DE202018105148U1 - Battery charger with waterproof mechanism and waterproof housing - Google Patents

Abstract

Charger with a waterproofing mechanism, comprising:
a waterproof case comprising a base (10) and a cover (20); the base (10) having a peripheral plate (12) and an opening (13) formed at one end of the peripheral plate (12); the opening (13) has an annular groove (14) formed thereon; the cover (20) is configured to appropriately cover the opening (13); the cover (20) has a melting portion (21) formed at a position corresponding to the annular groove (14); the fused portion (21) has a larger cross-sectional width than a cross-sectional width of the annular groove (14), and the fusing portion (21) has a slit (22) formed on an inner side thereof; wherein said fusing portion (21) uses an attaching means to form a sealed and hardened first waterproof portion (C) between said cover (20) and said peripheral plate (12), and a sealed and hardened second waterproof portion (D) at said slot (12) 22) to form;
two pins (82) which penetrate and are secured to the cover (20); and
a power conversion unit (83) housed inside the watertight housing and electrically connected to the pins (82).

Description

GENERAL PRIOR ART

Field of the invention

The present invention relates to a charger, in particular a charger with a waterproof mechanism and a waterproof housing thereof.

Description of the Related Art

A charger plug is used to connect to a power outlet to transmit power to an electronic product in order to charge and operate the electronic product, such as: PDA, mobile phone, electronic book, and tablet computer. Some electronic products can be used in relatively damp and wet areas (such as the bathroom); therefore, it is important to ensure that the charger plug can be used safely in a damp and wet environment and that it is equipped with a waterproof function.

In order to achieve a high degree of watertightness, existing charger plugs are usually filled with colloid inside the charger plug to enhance the protection against liquid ingress, such as by filling the interior with an epoxy. The filled colloid can cover the internal electronic elements in the charger plug to isolate them from ingress of liquid. The most common method is to completely fill the inside of the charger plug with colloid so that the colloid can completely cover the internal elements (such as the circuit board, passive components, wires, etc.).

Since the gel filling method is used to manufacture the device in a known charger plug, the manufacturing process can be extremely complicated and time consuming. In addition, the material cost of such a colloid is relatively high. In addition, the colloid must be filled in a certain thickness to achieve a good waterproof effect, which hinders the further reduction of the outer dimensions of the plug, so that the market demand can not be met.

In view of this, the inventor seeks to overcome the above drawbacks associated with the present technique through years of research and development in connection with academic theories, which is also the object of the practice of the present invention.

Brief description of the invention

The present invention has for its object to provide a charger with a waterproof mechanism and a waterproof housing thereof, so that not only a waterproof effect can be achieved, but also the outer dimensions of the charger can be substantially reduced and material costs thereof can be saved.

In order to achieve the above object, the present invention provides a charger having a waterproofing mechanism comprising a waterproof case, two pins, and a power conversion unit. The waterproof housing includes a base and a cover. The base includes a peripheral plate and an opening formed at one end of the peripheral plate. The opening includes an annular groove formed thereon. The cover is configured to appropriately cover the opening. The cover includes a fusion portion formed at a position corresponding to the annular groove. The melting portion has a cross-sectional width larger than a cross-sectional width of the annular groove, and the melting portion includes a slit formed on the inside thereof; wherein the fusing portion uses an attachment means to form a sealed and cured first watertight part between the cover and the peripheral plate and to form a sealed and hardened second watertight part at the slot. Each pin penetrates into the cover and is attached to it. The power conversion unit is housed inside the waterproof case and electrically connected to the pins.

In order to achieve the above object, the present invention also provides a waterproof case for a charger including a base and a cover. The base includes a peripheral plate and an opening formed at one end of the peripheral plate. The opening includes an annular groove formed thereon. The cover is configured to appropriately cover the opening. The cover includes a fusion portion formed at a position corresponding to the annular groove. The melting portion has a cross-sectional width larger than a cross-sectional width of the annular groove, and the melting portion includes a slit formed on the inside thereof; wherein the fusing portion uses an attachment means to form a sealed and cured first watertight part between the cover and the peripheral plate and to form a sealed and hardened second watertight part at the slot.

The present invention has the following technical effects. Since the present invention does not require a colloid filling process on the internal electronic elements, it can save the material cost of colloid filling, and the external dimensions of the base and cover can be reduced accordingly to meet the needs of a small and slim charger. With the multi-level waterproofing design of different waterproof parts, the penetration of water molecules, water vapor and dust from the outside can be effectively prevented. The structure of the present invention is compact, the manufacturing process is simplified, and the assembling operation is fast and practical and the reliability of its waterproofness is high.

list of figures

• 1 Fig. 13 is an exploded perspective view of the charger with a water-proofing mechanism of the present invention;
• 2 Fig. 12 is an exploded cross-sectional view of the charger with a water-proofing mechanism of the present invention;
• 3 is a partially enlarged view of 2 ,
• 4 Fig. 12 is a cross-sectional view after assembling the charger with a waterproofing mechanism of the present invention;
• 5 is a partially enlarged view of 4 ; and
• 6 Fig. 10 is an external view of the charger assembled with a waterproofing mechanism of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

Hereinafter, the detailed technical content of the present invention is provided together with the accompanying drawings. However, the accompanying drawings are for reference and illustration only, such that they do not limit the scope of the present invention.

As in 1 to 6 As shown, the present invention provides a charger having a waterproof mechanism and a waterproof case thereof. The waterproof housing structure of the charger includes a base as the main elements 10 and a cover 20 ,

The base 10 can be made of a plastic material. In one embodiment of the present invention, the base 10 generally a cylindrical shape and comprises as main elements a base plate 11 and a peripheral plate 12 that differ from the scope of the base plate 11 extends upwards. There is also a receiving cavity A between the base plate 11 and the peripheral plate 12 educated. In one embodiment of the present invention, the base plate is 11 Generally circular, but the present invention is not limited to such a form. The peripheral plate 12 includes an opening 13 attached to one of the base plate 11 the far end is formed. The circumference of the peripheral plate 12 at the opening 13 includes an annular groove formed thereon 14 , In addition, the peripheral plate includes 12 on an inside of the ring groove 14 a blockade wall formed thereon 15 , In addition, the peripheral plate includes 12 on an outer side of the annular groove 14 a sloping surface formed thereon 16 ,

The cover 20 may also be made of a plastic material. In one embodiment of the present invention, the cover 20 generally cylindrically shaped and configured to have said opening 13 cover accordingly. The cover 20 includes a fusion portion formed on a periphery thereof 21 , In one embodiment of the present invention, the fusion section 21 a generally trapezoidal cross-section, but the present invention is not limited to such a shape. In addition, the melting section 21 a larger cross-sectional width than the cross-sectional width of said annular groove 14 on. The melting section 21 includes a slot formed on its inside 22 , and the slot 22 includes an inner ring wall formed on its inside 23 , The cover 20 includes a mounting edge formed on its side edge 24 which is arranged, together with a side edge of the melting section 21 to form an oblique line. If the cover 20 the opening 13 the base 10 according to covering, is a Lotaufnahmezwischenraum B between the attachment edge 24 and the sloping surface 16 educated. In addition, the cover includes 20 two through holes formed in its middle region 25 ,

In addition, the melting section uses 21 an attachment means, and the attachment means may be an ultrasonic welding technique or method to allow the fusion section 21 can produce a molten fluid which is in said Lotaufnahmezwischenraum B and the slot 22 flows; in this way, a sealed and hardened first waterproof part C between the attachment edge 24 the cover 20 and the sloping surface 16 the peripheral plate 12 can be formed, and it can also be a sealed and hardened second waterproof part D inside the slot 22 be formed. In addition, the second waterproof part extends D between the peripheral plate 12 and the inner ring wall 23 ,

With the design according to which the cross-sectional width of the melting section 21 larger than the cross-sectional width of the annular groove 14 can be, during the process of said ultrasonic welding technique, a double shear stress structure on the vertical surfaces on the left and right side of the annular groove 14 be formed. During the bonding of the fusion section 21 This can be done with the vertical sides on the two sides of the ring groove 14 get in touch; in this way, the strength and the waterproofing effect after welding can be further improved.

In addition, a sealed and hardened third watertight part e inside the said annular groove 14 be formed. In other words, the third waterproof part e is between the ring groove 14 and the cover 20 educated. Accordingly, a multistage waterproofing effect can be obtained.

The basic idea of ultrasonic welding is the use of a high-frequency audio signal to convert the audio signal into heat energy by means of an energy converter, and the welding head of the energy converter is in direct contact with the plastic element, so that the particle temperature of the molecules of the plastic element increases due to the friction generated by strong vibrations. If the temperature is higher than the melting point of the plastic, the plastic can be melted to weld together; Once the molten plastic has cooled, it can harden and bond.

It also includes the charger 8th with a waterproof mechanism as main elements, a waterproof case, a transmission line 81 , two pens 82 and a power conversion unit 83 ; each pen 82 in the cover 20 penetrates and is attached to it. In other words, a section of the pen 82 penetrates into said through hole 25 and lies on the outside of the cover 20 free. The power conversion unit 83 is used for power conversion of the two pins 82 externally absorbed power, such as for converting AC to DC or for voltage conversion. The power conversion unit 83 is recorded in the room that is from the base 10 and the cover 20 is formed and surrounded, and is electrically with both pins 82 connected. The transmission line 81 is electrical with the power conversion unit 83 connected and lies on the outside of the base 10 free.

In view of the foregoing, the charger having a waterproofing mechanism and a waterproof housing structure thereof according to the present invention can achieve the expected objects and overcome the disadvantages of the prior art. Also, the preferred and practicable embodiments of the present invention have been described by way of illustration only and are not intended as limitations on the scope of the present invention. All equivalent changes and modifications within the scope of the claims of the present invention are deemed to fall within the claimed scope of the present invention.

Claims (16)

Charger with a waterproofing mechanism, comprising: a waterproof case comprising a base (10) and a cover (20); the base (10) having a peripheral plate (12) and an opening (13) formed at one end of the peripheral plate (12); the opening (13) has an annular groove (14) formed thereon; the cover (20) is configured to appropriately cover the opening (13); the cover (20) has a melting portion (21) formed at a position corresponding to the annular groove (14); the fused portion (21) has a larger cross-sectional width than a cross-sectional width of the annular groove (14), and the fusing portion (21) has a slit (22) formed on an inner side thereof; wherein the fusing portion (21) uses an attaching means to form a sealed and hardened first waterproof portion (C) between the cover (20) and the peripheral plate (12), and a sealed and hardened second waterproof portion (D) at the slot (FIG. 22) to form; two pins (82) which penetrate and are secured to the cover (20); and a power conversion unit (83) housed inside the watertight housing and electrically connected to the pins (82). Charger with a water resistance mechanism after Claim 1 wherein the peripheral plate (12) includes at an inner side of the annular groove (14) a blocking wall (15) formed thereon; the cover (20) includes an inner annular wall (23) formed on an inner side of the slot (22); and the second waterproof part (D) extends between the peripheral plate (12) and the inner annular wall (23). Charger with a water resistance mechanism after Claim 1 wherein the fusing portion (21) uses the attachment means for a portion of a molten fluid to form a sealed and cured third watertight portion (E); wherein the third watertight member (E) is formed between the annular groove (14) and the cover (20). Charger with a water resistance mechanism after Claim 1 wherein the peripheral plate (12) includes an inclined surface (16) formed thereon at an outer side of the annular groove (14); a side edge of the cover (20) includes a mounting edge (24) formed thereon; the cover (20) is configured to cover the opening (13) accordingly and a solder receiving space (B) is formed between the attachment edge (24) and the inclined surface (16). Charger with a water resistance mechanism after Claim 1 wherein the cover (20) includes a mounting edge (24) formed on a side edge thereof; the melting portion (21) is formed at the top of the attachment edge (24), and the attachment edge (24) forms an oblique straight line with a side edge of the fusion portion (21). Charger with a water resistance mechanism after Claim 1 wherein a cross section of the fusion section (21) is trapezoidal. Charger with a water resistance mechanism after Claim 1 wherein the base (10) further comprises a base plate (11) covering another end of the peripheral plate (12), and a receiving cavity (A) is formed between the base plate (11) and the peripheral plate (12). Charger with a water resistance mechanism after Claim 1 wherein the attachment means is an ultrasonic welding technique. Waterproof housing for a charger, comprising: a base (10) having a peripheral plate (12) and an opening (13) formed at one end of the peripheral plate (12); wherein the opening (13) has an annular groove (14) formed thereon; a cover (20) configured to appropriately cover the opening (13); the cover (20) having a fused portion (21) formed at a position corresponding to the annular groove (14); the fused portion (21) has a larger cross-sectional width than a cross-sectional width of the annular groove (14), and the fusing portion (21) has a slit (22) formed on an inner side thereof; wherein the fusing portion (21) uses an attaching means to form a sealed and hardened first waterproof portion (C) between the cover (20) and the peripheral plate (12), and a sealed and hardened second waterproof portion (D) at the slot (FIG. 22). Waterproof housing for a charger after Claim 9 wherein the peripheral plate (12) includes at an inner side of the annular groove (14) a blocking wall (15) formed thereon; the cover (20) includes an inner annular wall (23) formed on an inner side of the slot (22); and the second waterproof part (D) extends between the peripheral plate (12) and the inner annular wall (23). Waterproof housing for a charger after Claim 9 wherein the fusing portion (21) uses the attachment means for a portion of a molten fluid to form a sealed and cured third watertight portion (E); wherein the third watertight member (E) is formed between the annular groove (14) and the cover (20). Waterproof housing for a charger after Claim 9 wherein the peripheral plate (12) includes an inclined surface (16) formed thereon at an outer side of the annular groove (14); a side edge of the cover (20) includes a mounting edge (24) formed thereon; the cover (20) is configured to cover the opening (13) accordingly and a solder receiving space (B) is formed between the attachment edge (24) and the inclined surface (16). Waterproof housing for a charger after Claim 9 wherein the cover (20) includes a mounting edge (24) formed on a side edge thereof; the melting portion (21) is formed at the top of the attachment edge (24), and the attachment edge (24) forms an oblique straight line with a side edge of the fusion portion (21). Waterproof housing for a charger after Claim 9 wherein a cross section of the fusion section (21) is trapezoidal. Waterproof housing for a charger after Claim 9 wherein the base (10) further comprises a base plate (11) covering another end of the peripheral plate (12), and a receiving cavity (A) is formed between the base plate (11) and the peripheral plate (12). Waterproof housing for a charger after Claim 9 wherein the attachment means is an ultrasonic welding technique.

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