SU974478A1 - Method of wiring telephonic communication cables, wiring device and a shoe - Google Patents

Description

The invention relates to electrical engineering and can be used * when installing communication cables.

There is a method of mounting cables, according to which the serviceability of the wires and the correctness of their connection is carried out after making contact of these wires in the connector by connecting probes jq to the test device G1] to it.

The disadvantage of this method is that the identification of faulty and incorrectly connected wires is carried out only after they are connected in the connector, this leads to the cost of time for reconnecting the wires. Moreover, in some cases, damaged wires, as well as incorrectly connected wires, cannot be detected at all during these tests. In order to increase the resolution of the test device used by this method, strict observance of a certain sequence of cable connection is envisaged, which also reduces labor productivity, although it does not ^: completely excludes the passage of faulty or incorrectly connected wires. , thirty

The closest in technical essence and the achieved effect is the method of mounting communication cables, which consists in connecting the wires to the test device, placing and securing the wires over the contacts of the connector or terminal, connecting them to the latter and removing excess ends. Before connecting the wires of the cable with the wires of another cable or the terminals of the terminal, the insulation is removed from the ends of the wires and the condition of each of the connected wires is checked. Then, _ after connecting the wires, · from the other end of the cable check the correctness of their connection G 2] ..

However, this method is characterized by high time spent on checking the serviceability of the wires and the correctness of their connection. f

A mounting device for implementing this method is known, ν containing a wire separator and elements for mounting a connector placed on a common base. The wires are brought into the device through a wire separator and their ends are fixed in the wire holder. Due to the appropriate choice of the sizes of the separator and holder, the wires are placed on the base with the cuts of the contacts into which they are then crimped. After all the wires intended to be connected in this connector are inserted, the wires, using this 5th device, are connected to the contacts of the connector, thereby connecting the wires and cutting off the excess ends of the wires fixed in the holder £ 3]. 1Q

Known block for connecting wires to a test device containing a long insulating. the case and isolated from each other contact elements from the plates of the L-shaped profile. The plates with their horizontal part are fastened to the insulating body with the help of a screw and nut. On the other side of the housing, a wire is soldered to the screw connecting the 2Q contact element to the circuit of the test device. The plates are installed in one row and are directed with their wide side along the front of the connecting block. Insulation gaps are provided between the plates. In the vertical part of the plate there is a vertical wedge-shaped slot in which the wire inserted into it is pinched. When a wire is inserted into the slot, its insulation is cut by the sharp edges of the slot and the wire is connected to the contact element [4].

However, such connecting pads are large and require considerable time for 35 connecting wires to them and disconnecting them.

The aim of the invention is to increase labor productivity by reducing the time spent on testing wires.

The goal is achieved by the fact that according to the method of mounting the cables, the wires are connected to the test device simultaneously with their placement and fixing over the contacts of the connector or terminal.

This method allows you to electrically verify the correct placement of wires above the contacts, which replaces the verification of the correct connection of wires, i.e. checking for pairing after this connection has occurred, and after the marked connection, check ,, The presence of electrical contact of the wires with the contacts of the connector or terminal. .

The mounting device, containing wire spreader and elements for mounting a connector or terminal located on a common base, section 60, is equipped with a connection block

'. to the test device installed on the base from the side opposite to the direction of introduction of the water.

A block for connecting insulated wires to a test device, containing an extended insulating casing and contact elements with cutting edges installed along its longitudinal axis, equipped with partitions separating the contact elements made in the form of plates mounted perpendicular to the longitudinal axis, with the cutting edge of each contact element facing to the corresponding partition and forms with the last socket for the establishment of the wire.

Moreover, each contact element can be made in the form of a plate with a limb, on which the cutting edge is located.

In FIG. Figures 1 and 2 show cable installation diagrams; in FIG. 3 is an example of a specific embodiment of an installation device; in Figs. .4 -. connecting block; in FIG. 5 is a section AA in FIG. 4; in FIG. 6 - connecting block, top view; in FIG. 7 is a diagram of an assembly of a connecting spike made of plates; in FIG. 8 - contact element connecting pads.

The method of mounting cables is as follows.

In the case of cable termination, wires 1 and 2 of cable 3, and in the case of connecting cables, wire 4 and 5 of cable b, when they are placed and engaged over the contacts of the connector or terminal installed at their intended place 7, are connected to the test device 8.

Depending on the program of the test device 8, wires 1,2,4 1 and 5 of cables 3 and b are checked for serviceability or as they are connected in series; or after. Faulty wires detected during the test remove and replace the wires with good ones, which is confirmed by re-testing these wires. "

Since the wires 1, 2, 4, and 5 are placed and fixed above the contacts of the connector or terminal, with which they must then be connected, before connecting them electrically, for example, by measuring the working capacity of each pair of wires 1 and 2 or 4 and 5, check the correctness of their placement, thereby replacing the verification of the correctness of their future connection, i.e. pairing.

The marked tests are carried out before connecting the cables 3 and 6, which ensures that these tests are carried out with maximum placement ability and allows you to reject faulty wires before they connect to the contacts of the connector or terminal.

contact elements 18, which allows these partitions to separate the wires. The partitions 17 can be made of both insulating material and conductive material. Each contact element 18 is made in the form of a plate 19 with a bend along the line 20 on which the cutting edge 21 is located. The cutting edges 21 are directed towards the corresponding partitions 17. If necessary to increase the reliability of contacting at the contact element 18 can be performed several bends with cutting edges. The cutting edge 21 of the contact element 18 and the baffle 17, to the side of which the cutting edge 21 is turned, forms a socket for introducing the wire. The housing 16 frames the protruding side 22, designed to limit the movement of the wire.

Contact elements 18 are connected to the contacts of the connector 13 by soldering wires to the petals 23.

The connecting block can also be made, for example, with knife or rod contact elements, provided that ^ the cutting edges of these elements are directed towards the partitions.

The mounting device and connecting block work as follows, _

Wires 1 and 2 of cable 3 are pulled and inserted through a separator 10 into sockets formed between partitions 1.7 and cutting edges 21 of contact elements 18, making sure that wire 1 is connected to contact element 18a, and wire 2 to contact element 18c. If it is necessary to connect the cables, wires 4 and 5 of cable 6 are likewise wound up, making sure that wire 4 is whitened to contact element 186, and wire 5 to contact element 18g. Similarly, the remaining wires of the cables are turned on, making sure that each wire is connected to the corresponding contact element 18. When connecting the wire, for example 1, to the connecting block 12, the wire is led to the protruding partition 1.7, which serves as a guide and guide, and pressing against it wire 1 passes it down. Wire 1, under the action of a repulsive force, bends the contact element 18 and ^4, its cutting edge 21 cuts through the insulation 60 of wire 1, providing an electrical connection with it. Further advancement of the wire is prevented by the protruding / rising edge 22. The force of the elastic contact element 18 and due to

When using connectors whose reliability indicators are not determined, as well as in laboratory conditions when testing newly developed connectors, the method provides the possibility, after connecting the wires to the connector contacts, to check the presence of an electrical contact between the connected wires, and, if necessary, measure the resistance value of this contact. 1

This possibility is achieved by the fact that in this case, after connecting the wires 1, 2, 4 and 5 with the connector pins, the ends of these wires are not cut and they remain connected to the test device 8.

Checking the electrical contact is carried out respectively by the circuit of the test device 8 and is carried out, for example, by passing current from the test device 8 through wires 1 and 4 or 2 and 5, which should be connected to each other in the connector.

The cable mounting method is implemented using a mounting device that contains a separator 10 mounted on its base 9, a knife 11 for cutting off the excess ends of the wires, a connecting block 12, with a connector 13 mounted on it, for connecting it to the test device 8, and a pressure bar 14 to create a force when connecting the wires to the contacts of the connector, which is installed in its intended place 7. At this place 7 can be installed terminal.

On the basis of the mounting device 9, a holder 15 (Fig. 1) or another separator (not shown) can be installed, made as a unit with the separator 10 and installed instead of the holder 15.

The execution of the mounting device with the holder 15 or with an additional separator allows you to install a connecting block in it, in which the distance between the sockets for the wires is greater than the corresponding distances between the sockets of the contacts of the connector and the terminal. However, the greatest labor productivity is achieved when the marked distances are equal, and in this case, the connecting block also acts as a holder and an additional separator.

Such a connecting block comprises an extended insulating housing 16 in which contact elements 18a - 18g are fixed between the partitions 1 .17. The partitions 17 are located perpendicular to the longitudinal axis of the connecting block and protrude above the 65 cut insulation, wire 1 clamps 35.7 ° and is held in tension.

Due to the fact that the wire is cut only on one side and its progress is limited, wire breaks are excluded.

After all the wires are connected, they are checked with the help of a test device 8 connected via a connector 13 to the connecting block 12.

The connector or terminal must be installed in advance to the designated place 7 or installed after testing, but so that the relative position of the wires connected to the mounting device does not change.

Then the wires are connected to the contacts of the connector or terminal by means of a clamping bar 14 or by means of a pressure roller (not shown) and with the help of a knife 11, excess ends protruding · from the connector or terminal · are cut. Then these ends are removed from the connecting. pads 12.

In this case, when it is necessary to check the electrical contact of the wires with the contacts of the connector, the knife 11 is not installed in the mounting device, and the cutting of the excess ends of the wires after testing the electrical contact is carried out using a cutting roller (not shown). ;

When installing cables using individual connectors after inserting the wires into the mounting device and after testing them, the press tool with individual connectors is connected to the wires to place 7 and the wires are connected alternately, cutting off the excess ends.

The use of the invention in the installation of cable lines, in addition to the advantages associated with the combination of operations, allows you to organize a check of serviceability of wires in the idle mode of the line, which increases labor productivity, allows you to automate the test process and exclude checking the correctness of wire connections, replacing it without requiring additional time checking the correct placement of wires over the contacts of the connectors, and the design of the connecting block with small dimensions ensures Vaeth connect a large number of isolated Provorov.

Claims (4)

The invention relates to electrical engineering and can be used when mounting communication cables. There is a known method of installing cables, according to which the check of the condition of the wires and the correctness of their connection is carried out after contacting these wires in the connection by connecting the test probe G1 to it}. The disadvantage of this method is that detecting faulty and incorrectly connected wires They exist only after their connection in the connector, this leads to the time spent on reconnecting the wires. Moreover, in a number of cases, damaged wires, as well as incorrectly connected, cannot be detected at all during these tests. In order to increase the resolution of the test instrument used by this method, strict observance of a certain cable connection sequence is provided, which also reduces labor productivity, although it does not completely eliminate the omission of incorrect or incorrectly connected wires. The closest in technical essence and the achieved effect is the method of installation of communication cables, which consists in connecting the wires to the test device, placing and fixing the wires over the connector or terminator contacts, connecting them to the last and removing the excess ends. Before connecting the cable wires to the wires of the other cable or the contacts of the terminator, remove the insulation from the ends of the wires and check the integrity of each of the connected wires. Then, after connecting the wires,; from the other end of the cable, they check the correctness of their connection C2 .. However, this method is characterized by high 3aTpaTa kOi time to check the condition of the wires and the correctness of their connection, f A mounting device for the implementation of this method is known, v contained wire separator Installing the connector. Wires are introduced into the device through a wire separator and their ends are fixed in the wire holder. Due to the appropriate choice of the sizes of the separator and the holder, the wires are placed) by those contact slots into which they are then molded. After all the wires intended to be connected to this connector are inserted, the wires connected to this device are connected to the connector’s contacts, making a wire-MMM connection of the wires and cutting the ends of the wires fixed in the holder 3, connecting the wires to the test instrument, containing an extensive insulation. body and insulated contact elements of L-shaped profile plates. The plates, with their horizontal part, are fastened to the insulating body with a screw and nut. On the other side of the housing, a wire is connected to the screw, which connects the contact element with the circuit of the test instrument. Plates are installed in one row and directed with their wide side along the front under the key block. Insulating gaps are provided between the plates. In the vertical part of the plate there is a vertical wedge-shaped joint, in which the lead wire is clamped into it. When a wire is inserted into the slot, its insulation is incised by the sharp edges of the slot and the wire is connected to the contact element. However, such connecting pads have larger dimensions and require a considerable amount of time to connect wires to and disconnect them. The aim of the invention is to increase labor productivity by reducing the time spent on wire testing. The goal is achieved by the fact that, according to the method of cable installation, the connection of wires to the test instrument is carried out simultaneously with their placement and fastening over the connector or terminator contacts. This method allows electrically to verify the correctness of the placement of the wires over the contacts, which replaces the verification of the correctness of the connection of the wires, i.e. check for pairing after this connection has occurred, and after the marked connection - check for the presence of electrical contact of the wires with the contacts of the connector or end connector. . The mounting device containing the wire separators located on the common base and the elements for installing the connector or end fitting is provided with a connector for connection to a test instrument mounted on the base opposite to the direction of insertion of the wires. The block for connecting insulated wires to the test device, containing an extended insulating body and contact elements installed along its longitudinal axis with sparse edges, is provided with partitions separating contact elements made in the form of plates installed perpendicular to the longitudinal axis, while cutting The edge of the KAMCH contact element faces the corresponding partition and forms the socket for inserting wires with the latter. In addition, each contact element can be made in the form of a plate with a bend, on which the cutting edge is located. FIG. 1 and 2 shows the cable installation diagrams; in fig. 3 is an example of a specific embodiment of the mounting device; in fig 4. plug; o11da block; in fig. 5 is a section A-A in FIG. four; in fig. b - connecting block, top view; in fig. 7 is a diagram of the assembly of the connecting peg made from the plates; in fig. 8 - pin connecting element, pads. The cable mounting method is carried out as follows. In the case of cable termination of wires 1 and 2 3, and in the case of cable connections, wires 4 and 5 of the cable b, when they are placed and hooked over the contacts of the connector or terminator installed on their intended location 7, are connected to the test device 8. In Depending on the program of the test device 8, wires 1,2,4 and 5 of cables 3 and b are checked for operability either as they are connected in series or after. The faulty wires detected during the test are removed and replaced with serviceable ones, which is confirmed by re-testing these wires, Since the wires 1, 2, 4 and 5 are placed and secured over the connector or terminator contacts with which they must then be connected, i; o before connecting them electrically, for example, measuring the working capacity of each pair of wires 1 and 2 or 4 and 5, check the correctness of their placement, thereby replacing the validity of their future connection, i.e. pairing Marked tests are performed by a disconnect (5el 3 and b, which ensures that these tests are carried out with maximum placement capacity and allow the rejection of faulty wires before they are connected to the connector or terminator contacts. When using connectors whose reliability indices are not determined and in laboratory tests, when testing newly developed connectors, the method provides the possibility, after connecting the wires to the connector contacts, to check for electrical contact between the connected wires, and in the required cases measure the resistance of this contact. This possibility is achieved in that in this case after connecting the wires 1, 2, 4 and 5 with the connector contacts, the ends of these wires do not cut off and they remain connected to test device 8. The electrical contact test is carried out according to the circuit of the test device 8 and is performed, for example, by passing current from the test device 8 through, wires 1 and 4 or 2 and 5, which should have been connected between the battle with the connector. The method of mounting cables using a mounting device that contains a separator 10 mounted on its base, a knife 11 for cutting off the excess ends of the wires, connecting the block 12, with a clamp 13, mounted on it, for connecting it to the test instrument 8, and pressing a strap 14 for making efforts to connect the wires to the contacts of the connector, which fits into its intended place 7. An end fitting can be installed at this place 7. Based on 9 of the mounting device, a holder 15 (Fig. 1) or another separator (not shown) can be installed as a single unit with the separator 10 and installed instead of the holder 15. Performing the mounting device with the holder 15 or with an additional separator allows you to install there is a connecting strip in which the distance between the sockets for wiring is greater than the corresponding distance between the sockets with 1 pin of the connector or the terminator. However, the highest labor productivity is achieved with equal distances, and in this case the connecting block also performs the functions of a holder and an additional separator. Such a connecting block comprises an extensive insulating body 16 in which contact elements 18a-18g are fixed between the partitions 17. The partitions 17 are arranged perpendicularly to the longitudinal axis of the connecting block and project over the contact elements 18, which allows these partitions to separate the wires. The partitions 17 can be made both of insulating material and of conductive material. Each contact element 18 is made in the form of a plate 19 with a bend along line 20 on which the cutting edge 21 is located. The cutting edges 21 are directed towards the respective partitions 17. When In order to increase the reliability of the contact, the contact element 18 can be made with several bends with cutting edges. The cutting edge 21 of the contact element 18 and the partition 17, in the direction of which the cutting edge 21 is turned, forms a socket for inserting a wire. The housing 16 surrounds a protruding rim 22 intended to limit the movement of the wire. The contact elements 18 are connected to the contacts of the connector 13 by soldering wires to the tabs 23. The connecting block can also be made, for example, with blade or rod contact elements, provided that the cutting edges of these elements are directed towards the partitions. The mounting device and the connecting block work as follows. Wires 1 and 2 Cable 3 are pulled and through the separator 10 they are driven into the sockets formed between the bulkheads 17 and the cutting edges 21 of the contact elements 18, then. so that wire 1 is connected to contact element 18a, and wire i to contact element 18c. If it is necessary to connect the cables in a similar way, wind up wires 4 and 5 of cable 6, so that wire 4 is connected to contact element 186 and wire 5 to contact element 18g. Similarly, the remaining wires of the cables are installed, one in which each wire leads to the corresponding contact element 18. When leading the wire, for example 1, to the connecting block 12, the wire is led to a protruding recess 1.7, which serves as a guide and guide Wire 1 is passed to it downward. Wire 1 bends the contact element 18 under the action of pushing force and its cutting edge 21 cuts through the insulation of wire 1, providing an electrical connection with it. A speaker / floater rim 22 impedes the further winding of the wire. By the force of the elastic contact element 18 and due to the passed insulation, the wire 1 is clamped and held in the tensioned position. Due to the fact that the wire is notched only on one side and its advancement is limited, wire breaks are excluded. After all the wires are wired, they are checked with the help of a test device 8 connected via connector 13 to the connecting strip 12. The connector or heater must be installed in advance at their predetermined place 7 or installed after the tests, but so that the relative position of the wires inserted in the mounting device has changed. Then the wires are connected to the contacts of the connector or end fitting by means of a clamping bar 14 or by means of a pressure roller (not shown) and using the knife 11 cut off the excess ends protruding from the connector or end cap. Then, these ends are removed from the connecting. pads 12. In this case, when it is necessary to check the presence of electrical contact of the wires with the contacts of the connector, the knife 11 is not installed in the mounting device, and cutting off the excess ends of the wires after testing the electrical contact is carried out using a cut-off roller (not shown) . ; When installing cables with the name of the individual connectors, after pressing the wires into the mounting device and after testing them, press the tool with the individual connectors to the place 7 and alternately connect the wires, cutting the excess ends. The use of the invention with cable lines, in addition to the advantages associated with combining operations, makes it possible to organize the testing of the health of wires in the idle line, which increases labor productivity, allows you to automate the testing process and eliminate checking the correctness of wire connections, replacing it does not require additional time spent by electrical check of the correctness of the placement of the wires over the zonactaci of the connectors, and the construction of the connecting block with small dimensions will ensure Connecting a large number of insulated wires. Invention 1. Method of installation of telephone communication cables, which consists in connecting the wires to the test device, placing and fixing the wires over the contacts of the connector or terminator, connecting them to the latter and Removing unnecessary ends, different By the fact that, in order to increase labor productivity, the wires are connected to the test instrument at the same time as they are placed and fixed above the contacts. 2 "Mounting device containing a wire divider and components for installing a connector or end fitting placed on a common base, characterized in that, in order to increase productivity, it is provided with a block for connection to the test instrument installed on the base on the opposite side the direction of insertion of wires; 3. Block for connecting insulated wires to a test device, containing an extended insulating housing and contact elements installed along its longitudinal axis with cutting edges, in order to increase productivity while reducing its size, it is equipped with partitions separating the contact elements, made in the form of plates installed perpendicular to the longitudinal axis, while the cutting edge of each contact element faces to the corresponding partition and it forms with the last socket for wire. 4. The block according to claim 3, characterized in that the stationary, contact element is made in the flexure plate, on which the cutting edge is located. Sources of information taken into account in the examination 1. USSR patent number 524540, class / G 01 R 31/02, 1976. 2. General construction of the construction of linear structures of urban telephone networks. M., Sw., 1978, p. 247-249, 266-267 and 298. 3. Authors certificate of the USSR 680092, cl. H 01 R 43/00, 1979. 4.Proekt of Sieverts kabelverk% Sievematic, Sweden, 1969, No. 584, p. five. N W / 1 - l I D FIG l П 18г 2Z17   / W6 Phage.d