FI121490B - Airtight power inlet - Google Patents

Description

Airtight Electrical Connection Field of the Invention

The invention relates to an electrical connection which is water and / or airtight. In particular, the invention relates to water and / or airtight electrical connection of portable electronic devices.

Background Electrical socket and plug systems are common on portable electronic devices that need to be electrically charged. However, the outlet of the plug into which the plug is usually inserted is exposed to dirt, moisture and other adverse effects that may interfere with the operation of the plug-and-socket system. It is therefore important to protect the socket and plug systems by providing a seal to protect the socket and plug from the above-mentioned drawbacks.

U.S. Patent No. 4,948,377 to Cairns discloses a film bag that can be used to protect an electrical device when immersed in water. This publication is incorporated by reference in 15 of this patent application. In US 4,948,377, a plug and socket system is provided with a seal to protect it from high pressure salt water. These prior art seals are annular and elastic in structure and protect salt water from symmetrical hydrostatic pressure. Ts. symmetrical pressure means a pressure uniform on the surface to which it is applied. The annularity of the gasket has the obvious disadvantage that if the gasket is subjected to asymmetric pressure, the gasket will be more strongly compressed from where the pressure is strongest but looser at lower pressure. This effect can be studied with a rubber ring: if pressed on two sides, it tends to oval in shape by squeezing on the sides from which it is pressed and bulging on the sides which are not squeezed. Ts. asymmetric pressure means a pressure that is non-uniform at some points on the surface to which it is applied.

Summary of the Invention

The present invention relates to a system and method for effectively sealing a socket and plug system, even under asymmetric pressure conditions.

Another object of the invention is to provide a water and / or airtight seal for socket and plug systems that continue to seal the plug and socket system regardless of the direction from which either the seal or electrical device receives asymmetric pressure or symmetrical pressure.

One aspect of the invention includes sealing elements which are formed in the form of a cone and are imaged to seal only a portion of the periphery of the plug-in connector. When this force element is subjected to a force exerted by asymmetric pressure, it mechanically transmits that force only to the part of the socket-plug connector circumference it is arranged to seal. It transmits no further mechanical forces. In this way, the mechanical effect of any excess asymmetric pressure is limited simply to increase the pressure of the seal in that particular portion of the circumference of the sealed element, thereby further sealing the seal. This avoids any secondary mechanical reaction causing the release pressure in any part of the annular structure.

According to another aspect of the invention, the seal of the invention is provided as a special housing in which the electrical device is to be located. The housing has an opening for an iron-15 jacket and this opening is sealed with a seal according to the invention. The electrical connection of the electrical appliance and the socket opening in the housing are simply aligned so that the plug can be inserted through the opening and seal to charge the electrical appliance. For example, if this housing is pressed with fingers, which creates an asymmetric pressure, the gasket will withstand it as it will apply the asymmetric pressure to some other parts of the socket-plug connection circumference by means of special elements that continue to press the pressure.

Some or all of the aforementioned advantages of the invention are provided by an electrical connection containing the above seal or by an enclosure of an electrical device having the above seal, wherein at least the seal or at least one seal element is made by plastic or silicone molding.

The electrical connector used in the electrical device of the invention for receiving the plug by means of a socket further comprises a gasket, and the gasket consists of at least two gasket elements and is arranged to seal the socket opening 30 and the plug is arranged to pass through the gasket and that due to the pressure exerted on the electrical device 3, at least one sealing element is arranged to be radially pressed against the longitudinal axis of the plug, which seals the sealing element of the connector, at least one element covering the arcuate or portion of the socket opening.

The housing according to the present invention is arranged to receive an electrical device and includes an opening for the electrical plug and an opening seal, and is characterized in that the electrical connection of the electrical device and the housing seal are arranged to form an electrical connection according to the preceding paragraph.

The method of manufacturing the connector according to the invention according to the above paragraphs, characterized in that all or some parts of the connector and / or seal are made by casting and / or injection molding.

The method of attaching the plug and socket connection described in the previous three paragraphs.

The method of fastening the plug and socket connection according to the invention comprises the following steps, in which the electrical device or its housing is compressed, the force exerted by the pressure exerts on at least one sealing element or part thereof, 20 - mechanically, the applied, pressure-induced force is applied to a portion of the socket circumference, a portion of the socket circumference being compressed more strongly against the plug surface due to a further increase in the applied pressure-induced force.

Further, with reference to the embodiments which provide the above advantage, the use of a plurality of sealing elements arranged at different positions on the peripheral sockets of a portable electronic device, such as a mobile phone or computer mouse, is preferred to protect the electrical connection under asymmetric pressure conditions.

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Brief Description of the Drawings

The invention will now be described in more detail with reference to exemplary embodiments, in accordance with the accompanying drawings, in which Figure 1 illustrates an embodiment of the inventive connector seal as a mechanical force diagram.

Figure 2 illustrates a more advanced embodiment 20 of the inventive connector seal according to the invention.

Fig. 3 is a flowchart illustrating an embodiment of the method 30, the seal and seal elements of which according to the invention are sequenced to perform.

Figure 4 is a block diagram illustrating a more advanced embodiment 40 of the inventive connector used in the housing of an electrical device according to the invention.

Fig. 5 is a block diagram illustrating an embodiment of the inventive socket seal 50 integrated with an electrical device according to the invention.

Figure 6 shows an embodiment 60 of the method by which the seal 15 and the opening 15 of the invention are made in a spherical housing 500.

Some embodiments are described in the subclaims.

Detailed Description of Embodiments

Figure 1 illustrates an electrical connection aperture 100. Both the aperture and the socket cavity behind the aperture are typically provided in an electrical device to receive the plug by means of the socket. The electrical device according to the invention may be any mobile phone, wristwatch, clock, camera, music player, electric shaver or any portable electrical device. In some embodiments, the electrical device is a spherical mouse such as that described in EP 05 028 777.0, which is incorporated herein by reference. In other embodiments of the invention, the electrical device may be any wired or wireless control device, such as a remote control.

In addition, the opening is either covered or aligned by a gasket consisting of two gasket elements 200 and 210. In Fig. 1, the opening is in the "open" state, i.e., either the plug is inserted or the gasket is withdrawn to expose the socket opening 100. In Figure 1B, the sealing elements 200 and 210 protect the socket opening 30 100 from the environment, i.e. this is the sealing seal closed state.

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The plug is arranged to pass through the seal when the sealing elements 200, 210 are pushed from the closed position of Fig. IB to the open position of Fig. 1. After passing through seal 200, 210, the plug is arranged to continue to pass through opening 100 into socket cavity and to start charging the electrical device.

Due to the pressure exerted on the electrical device, the at least one sealing element 200, 210 is arranged to be radially pressed against the longitudinal axis of the plug, which seals the plug seal. In Figure 1 the force vector 400 to cause the direction of the arrow shown in the pressure, pushing the arc-shaped sealing element 200. In this embodiment, the seal element has the shape of an arc, but is performed at 10 in other embodiments in the sealing element can be realized in accordance with the present invention in any compressible form. At least one element 200 and / or 210 covers an arc or portion of a circumference of the socket opening 100 that is smaller than the entire circumference. At least one sealing element 200 and / or 210 is also typically made of an elastic material such as rubber, silicone and / or plastic. When the sealing member 200 is now 15 pushed by the force 400, it is more open due to its elasticity in the direction of the arrows 440, 430. The net effect of the applied pressure 400 is a clamping force which acts both downwards, such as indicated by arrows 410, 420, and inwardly, 500, 510, thereby compressing the socket opening and sealing the seal and enhancing the sealing effect. The tension of the sealing elements 200 and 210 may be arranged such that the sealing closes the opening 100 in its dormant state, as shown in Fig. 1B.

In some embodiments, at least one of the sealing elements 200, 210 is arc-shaped. Other forms are possible according to the invention. However, in its current position and shape, the outer periphery of the arc element 200 and 210 is connected to the circumference of the socket opening 100 and the inner circumference of the arc element 200, 210 is directed outwardly from the circumference of the opening 100 of the collar. The outer periphery of the sealing member 200, 210 is arranged to exert additional pressure on the periphery of the socket opening 100 and / or plug from the sides of its contact surface 300, 310 as external force tends to enlarge the inner circumference of the arcing member 200, 210. The outer periphery of the sealing member is likewise arranged to apply excess pressure to the end of the socket opening 100 ke-30 and / or to the plug at the center of its contact surface 300, 310 as external force tends to reduce the inner circumference of the arc. In this way, pressure fluctuations are limited to the circumferential sector of each of the sealing elements 200, 210 and do not affect the entire circumference of the opening 100. The various shapes of the sealing elements and the mechanisms for applying pressure are also within the scope of the invention.

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In some embodiments, the seal 200, 210 is provided watertight and / or airtight when the plug is inserted through the seal. Further, in some embodiments, the seal 200, 210 is provided water and / or airtight when the plug has no plug.

The electrical connection may be in accordance with US, European, British, Australian, 5 Japanese or any other standard regulating the electrical connection and / or plug. More than one type 10 and 11 embodiment may also be provided to produce an integral electrical connection that can accommodate more than one plug. It is understood that any electrical plug intended to fit into the socket according to the invention is also within the scope of the invention.

Figure 2 shows a socket opening 100 protected by four sealing elements 200, 210, 220 and 230. All of these sealing elements function in the same manner as the sealing elements 200, 210 described in Figure 1 except that they cover a smaller sector opening 100. from the atmosphere. In this embodiment, each sealing element is arranged to cover a 90 degree sector. However, it is possible that any number of sealing elements 200, 210, 220 and 230 can be used to make the seal ιοί 5. It is also possible according to the invention that the sealing elements 200, 210, 220, 230 cover different sectors of the periphery. for example, 180, 60, 60 and 60 degree sectors. In this embodiment, the sealing element has an arc shape, but in other embodiments, the sealing element may be implemented in any compressible form according to the invention.

Figure 3 illustrates a method of securing a plug and socket connection during operation of an electrical device, as described in previous Figures 1, IB and 2. In step 31, the electrical device is pressed, for example, with fingers, which creates an asymmetric pressure, or with a fluid, which produces a uniform symmetric hydrostatic pressure, or in mild manner. In step 32, at least one of the sealing elements is subjected to a force exerted by said pressure or a part of said pressure. In step 33, the sealing element mechanically drives the force exerted by the pressure or a portion thereof. The sealing element thus acts as a relay station for mechanical pressure and force, in addition to performing the sealing function. In step 34, the applied force exerted by the pressure 30 is applied to a portion of the periphery of the socket. This part of the ring can be anywhere from 0 degrees to 360 degrees. Also, the periphery does not necessarily have to be circular, the periphery of the socket can also be square, triangular or actually any shape. In step 35, a portion of the periphery of the socket is pressed more strongly against the plug surface due to a further applied force exerted by the pressure previously applied to the sealing member 35.

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Figure 4 illustrates a housing 600 configured to receive an electrical device 500 including an opening 100 for an electrical plug 700 and an opening seal 200, 210, 220, 230. In this embodiment, the electrical device is a wireless communication device 500 having an antenna 530. The device 500 may have 520, and in any of the 5 tab embodiments, it can be removed from the housing. The housing is typically made of an elastic material such as rubber, silicone and / or plastic.

The socket 110 of the electrical device 500 and the housing seal 200, 210, 220, 230 protecting the socket opening 100 are arranged to provide an electrical connection which is covered as described in connection with the above figures. Due to the pressure exerted on the housing 600, the at least one sealing element 200, 210, 220, 230 is arranged to radially press against the longitudinal axis of the plug 700, which seals the seal 200, 210, 220, 230 of the plug 110 as described above. The sealing elements 200, 210, 220, 230 respond to both symmetrical and asymmetric pressure by applying and limiting the mechanical force in the circumference of the opening 100 to that sector of the sealing member 15 as explained in the above figures.

In some embodiments, the housing 600 has a spherical shape. In other embodiments, the electrical device 500 may be a computer wireless mouse covered by a housing 600 and is a solution described by the applicant in EP 05 028 777.0. In other embodiments, the electrical device 500 may be a wristwatch, clock, camera, music player, electric shaver, or any other portable electrical device according to the invention. In other embodiments of the invention, the electrical device may also be any wired or wireless control device, such as a remote control.

The plug 700 is typically cylindrical, but according to the invention any shape of the plug 700 and the socket 110 can be used with the sealing elements 200, 25 210, 220 and 230. In some embodiments, the sealing elements 200, 210, 220, and 230 and the housing 600 provide a water and / or airtight seal to the electrical device 500.

Figure 5 shows an embodiment 50 of the electrical device 500 having a socket 110, a socket opening 100, and a seal consisting of the sealing elements 200, 30 210, 220 and 230 described above. In this embodiment, the electrical device 500 is a wireless mobile station such as a cellular telephone. In other embodiments, the electrical device according to the invention may be, for example, a wristwatch, a clock, a camera, a music player, an electric shaver, or any portable electrical device. However, sealing elements 200, 210, 220 and 230 may be used to provide a watertight and / or airtight seal to any of the 35 wireless portable devices or sockets for any such device, including but not limited to wall outlets and plugs. limited.

In many embodiments, all or some of the parts of the connector 110, the plug 700 and / or the seal 200, 210, 220, 230 are made of known materials such as rubber, silicone and / or plastic by molding and / or injection molding.

In Figure 6, the housing 500 and the sealing elements 200, 210, 220, 230 are shown in step 71. In step 72, the housing 500 is compressed and a gap 100 is formed in the seal 200, 210, 220, and 230. The gap 100 forms an opening 100 . In some embodiments, the aperture 100 is compressed in step 10 73 and / or more tightly than in step 72 by the arcuate elements 200, 210, 220, 230.

The invention has been described with the aid of the above-mentioned embodiments, and several commercial and industrial advantages have also been disclosed above. The methods and arrangements of the invention allow sealing of the socket opening in a water and / or airtight manner, even under asymmetric pressure conditions, for example when pressed with fingers, when socket 110 does not have plug 700, or when socket 110 has plug 700.

The invention has been described above by means of the above-mentioned embodiments. However, it is to be understood that the invention is not limited to these embodiments, but encompasses all possible embodiments within the spirit and scope of the inventive idea and the following claims.

Reference U.S. Pat. No. 4,948,377 to James L. Cairns, "Submersible electrical connector" EP 05 028 777.0 25

Claims (12)

An electrical input (110) for use in an electrical apparatus (500) intended to receive by means of a socket (110) a plug (700) and further comprising a seal (200, 210, 220 and 230), and - which seal comprises at least two sealing elements (200, 210, 220 and 230) arranged to seal the opening (100) of the socket, - which plug is arranged to pass through the seal (200, 210, 220 and 230) and the opening, - at least one element (200, 210, 220 and 230) covers a cup or portion of the circumference of the socket opening (100) which is smaller than the entire circumference, characterized in that - at least one of said elements (200, 210, 220 and 230) has been provided in the form of an opening which is arranged to open away from the opening (100) of the socket, - at least one sealing element (200, 210, 220 and 230) has been arranged to operate on the basis of a pressure such as the electric the apparatus (500) is subjected to radial pressing against the stick the longitudinal axis of the rope, which seals the sealing of the socket. Electric inlet according to claim 1, characterized in that at least one sealing element (200, 210, 220 and 230) is made of an elastic material. Electrical inlet according to claim 1, characterized in that at least one sealing element (200, 210, 220 and 230) is made of rubber, silicone and / or plastic. Electrical inlet according to claim 1, characterized in that the seal (200, 210, 220 and 230) is arranged to be water and / or airtight when the plug (700) is inserted through the seal. Electrical inlet according to claim 1, characterized in that the seal (200, 210, 220 and 230) is arranged to be water and / or airtight when no plug (700) is in the socket (110). Electrical input according to Claim 1, characterized in that the electrical apparatus (500) is a ball-shaped mouse and / or which hoist another wireless control unit. 7. A plug which has been adapted to fit into an electrical outlet according to claim 1 Socket device which has been adapted to fit into an electrical socket according to claim 1 9. A system with plugs according to claim 7, characterized in that the system for producing an integral electrical input is provided with more sockets (100) than one which holds more plugs (700) than one. Process for producing an electrical input according to claim 1, characterized in that all or some parts of the socket (110), the plug (700) and / or the seal (200, 210, 220 and 230) have been produced by casting and / or injection molding. 11. Securing a plug and socket connector as claimed in claim 1 Securing a plug and socket connector as claimed in claim 11, comprising the steps of compressing the electrical device or its housing (31), - at least one sealing element or part thereof is subjected to the force caused by the pressure (32), - the sealing element conducts the force caused by the pressure or a portion thereof mechanically fronted (33), - a portion of the periphery of the sleeve is subjected to the transmitted force caused by the pressure (34) an increased transmitted force due to the pressure (35).