The invention relates to a portable power wrench with a housing consisting of two parts which are swivelled relative to each other, wherein a first part comprises a handle and a rotation motor, and a second part comprises a reduction gearing and a laterally extending reaction bar for transferring a reaction torque from the second housing part to a stationary reaction torque supporting object.
Power wrenches of this type, as described in for instance U.S. Pat. No. 4,485,698, are used for tightening rather big screw joints with high torque level requirements. Therefore, the housing is divided into a rear part with the drive motor and a handle for the operator, and a forward part with a reduction gearing and a laterally extending reaction bar for transferring reaction torque from the forward housing part to a stationary object forming a reaction torque support. The swivel connection between the housing parts and the reaction bar prevents the operator from being exposed to heavy reaction torque loads transferred to the forward housing part via the reduction gearing and enables at the same time the handle to be freely positioned for a comfortable handling of the power wrench notwithstanding the direction of the reaction bar.
However, there is a problem and a potential risk for the operator to get hurt should the reaction bar not be in proper contact with the stationary object as the power wrench starts delivering a tightening or loosening torque to a screw joint. In such cases the reaction bar may perform a swinging movement to find its stationary support object. Such a movement could be hazardous to the operator since there is an obvious risk that he might get hurt by the swinging reaction bar. Even if the swinging movement of the reaction support bar is rather short there is a risk for the operator to get jammed between the reaction bar and the stationary object.
It is an object of the invention to provide an improved power wrench wherein a means is provided to substantially reduce the risk for injuries and damages to people and equipment by controlling the swivelling movement between the housing parts and, hence, the rotation movement of the reaction bar.
Further objects and advantages of the invention will appear from the following specification and claims.
A preferred embodiment of the invention is described in detail below with reference to the accompanying drawing.
In the drawing:
The power wrench illustrated in the drawing figures comprises a housing 10 divided into two parts, namely a forward part 11 and a rear part 12. The rear part 12 includes a transverse section 13 enclosing a rotation motor and a mechanical power transmission (not illustrated), a handle 14 for manual support of the wrench and an electronic control unit for controlling the power supply to the motor. In the interface between the forward part 11 and the rear part 12 of the housing 10 there is a swivel connection 16 including a ball bearing 17. This means that the forward part 11 is rotatable relative to the rear part 12.
The forward housing part 11 comprises a reduction gearing in two or more stages for multiplying the torque delivered by the motor to an output shaft 18. The latter is adapted to carry a nut socket. The forward housing part 11 also carries a rigidly attached reaction bar 20 which extends laterally from the housing and is intended to take support against a suitable stationary object A for transferring the reaction torque induced in the forward part 11 of the housing 10 during torque deliverance via the output shaft 18. See
The rear housing part 12 includes a rigidly attached bearing ring 21 with an external ball race 22 for supporting a number of bearing balls 23. The forward housing part 11 comprises a corresponding internal ball race 24 and forms together with the balls 23 and the ball race 22 the ball bearing 17.
In the interface between the rear and forward housing parts 11, 12 there is provided a rotation sensing means in the form of an activation unit 25-27 and a sensor 30. The activation unit 25-27 comprises an activation element 25 with a magnet 26 movably supported on the bearing ring 21, and a ball 27. The activation element 25 and the ball 27 are biased by a spring 28 to make the ball 27 engage either one of a peripheral row of indentations 29 in the forward housing part 11. The activation unit 25-27 is caused to move radially as the forward housing part 11 is rotated relative to the rear housing part 12 in that the ball 27 is forced to “jump” from one indentation 29 to the next. The indentations 29 act as a cam means to accomplish these radial movements of the activation unit 25-27. The magnet 26 of the activation element 25 co-operates with a Hall-type sensor 30 located on a printed circuit board 31, whereby the sensor 30 is arranged to accomplish electric signals at radial movement of the activation element 25 corresponding to a relative rotation between the two housing parts 11,12.
The rear housing part 12 is also provided with two more spring biased position retaining balls 34,35 arranged to co-operate with the row of indentations 29 equally distributed along the periphery of the forward housing part 11. The purpose of these two balls 34,35 is to restrain free rotation of the housing parts 11,12 relative to each other and to retain the housing parts in desired relative positions at handling of the wrench.
The non-illustrated electronic control unit in the rear housing part 12 communicates with the sensor 30 and is programmed to shut off or at least substantially reduce the motor power in case the sensor 30 indicates more than a predetermined relative rotation between the housing parts 11,12 after the motor has started rotating. In the described embodiment the relative rotation limit could be fifteen, thirty, forty-five etc. degrees, i.e. a multiple of fifteen degrees, because the number of indentations in the forward housing part 11 is twenty-four. This means that the number of alternative relative positions of the housing parts 11,12 is also twenty-four, and that the angular distance between these positions is fifteen degrees. This is the shortest angular displacement α of the reaction bar 20 before a motor power reduction can be obtained in case the reaction bar 20 is out of contact with a stationary support object. This means that the angle α to be covered by the reaction bar 20 before it gets into contact with a stationary support object is fifteen degrees before the activation unit 25-27 initiates a motor power reduction or shut-off. In most cases this is acceptable and not considered hazardous to the operator. In some applications thirty or even forty-five degrees are acceptable.
The described device provides a safety means for the operator to prevent injuries when starting a tightening operation of a screw joint, because the reaction bar may not be accurately positioned as the motor is started and a sudden rotation movement of the reaction bar might be the result. In
The invention also aims to prevent damages and injuries to the operator should the power wrench unintentionally be set to rotate in the loosening direction of the screw joint. That would result in a total lack of stationary support for the reaction bar 20 and a substantial swinging movement of the reaction bar 20. This could be very hazardous to the operator and is effectively prevented by the device according to the invention.
It is to be noticed that the embodiments of the invention are not limited to the described example but can be freely varied within the scope of the claims. For example, the reaction bar may have different designs since it has to be individually designed to adapt to the actual application.
Neither is the invention limited to the described rotation sensing means including the indentations and the radially movable activation unit but may as well comprise other types of movement detecting devices, for instance a magnetised ring fitted to one of the housing parts and a sensor carried by the other housing part. Such a ring could be magnetised in a great number of transverse bands such that very small rotation increments could be indicated. That would increase the possibility to more freely choose the acceptable rotation angle of the reaction bar 20 at the start of the power wrench motor. As a compliment to such a contact-free sensing means there should be employed some sort of braking device to prevent free relative rotation between the housing parts at handling of the power wrench before and after each screw tightening operation.
Number | Date | Country | Kind |
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0702315-3 | Oct 2007 | SE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE08/00598 | 10/15/2008 | WO | 00 | 4/15/2010 |