KR102271737B1 - Connector formed integrally with rf filter and manufacturing the same - Google Patents

Abstract

An RF filter-integrated connector (100) includes: a storage part (12) integrated with an RF filter housing (10), and including a through part comprising a large-diameter part and a small-diameter part; a center conductor (20) having a front part formed as a socket (22) and a rear part formed as a pin (24), and placed in the center of the through part of the storage part (12); and an insulator (30) having a hollow hole therein and placed on the circumference of the pin (24) of the center conductor. The pin (24) of the center conductor is pressed into the hollow hole of the insulator (30), and an assembly (60) of the center conductor (20) of the insulator (30) is pressed into the small diameter part (13) of the storage part (12). Therefore, the present invention is capable of improving the stability of product quality.

Description

RF filter integrated connector and manufacturing method thereof

The present invention relates to a connector integrally formed with an RF filter and a method for manufacturing the same, and more particularly, to a housing of an RF filter in which a portion corresponding to the body of the connector is integrally formed, and connector parts are inserted and assembled It relates to an integrated RF filter connector and a manufacturing method thereof.

The RF filter performs the function of passing only the frequency of a desired band among input frequency components and attenuating the remaining frequencies. A wide variety of types have been developed, and in general, a plurality of cavities are formed inside the filter. An RF cavity filter (hereinafter, referred to as an 'RF filter') is widely used. The pass frequency band of the RF filter is determined by inductance and capacitance of the filter.

1 is a plan view showing the internal configuration of a typical RF cavity filter disclosed in Korean Patent Publication No. 10-1083994. The general RF cavity filter shown in FIG. 1 is defined by an input connector, an output connector, a housing, and a partition wall. a plurality of cavities formed therein, and a plurality of resonators accommodated in each cavity. Figure 2 shows a conventional RF filter disclosed in Patent Publication No. 10-2010-0102378, as shown in Figure 2, the conventional conventional RF filter has a housing having a plurality of cavities therein is opened upward. The open upper part of the housing is sealed by a cover plate, and the cover plate is provided with one or more screw rods for tuning the frequency input to the RF filter. Capacitance inside the cavity can be adjusted by adjusting the depth at which the lower end of the screw rod provided in the cover plate is inserted into the cavity of the housing. In the RF filter shown in FIGS. 1 and 2 , an input connector and an output connector are coupled to a sidewall of the filter housing. In this case, since the connector is coupled to the RF filter housing by means of a fastening means, the number of assembly parts increases, and the assembly process is complicated, resulting in decreased productivity, and the connector protrudes outside the RF filter housing and interferes with other parts nearby. there is

On the other hand, as shown in FIG. 3, by forming the connector inserting part 2 on one side of the RF filter housing 1, and inserting the connector 3 into the connector inserting part 2 of the RF filter housing, the connector is A technique is used to prevent the RF filter housing from protruding outward. For example, as shown in FIG. 4 , the connector may be press-fitted into the connector insertion part of the RF filter housing so that the body except for the head of the connector may be inserted into the connector insertion part.

However, when the connector is press-fitted into the RF filter housing, as shown in FIG. 5 , a lifting phenomenon may occur between the contact parts in a minute section. In this case, a minute unstable contact section is formed, which increases factors that may adversely affect the intermodulation signal PIMD. In addition, when mis-insertion occurs, such as when the connector is inserted obliquely into the connector insertion part of the RF filter housing, alignment with other electronic device(s) or other board(s) coupled to the connector of the RF filter is misaligned There may be errors in the electrical connection between them. In addition, if another electronic device or board is connected to the RF filter connector in an improperly aligned state, the connector and/or electronic device may be substantially damaged.

The present invention is to solve the above problems, and an object of the present invention is to integrally form a part corresponding to the body of the connector in the housing of the RF filter and insert and assemble the connector parts, thereby reducing the number of parts and simplifying the assembly process. An object of the present invention is to provide an RF filter-integrated connector capable of improving the quality of the RF filter connector by simplifying and improving the assembly of the connector, and a method for manufacturing the same. However, these problems are exemplary, and the scope of the present invention is not limited thereto.

According to an embodiment of the present invention for achieving the above object, the RF filter integrated connector is integrally formed with the RF filter housing, and has a conical inclined surface converging inward in the front, and a large diameter part at the rear of the inclined surface and a accommodating part having a penetrating part made of a small diameter part; a central conductor having a front portion formed of a socket and a rear portion formed of a pin, and disposed in the center of the penetrating portion of the receiving portion; and an insulator having a hollow hole therein and disposed around the pin of the central conductor, wherein the pin of the central conductor is press-fitted into the hollow hole of the insulator, and the assembly of the insulator and the central conductor is a material of the accommodating part It can be press-fitted into the cervix.

In the RF filter-integrated connector according to an embodiment of the present invention, the outer diameter of the pin of the central conductor is greater than the inner diameter of the hollow hole inside the insulator, and the outer diameter of the insulator may be greater than the inner diameter of the small diameter portion of the accommodating part. .

The RF filter integrated connector according to another embodiment of the present invention is integrally formed with the RF filter housing, has a conical inclined surface converging inward in the front, and a through portion comprising a large diameter portion and a small diameter portion at the rear of the inclined surface storage unit; a central conductor having a front portion formed of a socket and a rear portion formed of a pin, and disposed in the center of the penetrating portion of the receiving portion; an insulator having a hollow hole therein and disposed around the pin of the central conductor; and a shell disposed in the receiving portion to contact the outer periphery of the insulator and to form a space around the socket of the central conductor, wherein the pin of the central conductor is press-fitted into the hollow hole of the insulator, and the insulator and the center The assembly of conductors may be press-fitted into the small-diameter portion of the shell, and the assembly of the insulator, the central conductor, and the shell may be press-fitted into the small-diameter portion of the housing.

In the RF filter integrated connector according to another embodiment of the present invention, the outer diameter of the pin of the center conductor is greater than the inner diameter of the hollow hole inside the insulator, the outer diameter of the insulator is greater than the inner diameter of the small diameter portion of the shell, The outer diameter of the small-diameter portion may be greater than the inner diameter of the small-diameter portion of the accommodating portion.

In addition, in the RF filter integrated connector according to another embodiment of the present invention, the shell further includes a large-diameter portion, the large-diameter portion of the shell is press-fitted into the large-diameter portion of the accommodating portion; The outer diameter of the large-diameter portion of the shell may be greater than the inner diameter of the large-diameter portion of the accommodating portion.

In the RF filter integrated connector according to the present invention, the socket of the center conductor may include one or more slotting portions formed in the longitudinal direction.

A method for integrally manufacturing a connector in a housing of an RF filter according to another embodiment of the present invention is provided with a conical inclined surface converging inward in the front, and a through portion comprising a large diameter part and a small diameter part at the rear of the inclined surface A receiving portion forming step of integrally forming the receiving portion in the RF filter housing; Press-fitting a pin of a center conductor, the front part being a socket and the rear part being a pin, into a hollow hole inside the insulator; and press-fitting the assembly of the central conductor and the insulator into the receiving portion formed in the receiving portion forming step.

A method for integrally manufacturing a connector in a housing of an RF filter according to another embodiment of the present invention is provided with a conical inclined surface converging inward in the front, and a through portion comprising a large diameter part and a small diameter part at the rear of the inclined surface A receiving portion forming step of integrally forming the receiving portion in the RF filter housing; press-fitting a pin of a central conductor, the front part of which is made of a socket and the rear part of which is made of a pin, into a hollow hole inside the hollow of the insulator; press-fitting the assembly of the center conductor and the insulator into the small-diameter portion of the shell; and press-fitting the assembly of the center conductor, insulator and shell into the small-diameter portion of the receiving portion formed in the receiving portion forming step, wherein the shell contacts the outer periphery of the insulator and space around the socket of the center conductor. can be configured to form

In the method for integrally manufacturing the connector in the housing of the RF filter according to the present invention, the center conductor and the insulator may be press-fitted from the outside to the inside of the receiving part of the RF filter housing.

In the method for integrally manufacturing the connector in the housing of the RF filter according to the present invention, the center conductor and the insulator may be press-fitted from the inside to the outside of the receiving part of the RF filter housing.

In addition, the RF filter integrated connector according to the present invention may be manufactured by the above-described methods.

According to an embodiment of the present invention made as described above, a connector for connecting a board capable of compensating for misalignment so that an electrical connection failure does not occur even when the alignment states between the boards are different, the terminal part and the support are integrated by the insulating part Because it has a compact structure in which the finished product is completed by injection molding with a , it does not require an assembly process of parts, and it is possible to produce a product of the same standard, thereby improving the stability of product quality. Of course, the scope of the present invention is not limited by these effects.

1 is a view showing a prior art RF filter.
2 is a view showing a prior art RF filter.
3 is a view showing a prior art RF filter in which a connector is vertically coupled to one side of the RF filter housing.
FIG. 4 is a diagram illustrating a process in which a connector is coupled to a connector insertion part of the RF filter in the RF filter of FIG. 3 .
FIG. 5 is a view showing a state in which a connector insertion defect occurs in an RF filter to which a connector is inserted and coupled as shown in FIG. 4 .
6 is a plan view illustrating an RF filter integrally provided with a connector according to the present invention.
7A is a view showing an assembly part of the RF filter integrated connector according to the first embodiment of the present invention; 7B is a view showing a process of assembling the RF filter-integrated connector according to the first embodiment of the present invention using the assembly parts of FIG. 7A.
8A is a view showing an assembly part of an RF filter integrated connector according to a second embodiment of the present invention; 8B is a view showing a process of assembling the RF filter integrated connector according to the second embodiment of the present invention using the assembly parts of FIG. 8A.
9A is a view showing an assembly part of an RF filter integrated connector according to a third embodiment of the present invention; 9B is a view showing a process of assembling the RF filter integrated connector according to the third embodiment of the present invention using the assembly parts of FIG. 9A.
10 is a view showing a process of assembling the RF filter integrated connector according to the fourth embodiment of the present invention.
11 is a schematic cross-sectional view illustrating a state in which an electronic device is coupled to an RF filter integrated connector according to an embodiment of the present invention.

The objects, features and advantages of the present invention described above will become more apparent through the following examples in conjunction with the accompanying drawings.

The following specific structural or functional descriptions are only exemplified for the purpose of describing embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention may be implemented in various forms and described in the present specification or application. It should not be construed as being limited to the examples.

Since the embodiment according to the concept of the present invention may have various changes and may have various forms, specific embodiments are illustrated in the drawings and described in detail in the present specification or application. However, this is not intended to limit the embodiments according to the concept of the present invention to a specific disclosed form, and should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

Terms such as first and/or second may be used to describe various elements, but the elements are not limited to the terms. The above terms are used only for the purpose of distinguishing one element from other elements, for example, without departing from the scope of the present invention, a first element may be called a second element, and similar For example, the second component may also be referred to as the first component.

When a component is referred to as “connected” or “connected” to another component, it may be directly connected or connected to the other component, but other components may exist in between. will have to be understood On the other hand, when it is said that a certain element is "directly connected" or "directly connected" to another element, it should be understood that no other element is present in the middle. Other expressions for describing the relationship between elements, that is, expressions such as "between" and "immediately between" or "adjacent to" and "directly adjacent to", should be interpreted similarly.

The terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. As used herein, terms such as “comprise” or “have” are intended to designate that the described feature, number, step, action, component, part, or combination thereof is present, and includes one or more other features or numbers, It should be understood that the possibility of the presence or addition of steps, operations, components, parts or combinations thereof is not precluded in advance.

Unless defined otherwise, all terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present specification. does not

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings. Like reference numerals in each figure indicate like elements.

6 to 10, an RF filter integrated connector according to an embodiment of the present invention will be described.

In the RF filter integrated connector 100 according to the present invention, a portion corresponding to the body of the conventional connector is integrally formed in the vertical direction in the form of the housing 12 in the housing 10 of the RF filter, and the central conductor 20 ), the insulator 30 , and connector parts such as the shell 40 are inserted and assembled into the receiving part 12 of the housing 10 to complete the RF filter integrated connector 100 . That is, in the RF filter integrated connector 100 according to the present invention, as in the prior art, the connector, which is a finished product, is not inserted and coupled to the RF filter.

6, 7A and 7B, the RF filter integrated connector 100 according to the first embodiment of the present invention will be described.

The RF filter integrated connector 100 according to the first embodiment includes a housing 12 , a center conductor 20 and an insulator 30 integrally formed in the RF filter housing 10 .

As shown in FIG. 6 , the accommodating part 12 is integrally formed with the RF filter housing 10 and has a conical inclined surface 15 converging inward in the front, and the inclined surface in the accommodating part 12 . A large-diameter portion 14 of a predetermined length is formed at the rear of (15), and a small-diameter portion 13 of a predetermined length is formed behind the large-diameter portion 14. The large-diameter portion 14 and the small-diameter portion 13 form a penetrating portion. A socket 22 of the central conductor 20 having a smaller diameter than the inner diameter of the large-diameter portion 14 is disposed at the center of the large-diameter portion 14 of the accommodation portion 12, and the large-diameter portion ( A space is formed between the inner circumferential surface of 14) and the outer circumferential surface of the socket 22 of the central drawing board 20, and the distal end 210 of a plug-type connector coupled to an electronic device, which will be described later, is inserted into this space. At the lower end of the small-diameter portion, a locking protrusion 13a having a larger diameter than the diameter of the small-diameter portion is formed, and an end surface of the small-diameter locking step 13a is formed as an open plane. In addition, a conical inclined surface 15 converging inward is provided at the front of the accommodating part 12 . When a plug-type connector for coupling another electronic device or a board to the RF filter is inserted into the RF filter-integrated connector (jack-type connector), the end of the plug-type connector is smoothly guided into the connection space by the conical inclined surface 15 can be The accommodating part 12 may be made of metal or other material.

A front portion of the central conductor 20 is formed of a socket 22 having an insertion hole 22a therein, and a rear portion is formed of a pin 24 . The socket 22 of the central conductor 20 may include one or more slotting portions formed in the longitudinal direction. With this configuration, when the center pin 220 of the plug-type connector is inserted into the insertion hole 22a of the socket 22 of the center conductor 20, the socket 22 can be resiliently expanded outward, so that the socket The connecting force between 20 and the center pin 220 of the plug-type connector is increased, so that a stable electrical connection can be obtained. 11, in the insertion hole 22a of the socket 22 of the center conductor, the center conductor pin 220 of the plug-type connector for coupling another electronic device or board to the RF filter integrated connector 100 This is insert-coupled. The center conductor 20 may be made of a metal material having excellent conductivity.

The insulator 30 has a hollow hole therein, the front part of the hollow hole consists of a large diameter part and the rear part consists of a small diameter part, and the insulator 30 is arranged around the pin 24 of the said central conductor. The rear end of the insulator 30 may include a flange portion 30a extending outwardly. The insulator 30 may be made of a resin having electrical insulation and elastic restoring force, but is not limited thereto and may be made of other known materials having electrical insulation and elastic restoring force.

According to the first embodiment of the present invention, the processability of the central conductor 20 and the insulator 30, which are components of the connector, is improved, so that the components can be precisely processed according to the design dimensions, and the burrs during the processing of the components are improved. (burr) will not occur.

In the RF filter integrated connector 100 according to the first embodiment of the present invention, when assembling the central conductor 20 and the insulator 30, which are connector parts, to the receiving part 12 of the RF filter housing 10, the insulator ( After the pin 24 of the center conductor is press-fitted into the hollow hole of 30), the assembly 60 of the insulator 30 and the center conductor 20 is inserted into the small-diameter portion ( 13) is press-fitted. In order that connector parts such as the center conductor 20 and the insulator 30 can be mechanically and stably coupled to the receiving part 12 of the RF filter housing 10, the coupling between the respective parts is tight. fit) method. To this end, the outer diameter d1 of the pin 24 of the central conductor 20 is greater than the inner diameter d2 of the hollow hole inside the insulator 30 , and the outer diameter d3 of the insulator 30 is the receiving portion (12) may be set larger than the inner diameter (d6) of the small diameter portion (13).

7a and 7b, in the RF filter integrated connector 100 according to the first embodiment of the present invention, the central conductor 20 and the insulator 30 are the receiving part ( 12) is press-fitted from the inside to the outside. In this case, when the central conductor 20 is inserted into the hollow hole of the insulator 30 , the lower end of the socket 22 of the central conductor 20 is on the step formed at the boundary between the large diameter part and the small diameter part of the insulator 30 . will come into contact In addition, the flange portion 30a extending outwardly from the rear end of the insulator 30 is in contact with the engaging projection 13a formed at the lower end of the small diameter portion 13 of the receiving portion 12, so that the central conductor 20 and The assembly of the insulator 30 can be prevented from being excessively inserted into the receiving portion 12 .

Next, an RF filter integrated connector 100 according to a second embodiment of the present invention will be described with reference to FIGS. 8A and 8B . In the description of the components of the RF filter integrated connector 100 according to the second embodiment shown in FIGS. 8A and 8B, parts common to the components of the first embodiment shown in FIGS. 7A and 7B are described. are denoted by the same reference numerals, and descriptions of common components are omitted.

The RF filter integrated connector 100 according to the second embodiment includes an accommodating part 12 , a center conductor 20 , an insulator 30 , and a shell 40 integrally formed in the RF filter housing 10 .

As shown in FIGS. 8A and 8B , the receiving unit 12 is integrally formed with the RF filter housing 10 , and has a conical inclined surface 15 converging inward in the front, and the receiving unit 12 . In the rear of the inclined surface 15, a large diameter portion 14 of a predetermined length is formed, and a small diameter portion 13 of a predetermined length is formed behind the large diameter portion 13, and the large diameter portion 14 and the The small-diameter portion 13 forms a penetrating portion. A flange portion 13b extending inwardly having an inner diameter smaller than the inner diameter of the small diameter portion 13 is formed at the boundary between the large diameter portion 13 and the small diameter portion 13, and the end surface of the small diameter portion 13 is formed as an open plane.

The configurations of the central conductor 20 and the insulator 30 are the same as those of the first embodiment, and thus description thereof will be omitted.

The shell 40 has a length corresponding to the small diameter portion 13 of the RF filter housing 10 and has a cylindrical shape through which the inside is penetrated. (40a) is formed. The shell 40 may be made of a metal or other material having a predetermined stiffness.

According to the second embodiment of the present invention, the workability of the central conductor 20, the insulator 30, and the shell 40, which are components of the connector, is improved, so that the components can be precisely processed according to the design dimensions, and the configuration No burrs occur during machining of parts.

In the RF filter integrated connector according to the second embodiment of the present invention, when assembling the central conductor 20, the insulator 30 and the shell 40, which are connector parts, to the receiving part 12 of the RF filter housing 10, After the pin 24 of the center conductor is press-fitted into the hollow hole of the insulator 30 , the assembly 60 of the insulator 30 and the center conductor 20 is press-fitted into the space inside the shell 40 . Then, the assembly 70 of the center conductor 20 , the insulator 30 , and the shell 40 is press-fitted into the small diameter portion 13 of the receiving portion 12 of the RF filter housing 10 . In order for the connector parts such as the central conductor 20, the insulator 30, and the shell 40 to be mechanically and stably coupled to the receiving part 12 of the RF filter housing 10, the coupling between each part is Assembled in a tight fit manner. To this end, the outer diameter d1 of the pin 24 of the central conductor 20 is greater than the inner diameter d2 of the hollow hole inside the insulator 30, and the outer diameter d3 of the insulator 30 is the shell ( 40), the outer diameter d5 of the shell 40 may be set to be larger than the inner diameter d6 of the small diameter portion 13 of the accommodating part 12.

8A and 8B , in the RF filter integrated connector according to the second embodiment of the present invention, the center conductor 20 , the insulator 30 and the shell 40 are the number of the RF filter housing 10 . It is press-fitted toward the outside from the inside of the payment 12. In this case, when the assembly of the central conductor 20 and the insulator 30 is inserted into the shell 40 , the flange portion 30a extending outwardly from the rear end of the insulator 30 is the lower end of the shell 40 . By abutting against the inner locking protrusion 40a, the assembly of the central conductor 20 and the insulator 30 can be prevented from being excessively inserted into the shell 40 . Further, the front end of the shell 40 abuts against the flange portion 13b formed at the boundary between the large-diameter portion 14 and the small-diameter portion 13 of the accommodating portion 12, so that the central conductor 20 and the insulator 30 ) and the assembly 70 of the shell 40 can be prevented from being excessively inserted into the receiving portion 12 .

Next, an RF filter integrated connector 100 according to a third embodiment of the present invention will be described with reference to FIGS. 9A and 9B . In the description of the components of the RF filter integrated connector 100 according to the third embodiment shown in Figs. 9A and 9B, the first and second embodiments shown in Figs. 7A and 7B, 8A and 8B are shown in Figs. Parts common to the components are denoted by the same reference numerals, and descriptions of common components are omitted.

The RF filter integrated connector 100 according to the third embodiment includes an accommodating part 12 , a center conductor 20 , an insulator 30 , and a shell 40 integrally formed in the RF filter housing 10 .

As shown in FIGS. 9A and 9B , the accommodating part 12 is integrally formed with the RF filter housing 10 and has a conical inclined surface 15 converging inward in the front, and the accommodating part 12 In the rear of the inclined surface 15, a large diameter portion 14 of a predetermined length is formed, and the large diameter portion 14 and the small diameter portion 13 form a penetrating portion. The large-diameter portion 44 of the shell 40 is disposed inside the large-diameter portion 14 of the accommodating portion 12 , and at the center of the large-diameter portion 44 of the shell 40 , the inner diameter of the large-diameter portion 44 is greater than the inner diameter of the large diameter portion 44 . The socket 22 of the central conductor 20 having a small diameter is disposed so that a space is formed between the inner peripheral surface of the large diameter portion 44 of the shell 40 and the outer peripheral surface of the socket 22 of the central conductor 20, The front end 210 of the plug-type connector coupled to an electronic device to be described later is inserted into this space.

A small-diameter portion 13 of a predetermined length is formed behind the large-diameter portion 13 , and an end surface of the small-diameter portion 13 is formed as an open plane.

The configurations of the central conductor 20 and the insulator 30 are the same as those of the first and second embodiments, and thus description thereof will be omitted.

The shell 40 is a cylindrical member through which the inside is penetrated, and the front part consists of a large diameter part 44 and the rear part consists of the small diameter part 13. As shown in FIG. The small-diameter portion 13 of the shell 40 has a length corresponding to the small-diameter portion 13 of the RF filter housing 10 , and the inner diameter is expanded inside the lower end of the small-diameter portion 42 of the shell 40 . The locking jaw 40a is formed. The shell 40 may be made of a metal or other material having a predetermined stiffness.

In the RF filter integrated connector 100 according to the third embodiment of the present invention, the connector parts, the central conductor 20 , the insulator 30 , and the shell 40 are attached to the receiving part 12 of the RF filter housing 10 . When assembling, the pin 24 of the center conductor is press-fitted into the hollow hole of the insulator 30 , and then the assembly 60 of the insulator 30 and the center conductor 20 is inside the small diameter portion 42 of the shell 40 . pressed into the space of Then, the assembly 70 of the center conductor 20 , the insulator 30 , and the shell 40 is press-fitted into the small diameter portion 13 of the receiving portion 12 of the RF filter housing 10 . At this time, the outer peripheral surface of the large diameter portion 44 of the shell 40 is in contact with the inner peripheral surface of the large diameter portion 14 of the receiving portion 12 of the RF filter housing (10). In order for the connector parts such as the central conductor 20, the insulator 30, and the shell 40 to be mechanically and stably coupled to the receiving part 12 of the RF filter housing 10, the coupling between each part is Assembled in an interference fit manner. To this end, the outer diameter d1 of the pin 24 of the central conductor 20 is greater than the inner diameter d2 of the hollow hole inside the insulator 30, and the outer diameter d3 of the insulator 30 is the shell ( 40) is larger than the inner diameter d4, and the outer diameter d5 of the small diameter portion 42 of the shell 40 is larger than the inner diameter d6 of the small diameter portion 13 of the receiving portion 12, and the shell ( 40), the outer diameter d7 of the large-diameter portion 44 may be set to be larger than the inner diameter d8 of the large-diameter portion 14 of the accommodating portion 12 .

9A and 9B, in the RF filter integrated connector 100 according to the third embodiment of the present invention, the center conductor 20, the insulator 30 and the shell 40 are the RF filter housing 10 ) is press-fitted toward the inside from the outside of the accommodating part 12. In this case, when the assembly of the central conductor 20 and the insulator 30 is inserted into the small-diameter portion 42 of the shell 40, the flange portion 30a extending outward from the rear end of the insulator 30 is Abuts against the locking projection 40a inside the lower end of the small-diameter portion 42 of the shell 40 , the assembly of the central conductor 20 and the insulator 30 excessively into the small-diameter portion 42 of the shell 40 . insertion can be prevented. In addition, the bottom portion of the large-diameter portion 44 of the shell 40 abuts against the upper edge of the small-diameter portion 13 of the receiving portion 12 of the RF filter housing 10 .

Next, an RF filter integrated connector 100 according to a fourth embodiment of the present invention will be described with reference to FIG. 10 . In the description of the components of the RF filter integrated connector 100 according to the fourth embodiment shown in FIG. 10, the first and the first shown in FIGS. 7A and 7B, 8A and 8B, and 9A and 9B Parts common to the components of the second and third embodiments are denoted by the same reference numerals, and descriptions of common components will be omitted.

The RF filter integrated connector 100 according to the fourth embodiment includes an accommodating part 12 , a center conductor 20 , an insulator 30 , and a shell 40 integrally formed in the RF filter housing 10 .

Configurations of the receiving part 12, the central conductor 20, and the insulator 30 of the RF filter housing 10 are the same as those of the third embodiment, and thus description thereof will be omitted.

The shell 40 has a length corresponding to the small diameter portion 13 of the RF filter housing 10 and has a cylindrical shape through which the inside is penetrated. (40a) is formed, the outer side of the upper end of the shell 40 is formed with a flange portion (40b) that extends outwardly protruding. The shell 40 may be made of a metal or other material having a predetermined rigidity.

In the RF filter integrated connector 100 according to the fourth embodiment of the present invention, the connector components of the central conductor 20 , the insulator 30 and the shell 40 are attached to the receiving part 12 of the RF filter housing 10 . When assembling, the pin 24 of the center conductor is press-fitted into the hollow hole of the insulator 30 , and then the assembly 60 of the insulator 30 and the center conductor 20 is press-fitted into the space inside the shell 40 . . Then, the assembly 70 of the center conductor 20 , the insulator 30 , and the shell 40 is press-fitted into the small diameter portion 13 of the receiving portion 12 of the RF filter housing 10 . In order for the connector parts such as the central conductor 20, the insulator 30, and the shell 40 to be mechanically and stably coupled to the receiving part 12 of the RF filter housing 10, the coupling between each part is Assembled in an interference fit manner. To this end, the outer diameter d1 of the pin 24 of the central conductor 20 is greater than the inner diameter d2 of the hollow hole inside the insulator 30, and the outer diameter d3 of the insulator 30 is the shell ( 40), the outer diameter d5 of the shell 40 may be set to be larger than the inner diameter d6 of the small diameter portion 13 of the accommodating part 12.

As shown in FIG. 10 , in the RF filter integrated connector 100 according to the fourth embodiment of the present invention, the center conductor 20 , the insulator 30 and the shell 40 are the number of the RF filter housing 10 . It is press-fitted toward the inside from the outside of the payment 12. In this case, when the assembly of the central conductor 20 and the insulator 30 is inserted into the shell 40 , the flange portion 30a extending outwardly from the rear end of the insulator 30 is the lower end of the shell 40 . By abutting against the inner locking protrusion 40a, the assembly of the central conductor 20 and the insulator 30 can be prevented from being excessively inserted into the shell 40 . In addition, the flange portion 40b outside the upper end of the shell 40 abuts against the upper edge of the small-diameter portion 13 of the receiving portion 12 of the RF filter housing 10 .

Next, a method for integrally manufacturing the connector in the housing of the RF filter according to an embodiment of the present invention will be described.

First, a method of manufacturing the RF filter integrated connector 100 according to the first and second embodiments of the present invention will be described with reference to FIGS. 6 to 8B .

According to the first and second embodiments of the present invention, in order to manufacture the RF filter-integrated connector 100, first, as shown in FIG. 6, one side of the housing 10 of the RF filter corresponds to the body of the connector. A connector receiving portion 12 having an outline of the following is formed in the vertical direction. The receiving part 12 has an open top (front), a conical inclined surface 15 converging inward is provided in the front, and a large diameter part 14 and a small diameter part 13 are provided at the rear of the inclined surface 15. A penetrating portion is provided.

Next, the pins 24 of the central conductor 20 having the socket 22 on the front part and the pins 24 on the rear part are press-fitted into the hollow hole inside the insulator 30 and assembled.

Next, the assembly 60 of the central conductor 20 and the insulator 30 assembled in the above step is press-fitted into the through portion of the receiving portion 12 of the RF filter housing 10 formed in the receiving portion forming step to assemble do.

In this case, the outer diameter d1 of the pin 24 of the central conductor 20 is greater than the inner diameter d2 of the hollow hole inside the insulator 30, and the outer diameter d3 of the insulator 30 is the number It is set larger than the inner diameter d6 of the small diameter portion 13 of the payer 12, so that the coupling between the respective parts is assembled in a tight fit method, and the central conductor 20 and the insulator 30 and The same connector parts may be mechanically and stably coupled to the receiving part 12 of the RF filter housing 10 .

As shown in FIG. 7B , the central conductor 20 and the insulator 30 may be press-fitted from the outside to the inside of the receiving part 12 of the RF filter housing 10 , as shown in FIG. 8B , Similarly, the central conductor 20 and the insulator 30 may be press-fitted from the inside of the receiving part 12 of the RF filter housing 10 toward the outside.

Next, a manufacturing method of the RF filter integrated connector 100 according to the third and fourth embodiments of the present invention will be described with reference to FIGS. 9A, 9B and 10 .

According to the third and fourth embodiments of the present invention, in order to manufacture the RF filter integrated connector 100, first, on one side of the housing 10 of the RF filter, a connector receiving part having a contour corresponding to the body of the connector ( 12) is formed in the vertical direction. The receiving part 12 has an open top (front), a conical inclined surface 15 converging inward is provided in the front, and a large diameter part 14 and a small diameter part 13 are provided at the rear of the inclined surface 15. A penetrating portion is provided.

Next, the pins 24 of the central conductor 20 having the socket 22 on the front part and the pins 24 on the rear part are press-fitted into the hollow hole inside the insulator 30 and assembled.

Next, the assembly 60 of the central conductor 20 and the insulator 30 assembled in the above step is press-fitted into the small-diameter portion 42 of the shell 40 and assembled.

Next, the assembly 70 of the central conductor 20, the insulator 30 and the shell 40 assembled in the above step is passed through the receiving part 12 of the RF filter housing 10 formed in the receiving part forming step. Assembled by press-fitting into the part.

In this case, the outer diameter d1 of the pin 24 of the central conductor 20 is greater than the inner diameter d2 of the hollow hole inside the insulator 30, and the outer diameter d3 of the insulator 30 is the shell (40) is larger than the inner diameter d4 of the small-diameter portion 42, the outer diameter d5 of the small-diameter portion 42 of the shell 40 is the inner diameter d7 of the small-diameter portion 13 of the accommodating portion 12 ), and the outer diameter d7 of the large-diameter portion 44 of the shell 40 is set to be larger than the outer diameter d8 of the large-diameter portion 14 of the accommodating portion 12, so the coupling between the respective parts is inhibited Assembled in a tight fit method, so that connector parts such as the central conductor 20 , the insulator 30 and the shell 40 are mechanically stable in the receiving part 12 of the RF filter housing 10 . can be combined.

As shown in FIG. 9B , the center conductor 20 , the insulator 30 and the shell 40 may be press-fitted from the outside to the inside of the receiving part 12 of the RF filter housing 10 , FIG. 10 , the central conductor 20 , the insulator 30 , and the shell 40 may be press-fitted from the inside of the receiving part 12 of the RF filter housing 10 toward the outside.

According to the RF filter integrated connector according to the present invention described above, the cost can be reduced due to a reduction in the number of parts compared to the structure in which the connector accommodating part of the RF filter housing is press-fitted to the connector receiving part of the RF filter housing in the prior art. In addition, by changing the design of the RF filter and the connector as an integral part, the number of conventional connector assembly steps can be reduced, shortening the assembly time of the connector, and the cause of defective product assembly and deterioration of product performance is eliminated. This can lead to improvement in the quality of connector products. In addition, by designing and changing the RF filter and the coaxial connector integrally, the structure of the connector is simplified, so that the processability of connector parts is improved and the processing precision is improved, so that the quality of the connector product can be improved.

Next, with reference to Figure 11, the application of the RF filter integrated connector 100 according to the embodiment of the present invention will be described.

11 is a schematic cross-sectional view illustrating a state in which an electronic device is connected to a plug-type connector to the RF filter-integrated connector 100 according to an embodiment of the present invention.

11, when the plug-type connector coupled to the electronic device 200 is pressed and inserted into the RF filter integrated connector 100, the conical inclined surface 15 converging inward from the front of the RF filter integrated connector 100 ), the tip 210 of the plug-type connector is smoothly guided, and between the outer circumferential surface of the socket 22 of the central conductor of the RF filter integrated connector 100 and the inner circumferential surface of the large-diameter portion 14 of the accommodating portion 12 The tip 210 of the plug-type connector may be stably inserted into the formed space. In this process, the center pin 220 of the plug-type connector can be stably inserted into the insertion hole 22a formed in the socket 22 of the center conductor of the RF filter integrated connector 100 . Here, the electronic device 200 is coupled to the RF filter integrated connector 100 of the present invention through the plug-type connector as an example, but components such as a board are connected to the RF filter integrated connector of the present invention through the plug-type connector (100) may be defective.

Although the present invention has been described with reference to the embodiment shown in the drawings, which is only exemplary, those of ordinary skill in the art to which the present invention pertains will understand that various modifications and equivalent other embodiments are possible therefrom. will be. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

10: RF filter housing 12: receiving part
13: small-diameter portion of the storage unit 14: large-diameter portion of the storage portion
15: inclined surface of the receiving part 20: center conductor
22: pin 24: socket
30: insulator 40: shell
42: small diameter portion of the shell 44: large diameter portion of the shell
60: center conductor, insulator assembly 70: center conductor, insulator, shell assembly
100: RF filter integrated connector 200: electronic device
210: the tip of the plug-type connector 220: the center pin of the plug-type connector

Claims (11)

An RF filter integrated connector comprising:
The RF filter housing 10 is integrally formed, and having a conical inclined surface 15 converging inward in the front, the receiving part 12 having a penetrating part consisting of a large diameter part and a small diameter part at the rear of the inclined surface;
a central conductor 20 having a socket 22 at the front and a pin 24 at the rear, disposed at the center of the penetrating portion of the receiving section 12; and
an insulator (30) having a hollow hole therein and disposed around a pin (24) of said central conductor;
The pin 24 of the center conductor is press-fitted into the hollow hole of the insulator 30 , and the assembly 60 of the insulator 30 and the center conductor 20 is formed in the small-diameter portion 13 of the accommodating part 12 . is pressed into
The outer diameter d1 of the pin 24 of the central conductor 20 is larger than the inner diameter d2 of the hollow hole inside the insulator 30, and the outer diameter d3 of the insulator 30 is the receiving part 12 greater than the inner diameter d6 of the small diameter portion 13 of
RF filter integrated connector.
delete An RF filter integrated connector comprising:
The RF filter housing 10 is integrally formed, and having a conical inclined surface 15 converging inward in the front, the receiving part 12 having a penetrating part consisting of a large diameter part and a small diameter part at the rear of the inclined surface;
a central conductor 30 having a socket 22 at the front and a pin 24 at the rear, disposed in the center of the penetrating portion of the receiving section 12;
an insulator (30) having a hollow hole therein and disposed around the pin (24) of the central conductor (20); and
a shell (40) disposed within the receiver (12) to contact the outer perimeter of the insulator (30) and to form a space around the socket (22) of the central conductor (20);
The pin 24 of the center conductor is press-fitted into the hollow hole of the insulator 30 , and the assembly 60 of the insulator 30 and the center conductor 20 is inside the small diameter portion 42 of the shell 40 . and the assembly 70 of the insulator 30, the central conductor 20, and the shell 40 is press-fitted into the small diameter part 13 of the receiving part 12,
The outer diameter d1 of the pin 24 of the central conductor 20 is greater than the inner diameter d2 of the hollow hole inside the insulator 30, and the outer diameter d3 of the insulator 30 is the shell 40 It is larger than the inner diameter d4 of the small-diameter portion 42 , and the outer diameter d5 of the small-diameter portion 42 of the shell 40 is larger than the inner diameter d6 of the small-diameter portion 13 of the accommodating portion 12 .
RF filter integrated connector.
delete 4. The method of claim 3,
the shell 40 further includes a large-diameter portion 44, and the large-diameter portion 44 of the shell 40 is press-fitted into the large-diameter portion 14 of the accommodating portion 12;
The outer diameter d7 of the large diameter portion 44 of the shell 40 is larger than the inner diameter d8 of the large diameter portion 14 of the receiving portion 12 .
RF filter integrated connector.
6. The method of any one of claims 1, 3 and 5,
The socket 22 of the central conductor 20 is provided with one or more slotting portions 23 formed in the longitudinal direction.
RF filter integrated connector.
In the method of manufacturing a connector integrally with the housing of the RF filter,
A housing unit having a conical inclined surface 15 converging inward in front and a penetrating portion comprising a large diameter portion and a small diameter portion at the rear of the inclined surface integrally formed with the RF filter housing 10. step;
press-fitting the pins 24 of the central conductor 20 including the socket 22 in the front part and the pins 24 in the rear part into the hollow hole inside the insulator 30; and
and press-fitting the assembly (60) of the center conductor (20) and the insulator (30) into the receiving portion (12) formed in the step of forming the receiving portion,
The outer diameter d1 of the pin 24 of the central conductor 20 is larger than the inner diameter d2 of the hollow hole inside the insulator 30, and the outer diameter d3 of the insulator 30 is the receiving part 12 greater than the inner diameter d6 of the small diameter portion 13 of
A method of integrally manufacturing a connector into the housing of an RF filter.
In the method of manufacturing a connector integrally with the housing of the RF filter,
A housing unit having a conical inclined surface 15 converging inward in front and a penetrating portion comprising a large diameter portion and a small diameter portion at the rear of the inclined surface integrally formed with the RF filter housing 10. step;
press-fitting the pins 24 of the central conductor 20 including the socket 22 at the front and the pins 24 at the rear into the hollow hole inside the insulator 30 ;
press-fitting the assembly (60) of the center conductor (20) and the insulator (30) into the small-diameter portion (42) of the shell (40); and
and press-fitting the assembly 70 of the central conductor 20, the insulator 30 and the shell 40 into the small diameter portion 13 of the receiving portion 12 formed in the receiving portion forming step,
the shell (40) is configured to contact the outer perimeter of the insulator (30) and form a space around the socket (22) of the central conductor (20);
The outer diameter d1 of the pin 24 of the central conductor 20 is greater than the inner diameter d2 of the hollow hole inside the insulator 30, and the outer diameter d3 of the insulator 30 is the shell 40 It is larger than the inner diameter d4 of the small-diameter portion 42 , and the outer diameter d5 of the small-diameter portion 42 of the shell 40 is larger than the inner diameter d6 of the small-diameter portion 13 of the accommodating portion 12 .
A method of integrally manufacturing a connector into the housing of an RF filter.
9. The method of claim 7 or 8,
The central conductor 20 and the insulator 30 are press-fitted from the outside of the receiving part 12 of the RF filter housing 10 toward the inside.
A method of integrally manufacturing a connector into the housing of an RF filter.
9. The method of claim 7 or 8,
The central conductor 20 and the insulator 30 are press-fitted from the inside of the receiving part 12 of the RF filter housing 10 toward the outside.
A method of integrally manufacturing a connector into the housing of an RF filter.
The RF filter integrated connector manufactured by the method of claim 7 or 8.

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