RU200762U1 - DEVICE FOR MUTUAL POSITIONING OF MICROWAVE LAYOUT ELEMENTS - Google Patents

Abstract

The utility model relates to tools for the development and prototyping of microwave devices made on a multilayer printed circuit board. The technical result of the claimed device is to increase the stability of electromagnetic characteristics when prototyping microwave elements by increasing the positioning accuracy of the device elements during assembly. The essence of the utility model lies in the fact that the device for mutual positioning of microwave breadboard elements made on a multilayer printed circuit board contains a base made in the form of a metal plate with an array of threaded through holes made with a given pitch. The microwave modules are fixed on the base to ensure a predetermined orientation of their position relative to the base, as well as to one another. According to the utility model, the device contains screws with an axial protrusion screwed into the threaded holes of the base from the side opposite to the location of the microwave modules with the possibility of placing the protrusions in the mating holes of the microwave modules to set their position relative to the plate. Microwave modules are equipped with centering pins entering the mating holes of the coplanar jumper connecting adjacent microwave modules, and also equipped with dowel pins entering the mating holes of the case, which is installed on each microwave module and presses the microwave module and coplanar jumper to the base with fixing screws screwed into the threaded holes in the base. 1 wp f-ly, 4 dwg

Description

This utility model relates to tools for the development and prototyping of microwave devices made on a multilayer printed circuit board.

A quick-disassembling device for prototyping microwave devices is known - X-Microwave, which includes microwave modules, elements for transmitting microwave signals between modules, connectors for microwave signals, a shielding system, a common base on which all the elements of the layout are attached (US20160134067A1, publ., 05/12/2016).

The disadvantages of the known device are the instability of the electromagnetic characteristics of the layout due to the low positioning accuracy of the device elements during assembly.

The technical problem to be solved by the claimed technical solution is to ensure consistently high electromagnetic parameters of detachable microwave connections when assembling a model with a significant improvement in ergonomics when assembling a model by the user.

The technical result of the claimed device is to increase the stability of electromagnetic characteristics when prototyping microwave elements by increasing the positioning accuracy of the device elements during assembly.

The problem is solved, and the technical result is achieved by the fact that the device for mutual positioning of microwave breadboard elements made on a multilayer printed circuit board contains a base made in the form of a metal plate with an array of threaded through holes made with a given pitch and microwave modules fixed on the base ensuring a predetermined orientation of its position relative to the base, and also relative to one another, while, according to the utility model, the device contains screws with an axial protrusion, screwed into the threaded holes of the base from the side opposite to the location of the microwave modules with the possibility of placing protrusions in the corresponding microwave holes -modules to set their position relative to the plate, microwave modules are equipped with centering pins entering the mating holes of the coplanar jumper connecting adjacent microwave modules, and are also equipped with mounting pins entering the mating holes of the housing installed on each microwave module and pressing the microwave module and the coplanar jumper to the base using mounting screws screwed into the threaded holes of the base. The device can be equipped with clamping inserts installed on the centering pins and additionally pressing the coplanar jumper to the microwave modules.

The utility model is illustrated with the help of drawings, which show the device at various stages of assembly.

FIG. 1 shows the described device after installation on the base of microwave modules;

FIG. 2 - the same, after installing the coplanar jumper;

FIG. 3 - the same, after installing the clamping inserts;

FIG. 4 - the same, after installing the enclosures.

The described device contains microwave modules 1, installed on a common base 2, made in the form of a metal plate with an array of threaded through holes 3 made with a given pitch. The microwave modules 1 are fixed on the base 2 with the provision of a given orientation of their position relative to it. In this case, the mutual orientation of one microwave module 1 relative to another microwave module 1 is also provided. The device also contains screws 4 with an axial protrusion 5 screwed into the threaded holes 3 from the side opposite to the location of the microwave modules 1 with the possibility of placing the protrusions 5 in the reciprocal holes of the microwave modules 1 to set their position relative to the plate 2. The microwave modules 1 are equipped with centering pins 6 entering the mating holes of the coplanar jumper 7, connecting adjacent microwave modules 1. The microwave modules 1 are also equipped with dowel pins 8 included in the reciprocal holes in the housing 9, installed on each microwave module 1 and pressing the microwave module 1 and coplanar jumper-jumper 7 (hereinafter referred to as "jumper") to the base 2 using fastening screws 10 screwed into the threaded holes 3.

The device can also be equipped with clamping inserts 11 installed on the centering pins 6 and additionally pressing the coplanar jumper 7 to the microwave modules 1.

The device is used as follows. Preliminary microwave modules 1 are positioned in the desired position with screws 4 having guide projections 5, which enter the mating holes of the microwave modules 1. Thus, the preliminary orientation of the microwave modules 1 on the base 2. A coplanar jumper 7 is installed on the positioned microwave modules 1 In this case, the exact orientation of the jumper 7 relative to the microwave modules 1 and the base 2 is carried out due to the coincidence of the holes of the jumper 7 with the centering pins 6, which are located on the microwave modules 1. Pressing inserts 11 can be installed on the same pins 6, creating the necessary clamp jumpers 7 to microwave modules 1 to ensure reliable contact.

Then, on the assembled structure, the housing 9 is installed, the holes of which are oriented coaxially with the dowel pins 8 located on the microwave modules 1. Thus, the accuracy of the installation of the housing 9 relative to the microwave module 1 and, accordingly, relative to the base 2. The housing 9 is installed on each Microwave module 1 and during installation it presses the microwave module 1 and the coplanar jumper 7 to the base 2 with the help of fastening screws 10, which are screwed into the threaded holes 3 of the base 2. During assembly, the required rigidity of the structure is also provided by pressing the case 9 with screws 10.

In the described device, all parts of the breadboard that are critical to the quality of the microwave signal transmission are precisely positioned relative to each other using pins 6 and 8 entering the corresponding holes. These holes, as well as the holes in which the pins 6 and 8 are located, are made in a single technological process, as the topology of microwave elements, which is responsible for the transmission of electromagnetic energy. Due to this, stable positioning accuracy is achieved during the assembly of the model, as well as during its manufacture. The achieved accuracy and stability of the electromagnetic characteristics of the breadboard is not available with "manual" positioning, which strongly depends on the "human" factor.

Thus, the use of the claimed utility model makes it possible to increase the stability of electromagnetic characteristics when prototyping microwave elements by increasing the positioning accuracy of the device elements during assembly. This improves the repeatability of the electromagnetic characteristics of the layout and their predictability, and also provides a significant improvement in ergonomics when assembling the layout by the user.

Claims (2)

1. A device for mutual positioning of microwave breadboard elements, made on a multilayer printed circuit board, containing a base made in the form of a metal plate with an array of through-threaded holes made with a given pitch and microwave modules fixed on the base to ensure a given orientation of their position relative to the base , and also relative to each other, characterized in that it contains screws with an axial protrusion screwed into the threaded holes of the base from the side opposite to the location of the microwave modules with the possibility of placing protrusions in the mating holes of the microwave modules to set their position relative to the plate, microwave the modules are equipped with centering pins entering the mating holes of the coplanar jumper connecting adjacent microwave modules, and also equipped with mounting pins entering the mating holes of the housing installed on each microwave module and pressing the microwave module and coplanar jumper to the base using fixing screws to be screwed into the threaded holes of the base. 2. The device according to claim 1, characterized in that it is provided with clamping inserts installed on the centering pins and additionally pressing the coplanar jumper to the microwave modules.

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