CN211530353U - Radio frequency connector installation module and radio frequency module installation shell - Google Patents

Abstract

The utility model discloses a radio frequency connector installation module and radio frequency module installation casing, the module main part that matches through the marginal shape that sets up with radio frequency module installation casing, and set up at least one connector mounting hole on the surface of module main part for the radio frequency connector can be fixed to be set up in the connector mounting hole, then the accessible sets up two at least first screws in the module main part, adopt the mode of screw locking with the edge or the PCB board fixed connection of radio frequency module installation casing. When in use, only the radio frequency connecting wire needs to be inserted into the radio frequency coaxial connector. When the PCB or the related components need to be repaired or maintained, the radio frequency connector installation module is only required to be detached from the radio frequency module installation shell or the PCB, so that the technical effects of improving the safety of the radio frequency coaxial connector applied to the related modules, reducing the fault rate of the related module devices and prolonging the service life of the related devices are achieved.

Description

Radio frequency connector installation module and radio frequency module installation shell

Technical Field

The utility model relates to an electronic circuit control technical field especially relates to a radio frequency connector installation module and radio frequency module installation casing.

Background

In the field of modern microwave radio frequency, with the development of industrial technology, there is an increasing demand for various miniaturized and highly integrated module devices, and thus the application range and scale of more and more subminiature push-in radio frequency coaxial connectors (such as SMP, SSMP, etc.) are gradually expanding. In the prior art, in order to meet the requirement of better electrical connection performance, the distance between the pin of the radio frequency coaxial connector and the PCB where the pin is welded is often controlled within 0.1mm, so that the PCB is often difficult to be taken out of the housing where the radio frequency coaxial connector is installed in the repair process (because the radio frequency coaxial connector is very easy to clamp with the installation space), which often causes the situations that not only the connector is damaged, the installation cavity of the PCB is also damaged, and the PCB is scrapped more seriously.

Therefore, the technical problem that the failure rate and rejection rate of the radio frequency coaxial connector, the mounting groove and the PCB are high due to the fact that the radio frequency coaxial connector and the mounting space are clamped in the repair or maintenance process of the PCB is prone to being caused by the requirement of the technical connection distance between the radio frequency coaxial connector and the PCB where the radio frequency coaxial connector is welded in the prior art exists.

SUMMERY OF THE UTILITY MODEL

The application provides a radio frequency connector installation module and a radio frequency module installation shell, which are used for solving the technical problem that the fault rate and the rejection rate of a radio frequency coaxial connector, an installation groove and a PCB are higher due to the fact that the PCB is frequently easily repaired or maintained due to the fact that the radio frequency coaxial connector and an installation space card are required due to the technical connection distance between the radio frequency coaxial connector and the PCB where the radio frequency coaxial connector is welded in the prior art.

A first aspect of the present application provides a radio frequency connector mounting module, comprising:

the module main body is matched with the edge shape of the radio frequency module mounting shell;

at least one connector mounting hole disposed on an outer surface of the module body, the connector mounting hole being used to fixedly mount a radio frequency connector;

and the at least two first screw holes are arranged on the module main body and are used for screwing in screws to be fixedly connected with the edge of the radio frequency module mounting shell.

Optionally, the installation module further comprises:

and the dropping hole is arranged on the outer surface of the module main body, and the axial direction of the dropping hole is intersected with the axial direction of the connector mounting hole.

Optionally, the installation module further comprises:

and the second screw hole is arranged on the outer surface of the module main body, and the axial direction of the second screw hole is the same as that of the connector mounting hole.

Optionally, the module body is of a rectangular parallelepiped structure or a square structure.

Optionally, the first screw hole and the dropping hole are arranged on a first surface where a long side and a wide side of the cuboid structure are located, and the connector mounting hole is arranged on a second surface where the long side and the high side of the cuboid structure are located.

Optionally, the second screw hole is also provided on the second face.

A second aspect of the present application provides a radio frequency module mounting housing comprising:

the main shell is of a cavity structure and comprises at least one groove arranged on the wall of the cavity, and the cavity of the main shell is used for installing and placing a radio frequency module;

the radio frequency connector mounting module according to the first aspect is fixedly disposed on the groove, and an axial direction of a connector mounting hole in the radio frequency connector mounting module is directed to the cavity of the main housing.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

according to the technical scheme in the embodiment of the application, the module main body matched with the edge shape of the radio frequency module mounting shell is arranged, at least one connector mounting hole is formed in the outer surface of the module main body, so that the radio frequency connector can be fixedly arranged in the connector mounting hole, and then the radio frequency connector can be arranged in at least two first screw holes in the module main body and fixedly connected with the edge of the radio frequency module mounting shell or a PCB (printed circuit board) in a screw locking mode. When in use, only the radio frequency connecting wire needs to be inserted into the radio frequency coaxial connector. When the PCB or the related components need to be repaired or maintained, the radio frequency connector mounting module is only required to be detached (screws are loosened) from the radio frequency module mounting shell or the PCB, and the radio frequency connector, the mounting space of the PCB or the PCB itself cannot be damaged, so that the safety of the radio frequency coaxial connector applied to the related modules is improved, the fault rate of the related module devices is reduced, and the service life of the related devices is prolonged.

Drawings

Fig. 1 is a structural diagram of a radio frequency connector installation module according to an embodiment of the present invention;

fig. 2 is a structural diagram of a radio frequency connector mounting housing according to an embodiment of the present invention.

Detailed Description

The application provides a radio frequency connector installation module and a radio frequency module installation shell, which are used for solving the technical problem that the fault rate and the rejection rate of a radio frequency coaxial connector, an installation groove and a PCB are higher due to the fact that the PCB is frequently easily repaired or maintained due to the fact that the radio frequency coaxial connector and an installation space card are required due to the technical connection distance between the radio frequency coaxial connector and the PCB where the radio frequency coaxial connector is welded in the prior art.

In order to solve the technical problems, the general idea of the embodiment of the application is as follows:

according to the technical scheme in the embodiment of the application, the module main body matched with the edge shape of the radio frequency module mounting shell is arranged, at least one connector mounting hole is formed in the outer surface of the module main body, so that the radio frequency connector can be fixedly arranged in the connector mounting hole, and then the radio frequency connector can be arranged in at least two first screw holes in the module main body and fixedly connected with the edge of the radio frequency module mounting shell or a PCB (printed circuit board) in a screw locking mode. When in use, only the radio frequency connecting wire needs to be inserted into the radio frequency coaxial connector. When the PCB or the related components need to be repaired or maintained, the radio frequency connector mounting module is only required to be detached (screws are loosened) from the radio frequency module mounting shell or the PCB, and the radio frequency connector, the mounting space of the PCB or the PCB itself cannot be damaged, so that the safety of the radio frequency coaxial connector applied to the related modules is improved, the fault rate of the related module devices is reduced, and the service life of the related devices is prolonged.

The technical solutions of the present application are described in detail below with reference to the drawings and specific embodiments, and it should be understood that the specific features in the embodiments and examples of the present application are detailed descriptions of the technical solutions of the present application, and are not limitations of the technical solutions of the present application, and the technical features in the embodiments and examples of the present application may be combined with each other without conflict.

The term "and/or" herein is merely an association describing an associated object, meaning that three relationships may exist, e.g., a and/or B, may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

Example one

Referring to fig. 1, an embodiment of the present application provides a radio frequency connector installation module, including:

a module body 101 matched with the edge shape of the radio frequency module mounting case;

at least one connector mounting hole 102 disposed on an outer surface of the module body, the connector mounting hole configured to fixedly receive a radio frequency connector 1021;

at least two first screw holes 103 are arranged on the module main body and are used for screwing in screws to be fixedly connected with the edge of the radio frequency module mounting shell.

It should be noted that the matching of the edge shape of the module main body and the rf module mounting housing means that when the rf connector mounting module of the present application is combined with the rf module mounting housing, and when the rf connector mounting module is directly combined with the PCB, the module main body may be set to match with the metal routing direction on the PCB, which is related to the rf module, for example, when the metal routing direction is an S-shaped right-angle curve, the module main body may also be set to an S-shaped right-angle curve shape matching with the metal routing direction, or a cuboid structure matching with the S-shaped right-angle inner space, and so on. Particularly, in the embodiment of the present application, the module main body has a rectangular parallelepiped structure or a square structure.

In the actual operation process, only the radio frequency coaxial connector (namely, the radio frequency connector) needs to be fixedly arranged in the connector mounting hole, and then the radio frequency connector mounting module is mounted on the corresponding position of the radio frequency module on the PCB or the corresponding position of the radio frequency module mounting shell in a welding or screw locking mode, so that the corresponding mounting can be completed by connecting the needle of the radio frequency connector with the radio frequency module. When in use, only the radio frequency connecting wire is required to be inserted into the radio frequency coaxial connector. When the PCB or the related components need to be repaired, the radio frequency connector mounting module in the embodiment of the present application only needs to be detached (screws are loosened) from the radio frequency module mounting housing or the PCB, and the mounting space of the PCB or the PCB itself will not be damaged, and certainly, the radio frequency connector will not be adversely affected.

Specifically, when the radio frequency connector installation module is installed on a PCB or a radio frequency module installation housing in a screw locking manner, screws may be screwed into corresponding first screw holes. More specifically, in practical operation, a plurality of rf coaxial connectors may be welded to corresponding positions on a separate metal plate according to the arrangement position of the at least one connector mounting hole, and then the metal plate may be mounted on the outer surface of the module body by screwing or welding, and each rf coaxial connector is placed in the corresponding connector mounting hole.

It should be noted that, in the embodiment of the present application, the at least one connector mounting hole is arranged in a straight line and equidistantly, but the at least one connector mounting hole in the present application is not limited to be arranged in a straight line and equidistantly, and the arrangement position and the shape of the at least one connector mounting hole can be set according to the need, and the present application is not limited in any way.

Further, the installation module in this embodiment of the present application further includes:

and a dropping hole 104 provided on an outer surface of the module body, and an axial direction of the dropping hole intersects with an axial direction of the connector mounting hole. Through this dropping hole can be with the radio frequency connector setting back in the connector mounting hole, further follow the dropping hole drips into welding material to adopt the welding mode to fix the radio frequency connector in the connector mounting hole, play the effect that conveniently carries out welded fastening with the radio frequency connector from this, have the technological effect that improves radio frequency connector installation effectiveness.

Still further, the installation module in this application embodiment further includes:

and a second screw hole 105 provided on an outer surface of the module body, an axial direction of the second screw hole being the same as an axial direction of the connector mounting hole. The radio frequency connector installation module and the radio frequency module in the embodiment of the application can be fixedly locked by screwing the screw into the second screw hole, so that the technical scheme in the embodiment of the application further has the technical effects of further improving the installation and fastening effects and ensuring the radio frequency connection performance

Further in this application embodiment, when the module main part is cuboid structure or square structure, first screw sets up with the hole of dripping on the long limit of cuboid structure and the first face at broadside place, just the connector mounting hole sets up on the long limit of cuboid structure and the second face at high limit place, the second screw sets up equally on the second face. Therefore, the structure of the installation module is more compact and the layout is more reasonable, and the technical effect of further improving the integration level is achieved.

Therefore, according to the technical scheme in the embodiment of the application, the module main body matched with the edge shape of the radio frequency module mounting shell is arranged, and the at least one connector mounting hole is arranged on the outer surface of the module main body, so that the radio frequency connector can be fixedly arranged in the connector mounting hole, and then can be fixedly connected with the edge of the radio frequency module mounting shell or a PCB (printed circuit board) in a screw locking mode through the at least two first screw holes arranged on the module main body. When in use, only the radio frequency connecting wire needs to be inserted into the radio frequency coaxial connector. When the PCB or the related components need to be repaired or maintained, the radio frequency connector mounting module is only required to be detached (screws are loosened) from the radio frequency module mounting shell or the PCB, and the radio frequency connector, the mounting space of the PCB or the PCB itself cannot be damaged, so that the safety of the radio frequency coaxial connector applied to the related modules is improved, the fault rate of the related module devices is reduced, and the service life of the related devices is prolonged.

Example two

Referring to fig. 2, a second embodiment of the present application provides a radio frequency module mounting housing, including:

the main casing 201 is a cavity structure and comprises at least one groove arranged on the wall of the cavity, and the cavity 2011 of the main casing is used for installing and placing a radio frequency module;

the rf connector mounting module 202 according to the first embodiment is fixedly disposed on the groove, and an axial direction of a connector mounting hole in the rf connector mounting module is directed to the cavity 2011 of the main housing.

While the foregoing radio frequency connector mounting module in the embodiment of fig. 1 has been described in terms of various modifications and embodiments, the implementation method of the radio frequency module mounting housing in the embodiment is obvious to those skilled in the art from the foregoing detailed description of the radio frequency connector mounting module, and therefore, for the sake of brevity of the description, detailed description is omitted here.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (7)

1. A radio frequency connector mounting module, comprising:

the module main body is matched with the edge shape of the radio frequency module mounting shell;

at least one connector mounting hole disposed on an outer surface of the module body, the connector mounting hole being used to fixedly mount a radio frequency connector;

and the at least two first screw holes are arranged on the module main body and are used for screwing in screws to be fixedly connected with the edge of the radio frequency module mounting shell.

2. The radio frequency connector mounting module of claim 1, wherein the mounting module further comprises:

and the dropping hole is arranged on the outer surface of the module main body, and the axial direction of the dropping hole is intersected with the axial direction of the connector mounting hole.

3. The radio frequency connector mounting module of claim 1, wherein the mounting module further comprises:

and the second screw hole is arranged on the outer surface of the module main body, and the axial direction of the second screw hole is the same as that of the connector mounting hole.

4. The radio frequency connector mounting module of claim 3, wherein the module body is a rectangular parallelepiped structure or a square cube structure.

5. The radio frequency connector mounting module of claim 4, wherein the first screw hole and the drip hole are provided on a first face where a long side and a wide side of the rectangular parallelepiped structure are located, and the connector mounting hole is provided on a second face where the long side and the high side of the rectangular parallelepiped structure are located.

6. The radio frequency connector mounting module of claim 5, wherein the second screw hole is also provided on the second face.

7. A radio frequency module mounting housing, comprising:

the main shell is of a cavity structure and comprises at least one groove arranged on the wall of the cavity, and the cavity of the main shell is used for installing and placing a radio frequency module;

the RF connector mounting module of any one of claims 1-6, fixedly disposed on the recess, and having a connector mounting hole therein, axially directed into the cavity of the main housing.

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