EP0133557A1 - Ratchet wrench for driving screws - Google Patents

Abstract

The ratchet hand wrench contains a sensor (4, 9) for the angle of rotation of the screw and a device for torque measurement. The measured values are fed to a microprocessor (22) in which the tightening process of the screw is preprogrammed by means of corresponding target values or limit values. Indicator lights (30, 31, 32) or acoustic signal transmitters (33) indicate to the user whether the screw has been properly tightened. The user can also see how far the screw has already been tightened and which part of the tightening process still has to be carried out.

Description

The invention relates to a ratchet hand wrench for tightening screws, which is equipped with a transducer for the tightening torque and the angle of rotation, as well as with evaluation electronics for the controlled tightening of the screw according to the torque and angle of rotation, which when the tightening values defined for the screw in question are reached , for example the yield point, triggers an optical and / or acoustic signal and which can be combined with a locally fixable angle encoder arm.

In relation to an electronic ratchet hand-held wrench of this type, the object of the invention is to create a hand-held wrench that allows continuous measurement and storage of the data of a screw connection and its objective quality assessment with a minimum of effort, and in which the risk of measurement errors is largely eliminated and external cable connections are eliminated.

This object is achieved according to the invention by the features of the ratchet wrench specified in the characterizing part of patent claim 1.

A ratchet hand wrench according to the concept of the invention also enables the microprocessor to evaluate the bolting data when screwing is discontinuous in manual operation (catch up gears when tightening with a ratchet or short rest breaks when reaching around). Furthermore, an objective quality assessment of the screw connection, which is displayed to the user and which can also be documented, is ensured by entering setpoints and tolerance limits in the microprocessor. Since external cable connections are eliminated due to the battery operation of the hand key, unhindered working with the key is ensured.

Further advantages of the ratchet hand wrench according to the invention are that 4, measurement errors are avoided by the ball-bearing scanning head and relatively large axial clearances and assembly tolerances are permissible through the use of a reflex probe with a pulse wheel assigned to it.

The base located at the bottom of the hand wrench also permits the use of Abstützbezu ^g s-points in the plane of the screw head, resulting in angle errors can be avoided as far as possible due to lateral tipping during the screwing. The built-in microprocessor uses a keyword to indicate the missing entries on the display assigned to it, thus creating the conditions for safe operation even without operating instructions.

Further advantageous refinements of the subject matter of the invention result from the subclaims, from the description and the drawing.

• Es zeigen:
• Fig. 1 einen Teilschnitt durch den Kopf einer beispielsweisen Ausführungsform des Ratschenhandschlüssels,
• Fig. 2 die mittels einer Hülse nach unten verlegte Basis mit einem ihr zugeordneten in Achsrichtung verstellbaren Abstützbezugspunkt für den Winkelgeberarm,
• Fig. 3 ein Blockschaltbild der Auswerteeinheit einschließlich der Meßwertaufnehmer für das Anziehdrehmoment und den Drehwinkel,
• Fig. 4 einen Ratschenhandschlüssel in perspektivischer Darstellung.

The invention is explained below with reference to the drawing:

• Show it:
• 1 is a partial section through the head of an exemplary embodiment of the ratchet hand wrench,
• 2 shows the base, which is laid down by means of a sleeve, with a support reference point for the angle transmitter arm which is adjustable in the axial direction,
• 3 is a block diagram of the evaluation unit including the transducers for the tightening torque and the angle of rotation,
• Fig. 4 shows a ratchet hand wrench in perspective.

As shown in FIG. 1, a reflex probe 4 is attached to the underside of the head 1 of the ratchet hand wrench 3 provided with an actuating arm 2, which in the exemplary embodiment is embodied by a small semiconductor light emitting diode 4 '(as a transmitter) and a photo transistor 4 "as a receiver having a reflective light barrier An impulse wheel 6 is attached to the base 5 of the key 3, which is rotatable relative to the output. The radiation plane of the reflex probe is axially parallel to the longitudinal axis of the flats 7 having a key output surface 8. Accordingly, the impulse wheel assigned to the reflex probe 4 is 6 cylindrical and provided with an axially parallel line division 9. Such an arrangement of the reflex probe and the impulse wheel permits a relatively large axial play and relatively large assembly tolerances.

The base 5 lying in the same direction as the output shaft 8, with which a holding fork 10 is mechanically connected, for example by screwing, allows the hand wrench to be rotated through 360 °, so that tightening processes can also be carried out in these areas.

A support button 11 is rotatably mounted on the end of the output shaft 8 projecting upward above the ratchet head 1 by means of a ball bearing 12. The support button is expediently latched by known means for the slight tightening of the screw with the output shaft. To screw in the screw until it is in contact with the workpiece, you can turn the support knob or, if necessary, separate it. The latter if the screw should not be run through when "ratcheting". The support button 11 can be removed in cramped conditions or placed on an extension. By the applied over the Abstützknopf transverse force in response to the ^g-force to the handle is a central force introduction largely ensured, so that measurement errors due to additional moments are turned off.

• Während des Anziehens der hier nicht gezeichneten Schraube ist die Ratsche 13 fest. Daher dreht sich die Reflexsonde 4 mit dem Betätigungsarm 2 des Schlüssels und der Abtriebswelle 8 um den gleichen Winkel wie die Schraube.

The rotation angle measuring device works as follows:

• The ratchet 13 is fixed when the screw, not shown here, is tightened. Therefore, the reflex probe 4 rotates with the actuating arm 2 of the key and the output shaft 8 by the same angle as the screw.

Base 5 and impulse wheel 6 stand still. This creates a relative movement between the reflex probe 4 and the pulse wheel 6 with the consequence of a pulse generation for the Angle measurement. The pulses obtained are fed to a microprocessor via a suitable pulse shaper.

To improve the resolution between the reflex probe 4 and the pulse wheel 6 a fixed to the output shaft 8 counter visor 14 is inserted with the same pitch as the pulse wheel.

At the same time, this counter visor prevents a possible flexibility of the ratchet from being included in the measurement result. In addition, with such a counter screen, the generation of angular pulses during the catch-up process can be suppressed and the angle of rotation of the output shaft based on the base can be measured directly.

The device for torque measurement, which preferably consists of a strain gauge bridge 15 and an A / D converter 16, is arranged in the hand wrench (see FIG. 3).

As is shown in FIG. 2, the base 5 can be laid down with the aid of an extension sleeve 18. This means that the support reference point 19 (magnet) can also be attached to the screw near extensions. As a result, angular errors attributable to pendulum movements of the operator can be kept very small. The extension sleeve 18 is firmly connected to the base 5. An extension shaft 8 'extends coaxially through them, which is attached to the square 20 and has a square 20' at the other end. The extension sleeve 18 is provided with a second base 5 ′ which is engaged by the second holding fork 10 ′, which is connected to the support reference point 19 via a shaft.

From the block diagram in Fig. 3 it can be seen that the from the semiconductor diode 4, for example, emitted 'in the form of a gas-diode light beam passes over the counter stop 14 to the pulse wheel 6 and correspondingly from this the line graduation on a ototransistor example as _F formed receiver 4 " After suitable transformation of the light pulses arriving in the receiver in a pulse shaper 21, these arrive in the microprocessor 22. Accordingly, the torque values determined with the aid of the strain gauge measuring bridge 15 are also fed to the microprocessor after conversion in the A / D converter 16.

The microprocessor is equipped with a keyboard 23, by means of which the desired data (target values, limit values, tightening method, etc.) can be entered; (Default values) .

It is possible to enter the data or settings for a large number of different screwing cases and to store them in numbered memories 24, so that the data can be called up easily when needed or reused.

The end values reached during a large number of screwing operations can be saved with the date and time. For this purpose, a corresponding quartz clock 25 is assigned to the microprocessor.

The stored values can be called up at any time, for example when all screw connections on a vehicle have been completed. There is also data on the microprocessor memory 26 connected. The data including a previously entered code for the operator and the customer order can be called up if necessary, for example during the times when the hand key is not required and is in a storage position (breaks).

The data entry can directly result in a control strip print or be saved in general data processing systems in order to be documented on the accompanying documents of the product. Such a printer is designated 27 in FIG. 3.

An alpha-numeric display 29 is assigned to the microprocessor 22 installed in the hand key, on which the microprocessor uses a keyword to indicate the next entries that are still missing. This ensures safe operation even without instructions for use.

• Phase 1: Die Schraube liegt an, die Winkelzählung beginnt.
• Phase 2: Die Schraube ist etwa zu 50% angezogen.
• Phase 3: Die Schraube ist etwa zu 90% angezogen.
• Phase 4: Die Schraubverbindung ist fest, die Anziehwerte der Schraube liegen im Toleranzbereich.
• Phase 5: Die Schraube ist zu stark angezogen.

The user of the key is guided in different phases while tightening the screw in question. These can be broken down as follows, for example:

• Phase 1: The screw is in contact, the angle counting begins.
• Phase 2: The screw is about 50% tightened.
• Phase 3: The screw is about 90% tightened.
• Phase 4: The screw connection is firm, the tightening values of the screw are within the tolerance range.
• Phase 5: The screw is tightened too much.

The display can be made by a bar whose length corresponds to the current tightening phase. Another possibility is to assign certain colored light signals to the individual tightening phases. For example, phase 1 can be made visible by a lamp 30 emitting permanent yellow light and the second phase by the same lamp in flashing mode. To identify the third phase, a further lamp 31 is provided which flashes green alternately with lamp 30, so that yellow flashes alternately with green.

The fourth phase is assigned the lamp 31 with continuous green light. In the case of incorrect screwing, to which phase 5 corresponds, a lamp 32 with a permanent red light is recommended.

Alternatively or at the same time, there is the possibility of activating the colored light signals by means of appropriate light rings on the handle of the key, so that they can be easily recognized from all sides and positions.

Additionally or alternatively, the microprocessor 22 can also work on an acoustic signal generator 33, which makes the individual phases recognizable by signals through different frequencies and repetition times.

The limits between the tightening phases 1, 2 and 3 are not entered, but calculated automatically. This means simplifying operation.

The support surface of the hand key is designed so that the key can be used to perform various additional functions while it is stored. The batteries installed in the key can be charged via a line leading to the charger. However, it is also possible to charge the batteries inductively. Furthermore, the data stored in the microprocessor can be queried or printed out and new data can be entered into the microprocessor or into the memory or memories.

There is the possibility of integrating the printer 27 as a unit with the battery charger 34 into the tool storage.

To expand the working area of a hand key according to the invention, the actuating arm 2 bzu. the grip tube can be made telescopically extendable. For tightening limit controlled tightening processes, the default values are theoretically derived mathematically from the entered nominal or limit values for torque and angle, so that no additional operation is required.

Appropriate programming can also be used for quality assessment procedures that could not previously be used in practice due to complicated evaluation mechanisms.

As indicated in FIG. 4, the hand key contains a socket 35 in the handle part 2 ', into which a plug 37 connected to a lead 36 can be inserted for charging the batteries in the key.

Claims (8)

1.Ratchet hand wrench for tightening screws, which is equipped with a transducer for the tightening torque and the angle of rotation as well as with evaluation electronics for the controlled tightening of the screw according to the torque and angle of rotation and which when the tightening values defined for the respective screw are reached (e.g. yield point) triggers an optical and / or acoustic signal, and which can be combined with a locally fixable angle encoder arm, characterized in that a) the transducer for the angle of rotation of the screw is designed as a reflex probe (4) attached to the underside of the key head, which is assigned a pulse wheel (6) which is mechanically firmly connected to the output-side base (5) of the key and provided with markings or the like is b) a freely programmable microprocessor (22) for evaluating the measured values is installed in the key, in which the relevant values and / or instructions can be entered using a keyboard (23), and a memory for the input values and for the respective screw connection values Display for the existing and / or still missing entries are assigned, the display making the respective screwed state recognizable to the user while the screw is being tightened, c) on the ratchet head-side part of the key drive a support rotatably mounted on this head (11) is provided, d) the base (5) of the key is on the same side as the key drive. 2. Hand wrench according to claim 1, characterized in that the reflex probe is designed as a reflective light barrier with a radiation plane running parallel to the key axis and the pulse wheel as a cylinder with line marks (9). 3. Hand wrench according to claims 1 and 2, characterized in that between the reflex light barrier and the impulse wheel a counter-diaphragm (14) is also provided which is arranged coaxially to the impulse wheel and is firmly combined with the output. 4. Hand wrench according to claims 1 to 3, characterized in that the user is guided during various tightening phases of a screw connection through the display (29) light symbols and / or acoustic signals. 5. Hand key according to claims 1 to 4, characterized in that the key is battery-powered and the battery is housed inside the key in the area of the actuating arm. 6. Hand key according to one or more of the preceding claims, characterized in that the support button (11) is removably and latchably attached to the output. 7. Hand key according to one or more of the preceding claims, characterized in that the individual phases of the screw connection are made recognizable by color light signals installed directly or indirectly in the display. 8. Hand key according to claim 7, characterized in that serve to display the individual screwing phases on the key arm attached colored light rings.

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