RU2396651C2 - Electric connector with interference suppression filters - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: electric connector includes interference suppression filters, built-up housing and earthing plate. In internal area of the housing part in which there arranged is earthing plate there is the stop made owing to decreasing inner sizes of housing which are less than external sizes of earthing plate, on which there installed and soldered to the housing along the whole outline is earthing plate. In tail portion of filter there has been formed a shoulder between which and the tail portion there is a thinning with cross section which is less than cross section of tail portion. Thinning is made in the form of two-sided groove whereto a slot of combed insulator enters. On tail portions of filters there put on is insulator positioning the filter tail portions. Parts of built-up housing of connector are combined with each other by means of threaded and soldered connections. Filling-and-drain holes for the compound filling are located in the plane passing between the plane of location of tail portions ends of contact pins of connector plug and plane of location of soldering point of interference suppression element to the pin part of the filter. For soldering the filter pin to tail portion on contact pin, filter housing to earthing plate, parts of connector housing to each other, earthing plate to connector housing there have been used solder metals with soldering temperature which is less than soldering temperature of solder metal used for soldering interference suppression element to filter pin.

EFFECT: improving electrical parametres, reliability and operating characteristics.

11 cl, 2 dwg

Description

The invention relates to electrical connectors with integrated noise suppression filters, designed for mechanical and electrical connection of DC and AC circuits. As a result of the use of an electrical connector plug with integrated noise suppression filters in industrial products, including electrical and radio equipment, reliable connection of electrical circuits and increased noise immunity of the equipment to electromagnetic and conductive interference, as well as elimination of information leakage channels due to attenuation of the level, are ensured. spurious emissions of equipment.

A well-known analogue that is most similar to the claimed invention in terms of the claimed features is a connector with integrated low-pass filters (Patent of the Russian Federation for invention No. 2321115 "Electrical connector with integrated low-pass filters"). A well-known analogue is characterized by the following set of features, similar to the set of essential features of the invention:

- the contact pins of the connector plug are reinforced into the insulator;

- an interference suppression filter is applied, comprising a cylindrical interference suppression element and having three leads — a pin, a shank, a common electrode located on the outer cylindrical surface of the interference suppression element;

- an electrically conductive plate grounding common electrode electrodes is applied;

- applied composite connector housing, consisting of several parts;

- a contact pin of the plug with an anti-interference filter, an anti-interference filter with a grounding plate, a grounding plate with a housing, parts of the housing are electrically and mechanically connected by soldering;

- the inner space of the connector is filled with a compound through the drainage and filling holes.

However, the existing connector analog has the following disadvantages:

- when soldering the outer wires to the shanks of the built-in filters due to the small temperature resistance between the soldering point of the outer wire and the soldering point of the noise suppressing element to the filter pin, excessive heating of the soldering point of the noise suppression element occurs, leading to a violation of the ceramic integrity of the noise suppression element and the filter as a whole;

- the analog design does not guarantee the unidirectional position of the filter shanks and the location of the ends of the filter shanks in the same plane, which leads to a turn and recession of the shanks relative to each other during the assembly of the connector, making it difficult to solder the external conductors into the filter shanks;

- the analog design does not exclude the formation of parasitic solder balls in the closed volume of the connector (between the plug contact pin insulator and the filter grounding plate) during soldering of filters with solder pastes, leading to deterioration of the electrical and operational characteristics of the connector;

- the analog design does not exclude, during group soldering of filters to the grounding plate, the flow of flux and solder in the gap between the grounding plate and the outer lining of the noise suppression element of the filter, which does not solder the noise suppression element to the ground plate over the entire circuit and affects the electrical parameters of the connector;

- the analog design does not exclude, when soldering the ground plate to the body of the connector, the flow of flux and solder in the gap between the ground plate and the body, which does not solder the ground plate to the body throughout the circuit and degrades the electrical parameters of the connector;

- the design of the composite housing of the analog connector, the parts of which are joined by soldering, has insufficient mechanical strength, which leads to cracks in the soldered joint and the deterioration of performance;

- the design of the analogue connector, the closed volume of which (between the plug contact pin insulator and the filter grounding plate) is completely filled with the compound, does not guarantee the integrity of the noise suppressing filter element in the range of permissible operating, storage and transportation temperatures due to the significant volume expansion of the casting compound.

Figure 1 shows the construction of a known electrical connector with built-in low-pass filters (Patent of the Russian Federation for the invention No. 2321115 "Electrical connector with built-in low-pass filters").

The electrical connector contains:

1 - compound poured through holes 14 (left filling zone relative to the grounding separator 9);

2 - filter shell, which is a continuation of the housing 6;

4 - front retaining element of the contact pins 7 - insulator;

6 - conductive shell (housing) with a connecting flange;

7 - contact pin;

9 - grounding separator installed on each filter contact and having electrical contact with it by soldering;

10 - filter mounted on the contact pin 13;

11 - the place of soldering the docking of the housing 6 (generatrix) with the filter sheath 2;

12 - the tail of the contact pin 7, having an inner hole for installation in it by soldering the pin 13 with the filter 10;

13 - pin (filter contact);

14 - filling and drainage holes for the compound (along the perimeter of the housing) in the left part relative to the grounding separator 9;

15 - holes around the perimeter of the housing and the soldering of the grounding separator 9 to the housing 2;

16 - soldering places of the filter housing 10 with a grounding separator 9;

17 - soldering places of the filter housing 10 with the generatrix surface of the contact pin 13;

18 - contact sockets of the tail of the pins 13 (for mounting current-carrying conductors);

19 is a compound poured into the filter shell from the side of the tail of the connector.

As can be seen from figure 1 of the known electrical connector:

- the distance from the shank 18 to the nearest soldering point of the noise suppression element 17 is not fixed by the filter design and, as a rule, the noise suppression element is positioned at the transition point of the shank (larger diameter) to the pin part of the filter (smaller diameter), which when soldering external wires to the shanks of the built-in filters due to the small temperature resistance between the soldering point of the external wire and the soldering point of the noise suppressing element to the filter pin, it leads to excessive heating of the noise suppression soldering point its element and, as a consequence, the integrity of the ceramic member and the disturbance suppression filter as a whole;

- the design of the filter 10 does not provide for fixing its shanks 18 in the direction of cutting the shanks and the location of the ends of the shanks in the same plane, which leads in the process of group soldering with the help of solder pastes of the filters 10 to the tail part 12 and the ground plate (separator) 9 to turn and drown filter shanks relative to each other and, as a consequence, to the complication of soldering external conductors to them;

- its design does not exclude during group soldering in a convection oven using solder paste pastes (filter contact) 13 into the tail part 12; capture of solder pastes by convection currents of air and distributing them throughout the entire closed volume of the connector (between the contact pin insulator 4 and the ground plate 9) and their deposition on structural elements, which leads to deterioration of electrical parameters (insulation resistance, insulation strength) and reliability characteristics of the connector;

- its design does not exclude during group soldering using solder pastes of the filters 10 to the grounding plate 9 that the flux and solder flow in the gap between the grounding plate and the outer lining of the noise suppression element of the filter 16 and, as a result, does not solder the noise suppression element to the ground plate over the entire circuit and degrades the electrical parameters of the connector (insertion loss);

- its design does not exclude the soldering of the grounding plate to the casing of the connector for the flow of flux and solder in the gap between the grounding plate 9 and the casing (shell) 2 and, as a result, does not solder the grounding plate to the casing along the entire circuit and affects the electrical parameters of the connector (introduced attenuation);

- the design of its composite body, parts 2, 6 of which are combined by soldering 11, has insufficient mechanical strength, which leads to cracks in the soldered seam during operation at elevated temperatures, as a result, a leak in the seal and deterioration of the operational characteristics of the connector;

- its design provides for the complete filling by compound 1 of a closed volume (between the insulator 4 contact pins of the plug and the grounding plate 9) through the filling and drainage holes 14, which due to significant differences in the coefficients of linear expansion of compound 1 and the materials of the body parts 2, 6 leads to significant mechanical loads on the ceramic casing of the noise suppressing filter element 10 and, as a result, to the violation of the integrity of the noise suppressing filter element in the range of permissible operating temperatures, xp neniya and transportation.

The known method is an analogue of the assembly of elements and parts of the electrical connector with integrated noise suppression filters, the most similar in the totality of the claimed features to the claimed invention - Patent of the Russian Federation for invention No. 2321115 "Electrical connector with integrated low-pass filters." The known analogue method is characterized by the following set of features, similar to the set of essential features of the invention.

The known analogue method contains soldering operations:

- anti-interference element to the filter pin;

- a filter pin to the tail of the contact pin;

- filter housings to the grounding plate;

- parts of the body of the connector to each other;

- a grounding plate to the connector body.

However, the existing method-analogue of the assembly of elements and parts of the electrical connector with integrated noise suppression filters has the following drawback - multiple temperature effects on the noise suppression filter element, each of which reduces the reliability of the connector as a whole.

The known analogue method contains five sequential soldering operations:

1 - anti-interference element to the filter pin;

2 - filter pin to the tail of the contact pin;

3 - filter housing to the grounding plate;

4 - parts of the body of the connector to each other;

5 - grounding plate to the connector body.

The invention consists in a combination of distinctive features sufficient to achieve the desired technical result, namely, improving electrical parameters, reliability and operational characteristics of the electrical connector with noise suppression filters.

This goal is achieved by the fact that

- a collar is formed in the filter tail section, and a thinning is created between the collar and the shank with a cross-sectional area less than the maximum cross-sectional area of the shank;

- thinning in the tail of the filter, between the shoulder and the shank, is made in the form of a cylinder, truncated parallel to both sides along the cylindrical part, and inserted into the groove of the comb insulator having grooves and teeth, and a filter insulator positioning the shanks is put on;

- an insulator with a through hole of variable diameter is put on the shanks of the contact pin;

- a tube (washer) is put on the interference suppression filter pin, moving with friction along the axis of the pin;

- an insulating elastic pad with through holes having a diameter smaller than the outer diameter of the filter suppressing element is fixed to the ground plate;

- inside the part of the connector housing in which the ground plate is placed, an annular stop is made for it around the entire inner perimeter, to which it is pressed by the retaining ring;

- parts of the composite housing of the connector are interconnected by a threaded connection;

- filling and drainage holes for filling the compound are located in a plane extending between the plane of location of the ends of the shanks of the contact pins of the connector plug and the plane of the location of the soldering of the interference suppression element to the pin part of the filter;

- the soldering of the filter pin to the tail of the contact pin, the filter housing to the grounding plate, the parts of the connector body to each other, the grounding plate to the connector body is performed by one operation of soldering the solder with a melting point lower than the melting temperature of the solder used to solder the noise suppressing element to the filter pin.

The device of the known connector-analogue and invention is shown in figures 1, 2.

Figure 1 presents a simplified design of the closest analog connector with filters using a composite contact pin of two shortened parts of a soldered-monolithic structure having a composite housing.

Figure 2 presents a drawing of a simplified construction of the claimed invention, containing an insulator on the shanks of the contact pins, tubes (washers) on the filter pins, collar and thinning, comb and positioning insulators in the tail of the filters, stop and retaining ring for the ground plate, elastic gasket, fixed on the ground plate, threaded connection of parts of the connector body, filling and drainage holes for filling the compound, located in a plane passing between the plane of the windows shanks of the contact pins of the plug of the connector and the plane of the location of the soldering noise suppressing element to the pin of the filter.

As can be seen from the simplified design drawing of the claimed invention shown in FIG. 2, a composite contact is used in the connector, consisting of a contact pin 6, reinforced in a plastic or glass insulator 4, and an interference suppression filter 13 connected to the contact pin by a soldered connection. In this case, the noise suppression filter 13 consists of a tubular ceramic noise suppression element, the internal electrodes of which are connected to the pin on both sides by soldering, and the third external terminal is electrically connected by soldering to the ground plate 22. The ground plate 22 makes contact between the third terminals of the tubular noise suppression filters and the connector housing 2 using a solder joint. The solder points of the filters and the shanks of the contact pins are closed by the insulator mounted on the shanks of 8 contact pins 6 with through-holes of variable cross-section 25 and tubes (washers) 24, worn on the filter pins 9. The grounding plate 22 is connected to the elastic gasket from the side of the plug with contact pins 6 11, having through holes for interference suppression filters 13. The array of assembled filters 13 is closed by a cylindrical body 2 with an annular stop 23, which is connected to the ground plate by soldering and with the plug body - threaded 7 and soldered 3 connections. A locking ring 12 is located on top of the ground plate. The volume of the soldered joints of the contact pins 9 and the filters 13 is filled with the compound 1 through the filler holes 10 of the cylindrical body 2. The filter shanks 16 having two-sided grooves 15 are inserted into the grooves of the comb insulator 17 having grooves and teeth. On top of the comb insulator 15 is placed positioning shanks of the insulator 18.

The electrical connector contains:

1 - compound poured through drainage and filling holes 10;

2 - filter shell (cylindrical part of the connector housing);

3 - circumference of the parts of the connector housing;

4 - an insulator fixing the contact pins of the connector;

5 - a case with a flange of a connector plug;

6 - contact pin;

7 - threaded connection of the parts of the connector body;

8 - shank of the contact pin with a soldering cup;

9 - filter pin 13;

10 - drainage and filling holes;

11 - elastic gasket;

12 - a lock ring;

13 - filter (filter contact) with a noise suppressing element;

14 - shoulder in the filter shank 13;

15 - thinning (two-sided groove) in the shank of the filter 13;

16 - filter shank 13;

17 - comb insulator;

18 - an insulator positioning the shanks of the filter 13;

19 - the plane of the location of the ends of the shanks of the filters 13;

20 - compound sealing the outer volume of the connector;

21 - the place of soldering the filtering cylindrical element of the noise suppression filter to the shoulder 14;

22 - grounding plate;

23 - an annular emphasis for installation of the grounding plate 22;

24 - an insulating tube (washer);

25 - insulator with a through hole of variable cross-section.

As can be seen from figure 2:

- a collar 14 is formed in the tail part 16 of the filter 13 for unambiguous positioning of the noise suppressing filter element during soldering, and a thinning 15 is created between the shoulder and the shank with a cross section smaller than the shank section, which provides an increase in thermal resistance between the soldering point of the outer wire into the shank 16 and the place of soldering the noise suppression element to the flange 14 of the filter, which leads to a decrease in temperature at the place of soldering of the noise suppressing element, to preserve the integrity of its ceramics and the filter as a whole;

- the thinning 15 is made in the form of a two-sided groove that fits into the groove of the comb insulator 17, such a fit on the one hand prevents the filter 13 from turning around the axis of the pin 9 of the filter 13 in the process of group soldering, while preserving the originally set cutting direction of the shank 16 of the filter 13, on the other hand the emphasis of the boundaries of thinning in the plane of the comb insulator 14 provides the location of the ends of the shanks 16 of the filters 13 in one plane 19, which provides good access to the soldering point of the external conductors and eliminates damage Nia insulation during soldering;

- on the shanks 8 of the contact pin 6, an insulator 25 is put on with a through hole having a diameter equal to the diameter of the shank 8 of the contact pin 6 in the donned part, in the middle part a diameter smaller than the diameter of the shank 8 of the contact pin, but more than the diameter of the pin 9 of the filter 13, and on the installation side of the pin 9 in the shank 8 of the contact pin 9 has a conical entry; a tube (washer) 24 is put on the pin 9 of the filter 13, moving with friction along the axis of the pin 9 of the filter 13 when it is upset in the blind solder hole of the shank 8 of the contact pin 6 during the assembly of the connector; as a result of the proposed design, the solder paste deposited in the blind solder hole of the shank of the contact pin is in a closed chamber formed by the shank 8 of the contact pin 6, insulator 25 and washer 24, which eliminates the capture of solder paste solder balls by convection flows of air and their spacing over the closed volume of the connector ( between the insulator of the contact pins 4 and the grounding plate 22) and their deposition on the structural elements and ensures the safety of electrical parameters (insulation resistance, strength ty insulation) and reliability characteristics of the connector;

- an insulating elastic gasket 11 is fixed to the grounding plate 22 with through holes having a diameter smaller than the diameter of the noise suppressing filter element 13, and centers coinciding with the centers of the holes of the grounding plate 22, due to the tight girth of the filtering interference suppression element by the elastic gasket around the entire perimeter, is excluded during group soldering filters to the grounding plate the flow of flux and solder in the gap between the grounding plate and the outer lining of the noise suppressing filter element, which g ensures the soldering of the noise suppressing element to the grounding plate along the entire circuit and preservation of the electrical parameters of the connector;

- in the part of the connector body 2, in which the interference suppression filters 13 are placed, at the location of the grounding plate 22, an annular stop 23 is made around the entire inner perimeter, on which the grounding plate 22 is laid, which is locked around the perimeter by a retaining ring 12 of conductive material; the introduction of the stop prevents the flow of flux and solder along the body 2 due to the overlap of the cracks between the body 2 and the grounding plate 22, and the introduction of the retaining ring 12 eliminates the movement of the grounding plate 22 along the body when installing filters 13 during assembly before group soldering; the introduction of the stop 23 and the locking ring 12 ensures the soldering of the ground plate 22 to the housing 2 along the entire circuit, improving the electrical parameters (introduced attenuation) of the connector;

- parts 2, 5 of the composite housing of the connector are connected by a threaded connection 7 and soldering 3; a threaded connection provides the mechanical strength of the composite housing of the connector, and soldering guarantees minimal electrical resistance between parts 2, 5 of the composite housing of the connector, thereby eliminating cracks in the soldered joint during operation at elevated temperatures, the tightness of the connector is maintained, and thus improving its performance;

- filling and drainage holes 10 for filling compound 1 are located on a part of the connector body 2 in a plane extending between the plane of the ends of the shanks 8 of the contact pins 6 of the connector plug and the plane of the soldering position of the interference suppression elements to the pin part 9 of the filter 13; as a result, when the connector is vertically positioned (with the plug down) during pouring of the compound 1 through one of the drainage and filling holes 10, the compound will fill the lower part of the closed volume of the connector to the level of the location of the filling and drainage holes 10, leaving the ceramics of the noise suppressing filter element not flooded , which eliminates the pressure of the compound on the ceramic of the capacitor when it expands at elevated temperatures of operation, storage and transportation, eliminates the destruction of noise suppressing elements c, increase the reliability of the connector as a whole.

The connector assembly method is as follows.

- An interference suppressing element is installed on the pin 9 of the filter 13 and fixed by soldering (first soldering operation) with a solder with a melting temperature higher than the melting point of the solder included in the solder paste used in the subsequent soldering operation, which ensures the mechanical strength of the filters 13 during the second soldering operation.

- On the pin part 9 of the filter 13 put on the tube 24.

- On the outer surface of the cylindrical part of the noise suppression filter 13 in the place of soldering to the grounding plate 22 is applied around the entire circumference of the solder paste.

- The shank 16 of the filter with the applied paste is inserted into the hole of the insulator 18 with the direction of cut of the shank in a given direction.

- The previous operation is carried out with all filters included in the connector assembly.

- In the shanks of the filters at the location of the grooves 15 insert a comb insulator 17.

- The elastic gasket 11 is connected to the grounding plate 22, while ensuring the coincidence of the centers of the holes of the gasket 11 and the grounding plate 22.

- The resulting assembly of the elastic strip 11 and the ground plate 22 is installed on the inner stop of the cylindrical body of the connector 23 and is pressed against the stop by the locking ring 12.

- Around the circumference of the grounding plate 22 in the place of soldering it with the body is applied solder paste.

- Solder paste is applied to the shanks of 8 contact pins 6 of the connector plug, then an insulator with through holes of variable cross section 25 is put on the shanks.

- Solder paste is applied to the end of the housing 5 of the connector plug throughout the circumference.

- Solder paste around the entire perimeter is also applied to the cylindrical body of the connector 2 at its interface with the end of the plug body 5;

- Both with the applied solder paste, the parts of the common connector housing are connected by a threaded connection 7.

- The ground plate 22 is oriented so that the centers of the holes of the ground plate 22 coincide with the centers of the solder cups of the contact pins 6.

- Filters 13 assembled on the comb insulator 17 are inserted with pin parts into the holes of the elastic gasket 11 and pressed to the conical part of the hole of the insulator 25, worn on the shanks of 8 contact pins 6, and then until the pin parts of the filters enter the holes of the solder cups of the shanks 8 contact pins 6 of the plug connector.

- The assembled connector is placed in a thermal furnace and heated according to the thermal profile set for the used solder paste (second soldering operation).

- Fill the internal volume of the connector with compound 1 through the fill-drainage holes 10 until the compound exits in the drainage holes, then fill the external volume of the connector with compound 20.

The proposed approach to the creation of electrical connectors with noise suppressing elements and the method of its assembly allows you to organize industrial serial production of high-tech products of high quality, with improved electrical parameters, reliability and performance.

Claims (11)

1. An electrical connector comprising noise suppression filters, a composite housing, a grounding plate, characterized in that an emphasis is made in the inner region of the housing part in which the grounding plate is placed, made by reducing the internal dimensions of the housing less than the external dimensions of the grounding plate on which it is mounted and a ground plate is soldered to the body along the entire circuit. 2. The electrical connector according to claim 1, characterized in that the ground plate is pressed against the stop by a circlip of conductive material. 3. The electrical connector according to claim 1, characterized in that an elastic gasket is fixed to the ground plate with through holes having diameters smaller than the diameter of the cylindrical part of the noise suppression filter in the place of soldering it to the ground plate. 4. The electrical connector according to claim 1, characterized in that the parts of the composite housing of the connector are interconnected by threaded and soldered joints. 5. The electrical connector according to claim 1, characterized in that it contains interference suppression filters having one pin-shaped terminal, a second in the shape of a shank and a third on the outer cylindrical surface of the filters, there is a collar in the filter tail section, and made between the collar and the shank thinning with a cross-sectional area of less than the maximum cross-sectional area of the shank. 6. The electrical connector according to claim 5, characterized in that the thinning is truncated in parallel on both sides along the cylindrical part of the cylinder and inserted into the groove of a comb insulator having grooves and teeth. 7. The electrical connector according to claim 6, characterized in that the filter shanks are inserted into the holes of the positioning insulator. 8. An electrical connector comprising interference suppression filters and contact pins reinforced in insulators, characterized in that an insulator with a through hole having an inner diameter on the shank side of the contact pin larger than the shank diameter in the middle portion is smaller than the shank diameter is put on the shank of the contact pin and from the side opposite the shanks having a conical approach. 9. The electrical connector of claim 8, characterized in that the tube (washer) sliding along the friction pin is worn on the pin portion of the interference suppression filter. 10. The electrical connector according to claim 8, characterized in that the filling and drainage holes in the connector housing for filling the compound are located in a plane extending between the plane of location of the ends of the shanks of the contact pins of the connector and the plane of the location of the soldering of the interference suppression element to the pin part of the filter. 11. The electrical connector according to claim 1, characterized in that the interference suppression element of the interference suppression filter is connected to the interference suppression filter pin with a melting point higher than the melting temperature of the solder connecting the filter pin to the tail of the contact pin, the filter housing with a ground plate, parts the body of the connector to each other, a grounding plate with the body of the connector.

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