EP0235738A2 - Hand tool for screwing screws - Google Patents

Abstract

In a manual device for driving screws or similar fasteners, it is proposed that a known power activating mechanism which operates in accordance with the ram setting principle and which exerts an axial force upon a second ram which is disposed behind a first ram be provided, with the second ram, which meshes positively with and is guided in a guide barrel associated thereto, simultaneously performing axial and rotational motions, and that a screw be held on the front portion the second ram in such a manner as to permit it to be driven into an appropriate, mating material.

Description

State of the art

The invention relates to a hand-held device according to the type of the main claim. Handheld devices of this type, usually referred to as screwdrivers, are known in various forms; in the simplest case, they can be mains-dependent hand drills that have means for switching from right to left and, if possible, also to change the speed of the driving electric motor by correspondingly pressing the on / off switch. It is also known to operate such screwdrivers on the basis of rechargeable batteries, which then supply a DC motor which is reversible in its direction of rotation with the required supply voltage and are usually contained in a so-called battery pack for recharging, which can be inserted with the handheld device by insertion and simultaneous manufacture of the electrical connection terminals can be connected. While in the case of mains-powered screwdrivers the existing mains lead creates a considerable handicap for the user, since these must be constantly observed, also for professional use mainly battery powered equipment use; but these have the unrecoverable disadvantage that after a certain period of time, which is comparatively short when fully used, the batteries are exhausted and have to be recharged. This is also unacceptable if quick chargers are available. On the other hand, the alternate use of two devices or at least one additional battery pack is associated with additional costs. Finally, with such screwdrivers, also because of the high translation required so that the required torque for screwing in can be applied to the screw head, work can be carried out comparatively slowly and fast, trouble-free work that is not interrupted by waiting for recharging is not guaranteed, especially not if medium-heavy screw connections are to be made with longer screw lengths.

On the other hand, it is known to use nail devices for medium-heavy nail fastening, for example on concrete or steel, which, based on a different basic principle, are capable of driving nails even into heavy concrete or steel. Such known devices (see the Hilti nailing device DX 350 - operating instructions for this no. W 796 780 10-d) work according to the piston principle and contain a piston in a cylindrical sliding guide, which also has a damping effect on the piston movement, which plunges forward into a pressure pin transforms. An explosion or combustion chamber is suitably arranged behind the piston, whereby in the form of cartridge magazines, depending on the application, dynamite charges of different calibres are brought to an explosion, which then drive the piston forward, which in turn is one drives out nail inserted into the bolt guide. Such a device can be used in uninterrupted continuous operation, only the cartridge magazines for the loads, which are automatically moved by the device in the handle so that a fresh load is available for each shot, must be replaced and in each case from the beginning the device must use a suitably trained nail. It goes without saying that such a device, since it is based on a certain degree of handling hazard, can only be triggered if a special trigger safety device has been overcome, which can consist, for example, of a pressure safety device that is designed such that the ignition, for example via a mechanical locking mechanism, can only take place when a given pressing force has been pressed onto an object to be nailed and a certain pressing path has also been overcome.

The invention has for its object to improve the above-mentioned handheld device for screwing in screws so that it is possible to set screws using the basic principle of the nailing device by triggering charges, with the continuous dynamic work and the fast process Obstacles when screwing in, which occur more frequently and which otherwise occur, for example, when the driving connection between the screw head and the respective driving bit ratchets through, can be easily overcome.

Advantages of the invention

The hand-held device according to the invention solves this problem with the characterizing features of the main claim and has the advantage that all the disadvantages that the Known mains-operated or cordless screwdrivers inherent, namely dependency on the network or exhaustion of the batteries, and also a certain cumbersome operation in each case at the beginning of a screwing process. Thus, the handheld device according to the invention is completely independent of the power supply and can be operated indefinitely by replacing cartridges contained in corresponding disposable magazine strips, with the advantage that screwing in screws or the strong dynamic force that occurs when triggered and the force generated thereby appropriate, screw-like fasteners without pre-drilling or without pre-marking is possible.

If certain materials are used with cordless screwdrivers, it is possible, when working with slotted screws, to drive a screw into the material by simply applying and operating the screwdriver; however, this does not always succeed and requires considerable manual skill. In fact, when a screwdriver is being screwed on, a considerable axial compressive force must actually be applied at the beginning, by the user, so that the screw rotates during its rotational movement - and this is the only movement that a screwdriver is able to deliver - also into that Material is moved axially while rotating. If you overpress, however, the whole thing often kinks in the area of the screw drive, when the screw bit slips out of the Phillips head of the screw head. This kinking is inevitable, since it is usually not possible to maintain a completely straight, axial line with the screw and the cordless screwdriver acting on it. When it is bent by angled pressing, the screw to be screwed in falls down and the device hits the opposite side got up or the wall in which the screw is to be screwed in and often causes scratches and the like, which is undesirable. In addition, the jerky process can result in a risk of injury to the user. On the other hand, if you do not press so hard on a cordless screwdriver, there is a risk that the screw will not be screwed in at all or that it may not grip properly with its first threads.

In contrast to this, the hand-held device according to the invention also exerts an axial thrust effect, namely of considerable force and strength, which is supported by the moment of inertia of the usually medium-weight device. In addition to this axial thrust, there is strong rotary driving, so that even longer screws can be easily screwed into complicated materials.

Above all, the screwing-in process takes place in fractions of a second. the device in the area of the receptacle for the respective screw, that is to say in the area of the driving bit itself, endeavors to maintain the connection here, that is to say not to slip through, because of the effect just explained, namely that the receiving bit itself performs an axial movement, which of course , since the screw has to absorb the pressure resulting from this axial movement, leads to a firm engagement between, for example, the cross recess of the screw head and the driving bit. In addition, the whole screwing-in process is so fast that the dynamic entrainment and the force of the screwing-in process ensure a work process with considerable strength, but which runs smoothly and smoothly, without it being developed by the screw when screwing it in for a short period Counter torque could come to a loosening of the slewing ring and ratcheting.

It is also advantageous that, in addition to the possibility of suitably arranging a screw magazine in the front attachment area of the screwing device, so that screw connections can be set practically continuously and without settling, both the screwing speed and the screwing depth can be changed in any way, and with reference to the screwing speed by changing the pressure exerted on a screw piston, which is possible by changing the caliber of the magazine cartridges to be used and changing the screwing depth by adjusting the thread length and / or steepness for the screw piston, which can be done without difficulty by changing the front inserts is possible.

The use of very long threaded guides for the screw piston is also problem-free, since the pressure on the pistons or screw pistons of the device created by the shooting apparatus flattens and evenens considerably from an initial maximum pressure over the axial length of the device, with one at the front part Screw depth gauge can be arranged, which automatically ends the screwing process by loosening the engagement relationship between the screw head and the driving and supporting receptacle when the screw is fully screwed in.

Furthermore, the hand-held device according to the invention is also able to process particularly large screws which are to be screwed into very hard materials and is also a preferred area of application here, so that it can be used, for example it is conceivable to insert screws with very deep threads directly into materials that were previously not suitable for a screwing process, at least without dowels, such as concrete or brick walls and the like; if, for example, you only want to avoid nailing, because nails lack the special claw effect of screws in the respective material and could therefore be pulled out of the material by a long-lasting, axial pulling action.

The measures listed in the subclaims enable advantageous developments and improvements of the hand-held device specified in the main claim for screwing in screws or similar fastening means. Particularly advantageous is the possibility that after the screw has been released and set, the working fluid, which is brought forward by the explosion pressure, within the device, namely the pressure piston and the screw piston, are returned to their original starting position solely by the recoil, in which locking means then act. which also includes easy handling of the screwdriver, since the opposite movement sequences caused thereby cancel each other out due to the rapid sequence.

drawing

An embodiment of the invention is shown in the drawing and is explained in more detail in the following description. The drawing shows a side view of the hand-held device according to the invention for screwing in screws, with a partial sectional view of certain components, overall highly schematized.

Description of the embodiments

The basic idea of the present invention is to create a hand-held device for screwing in screws or similar fasteners on the basis of and using the known shooting system of a nailing device, as explained further above, at least one first being only axially in a guide moving pressure piston and a second driven by this, simultaneously and positively guided axially and a rotationally performing screw piston is provided, which is responsible for screwing in the suitably arranged screw arranged at its front end by its combined movement.

In detail, the embodiment shown in the drawing of such a handheld device 10 for screwing in screws or the like, which can also be referred to as a so-called shooting screwdriver, comprises a handle area 10a and the bearing and guide mechanism for the various piston and cylinder units, which in the Running area 10b of the handheld device 10 is arranged.

It is not necessary to go into more detail on the special structure of the hand-held device in the trigger area, in the area of the magazine strip guide and in the combustion chamber or explosion chamber area, since the parts and components and their functions provided there can be designed to be the same or in any case similar to the known one nail devices working on the piston principle; there is therefore a trigger 11 which can be operated by hand and which has one each via suitable linkages and connecting elements 12a, 12b, 12c, which are only indicated very schematically the charges 13 on the magazine strip 14 causes an explosion. The magazine strip can expediently be pushed into the handle area from below and pushes itself up one position with each “shot”. Here, the explosion pressure comes into effect in a chamber 15, which is limited on at least one side by a first piston 16, which is arranged in a corresponding piston guide 17 so as to be slidable. The piston guide 17 can be a cylindrical tube which is mounted in a suitable manner in the housing 18 of the hand-held device. The pressure energy absorbed by the at least one or first piston 16 and acting axially in the direction of the guide or bearing tube 17 leads to a rapid axial movement of this first piston 16 to the left in the plane of the drawing, in which case a first exemplary embodiment can be constructed such that A piston rod-like extension, not shown in the drawing, is attached directly to this piston 16, which acts on a further piston 19 and also tries to axially displace it. However, there is preferably a further pressure transmission and compensation piston 16a between these two pistons 16 and 19, which serves to dampen and equalize the pressure energy acting on and also ensures that the pressure, which originally had a very steep effect, can be attributed to the ignition of the respective charge 13 flattens evenly over the axial length and through the respective damping effects of the intermediate pistons.

In any case, there is an axial pressure effect on the further piston 19 with the proviso that this piston 19 moves both in the axial direction and at the same time sets in rotation by means of an internal toothing 20 with the guide tube 21 assigned to it becomes. The thread toothing 20 can be designed such that an internal thread 22, for example a trapezoidal thread, is arranged in the interior of the guide tube 21 for the rotary piston 19, as will be referred to below, which meshes with a corresponding external thread 23 on the rotary piston 19. It is understood that the steepness of this thread is designed so that the axial pressure action of the piston or pistons 16, 16a causes a direct rotary movement of the rotary piston 19, which is positively guided by the two interlocking threads 22 and 23, the axial displacement of the rotary piston 19 and causes its simultaneous rotary movement.

The pressure action from the intermediate piston 16a on the rotary piston can take place via a tappet 24 with a small diameter, so that the frictional influences between the only axially moving piston 16 or intermediate piston 16a and the rotating piston 19 moving at the same axial speed, but rotating at the same time are reduced.

It goes without saying that the guide tube 21 with the rotary piston 19 mounted by it can be made as long as is normally required for screwing in special screws, so that a corresponding number of threads of the thread 20 are accommodated and therefore also ensured that a respective screw can be fully screwed into the material or object 25 to which it is attached by a single ignition. The respectively predeterminable length of the guide tube 21 with its internal thread 22 is indicated by the interruption point at 26. It is advantageous here to design the front region, comprising the guide tube and, if applicable, rotary piston 19, with different sizes and shapes as interchangeable components (interchangeable); with any attachment to the barrel part 10b, for example by a bayonet lock.

It is also advantageous if, in order to avoid an involuntary triggering or to ensure that the starting position can only be overcome if a predetermined pressure is exceeded, a locking lock, which is shown at 27 and which consists, for example, of a locking ball 28 , which is pressed by a bias spring 29 into the path of the intermediate piston 16a through a corresponding passage opening in the guide space 17. If a corresponding pressure is exerted on the intermediate piston 16a, the latter can easily push the ball 28 away and the screwing process begins.

Furthermore, it may be advantageous to provide a screw magazine 30 in the front opening area, which is only indicated schematically and through which new screws 31 are fed in each case, for example by a suitable manually operated adjusting mechanism, which then always brings the next screw into the area of the rotary piston 19 provided receptacle for the screw.

In the embodiment shown in the drawing, this receptacle can only be formed by a rod-shaped extension 32 connected to the rotary piston 19, which has a conventional screwdriver cross-head configuration at its front end and therefore engage in the corresponding cross-head screw head of the screw 31 to be screwed in can, for example, also additionally have a magnetic holding effect on them, as is known per se.

In the drawing shown, the working components are shown in the plane of the drawing on the right to the point of interruption 26 in the starting position from which they are, namely the pistons 16, 16a and the rotary piston 19 are then moved suddenly and then smoothed out when the respective charge 13 is released in the plane of the drawing to the left. To the left of the point of interruption, a screwing-in process that has already been carried out in part is shown, the rotary piston 19 or the like being attached to a by a suitable compression spring. formed resilient stop 32 can open, whereby at the end of the screw-in movement, the dynamics of the rotary movement and the impact force are braked and the screw is not over-tightened.

At this point, a large number of modifications are possible, which do not need to be dealt with in detail since they are understandable for the person skilled in the art; for example, a front stop plate 34 can be provided which, acting as a screw depth stop, cancels the screwing process when the handheld device lies fully against the counter surface of the material 25; but it is also possible to begin the screwing process in such a way that when the rotary piston 19 is retracted into the device, the stop surface 34 abuts the counter surface of the material 25 from the start and the screwing process is carried out with the screw hidden until it is in the material is screwed in, which can be easily achieved by suitable stops for the rotary piston 19.

It is also possible to provide appropriate trigger safeguards which only allow the charge 13 to be ignited if a corresponding pressure is exerted on the screw tip, for example by suitable sensors or by a corresponding mechanical transmission and triggering or release of the trigger linkage 12a, 12b , 12c is possible. After all, it is possible to monitor the release of the shot and / or its triggering electrically, for which purpose a large number of suitable sensors, for example pressure sensors and ignition mechanisms, are available. Suitable, rechargeable batteries can be arranged in the handle of the device and are exhausted only very slowly since, in contrast to the cordless screwdrivers, they only have to provide control services and the work is performed by igniting the charge 13.

All features shown in the description, the following claims and the drawing can be essential to the invention both individually and in any combination with one another.

Claims (9)

1. Handheld device for screwing screws or similar fasteners into any objects, walls, panels or the like, with a handle, with means for generating a rotary movement that takes the screw to be screwed in and a trigger that starts the screwing process, characterized by a) at least one first piston (16, 16a) arranged in a longitudinal guide (17); b) a rotary piston (19) carrying out a simultaneous axial displacement with positively guided rotary movement by only axial pressure from the at least first piston (16, 16a); c) a holder holding the respective screw to be screwed in, connected to the rotary piston (19) or an insert; d) by means of a known, working according to the piston principle and an axial pressure effect on the at least first piston (16, 16a) by ignition of a shooting device producing a charge causing combustion. 2. Hand-held device according to claim 1, characterized in that the first piston (16) receding under the explosion pressure of the ignited charge (13) for flattening and equalizing the pressure effect carried on acts on an intermediate piston (16a), which in turn acts on a thread with its Guide tube (21) axially toothed rotary piston (19), so that the latter moves forward with a coordinated simultaneous axial and rotary movement and screws the screw (31) arranged thereon at least indirectly into a corresponding counter material (25). 3. Hand tool according to claim 1 or 2, characterized in that the thread (22) between the rotary piston (19) and its guide tube (21) is a trapezoidal thread with such steepness and measured length on the screw to be screwed in that the length of the rotary piston (19) held screw can be screwed into the counter material (25) with a release. 4. Hand tool according to one of claims 1 to 3, characterized in that the intermediate piston (16a) axially driven by the first piston (16) acts with a piston rod extension (24) on the facing rear of the rotary piston (19). 5. Hand tool according to one of claims 1 to 4, characterized in that a position locking of the intermediate piston (16a) serving stop is provided. 6. Hand tool according to claim 5, characterized in that the stop is formed by a ball (28) held in the path of the intermediate piston (16a) under spring preload. 7. Hand tool according to one of claims 1 to 6, characterized in that a screw feed magazine (30) is provided, from which screws are to be screwed into the counter surface (25) in a corresponding rapid sequence in the region of the receptacle on the rotary piston (19). 8. Hand tool according to one of claims 1 to 7, characterized in that the region of the hand tool containing the front guide tube (21) and the rotary piston (19) is interchangeable, for adaptation to different screws and their different number of threads. 9. Hand tool according to one of claims 1 to 8, characterized in that a front stop spring (33) is provided which determines the end position of the rotary piston (19) after triggering a shot and, if necessary, causes it to be returned to the starting position.

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