RU60831U1 - MODULE FOR MANUFACTURING ELECTRICAL PRODUCTS - Google Patents

Abstract

The ALEXANDER assortment module (MAA), containing a printed circuit board (TOT) with electric radio elements, heat radiating electric elements (TERE), a metal case from the base and cover, special grounding pins, insulating sleeves and a heat-conducting insulating gasket, and TEREs are installed through a heat-conducting insulating gasket on the base, performing the function of a heat-emitting radiator, insulating sleeves are installed between the PCB and the base and have vertical axial holes for tightening the PP, covers and the bases, special grounding rods are installed along the shortest path vertically between the grounding point on the PP and the metal base, for large TERs that do not fit under the PP, the corresponding profile holes are cut out in the latter, characterized in that the base and cover are a U-shaped profile moreover, the lateral orthogonal walls of the base are located along the length of the module, and the covers along the width of the module and in the assembled state of the module, the first are oriented up and the second down, the length of the cover being shorter than the length of the base so much that on both sides along the module length the input contacts located on the PC on one side remain open and the output contacts on the other, TERE have individual clamps to the base.

Description

The module belongs to the field of electrical engineering and can be used for the manufacture of a wide range of electrical products, including - power supply modules.

The well-known "Module of secondary power supply" [certificate No. 199940 for the utility model of the same name according to IPC N 05 K 7/00 for 2001; Bull. No. 24], comprising a housing made of a metal base, a printed circuit board with electric radio elements, the heat emitting of which are pressed through a heat-conducting insulating gasket to the metal base acting as a heat-radiating radiator.

A disadvantage of the known module, intended for use as a component that is embedded in more complex equipment, is its vulnerability to external mechanical and other influences (there is no cover).

The closest in technical essence to the claimed module is the "power supply module" [certificate. No. 19247 for the utility model of the same name according to IPC N 05 K 7 \ 00 for 2001 Bull. No. 22], which contains a printed circuit board with electro-radio elements, heat-generating electro-radio elements (TERE), a metal case from the base and cover, special grounding pins, insulating sleeves, and a heat-conducting insulating gasket.

At the same time, TEREs are pressed through a heat-conducting insulating gasket to a metal base that acts as a heat-radiating radiator.

The disadvantage of this module is that it cannot be flooded with a compound to ensure its reliability (open design on the sides of the module).

The purpose of the proposed module is to eliminate the above drawback, i.e. - increasing its reliability by providing in the design of the module the possibility of filling inside the compound.

This goal is achieved by the fact that the module contains a printed circuit board (PP) with electro-radio elements, heat-generating electro-radio elements (TER), a base and a cover, grounding pins, insulating sleeves and a heat-conducting insulating gasket, and the TERs are installed through a heat-conducting insulating gasket on the base, which serves as a heat-emitting radiator , insulating sleeves are installed between the PP and the base and have vertical axial holes for tightening the PP, the cover and the base, for large TERs, not according to moving under the PP, in the latter, the corresponding profile holes are cut out, the base and the cover are a U-shaped profile, with the side walls orthogonal to the horizontal plane of the base wall located along the length of the module, and the covers along the width of the module and in the assembled state of the module the first are oriented upwards, and the second - down, while the length of the cover, excluding the corner ears, is shorter than the base length by so much that the input contacts located on the PC on one side remain open on both sides along the length of the module, and on the other, they exit nye, TERE have individual clamps to the base.

The technical result consists in creating the design of the module, which allows to fill the compound inside it and thereby increase its reliability.

Figures 1 and 2 respectively show sketches of a front view and a top view of a module.

The module contains a printed circuit board (PP) 1, radio electronic elements (ERE) 2 mounted on the PP, the first 3, and second 4 heat-generating ERE (TERE), a metal housing 5 with a base 6 having a front 7 and rear 8 side walls, and a cover 9 having left 10 and right 11 side walls, grounding pins 12, insulating sleeves 13, heat-conducting insulating gasket 14, input 15 and output 16 contacts, first 17 and second 18 individual TERE clamps, holes 19 for filling the compound, hole 20 for exiting TERE, ears 21 for attaching the cover and elements 22 st bending fasteners PP, covers and bases, holes 23 are designed to install the module in other more complex equipment.

TERE 3 and 4 are installed through a heat-conducting insulating gasket 14 on the base 6, and insulating sleeves 13 are installed between the PP 1 and the base 6 and have vertical axial holes for tightening the fastening 22 PP 1, the cover 9 and the base 6. Side walls 7 and 8 P- the shaped base 6 are located along the length of the module, and the side walls 10 and 11 of the U-shaped cover 9 are located along the width of the module. The holes 19 for filling the compound are located on the side surface 7.

In the framework of the application under consideration, the types of ERE 2, TERE 3.4 and their electrical connection scheme do not matter. It is only important to note that all TEREs (transformers, power transistors and diodes, etc.) are installed through a heat-conducting insulation strip 14 on the basis of 6.

The module works as follows.

At the first stage of production, a base 6 of the U-shaped profile is made with the front 7 and rear 8 orthogonal side walls, and they are also installed PP 1 by installing ERE 2 on it, and then the first type module is installed, installing on the base 6 through the heat-conducting insulation strip 14 TERE 3, 4 using individual clamps 17 and 18, after which they are installed on bushings 13 of PP 1 with cutouts for TER 3, 4. The first stage of production is completed by screwing together the tightening fastener 22, grounding pins 12 and the wiring of the TER 3, 4 connections with PP1.

At the same time, at the first stage, a cover 9 of the U-shaped profile is made with the left 10 and right 11 lateral orthogonal walls (FIGS. 1, 2), the length of which, without taking into account the corner ears 21, is shorter than the length of the base 6 so that they remain on both sides along the length of the module located on the left side of the input contacts are open input contacts

15, and on the right — output contacts 16 (FIG. 2).

Then, in the second stage, additionally under the same tightening fastener 22, the ears 21 of the cover 9 are brought in and the compound is poured through the hole 19.

Checking the functioning of the module (also ensuring its operation in more complex equipment) is carried out by connecting to its inputs 15 input voltage (for example, 50 Hz, 220 V and ground) and connecting to its outputs 16 the corresponding load of the corresponding ratings (for example, ± 6 V, ± 9 in and ± 27 in).

Claims (3)

1. A module for the manufacture of electrical products, containing a printed circuit board (PP) with electrical elements, heat generating electrical elements (TERE), a base and a cover, grounding pins, insulating sleeves and a thermally conductive insulating gasket, and the thermocouple is installed through a heat-conducting insulating gasket on the base that performs the function of heat-emitting radiator, insulating sleeves are installed between the PCB and the base and have vertical axial holes for tightening the PCB, cover and base, while the length of the lid is shorter than the length of the base by so much that the input contacts located on the PC on one side remain open on both sides of the module along the length of the module, and on the other the output, TERE have individual clamps to the base, characterized in that the base and cover are made U-shaped, moreover, the side walls of the base are located along the length of the module, and the covers are located along the width of the module, and the first ones are oriented upward, and the second ones downward. 2. The module according to claim 1, characterized in that on one of the lateral orthogonal walls of the base there are through holes for pouring the compound into the inside of the housing. 3. The module according to claim 1, characterized in that the lid has openings for outgoing TEREs whose height exceeds the height of the module.