KR101871957B1 - Detachable fixed type coaxial cable connector - Google Patents

Abstract

The present invention relates to a coaxial cable connector which not only completely prevents mutual separation of male and female connector bodies against strong impact, but also minimizes contact failure due to shaking at a connection portion. The coaxial cable connector according to the present invention includes: a female connector body (100) including an elastic piece (112) having a latching protrusion (113) protruding inward; a male connector body (200) having a latching groove (230) into which the latching protrusion of the elastic piece is fitted; a separation preventing member (300) including a slider (310) fitted on the outer side of the male connector body and screwed to the female connector body, a spring (320) installed on the outer side of the male connector body to provide elastic force to the slider in the direction of the female connector body, and an elastic piece expansion prevention pipe (330) protruding from a front end of the slider and inserted into a space (S) between the inner peripheral surface of the female connector body and the elastic piece to prevent the elastic piece from being expanded when the slider moves toward the female connector body; and an identification part (370) for visually grasping whether the female connector body and the slider are screwed together.

Description

[0001] The present invention relates to a detachable fixed type coaxial cable connector,

The present invention relates to a coaxial cable connector which not only completely prevents mutual separation of male and female connector bodies against strong impact, but also minimizes contact failure due to shaking at a connection portion.

Generally, a coaxial cable connector for connecting coaxial cables is composed of a male connector body and a female connector body.

1 and 2, a conventional coaxial cable connector is provided with an elastic piece 10 having a locking protrusion 11 inside a female connector body 1, At one end thereof, there is provided an engaging groove 20 into which the engaging projection 11 of the elastic piece 10 is fitted.

Therefore, when one end of the male connector main body 2 is inserted into the female connector main body 1, one end of the male connector main body 2 enters the inside of the female connector main body 1 while expanding the elastic piece 10, So that the male and female connector bodies 1 and 2 are engaged with each other while the male and female parts 11 are caught by the engaging groove 20.

However, the conventional coaxial cable connector has a problem that it can not be completely prevented from being separated due to external impact due to the elastic force of the resilient piece 10 itself and the engagement of the engaging protrusion 11 only.

In addition, when male and female connector bodies 1 and 2 are engaged or disengaged from each other, the male connector main body 2 must be strongly pushed so that the elastic pieces 10 of the female connector body 1 are opened, The engagement protrusions 11 formed on the elastic pieces 10 of the female connector main body 1 can not be caught by the engagement of the male connector main body 2 with the male connector main body 2 until the male connector main body 2 is pulled out with a force larger than the strong elastic force of the male connector main body 10 There is a problem in that it is inconvenient for use due to excessive operation force due to the engagement and disassembly of the male and female connector bodies 1 and 2.

In addition, since the conventional coaxial cable connector has a structure in which the male connector main body 2 is inserted and coupled into the female connector main body 1, clearances are present between the male connector main bodies 2, A problem occurs in that the deterioration of the signal quality due to the contact failure is very large.

It is an object of the present invention to provide a coaxial cable connector in which the operating force required for mutual coupling and disassembly is minimized and rigidly coupled without flow.

In order to achieve the above object, a coaxial cable connector according to the present invention comprises: a male connector body having a female connector body having an elastic piece having a protruding locking protrusion toward the inner side, A slider which is fitted on the outer side of the male connector body and is screwed to the female connector body and a spring which is provided on the outer side of the male connector body to provide elastic force to the slider in the direction of the female connector body, A separation preventing member having a resilient piece preventive pipe which is inserted into a space between the inner circumferential surface of the female connector body and the resilient piece to block extension of the resilient piece when the slider moves toward the female connector body, An identification part for visually checking whether or not the slider is screwed And a female connector.

In addition, a threaded portion is formed at one end of the slider and at one end of the female connector body so that the slider and the female connector body are screwed in a state where the elastic piece splash prevention tube is fitted in the space between the inner circumferential surface of the female connector body and the resilient piece .

In this case, the identification portion may be formed by painting a thread portion of the slider in a circumferential direction in a different color from the surroundings.

Meanwhile, the outer surface of the slider may be provided with a handle pipe protruding to surround one end of the female connector body and moving toward the female connector body together with the slider when the slider is screwed.

In this case, the identification part may be painted on the outer circumferential surface of the female connector body so as to protrude or retract from the one end of the handle tube lever depending on whether the slider is screwed or not, And may be a lamp that emits light when a switch is pushed on one end of the pull pipe when the screwing of the slider to the outer circumferential surface is completed.

The coaxial cable connection module may be coupled to the female connector body and the male connector body, respectively.

In this case, the coaxial cable connection module includes an elastic frame member screwed to one end of the female connector main body or the male connector main body, and an input end fixed to the inside of the elastic frame member and made of a flexible material into which the coaxial cable is led, And a cable passing member having a discharge end made of a rigid material from which the cable is discharged.

The present invention configured as described above has a detachment preventing member that is fitted on the outer side of the male connector body and is screwed to the female connector body, thereby minimizing the operating force due to the engagement and disassembly of the male and female connector bodies, The deterioration of the contact quality and the deterioration of the signal quality due to the clearance between the male connector main body and the female connector main body can be prevented.

In addition, the present invention provides an identification part for visually grasping whether the female connector main body and the detachment preventing member are engaged with each other by a naked eye, so that the contact failure occurring without screwing the slider and the female connector main body There is an effect that can be prevented.

In addition, in the present invention, when the grip member is provided with the separation preventing member, the operator can easily screw the separation preventing member to the female connector body.

In this case, when the identification part is formed on the outer circumferential surface of the female connector body, it is very easy to grasp visually whether the separation preventing member is screwed or not through the identification part protruding and retracted from one end of the handle tube.

Further, when the identification part is formed on the outer circumferential surface of the female connector body in the form of a lamp, it is possible to more easily grasp whether the separation preventing member is screwed or not.

In addition, when the coaxial cable connection module is coupled to one end of the female connector body and the male connector body, the coaxial cable connection module absorbs the shock transmitted through the coaxial cable while being deformed by itself, It has the effect of preventing.

1 is an exploded perspective view showing an example of a conventional coaxial cable connector;
FIG. 2 is a cross-sectional view of the coupling state of FIG. 1; FIG.
3 is an exploded perspective view of a coaxial cable connector according to an embodiment of the present invention;
FIGS. 4 through 7 are sectional views of a coaxial cable connector according to an embodiment of the present invention;
8 is a cross-sectional view of a coaxial cable connector according to another embodiment of the present invention;
9 is a sectional view of a coaxial cable connector according to another embodiment of the present invention;
10 is a perspective view showing a coaxial cable connection module applied to a coaxial cable connector;
Fig. 11 is a sectional view of a state in which a coaxial cable connection module applied to a coaxial cable connector is installed; Fig.
12 is a perspective view showing a discharge end expansion module of the coaxial cable connection module; And
FIG. 13 is a cross-sectional view schematically showing a state in which the discharge end is expanded using the discharge end extension module. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and further description thereof will be omitted.

FIG. 3 is an exploded perspective view of a coaxial cable connector according to an embodiment of the present invention, and FIGS. 4 to 7 are sectional views of a coaxial cable connector according to an embodiment of the present invention, The connector includes a female connector body 100, a male connector body 200, and a separation preventing member 300.

The female connector body 100 is coupled to a coaxial cable (not shown), and a cylindrical coupling hole 110 is fixed in the female connector body 100. The insulator 120 and the center conductor connection pin 130 are sequentially disposed in the cylindrical coupling hole 110.

The cylindrical coupling member 110 has a shape in which an elastic piece 112 is integrally protruded between the notch grooves 111. At one end of the elastic piece 112, a locking protrusion 113 protrudes inward.

The male connector body 200 is coupled to the coaxial cable connection part 210 and the insulator 210 is fixed to the inside. A center conductor connection pin 211 is located inside the insulator 210.

One end of the male connector main body 200 has an outer diameter smaller than an inner diameter of the cylindrical coupling hole 110 so that the male coupling body 200 can be inserted into the cylindrical coupling hole 110 and a coupling protrusion 220 is formed. An engaging groove 230 is formed in the front of the engaging protrusion 220 in a direction toward the female connector body 100 so that the engaging protrusion 113 of the elastic piece 112 is engaged with the engaging groove 230.

The detachment preventing member 300 includes a slider 310 fitted on the outer side of the male connector body 200 and a female connector body 200 on the outer side of the male connector body 200, And a spring 320 for providing elastic force to the spring 320.

The slider 310 is provided at one end thereof with an elastic piece breaking prevention pipe 330 which is fitted into a space S formed between the female connector body 100 and the elastic piece 112 of the cylindrical coupling hole 110 . The inner circumferential surface of the slider 310 is formed with a protrusion 360 protruding to interfere with the protrusion 220 of the male connector body 200 to limit the forward movement of the slider 310.

A support ring 340 is coupled to the outer circumferential surface of the male connector body 200. One end 341 of the support ring 340 is inserted to the inside of the slider 310 to support one end of the spring 320 and the other end is formed with a step portion 342 protruding outward. The stepped portion 342 interferes with one end of the slider 310 to restrict the slider 310 from moving toward the male connector body 200 for a predetermined period or longer.

The male connector main body 200 and the male connector main body 100 are engaged with each other while the slider 310 and the female connector main body 100 are engaged with each other. Although the first screw portion 350 is formed on the slider 310 and the second screw portion 140 is formed on the female connector body 100 in the present embodiment, The positions of the screw portion 350 and the second screw portion 140 may be changed with each other.

Meanwhile, the first screw part 350 of the slider 310 may be provided with an identification part 370 for visually recognizing whether or not the screw is engaged. In this case, the identification unit 370 may be painted to have a color different from that of the surroundings along the circumferential direction, or may be formed through surface treatment so as to have a different gloss from the surroundings.

The operation of the connector of the present invention thus configured is as follows.

4, one end of the male connector body 200 and the other end of the female connector main body 100 are opposed to each other, and one end of the male connector body 200 is pushed forward, 100, one end of the male connector body 200 is inserted into the female connector body 100 while expanding the elastic pieces 112, as shown in FIG. At this time, the slider 310 stops moving to the female connector body 100 while interfering with the elastic piece 112 and the elastic piece breaking prevention tube 330.

6, when the male connector main body 200 is pushed toward the female connector main body 100 in the state where the movement of the slider 310 is stopped, the spring 320 is compressed, The locking protrusion 113 protruding from the inner surface of the elastic piece 112 is inserted into the locking groove 230 of the male connector main body 200 and is hooked The elastic piece 112 returns to its original shape.

When the resilient piece 112 returns to its original shape, the interference between one end of the resilient piece 112 and one end of the cylindrical slider 310 is released, so that the slider 310 is shifted to a free state, And is moved forward toward the female connector body 100 due to the elastic force of the spring 320.

When the slider 310 is moved forward as described above, the elastic piece breaking prevention pipe 330 is fitted into the space S formed between the main body of the female connector body 100 and the elastic piece 112, So that even if the male connector main body 200 is pulled backward, the engagement projection 113 of the elastic piece 112 is not released from the engagement groove 230.

Therefore, the male connector main body 200 and the female connector main body 100 can be stably maintained without being separated from each other.

7, the first screw portion 350 of the slider 310 and the second screw portion 140 formed on the female connector body 100 are screwed together. The female connector main body 100 and the male connector main body 200 can be fixed to each other even if a strong external force is applied to the connecting portions of the male and female connector bodies 100 and 200 because the slider 310 is firmly fixed to the female connector body 100, The connection state of the memory cell is kept very stable. Therefore, the present invention does not cause any deterioration in signal quality due to poor contact.

When the identification portion 370 is formed on the threaded portion of the slider 310, if the slider 310 and the female connector body 100 are not screwed together, the identification portion 370 is exposed to the outside, It is possible to easily grasp whether or not the screw is coupled through the presence or absence of the identification part 370. [

Therefore, it is possible to prevent a contact failure accident that is caused because the slider 310 and the female connector body 100 are not screwed together due to a work error.

According to the present invention, in order to separate the male connector main body 100 and the male connector main body 200 from each other, the screw connection between the slider 310 and the female connector main body 100 is released, and then the slider 310 is moved rearward All you have to do is pull.

When the slider 310 is pulled backward, the slider 310 moves backward along the male connector body 200 to push the support ring 340 backward. In this process, the elastic piece splash prevention pipe 330 The one end portion of the male connector body 200 can naturally escape from the female connector body 100 while expanding the elastic piece 112. As a result,

As described above, the coaxial cable connector of the present invention disengages the slider 310 and the female connector body 100 from each other, and then the female connector body 100 and the male connector 100 are connected to each other by only a small actuating force that slightly pulls the slider 310 backward. The main body 200 can be easily separated and is very convenient to use.

FIG. 8 is a sectional view of a coaxial cable connector according to another embodiment of the present invention. As shown in FIG. 8, a handle pipe 400 may be provided on an outer circumferential surface of the slider 310. In this case, since the handle tube 400 protrudes from the outer circumferential surface of the slider 310, it is convenient that the operator can rotate the slider 310 with great ease when the slider 310 is screwed.

In addition, the handle pipe 400 may be formed such that one end thereof protrudes to surround one end of the female connector body 100. In this case, the outer circumferential surface of the female connector main body 100 is covered by the handle tube 400 which moves toward the female connector body 100 together with the slider 310 when the slider 310 is screwed, It is preferable that the identification part 410 is formed so as to have a different color or luster from the surroundings along the circumferential direction.

When the identification part 410 is formed on the outer circumferential surface of the female connector main body 100 as described above, the operator confirms whether or not the slider 310 is screwed through the identification part 410 which protrudes and retracts from one end of the handle tube 400 It can be grasped easily by the naked eye. Therefore, it is possible to prevent a contact failure accident that is caused because the slider 310 and the female connector body 100 are not screwed together due to a work error.

FIG. 9 is a sectional view of a coaxial cable connector according to another embodiment of the present invention. As shown in FIG. 9, a grip pipe 400 may be provided on an outer circumferential surface of the slider 310, 100 may be provided with an identification part 420 having a lamp 422 that emits light when the switch 421 is pushed in at one end of the handle tube 400 when the slider 310 is completely screwed have.

In this case, the operator can more easily grasp visually whether the slider 310 is screwed or not by checking whether the lamp 422 is turned on. Therefore, it is possible to completely prevent an accidental contact failure which is caused by the fact that the slider 310 and the female connector body 100 are not screwed together due to a mistake in the operation.

10 is a perspective view showing a coaxial cable connection module applied to the coaxial cable connector, and FIG. 11 is a sectional view of the coaxial cable connector module in use;

10, the coaxial cable connection module 500 may be coupled to the other end of the male connector body 200, respectively.

The coaxial cable connection module 500 includes an elastic frame member 510 coupled to the other end of the female connector main body 100 or the male connector main body 200 and an elastic frame member 510 fixed to one side of the elastic frame member 510 A cable passing member 520 having both sides thereof opened and a receiving portion 501 to be tightly or threadably engaged with the female connector body 100 or the male connector body 200 are provided.

The elastic frame member 510 is elastically deformed when an external force is applied to the female connector main body 100 or the male connector main body 200 in a state where the receiving portion 501 is engaged with the other end portion of the male connector main body 200 And has a resilient portion 511 to be deformed. In the present embodiment, for example, the elastic portion 511 has a bellows structure.

The cable passing member 520 has an inlet end 521 that is opened to receive a coaxial cable and a coaxial cable introduced through the inlet end 521 is inserted into the female connector body 100 or the male connector body 100 And an open discharge end 522 communicating with the inlet end 521 so as to be inserted into the other end of the discharge port.

The discharge end 522 is provided with a pair of cut-outs 525 so that the cable smoothly flows into one side of the discharge end 522 but does not move to the opposite side due to friction .

The cable passing member 520 is inserted into the female connector body 100 or the male connector body 100 so that the coaxial cable inserted into the female connector body 100 is correctly guided to the other end of the female connector body 100 or the male connector body 200, And converges toward the other end of the housing 200.

It is preferable that the inner circumferential surface of the discharge end 522 of the cable passing member 520 is inclined inwardly so as to be in line contact with the outer circumferential surface of the coaxial cable. In this case, since the coaxial cable is prevented from rotating backward, the coaxial cable that has passed through the discharge end 522 of the cable passing member 520 is prevented from being detached from the cable passing member 520, So that it can be drawn into the other end of the male connector body 200.

The cable passing member 520 is coupled to the other end of the female connector body 100 or the male connector body 200 so as to be elastically deformed along the elastic frame member 510 when an external force is applied, The inlet end 521 through which the cable is inserted is made of a flexible material. In this case, the discharge end 522 through which the coaxial cable is discharged is preferably made of a rigid material so as to accurately guide the coaxial cable to the other ends of the female connector body 100 or the male connector body 200.

When the external force is applied to the other end of the female connector body 100 or the male connector body 200, the coaxial cable connection module 500 absorbs impact transmitted through the coaxial cable while being deformed by itself, It prevents accidents.

FIG. 12 is a perspective view showing a discharge end expansion module of the coaxial cable connection module, and FIG. 13 is a sectional view schematically showing a discharge end expansion using the discharge end expansion module.

As shown in FIG. 12, according to the present embodiment, a discharge end expansion module 700 is provided to extend the discharge end of the coaxial cable connection module to facilitate cable discharge.

The discharge end expansion module 700 includes an extension portion 711, a connection portion 712, and an engagement portion 713 in the form of an inner hollow portion 701 connected thereto.

The extension part 711 is formed in a cone shape and is formed to have a size such that the cable inserted into the discharge end 522 is easily discharged to the outside by extending the cutout part 525 of the discharge end 522. That is, the inner hollow portion 701 is formed to be larger than the size of the discharge end 522, and at the same time, the inner hollow portion 701 has a larger diameter than a cable installed to facilitate cable passage.

The coupling part 712 has a circular drum shape and is provided with the locking part 713 in a circular drum shape so as to be spaced apart from the outer surface of the coupling part 712 and to form an installation space part 715.

The engaging portion 713 is integrally formed with the connecting portion 712 and is connected to each other by a ring-shaped ring portion 717.

13, the coaxial cable C is made to pass through the hollow portion 701 of the discharge end expansion module 700, and then the passed cable portion is inserted into the connector main body 100 and 200 are connected to the connector bodies 100 and 200 without being moved in the reverse direction by using the discharge end 522 of the coaxial cable connection module 500 connected to one side of the connectors 100 and 200.

After the discharge end expansion module 700 is inserted into the coaxial cable connection module 500, that is, the extension part 711 is inserted into the discharge end 522 side to open the discharge end 522, The coaxial cables can be easily separated from the main bodies 100 and 200.

At this time, the latching part 713 is fixed to the outside of the elastic frame part 510 so that the operation can be facilitated.

As described above, those skilled in the art will understand that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

100; Female connector body 112; Elastic piece
113; A stumbling block 140; The second threaded portion
200; Male connector body 230; Latching groove
300; A separation preventing member 310; Slider
320; Spring 330; Elastic wedge prevention pipe
350; First threaded portions 370, 410, 420; Identification unit
400; Handle pipe 421; switch
422; Coaxial cable connection module
510; Elastic frame portion 520; Cable passing member
521; Inlet 522; Outlet
S; Space portion

Claims (4)

A female connector body including an elastic piece having an engaging projection formed to protrude toward the inside; A male connector body having an engaging groove into which the engaging hole of the elastic piece is fitted; A slider which is fitted to the outer side of the male connector main body and is screwed to the female connector main body; a spring provided outside the male connector main body to provide elastic force to the slider in the direction of the female connector main body; A separation preventing member having a resilient piece preventing protrusion formed to be protruded and inserted into a space between the inner circumferential surface of the female connector body and the resilient piece when the slider moves toward the female connector body, And an identification unit for visually recognizing whether or not the female connector body and the slider are screwed together,
A threaded portion is formed at one end of the slider and at one end of the female connector body so that the slider and the female connector body are threadedly engaged with the space between the inner peripheral surface of the female connector body and the resilient piece,
And a grip pipe protruding from the outer circumferential surface of the slider so as to surround one end of the female connector body and moving toward the female connector body together with the slider when the slider is screwed,
Wherein the identification portion is painted on the outer peripheral surface of the female connector body along the circumferential direction in a different color from that of the peripheral portion so as to protrude / retract from the one end of the pull tube depending on whether the slider is screwed or not. delete The method according to claim 1,
Wherein the identification portion is painted in a circumferential direction in a color different from that of the peripheral portion on the thread portion of the slider. delete

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