RU2022495C1 - Electric connector for multilayer printed-circuit boards and its assembly process - Google Patents

Abstract

FIELD: radio engineering. SUBSTANCE: assembly process involves installation of base components and fixation of modules, installation of modules in connector shroud. Connector has jack and pin blocks which are hollow shells with pins for basing and holes for mounting and locking modules by means of slide blocks. EFFECT: enlarged functional capabilities. 3 cl, 2 dwg

Description

 The invention relates to radio engineering, in particular to computing devices, and can be used to electrically combine perpendicularly arranged multilayer printed circuit boards.

 Known electrical connector for multilayer printed circuit boards, consisting of a socket and plug with longitudinal rows of electrical contacts [1], and the method implemented in it, which consists in alternately installing contact pairs in the mold and subsequent crimping them in the insulator of the connector.

 The disadvantage of this method and its implementing device is the lack of maintainability of its contact pairs. If during operation one of the contact pairs fails, it is necessary to replace either the entire connector or the replaceable assembly of the computing device.

 The closest technical solution to the proposed purpose and the achieved result is a connector for multilayer printed circuit boards containing a socket and plug with electrical contacts, combined into groups made in the form of separate modules [2], and implement the method of assembly of the connector in it, which consists in combining electrical contacts in groups made in the form of separate modules, which are crimped in the insulator of the connector.

 However, the known connector and the assembly method that is implemented in it also does not allow repair of individual contact modules damaged during operation.

In the known device, in case of damage, it is necessary to unsolder the entire connector from the device. Modern connectors for high-performance computers are characterized by the number of contacts of the order of 5 ^. 10 ² and a pitch between them equal to 0.625 mm. The operation of replacing the connector leads to significant labor costs, proportional to the number of soldered contacts, contributes to the destruction of the expander of the multilayer printed circuit board under the influence of temperatures during soldering, reduces the reliability of the repaired replacement unit and can damage it. In addition, the cost of modern 400-600 contact connectors is also significant and, therefore, replacing the connector due to the failure of several contacts leads to significant economic losses.

 The aim of the invention is to increase maintainability by individual removal and installation of modules.

 To achieve the goal, the base and fixing elements of the modules are inserted into the plug and socket housings of the modules, the connector housing of the connector is mounted on the printed circuit board and fixed to the circuit board in the working position, then the contact modules of the socket are installed in the socket housing alternately with the base elements and secured with fixing elements to the socket housing, and the contact modules of the plugs are alternately installed in the corresponding metallized holes of the mating printed circuit board, then electrical fixing elements, on the installed contact modules of the plug impose the body of the plug of the connector, base the contact modules of the plug in it and fix them in the working position using the locking elements, after which the plug of the connector is mounted on the printed circuit board.

 In the proposed electrical connector for multilayer printed circuit boards containing a socket and a plug with electrical contacts, grouped and made in the form of separate modules, the socket and plug of the connector are made in the form of hollow housings, equipped with pins, crackers and two groups of holes, one of which is rectangular and the others are round, moreover, the round openings of the socket are threaded, and the openings of the plug are smooth, while the crackers are located in the spaces between the modules and are connected with round openings to rpusov screw connection with the possibility of fixing the modules, and studs disposed on the edges of rectangular holes with the possibility of basing the modules in the operating position. In addition, the base pins can be inserted into the modules of sockets and plugs, and the corresponding holes are made on the base surfaces of the housings with the possibility of their interfacing, which increases the manufacturability of the connector by reducing the requirements for precision manufacturing of the housings.

 From the known solutions, the proposed connector and the method implemented therein differ in the assembly sequence, which is achieved in that the plug housings and connector sockets are provided with pins, crackers and two groups of holes that differ in structural features.

 The proposed assembly method and design features of the proposed connector allow you to install and independently remove contact modules of sockets and plugs from the connector. Since the module can contain 20-30 contact pairs, it is obvious that the maintainability of 600-800 contact connectors with this design increases sharply, and the cost of repairing such connectors is significantly reduced.

 The insertion of the base pins in the contact modules of sockets and plugs allows to reduce the complexity and make the connector technological in manufacturing.

 Consequently, the new assembly procedure and the presence of crackers, pins and holes in the proposed connector led to a new property: the ability to replace individual contact modules of sockets or plugs. Therefore, the claimed solution meets the criterion of "significant differences".

 In FIG. 1, 2 show the proposed electrical connector for multilayer printed circuit boards and a diagram illustrating the method of assembly.

 The connector for multilayer printed circuit boards contains a socket 1 and a plug 2. The electrical contacts of the connector are grouped and made in the form of contact modules - plugs 3 and sockets 4. The basis of the socket 1 and plug 2 of the connector are hollow housings 5 and 6. They have rectangular holes 7 and round holes 8, as well as holes for pins 11 (not shown in the drawing). Rectangular openings 7 are designed to install contact modules 3, 4. Contact modules 3, 4 are based in the cases 5, 6 of the connector using pins 10 and are mounted using crackers 11 and screws 12. The parts of the connector are fastened before wiring them to the printed circuit boards 13 and 14 (socket 1 is attached with screws 15, and the fixing of the plug 2 is not shown conditionally).

 The method is as follows. In the housing 5 and 6 of the socket 1 and plug 2 of the connector, pins 10 are inserted to base the modules. Then, the housing 5 of the socket 1 and the connector are attached to the printed circuit board 13 and stuffed with the contact modules 4 of the socket 1. After stuffing, the contact modules 4 of the socket 1 are fixed in the case with the crackers 11 with screws 12. Thus, the socket of the connector is assembled and ready for wiring.

 The connector plug is assembled in a different sequence.

 To assemble the plug 2, the contact modules 3 of the plug 2 are alternately installed in the metallized holes of the printed circuit board 14. Then, crackers 11 are inserted into the gaps between them. The housing 6 is mounted on the installed contact modules 3 of the plug 2 and, using the pins 10 installed in it (or the modules), contact modules 3. Then, passing the screws 12 through the smooth holes 8 of the housing 6, the contact modules 3 of the plug 2 are fixed in the housing 6, and the housing 6 is on the circuit board 14. The connector 2 of the connector is assembled and ready for soldering.

 Using the invention allows to develop a variety of designs of multi-pin connectors, taking into account the features of the designed equipment.

 Moreover, the proposed method can be implemented for assembling connectors having a different configuration: in the form of a straight line, U-shaped, L-shaped or in the form of a rectangular field of contacts.

Hollow cases of various designs are used to arrange such connectors, which can serve as structural elements, which helps to increase the density of the equipment layout. The number of contacts in such connectors is diverse and can reach 10 ³ pcs. In addition, the proposed method does not impose restrictions on the used contact pair, so the invention can be used to create connectors for various purposes: high-frequency, low-frequency, power.

 This approach drastically reduces the design time of the equipment and reduces the range of connectors, since the development of the connector is reduced to the choice of a typical module with the required contact pair.

 The proposed device allows to solve the problem of repairing connectors with a large number of contacts.

Claims (3)

 1. A method of assembling an electrical connector for multilayer printed circuit boards, comprising combining electrical contacts into groups made in the form of separate modules, characterized in that, in order to improve maintainability by providing removal and installation of individual modules, basing elements are inserted into the plug and socket of the connector and fixing the modules, install the connector housing of the connector on the circuit board and fix it on the circuit board in the working position, then in the housing of the outlet alternately using the basing elements they install the contact modules of the socket and fix them with fixing elements to the body of the socket, and the contact modules of the plug are alternately installed in the corresponding metallized holes of the interfaced printed circuit board, then the fixing elements are introduced into the gaps between them, the connector plug housing is laid on the installed contact modules of the plug, the contact base is based in it plug modules and fix them in the working position with the help of fixing elements, after which the connector plug is mounted on the printed circuit board.  2. An electrical connector for multilayer printed circuit boards containing a socket and a plug with electrical contacts grouped and made in the form of separate modules, characterized in that, in order to improve maintainability by providing removal and installation of individual modules, the socket and plug of the connector are made in in the form of hollow housings equipped with pins, crackers and two groups of holes, one of which is rectangular and the other round, with round openings of the socket housing being threaded and openings of the housing fork being smooth, wherein the crumbs are arranged in the gaps between the modules and are connected with the round holes pads screw connection, with the possibility of fixing the modules, and studs disposed on the edges of rectangular holes with the possibility of basing the modules in the operating position.  3. The connector according to claim 2, characterized in that, in order to increase the manufacturability of the connector by reducing the accuracy of the manufacture of the housings, the socket and plug modules are equipped with base pins, and holes are provided on the base surfaces of the socket and plug housings for interfacing with the pins .

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