spring 23 Inertial wrench can be equipped with interchangeable flywheels 35 mounted, for example, on the spindle 6 and an accelerating two-stage cylindrical gear 36 (see FIG. Mounted on an axis 37 fixed in the housing 1 and in an arm 38 located on the hollow shaft 2, the latter in this case made separately with the ratchet wheel 20. This hollow shaft 2 has a gear wheel 39, B341 supporting with a gear wheel 40 of a two-stage gear 36, the second gear wheel 41 of which interacts with a gear wheel 42 made on the ratchet wheel 20. The inertial wrench works as follows. In the initial position of the handle 17 and 18 under the action of the spring 19 are in a razpedno position 1 with the stop of the pawl 28 into the wall of the sector groove 43, made under it in the housing 1. Textile dogs 6 and 27 and 28 are tucked into the teeth of the ratchet wheel 20. Sleeves 29 and 30 are in a position that provides for the on-condition of the dogs 27 and 28. The distance between the ends of the screws 31 and 32 is determined by obtaining the required amount of twisting of the power spring 23. The hollow shaft 2 with the flywheels 4 and 5 under the action of the spring 23 is preliminarily coupled to the housing 1 due to the pin 34 and the support under it in the housing 1. The outer cage 14 of the freewheel 9 under the action of the spring 26 through the finger 25 with their cams 15 preloaded to the mating cam 16 handwheel 4 (see FIG. 2). Turning the handle 18 causes the hollow shaft 2 to turn with the flywheels 4 and 5 and the power spring 23 is twisted. At the same time, the dog 27 slides over the ratchet wheel 20. At the end of the turn, the handle 18 will enter the screws 31 and 32 will begin to move and will start moving the bushes 29 and 30, which alternately disconnect the pawls 28 and 27. After this, the Hollow shaft 2 with the flywheels 4 and 5 will rotate under the action of the spring 23 and strike the cams 16 of the flywheel 4 with the cams . 15 of the outer ring 14 connected to the drive shaft 3. The overrunning clutch 9 will transmit a shock pulse through the spindle 6 and the wrench head 7 to the screwable bolt 13. Under the action of the spring 19, the handle 18 is turned to its original position. When the handle 18 is rotated again, the wrench-work cycle is repeated, and before each subsequent cycle of operation, the drive shaft 3 rotates together with the yoke 14 at some angle relative to the spindle 6 with the wrench 7, ensuring its further rotation. When the wrench is operating in the unscrewing mode with the spindle 11 (in the absence of the overrunning clutch), the required angular clearance between the cams 15 and 16 at the beginning of each new cycle is ensured by turning the entire wrench by the handles 17 and 18. 180, the axis of the handles 17 and 18, i.e. when screwing it is necessary I to use spindle 6, and when unscrewing - spindle 11. With idle (unloaded) rotation of bolt 13, you can use interchangeable flywheels 35. In this case, at the end of the working rotation of the hollow shaft 2 with flywheels 4 and 5 after the stop of the 34 flywheel pin 4 into the housing 1 the flywheel 35 together with the spindle 6 will rotate by inertia in the same direction due to the overrunning clutch 9. When using a two-stage cylindrical gear transmission 36, the amount of the spring 23 is twisted with one turn 18.- handle. Changing the force of impact of the flywheel 4 and 5 is provided by changing the angle of torsion of the spring 23, changing the distance between the screws 31 and 32, as well as the axial movement of the sleeve 29 with the help of the lock nut 33. This inertial wrench is compact, simple in design, does not require engine power sources and is capable develop significant torque.

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Claims (3)

1. INERTIAL WRENCH, comprising a housing, a hollow shaft placed in it, in which a drive shaft, flywheels, a spindle with a nut head mounted on the housing, a drive connected to it, a kinematic connection, a circuit breaker and an overrunning clutch, the inner race of which is rigidly connected with a spindle, and external - with. drive shaft, characterized in that, in order to reduce dimensions and simplify the design, the drive is made in the form of a pair of handles connected by kinematic connection with the hollow shaft, one of which is mounted on the housing with the possibility of rotation around its axis, the switch is placed in the handles, the hollow shaft installed with the possibility of rotation around the axis and spring-loaded in the circumferential direction, the flywheels are mounted on the hollow shaft and one of them has cams, and cams interacting with the flywheel cams are made on the outer ring. 2. Impact wrench pop. 1, distinguished by the fact that, in order to reduce idle time, it is equipped with interchangeable flywheels mounted on the spindle *. 3. Wrench according to claims 1 and 2, characterized in that, in order to increase productivity, it is equipped with an accelerating two-stage cylindrical gear transmission connected to a kinematic connection. 1 144866