DE10235207A1 - Movable plug head for travel-type battery charger has metal plates pivoted between stowed position received in channels in bottom cover of battery charger and perpendicularly projecting working position - Google Patents

Abstract

The movable plug head has a pair of metal plates (1200), received within a pair of parallel open channels (1121) in the bottom cover (1120) of the battery charger and coupled together at one end for rotation between a horizontal stowed position and a vertical working position. Each metal plate is coupled to a clamp block (1220), when it is raised into the vertical working position, via a retaining clamp (1400) with spring plates gripping the clamp block. An Independent claim for a travel-type battery charger is also included.

Description

BACKGROUND OF THE INVENTION Field of the Invention

The present invention relates to a movable plug head. In particular, the The present invention a movable plug head for a movable battery charger.

Description of the prior art

Information devices represent another milestone for the electronic industry after the Computer revolution. The so-called information devices concern a broad category Devices with communication or networking capabilities and serve as a means of Providing information and recreational activities. According to such a definition the information devices can connect to a network for voice messages and Transmit / receive network data. Mobile phones, PDAs (personal digital assistants), For example, web ads and notebook computers are viewed as information devices. Generally, rechargeable batteries provide the power needed to run Information devices such as cell phones, PDAs and notebook computers are necessary. Around To avoid a lack of performance, many people want, in addition to a set of spare batteries, carry a small, lightweight battery charger to charge the rechargeable batteries.

Fig. 1a and 1b are perspective views of a conventional travel charger. The movable charger has a main body 100 that includes an upper cover 110 and a lower cover 120 . A pair of parallel, open grooves 121 are formed on the lower cover 120 so that the two metal plates 200 of a plug head can be folded out of the main body 100 . To reduce the volume and increase portability, the metal plates 200 of the plug head can be bent back into the open grooves 121 , as shown in Fig. 1a. To use the charger, the metal plates 200 will be rotated from a hidden, horizontal position to a vertical position relative to the main body 100 , as shown in FIG. 1b.

FIGS. 2a to 2c are views in exploded, showing the components that type charger travel from in Fig. 1a and 1b are the conventional ones. The two metal plates 200 are connected to one another by an axis of rotation 210 . The axis of rotation 210 is gripped by a groove 122 on the lower cover 120 . The axis of rotation 210 is capable of rotating along a groove 112 on a support frame 111 attached to the top cover 110 . There is an L-shaped gripping block 220 between the two metal plates 200 . In addition, the L-shaped gripping block 220 has end surfaces with a first projecting ridge 221 and a second projecting ridge 222 thereon. The gripping block 220 is gripped by the two side walls 403 of an n-shaped holding clamp 400 . The gripping block 220 and the n-shaped retaining clip 400 are both made of a non-conductive plastic material. When the metal plates 200 of the plug head are folded back into the open grooves 121 , the second projecting ridge 222 of the gripping block 220 and its other surface are gripped by the two side walls 403 of the n-shaped holding clamp 400 . Due to the protruding profile of the ridge 222 , the side walls 403 of the n-shaped holding clamp 400 expand a little and increase the grip of the gripping block 220 . The metal plates 200 of the plug head consequently remain in a stable position. On the other hand, when the metal plates 200 rotate to a position vertical to the main body 100 , the first protruding ridge 221 of the gripping block 220 and its other surface are gripped by the two side walls 403 of the n-shaped holding clamp 400 . Likewise, due to the projecting profile of the ridge 221 , the side walls of the n-shaped retaining clip 400 expand a little and increase the grip of the gripping block 220 . The metal plates 200 of the plug head remain in a stable position. When the second ends 202 of the respective metal plates 200 protrude from the main body 100 , the charger can be plugged into an outlet (not shown) to obtain a necessary power source. In the meantime, the first ends 201 at the other end of the metal plates 200 are drawn into the main body 100 and gripped on a substrate board 300 by elastic clips 500 . The metal plates 200 and contact points on the substrate board 300 are thus electrically connected.

The conventional travel type charger mainly uses an n-shaped holding clip together with a clamping block with two protruding ridges to the metal plates of the Plug head either hidden in the main body or freely outside the main body position. In addition, the conventional design also requires a pair of metallic ones elastic clips for electrical connection. There are therefore several components required and the assembly costs are increased.

SUMMARY OF THE INVENTION

An object of the present invention is accordingly to provide a trip type Battery charger with a metallic n-shaped retaining clip, also called a metallic Bracket acts to reduce the overall thickness of the loader. The loader also uses fewer components and consequently reduces material and assembly costs.

To achieve these and other advantages and in accordance with the purpose of the invention as described here executed and broadly described, the invention provides a movable Plug head device ready, which is suitable for a travel-type battery charger. The Charger includes a top cover, a bottom cover, and a substrate board. The the top cover and the bottom cover together form a complete main body with the substrate board enclosed in the main body. The top cover has two open grooves that run parallel to each other. The movable plug head of this Invention comprises a plug head and two retaining clips. The plug head is with the inner surface of the lower cover. The plug head is made of two metallic Plates, an axis of rotation and two terminal blocks put together. The metallic plates are positioned in the long and linear open grooves, each reflecting the other is. The metallic plates have a first end and a second end. The first End of the metallic plates extends into the main body. The axis of rotation is on the metallic plates attached close to the first end. The axis of rotation is in the main body mounted so that the metallic plates from a horizontal position in the open grooves can rotate to a vertical position, with the second end of the metallic plates exposed outside the lower cover of the main body.

The terminal blocks are positioned at the respective first end of the metallic plates. The Terminal blocks have a first flat surface, a second flat surface, a third flat surface and a fourth flat surface. The first flat surface and the second flat surface are perpendicular to each other. The third flat surface and the first flat surface are parallel to each other. The fourth level surface and the second level Surface are parallel to each other. The first flat surface has a first protruding ridge and the second flat surface has a second protruding Ridges.

The two retaining clips are attached to the inner surface of the bottom cover. The Retaining clips are made using a conductive material. Every holding clamp has two gripping spring plates or gripping spring leaves, a first gripping spring plate and a second Grab spring plate, on. The first gripper spring plate is attached to and with the substrate board electrically connected. The two spring plates or spring leaves are approximately parallel to one another. Each holding clamp grips a terminal block. The second spring plate is with the second end after contacting the metallic plate from a position in the open groove is rotated to a vertical position relative to the bottom cover. If the metal plates are drawn into the open groove, the spring plates grip each Clamp the second protruding ridge or the fourth flat surface of the Terminal block. On the other hand, if the metallic plates are in a relative to the lower one When the cover is rotated in the vertical position, the spring plates of each holding clamp grip the first projecting ridge or the third flat surface of the terminal block.

It should be understood that both the general description above and the following Detailed description are exemplary only and are intended to further explain the provide claimed invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings are included to further understand the invention create and are included in this description and form part of it. The Drawings illustrate embodiments of the invention and are used in conjunction with the description to explain the principles of the invention. In the drawings,

Figs. 1a and 1b are perspective views of a conventional travel charger;

Figs. 2a to 2c are exploded views showing the components that compose the conventional travel type charger in Figs. 1a and 1b;

Figures 3a to 3c are views in exploded, showing the components of a travel-type battery charger according to a preferred embodiment of this invention.

FIGS. 4a and 4b are perspective views showing the movable head plug according to a preferred embodiment of this invention in detail;

FIGS. 5a and 5b are perspective views showing the movable connector head of this invention in the closed position; and

Figs. 6a and 6b are perspective views showing the movable connector head of this invention in the open position.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Reference will now be made in detail to present preferred embodiments of the invention taken, examples of which are illustrated in the accompanying drawings. Whenever possible, the same reference numerals are used in the drawings and the Description used to designate the same or similar parts.

FIGS. 3a to 3c are views exploded dividers, showing the components of a travel-type battery charger according to a preferred embodiment of this invention. The main body 1100 of the battery charger includes an upper cover 1110 and a lower cover 1120 . The lower cover 1120 has two mutually parallel open grooves 1121 for drawing a pair of metallic plates 1200 into the main body 1100 .

The two metallic plates 1200 are connected to one another by an axis of rotation 1210 . The axis of rotation 1210 is clamped between one groove 1122 on the lower cover 1120 and another groove 1112 on a support frame 1111 on the upper cover 1110 . However, the axis of rotation 1210 is free to rotate. An L-shaped terminal block 1220 is fixed at a position near the first end 1201 of each metal plate 1200 . Referring to Figures 4a and 4b, the L-shaped clamp block 1220 has two mutually perpendicular surfaces, a first flat surface 1231 and a second flat surface 1232 . The first flat surface 1231 and the second flat surface 1232 have a first projecting ridge 1221 and a second projecting ridge 1222, respectively. The clamping block 1220 is fixed in position by two spring plates or spring leaves 1403 of a holding clamp 1400 . The clamping block 1220 is made of a non-conductive plastic material.

When the metallic plates 1200 are folded into the open grooves 1121 , the second projecting ridge 1222 and the fourth flat surface 1234 of the terminal block 1220 are firmly gripped by the two spring plates 1403 of the holding clamp 1400 . In addition, the two spring plates 1403 of the holding clamp 1400 are forced outwards due to the projecting profile of the second ridge 1222 , which leads to a greater spring force and a better grip of the metallic plates 1200 in a stationary position. This can be seen in Figures 4b, 5a and 5b. When the metallic plates 1200 rotate to a vertical position relative to the main body 1100 , the first protruding ridge 1221 and the third flat surface 1233 of the clamping block 1200 are firmly gripped by the two spring plates 1403 of the holding clamp 1400 . In addition, the two spring plates 1403 of the holding clamp 1400 are forced outwards due to the projecting profile of the first ridge 1221 , which leads to a greater spring force and a better grip of the metallic plates 1200 in a stationary position. This can be seen in Figures 4a, 6a and 6b. Because the second end 1202 of the metallic plates 1200 is now exposed outside the main body 1100 , the charger can be plugged into an electrical outlet (not shown) to receive the necessary current. In the meantime, the first end 1201 of the metallic plates 1200 in the main body 1100 is in contact with a second spring plate 1402 of the holding clip 1400 . Because a first spring plate or spring leaf 1401 of the holding clamp 1400 is in contact with a conductive connection surface 1301 of the substrate board 1300 , the metallic plates 1200 and the electrical substrate board 1300 are electrically connected.

In this invention, the holding clamp 1400 serves as a position holding device and the spring plates 1403 serve as a handle for the metallic probes (the metallic plates 1200 ). As a result, the charger's metallic probes can be pulled out of the main body 1100 and locked in position for engaging an electrical outlet. The metallic probes can also be retracted into the main body 1100 and fixed in place when the loader is no longer in use. The retention clip 1400 is made of a flexible conductive material such as phosphor bronze or beryllium bronze.

• 1. Eine metallische, n-förmige Halteklemme ersetzt die herkömmliche Kunststoff-Klemme und leitfähige, metallische Federplatten, so dass die Anzahl an Komponenten minimiert ist. Folglich sind Material- und Montierkosten reduziert.
• 2. Eine dünnere, n-förmige Halteklemme wird gebildet, wenn metallisches anstelle von Kunststoffmaterial verwendet wird. Schließlich wird die Gesamtdicke des Reise-Typ- Batterieladegeräts reduziert.
• 3. Es wird dem Fachmann klar sein, dass verschiedene Modifikationen und Variationen von der Struktur der vorliegenden Erfindung gemacht werden können, ohne den Schutzumfang oder das Wesen der Erfindung zu verlassen. Im Hinblick auf das Vorstehende ist beabsichtigt, dass die vorliegende Erfindung Modifikationen und Variationen dieser Erfindung abdeckt, vorausgesetzt sie fallen in den Schutzumfang der folgenden Ansprüche und ihrer Equivalente.

Finally, the main advantages of this invention include:

• 1. A metallic, n-shaped holding clamp replaces the conventional plastic clamp and conductive, metallic spring plates, so that the number of components is minimized. As a result, material and assembly costs are reduced.
• 2. A thinner, n-shaped retaining clip is formed when using metallic instead of plastic material. Finally, the overall thickness of the travel type battery charger is reduced.
• 3. It will be apparent to those skilled in the art that various modifications and variations can be made in the structure of the present invention without departing from the scope or spirit of the invention. In view of the foregoing, the present invention is intended to cover modifications and variations of this invention provided they come within the scope of the following claims and their equivalents.

Claims (14)

1. A movable plug head for a travel type battery charger, the charger including a main body comprising an upper cover and a lower cover and a substrate board enclosed in the main body, and the lower cover having a pair of parallel open grooves, the movable one Plug head contains:
a connector mounted on the inner surface of the lower cover, the connector including two metallic plates, an axis of rotation and two terminal blocks; in which
the metallic plates are enclosed in the open grooves with a long linear shape parallel to each other like a reflection, and each metallic plate has a first end and a second end, the first end extending into the main body;
the axis of rotation and the metallic plates are joined together near the first end and are mounted in the main body so that the metallic plates are free to rotate from a horizontal position in the open grooves to a vertical position relative to the lower cover, the second Exposing the end of the metallic plates outside the main body;
the clamping blocks are positioned around the first end of the metallic plates, each clamping block has a first flat surface, a second flat surface, a third flat surface and a fourth flat surface, the first flat surface and the second flat surface being perpendicular to one another the third flat surface and the first flat surface are parallel to each other, the fourth flat surface and the second flat surface are parallel to each other, the first flat surface has a first protruding ridge and the second flat surface has a second protruding ridge; and
a pair of retaining clips mounted inside the lower cover, the retaining clips being made of a conductive material and comprising two gripping spring plates, a first spring plate and a second spring plate, the first spring plate in contact with and electrically with the substrate board is connected, the pair of gripper spring plates are approximately parallel to each other, the spring plates of each holding clamp grip a clamp block, and the second end of the metallic plates is in contact with the second spring plates when the metallic plates move from the horizontal position in the open grooves to a vertical position pulled perpendicular to the bottom cover;
wherein the spring plates of each retaining clip grip the second projecting ridge and the fourth flat surface of the terminal block when the metallic plates are retracted to a horizontal position in the open grooves, and the spring plates of each retaining clip engage the first projecting ridge and the third flat surface of the terminal block when the metallic plates are pulled out to a vertical position relative to the lower cover. 2. Movable plug head according to claim 1, in the manufacture of the holding clamp used material includes flexible metallic material. 3. Movable plug head according to claim 2, in which to produce the retaining clip used material includes phosphor bronze. 4. Movable plug head according to claim 2, in the manufacture of the holding clamp material used includes beryllium bronze. 5. Travel-type battery charger containing:
a main body having an upper cover and a lower cover, the lower cover having two parallel open grooves;
a substrate board in the main body; and
a movable plug head with a plug and two retaining clips; wherein the connector is mounted on the inner surface of the lower cover, the connector comprises two metallic plates, an axis of rotation and two clamping blocks;
wherein the metallic plates are enclosed in the open grooves with a long linear shape parallel to each other like a reflection, and each metallic plate has a first end and a second end, the first end extending into the main body;
wherein the axis of rotation and the metallic plates are connected to each other near the first end and are mounted in the main body so that the metallic plates are free to rotate from a horizontal position in the open grooves to a vertical position relative to the lower cover exposing the second end of the metallic plates outside the main body;
the clamping blocks being positioned around the first end of the metallic plates; and
the retaining clips are mounted inside the bottom cover,
wherein the retaining clips are made of a conductive material and comprise two gripper spring plates, a first spring plate and a second spring plate, the first spring plate being in contact with and electrically connected to the substrate board, the pair of gripper spring plates being approximately parallel to one another, the spring plates each holding clamp grip a clamp block, the second end of the metallic plates are in contact with the second spring plates when the metallic plates are pulled from the horizontal position in the open grooves to a vertical position perpendicular to the bottom cover. 6. travel-type battery charger according to claim 5, wherein each terminal block a first level Surface, a second flat surface, a third flat surface and a fourth flat surface Surface, wherein the first flat surface and the second flat surface are perpendicular to each other, the third flat surface and the first flat surface are parallel to each other, the fourth flat surface and the second flat surface are parallel to each other, the first flat surface has a first projecting ridge and the second flat surface has a second protruding ridge. 7. travel-type battery charger according to claim 6, wherein the spring plates of each retaining clip grasp the second projecting ridge and the fourth flat surface of the terminal block, when the metallic plates are drawn into a horizontal position in the open grooves and the spring plates of each retaining clip are the first protruding ridge and the third flat surface of the terminal block when the metallic plates the bottom cover vertical position are pulled out. 8. travel-type battery charger according to claim 5, in which to manufacture the Retaining clip material used includes flexible metallic material. 9. travel-type battery charger according to claim 8, in which to manufacture Retaining clip material used includes phosphor bronze. 10. Travel-type battery charger according to claim 8, in which to manufacture Retaining clip material used includes beryllium bronze. 11. Movable connector head for a travel type battery charger, wherein the battery charger includes a main body, a metallic probe and a substrate board, the metallic probe switching between a hidden position and a functional position when the metallic probe is in the hidden position , the metallic probe is enclosed in the main body and when the metallic probe is in the operative position, the metallic probe is exposed outside the main body, with the movable plug head containing:
a holding device made of a conductive material and enclosed in the main body, the holding device being in contact and electrically connected to the substrate board, the holding device having an elastic gripping component for gripping the metallic probe so that the metallic probe either in the hidden position or the functional position can be stationed and the metallic probe and the holding device are electrically connected in the functional position. 12. Movable plug head according to claim 11, in which the for producing the retaining clip used material includes flexible metallic material. 13. Movable plug head according to claim 12, in which the for producing the holding clamp used material includes phosphor bronze. 14. Movable plug head according to claim 12, in which the for producing the retaining clip material used includes beryllium bronze.