CN219739495U - Floating connector capable of being installed quickly - Google Patents

Abstract

The utility model relates to a quick-mounting floating connector, which comprises an outer conductor assembly, a first connecting piece, a second connecting piece and a third connecting piece, wherein the outer conductor assembly comprises a first outer conductor, a second outer conductor and a third outer conductor; an axial elastic floating is formed between the first outer conductor and the second outer conductor; the third outer conductor is arranged in the second outer conductor and forms radial elastic abutting joint with the inner hole of the first outer conductor; an inner conductor assembly including a first inner conductor and a second inner conductor; the outer end of the second inner conductor forms an elastic slot, and the inner end forms a plug; the outer end of the first inner conductor forms a plug, and the inner end forms an elastic slot; the inner end plug of the second inner conductor is spliced with the inner end elastic slot of the first inner conductor. The floating connector capable of being quickly installed can realize quick, stable and reliable connection during installation of the panel connector, is convenient to operate, greatly saves production cost, and simultaneously improves the applicability of the panel connector.

Description

Floating connector capable of being installed quickly

Technical Field

The utility model relates to the technical field of communication, in particular to a floating connector capable of being installed quickly.

Background

The panel connector is an electromechanical element with electrical connection characteristics, has the main functions of realizing the floating requirement of special occasions and realizing the purpose of quick installation, is used for panel installation, and is a component for realizing quick connection and achieving stable performance in the technical field of the panel connector with the floating quick installation.

With the development of production mechanization and automation, the production efficiency is greatly improved, new requirements are provided for the installation efficiency and effect of the panel connector, as a necessary element of products in the communication industry, the panel connector is researched to meet the requirements of rapidness, high efficiency and stability, and the whole product is miniaturized, light and densely packed, so that the development of the panel connector for floating rapid installation is challenged in aspects of research material selection, structural design, establishment of a process route and the like.

Accordingly, there is an urgent need to develop a floating connector that can be quickly installed to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to solve the technical problems that: the floating connector overcomes the defects of the prior art, provides a floating connector capable of being installed quickly, and solves the problems of how to meet the requirements of rapidness, high efficiency and stability, and the overall light weight and intensive requirements of the product.

The technical scheme adopted for solving the technical problems is as follows:

provided is a quick-installable floating connector including

An outer conductor assembly including a first outer conductor, a second outer conductor, and a third outer conductor; the front end of the second outer conductor is inserted into the rear end of the first outer conductor, and axial elastic floating is formed between the first outer conductor and the second outer conductor;

the third outer conductor is arranged in the second outer conductor, the rear end of the third outer conductor is fixedly connected with the second outer conductor, and the front end of the third outer conductor is inserted into the inner hole of the first outer conductor and forms radial elastic abutting connection with the inner hole of the first outer conductor;

the inner conductor assembly comprises a first inner conductor and a second inner conductor, wherein the first inner conductor is fixedly arranged in an inner hole of the first outer conductor through a first insulating block, and the second inner conductor is fixedly arranged in a third outer conductor through a second insulating block;

the outer end of the second inner conductor forms an elastic slot, and the inner end forms a plug; the outer end of the first inner conductor forms a plug, and the inner end forms an elastic slot; the inner end plug of the second inner conductor is spliced with the inner end elastic slot of the first inner conductor.

Further, the axial elastic floating structure between the second outer conductor and the first outer conductor is as follows:

a first floating channel formed between the outer wall of the second outer conductor and the inner wall of the second outer conductor;

a second floating channel formed between the second outer conductor inner wall and the third outer conductor outer wall;

the spring is arranged in the first floating channel, and two ends of the spring are respectively and axially abutted against the first outer conductor and the second outer conductor;

an inner convex ring is formed on the inner wall of the first outer conductor, the inner convex ring is inserted into the second floating channel, and the front end of the third outer conductor is elastically abutted against the inner wall of the inner convex ring in a radial direction;

the disc reed is arranged between the second outer conductor and the first outer conductor, the inner ring end edge of the disc reed is clamped in the clamping groove of the outer wall of the second outer conductor, and the outer ring end edge of the disc reed is abutted with the limiting step of the inner wall of the first outer conductor so as to limit the second outer conductor to move out of the first outer conductor.

Further, a flat body is arranged on one side of the first outer conductor, and connecting threads are arranged on the other side of the first outer conductor.

Furthermore, the front end plug-in part of the third outer conductor is provided with a plurality of axial split grooves so as to enable the front end plug-in part of the third outer conductor to have radial elasticity.

Further, the plug at the outer end of the first inner conductor is an oval ball head;

the oval ball head is provided with a plurality of axial split grooves so that the oval ball head has radial elasticity.

Further, the first insulating block is disposed in the first outer conductor via a fixing block.

Further, the outer wall of the second inner conductor is provided with a cone-shaped barb, and a barb groove is arranged in the second insulating block, and the cone-shaped barb is matched with the barb groove to limit the movement of the second inner conductor in the second insulating block.

The beneficial effects of the utility model are as follows:

the floating connector capable of being quickly installed can realize quick, stable and reliable connection during installation of the panel connector, is convenient to operate, greatly saves production cost, and simultaneously improves the applicability of the panel connector.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIGS. 1 and 2 are schematic views of a quick-install floating connector of the present utility model;

FIG. 3 is a 1/4 cross-sectional view of the outer conductor assembly;

FIG. 4 is a 1/4 cross-sectional view of the inner conductor assembly;

wherein, the liquid crystal display device comprises a liquid crystal display device,

21. a first outer conductor 211, an inner convex ring 212, a flat body 213, connecting threads 22, a second outer conductor 23 and a third outer conductor;

31. a first inner conductor 311, an oval ball head 32, a second inner conductor 321, and a cone-shaped barb;

41. a spring, 42, disc reed;

51. a first insulating block 52, a second insulating block;

6. a fixed block;

71. first floating channels, 72, second floating channels.

Detailed Description

The utility model will now be further described with reference to the accompanying drawings. These drawings are simplified schematic views illustrating the basic structure of the present utility model by way of illustration only, and thus show only the constitution related to the present utility model.

As shown in fig. 1 to 4, a quick-installable floating connector includes

An outer conductor assembly including a first outer conductor 21, a second outer conductor 22, and a third outer conductor 23; the front end of the second outer conductor 22 is inserted into the rear end of the first outer conductor 21, and axial elastic floating is formed between the first outer conductor 21 and the second outer conductor 22;

the third outer conductor 23 is disposed in the second outer conductor 22, the rear end of the third outer conductor is fixedly connected with the second outer conductor 22, and the front end of the third outer conductor is inserted into the inner hole of the first outer conductor 21 and forms radial elastic abutting connection with the inner hole of the first outer conductor 21;

an inner conductor assembly comprising a first inner conductor 31 and a second inner conductor 32, the first inner conductor 31 being fixedly disposed in an inner bore of the first outer conductor 21 via a first insulating block 51, the second inner conductor 32 being fixedly disposed in the third outer conductor 23 via a second insulating block 52;

the outer end of the second inner conductor 32 forms an elastic slot, and the inner end forms a plug; the outer end of the first inner conductor 31 forms a plug, and the inner end forms an elastic slot; the plug at the inner end of the second inner conductor 32 is plugged with the elastic slot at the inner end of the first inner conductor 31.

Specifically, as an alternative implementation manner in this embodiment, as shown in fig. 2 to fig. 4, the axial elastic floating structure between the second outer conductor 22 and the first outer conductor 21 is:

a first floating channel 71 formed between the outer wall of the second outer conductor 22 and the inner wall of the second outer conductor 22;

a second floating channel 72 formed between the inner wall of the second outer conductor 22 and the outer wall of the third outer conductor 23;

a spring 41 disposed in the first floating passage 71, and having both ends axially abutting the first outer conductor 21 and the second outer conductor 22, respectively;

an inner convex ring 211 is formed on the inner wall of the first outer conductor 21, the inner convex ring 211 is inserted into the second floating channel 72, and the front end of the third outer conductor 23 is elastically abutted against the inner wall of the inner convex ring 211 in a radial direction;

the disc reed 42 is arranged between the second outer conductor 22 and the first outer conductor 21, the inner ring end edge of the disc reed is clamped in a clamping groove on the outer wall of the second outer conductor 22, and the outer ring end edge of the disc reed is abutted against a limiting step on the inner wall of the first outer conductor 21 so as to limit the second outer conductor 22 to move out of the first outer conductor 21, and the inner floating of the outer conductor assembly is realized.

As shown in fig. 2 and 3, the provision of the disc spring 42 does not affect the compressive movement of the second outer conductor 22 toward the second outer conductor 22, but can restrict the movement of the second outer conductor 22 out of the first outer conductor 21 so that axial movement is maintained between the first outer conductor 21 and the second outer conductor 22, avoiding the two from becoming separated.

Specifically, as an alternative implementation manner in this embodiment, as shown in fig. 1 and fig. 2, a flat body 212 is disposed on one side of the first outer conductor 21, and a connecting thread 213 is disposed on the other side.

By means of the flat body 212 and the connecting screw threads 213, a quick, stable and reliable connection is achieved when the connector is mounted with the panel.

Specifically, as an alternative implementation manner in this embodiment, as shown in fig. 2 to fig. 4, the front end plugging portion of the third outer conductor 23 is provided with a plurality of axial split grooves, where each axial split groove is circumferentially and uniformly distributed, and then the front end plugging portion of the third outer conductor 23 has radial elasticity through an expanding port and an aging treatment process.

The front end plug-in part of the third outer conductor 23 is inserted into the inner convex ring 211 and radially abutted against the inner hole wall of the inner convex ring 211 to realize close contact.

Specifically, as an alternative implementation manner in this embodiment, as shown in fig. 2 to fig. 4, the plug at the outer end of the first inner conductor 31 is an oval ball 311;

the oval ball 311 is provided with a plurality of axial split grooves, each axial split groove is uniformly distributed circumferentially, and then the oval ball 311 has radial elasticity through an expanding port and an aging treatment process.

Specifically, as an alternative implementation manner in the present embodiment, as shown in fig. 2 and 4, the first insulating block 51 is disposed in the first outer conductor 21 via the fixing block 6.

Specifically, as an alternative implementation in this embodiment, as shown in fig. 2 and 4, the outer wall of the second inner conductor 32 is provided with a cone-shaped barb 321, and the second insulating block 52 is provided with a barb groove, and the cone-shaped barb 321 cooperates with the barb groove to limit the movement of the second inner conductor 32 in the second insulating block 52.

In this patent application, the inner conductor and the outer conductor are both processed by using elastic materials.

The quick-installable floating connector of the present utility model can be quickly connected with an installation panel by the connecting screw thread 213 on the first outer conductor 21, and the connector is fixed by the flat body 212; through oval bulb 311 on the first inner conductor 31, directly insert with the butt joint conductor, need not processes such as welding or dress and connect, can realize quick and stable connection, wholly realized panel connector quick, high-efficient, stable, and the whole miniaturization of product, lightweight, the requirement of densification have practiced thrift manufacturing and installation cost greatly, improve this quick panel connector's of floating suitability.

With the above-described preferred embodiments according to the present utility model as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present utility model. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims (7)

1. A quick-install floating connector comprising

An outer conductor assembly including a first outer conductor, a second outer conductor, and a third outer conductor; the front end of the second outer conductor is inserted into the rear end of the first outer conductor, and axial elastic floating is formed between the first outer conductor and the second outer conductor;

the third outer conductor is arranged in the second outer conductor, the rear end of the third outer conductor is fixedly connected with the second outer conductor, and the front end of the third outer conductor is inserted into the inner hole of the first outer conductor and forms radial elastic abutting connection with the inner hole of the first outer conductor;

the inner conductor assembly comprises a first inner conductor and a second inner conductor, wherein the first inner conductor is fixedly arranged in an inner hole of the first outer conductor through a first insulating block, and the second inner conductor is fixedly arranged in a third outer conductor through a second insulating block;

the outer end of the second inner conductor forms an elastic slot, and the inner end forms a plug; the outer end of the first inner conductor forms a plug, and the inner end forms an elastic slot; the inner end plug of the second inner conductor is spliced with the inner end elastic slot of the first inner conductor.

2. The quick-install floating connector of claim 1, wherein,

the axial elastic floating structure between the second outer conductor and the first outer conductor is as follows:

a first floating channel formed between the outer wall of the second outer conductor and the inner wall of the second outer conductor;

a second floating channel formed between the second outer conductor inner wall and the third outer conductor outer wall;

the spring is arranged in the first floating channel, and two ends of the spring are respectively and axially abutted against the first outer conductor and the second outer conductor;

an inner convex ring is formed on the inner wall of the first outer conductor, the inner convex ring is inserted into the second floating channel, and the front end of the third outer conductor is elastically abutted against the inner wall of the inner convex ring in a radial direction;

the disc reed is arranged between the second outer conductor and the first outer conductor, the inner ring end edge of the disc reed is clamped in the clamping groove of the outer wall of the second outer conductor, and the outer ring end edge of the disc reed is abutted with the limiting step of the inner wall of the first outer conductor so as to limit the second outer conductor to move out of the first outer conductor.

3. The quick-install floating connector of claim 1, wherein,

one side of the first outer conductor is provided with a flat body, and the other side of the first outer conductor is provided with connecting threads.

4. The quick-install floating connector of claim 1, wherein,

the front end plug-in part of the third outer conductor is provided with a plurality of axial split grooves so as to enable the front end plug-in part of the third outer conductor to have radial elasticity.

5. The quick-install floating connector of claim 1, wherein,

the plug at the outer end of the first inner conductor is an oval ball head;

the oval ball head is provided with a plurality of axial split grooves so that the oval ball head has radial elasticity.

6. The quick-install floating connector of claim 1, wherein,

the first insulating block is arranged in the first outer conductor through the fixed block.

7. The quick-install floating connector of claim 1, wherein,

the outer wall of the second inner conductor is provided with a cone-shaped barb, a barb groove is arranged in the second insulating block, and the cone-shaped barb is matched with the barb groove to limit the second inner conductor to move in the second insulating block.