CN217445491U - Waterproof construction in bluetooth headset storehouse of charging - Google Patents

Abstract

The utility model discloses a waterproof construction in bluetooth headset storehouse of charging relates to the waterproof technical field in bluetooth storehouse of charging. The utility model comprises a bin body and a bin cover hinged on the top of the bin body, wherein the top of the bin body is provided with a pair of charging grooves extending to the interior of the bin body, and the top of the bin body is adsorbed with a pair of waterproof suckers for plugging the notches of the charging grooves; still including seting up in the plug wire groove of storehouse body bottom, the plug wire inslot is filled closely there is the sealing rubber piece, the storehouse body is used for along its high to being provided with the sealing rubber piece supports tightly in the plug wire inslot or take out its flexible subassembly in order to charge. The utility model utilizes the waterproof sucker to plug the notch of the charging groove, and avoids water from entering the charging groove; the notch of the slot is sealed by matching the sealing rubber block with the telescopic assembly, so that water is prevented from entering the slot; the notch which can contact the electronic element in the charging bin is plugged, so that the charging bin is effectively protected.

Description

Waterproof construction in bluetooth headset storehouse of charging

Technical Field

The utility model relates to a bluetooth storehouse waterproof technology field that charges, concretely relates to bluetooth headset charges waterproof construction in storehouse.

Background

The earphone storehouse of charging is the box that charges that is used for charging bluetooth earphone, bluetooth earphone when using, can follow the pocket and drop inevitably, because the lid in present most earphone storehouse of charging is not tight, will turn over after the atress gently, and its kneck of being connected with outside charging data line exposes outside, if the earphone storehouse of charging drops to in the sump, the storehouse mouth in earphone storehouse of charging is turned over very easily, water also can get into the inside kneck with charging in earphone storehouse of charging, lead to the fact the damage, cause unnecessary economic loss, consequently, the waterproof construction in bluetooth earphone storehouse of charging is proposed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the bin mouth department in order to solve the earphone storehouse of charging and the easy problem of intaking of kneck, the utility model provides a bluetooth earphone storehouse of charging's waterproof construction.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme:

a waterproof structure of a Bluetooth headset charging bin comprises a bin body and a bin cover hinged to the top of the bin body, wherein a pair of charging grooves extending into the bin body are formed in the top of the bin body, and a pair of waterproof suckers used for plugging the notches of the charging grooves are adsorbed on the top of the bin body; still including seting up in the plug wire groove of storehouse body bottom, the plug wire inslot is filled closely there is the sealing rubber piece, the storehouse body is used for along its high to being provided with the sealing rubber piece supports tightly in the plug wire inslot or take out its flexible subassembly in order to charge.

Further, a connecting spring is installed between the waterproof sucker and the inner wall of the bin cover.

Furthermore, the side edge of the waterproof sucker is fixedly provided with a pull lug.

Furthermore, the telescopic assembly comprises a telescopic groove which is formed in the bottom of the bin body and extends to the inside of the bin body, and further comprises an L-shaped sliding body, wherein the vertical section of the sliding body is arranged in the telescopic groove in a sliding manner, the transverse section of the sliding body is arranged outside the bin body and is connected with the sealing rubber block, and a control part for fixing the sliding body in the state that the sealing rubber block is tightly abutted to the wire inserting groove is arranged in the telescopic groove.

Further, the control piece is including seting up draw-in groove on the flexible inslot wall, and set up the control box that slides internally and run through its bottom, it is provided with L type pole to slide in the control box, the horizontal section of L type pole will one side activity of control box runs through and extends to in the draw-in groove, the vertical section of L type extends to flexible inslot portion, still including connecting L type pole with chucking spring between a control box lateral wall.

Furthermore, a telescopic spring is connected between the top of the sliding body and the top groove surface of the telescopic groove.

The utility model has the advantages as follows:

the utility model utilizes the waterproof sucker to plug the notch of the charging groove, thus avoiding water from entering the charging groove; the notch of the slot is sealed by matching the sealing rubber block with the telescopic assembly, so that water is prevented from entering the slot; the notch which can contact the electronic element in the charging bin is plugged, so that the charging bin is effectively protected.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a side view of the structure of the present invention;

fig. 3 is a sectional view taken along line a-a of fig. 3 according to the present invention;

fig. 4 is a sectional view taken along line B-B of fig. 3 in accordance with the present invention;

reference numerals: 1. a bin body; 2. a bin cover; 3. a charging slot; 4. a waterproof sucker; 5. a wire inserting groove; 6. sealing the rubber block; 7. a telescoping assembly; 701. a telescopic groove; 702. a sliding body; 8. a connecting spring; 9. pulling the lug; 10. a control member; 1001. a card slot; 1002. a control slot; 1003. an L-shaped rod; 1004. a clamping spring; 11. a telescoping spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention.

As shown in fig. 1-4, a waterproof structure of a bluetooth headset charging bin comprises a bin body 1 and a bin cover 2 hinged to the top of the bin body, wherein a pair of charging grooves 3 (the charging grooves 3 are used for placing bluetooth headsets) extending into the bin body 1 are formed in the top of the bin body 1, and a pair of waterproof suckers 4 used for plugging the notches of the charging grooves 3 are adsorbed on the top of the bin body 1; still including seting up the plug wire casing 5 in 1 bottoms in the storehouse body (plug wire casing 5 is used for charging to the storehouse that charges), the plug tightly has sealing rubber piece 6 in the plug wire casing 5, and the storehouse body 1 is used for supporting sealing rubber piece 6 tightly in plug wire casing 5 or takes out its telescopic component 7 so that charge with it along it highly to being provided with, the utility model discloses an theory of operation does: after the earphone is placed in the charging groove 3, the waterproof sucker 4 is tightly pressed in the bin body 1, so that the notch of the charging groove 3 is covered by the waterproof sucker 4, and water cannot easily enter the charging groove 3 even after the charging bin falls into a water pit or the bin cover 2 is forced to be opened, thereby playing a waterproof role; when the sealing rubber block 6 is positioned in the plug wire slot 5, the plug wire slot 5 is in a blocked state, so that water cannot easily enter the plug wire slot 5, the telescopic assembly 7 is designed to facilitate control of the use state of the sealing rubber block 6, when the telescopic assembly 7 is in a compressed state, the sealing rubber block 6 is tightly abutted in the plug wire slot 5, the telescopic piece is pulled to enable the sealing rubber block 6 to be taken out, and charging is facilitated; utilize waterproof sucker 4 and sealing rubber piece 6 to seal charging groove 3 and plug wire groove 5's notch respectively, avoid water to get into the inside damage that causes the storehouse of charging in the storehouse of charging, solved the problem that proposes among the above-mentioned background art.

As shown in fig. 4, in some embodiments, in order to increase the practicability of the device, a connection spring 8 is installed between the waterproof sucker 4 and the inner wall of the bin cover 2, and the design of the connection spring 8 avoids the loss of the waterproof sucker 4, and can increase the stability of the connection between the bin cover 2 and the bin body 1 (the current bin cover 2 and the bin body 1 are closed through the magnetic adsorption, the utility model discloses continue to use the existing technology, and improve the stability of the connection between the bin cover 2 and the bin body 1 through increasing the connection spring 8, so as to reduce the probability of the bin cover 2 falling off).

As shown in fig. 4, in some embodiments, in order to facilitate the waterproof suction cup 4 to be removed from the notch of the charging slot 3, a pull tab 9 is fixedly arranged on the side of the waterproof suction cup 4.

As shown in fig. 3, in some embodiments, in order to refine the specific structure of the telescopic assembly 7, the telescopic assembly 7 includes a telescopic slot 701 provided at the bottom of the bin body 1 and extending to the interior thereof, and further includes a L-shaped sliding body 702 (the sliding body 702 moves along the height of the bin body 1), a vertical section of the sliding body 702 is slidably provided in the telescopic slot 701, a horizontal section of the sliding body 702 is located outside the bin body 1 and is connected with the sealing rubber block 6, and a control member 10 for fixing the sliding body 702 abutting against the sealing rubber block 6 in the state of the wire inserting slot 5 is provided in the telescopic slot 701, which works on the principle: when the sealing rubber block 6 is tightly abutted to the plug wire slot 5, the vertical section of the sliding body 702 is positioned in the telescopic slot 701 and the state is fixed by the control piece 10, and after the fixed state of the control piece 10 is cancelled, a part of the sliding body 702 is extracted out, so that the charging operation of the charging bin can be carried out.

As shown in fig. 3, in some embodiments, in order to refine the specific structure of the control element 10, the control element 10 includes a slot 1001 opened on the inner wall of the telescopic slot 701 (the slot 1001 is opened on a vertical inner wall of the telescopic slot 701), and a control slot 1002 opened in the sliding body 702 and penetrating through the bottom of the sliding body, an L-shaped rod 1003 is slidably disposed in the control slot 1002 (the L-shaped rod 1003 slides along the length of the slot 1001), a lateral section of the L-shaped rod 1003 movably penetrates one side of the control slot 1002 and extends into the slot 1001, a vertical section of the L-shaped rod extends out of the telescopic slot 701, and a chucking spring 1004 connected between the L-shaped rod 1003 and one side wall of the control slot 1002 (the chucking spring 1004 is disposed along the sliding direction of the L-shaped rod 1003), and the operation principle: when the sealing rubber block 6 abuts against the inside of the plug wire slot 5, the end of the transverse section of the L-shaped rod 1003 is inserted into the plug wire slot 1001, the sliding body 702 is in a fixed state at the moment, the vertical section of the L-shaped rod 1003 is pulled in the direction of compressing the chucking spring 1004 (the end of the vertical section of the L-shaped rod 1003 extends from the notch of the telescopic slot 701 to the outside of the device, so that manual operation can be performed) until the end of the transverse section of the L-shaped rod 1003 is taken out of the plug wire slot 1001, and then the sliding body 702 is pulled to take the sealing rubber block 6 out of the plug wire slot 5, so that charging can be performed.

As shown in fig. 3, in some embodiments, in order to increase the practicability of the device, a telescopic spring 11 is connected between the top of the sliding body 702 and the top groove surface of the telescopic groove 701, after the end of the transverse section of the L-shaped rod 1003 is taken out of the clamping groove 1001, the sliding body 702 is pulled to expose the transverse section of the L-shaped rod 1003 outside the telescopic groove 701, and the external force applied to the L-shaped rod 1003 is released to make the transverse section of the L-shaped rod 1003 abut against the bottom of the cabin 1, at this time, the telescopic spring 11 is in a stretched state, so that the connection between the telescopic groove 701 and the sliding body 702 is achieved, the sliding body 702 is prevented from falling off after being excessively pulled out, and the convenience of the device operation is increased.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. The waterproof structure of the Bluetooth headset charging bin is characterized by comprising a bin body (1) and a bin cover (2) hinged to the top of the bin body, wherein a pair of charging grooves (3) extending into the bin body are formed in the top of the bin body (1), and a pair of waterproof suckers (4) used for plugging the notches of the charging grooves (3) are adsorbed on the top of the bin body (1); still including offering in the plug wire groove (5) of storehouse body (1) bottom, the plug has sealing rubber piece (6) in plug wire groove (5), the storehouse body (1) is used for along its high to being provided with sealing rubber piece (6) support tightly in plug wire groove (5) or take out its telescopic component (7) so that charge.

2. The waterproof structure of the Bluetooth headset charging bin according to claim 1, wherein a connecting spring (8) is installed between the waterproof sucker (4) and the inner wall of the bin cover (2).

3. The waterproof structure of the Bluetooth headset charging bin according to claim 1, wherein a pull lug (9) is fixedly arranged on the side edge of the waterproof sucker (4).

4. The waterproof structure of the Bluetooth headset charging bin of claim 1, wherein the telescopic assembly (7) comprises a telescopic groove (701) which is formed in the bottom of the bin body (1) and extends into the bin body, and further comprises an L-shaped sliding body (702), the vertical section of the sliding body (702) is arranged in the telescopic groove (701) in a sliding manner, the transverse section of the sliding body is positioned outside the bin body (1) and connected with the sealing rubber block (6), and a control piece (10) for fixing the sliding body (702) in a state that the sealing rubber block (6) is tightly abutted to the inserting groove (5) is arranged in the telescopic groove (701).

5. The waterproof structure of a Bluetooth headset charging bin according to claim 4, wherein the control member (10) comprises a clamping groove (1001) formed in the inner wall of the telescopic groove (701) and a control groove (1002) formed in the sliding body (702) and penetrating through the bottom of the sliding body, an L-shaped rod (1003) is slidably arranged in the control groove (1002), a transverse section of the L-shaped rod (1003) movably penetrates one side of the control groove (1002) and extends into the clamping groove (1001), a vertical section of the L-shaped rod extends out of the telescopic groove (701), and the waterproof structure further comprises a clamping spring (1004) connected between the L-shaped rod (1003) and one side wall of the control groove (1002).

6. The waterproof structure of the Bluetooth headset charging bin of claim 4, wherein a telescopic spring (11) is connected between the top of the sliding body (702) and the top groove surface of the telescopic groove (701).

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