This Non-provisional application claims priority under 35 U.S.C. ยง119(a) on Patent Application No(s). 100136623 filed in Taiwan, Republic of China on Oct. 11, 2011, the entire contents of which are hereby incorporated by reference.
1. Field of Invention
The invention relates to a waterproof apparatus and in particular to a waterproof apparatus for outdoor lighting.
2. Related Art
The outdoor lightings such as street lights, car lamps and etc., constantly receive frequent and dramatic changes of temperature and pressure from the outside environment. The changing temperature, dust, dirt and moisture drastically affect the life-span of the outdoor lightings. Thus, waterproof function of lighting appears very important.
Specifically speaking, the temperature of the lighting housing would dramatically drop when it rains, and this will lead to inner pressure decrease of the lighting. Thus, moisture and air would get into the lighting by passing through the leak of the housing more easily. Moreover, moisture would condense to water drops, attach onto the inner wall of the housing and badly affect the performance of the lighting.
One of the conventional waterproof methods is to stuff up the crack of the housing with a sealant. However, when the housing is assembled with multiple parts, the locking force differences, caused when assembling different parts, may lead to fracture at the connecting interfaces. In addition, the adhesive of the sealant may crack due to tolerance, and further become invalid of waterproof and dust-proof.
Besides, the constant temperature changes of the environment can apply various stresses to the sealant, thereby causing the deterioration and leak of the sealant. The deteriorated sealant is unable to stop the moisture, and more seriously, it may allow water and dirt to get into the lighting via the crack.
Therefore, it is an important subject to provide a waterproof apparatus which can be used under humidity and adverse environment for a long time, possesses great performance on waterproof and dust-proof, and is of long life-span and low cost.
In view of the foregoing, an object of this invention is to provide a waterproof apparatus, which can be used under humidity and adverse environment for a long time, possesses great performance on waterproof and dust-proof, and is of long life-span and low cost.
To achieve the above object, this invention discloses a waterproof apparatus including a housing, two first covers, an electronic device and two first waterproof elements. The housing is manufactured by aluminum extrusion and configured with a cavity. The first covers are disposed in the cavity. The electronic device is disposed between the first covers and accommodated in the cavity. The first waterproof elements are located at one side of one first cover, which is opposite to the other first cover.
In one embodiment, the waterproof apparatus further includes a second cover and a second waterproof element. The second cover is disposed on the housing, and the second waterproof element is disposed on one side of the second cover opposite to the cavity. The first covers, the first waterproof elements, the housing, the second cover and the second waterproof element together form an air-tight space to accommodate the electronic device. The first covers and the first waterproof elements seal two first openings of the cavity. After the electronic device is disposed into the air-tight space through a second opening of the cavity, the second cover and the second waterproof element seal the second opening.
In one embodiment, the first covers, the first waterproof elements and the housing together form an air-tight space to accommodate the electronic device.
In one embodiment, the waterproof apparatus further includes a carrier plate, and the electronic device is disposed on the carrier plate. After the carrier plate is accommodated into the air-tight space through one of the first openings, the first covers and the first waterproof elements seal the two first openings of the housing. The carrier plate is accommodated into the air-tight space and connected to the housing by locking, screwing, adhering or their combinations.
In one embodiment, the first waterproof element or the second waterproof element has an annular or plate shape.
In one embodiment, a concave-convex structure is configured on a portion of the first waterproof element or the second waterproof element contacting with the housing.
In one embodiment, the first cover or the second cover is connected to the housing by locking, screwing, adhering, pivoting or their combinations.
In one embodiment, the housing further includes a heat dissipation part, which is integrally formed with the housing.
As mentioned above, the waterproof apparatus of this invention achieve the objective of waterproof in three dimensions by using aluminum extruded housing, the first covers and the first waterproof elements, or by using the aluminum extruded housing, the first covers, the first waterproof elements, the second cover and the second waterproof element. Comparing to the conventional device, since the first covers and the first waterproof elements are accommodated in the cavity of the housing, it can not only avoid the sun beam to reduce cracking and breaking of the first waterproof elements, but also make the first waterproof elements more closely connected to the housing. Thus, the tolerance caused by connection of the housing can not influence the waterproof and dust-proof performance, thereby further prolonging the life-span and enhancing the waterproof level of the waterproof structure as well as the electronic products such as the lighting. Besides, the assembling procedure of this invention is simple and easy. The electronic devices can be disposed into the waterproof apparatus in different ways under different conformations. The first embodiment in which the electronic devices are disposed through the first opening can further decrease the waterproof elements and the covers applied in the waterproof apparatus, thereby reducing the production cost.
The present invention will become more fully understood from the subsequent detailed description and accompanying drawings, which are given by way of illustration only, and thus are not limitative of the present invention, and wherein:
The present invention will be apparent from the following detailed description, which proceeds with reference to the accompanying drawings, wherein the same references relate to the same elements.
The housing 11 can be manufactured by aluminum extrusion and configured with a cavity 111. The aluminum extrusion has the advantages of simple processes and low cost (cheaper molds). Since aluminum extrusion is to press the aluminum material in one dimension, an additional waterproof structure is needed in the other two dimensions to achieve a total waterproof effect. The waterproof structure of the other two dimensions will be further illustrated afterward.
The cavity 111 is an inner chamber of the housing 11, and is configured with two first openings O1 situated on outer surfaces S2 and S3, respectively. When the waterproof apparatus 1 is applied to the lighting, the cavity 111 can be connected to a light stand (not shown), and can accommodate the necessary electronic elements (not shown) such as, for example but not limited to, a transformer or a circuit board for the lighting. Besides, the housing 11 can further include a heat dissipation part 112 to speed up the heat transfer in the lighting. In this case, the heat dissipation part 112 includes several heat dissipating fins as the example. The heat dissipation part 112 can be integrally formed with the housing 11 to further reduce the manufacturing and assembling costs.
The first covers 12a and 12b are accommodated in the cavity 111 to seal two first openings O1 of the cavity 111. In more detailed, the first covers 12a and 12b are accommodated inside the cavity 111 and have a distance to the first openings O1. In other words, the first covers 12a and 12b are not located on the cross-section of the housing 11, but are positioned at, for example but not limited to, a quarter part of the cavity 111. The electronic element (not shown) is accommodated in the cavity 111 and located between two first covers 12a and 12b. In this case, by the design of the appearances of the first covers 12a and 12b in cooperated with the grooves 113 on the inner surface of the housing 11, the first covers 12a and 12b can be precisely pushed into the cavity 111 through the first opening O1. Besides, it is possible to apply some fixing elements on the outer surface S1 of the housing 11 for inwardly locking the first covers 12a and 12b to the housing 11, thereby fixing the housing 11 in the cavity 111. To be noted, in this invention, the connecting method of the cavity 111 and the first covers 12a and 12b is not limited, and can be locking, screwing, adhering, pivoting or their combinations. Besides, one non-solidifying glue can be applied when the first covers 12a and 12b are accommodated into the cavity 111 so as to not only strengthen the waterproof ability but also reinforce anti-vibrate effect.
The first waterproof element 13a is located at one side of the first cover 12a, which is opposite to the first cover 12b, while the other first waterproof element 13b is located at one side of the first cover 12b, which is opposite to the first cover 12a. In other words, the elements accommodated in the cavity 111 are the first opening O1, the first cover 12a, the first waterproof element 13a, the electronic element(s), the first waterproof element 13b, the first cover 12b and the other first opening O1 in a row. Specifically speaking, the first waterproof elements 13a and 13b are used to seal up the crack between the housing 11 and the first covers 12a and 12b, and can be made of rubber for example. The first waterproof element 13a and 13b can have an annular or plate shape. The annular first waterproof elements 13a and 13b are fit and seal up the crack between the housing 11 and the first covers 12a and 12b. The plate-shaped first waterproof elements 13a and 13b can provide a better waterproof and dust-proof effect and a good tolerance resistance. Herein, the first waterproof elements 13a and 13b are plate-shaped for example, while the second embodiment (see
To be noted, the purpose to accommodate the first covers 12a and 12b into the cavity 111 is to match the first waterproof elements 13a and 13b. Thus, the first waterproof elements 13a and 13b can be more closely attached to the housing 11, so that lesser sun beam can reach them, thereby prolonging the life-span of the lighting and the waterproof apparatus 1. The principle of raising the sealing effect is as following. According that the first covers 12a and 12b and the first waterproof elements 13a and 13b are accommodated in the cavity 111, when assembling the first waterproof elements 13a and 13b into the cavity 111, the first waterproof elements 13a and 13b are not only pressed by the first covers 12a and 12b to deform, but their edges are also deformed due to the close contact with the inner surface of the housing 11. Accordingly, an excellent close effect can be obtained. Besides, the outer edge of the first waterproof elements 13a and 13b can further possess a concave-convex structure 131 to closely connect to the housing 11. Therefore, the waterproof elements 13a and 13b with the concave-convex structure 131 receive a smaller friction force, which is easier for assembling, when disposing into the cavity 111. Moreover, this configuration can further improve the waterproof effect and possess the extra shockproof effect.
In the first embodiment, by disposing the first waterproof elements 13a and 13b and the first covers 12a and 12b as mentioned above, the first covers 12a and 12b, the first waterproof elements 13a and 13b, and the housing 11 can avoid moisture and dust to enter and form an air-tight space R for accommodating the electronic element. This embodiment discloses two methods to install the electronic elements into the air-tight space R, as described in the first and second embodiments. In the first embodiment, as shown in
The second waterproof element 26 can have some aspects the same as the first waterproof elements 13a and 13b in the first embodiment. Though the first covers 22a and 22b and the second cover 25 are disposed at different positions, they are also connected with the housing 21 by locking, screwing, adhering, even pivoting or their combinations. The difference between the first and second embodiments is the way for installing the electronic element into the air-tight space R. In this embodiment, the electronic element (not shown) is put into the air-tight space R through the second opening O2. Specifically speaking, the second cover 25 is pivoted to the housing 21. During the assembling process, it is necessary to open the second cover 25 and then put the electronic element into the cavity 211 through the second opening O2. After that, the second waterproof element 26 is disposed at the second opening O2, and finally, the second cover 25 is provided to lock up the second opening O2 with screws, thereby completing the sealing procedure of the whole waterproof apparatus 2.
Referring to
In summary, the waterproof apparatus of this invention achieve the objective of waterproof in three dimensions by using aluminum extruded housing, the first covers and the first waterproof elements, or by using the aluminum extruded housing, the first covers, the first waterproof elements, the second cover and the second waterproof element. Comparing to the conventional device, since the first covers and the first waterproof elements are accommodated in the cavity of the housing, it can not only avoid the sun beam to reduce cracking and breaking of the first waterproof elements, but also make the first waterproof elements more closely connected to the housing. Thus, the tolerance caused by connection of the housing can not influence the waterproof and dust-proof performance, thereby further prolonging the life-span and enhancing the waterproof level of the waterproof structure as well as the electronic products such as the lighting. Besides, the assembling procedure of this invention is simple and easy. The electronic devices can be disposed into the waterproof apparatus in different ways under different conformations. The first embodiment in which the electronic devices are disposed through the first opening can further decrease the waterproof elements and the covers applied in the waterproof apparatus, thereby reducing the production cost.
Although the present invention has been described with reference to specific embodiments, this description is not meant to be construed in a limiting sense. Various modifications of the disclosed embodiments, as well as alternative embodiments, will be apparent to persons skilled in the art. It is, therefore, contemplated that the appended claims will cover all modifications that fall within the true scope of the present invention.
Number | Date | Country | Kind |
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100136623 | Oct 2011 | TW | national |