CN220798814U - Assembling structure of control module - Google Patents

Abstract

The utility model discloses an assembly structure of a control module, which comprises a shell, a circuit board main body and a connector module, wherein the circuit board main body and the connector module are both arranged on the shell and are connected with each other, one side surface of the circuit board main body is provided with a first connector installation area, a second installation area and a plurality of third connector installation areas, and the third connector installation areas are positioned on the side edge of the circuit board main body and are positioned between the adjacent third connector installation areas on the same side edge and are provided with concave structures. The assembly structure of the control module disclosed by the utility model has the advantages that the connectors corresponding to the control module are all installed in a matched manner through the circuit board main body, the shell and the connector module, so that the control module is connected when in use, and the assembly structure has the advantages of stable structure, high practicability, high installation efficiency and the like.

Description

Assembling structure of control module

Technical Field

The utility model belongs to the technical field of chip assembly structures, and particularly relates to an assembly structure of a control module.

Background

FPGA (Field Programmable Gate Array) is a product of further development on the basis of programmable devices such as PAL programmable array logic), GAL (generic array logic) and the like.

The existing control modules such as FPGA and the like are not assembled by the matched connector, the shell and other structures, so that the control modules need to be installed and connected again when in use, and the efficiency is affected.

Accordingly, the above problems are further improved.

Disclosure of Invention

The utility model mainly aims to provide an assembly structure of a control module, which is characterized in that connectors corresponding to the control module are all installed in a matched manner through a circuit board main body, a shell and a connector module, so that the control module is connected when in use, and the assembly structure has the advantages of stable structure, high practicability, high installation efficiency and the like.

In order to achieve the above object, the present utility model provides an assembly structure of a control module, comprising a housing, a circuit board main body and a connector module, both of which are mounted to the housing and connected, wherein:

a first connector installation area, a second installation area and a plurality of third connector installation areas are arranged on one side surface of the circuit board main body, the third connector installation areas are positioned on the side edge of the circuit board main body, and a concave structure is arranged between the adjacent third connector installation areas positioned on the same side edge; the circuit board comprises a circuit board main body, wherein the other side surface of the circuit board main body is provided with a fourth connector installation area, a fifth connector installation area, a sixth connector installation area, a seventh connector installation area, an eighth connector installation area and a plurality of ninth connector installation areas, and the ninth connector installation area is positioned between the fourth connector installation area and the fifth connector installation area;

the connector module includes a first connector unit mounted to one side of the circuit board body and a second connector unit mounted to the other side of the circuit board body; the first connector unit comprises a radio frequency coaxial electrical connector (SMP-JHD), an optical module (HTS 1302-LH) and a number of electrical connectors (J30J), the radio frequency coaxial electrical connector being mounted to the first connector mounting area, the optical module being mounted to the second mounting area and the electrical connectors being mounted to the third connector mounting area; the second connector unit includes a first connector (JL 24), a second connector (JL 24), a third connector (emulator), a fourth connector (SL 65), a fifth connector (JL 24), and a number of sixth connectors (ASP-134486), the first connector being mounted to the fourth connector mounting region, the second connector being mounted to the fifth connector mounting region, the third connector being mounted to the sixth connector mounting region, the fourth connector being mounted to the seventh connector mounting region, the fifth connector being mounted to the eighth connector mounting region and the sixth connector being mounted to the ninth connector mounting region;

the shell is provided with a first mounting opening, a second mounting opening, a third mounting opening, a fourth mounting opening, a fifth mounting opening, a sixth mounting opening and a side edge, wherein the first mounting opening surrounds the first connector, the second mounting opening surrounds the second connector, the third mounting opening surrounds the third connector, the fourth mounting opening surrounds the fourth connector, the fifth mounting opening surrounds the fifth connector, the sixth mounting opening surrounds the sixth connector, and the electric connector is mounted at a connector mounting position of the side edge.

As a further preferable aspect of the above-described technical aspect, the fourth connector mounting area is located at one end of the circuit board main body and the fifth connector mounting area, the sixth connector mounting area, the seventh connector mounting area, and the eighth connector mounting area are located at the other end of the circuit board main body.

As a further preferable technical solution of the foregoing technical solution, the electrical connector includes a flat cable seat, a rigid-flexible adapter plate, and a connector body, the flat cable seat is mounted on the circuit board body, one end of the rigid-flexible adapter plate is connected with the flat cable seat, and the other end of the rigid-flexible adapter plate is connected with the connector body.

As a further preferable aspect of the above-described aspect, the connector body is mounted at the connector mounting position.

As a further preferable technical scheme of the technical scheme, the side edge is further provided with a plurality of positioning holes.

Drawings

Fig. 1 is a schematic structural view of an assembly structure of a control module of the present utility model.

Fig. 2 is a schematic structural view of an assembly structure of a control module according to the present utility model.

Fig. 3 is a schematic structural view (with a housing omitted) of an assembly structure of a control module according to the present utility model.

Fig. 4 is a schematic structural view (with a housing omitted) of an assembly structure of a control module according to the present utility model.

The reference numerals include: 100. a housing; 110. a first mounting port; 120. a second mounting port; 130. a third mounting port; 140. a fourth mounting port; 150. a fifth mounting port; 160. a sixth mounting port; 170. a side edge; 171. a connector mounting location; 172. positioning holes; 200. a circuit board main body; 210. a first connector mounting area; 220. a second mounting area; 230. a third connector mounting area; 231. a concave structure; 240. a fourth connector mounting area; 250. a fifth connector mounting area; 260. a sixth connector mounting area; 270. a seventh connector mounting area; 280. an eighth connector mounting area; 290. a ninth connector mounting area; 300. a connector module; 310. a first connector unit; 311. a radio frequency coaxial electrical connector; 312. an optical module; 313. an electrical connector; 3131. a wire arrangement seat; 3132. a rigid-flexible adapter plate; 3133. a connector body; 320. a second connector unit; 321. a first connector; 322. a second connector; 323. a third connector; 324. a fourth connector; 325. a fifth connector; 326. and a sixth connector.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the utility model. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the utility model defined in the following description may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the utility model.

The utility model discloses an assembly structure of a control module, and the following describes the specific embodiment of the utility model further with reference to the preferred embodiment.

In an embodiment of the present utility model, it is noted by those skilled in the art that the control module and the like to which the present utility model relates can be regarded as the prior art.

Preferred embodiments.

As shown in fig. 1 to 4, the present utility model discloses an assembling structure of a control module, comprising a housing 100, a circuit board body 200 (provided with a control chip) and a connector module 300, wherein the circuit board body 200 and the connector module 300 are mounted to the housing 100 and the circuit board body 200 and the connector module 300 are connected, wherein:

a first connector mounting area 210, a second mounting area 220 and a plurality of third connector mounting areas 230 are arranged on one side surface of the circuit board main body 200, the third connector mounting areas 230 are positioned on the side surface of the circuit board main body 200, and a concave structure 231 is arranged between the adjacent third connector mounting areas 230 positioned on the same side surface; the other side surface of the circuit board main body 200 is provided with a fourth connector mounting area 240, a fifth connector mounting area 250, a sixth connector mounting area 260, a seventh connector mounting area 270, an eighth connector mounting area 280 and a plurality of ninth connector mounting areas 290, wherein the ninth connector mounting area 290 is positioned between the fourth connector mounting area 240 and the fifth connector mounting area 250;

the connector module 300 includes a first connector unit 310 and a second connector unit 320, the first connector unit 310 being mounted to one side of the circuit board body 200 and the second connector unit 320 being mounted to the other side of the circuit board body 200; the first connector unit 310 comprises a radio frequency coaxial electrical connector 311 (SMP-JHD), an optical module 312 (HTS 1302-LH) and a number of electrical connectors 313 (J30J), the radio frequency coaxial electrical connector 311 being mounted to the first connector mounting area 210, the optical module 312 being mounted to the second mounting area 220 and the electrical connector 313 being mounted to the third connector mounting area 230; the second connector unit 320 includes a first connector 321 (JL 24), a second connector 322 (JL 24), a third connector 323 (emulator), a fourth connector 324 (SL 65), a fifth connector 325 (JL 24), and a plurality of sixth connectors 326 (ASP-134486), the first connector 321 being mounted to the fourth connector mounting region 240, the second connector 322 being mounted to the fifth connector mounting region 250, the third connector 323 being mounted to the sixth connector mounting region 260, the fourth connector 324 being mounted to the seventh connector mounting region 270, the fifth connector 325 being mounted to the eighth connector mounting region 280 and the sixth connector 326 being mounted to the ninth connector mounting region 290;

the housing 100 is provided with a first mounting opening 110, a second mounting opening 120, a third mounting opening 130, a fourth mounting opening 140, a fifth mounting opening 150, a sixth mounting opening 160 and a side 140, wherein the first mounting opening 110 surrounds the first connector 321, the second mounting opening 120 surrounds the second connector 322, the third mounting opening 130 surrounds the third connector 323, the fourth mounting opening 140 surrounds the fourth connector 324, the fifth mounting opening 150 surrounds the fifth connector 325, the sixth mounting opening 160 surrounds the sixth connector 326, and the electrical connector 313 is mounted on the connector mounting position 171 of the side 170.

Specifically, the fourth connector mounting area 240 is located at one end of the circuit board body 200 and the fifth connector mounting area 250, the sixth connector mounting area 260, the seventh connector mounting area 270, and the eighth connector mounting area 280 are located at the other end of the circuit board body 200.

More specifically, the electrical connector 313 includes a wire harness 3131, a rigid-flexible board 3132, and a connector body 3133, the wire harness 3131 is mounted on the circuit board body 200, one end of the rigid-flexible board 3132 is connected to the wire harness 3131, and the other end of the rigid-flexible board 3132 is connected to the connector body 3133.

Further, the connector body 3133 is mounted to the connector mounting position 171.

Further, the side 170 is further provided with a plurality of positioning holes 172.

It should be noted that technical features such as a control module and the like related to the present application should be considered as the prior art, and specific structures, working principles of the technical features, and control modes and spatial arrangements possibly related to the technical features should be selected conventionally in the art, and should not be considered as the point of the utility model of the present application, and the present application is not further specifically developed in detail.

Modifications of the embodiments described above, or equivalents of some of the features may be made by those skilled in the art, and any modifications, equivalents, improvements or etc. within the spirit and principles of the present utility model are intended to be included within the scope of the present utility model.

Claims (5)

1. The utility model provides an assembly structure of control module, its characterized in that includes shell, circuit board main part and connector module, the circuit board main part with the connector module all install in the shell and the circuit board main part with the connector module connects, wherein:

a first connector installation area, a second installation area and a plurality of third connector installation areas are arranged on one side surface of the circuit board main body, the third connector installation areas are positioned on the side edge of the circuit board main body, and a concave structure is arranged between the adjacent third connector installation areas positioned on the same side edge; the circuit board comprises a circuit board main body, wherein the other side surface of the circuit board main body is provided with a fourth connector installation area, a fifth connector installation area, a sixth connector installation area, a seventh connector installation area, an eighth connector installation area and a plurality of ninth connector installation areas, and the ninth connector installation area is positioned between the fourth connector installation area and the fifth connector installation area;

the connector module includes a first connector unit mounted to one side of the circuit board body and a second connector unit mounted to the other side of the circuit board body; the first connector unit comprises a radio frequency coaxial electric connector, an optical module and a plurality of electric connectors, wherein the radio frequency coaxial electric connector is installed in the first connector installation area, the optical module is installed in the second installation area, and the electric connectors are installed in the third connector installation area; the second connector unit comprises a first connector, a second connector, a third connector, a fourth connector, a fifth connector and a plurality of sixth connectors, wherein the first connector is installed at the fourth connector installation area, the second connector is installed at the fifth connector installation area, the third connector is installed at the sixth connector installation area, the fourth connector is installed at the seventh connector installation area, the fifth connector is installed at the eighth connector installation area and the sixth connector is installed at the ninth connector installation area;

the shell is provided with a first mounting opening, a second mounting opening, a third mounting opening, a fourth mounting opening, a fifth mounting opening, a sixth mounting opening and a side edge, wherein the first mounting opening surrounds the first connector, the second mounting opening surrounds the second connector, the third mounting opening surrounds the third connector, the fourth mounting opening surrounds the fourth connector, the fifth mounting opening surrounds the fifth connector, the sixth mounting opening surrounds the sixth connector, and the electric connector is mounted at a connector mounting position of the side edge.

2. The fitting structure of a control module according to claim 1, wherein the fourth connector mounting area is located at one end of the circuit board main body and the fifth connector mounting area, the sixth connector mounting area, the seventh connector mounting area, and the eighth connector mounting area are located at the other end of the circuit board main body.

3. The assembly structure of claim 2, wherein the electrical connector includes a wire harness seat, a rigid-flexible board, and a connector body, the wire harness seat is mounted to the circuit board body, one end of the rigid-flexible board is connected to the wire harness seat, and the other end of the rigid-flexible board is connected to the connector body.

4. A control module mounting structure according to claim 3, wherein said connector body is mounted to said connector mounting position.

5. The assembly structure of claim 4, wherein the side edges are further provided with a plurality of positioning holes.