WO1999009468A2 - Method for counting movements of a tool and array for said method - Google Patents

Abstract

The invention relates to a method for counting the movements of a tool, using electronic circuits, wherein additive counting is carried out by means of a cycle counter (I) serving as a guarantee counter and parallel substractive counting is conducted with a preset counter (II) to control the number of pieces to be processed. It is also possible to use the cycle counter (I) or the preset counter (II) separately. Counting with the preset counter (II) is set to a desired cycle status by means of an infrared hand-held emitter (III) until said counter is reset once again. The inventive method is arranged in such a way that a cycle counter (I) and a preset counter (III) with an infrared hand-held emitter (III) are provided for each tool. Optionally, a single preset counter (II) is provided for an individual tool (n=10), having a single infrared hand-held emitter (III).

Description

Method for counting movements in a tool and its arrangement

The invention relates to a method for counting movements in a tool for piece goods, preferably for applications in plastic injection tools.

Stamping tools and special machines and their arrangement required for the process.

Known counting devices for counting piece goods or events of this type generally consist of one

Counter or from a register and an adder. DE-OS 38 06 570 puts counting in several counting cascades under protection. During a counting process, a carryover occurring in one of the counting cascades is first temporarily stored for the next following counting cascade and is only taken into account during the next counting process. The final counting result is only determined at the end of a sequence of counting processes, taking into account the carryovers that are still cached. As the counting capacity of this counting device increases, this type does not meet its requirements due to the additional longer running times due to the intended use of slower components, which are now required for a counting cycle. Furthermore, a device for measuring the relationship between a number of successive events is known in such a way that a counter is provided which is counted up by the pulses which are generated by a generator which is generated by the first sequence of

SPARE BLADE (RULE 26} Events is controlled. A multiplier receives the content of the counter and a subtracting input of the counter receives pulses so that the content of the counter varies between two limit values (EP 0 009 488). The measurement uncertainty and the slower speed of successive events in a first sequence and a number of events in a second sequence are caused by the fact that each sequence must activate a pulse generator.

It is therefore an object of the invention to provide a solution in terms of process technology and apparatus in such a way that different variants of the counting of piece goods in a tool enable rapid objective evaluation and are unmanipulatable for the user due to its special arrangement on the tool.

According to the invention, this object is achieved in that the counting with a cycle counter is added and that the counting with a preset counter is carried out in such a way that pulses emitted by a permanent magnet via a protective gas contact and a shift register generating natural frequency are detected by a counter module and that the counting is carried out the preset counter is preset to a desired cycle status via an infrared hand-held transmitter until it is reset again.

The method according to the invention therefore consists in that the counting with the cycle counter adds up and that the counting with the preselection counter until it is reset again. it is subtracted. A permanent magnet in the cycle counter emits the pulses to be added via a protective gas contact. The preset counter is reset above the infrared hand-held transmitter on a first pulse arriving from two existing infrared receivers in order to start counting again by means of the infrared hand-held transmitter above the second infrared receiver in preferably 500 pulse steps to a desired level of preferably a maximum of 250,000 Cycles are predetermined and goes into a subtracting mode after its predetermination has been completed until it is reset again. The data of the protective gas contact recorded by a counter module in the cycle counter are summed up in decades with an output. The individual pulses of the protective gas contact in the cycle counter are formed by means of a resistor and a capacitor in order to prevent multiple pulses.

During the preselection using the preselection counter, the pulses arriving from the infrared hand-held transmitter on the second receiver in the cycle counter are determined until they are reset. After the specified preselection has ended via the protective gas contact, the counter module subtracts the predetermined number from the preselection until it is reset again using the infrared hand-held transmitter. Furthermore, the infrared

Handheld transmitters in conjunction with the preselection counter activate the procedural steps during the preselection and, after the specified preselection has been counted, a reset of the preselection counter and when it starts again. For carrying out the method according to the invention, it is expedient, according to claims 5 to 8, to provide an arrangement consisting of a cycle counter and / or preset counter, coupled with an infrared hand-held transmitter. According to the arrangement, a cycle counter as a guarantee counter and a preselection counter for checking the number of pieces to be machined, but also only the cycle counter or the preselection counter can be fitted in a tool for counting the piece goods in the tool to be checked. The infrared hand-held transmitter is also assigned to the preset counter. A special feature is that if there are several tools, certain tools with the cycle counter, e.g. B. as a guarantee counter, and all other tools are each equipped with the preset counter for counting the number of pieces. For one

Number = n of the preselection counters with a corresponding number = n of tools only a single infrared hand counter is used. The special equipment for the independent counting of each individual cycle counter and / or preset counter is that each counter is connected to a protective gas contact (reed contact) which is actuated by a permanent magnet. The infrared hand-held transmitter assigned to the preset counter contains, in particular, two up-counter modules, such as preferably BCD.

With the use of the cycle counter, the method according to the invention for counting movements in a tool allows maintenance intervals of systems or tools to be precisely specified and checked, so that appropriate maintenance and repair work can be carried out after the specified number of pieces.

With the use of the preset counter according to the method according to the invention, it can no longer be dismantled and / or manipulated after being attached to a tool.

Furthermore, this careful control gives the user an exact value of the number of pieces manufactured with the tool in order to be able to assert warranty claims in tool making.

Details of the invention are explained below with reference to an embodiment shown in the drawing. In detail shows

Fig. 1 shows the arrangement of a counting device for performing the method according to the invention

Fig. 2 shows the arrangement of the circuit solution of a cycle counter. Fig. 3 shows the arrangement of the circuit solution of a preset counter. Fig. 4 shows the arrangement of the circuit solution of an infrared hand-held transmitter Preselection counter II, each with a permanent magnet 1.1 and 11.1 required. The only infrared hand-held transmitter IM is assigned to the preset counter II, the number of which can preferably be up to ten preset counters II. The counters I and II only react to the closing of the tool, and thus the number of pieces produced to be able to monitor good. The permanent magnet 1.1 associated with the adding cycle counter I outputs the pulses required via a protective gas contact I.2, preferably a reed contact, to a shift register I .4 with an output, preferably a divider IC, to a counter module 1.3.

The permanent magnet 11.1 associated with the subtracting preselection counter II outputs the pulses required via a protective gas contact, preferably a reed contact, to a counter module II.8 and is subtracted from the predetermined sum of the parts to be manufactured. The only battery-powered III.9 infrared hand-held transmitter IM is responsible for any number, up to ten preset counters. The cycle counter I, which is operated with a 3.0 V lithium battery 1.5, is technically in accordance with. Fig. 2 realized such that the pulses emitted by the permanent magnet 1.1 via the protective gas contact I.2, preferably a reed contact, and by the shift register II.5 with an output, preferably a divider IC, detected by the counter module I.3 and in Decades added. Resistor I.6 and capacitor I.7 are used for pulse shaping. The cycle counter I counts every interval that is run with the system or the tool. A six-digit display with a predetermined zero can therefore display up to a number combination of 9999990 due to the cycle counter I, which counts in decades.

To further carry out the method according to the invention, the preselection counter II in combination with the infrared hand-held transmitter IM in FIG. 4 is explained in more detail at this point in FIG. 3. 3 is the with its six-part display equipped preset counter II from the infrared hand-held transmitter IM on the first infrared receiver 11.5 incoming pulses are reset. Then the former infrared receiver 11.5 for a predetermined time, for. B. 3 minutes, by means of the infrared hand-held transmitter III via a second infrared receiver 11.6 in 500 pulse steps up to 400,000 cycles. Preselection counter II can only be preselected after the preset preselection time has elapsed after resetting with the infrared hand-held transmitter IM after at least 5,000 pulses. After a pre-selection has been completed, the infrared hand-held transmitter IM on the second infrared receiver 11.6 of the pre-selection counter II has no effect until the preselection is reset. The preselection counter II changes to the subtracting mode after the completed preselection until it is reset again. The pulses coming from the permanent magnet 11.1 are now detected via the protective gas contact II.2 with directional characteristic from the counter module II.8 and subtracted from the pre-selected sum. The preset counter II has the same properties as the cycle counter I until it is reset again.

The infrared hand-held transmitter IM described in FIG. 4 transmits the pulses of the pulse generator III.1, preferably a C-Mos generator, of approximately 10 kHz after actuation of the keyboard III.2 in blocks of 500 pulses each via the two counters IM .3 for the infrared hand-held transmitter IM. Each pulse is thus counted and the pulses are only sent when the IM.2 keyboard is pressed. A transmission current of approx. 20 mA is provided for actuating the infrared hand-held transmitter III - reset and preselect - which corresponds to a reception range of approx. 5 to 20 cm.

Claims

claims

1. A method for counting movements in a tool by means of electronic switching devices, characterized in that the counting with a cycle counter and / or that the counting with a preset counter is carried out in such a way that pulses emitted by a permanent magnet via a protective gas contact and a natural frequency generating Shift registers are detected by a counter module and that the counting over the preselection counter is predetermined until it is reset again via an infrared hand-held transmitter to a desired cycle status.

2. A method for counting movements in a tool by means of electronic switching devices according to claim 1, characterized in that the data of the counter module recorded in the cycle counter are summed up in decades.

3. A method for counting movements in a tool by means of electronic switching devices according to claim 1, characterized in that the preselection counter changes to the subtracting mode after completed predetermination until it is reset again and that the pulses arriving on the protective gas contact are detected and the sum of the predetermined Cycle status are subtracted.

4. A method for counting movements in a tool by means of electronic switching devices according to claim 1, 3 and 4, characterized in that by means of the infrared hand-held transmitter in connection with the preselection counter after the reset, the process steps during the preselection and after the predetermined preselection has been counted the preset counter is activated when it starts again.

5. Arrangement for counting movements in a tool for performing the method according to claim 1, characterized in that in each tool to be checked a cycle counter (l) and / or a preset counter (II) is fitted to control the number of pieces to be machined and a Infrared hand-held transmitter (III) to which at least one preset counter (II) is assigned.

6. Arrangement for counting movements in a tool according to claim 5, characterized in that in the presence of several tools according to its number and according to its requirement, certain tools are equipped with the cycle counter (I) and / or with the preset counter (II).

7. Arrangement for counting movements in one

Tool according to claims 5 and 6, characterized in that the infrared hand-held transmitter (III) belonging to the at least one preset counter (II), in particular two

Up counter blocks (III.8) are assigned.

8. Arrangement for counting movements in one

Tool according to Claims 7 to 10, characterized in that for the independent counting of each individual cycle counter (I) and / or preset counter (II) each of the two different counters (l; ll) has a protective gas contact (l.2; l l.2), which is actuated by a permanent magnet (l.1; ll.1) is switched on.