JP3914729B2 - Connector nut holding structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a connector nut holding structure that can be effectively used as a technique for mounting and holding a nut on a connector side when a connector mounted on a circuit board is fixed using a screw member and a nut.
[0002]
[Prior art]
Connectors are often mounted on circuit boards of electronic devices. In that case, the connector is fixed to the circuit board and connected to the circuit of the electronic device. As a method for fixing the connector to the circuit board, a method using a screw member such as a small screw or a bolt and a nut is widely known. This method is advantageous in that, for example, a heat source and a special device are not required, the detachment workability is excellent, and the fixing can be surely performed as compared with the fixing method by soldering.
[0003]
In the fixing method using the screw member and the nut, the nut is previously attached to the connector housing for the convenience of fixing work. For example, Japanese Utility Model Publication No. 6-37588 discloses a technique of a connector with a hexagonal nut.
[0004]
This technology relates to a connector with a hexagon nut including a hexagon nut for mounting having a screw hole in the center and an insulator having an insertion hole for receiving and holding the hexagon nut, taking into account the shape of the insertion hole, And it is set as the structure which prevents the hexagon nut from coming off by setting a stopper in the insertion hole.
[0005]
[Problems to be solved by the invention]
The connector with a hexagon nut described in the above publication certainly has the following problems, although the advantage of receiving and holding the hexagon nut can be obtained in a form that prevents the hexagon nut from coming off.
[0006]
First, since both the hexagon nut and the clasp must be set in the insertion hole, there is a problem that the number of work steps increases.
[0007]
Secondly, the clasp must be manufactured as a separate part, resulting in high costs.
[0008]
Thirdly, the clasp that exists as a separate part has a weak point that hinders miniaturization, thinning, and weight reduction of the connector.
[0009]
As a means for solving these problems, for example, as shown in FIG. 8, a method of embedding the hexagon nut 301 in the resin housing 300 of the connector body by insert molding may be considered. However, there is a problem that the cost increases when the method of insert-molding the nut is employed.
[0010]
Furthermore, the screw hole 302 of the hexagon nut 301 must be exposed at both ends (upper and lower). For this reason, the hexagon nut 301 is shallowly embedded. As a result, the fixing force of the hex nut 301 to the housing 300 becomes weak, and there is a problem that when the screw is attached to the hex nut 301 and tightened, the nut moves together with the screw or the housing 300 is deformed.
[0011]
SUMMARY OF THE INVENTION An object of the present invention is to provide a connector nut holding structure capable of reducing the cost by simplifying the configuration and reducing the number of work steps while meeting the needs for downsizing, thinning, and weight reduction.
[0012]
[Means for Solving the Problems]
A connector nut holding structure according to the present invention includes a nut holding portion provided integrally with a resin housing of the connector, and a nut detachably held in the nut holding portion. A nut housing chamber having a loading / unloading port, a screw member insertion hole provided coaxially with a screw hole of the nut housed in the nut housing chamber, and a nut housed in the nut housing chamber coming out of the nut loading / unloading port And a locking piece to prevent.
[0013]
According to the present invention, the configuration of the nut holding portion can be simplified by adopting a configuration that prevents the nut from being pulled out by the lock piece. Moreover, the nut holding part is provided integrally with the resin housing, and no separate parts other than the nut are required. As a result, the cost can be reduced by simplifying the configuration, reducing the number of work steps, and the like, while responding to the needs for miniaturization, thinning, and weight reduction of the connector.
[0014]
The lock piece includes an arm portion that extends along a direction in which the nut is inserted into and removed from the nut housing chamber, and a hook portion that is provided on the free end side of the arm portion and disposed on the loading / unloading port side of the nut housing chamber, It is desirable that the hook portion contacts the outer peripheral surface of the nut to lock the nut. If comprised in this way, the length of an arm part can be enlarged and the action | operation of a lock piece can be made smooth.
[0015]
The lock piece is preferably configured so that the hook portion can be displaced in the axial direction of the nut by the elasticity of the arm portion. If comprised in this way, a nut part can be taken in and out easily and smoothly by displacing a hook part to the axial direction of a nut.
[0016]
The nut is a hex nut, the nut housing chamber has a wall surface that contacts two opposite surfaces among the six surfaces formed on the outer periphery of the hex nut, and the hook portion is a concave surface that contacts two adjacent surfaces of the hex nut. It can also be set as the structure which has these. If comprised in that way, a nut holding | maintenance part can be comprised so that the shape of a hexagon nut can be used effectively.
[0017]
It is desirable that the width of the nut inlet / outlet and the interval between the opposing wall surfaces of the nut accommodating chamber are substantially the same, and a guide surface at the time of nut insertion is provided at the mouth edge of the inlet / outlet. If comprised in this way, a nut can be easily inserted in a nut accommodation chamber.
[0018]
Displacement slopes are provided on the outer surface side of the hook portion for displacing the hook portion upward of the nut housing chamber by utilizing the elasticity of the arm portion when the nut is inserted into the nut housing chamber. desirable. When this slope for displacement is provided, the hook portion is displaced upward only by inserting the nut into the nut housing chamber. Thereby, the insertion operation of a nut can be made easy.
[0019]
It is desirable that the nut accommodating chamber is provided with a pressing piece for limiting the lifting of the nut accommodated in the nut accommodating chamber. It can restrict | limit so that a nut may not float up more than necessary by a pressing piece. This makes it easier to screw the screw member into the nut.
[0020]
It is desirable that the lock piece is provided with a notch hole for preventing interference with a screw member screwed into the screw hole of the nut. When this notch hole is provided, the effect of preventing interference with the screw member is exhibited when the screw member is long.
[0021]
The connector housing has both ends, nut holding portions are provided at both ends of the housing, and each nut holding portion has a protective piece for preventing the lock piece from being touched when the housing is held by hand. It is desirable to be provided. When the protective piece is provided, the nut holding part can be prevented from affecting the function of normally holding the nut.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment in which the present invention is applied to a connector for a hard disk will be described. 1 and 2 are a front view and a plan view of a connector according to an embodiment of the present invention. FIG. 3 is an enlarged perspective view of a nut holding portion of the connector according to the embodiment. FIG. 4 is a front view showing a direction in which the screw member is screwed into the nut.
[0023]
The connector shown in this embodiment is mounted on a circuit board CB in order to detachably connect a hard disk (not shown) equipped in an electronic device and the circuit board CB, and is configured as follows. ing.
[0024]
The hard disk connector includes a terminal group 1 connected to the hard disk side connector, a solder tail group 2 connected to the circuit board CB, and a resin housing 3 holding the terminal group 1 and the solder tail group 2. The nut holding part 5 provided integrally with the resin housing 3 and the nut 6 detachably held in the nut holding part 5 are provided.
[0025]
As shown in FIGS. 3 and 4, the nut holding portions 5 are provided at both ends of the housing 3, respectively. That is, the nut holding portion 5 includes a nut housing chamber 52 having an inlet / outlet 51 for the nut 6 and a screw member insertion hole 53 provided coaxially with the screw hole 61 of the nut 6 housed in the nut housing chamber 52. And a lock piece 54 for preventing the nut 6 housed in the nut housing chamber 52 from coming out of the nut loading / unloading port 51.
[0026]
The lock piece 54 is provided on the free end side of the arm portion 55 extending along the direction F in which the nut 6 is inserted into and removed from the nut housing chamber 52, and is disposed on the loading / unloading port 51 side of the nut housing chamber 52. The hook portion 56 is in contact with the outer peripheral surface of the nut 6 so that the nut 6 is locked. With this configuration, the length of the arm portion 55 can be increased, and the operation of the lock piece 54 can be made smooth. This is because, when the length of the arm portion 55 is short, it is difficult to impart elasticity with a relatively large displacement amount to the arm portion 55.
[0027]
The lock piece 54 is configured such that the hook portion 56 can be displaced in the axial direction of the nut 6 by the elasticity of the arm portion 55. This is because the hook portion 56 is displaced in the axial direction of the nut 6 so that the nut 6 can be inserted and removed easily and smoothly.
[0028]
In this embodiment, the nut 6 is a hexagonal nut, and the nut housing chamber 52 has wall surfaces 52 a and 52 b that contact two opposite surfaces 6 a and 6 b among the six surfaces formed on the outer periphery of the hexagonal nut 6. The inner wall surfaces 52c, 52d (see FIG. 5) of the nut housing chamber 52 are also formed on the wall surfaces in close contact with the adjacent two surfaces 6c, 6d of the hexagon nut 6, respectively. The hook portion 56 has a concave surface 57 that contacts the two adjacent surfaces 6e and 6f of the hexagon nut 6.
[0029]
As clearly shown in FIGS. 5 and 6, the concave surface 57 is formed as an obtuse angle surface that matches the angle between the two adjacent surfaces 6 e and 6 f (the included angle). Thereby, the nut holding | maintenance part 5 can be comprised so that the shape of the hexagon nut 6 can be used effectively.
[0030]
The width of the loading / unloading port 51 of the nut 6 and the interval between the opposing wall surfaces 52a and 52b of the nut housing chamber 52 are formed substantially the same. Further, a guide surface 51 a at the time of inserting the nut is provided at the mouth edge of the entrance / exit 51. Thereby, consideration is given so that the nut 6 can be easily inserted into the nut accommodating chamber 52.
[0031]
On the outer surface side of the hook portion 56, there is a displacement slope 56a for displacing the hook portion 56 above the nut housing chamber 52 by utilizing the elasticity of the arm portion 55 when the nut 6 is inserted into the nut housing chamber 52. Is provided. By providing the displacement slope 56a, the hook portion 56 is displaced upward only by inserting the nut 6 into the nut accommodating chamber 52. Thereby, the insertion operation of the nut 6 can be performed easily.
[0032]
After the nut 6 is inserted, the hook portion 56 returns to the original position to prevent the nut 6 from coming off. The inclination angle of the displacement slope 56a is set to an angle at which the hook portion 55 is easily displaced upward in relation to the insertion force of the nut 6. For example, it is set to around 45 degrees.
[0033]
The nut housing chamber 52 is provided with a pair of pressing pieces 5 a and 5 b for restricting the lifting of the nut 6 housed in the nut housing chamber 52. By restricting the nut 6 from being lifted more than necessary by the pressing pieces 5 a and 5 b, the screw member 7 can be easily screwed into the nut 6.
[0034]
The lock piece 54 is provided with a notch hole 58 for preventing interference with the screw member 7 screwed into the screw hole 61 of the nut 6. By providing the notch hole 58, the effect of preventing interference with the screw member 7 is exhibited when the screw member 7 is long. Of course, this notch hole 58 is not necessary when the screw member 7 is short. However, in this example, the notch hole 58 also has an effect of making the arm portion 55 easily elastically deformed.
[0035]
The connector housing 3 has both ends as shown in FIG. 1, and the nut holding portions 5 are provided at both ends of the housing 3, respectively. Each nut holding portion 5 is provided with a protective piece 59 for preventing the lock piece 54 from being touched when the housing 3 is held with fingers H. By providing the protection piece 59, it is possible to prevent the nut holding portion 5 from affecting the function of normally holding the nut 6.
[0036]
That is, the lock piece 54 of the nut holding portion 5 is configured to be easily elastically deformed, and the nut 6 is held there. In many cases, the connector is held on the finger when the connector is mounted on the board, but the protective piece 59 is formed one step higher than the lock piece 54, so that the finger H can be prevented from touching the lock piece 54. . Thereby, protection of the nut holding | maintenance part 5 can be aimed at.
[0037]
In order to insert the nut 6 into the nut housing chamber 52, for example, an operation of simply pushing the nut 6 in the direction indicated by the arrow F may be performed as shown in FIG. At that time, the intermediate portion (the corner portion 62 of the nut 6) between the two adjacent surfaces 6 c and 6 d on the outer periphery of the nut 6 may be pushed in as it is positioned in the center of the loading / unloading port 51.
[0038]
Thereby, the corner part 62 contacts the displacement slope 56a of the hook part 56, and pushes the hook part 56 upward while elastically deforming the arm part 55. Then, at the same time that the nut 6 is completely accommodated in the nut accommodating chamber 52, the hook portion 56 returns to the original position, and the concave surface 57 on the inner surface side of the hook portion 56 is adjacent to the two surfaces 6e, 6f of the nut 6. To touch.
[0039]
In this state, the nut 6 is restrained in a state in which the nut 6 is completely prevented from rotating in the nut housing chamber 52. Therefore, as shown in FIG. 4, the screw member 7 can be easily screwed into the nut 6.
[0040]
【The invention's effect】
As described above, according to the present invention, the configuration of the nut holding portion can be simplified by adopting a configuration that prevents the nut from being pulled out by the lock piece. Moreover, the nut holding part is provided integrally with the resin housing, and no separate parts other than the nut are required. Thereby, cost reduction by simplification of a structure, reduction of work man-hours, etc. can be aimed at, responding to the needs of size reduction, thickness reduction, and weight reduction of a connector.
[Brief description of the drawings]
FIG. 1 is a front view of a connector according to an embodiment of the present invention.
FIG. 2 is a plan view of the connector according to the embodiment of the present invention.
FIG. 3 is an enlarged perspective view of a nut holding portion of the connector according to the embodiment of the present invention.
FIG. 4 is an enlarged front view of a nut holding portion of the connector according to the embodiment of the present invention.
5 is a cross-sectional view taken along the line AA in FIG. 1. FIG.
6 is an enlarged view of a portion B in FIG.
FIG. 7 is a cross-sectional view of the nut holding portion of the connector according to the embodiment of the present invention.
FIG. 8 is a perspective view showing a structure of a conventional nut holding portion.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Terminal group 2 Solder tail group 3 Housing 5 Nut holding part 51 Outlet / inlet 52 Nut accommodating chamber 52a, 52b Wall surface 52c, 52d Wall surface 53 Screw member insertion hole 54 Lock piece 55 Arm part 56 Hook part 56a Displacement slope 57 Concave surface 58 Notch hole 59 Protective piece 6 Nut 6a, 6b Opposing two faces 6c, 6d Adjacent two faces 6e, 6f Adjacent two faces 61 Screw hole 62 Corner part 7 Screw member H Finger CB Circuit board

Claims (6)

A nut holding portion provided in the housing of the connector; and a nut detachably held in the nut holding portion, the nut holding portion including a nut receiving chamber having a nut outlet / outlet, and the nut receiving chamber Bei example a screw member insertion hole provided in the screw hole coaxial with the nut is accommodated into, and a locking piece in which the nut is accommodated in the nut accommodating chamber is prevented from getting out from the loading and unloading opening of the nut,
The lock piece includes an arm portion that extends along a direction in which the nut is inserted into and removed from the nut housing chamber, and a hook portion that is provided on the free end side of the arm portion and is disposed on the loading / unloading port side of the nut housing chamber. The hook portion contacts the outer peripheral surface of the nut to lock the nut,
The lock piece is configured such that the hook portion can be displaced in the axial direction of the nut by the elasticity of the arm portion ,
Displacement slopes are provided on the outer surface side of the hook portion for displacing the hook portion upward of the nut housing chamber using the elasticity of the arm portion when the nut is inserted into the nut housing chamber. , Connector nut holding structure. The nut is a hex nut, the nut housing chamber has a wall surface that contacts two opposite surfaces among the six surfaces formed on the outer periphery of the hex nut, and the hook portion contacts two adjacent surfaces of the hex nut. The connector nut holding structure according to claim 1 , further comprising a concave surface. Are substantially identical and the spacing between opposing walls of a width between the nut accommodating chamber of loading and unloading opening of the nut and the rim of the loading and unloading opening, a guide surface at the time of the nut insert is provided, claim nut holding structure 2, wherein the connector. The connector nut holding structure according to any one of claims 1 to 3 , wherein the nut housing chamber is provided with a pressing piece for restricting lifting of the nut housed in the nut housing chamber.  2. The nut holding structure for a connector according to claim 1, wherein the lock piece is provided with a notch hole for preventing interference with a screw member screwed into the screw hole of the nut. Housing of the connector has opposite ends, the nut holding portion is provided at both ends of the housing, each nut holding portion, in order to avoid touching the lock piece when held in the hand of the housing, lock The connector nut holding structure according to claim 1, wherein a protection piece formed one step higher than the piece is provided.

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