Patent Description:
Lamps and lanterns mainly include lampshade, lamp holder, main board, and end structure seal. Generally, the end seal structure on the market is divided into two types: waterproof and non-waterproof. The wires are divided into tension devices and tension requirements. Waterproofing is generally achieved by filling the space with soft materials to achieve the waterproof effect. However, there are small gaps in the neutral silicone between the lampshade, the aluminum bottom, lampshade and aluminum bottom, which cannot meet the waterproof requirements, and the waterproof consistency is also not high, and into the general waterproof lamp the water will enter through the gap between the outer sheath of the wire and the inner sheath (the sheath of the inner wire), because the lamp will produce internal and external pressure difference after the lamp is lighted, causing water to escape from the wire sheath There is no good solution in the prior art. Therefore, how to improve the waterproof effect of lamps with external wires becomes important. The document <CIT> relates to an LED lamp comprising a strip housing having an inner cavity for accommodating a lamp body and at least at one end forming an opening for loading the lamp body; and a sealing end cover for sealing the opening; a sealing member is embedded in the opening, and the sealing member and the inner space of the opening have the same cross section perpendicular to the length direction of the strip housing; the sealing member and the sealing end cover are spaced apart to form a sealing cavity for injecting the sealant. the LED lamp of the invention on the one hand realizes the first waterproof protection of the end part by the sealing member, and on the other hand realizes the second waterproof protection through the sealant layer formed by pouring sealant between the sealing member and the sealing end cover, so the LED lamp has higher waterproof rating than the existing lamps and can be conveniently applied to a humid device such as refrigerator, refrigerator, freezer and vending machine. <CIT> provides an LED lamp package device. A hollow elongated seat is provided with an opening, a circuit board provided with a plurality of LED lamps is arranged in the seat, a lamp board is arranged at the opening of the seat, and a partition group is arranged at each of two ends of the seat; distances are formed between the lamp board and the two partition groups and the seat; material packaging the filler fills the distances. Thus, the distance of the components of the lamps can be sealed and packaged effectively, accordingly, effects of proofing moisture, increasing production speed and reducing cost can be achieved. <CIT> discloses a waterproof strip-shaped lamp which comprises a strip-shaped lamp holder provided with a strip-shaped lamp cavity extending in the length direction, a strip-shaped circuit board arranged in the strip-shaped lamp cavity, a light source arranged on the front surface of the strip-shaped circuit board, an end cover arranged at the end part of the strip-shaped lamp holder to package the strip-shaped lamp cavity and provided with an inserting hole, a sealing plug arranged on the inner side of the end cover, used for sealing the strip-shaped lamp cavity and provided with a sealing hole abutting against and communicating with the inserting hole, and a socket electrically connected with the strip-shaped circuit board; and the front end of the socket abuts against the sealing hole and is aligned with the inserting hole; and the sealing plug and the end cover are pre-fixed. The waterproof sealing plug and the end cover are fixed into a whole in advance, so that the two parts can be assembled on the lamp holder at the same time, the subsequent whole lamp assembling steps are reduced, and automatic assembling is better achieved. <CIT> discloses an interconnection lamp. The interaction lamp comprises a strip-shaped lamp shell comprising a base and a lamp cover which are in airtight connection, a circuit board which is accommodated in the strip-shaped lamp shell and partitions the strip-shaped lamp shell into a lamp source cavity and an electric apparatus element cavity, a lamp source arranged on the lamp source installing surface of the circuit board, an end cover assembly sealing installing ports of the strip-shaped lamp shell, an electric connection piece, and an end cover assembly comprising an outer end cover arranged on the installing port, glue blocking plates and elastic sealing pieces at least arranged on the outer contours of the glue blocking plates located on the sides of the lamp source cavity, wherein one or more ends of the strip-shaped lamp shell are provided with the installing ports, one end of the electric connection piece is electrically connected with the end of the circuit board, and the other end of the electric connection piece is communicated with the outer portion of the strip-shaped lamp shell through an access hole; the glue blocking plates are located in the strip-shaped lamp shell and are close to the installing ports, and each glue blocking plate and each outer end cover are arranged at an interval to form one glue injection cavity which is used for sealing the corresponding installing port and provided with a glue injection hole and a glue overflowing hole. The water-proof effect of the lamp is improved, and it is ensured that no dark spaces exist at interconnection portions. <CIT> shows an LED lamp having waterproof structure including an elongated shell, a cover coupled onto the elongated shell, two protection plugs respectively inserted into two ends of the elongated shell, two elastic seal bars clamped between the elongated shell and the cover, and two waterproof solid colloids filled in the space between the elongated shell, the cover and the protection plugs. The elastic seal bars have a smaller length than the elongated shell, so that a sealing chamber is formed in the space between the elongated shell, the cover and the protection plugs. Liquid glue is used to fill the sealing chamber and solidifies into and forms the waterproof solid colloid. In brief, the LED lamp has a high grade waterproof structure, which is beneficial to expand the possible environments in which it can be operated.

In view of this, the present invention provides a waterproof lamp with a wire to solve the above technical problems according to the claims.

An external connector with wires passing through said first threaded hole into said mounting cavity to electrically connect to said light source assembly, said wires comprising a plurality of inner wires and an outer sheath covering encasing all of the inner wires, said outer sheath covering ending in said glue-filled cavity.

Preferably, said baffle cover is provided with a connecting rod on the side facing the inner baffle, and said inner baffle is provided with a connecting hole for mating with said connecting rod.

Preferably, said baffle cover is provided with said glue injection holes.

Preferably, said baffle cover is manufactured from a transparent material.

Preferably, said inner baffle is manufactured from a flexible material, and is in interference fit to said mounting cavity.

Preferably, said strip-shaped light body comprises a strip-shaped base and an strip-shaped optical element that are interlocked to form said mounting cavity.

Preferably, said strip-shaped optical element is a lampshade.

According to the claimed invention, said light source assembly comprises a strip-shaped circuit board disposed within said mounting cavity and a light emitting unit disposed with said strip-shaped circuit board facing said strip-shaped optical element.

According to the claimed invention, said strip-shaped circuit board is provided with pads at the end of said strip-shaped circuit board, said pads being located at or near said mounting opening.

Preferably, said strip-shaped circuit board is provided with a fixing hole at one end provided with a pad, and said inner baffle is provided with a post that fits into the fixing hole.

Preferably, said side of said baffle cover facing said inner baffle is a flat surface.

Preferably, said strip-shaped optical element is shorter at the end than said strip-shaped base, said portion of said baffle cover protruding towards said baffle cover in proximity to said strip-shaped optical element, said gluing cavity being divided into a smaller upper cavity and a larger lower cavity, said wire being located in said lower cavity.

Preferably, said end cover assembly further comprises an outer cover provided on the outside of said baffle cover, said outer cover being provided with a second threaded hole for said wire to pass through.

Preferably, said outer cover is provided with a protruding plurality of hook elements on the outer side around the second threaded hole, said hook element being distributed around said second threaded hole, at least one hook element being provided with a convex rib on the inner side, said end cover assembly further comprising a locking sleeve that circumferentially locks all the hook element.

Preferably, said hook element is provided with two symmetrically arranged hook elements, each hook element having a barb on the outer side, said locking sleeve having a locking hole on the side wall that fits into said barb.

Technical effects of the present invention.

The waterproof lamp with wires of the present invention is provided with a gluing cavity at the end of the lamp body for gluing and encapsulation by means of an end cover assembly to improve the waterproof level, and the wires of the external plug connector are glued and encapsulated in said lamp body, and the end of the outer sheath covering of the wires is encapsulated in the gluing cavity to prevent water from entering the lamp body between the outer sheath covering of said external plug connector and the inner wires to further improve the waterproof reliability.

Embodiments of the present invention are described below in connection with the accompanying drawings, wherein.

Specific embodiments of the present invention are described in further detail below based on the accompanying drawings. It should be understood that the description of embodiments of the present invention herein is not intended to limit the scope of protection of the present invention.

As shown in <FIG>, the waterproof lamp with wires of this embodiment includes a strip-shaped lamp body <NUM>, a light source assembly <NUM> and an end cover assembly <NUM>. The strip-shaped lamp body <NUM> is provided with a mounting cavity <NUM> extending along its length and having a mounting opening <NUM> at an end; the light source assembly <NUM> is provided in said mounting cavity <NUM>; the end cover assembly <NUM> is used to encapsulate said mounting opening <NUM>. Said mounting opening <NUM> may be provided at only one end of said mounting cavity <NUM> or both ends, in this embodiment, both ends are provided with a mounting opening <NUM>, one end of which does not need to be connected to electricity and therefore can be sealed using a prior art waterproof end cover, while the end of the other end of the mounting opening <NUM> needs to be sealed by an end cover assembly <NUM>, in this embodiment, said end cover assembly <NUM> includes an inner baffle <NUM>, a baffle cover <NUM>, and an external plug <NUM>.

The inner baffle <NUM> is provided in said mounting cavity <NUM> near said mounting opening <NUM> for blocking glue, so that neutral silicone will not spill into the interior of the lamp body during production, improving production efficiency; further, said inner baffle <NUM> is made of a flexible material, and is overfitted with said mounting cavity <NUM>, and the overfitting can improve the effect of blocking glue.

Baffle cover <NUM> is provided at the end of said strip-shaped light body <NUM> for encapsulating said mounting opening <NUM>, and the cover is provided with a first threaded hole <NUM>, and a gluing cavity <NUM> is formed between said baffle cover <NUM> and inner baffle <NUM>, and said gluing cavity <NUM> is provided with a glue filling hole <NUM>; during manufacture, neutral glue is filled in through the glue filling hole, and neutral glue flows out from the gap between baffle cover <NUM> and mounting opening <NUM> and from the first threaded hole <NUM>, which indicates that the glue injection is complete. Further, said baffle cover <NUM> is manufactured from a transparent material so that the extent of glue filling can be seen, allowing the glue filling process to be controlled and preventing overfilling or not filling. In order to make said inner baffle <NUM> easy to position when installed, in this embodiment, said baffle <NUM> is provided with a connection bar <NUM> on the side facing the inner baffle <NUM>, and said inner baffle <NUM> is provided with a connection hole <NUM> that fits with said connection bar <NUM>. Further, said baffle cover <NUM> is provided with said glue injection hole <NUM> for the convenience of glue injection; alternatively, the glue injection hole <NUM> may also be provided in said strip-shaped light body <NUM>.

The external plug <NUM> has a wire <NUM> that passes through said first threaded hole <NUM> into said mounting cavity <NUM> and is electrically connected to said light source assembly <NUM>, said wire <NUM> comprising a plurality of inner wires <NUM> and an outer sheath <NUM> that covers all of the inner wires <NUM>, the end of said outer sheath <NUM> being located in said glue injection cavity <NUM>. In the prior art, if the end of the outer sheathing covering <NUM> is not sealed, water will seep into the lamp body between the outer sheathing covering of the wires and the inner wires due to the pressure difference between the inside and outside of the lamp, and the above structure avoids this problem while accomplishing an effective seal of the mounting opening <NUM>.

In this embodiment, said strip-shaped light body <NUM> includes a strip-shaped base <NUM> and a strip-shaped optical element <NUM> which are docked to each other to form said mounting cavity <NUM>. Shaped with a slot <NUM> on both sides, said strip-shaped optical element <NUM> extending downwardly on both sides to form a card edge <NUM>, said card edge <NUM> inserted into the slot <NUM> to achieve a connection, before the connection the strip-shaped base <NUM> is dotted with neutral silicone, the strip-shaped optical element <NUM> is connected to the strip-shaped base <NUM>, and the gap filling is to achieve the waterproof effect in the circumferential direction of the installation cavity <NUM>.

The strip-shaped optical element <NUM> is used to distribute the light of the light source, and may be a lens or an ordinary lampshade, and the lampshade may incorporate diffusion powder to make the light output more uniform, and in this embodiment, said strip-shaped optical element <NUM> is a lampshade with an arched cross-section.

Said light source assembly <NUM> may be a variety of devices that emit light via electricity, and for ease of manufacture and installation, said light source assembly <NUM> in this embodiment, according to the claimed invention, comprises a strip-shaped circuit board <NUM> provided within said mounting cavity <NUM> and a light emitting unit <NUM> provided within said strip-shaped circuit board <NUM> toward said strip-shaped optical element <NUM>. Further, said light emitting unit <NUM> is an LED chip. Said strip-shaped base <NUM> is provided with a mounting slot <NUM> penetrating said strip-shaped circuit board <NUM>.

Said external plug <NUM> is electrically connected to the strip-shaped circuit board <NUM> in many ways, either by, in a non-claimed embodiment, plugging or, according to the claimed invention, by soldering, in this embodiment, said strip-shaped circuit board <NUM> is provided with pads <NUM> at the end of said strip-shaped circuit board <NUM>, said pads <NUM> being located at or near said mounting opening <NUM>. Said external plug <NUM> is electrically connected by soldering the inner wires <NUM>, generally, the inner wires <NUM> are provided with two positive and negative terminals, correspondingly, there are also two pads <NUM> also provided.

In this embodiment, said strip-shaped circuit board <NUM> is provided with a fixing hole <NUM> at one end of the pad <NUM>, and said inner baffle <NUM> is provided with a tab <NUM> that fits into this fixing hole <NUM>. Said strip-shaped circuit board <NUM> and inner baffle <NUM> are connected to achieve fixation.

The inner surface of said baffle cover <NUM> needs to be matched to the mounting opening <NUM>. As shown in <FIG>, in an alternative embodiment, said baffle cover <NUM> is flush on the side facing said inner baffle <NUM>. If said strip-shaped optical element <NUM> is flush with said strip-shaped base <NUM> at the end, at that point said baffle cover <NUM> may be located on the outside of the end. If said strip-shaped optical element <NUM> is shorter at the end than said strip-shaped base <NUM>, the mounting opening <NUM> forms a step, at which point the baffle cover <NUM> may be mounted flush with said strip-shaped optical element <NUM> at the end within the strip-shaped base <NUM>.

In this embodiment, said strip-shaped optical element <NUM> is shorter at the end than said strip-shaped base <NUM>, said portion of said baffle cover <NUM> near said strip-shaped optical element <NUM> protrudes in the direction of said baffle cover <NUM>, said glue injection cavity <NUM> is divided into a smaller upper cavity <NUM> and a larger lower cavity <NUM>, said wire <NUM> is located in said lower cavity <NUM>, and wire <NUM> is provided in the lower cavity <NUM>. The above structure allows for complete encapsulation of the wire <NUM> while reducing the amount of glue.

In this embodiment, said end cover assembly <NUM> further comprises an outer cover <NUM> provided on the outside of said baffle cover <NUM>, said outer cover <NUM> being provided with a second threaded hole <NUM> for said wire <NUM> to pass through. Since there will be adhesive spillage between the baffle cover <NUM> and said mounting opening <NUM>, the outer cover <NUM> is added to wrap around the baffle cover <NUM> for aesthetic considerations. The outer cover <NUM> is secured by screws <NUM> to said strip-shaped light body <NUM>, while pressing to secure said baffle cover <NUM>.

In this embodiment, the outer side of said outer cover <NUM> is provided with a protruding plurality of hook elements <NUM> around the second threaded hole <NUM>, said hook element <NUM> is distributed around said second threaded hole <NUM>, at least one hook element <NUM> is provided with a convex rib <NUM> on the inner side, and said end cover assembly <NUM> further comprises a locking sleeve <NUM> that circumferentially locks all hook element <NUM>. the above structure in the second threaded hole <NUM> is positioned to compress the wire <NUM> to achieve a wire pull-proof effect, which is efficient and convenient in terms of production efficiency.

The lock sleeve <NUM> is also secured in many ways, and in this embodiment, said hook element <NUM> is provided with two symmetrically arranged hook elements, each hook element <NUM> having a barb <NUM> on the outer side, and said lock sleeve <NUM> is provided with a lock hole <NUM> in the side wall that fits with said barb <NUM>.

Claim 1:
A waterproof lamp with wires comprising:
a strip-shaped lamp body (<NUM>) provided with a mounting cavity (<NUM>) extending along its length and having a mounting opening (<NUM>) at its end;
a light source assembly (<NUM>), provided within said mounting cavity (<NUM>);
an end cover assembly (<NUM>) for encapsulating said mounting opening (<NUM>);
wherein said end cover assembly (<NUM>) comprises:
an inner baffle (<NUM>) provided in said mounting cavity (<NUM>) near said mounting opening (<NUM>);
a baffle cover (<NUM>), provided at the end of said strip-shaped light body (<NUM>) for encapsulating said mounting opening (<NUM>), the baffle cover being provided with a first threaded hole (<NUM>), said baffle cover (<NUM>) and inner baffle (<NUM>) forming a glue filling cavity (<NUM>), said glue filling cavity (<NUM>) being provided with a glue filling hole (<NUM>);
an external plug (<NUM>) is electrically connected by soldering the inner wires (<NUM>) of wires (<NUM>)to said light source assembly (<NUM>) through said first threaded hole (<NUM>) into said mounting cavity (<NUM>), said wires (<NUM>) comprising the plurality of inner wires (<NUM>) and an outer sheath (<NUM>) encasing all of the inner wires (<NUM>), the end of said outer sheath (<NUM>) located within said glue injection cavity (<NUM>),
said light source assembly (<NUM>) comprises a strip-shaped circuit board (<NUM>) provided in said mounting cavity (<NUM>) and a light emitting unit (<NUM>) provided in said strip-shaped circuit board (<NUM>) towards a strip-shaped optical element (<NUM>) characterized in that
said strip-shaped circuit board (<NUM>) is provided with pads (<NUM>) at the end of said strip-shaped circuit board (<NUM>), said pads (<NUM>) being located at or near said mounting opening (<NUM>) inside the glue filing cavity (<NUM>) and wherein the inner wires (<NUM>) are provided with two positive and negative terminals, correspondingly connected to said pads (<NUM>).