JP2013131498A - Up-down type connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an up-down type connector for connecting an LED PCB and a distribution board PCB, by which a working space in a narrow place can be optimized.SOLUTION: An up-down type connector comprises: a housing 110 having a base part 111 inserted in a cut hole formed on a distribution board PCB2, mounting nail fixing parts 112 extending upward on both sides of the base part, and a stopper part 113 arranged at a rear part for limiting a position of a contact point to an LED PCB1; a mounting nail 120 for fixing the housing to the distribution board PCB; a contact terminal 130 electrically connected to a contact terminal 1a of the LED PCB and positioned on an upper face of the base part through the stopper part; and a lock bar 114 selectively locking/engaging the LED PCB when electric connection to the distribution board PCB is established by an upward and downward movement of the LED PCB.

Description

  The present invention relates to a connector, and more particularly to an up-down type connector for connecting an LED PCB to a power distribution board PCB. The improved up-down structure for the LED PCB is away from the current slide technology and works in a narrow space. Enables space optimization and improves assembly process and productivity.

  In general, a “connector” means an electronic component that makes an electrical connection between a power source and the device, between the device and the device, or between two components within a device. There are various types depending on the shape and connection method.

  FIG. 1 is a perspective view of a sliding connector according to the prior art.

  Referring to FIG. 1, a sliding connector (10) according to the prior art has a connector housing (11) stored in the switchboard PCB (2), and is located between the LED PCB (1) and the switchboard PCB (2). In order to establish an electrical connection, a contact terminal (12) is fixed on the connector housing (11).

  Thus, the sliding connector (10) according to the prior art is configured, and the LED PCB (1) advances in the direction of the arrow and is inserted into the insertion hole (11a) of the connector housing (11), and the contact terminal (12). Contacts the terminal (1a) of the LED PCB (1).

  However, in the sliding connector according to the prior art, the side surface (1b) of the LED PCB (1) may encounter an obstacle from the inner surface (11b) of the connector housing (11), and slips with the contact terminal (12). The contact may cause scratching of the LED PCB (1).

  Furthermore, in the slide type connector according to the prior art, it is difficult for the operator to check the fitting feeling during assembly, and the connection is cut off due to external impact since another locking structure is not configured in the connected state. If an excessive fitting force is applied at the time of assembly, there is a risk that not only the working ability is lowered but also the connector itself is damaged.

  In order to solve the problems described above, the present invention provides an up-down connector for connecting the LED PCB and the power distribution board PCB, leaving an existing sliding technology with an improved up-down structure for the LED PCB, thus The object is to enable the optimization of the working space in a narrow place and improve the assembly process and productivity.

  Furthermore, the present invention does not damage the product due to scratches on the LED PCB terminal, and it is possible to immediately confirm the fitting feeling, and an excessive fitting force is applied by the locking structure set in the connected state. It is an object of the present invention to provide a reliable up-down type connector that is not necessary and is not disconnected by an external impact.

  In order to achieve the above object, the up-down type connector of the present invention includes a connector for electrically connecting the LED PCB to the switchboard PCB, and the connector is inserted into a notch formed in the switchboard PCB, A mounting nail fixing portion that extends upward on both sides of the base portion, and a mounting nail hole is formed, and is formed as a single integrated part together with the mounting nail fixing portion, and restricts the position of the contact point with the LED PCB A housing provided with a stopper portion disposed at the rear, a mounting nail for fixing the housing to the LED PCB by being inserted into the nail hole, and a contact terminal of the LED PCB. , Located on the upper surface of the base part, located on both sides of the contact terminal passing through the stopper part and the inside of the mounting nail fixing part, of the LED PCB A locking bar for selectively locking / unlocking the LED PCB when electrically connected to the switchboard PCB by vertical movement.

  The locking bar is formed as a single part that can rotate left and right inside the mounting nail fixing portion, and an inclined surface and a locking surface are formed at the bottom of the locking bar, A handle for engaging and disengaging the LED PCB by rotating the locking bar is formed on the upper portion of the locking bar.

  In this structure, when the LED PCB is lowered when locking the LED PCB, by applying pressure to the inclined surface from both sides of the bottom of the LED PCB, the locking bar rotates, The LED PCB is locked by grasping the upper portions on both sides of the LED PCB on the locking surface. When the LED PCB is engaged / disengaged, if the handle of the rotation locking bar is pushed backward, the LED PCB is engaged / disengaged by rotating the rotation locking bar.

  A lip supported by the upper part of the switchboard PCB is formed on the bottom of the mounting nail fixing part.

  As described above, the present invention has an effect on the connection between the LED PCB and the power distribution board PCB, away from the current slide technology with an improved up-down structure for the LED PCB, and thus the optimal working space in a narrow space To improve assembly process and productivity.

  Furthermore, in the present invention, there is no damage to the product due to scratching on the LED PCB terminal, and it is possible to immediately confirm the fitting feeling. With the locking structure set in the connected state, excessive fitting force or the like can be obtained. In addition, the connection is not cut off due to an external impact, and the reliability of the product can be improved.

It is a perspective view of the slide type connector by a prior art. It is a perspective view which shows mounting | wearing of the up-down-type connector by embodiment of this invention. It is a disassembled perspective view which shows the up-down-type connector by embodiment of this invention. It is a perspective view which shows the up-down-type connector by embodiment of this invention. FIG. 5 is a top view of FIG. 4. FIG. 5 is a front view of FIG. 4. FIG. 5 is a side view of FIG. 4. FIG. 5 is a rear view of FIG. 4. FIG. 5 is a bottom view of FIG. 4. It is a figure which shows operation | movement of the up-down-type connector by embodiment of this invention.

  Hereinafter, a connector having an up-down structure according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a perspective view of a sliding connector according to the prior art. FIG. 2 is a perspective view showing the mounting of the up-down connector according to the embodiment of the present invention. FIG. 3 is an exploded perspective view showing an up-down connector according to an embodiment of the present invention. FIG. 4 is a perspective view showing an up-down connector according to an embodiment of the present invention. FIG. 5 is a top view of FIG. FIG. 6 is a front view of FIG. FIG. 7 is a side view of FIG. FIG. 8 is a rear view of FIG. FIG. 9 is a bottom view of FIG. FIG. 10 is a diagram illustrating the operation of the up-down connector according to the embodiment of the present invention.

  Referring to the above drawings, an up-down connector (100) according to an embodiment of the present invention is designed to electrically connect an LED PCB (1) to a switchboard PCB (2) and is formed of an insulator such as plastic. Housing (110).

  The housing (110) has a base (111) inserted into a cut hole (2a) formed in the switchboard PCB (2) and a base (111) on which a mounting nail hole (112a) is formed. A mounting nail fixing part (112) formed so as to extend upward on both sides of the LED PCB, and a single integrated part together with the mounting nail fixing part (112), and the LED PCB (1) The stopper part (113) arrange | positioned at the rear part is provided so that the position of this contact point may be restrict | limited.

  In order to fix the housing (110) to the switchboard PCB (2), a mounting nail (120) is inserted into the nail hole (112a) and fixed.

  A contact terminal (130) is disposed on the upper surface of the base part (111) and through the stopper part (113) so that an electrical connection is established with the contact terminal (1a) of the LED PCB (1). A terminal (130) is configured.

  A locking bar (114) is formed in the mounting nail fixing portion (112) so as to face each other. The locking bar (114) is formed separately from the housing, but is preferably formed as a single device together with the housing from the viewpoint of production cost and strength.

  A lip (112b) supported on the switchboard PCB (2) is formed on the bottom of the mounting nail fixing portion (112).

  When the LED PCB (1) is moved up and down to establish an electrical connection to the switchboard PCB (2), the locking bar (114) selectively locks / disengages the LED PCB (1). Operate.

  Here, “locking” means an electrical connection state between the LED PCB (1) and the switchboard PCB (2), and “engagement / disengagement” means the LED PCB (1) and the switchboard. This means an electrical disconnection with the PCB (2).

  The structure of the locking bar (114) will be described in more detail. The locking bar is formed as a single device that can rotate left and right on the inner surface of the mounting nail fixing part (112). An inclined surface (114a) and a locking surface (114b) are formed at the bottom of the locking bar (114).

  Furthermore, a handle (114c) for rotating the locking bar (114) to engage / disengage the LED PCB (1) is formed on the locking bar (114).

  In this structure of the locking bar (114), when the LED PCB (1) is lowered when locking the LED PCB (1), both sides of the bottom of the LED PCB (1) are inclined. The locking bar (114) rotates to push the surface (114a), and the LED PCB (1) is gripped on both sides of the upper surface of the LED PCB (1) on the locking surface (114a). Lock.

  On the other hand, when the handle (114c) of the rotation locking bar (114) is pushed backward when the LED PCB (1) is disengaged, the rotation locking bar (114) is rotated, LED PCB (1) is disengaged.

  The operation of the up-down connector configured as described above according to the embodiment of the present invention will be described as follows.

  In order to lock the LED PCB (1) in the state shown in FIG. 2, first, the LED PCB (1) is moved in the direction of the arrow, pressure is applied, and the housing is inserted into the housing (110). As shown, both sides of the bottom of the LED PCB pass through the inclined surface (114a), and the rotation locking bar (114) is elastically deformed as shown by the dotted line. In this state, when the LED PCB (1) is lowered as shown in FIG. 10B, both upper sides of the LED PCB (1) are gripped by the locking surface (114a), and at the same time, the locking rotating bar. (114) elastically returns to its original position and locks the LED PCB (1). The terminal (1a) of the LED PCB (1) will be elastically connected to the contact terminal (130) shortly.

  On the other hand, as shown in FIG. 10C, in order to disengage the LED PCB (1), when the handle (114c) is pushed in the direction of the arrow, the rotation locking bar ( 114) is elastically deformed. Both sides of the upper part of the LED PCB (1) will be released soon and will not be gripped by the locking surface (114a), so the LED PCB (1) will be disengaged. The terminal (1a) of the LED PCB (1) is soon released from the contact terminal (130).

  Furthermore, although one embodiment of the connection between the LED PCB and the switchboard PCB is described in the embodiment of the present invention, this can be applied to the connection between other types of PCBs as well.

  As described above, the present invention has an effect on the connection between the LED PCB and the power distribution board PCB, and is an improved up-down structure for the LED PCB, away from the current slide technology, and optimizing the work space in a narrow space. Enable and improve assembly process and productivity.

  Furthermore, in the present invention, there is no damage to the product due to scratches on the LED PCB terminal, it is possible to immediately confirm the fitting feeling, and the engagement structure set in the connected state causes an excessive fitting force. Therefore, the connection is not interrupted by an external impact, and the reliability of the product can be improved.

1: LEDPCB
1a: Contact terminal 2: Switchboard PCB
2a: Cut hole 110: Housing 111: Base 112: Mounting nail fixing portion 112a: Mounting nail hole 112b: Lip 113: Stopper portion 114: Locking bar 114a: Inclined surface 114b: Locking surface 114c: Handle 120: Mounting nail 130 : Contact terminal

Claims (4)

An up-down type connector for electrically connecting the LED PCB (1) to the switchboard PCB (2), a base (111) inserted into a cut hole (2a) formed in the switchboard PCB (2), and mounting A mounting nail fixing part (112) formed extending upward on both sides of the base part (111) on which the nail hole (112a) is formed, and a single unit together with the mounting nail fixing part (112) A housing (110) comprising a stopper portion (113) formed as an integrated part and disposed at the rear so as to limit the position of the contact point with the LED PCB (1), and the housing (110) as the switchboard A mounting nail (120) fixed to the PCB (2) by insertion into the mounting nail hole (112a) and a contact terminal (1a) of the LED PCB (1) are electrically connected. The contact terminal (130) located on the upper surface of the base (111) and passing through the stopper (113), and the electrical connection to the switchboard PCB (2) by the vertical movement of the LED PCB (1) An up-down connector comprising a locking bar (114) that selectively locks / unlocks the LED PCB (1) when is established. The locking bar (114) is formed as a single device that can rotate left and right inside the mounting nail fixing part (112), and the inclined surface (114a) and the locking surface (114b) A handle (114c) that is formed at the bottom of the locking bar (114) and that engages and disengages the LED PCB by rotating the locking bar (114) above the locking bar (114). The up-down connector according to claim 1, wherein the connector is formed. When the LED PCB (1) is lowered when the LED PCB (1) is locked, both sides of the bottom of the LED PCB (1) push the inclined surface (114a), and the locking bar ( 114) is rotated, and the LED PCB (1) is locked by grasping both sides of the upper surface of the LED PCB (1) on the locking surface (114a), and the LED PCB (1) is engaged and disengaged. When the handle (114c) of the rotation locking bar (114) is pushed rearward, the rotation locking bar (114) rotates and the LED PCB (1) is engaged / disengaged. The up-down type connector according to 2. The up-down type connector according to claim 1, wherein a lip (112b) supported on an upper surface of the switchboard PCB (2) is formed on a bottom of the mounting nail fixing portion (112).

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