CN216120908U - Bouncing type socket - Google Patents

Abstract

The utility model discloses a bounce type socket which comprises a face frame and a frame jumping mechanism arranged on the face frame, wherein two locking mechanisms for locking the position of the frame jumping mechanism are arranged on the face frame, and each locking mechanism comprises a control key for unlocking. The bouncing type socket is reasonable in structure, and due to the fact that the two locking mechanisms for locking the position of the frame jumping mechanism are arranged, unlocking of the frame jumping mechanism caused by mistaken pressing can be avoided to a great extent.

Description

Bouncing type socket

Technical Field

The utility model relates to a bouncing type socket, and belongs to the field of socket structure design.

Background

The bounce type socket structure is most commonly applied to a ground socket, is also used on a desktop socket and is provided with a frame jumping mechanism, when the bounce type socket structure is not used, the frame jumping mechanism is pressed into a socket bottom box and locked through a locking mechanism, when external electric equipment is powered, the locking of the frame jumping mechanism is released through the locking mechanism, the frame jumping mechanism pops out of the socket bottom box, and then the bounce type socket structure can be connected with a plug of the external electric equipment, so that the external electric equipment is powered. The number of the locking mechanisms in the conventional bouncing type socket is usually set to be one, and the structure has the problem that when a control button on the locking mechanism is unintentionally pressed in daily use, the frame jumping mechanism bounces upwards to cause mistaken opening.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims to provide the bouncing type socket with a reasonable structure, and the bouncing type socket can prevent the frame jumping mechanism from being opened by mistake to a great extent when in use.

The technical scheme for realizing the purpose of the utility model is as follows:

a bounce type socket comprises a face frame and a frame jumping mechanism arranged on the face frame, wherein two locking mechanisms for locking the position of the frame jumping mechanism are arranged on the face frame, and each locking mechanism comprises a control key for unlocking.

In the technical scheme, the face frame is provided with a key hole for installing the control keys, and the control keys on the two locking mechanisms are arranged in the same key hole in parallel.

In the above technical solution, each locking mechanism includes a movable locking bar for locking the frame skipping mechanism, a control button for controlling the movable locking bar to unlock the frame skipping mechanism, an elastic member a for providing a reset elastic force for the control button, and an elastic member B for providing a reset elastic force for the movable locking bar, and the movable locking bar is provided with a lock tongue matched with the frame skipping mechanism.

In the above technical scheme, one of the control key and the movable locking bar is provided with an inclined surface, the other of the control key and the movable locking bar is provided with a pushing part which is suitable for being abutted against the inclined surface, and the movable locking bar is driven to move under the action and cooperation between the pushing part and the inclined surface when the control key is pressed, so that the spring bolt moves in the direction away from the frame jumping mechanism.

In the above technical scheme, a limiting seat is fixed on the inner side of the face frame corresponding to the position of the key hole, the elastic member a is a helical compression spring, and two ends of the elastic member a respectively abut against the control key and the limiting seat.

In the above technical scheme, the elastic member B is a helical compression spring, and two ends of the elastic member B respectively abut against the movable locking bar and the face frame.

In the above technical solution, the movable locking bar is rotatably or movably disposed at the inner side of the face frame.

In the technical scheme, the inner edge of the face frame is provided with the fluorescent strip.

The utility model has the positive effects that: in the bouncing type socket, the two locking mechanisms for locking the frame jumping mechanism are arranged on the face frame, and the control keys of the two locking mechanisms are required to be pressed simultaneously to unlock the frame jumping mechanism in actual operation, so that the probability of mistakenly opening the frame jumping mechanism is effectively reduced, and the bouncing type socket has good practicability.

Drawings

Fig. 1 is a perspective view of a first pop-up socket;

FIG. 2 is a front view of the pop-up jack shown in FIG. 1 with the bezel engaged with the locking mechanism;

FIG. 3 is an exploded view of the assembly of FIG. 2;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a cross-sectional view taken along line B-B of FIG. 3;

FIG. 6 is a block diagram of the movable locking bar of FIG. 2;

FIG. 7 is a front view of a middle frame of the pop-up socket cooperating with a locking mechanism;

FIG. 8 is a cross-sectional view taken along line C-C of FIG. 7;

fig. 9 is a block diagram of the movable locking bar of fig. 7.

The reference symbols shown in the figures are: 1-face frame; 11-key hole; 2-frame skipping mechanism; 3-a locking mechanism; 31-control keys; 32-a movable locking bar; 33-elastic member a; 34-elastic member B; 35-a bolt; 36-a bevel; 37-a pushing part; 4-a limiting seat; 5-fluorescent strip.

Detailed Description

The specific structure of the bouncing type socket of the utility model is described by combining the drawings in the specification:

example 1

A bounce type socket is shown in figures 1 to 6 and comprises a face frame 1 and a frame jumping mechanism 2 arranged on the face frame 1, wherein two locking mechanisms 3 for locking the positions of the frame jumping mechanism 2 are arranged on the face frame 1, and each locking mechanism 3 comprises a control key 31 for unlocking. In the bouncing type socket of the embodiment, the two locking mechanisms 3 used for locking the frame skipping mechanism 2 are arranged on the face frame 1, and in actual operation, the control keys 31 of the two locking mechanisms 3 need to be pressed simultaneously to unlock the frame skipping mechanism 2, so that the probability that the frame skipping mechanism 2 is mistakenly opened is effectively reduced, and the bouncing type socket has good practicability.

Further, the face frame 1 is provided with a key hole 11 for installing the control keys 31, the control keys 31 on the two locking mechanisms 3 are arranged in the same key hole 11 in parallel, the control keys 31 of the two locking mechanisms 3 are arranged in the same key hole 11, the distance is small, and the pressing operation is convenient during unlocking. In practice, of course, the control buttons 31 of the two locking mechanisms may be disposed in two different button holes 11.

The locking mechanisms described in this embodiment may adopt the structure in the prior art, or may adopt the following structure: each locking mechanism 3 is including being used for right jump frame mechanism 2 locking movable locking strip 32, be used for control movable locking strip 32 remove right jump frame mechanism 2 locking control button 31, be used for control button 31 provides the elastic component A33 of elasticity that resets and be used for the elastic component B34 that activity locking strip 32 provided elasticity that resets, have on the movable locking strip 32 with jump frame mechanism 2 complex spring bolt 35, through spring bolt 35 protrusion in face frame 1's interior edge and jump frame mechanism 2 on backstop position backstop groove or backstop piece cooperation realize the locking to jump frame mechanism 2.

Furthermore, one of the control key 31 and the movable locking bar 32 is provided with an inclined surface 36, the other of the control key 31 and the movable locking bar 32 is provided with a pushing portion 37 adapted to abut against the inclined surface 36, and when the control key 31 is pressed, the pushing portion 37 and the inclined surface 36 cooperate to drive the movable locking bar 32 to move, so that the lock tongue 35 moves in a direction away from the frame jump mechanism 2.

In this embodiment, a limiting seat 4 is fixed on the inner side of the face frame 1 corresponding to the key hole 11, the elastic member a33 is a helical compression spring, two ends of the elastic member a33 respectively abut against the control key 31 and the limiting seat 4, the limiting seat 4 is configured such that the elastic member a33 provides a mounting and supporting function, the limiting seat 4 can be fixed on the face frame 1 through screws, the elastic member a33 is compressed when applying pressure to the control key 31, and the control key 31 is movably reset by the spring action of the elastic member a33 when removing the pressure applied to the control key 31.

In this embodiment, the elastic member B34 is a helical compression spring, two ends of the helical compression spring respectively abut against the movable locking bar 32 and the face frame 1, when the control key 31 is pressed, the movable locking bar 32 is pushed to move, so as to compress the elastic member B34, and when the pressure applied to the control key 31 is removed, the spring action of the elastic member B34 makes the movable locking bar 32 move and reset.

In this embodiment, the movable locking bar 32 is movably disposed on the inner side of the face frame 1, that is, the frame skipping mechanism is locked and unlocked by moving the movable locking bar 32; as a variation, the movable locking bar 32 may also be rotatably disposed on the inner side of the face frame 1, the frame skipping mechanism 2 is locked and unlocked by rotation of the movable locking bar 32, the locking tongue and the elastic member B are both disposed on one end of the movable locking bar 32 away from the control key, when the control key is pressed downward, one end of the movable locking bar 32 is pushed to rotate towards the direction close to the frame skipping mechanism 2, and the other end of the movable locking bar inevitably rotates towards the direction away from the frame skipping mechanism, so that the locking tongue disposed at the end is separated from the frame skipping mechanism to unlock.

As a further improvement of the embodiment, the inner edge of the face frame 1 is provided with a fluorescent strip 5, and the fluorescent strip 5 emits micro light at night to indicate the position. The fluorescent strip 5 can be fixed on the face frame 1 in the modes of clamping, gluing and the like.

Example 2

This embodiment is substantially the same as embodiment 1 except that the movable locking bar is provided on the face frame 1 in a different movable direction as shown in fig. 7 to 9.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And such obvious changes and modifications which fall within the spirit of the utility model are deemed to be covered by the present invention.

Claims (8)

1. The utility model provides a bounce formula socket, includes face frame (1) and sets up jump frame mechanism (2) on face frame (1), its characterized in that, be equipped with on face frame (1) two to jump locking mechanical system (3) of frame mechanism (2) position locking, each locking mechanical system (3) is including control button (31) that are used for the unblock.

2. The bounce socket according to claim 1 is characterized in that the face frame (1) is provided with a key hole (11) for installing the control key (31), and the control keys (31) of the two locking mechanisms (3) are arranged in parallel in the same key hole (11).

3. The pop-up socket as claimed in claim 2, wherein each locking mechanism (3) comprises a movable locking bar (32) for locking the frame jumping mechanism (2), the control button (31) for controlling the movable locking bar (32) to unlock the frame jumping mechanism (2), an elastic member a (33) for providing a reset elastic force for the control button (31), and an elastic member B (34) for providing a reset elastic force for the movable locking bar (32), and the movable locking bar (32) is provided with a locking tongue (35) engaged with the frame jumping mechanism (2).

4. The bounce socket according to claim 3, wherein an inclined surface (36) is provided on one of the control key (31) and the movable locking bar (32), a pushing portion (37) adapted to abut against the inclined surface (36) is provided on the other of the control key (31) and the movable locking bar (32), and when the control key (31) is pressed, the pushing portion (37) and the inclined surface (36) cooperate to drive the movable locking bar (32) to move, so that the latch (35) moves in a direction away from the bounce frame mechanism (2).

5. The pop-up socket as claimed in claim 3, wherein a stopper seat (4) is fixed at a position corresponding to the key hole (11) on the inner side of the face frame (1), and the elastic member A (33) is a helical compression spring, and two ends of the helical compression spring respectively abut against the control key (31) and the stopper seat (4).

6. The pop-up socket as claimed in claim 3, wherein the resilient member B (34) is a helical compression spring, and both ends thereof respectively abut against the movable locking bar (32) and the face frame (1).

7. The pop-up socket of claim 3, wherein the movable locking bar (32) is rotatably or movably disposed inside the bezel (1).

8. The pop-up socket of claim 1, wherein the inner edge of the face frame (1) is provided with a fluorescent strip (5).

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