EP2110205A2 - Method and device for controlling a hydraulically operated power screwdriver - Google Patents

Abstract

The method involves determining nominal pressure by an electronic evaluation unit (18). A piston-cylinder unit (2) is pressure-loaded to perform a pre-stroke until the nominal pressure is reached and followed by a return stroke. A time interval from the beginning of pressure loading up to the arrival of the nominal or initial pressure after pressure relief, is measured. The pressure loading and measuring steps are repeated. The measured time intervals are compared. Pressure loading cycles are stopped when a last measured time interval is shorter than a penultimate measured time interval. An independent claim is also included for a hydraulically operated power wrench comprising an adjustable pressure valve.

Description

The invention relates to a method and a device for controlling a hydraulically operated power wrench with a pivotable by a piston-cylinder unit lever with a ratchet assembly for gradually turning a ratchet sleeve by Vorhübe and return strokes and a drive unit with a motor-driven pump.

In the DE 102 22 159 A1 Such a method and apparatus are described in which the change in hydraulic pressure is measured at time intervals and the operation is terminated when the increase in hydraulic pressure at a load stroke within a predetermined time is less than a predetermined limit, the pressurization cycles lead to alternating load strokes and return strokes and the load stroke, the time change of the hydraulic pressure in time intervals is measured and a switchover to the return stroke, if in at least one of the time intervals, the pressure increase is greater than in at least one of the preceding intervals of the operation.

To proceed in the manner described above, the user first sets a desired pressure, which is the pressure which determines the tightening torque of the screw to be turned and at which the work is to be ended. The characteristic pressure-time curve of the respective printing unit is determined in advance and stored in a calibration operation. The slope of the pressure rise curve is determined by measuring the pressure at time intervals of 10 ms. Since the time intervals are all the same length, to determine the differential quotient y = dP / dt, the pressure difference dP which occurs within a time interval is evaluated and stored in digital form. When the final pressure is reached, the pressure remains constant and the differential quotient dP / dt becomes = 0.

In this method, it is not only necessary to calibrate before the actual operation, but pressure measurements must be made continuously at 10-ms time intervals to determine the pressure increase, which is the criterion for switching from pre-lift to return and shut-down Reaching the target pressure without further rotation of the nut or screw is used.

The invention has for its object to provide a method and apparatus for controlling a hydraulically powered power wrench, which allows with less effort to perform the control of the power wrench until reaching the desired torque.

• Eingeben eines Soll-Drehmoments oder einer Soll-Vorspannkraft oder der Schraubengröße, der Materialgüte, der Gewindesteigung und der Klemmlänge in eine Eingabeelektronik,
• Ermitteln eines durch die Pumpe zu erzeugenden, dem Soll-Drehmoment oder der Soll-Vorspannkraft oder der Schraubengröße, der Materialgüte, der Gewindesteigung und der Klemmlänge entsprechenden Soll-Drucks durch eine Auswerteelektronik,
• Druckbeaufschlagung der Kolben-Zylinder-Einheit zum Durchführen des Vorhubs bis zum Erreichen des Soll-Drucks und sofortiges Umsteuern auf Rückhub bei Erreichen des Soll-Drucks durch Druckentlastung und Federdruck oder durch Ansteuern einer Druckbeaufschlagung der Kolben-Zylinder-Einheit auf Rückhub,
• Messen der Zeit vom Beginn der Druckbeaufschlagung bis zum Erreichen des Soll-Drucks oder bis zum Erreichen des Anfangsdrucks nach einer Druckentlastung,
• Wiederholen der Druckbeaufschlagung und Druckentlastung und Messen der Zeit bis zum Erreichen des Soll-Drucks oder des Anfangsdrucks,
• Vergleichen der gemessenen Zeitintervalle und Abschalten der Druckbeaufschlagungszyklen wenn wenigstens das letzte gemessene Zeitintervall kürzer als wenigstens das vorletzte gemessene Zeitintervall ist. Erfindungsgemäß werden somit stets die gesamten Zeitintervalle eines Vorhubs oder eines Vorhubs und eines Rückhubs gemessen, und es ist nicht nötig, diese Zeitintervalle in noch kürzere Zeitintervalle für eine Druckmessung zu unterteilen. Eine Druckmessung ist nicht erforderlich, da es genügt, den Soll-Druck entsprechend den Erfordernissen einzustellen, da jeder Druckbeaufschlagungszyklus bis zu diesem Soll-Druck abläuft und dann sofort der Rückhub durchgeführt wird.

Based on this object, a method for controlling a hydraulically operated power wrench with a lever pivotable by a piston-cylinder unit with a ratchet assembly for gradually turning a ratchet sleeve by Vorhübe and back strokes and a drive unit with a motor-driven pump when tightening a screw is proposed according to the invention consists of the following steps:

• Inputting a setpoint torque or a desired preload force or the screw size, the material quality, the thread pitch and the clamping length into an input electronics,
• Determining a pump to be generated, the target torque or the desired biasing force or the screw size, the material quality, the thread pitch and the clamping length corresponding target pressure by a transmitter,
• Pressurization of the piston-cylinder unit for performing the preliminary stroke until reaching the desired pressure and immediate changeover to return stroke upon reaching the desired pressure by pressure relief and spring pressure or by controlling a pressurization of the piston-cylinder unit to return stroke,
• Measuring the time from the start of the pressurization until reaching the desired pressure or until reaching the initial pressure after a pressure relief,
• Repeating the pressurization and depressurization and measuring the time until the target pressure or pressure is reached,
• Comparing the measured time intervals and switching off the pressurization cycles if at least the last measured time interval is shorter than at least the penultimate measured time interval. Thus, according to the invention, the entire time intervals of a forward stroke or a forward stroke and a return stroke are always measured, and it is not necessary to subdivide these time intervals into even shorter time intervals for a pressure measurement. A pressure measurement is not required, since it is sufficient to set the target pressure according to the requirements, since each pressurization cycle runs to this target pressure and then immediately the return stroke is performed.

The invention is based on the consideration that all pressurization cycles associated with a nut or screw rotation occur over a longer time interval than the pressurization cycles that take place without nut or screw rotation when tightened to the entered desired torque the elements of the power wrench no longer move and the pressure rise and pressure drop only over a period of time that corresponds to the elasticities in the elements of the power wrench and possibly the hydraulic lines. These last time intervals are significantly shorter than the preceding time intervals, so that the comparison of the time duration of these last time intervals with the preceding, longer time intervals can be used directly as a switch-off criterion, without the need for calibration and the measurement of absolute values.

To compensate for smaller fluctuations in the measured time intervals can be moved so that after determining a first short time interval two further pressurizations take place, from these three short time intervals and three longer, previously measured time intervals each an average or the sum is formed and the repeated Be pressurization cycles off when the average or the sum of the short time intervals is less than the average or the sum of the longer time intervals.

Since the time intervals when unscrewing the loose nut or screw until setting are shorter than the subsequent time intervals when tightening the nut or screw and until the beginning of tightening the nut or screw no more than five pressurization cycles are required, can be checked whether a Tightening the nut or screw has taken place after setting or not, or whether it is an already tightened nut or screw by the duration of the z. B. first six pressurization cycles is measured, and the pressurization cycles are turned off when the time period of these six time intervals is shorter than a predetermined, a screwing corresponding time interval.

This is an indication that the nut or bolt is blocked without being tightened to the target torque, or that it is a nut or bolt already tightened to the desired torque, so that it is possible to generate an error message to generate by the transmitter when the pressurization cycles are switched off immediately when unscrewing the loose nut or screw.

If the pressurization cycles are normal, this is indicated by the fact that when measuring the time intervals when unscrewing the loose nut or screw until setting, the time intervals when tightening the nut or screw until reaching the target pressure corresponding to the target torque and the time intervals After reaching the target torque corresponding target pressure without further rotation of the nut or screw is found that the time intervals when unscrewing the loose nut and the time intervals after reaching the target torque corresponding target pressure without further rotation of the nut or screw shorter than that There are periods of time when the nut is tightened, so that then the repeated pressurization cycles can be turned off if at least the last time interval is shorter than the previous ones.

The above-mentioned object is also by a hydraulically operated power wrench for performing the method defined above with a pivotable by a piston-cylinder unit lever with a ratchet assembly for gradually rotating a ratchet, a drive unit with a motor-driven pump, an input electronics for entering a Desired torque or a desired preload force or the screw size, the material quality, the thread pitch and the clamping length, evaluation electronics for determining a desired pressure from the entered values, an adjustable pressure valve arranged between the piston-cylinder unit and the pump, adjustable to the target pressure, an actual pressure sensor, a time measuring device for measuring the time interval of each pressurization from the initial pressure to the target pressure or from the beginning of the pressurization to the target pressure and subsequent pressure relief until Achieving the initial pressure, the transmitter according to the invention is adapted to control the pressurization cycles taking into account the measured time intervals so that the pressurization cycles are turned off when at least the last measured time interval is shorter than at least the penultimate time interval.

In addition, the evaluation electronics may be configured to form mean values or the sum of three short time intervals and three longer time intervals measured immediately and to switch off the pressurization cycles if the mean value or the sum of the short time intervals is shorter than the mean value or the sum of the longer time intervals Time intervals is.

It is also possible to set up the transmitter so that the time of the first z. B. measures six time intervals of the pressurization cycles and shuts down the pressurization cycles if the time duration of these six time intervals is shorter than a predetermined time interval corresponding to a tightening operation. In this case, an error message can be generated by the evaluation if the pressurization cycles are switched off immediately after screwing the nut or screw.

Finally, the transmitter can also be adapted to the time intervals when unscrewing the loose nut or screw to set, the time intervals when tightening the nut or screw until reaching the desired torque corresponding target pressure and at least one time interval after reaching the To measure desired torque corresponding target pressure without further rotation of the nut or screw and to switch off the repeated pressurization cycles, if at least the last measured time interval is shorter than the previous one.

Fig. 1

eine schematische Darstellung eines erfindungsgemäßen Kraftschraubers mit Antriebseinheit und elektronischer Steuereinheit und

Fig. 2

eine schematische Darstellung des Druckverlaufs beim Schraubenspannen.

The invention is explained below with reference to an embodiment shown in the drawing of the closer. In the drawing show:

Fig. 1

a schematic representation of a power wrench according to the invention with drive unit and electronic control unit and

Fig. 2

a schematic representation of the pressure curve during bolt tightening.

A hydraulically operated power wrench 1 comprises a piston-cylinder unit 2, a pivotable lever 3, which can be acted upon by the piston-cylinder unit 2, with a ratchet arrangement 5 for the stepwise rotation of a ratchet sleeve 4. Between stops in the piston-cylinder unit 2 a swing angle α of the lever 3. This corresponds to the full stroke of the piston-cylinder unit. Accordingly, there is a fixed, geometric relationship between the stroke H and the pivot angle α.

The pivoting of the pivot lever 3 for tightening a screw or nut, not shown, takes place by acting on the piston-cylinder unit 2 with pressure oil from a drive unit 6, while the return stroke of the lever 3 is effected by a return spring, not shown. The return stroke takes place as an idle stroke, since the ratchet arrangement releases the rotational connection between the lever 3 and the ratchet sleeve 4 during the return stroke. Instead of a return spring, the return stroke of the lever 3 can also be effected by reversing loading of the piston-cylinder unit 2 with pressure oil.

In the illustrated embodiment, the drive unit 6, two parallel-connected pumps 7, 8, which are designed as piston pumps with different delivery volume. The drive of the pumps 7, 8 is effected by a common drive motor 9, which is formed in the illustrated embodiment as an electric motor. With the pressure side of the pumps 7, 8, a combined switching and pressure control valve 11 is connected. Furthermore, a pressure sensor 12 is arranged in the pressure line to the power screwdriver 1. Instead of a arranged in the pressure line pressure sensor 12, the measurement of the pressure in the pressure line can also be done by a connected to the drive motor 9 current measuring device 13 or by a connected to the drive motor 9 phase angle measuring device 14.

An electronic control unit 16 controlling the drive unit 6 is connected to an input electronics 17, preferably an input keyboard, and has inputs for the pressure transducer 12 and / or the power consumption measuring device 13 and / or the phase angle measuring device 14. An output of the electronic control unit 16 is connected to the switching and pressure control valve 11. The electronic control unit 16 comprises evaluation electronics 18 for determining a desired pressure from the screw values entered into the input electronics 17, namely a desired torque or a desired preload force or the screw size, the thread pitch and the clamping length. Furthermore, the electronic control unit 16 comprises a time measuring device 19 and a control and shutdown device 20 for switching off the movement of the piston-cylinder unit 2 when the setpoint torque is reached.

• Zunächst werden in die Eingabeelektronik 17 das Soll-Drehmoment oder die Sollvorspannkraft oder die Schraubengröße, die Materialgüte, die Gewindesteigung und die Klemmlänge eingegeben und von dort an die Auswerteelektronik 18 in der elektronischen Steuereinheit 16 geleitet. Die Auswerteelektronik 18 ermittelt aus diesen eingegebenen Verschraubungsdaten einen Soll-Druck, da der Soll-Druck in einem direkt proportionalen Verhältnis zum Soll-Drehmoment und zur Soll-Vorspannkraft steht.

The tightening of a screw connection by means of in Fig. 1 Screwing device shown with reference to Fig. 2 in the following way:

• First, in the input electronics 17, the target torque or the target biasing force or the screw size, the material quality, the thread pitch and the Inserted clamping length and passed from there to the transmitter 18 in the electronic control unit 16. The transmitter 18 determines from these input Verschraubungsdaten a target pressure, since the target pressure is in a directly proportional relationship to the desired torque and the target biasing force.

The desired preload force or torque is determined by the modulus of elasticity of the screw material, the allowable tensile stress, d. H. the material quality, the shank cross-section and the screw length specified and can be given for example on the screw itself or in a table. However, the evaluation electronics 18 can also determine the desired preload force, therefrom the desired torque and, in turn, the desired pressure when the screw material, the screw quality, the screw size, the thread pitch and the clamping length are entered.

If the target pressure is determined, which may possibly be displayed together with the entered screw data on a screen, not shown, the motor 9 is set to drive the pumps 7, 8 in operation or is constantly running the drive motor 9, a pressure relief valve in the switch - And pressure control valve 11 is closed, so that builds up in the pressure line to the power screwdriver 1 of the pump pressure. This pressure initially increases when unscrewing the loose nut or screw until it is set to the desired pressure, which it reaches at time t1. During this time, the ratchet box 4 is turned over the full forward stroke without much resistance. Immediately upon reaching the target pressure from the time t1, the switching and pressure control valve 11 is switched to pressure relief, a spring not shown causes the idle stroke of the piston-cylinder unit 2 and the hydraulic oil contained therein is via the switching and pressure control valve 11 in a Hydraulic oil tank 10 fed back, from where it is sucked by the pumps 7, 8. During the return stroke, the pressure decreases from the time t1 to the time t2 to the initial pressure and the entire time interval .DELTA.t ₁ from the pre-stroke and return stroke is measured.

Alternatively, it is possible to measure only the time interval up to the time t ₁ , since this time period alone is sufficient to serve as the evaluation criterion for switching off the pressurization cycles explained below.

After the loose nut or screw is tightened during several, in the example shown, three pressurizing cycles until set, the further tightening of the nut or screw takes place stepwise, again measuring the time intervals Δt ₄ , Δt ₅ , Δt ₆ . Gradual tightening of the nut or screw until reaching the Target pressure, as shown, occurs at time intervals longer than the preceding ones, since tightening the nut or screw requires significant force, and pressure build-up is therefore slower until the desired pressure is reached.

Also during these pressurization cycles, either the entire time interval Δt ₄ , Δt ₅ , Δt ₆ can be measured between times t ₆ , t ₈ , t ₁₀ and t _12, respectively, but a useful assessment criterion is also achieved if only the time intervals between the periods t ₆ , t ₇ ; t ₈ , t ₉ , and t ₁₀ , t _{11 are} measured.

After the nut or screw is tightened to the required target torque, that is, to the target pressure and stops spinning, if a further pressurization takes place from the time t ₁₂ , the pressure increase from the initial pressure to the target pressure and the pressure drop back to the initial pressure again very quickly, since the elements of the power wrench 1 move only very slightly due to the elasticity of the components and hose connections, so that the measured time intervals .DELTA.t ₇ , .DELTA.t ₈ , and .DELTA.t _{9 are} always shorter than the previous time intervals.

Because in Fig. 2 the normal case of properly tightening a screw is shown, it is sufficient in principle, only the time intervals .DELTA.t ₆ and .DELTA.t ₇ , to compare and end the screwing when the time interval .DELTA.t _{7 is} shorter than the time interval .DELTA.t ₆ .

However, in order to refine the measurement and to eliminate irregularities in pressure rise, the invention forms the averages from the time intervals Δt ₄ , Δt ₅ and Δt ₆ and the time intervals Δt ₇ , Δt ₈ , and Δt ₉ , or they become simple only summed and compared with each other, so that the operation is aborted when the average values from the time intervals .DELTA.t ₇ , .DELTA.t ₈ , and .DELTA.t ₉ and from .DELTA.t ₄ , .DELTA.t ₅ and .DELTA.t ₆ meet the switch-off criterion. Averaging can be dispensed with if only the sums of the named time intervals are compared with one another in order to fulfill the switch-off criterion.

Timing may also be used to detect a failure to tighten a threaded connection. Namely, if a nut or screw can not turn from the beginning because it is already tightened or blocked for some reason, eliminates the longer time intervals .DELTA.t ₄ , .DELTA.t ₅ and .DELTA.t ₆ , and only the time intervals .DELTA.t ₁ , .DELTA.t ₂ , Δt ₃ and three other short time intervals Δt _i measured, this is a sign for an already tightened nut or screw or not one proper tightening of the nut or screw. The transmitter 18 can generate an error signal from this, which is displayed on a screen, not shown.

It thus follows that the method according to the invention and the corresponding device manage with a simple time measurement in order to control the power wrench 1 for tightening a screw connection until a predetermined setpoint torque is reached, without requiring any intervention on the part of the operator. With the method and the corresponding device according to the invention, it is thus possible to effect the tightening of a screw remote control and also to control several screw simultaneously by means of an electronic control unit 16.

Claims (10)

Method for controlling a hydraulically operated power wrench with a lever pivotable by a piston-cylinder unit, with a ratchet arrangement for stepwise rotation of a ratchet bushing by pre-strokes and return strokes and a drive unit with a motor-driven pump when tightening a screw connection with the steps: Inputting a setpoint torque or a desired preload force or the screw size, the material quality, the thread pitch and the clamping length into an input electronics, Determining a pump to be generated by the target torque or the desired biasing force or the screw size, the material quality, the thread pitch and the clamping length corresponding target pressure by a transmitter, Pressurizing the piston-cylinder unit to carry out the preliminary stroke until reaching the setpoint pressure and immediate reversing to return stroke upon reaching the setpoint pressure by pressure relief and spring pressure or by triggering pressurization of the piston-cylinder unit to return stroke, Measuring the time from the start of the pressurization until the target pressure is reached or until the initial pressure is reached after a pressure release, Repeating the pressurization and depressurization and measuring the time until the desired pressure or the initial pressure is reached, Comparing the measured time intervals and switching off the pressurization cycles if at least the last measured time interval is shorter than at least the penultimate measured time interval. Method according to Claim 1, in which, after determining a first short time interval, two further pressurizations take place, from these three short time intervals and from three longer, previously measured, time intervals in each case Mean value is formed or they are summed and the repeated pressurization cycles are turned off when the average value of the short time intervals or the sum is less than the average or the sum of the longer time intervals. The method of claim 1 or 2, wherein the time duration of the first preferably six pressurization cycles is measured and the pressurization cycles are turned off when the time duration of these six time intervals is shorter than a predetermined time interval corresponding to a screwing operation. The method of claim 3, wherein an error message is generated by the transmitter when the pressurization cycles are switched off immediately when unscrewing the loose nut or screw. The method of claim 3, wherein the time intervals when unscrewing the loose nut or screw to set, the time intervals when tightening the nut or screw until reaching the desired torque corresponding target pressure and at least one time interval after reaching the target Torque corresponding target pressure without further rotation of the nut or screw are measured and the repeated pressurization cycles are turned off when at least the last time interval is shorter than the previous one. Hydraulically operated power wrench (1) for carrying out the method according to one of claims 1-5, with a lever (3) pivotable by a piston-cylinder unit (2) with a ratchet arrangement (5) for incrementally rotating a ratchet bushing (4), a drive unit (6) with a motor-driven pump (7, 8), an input electronics (17) for inputting a setpoint torque or a desired preload force or the screw size, the thread pitch and the clamping length, an evaluation unit (18) for determining a desired pressure from the entered values, - One between the piston-cylinder unit (1) and the pump (7, 8) arranged adjustable pressure valve (11) which is adjustable to the desired pressure, an actual pressure transducer (12, 13, 14), a time measuring device (19) for measuring the time interval (Δt _i ) of each pressurization from the initial pressure to the target pressure or from the beginning of the pressurization to the target pressure and subsequent pressure relief until the initial pressure is reached, - wherein the evaluation electronics (18) is adapted to the pressurization cycles taking into account the measured time intervals (.DELTA.t _i ) to control so that the pressurization cycles are turned off when at least the last measured time interval is shorter than at least the penultimate time interval. Hydraulically operated power wrench (1) according to Claim 6, in which the evaluation electronics (18) are arranged in each case from three short time intervals (Δt ₇ , Δt ₈ , Δt ₉ ) and three longer time intervals (Δt ₄ , Δt ₅ , Δt ₆ ) to average or accumulate and turn off the pressurization cycles when the average or sum of the short time intervals (Δt ₇ , Δt ₈ , Δt ₉ ) is shorter than the mean or sum of the longer time intervals (Δt ₄ , Δt ₅ , Δt ₆ ). A hydraulically powered power wrench (1) according to claim 6 or 7, wherein the evaluation electronics (18) is adapted to measure the duration of the first preferably six pressurization cycles and to shut off the pressurization cycles if the duration of these six time intervals is shorter than a predetermined one screwing operation corresponding time interval. Hydraulically operated power wrench (1), wherein the transmitter (18) is adapted to generate an error message when the pressurization cycles are switched off immediately when screwing the nut or screw. Hydraulically operated power wrench (1) according to claim 8, wherein the evaluation electronics (18) is adapted to the time intervals (.DELTA.t ₁ , .DELTA.t ₂ , .DELTA.t ₃ ...) when unscrewing the loose nut or screw until setting, the time intervals ( .DELTA.t ₄ , .DELTA.t ₅ , .DELTA.t ₆ ...) when tightening the nut or screw until reaching the target pressure corresponding to the target torque and at least one time interval (.DELTA.t ₇ ) after reaching the setpoint torque corresponding target pressure without further rotation Nut or the screw and turn off the repeated pressurization cycles, if at least the last measured time interval (.DELTA.t ₇ ) is shorter than the previous time intervals (.DELTA.t ₁ ... At ₆ ...).

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