SU926669A1 - Device for testing electric wiring - Google Patents

Description

The invention relates to computing and can be used in the process of manufacturing electrical installation of various electronic products.

Devices for monitoring wired installation are known, comprising a polling switch, a comparison circuit, analysis and control nodes, an information input node, a random access memory, a display node, a single pulse generator, an actuating element 1.

The disadvantage of these devices is the high hardware costs in cases where several products are simultaneously manufactured.

The closest to the proposed technical entity is a device for controlling wiring, containing sequentially connected photo-reading unit and a number receiving register, the control inputs of which are connected to the output of the synchronization unit, and in the channel an amplifier, a control trigger, an actuating element of the mounting tool and a decoder matrix and the information inputs of the decoder matrix are connected to the outputs of the number receiving register, which controls

the input is connected to the output of the synchronization unit and the first installation input of the control trigger, and the outputs are connected to the device outputs, the second installation input of the control trigger is connected through an amplifier to the actuator of the installation tool, and its output is connected to the input of the synchronization unit 2.

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The disadvantage of this device is its limited scope due to the impossibility of simultaneously controlling the installation of several objects. Another disadvantage of the known device is the absence of blocking of the operation of the actuating element of the mounting tool when the unselected contacts of the object are touched, which leads to installation errors, and consequently, to a 20 decrease in the performance of the device. In addition, when this device operates in automatic mode, its performance decreases due to the inconsistency

25 coordinates with mounting coordinates. This is because when the actuator touches the assembly tool to the contact selected by the decoder matrix, the readout and display and the decoder matrix of the next coordinate occur, while the installation of the previous contact does not yet occur finished. The purpose of the invention is to expand the scope and use of the device. The goal is achieved by the fact that in the device containing the verification channel, the register of receiving numbers is connected by an information input with an output of the information input node. the input of which is connected to the first output of the synchronization node, and in the test channel the decoder, the outputs of which are the first group of device outputs, the actuating element, the control input of which is the input from the group of control inputs of the device, and the output is connected to a single trigger input. control, zero input connected to the second output of the synchronization node, the third output of which is connected to the control input of the register of receiving the number, the output of which is connected to the input of the decoder, entered the element And the group of test channels, the outputs of the decoders and the output of which are corresponding groups of outputs and a group of control inputs of the device, and each test channel further comprises a ready trigger, an actuator power switch and a pulse shaper, the channel decoders for the input test channels are connected to the output of the number reception register, the single outputs of the channel availability readiness triggers are connected to the corresponding inputs of the AND element, the zero inputs to the second output of the synchronization node, the input connected to the output of the I element, the synchronization input of the test readiness trigger of the test channel with the output of the pulse generator of the same test channel, the input and output of the actuator power switch in each test channel are connected respectively to the output and the starting one th input to the actuator to the same test channel. The drawing shows a block diagram of the proposed device. The device contains an information input node 1, a number reception register 2, a synchronization node 3, an AND 4 element and channels (working posts) 5 each of which includes a decoder 6, an actuating element 7, a power switch 8, an actuator element, a control trigger 9, forming The pulse generator 10, the trigger 11 is ready, and the control object 12 with connectors 13 on which the wiring of the wiring connections is made. The node 1 is designed to read the coordinate codes from the carrier, for example, from a punched tape to the number receiving register by signals from node 3. The outputs of the decoder 6 are the outputs of the work posts 5 and are connected to the sockets 13 of the objects 12 using adapters. Switching the actuator 7 of the mounting tool to each work station is performed by the switch 8. The trigger 9 of the control can be activated only by touching the corresponding control element 7 to the connector 13 of the object 12 selected by the decoder matrix. The driver 10 can be a button embedded in the pedal, which in the initial (not pressed) state commutes to the control input of the readiness trigger 11 the potential of logical O, and when pressed on the pedal, the level is logical. The device works as follows. Node 1 reads to register 2 the code of the next coordinate and enters it into. decoders 6 and on the indicators of work posts 5. (indicators in the drawing are not shown). The operation of each of the device workstations is performed identically, therefore, for example, consider the operation of one of them. The selected pin of the connector 13 of the object 12, corresponding to the indicated coordinate, is supplied from the decoder b a logic level O, to the remaining contacts - a logic level. When the actuator 7 touches the specified contact, the trigger 9 is activated, and the switch 8 performs the activation of the actuating element of the installation tool. If the other contacts touch up incorrectly, the actuating element of the mounting tool will not start. After mounting the next contact, the operator presses the pedal, while the driver 10 connects to the synchronization input of the trigger 11 of readiness ypoBet b logical. The ready trigger triggers - the working noct is ready for the installation of the next contact. When the readiness triggers are triggered, all the workstations 5, element 4 gives a signal to node 3, which resets the control triggers 9 and the ready triggers 11 to O and then starts node 1 to read the next coordinate.

Thus, the proposed device allows to expand the scope of application, ensuring the operation of several workstations with the control of wired inter-socket installation of several objects of the same type simultaneously and in real time, which improves the performance of the device.

Claims (2)

1. USSR author's certificate according to the application 2447896 / 18-24, 0 cl. G 06 F 15/46, 1977. 2. Authors certificate of the USSR .463118, cl. G 06 F 15/46, 1973 (prototype).