CN214100039U - Connector frame and connector assembly of single assembly module - Google Patents

Abstract

The utility model discloses a connector frame and a connector component of a single assembly module, which comprises a first half frame and a second half frame which are rotationally connected; the first half frame is provided with a first body part and a first side part which are vertical to each other; the second half frame is provided with a second body part and a second side part which are vertical to each other; the first body part and the second body part are respectively provided with a holding unit for holding the splicing module; a stop salient point which is outwards convex in the wall thickness direction of the first side part is formed on the first side part, and a stop groove which is inwards concave in the wall thickness direction of the second side part is formed on the second side part; the stop salient points are matched with the stop grooves, so that the two half frames can be kept in a stable state in an open state and a closed state respectively. The utility model can keep the two half frames in stable state in the open state and the closed state, and the splicing module can conveniently pass in and out between the two half frames; the utility model is suitable for a to singly organizing assemble the module and assemble the connection, convenient to use.

Description

Connector frame and connector assembly of single assembly module

Technical Field

The utility model relates to an electric connector technical field who assembles the module especially relates to a connector frame and connector assembly of module are assembled to single.

Background

The electric splicing module is used for connecting circuits on different equipment or connecting different modules in the circuits, so that current or signals can flow or be transmitted, and the circuits can realize preset functions. The existing electrical assembly module comprises a male assembly module and a female assembly module, and the connection mode of the electrical assembly module is generally that the male assembly module is inserted into the female assembly module, and an electrical connection terminal in the male assembly module is electrically connected with an electrical connection terminal in the female assembly module.

At present, all be direct plug to single module of assembling, can not be for its be equipped with connector frame, also lack the connector frame that the module was assembled to the adaptation list on the market for single module of assembling receives the restriction when some occasions use, uses inconveniently.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the deficiencies in the prior art, the utility model provides a connector frame and connector assembly of module are assembled to single be applicable to single built-up connection who assembles the module.

The technical scheme is as follows: to achieve the above object, the present invention provides a connector frame for a single assembled module, which comprises two half frames, namely: a first half frame and a second half frame;

the first half frame is provided with a first body part and a first side part which are vertical to each other; the second half frame is provided with a second body part and a second side part which are perpendicular to each other;

the first body part and the second body part are respectively provided with a holding unit for holding the splicing module; the end part of the first side part is hinged with the end part of the second side part;

the first side part is provided with a stop salient point which protrudes outwards in the wall thickness direction, and the second side part is provided with a stop groove which protrudes inwards in the wall thickness direction;

the stop protruding points and the stop grooves are arranged independently, the other stop protruding points and the stop grooves are arranged in pairs, and the stop protruding points and the stop grooves are matched to enable the two half frames to be capable of keeping stable states in an open state and a closed state respectively.

Furthermore, the holding units on the first body part and the second body part are respectively a first square hole and a second square hole, and the specification sizes of the first square hole and the second square hole are different.

Further, in both the first side portion and the second side portion, an end of one of the first side portion and the second side portion is provided with an articulated arm, and the other one is formed with an activity field for the articulated arm to move in;

the relative rotation axes of the two half-frames are located at the ends of the articulated arms and at the roots of the active zones.

Further, the stop protruding point and the stop groove are respectively formed on one side end face of the hinge arm and the bottom face of the movable area.

Further, the thickness of the hinge arm and the thickness of the bottom of the active region are thinner than the thickness of the side wall of each hinge arm.

Furthermore, a first flange and a second flange are respectively formed on the first half frame and the second half frame; and fixing holes are formed in the first flange and the second flange.

Furthermore, in the first flange and the second flange, a grounding male pin is fixed on one of the first flange and the second flange, and a grounding female pin is fixed on the other flange.

A connector assembly comprises the connector frame of the single splicing module, a first protective cover and a second protective cover;

the two connector frames are respectively fixed relative to the first protective cover and the second protective cover;

the first protection cover and the second protection cover can be relatively fixed and can be relatively detached.

Furthermore, a lock catch is rotatably mounted on the second protective cover, and an ear post matched with the lock catch for use is formed on the first protective cover.

Furthermore, a first flange and a second flange are respectively formed on the first half frame and the second half frame; fixing holes are formed in the first flange and the second flange;

mounting holes are respectively formed in the first protective cover and the second protective cover; and the two half frames of each connector frame are fixed relative to the corresponding protective covers through screws which penetrate through the fixing holes and are screwed into the mounting holes.

Has the advantages that: the connector frame and the connector component of the single assembly module of the utility model have the advantages that the two half frames which are rotatably connected are arranged, and the stop convex points and the stop grooves are respectively arranged on the two half frames, so that the two half frames can keep stable states in an open state and a closed state, and the assembly module can conveniently pass in and out between the two half frames; this connector frame and connector subassembly of module are assembled to single group are applicable to and assemble the module and assemble the connection, and the safety cover that the connector subassembly contains can protect the module of assembling, and because the connector frame is fixed in the safety cover, can assemble the plug of module simultaneously through the safety cover that opens and shuts, convenient to use.

Drawings

FIG. 1 is a block diagram of a connector frame in a closed position;

FIG. 2 is a block diagram of the connector frame in an open position;

FIG. 3 is a view of the first side section;

FIG. 4 is a view of a second side section;

FIG. 5 is an exploded view of the connector assembly;

FIG. 6 is an external view of the connector assembly;

fig. 7 is a cross-sectional view of the connector assembly.

In the figure: 1-a first half-frame; 11-a first body portion; 12-a first side; 13-stopping salient points; 14-a first square hole; 15-an articulated arm; 16-a first flange; 17-a rotating shaft; 2-second half-frame; 21-a second body portion; 22-a second side; 23-a stop groove; 24-a second square hole; 25-activity domain; 26-a second flange; 27-hinge hole; 3-a grounding male pin; 4-a grounding female pin; 5-a first protective cover; 51-ear post; 6-a second protective cover; 7-locking; 8-a screw; 9-a first splicing module; 10-a second assembly module.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The connector frame of a single building module as shown in fig. 1 and 2, comprises two half-frames, namely: a first half frame 1 and a second half frame 2; the first half frame 1 is provided with a first body part 11 and a first side part 12 which are perpendicular to each other, and the first side part 12 is connected to both ends of the first body part 11 so that the first half frame 1 is U-shaped; the second half frame 2 is provided with a second body part 21 and a second side part 22 which are perpendicular to each other, and the second side part 22 is connected to both ends of the second body part 21 so that the second half frame 2 is U-shaped; the first body portion 11 and the second body portion 21 are respectively provided with a holding unit for holding the assembly module; the end of the first side portion 12 and the end of the second side portion 22 are hinged to each other; as shown in fig. 3, the first side portion 12 is formed with a stopper projection 13 projecting outward in the wall thickness direction thereof, and as shown in fig. 4, the second side portion 22 is formed with a stopper recess 23 recessed inward in the wall thickness direction thereof; one of the stop salient points 13 and the stop grooves 23 is arranged independently, and the other is arranged in pairs, so that the two half frames can keep stable states in an open state and a closed state respectively by matching. In this embodiment, there is one stop protrusion 13 and two stop recesses 23, and the two half frames are respectively kept in the open state and the closed state by the stop protrusion 13 respectively cooperating with the two stop recesses 23.

When the two half frames are in an open state, as shown in fig. 2, an included angle between the first body portion 11 and the second body portion 21 is an acute angle, and the assembly module can enter and exit between the two half frames; when the two half frames are in the closed state, as shown in fig. 1, the first body portion 11 and the second body portion 21 are parallel to each other, and the holding units on the two half frames act on the assembling module, so that the assembling module cannot be separated from the frame body formed by the two half frames. The design of the stop salient point 13 and the stop groove 23 enables the two half frames to be automatically kept in an open state or a closed state, the relative state of the two half frames does not need to be manually kept by a user, and the trouble caused by the automatic rotation of the two half frames in the operation process can be effectively prevented. Only when the half frames are subjected to the moment above a certain numerical value, the stop salient points 13 can be separated from the current stop grooves 23, so that the two half frames rotate relatively. Because the protruding direction of the stop convex point 13 and the recessed direction of the stop concave groove 23 are both in the wall thickness direction of the side portion where the protruding direction and the recessed direction of the stop concave groove 23 are located, and the wall thickness direction is the direction in which the elasticity of the first side portion 12 and the second side portion 22 is the largest, the stop convex point 13 can be easily separated from the stop concave groove 23, and the stop convex point 13 is prevented from being worn too fast.

The two sides of the assembly module are provided with lugs, the specifications and the sizes of the two lugs are different, correspondingly, the holding units on the first body part 11 and the second body part 21 are respectively a first square hole 14 and a second square hole 24, the first square hole 14 and the second square hole 24 are respectively one, the specifications and the sizes of the first square hole and the second square hole are different, the specifications and the sizes of the first square hole and the second square hole are respectively matched with the specifications and the sizes of the two lugs on the assembly module, and therefore the foolproof effect can be achieved, and the assembly module is prevented from being reversely assembled.

The first side portion 12 is provided with an articulated arm 15 at an end thereof (as shown in fig. 3), and the second side portion 22 is formed with an active region 25 (as shown in fig. 4) in which the articulated arm 15 moves; the opposite pivots of the two half-frames are located at the end of the articulated arm 15 and at the root of the active area 25, in particular, the end of the articulated arm 15 is provided with the pivot 17, the root of the active area 25 is provided with a hinge hole 27, and the pivot 17 is in rotating fit with the hinge hole 27.

The stop protrusion 13 and the stop groove 23 are formed on one end surface of the hinge arm 15 and the bottom surface of the movable region 25, respectively. The thickness of the hinge arm 15 and the thickness of the bottom of the active area 25 are thinner than the thickness of the walls of the respective sides (i.e., the first side 12 and the second side 22), and the total thickness of the hinge arm 15 and the bottom of the active area 25 is equal to the thickness of the first side 12 and the thickness of the second side 22.

Furthermore, in order to facilitate the external fixation of the two half frames, the first half frame 1 and the second half frame 2 are respectively provided with a first flange 16 and a second flange 26; the first flange 16 and the second flange 26 are each formed with a fixing hole.

One of the first flange 16 and the second flange 26 is fixed with a grounding male pin 3, and the other is fixed with a grounding female pin 4. In actual use, the connector frames are all used in pairs, an assembly module is installed on each connector frame, the assembly modules on the two connector frames are arranged in pairs, the two connector frames are relatively close to each other and can realize the opposite insertion of all the assembly modules on the two connector frames, and when the assembly modules on the two connector frames are opposite inserted, the grounding male pin 3 and the grounding female pin 4 on the two connector frames are also opposite inserted respectively. The grounding pin can make two half frames grounded so as to make all the assembled modules in the holding frame grounded, and prevent static electricity from damaging the assembled modules or prevent the assembled modules from leaking electricity to harm the safety of people and equipment.

The utility model also provides a connector assembly, as shown in the attached figures 5-7, which comprises two connector frames, a first protective cover 5 and a second protective cover 6; the two connector frames can be fixed with respect to the first protective cover 5 and the second protective cover 6, respectively; the first protective cover 5 and the second protective cover 6 can be fixed relatively and can be detached relatively.

Specifically, the second protective cover 6 is rotatably mounted with the latch 7, and the first protective cover 5 is formed with an ear post 51 for cooperating with the latch 7. Through the structure, the latch 7 can be overlapped on the ear post 51 through forward rotation of the latch 7 to realize relative fixation of the first protective cover 5 and the second protective cover 6, and in addition, the latch 7 can be separated from the ear post 51 through reverse rotation of the latch 7, so that the two protective covers can be separated relatively.

During the use, the module 10 is assembled to the first module 9 of assembling that can peg graft relatively and second and fixes respectively on two connector frames, and two connector frames are fixed respectively to first safety cover 5 and second safety cover 6 in, so, can assemble module 10 with the second with first module 9 of assembling simultaneously and counterpoint when mutually buckling first safety cover 5 and second safety cover 6.

The first protective cover 5 and the second protective cover 6 are respectively provided with mounting holes therein; the two half frames of each connector frame are fixed relative to the corresponding protective covers by screws 8 (as shown in fig. 7) passing through the fixing holes and screwed into the mounting holes, so that the fixation of the connector frame relative to the protective covers can be improved.

The connector frame and the connector component of the single assembly module of the utility model have the advantages that the two half frames which are rotatably connected are arranged, and the stop convex points and the stop grooves are respectively arranged on the two half frames, so that the two half frames can keep stable states in an open state and a closed state, and the assembly module can conveniently pass in and out between the two half frames; this connector frame and connector subassembly of module are assembled to single group are applicable to and assemble the module and assemble the connection, and the safety cover that the connector subassembly contains can protect the module of assembling, and because the connector frame is fixed in the safety cover, can assemble the plug of module simultaneously through the safety cover that opens and shuts, convenient to use.

The above description is only a preferred embodiment of the present invention, and it should be noted that: for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims (10)

1. A connector frame of a single building block module, characterized in that it comprises two half-frames, namely: a first half frame (1) and a second half frame (2);

the first half frame (1) is provided with a first body part (11) and a first side part (12) which are perpendicular to each other; the second half frame (2) is provided with a second body part (21) and a second side part (22) which are perpendicular to each other;

the first body part (11) and the second body part (21) are respectively provided with a holding unit for holding the splicing module; the end of the first side part (12) and the end of the second side part (22) are hinged with each other;

a stop salient point (13) which protrudes outwards in the wall thickness direction of the first side part (12) is formed on the first side part, and a stop groove (23) which protrudes inwards in the wall thickness direction of the second side part (22) is formed on the second side part;

one of the stop salient points (13) and the stop grooves (23) is arranged independently, the other one is arranged in pairs, and the two half frames can be kept in a stable state in an open state and a closed state respectively by the cooperation of the two stop salient points and the stop grooves.

2. A connector frame of a single building module according to claim 1, characterised in that the holding means on the first body part (11) and the second body part (21) are a first square hole (14) and a second square hole (24), respectively, and the dimensions of the two are different.

3. Connector frame of a single mosaic module according to claim 1, wherein in both said first side portion (12) and said second side portion (22) one of the ends is provided with an articulated arm (15) and the other has an active zone (25) formed thereon in which said articulated arm (15) moves;

the relative rotation axes of the two half-frames are located at the ends of the articulated arm (15) and at the root of the active area (25).

4. The connector frame of a single mosaic module according to claim 3, characterized in that, stop lug (13) and stop groove (23) are formed on one side end face of the hinge arm (15) and the bottom surface of the active domain (25), respectively.

5. Connector frame of individual building modules according to claim 4, characterised in that the thickness of the hinge arms (15) and the thickness of the bottom of the active area (25) are each thinner than the wall thickness of the respective side.

6. A connector frame of a single building module according to claim 1, characterised in that the first half-frame (1) and the second half-frame (2) are formed with a first flange (16) and a second flange (26), respectively; the first flange (16) and the second flange (26) are both provided with fixing holes.

7. Connector frame of individual building blocks according to claim 6, characterized in that of the first flange (16) and the second flange (26) a grounding male pin (3) is fixed on one and a grounding female pin (4) is fixed on the other.

8. Connector assembly, characterized in that it comprises two connector frames of a single building module according to any one of claims 1 to 5, further comprising a first protective shield (5) and a second protective shield (6);

-both said connector frames are fixable with respect to said first protective cover (5) and said second protective cover (6), respectively;

the first protective cover (5) and the second protective cover (6) can be relatively fixed and can be relatively detached.

9. Connector assembly according to claim 8, wherein the second protective shield (6) is rotatably mounted with a latch (7), and the first protective shield (5) is formed with an ear post (51) for engaging the latch (7).

10. Connector assembly according to claim 8, characterized in that the first half-frame (1) and the second half-frame (2) are formed with a first flange (16) and a second flange (26), respectively; fixing holes are formed in the first flange (16) and the second flange (26);

the first protective cover (5) and the second protective cover (6) are respectively provided with mounting holes therein; the two half-frames of each connector frame are fixed relative to their corresponding protective covers by screws (8) passing through the fixing holes and screwed into the mounting holes.

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