CN215637046U - Diving lamp - Google Patents

Abstract

The utility model relates to the technical field of lamps, in particular to a diving lamp. This dive lamp utilizes first plug to provide the light source through the components of a whole that can function independently structure that divide into first plug and second plug with the dive lamp, and the second plug provides the power for first plug, and second plug one end is connected with the power, and the other end can be dismantled with first plug and be connected to realize that first plug or second plug appear damaging can maintain alone or change alone the purpose, practice thrift the cost for the user. Meanwhile, according to different underwater environments, a user can achieve the best visual effect by replacing the first plug with different brightness, and therefore the application condition of the diving lamp is improved.

Description

Diving lamp

Technical Field

The utility model relates to the technical field of lamps, in particular to a diving lamp.

Background

With the development of technology and the gradual exploration of people on nature, the situation of underwater operation is increasing at present, so the development of the diving light technology becomes a crucial link. A user can explore the underwater environment and know habits of aquatic organisms through underwater operation, can develop underwater resources through the underwater operation, or can maintain underwater structures, parts and the like. In any underwater operation link, the diving light is required to illuminate.

The conventional diving light in the prior art is generally of an integrated structure, and when a certain part of the diving light is damaged, the whole diving light cannot be used continuously, so that the cost of a user is increased. In addition, for different underwater environments, users need different illumination brightness, and the light-emitting component of the diving lamp in the prior art cannot be replaced, so that the requirements of the user group cannot be met.

To solve the above problems, it is desirable to provide a dive light to solve the problems of high cost due to the inability of maintenance and the inability to replace the light emitting component to adjust the brightness.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a diving lamp so as to achieve the effect that the structure of local damage can be replaced and the light-emitting component can be replaced to adjust the brightness.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a dive light, comprising:

a first plug for providing a light source; and

and one end of the second plug is connected with the power supply, the other end of the second plug is detachably connected with the first plug, and the second plug can provide the power supply for the illumination of the first plug.

Optionally, the dive light further comprises:

the connecting piece is sleeved on the first plug and the second plug and is configured to detachably connect the first plug and the second plug.

Optionally, the first and second plugs are threadedly connected to the connector.

Optionally, the first plug and/or the second plug is provided with a mounting groove, and the first plug and/or the second plug further includes:

and the sealing element is arranged in the mounting groove and used for improving the sealing performance of the connecting surface of the first plug and the second plug.

Optionally, the first plug comprises

A housing connected with the second plug;

a light emitting assembly disposed on the housing.

Optionally, the light emitting assembly comprises:

the mounting seat is arranged on the shell; and

the luminous piece is arranged on the mounting seat and connected with the mounting seat.

Optionally, the second plug comprises:

the plug is in plug-in fit with the first plug;

one end of the plug is electrically connected with the plug, and the other end of the plug is connected with the power supply; and

and the shell component is connected with the first plug and is used for connecting the plug, the plug and the first plug in a sealing way.

Optionally, the plug includes:

the connecting wire is used for providing power for the first plug;

an enclosure wrapped outside the connection line, an

And the sealing ring is sleeved on the inclusion body.

Optionally, the connecting line, the inclusion body and the sealing ring are integrally formed.

Optionally, the inclusion is a cone-shaped structure, the diameter of the inclusion gradually increases along a direction away from the plug, and the inner diameter of the housing assembly corresponds to the diameter of the inclusion.

The utility model has the beneficial effects that:

the utility model provides a diving lamp, which is divided into a split structure of a first plug and a second plug, wherein the first plug is used for providing a light source, the second plug is used for providing a power supply for the first plug, one end of the second plug is connected with the power supply, and the other end of the second plug is detachably connected with the first plug, so that the purpose that the first plug or the second plug is damaged and can be independently maintained or independently replaced is realized, and the cost is saved for a user. Meanwhile, according to different underwater environments, a user can achieve the best visual effect by replacing the first plug with different brightness, and therefore the application condition of the diving lamp is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments of the present invention will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the contents of the embodiments of the present invention and the drawings without creative efforts.

Fig. 1 is a schematic sectional view of a dive light according to an embodiment of the present invention.

The figures are labeled as follows:

100-a first plug; 110-a housing; 111-mounting grooves; 120-a light emitting component; 121-a mounting seat; 122-a light emitting member; 130-a seal; 140-a light-concentrating member; 150-a cover plate; 160-a cover;

200-a second plug; 210-a plug; 220-plug; 221-connecting lines; 222-inclusion; 223-a sealing ring; 230-a housing assembly; 231-a gland; 232-a sleeve;

300-a connector; 310-a connecting portion; 320-a fixed part.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting of the utility model. It should be further noted that, for the convenience of description, only the structures related to the present invention are shown in the drawings, not the entire structures.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be structurally related or interoperable between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are used based on the orientations and positional relationships shown in the drawings only for convenience of description and simplification of operation, and do not indicate or imply that the referred device or element must have a specific orientation, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

With the development of the technology and the gradual exploration of people on the nature, the situation of underwater operation is increased day by day, so the development of the diving light technology is also a crucial link. A user can explore an underwater environment and know habits of aquatic organisms through underwater operation, can develop underwater resources through the underwater operation, or can maintain underwater structures, parts and the like, and needs the diving lights to illuminate in any underwater operation link.

The conventional diving light in the prior art is generally of an integrated structure, and when a certain part of the diving light is damaged, the whole diving light cannot be used continuously, so that the cost of a user is increased. In addition, for different underwater environments, users need different illumination brightness, and the light-emitting component of the diving lamp in the prior art cannot be replaced, so that the requirements of the user group cannot be met.

In order to solve the above problem, referring to fig. 1, the present invention provides a dive light including a first plug 100 and a second plug 200. The first plug 100 is used for providing power, one end of the second plug 200 is connected with the power, the other end of the second plug 200 is detachably connected with the first plug 100, and the second plug 200 can provide power for illumination of the first plug 100. This configuration is advantageous for achieving the purpose that the first plug 100 or the second plug 200 can be independently repaired or independently replaced when damaged, thereby achieving the effect of saving cost for the user. Meanwhile, according to different underwater environments, a user can achieve the best visual effect by replacing the first plug 100 with different brightness, so that the application condition of the diving light is improved.

Alternatively, the first plug 100 may be a male plug, the second plug 200 may be a female plug, and the first plug 100 and the second plug 200 may be mated by plugging. Of course, in other embodiments, the first plug 100 may be a female plug, and the second plug 200 may be a male plug, which is not limited in this context.

Specifically, with continued reference to fig. 1, the dive light further includes a connector 300 that is disposed on the first plug 100 and the second plug 200, and the detailed structure of the connector 300 will be described with reference to fig. 1.

As shown in fig. 1, the connector 300 is used to detachably connect the first plug 100 and the second plug 200, thereby facilitating the simplification of the structure of the first plug 100 and the second plug 200. Since the dive light is applied to underwater environment, the waterproof effect of the connection position of the first plug 100 and the second plug 200 is also important, and the connection position of the first plug 100 and the second plug 200 is sealed by the first connector 300 to achieve the waterproof effect.

Optionally, first plug 100 and second plug 200 are threadably connected to connector 300. When a user wants to disassemble or assemble the first plug 100 and the second plug 200, the user only needs to screw the connecting member 300 to achieve the purpose of disassembly and assembly, thereby improving the working efficiency of the operator.

Specifically, the connecting member 300 includes a connecting portion 310 and a fixing portion 320, which are connected to each other, and the connecting portion 310 is sleeved on the peripheries of the first plug 100 and the second plug 200, so as to wrap the first plug 100 and the second plug 200. Illustratively, the connecting portion 310 is provided with an internal thread, and the outer peripheries of the positions, which are close to the first plug 100 and the second plug 200, are provided with an external thread, so that the threaded connection between the connecting portion 310 and the first plug 100 and the second plug 200 is realized, and the effect of quick assembly and disassembly is achieved. In order to improve the sealing effect of the first plug 100 and the second plug 200, a step structure with a diameter decreasing along a direction away from the first plug 100 is arranged on the first plug 100, and the fixing portion 320 is an inward protruding structure with a decreasing diameter relative to the connecting portion 310, so that the fixing portion 320 can abut against the step surface of the step structure, the sealing effect is prevented from being influenced by the fact that the connecting member 300 rotates relative to the first plug 100 and the second plug 200 under the condition of non-manual operation, and the fixing portion 320 can improve the connection stability of the first plug 100 and the second plug 200.

The detailed structure of the first plug 100 will now be described with reference to fig. 1.

Referring to fig. 1, the first plug 100 includes a housing 110 and a light emitting assembly 120. Wherein, the housing 110 is connected with the second plug 200, and the light emitting assembly 120 is disposed on the housing 110, thereby achieving the effect of illumination through the light emitting assembly 120. Preferably, a sealing structure is provided between the housing 110 and the light emitting assembly 120, thereby improving a waterproof effect of the first plug 100. Illustratively, the housing 110 and the light emitting assembly 120 are detachably connected by screws, thereby facilitating the assembly and maintenance of the internal structure by a user.

Specifically, the light emitting assembly 120 includes a mounting seat 121 and a light emitting member 122, the mounting seat 121 is disposed on the housing 110, the light emitting member 122 is disposed on the mounting seat 121, and the light emitting member 122 is connected to the mounting seat 121. Because illuminating part 122 produces great heat at luminous in-process, through setting up illuminating part 122 on mount pad 121, and mount pad 121 can be direct and water contact to make mount pad 121 can conduct the heat that illuminating part 122 produced to aquatic as early as possible and reach the radiating effect, be favorable to improving illuminating part 122's life.

In order to further improve the heat dissipation effect of the mounting seat 121, the mounting seat 121 is preferably made of copper or aluminum. Copper and aluminum have high heat conduction coefficients and good heat conduction capability, and are beneficial to improving the heat dissipation efficiency, so that the purpose of prolonging the service life of the luminescent part 122 is achieved.

Further, as shown in fig. 1, a mounting groove 111 is formed in the first plug 100, the second plug 200 further includes a sealing element 130 disposed in the mounting groove 111, the sealing element 130 is used for improving the sealing property of the connecting surface between the first plug 100 and the second plug 200, so as to further improve the waterproof effect of the connecting surface between the first plug 100 and the second plug 200, and further improve the waterproof effect of the dive light, thereby being beneficial to preventing the short circuit of the dive light and ensuring the service life of the dive light. In other embodiments, the second plug 200 may be provided with a mounting groove 111, and the first plug 100 further includes a sealing member 130 disposed in the mounting groove 111, which is opposite to the above-mentioned arrangement relationship, and can also achieve the effect of improving the waterproof effect of the dive light. In other embodiments, the second plug 200 and the first plug 100 may be provided with mounting grooves 111 at the same time, and the sealing members 130 may be disposed in both the mounting grooves 111 to achieve the sealing and waterproof performance at the connection position between the first plug 100 and the second plug 200.

Further, as shown in fig. 1, the first plug 100 further includes a light-collecting member 140, the light-collecting member 140 is disposed on the light-emitting assembly 120, the light-collecting member 140 is in a horn shape, a smaller end of the light-collecting member 140 is sleeved around the light-emitting member 122, and a diameter of the light-collecting member 140 is gradually increased along a direction away from the light-emitting member 122. The light-gathering piece 140 can enlarge the light-emitting diameter range of the light-emitting piece 122, and the light propagation direction is changed by refraction away from the light-gathering piece 140, so that the light emitted by the light-emitting piece 122 can propagate along a straight line under the light-gathering effect of the light-gathering piece 140, the heat dissipation of the light is reduced, the light source emitted by the light-emitting piece 122 can be fully utilized, and the light source can have the penetrability at a longer distance.

Preferably, with reference to fig. 1, the first plug 100 further includes a cover 160 and a cover 150, the cover 150 is disposed on the light gathering member 140, the cover 160 is sleeved on the mounting seat 121 and the cover 150, and a closed space is formed inside the light emitting member 122 through the cover 150 and the cover 160, so as to prevent short circuit from occurring in underwater applications. The cover plate 150 has a light-transmitting effect, and not only has a protective effect, but also can effectively transmit the light source of the light-emitting element 122. For example, the cover plate 150 may be made of glass, which has a good light transmission effect and is low in cost and easy to purchase. Specifically, the cover 160 and the mounting seat 121 can be connected by threads, so that the cover can be easily detached by a user.

Further, as shown in fig. 1, in order to improve the sealing effect of the first plug 100, sealing members 130 are disposed between the cover plate 150 and the mounting seat 121, between the cover body 160 and the cover plate 150, and between the narrow body and the mounting seat 121, so as to prevent moisture from entering the inside of the first plug 100 and causing a short circuit.

The detailed structure of the second plug 200 will now be described with reference to fig. 1.

Referring to fig. 1, the second plug 200 includes a plug 210, a plug 220, and a housing assembly 230. The plug 210 is used for being electrically connected with the first plug 100, one end of the plug 220 is electrically connected with the plug 210, and the other end of the plug is connected with a power supply, so that the purpose of supplying power to the first plug 100 is achieved. The housing assembly 230 is connected to the first plug 100, and the housing assembly 230 is used to connect the plug 210, the plug 220 and the first plug 100 in a sealing manner, so that the second plug 200 has a waterproof effect in an underwater environment, thereby preventing the short circuit of the dive light.

Specifically, as shown in fig. 1, the housing assembly 230 includes a gland 231 and a sleeve 232, the sleeve 232 is sleeved on the peripheries of the plug 220 and the plug 210, and completely wraps the connection position of the plug 220 and the plug 210 therein, so as to prevent the plug 220 and the plug 210 from contacting with the water environment, and achieve the waterproof effect. The gland 231 is sleeved on one end of the sleeve 232 away from the first connecting piece 300, so that the sleeve 232 can be stably connected with the plug 220.

Optionally, one end of the sleeve 232 close to the gland 231 is provided with an external thread, the gland 231 is provided with an internal thread, and the external thread and the internal thread are connected in a matching manner. Since the sleeve 232 is provided with the external thread and the gland 231 is provided with the internal thread, the two are connected by the thread, and the inner wall of the sleeve 232 can be prevented from abutting against the seal ring 223. Of course, in other embodiments of the present invention, the sleeve 232 may have an internal thread and the gland 231 may have an external thread, which are connected by a thread.

The details of the structure of the plug 220 will now be described with reference to fig. 1. Referring to fig. 1, the stopper 220 includes a connection line 221, an inclusion body 222, and a sealing ring 223. The connecting line 221 is used for providing a power supply for the first plug 100, and the inclusion 222 is wrapped outside the connecting line 221 to protect the connecting line 221, so that the phenomenon that the connecting line 221 is damaged and short-circuited in an underwater operation process is avoided. The sealing ring 223 is sleeved on the enclosure 222 and is matched with the housing assembly 230, so that the sealing effect of the second plug 200 can be improved, and the waterproof effect of the submarine light can be further improved.

Specifically, the enclosure 222 is wrapped on the connection line 221 and has a tapered structure, so that the connection line 221 is protected, and the connection member 300 and the gland 231 are respectively sleeved on the sleeve 232 and the enclosure 222 along the same direction, and because the tapered structure of the enclosure 222 enables the connection member 300 and the gland 231 to be abutted against the outer side wall of the enclosure 222, and the pressing force of the front side surface and the outer side wall is gradually increased, the sealing performance is good. The sealing ring 223 is additionally arranged on the basis of the inclusion 222, the inner wall of the gland 231 is abutted against the sealing ring 223 and can be in threaded connection with the outer surface of the sleeve 232, so that the sealing ring 223 is sealed between the gland 231 and the sleeve 232, the phenomenon of water leakage at a connecting gap between the sleeve 232 and the gland 231 can be effectively avoided, and the sealing performance is further improved. In addition, the plug 210 is fixedly connected to the port of the connection line 221, so that the plug and the connection line are electrically connected, and the plug and the connection line are conveniently plugged and matched with other watertight connectors or underwater equipment. In conclusion, the second plug 200 of the present invention has a simple structure and a small volume, and the design of the wrapping body 222 with a cone-shaped structure and the sleeve 232 with a cone-shaped structure can realize the compression sealing of the front side surface and the outer side wall, and can realize the increasingly large compression force at the depth of water below 350m and the increasingly good sealing performance, thereby effectively reducing the risk of water leakage, and being capable of being produced in large scale and with good reliability.

Alternatively, as shown in fig. 1, the diameter of the inclusion 222 gradually increases in a direction away from the plug 210, and the inner diameter of the sleeve 232 is set opposite to the diameter of the inclusion 222. It can be understood that, when the connecting member 300 is sleeved outside the sleeve 232, the sleeve 232 is connected with the first plug 100, the fixing portion 320 of the connecting member 300 has an abutting force to the sleeve 232 in the direction of the first plug 100, and the pressing cover 231 has an abutting force to the sleeve 232 in the direction of the first plug 100, so that the pressing cover 231 and the connecting member 300 fix the sleeve 232 at the same time, and the waterproof effect is prevented from being affected by the loosening of one of the structures. Meanwhile, the enclosing body 222 and the sleeve type have the conical structures in opposite directions, so that the abutting force of the surface of the gland 231 abutted to the enclosing body 222 is increased while the gland 231 is in threaded connection with the sleeve 232, and the sealing effect of the gland 231 is improved.

As an alternative, the plug 210 is soldered to the port of the connection line 221. It is understood that the plug 210 and the port of the connection line 221 are welded so that the plug 210 is fixedly connected to the port of the connection line 221 to electrically connect the plug 210 and the connection line 221. The connection between the plug 210 and the connection line 221 is more firm and stable by welding, and no other connection member 300 is needed, so that the cost is lower. Of course, in other embodiments of the present invention, the plug 210 and the port of the connection line 221 may be connected by other connection methods, which are not limited herein.

Optionally, the connection line 221, the enclosure 222 and the sealing ring 223 are of an integrally molded structure. After the plug 210 is welded with the port of the connecting line 221, the sheath of the connecting line 221 chemically treated by butanone is softened and has strong adhesion, the inclusion body 222 and the sealing ring 223 are injection-molded on the connecting line 221 by a mold, the injection-molded material used for injection molding is consistent with the material of the sheath of the connecting line 221, and finally the plug 220 with an integral structure is obtained. The integrated into one piece structure is favorable to further improving the sealed effect of second plug to improve the waterproof function of dive lamp.

Specifically, the seal ring 223 is an elastic member. It can be understood that, the elastic member is selected as the sealing ring 223, which can protect the enclosure 222, and in addition, the sealing ring 223 has an elastic acting force, so that the pressing effect is better, and the sealing performance is improved.

Further, in order to improve the assembling efficiency of the user, the inner diameter of the fixing part 320 is smaller than the outer diameter of the gland 231. When the operator sleeves the connector 300 around the sleeve 232, even if the first plug 100 and the second plug 200 are separated, the connector 300 will not fall off from the second plug 200, so that the connector is convenient for the user to assemble, and the connector 300 can be effectively prevented from being lost.

The specific working process of this embodiment is as follows:

first, the first plug 100 is assembled. The user fixes the light emitting element 122 on the mounting seat 121 through screws, and then locks the housing 110 and the mounting seat 121 together through screws, the light collecting element 140, the cover plate 150 and the cover body 160 are sequentially placed on the light emitting element 122, and the cover body 160 and the mounting seat 121 are fixed through threaded connection.

Next, the second plug 200 is assembled. The user fits the sleeve 232 on the periphery of the plug 210 and the plug 220 which are welded and fixed, fits the connector 300 on the periphery of the sleeve 232, and then fixes the inclusion 222, i.e. the sleeve 232, by using the gland 231.

Finally, the user assembles the first plug 100 and the second plug 200. The sockets of the first plug 100 and the second plug 200 are plugged, and then the first plug 100 and the second plug 200 are connected and fixed through the connecting piece 300. Thereby completing the assembly of the dive light.

It is noted that the foregoing shows and describes the general principles and features of the present invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined by the appended claims and their equivalents.

Claims (10)

1. A dive light, comprising:

a first plug (100) for providing a light source; and

and one end of the second plug (200) is connected with a power supply, the other end of the second plug is detachably connected with the first plug (100), and the second plug (200) can provide power supply for the illumination of the first plug (100).

2. The submersible light according to claim 1, further comprising:

a connector (300) fitted over the first plug (100) and the second plug (200), the connector (300) being configured to detachably connect the first plug (100) and the second plug (200).

3. The submersible light according to claim 2, wherein the first plug (100) and the second plug (200) are threadedly connected to the connector (300).

4. The submersible light according to claim 2, wherein the first plug (100) and/or the second plug (200) has a mounting groove (111) formed thereon, and wherein the first plug (100) and/or the second plug (200) further comprises:

and the sealing element (130) is arranged in the mounting groove (111), and the sealing element (130) is used for improving the sealing performance of the connecting surface of the first plug (100) and the second plug (200).

5. Submersible light according to any of claims 1 to 4, characterized in that the first plug (100) comprises

A housing (110) connected to the second plug (200);

a light emitting assembly (120), the light emitting assembly (120) being disposed on the housing (110).

6. The submersible light according to claim 5, wherein the light assembly (120) comprises:

a mount (121) provided on the housing (110); and

the light-emitting piece (122) is arranged on the mounting seat (121), and the light-emitting piece (122) is connected with the mounting seat (121).

7. The submersible light according to any of claims 1 to 4, wherein the second plug (200) comprises:

a plug (210) which is in plug-in fit with the first plug (100);

the plug (220) is electrically connected with the plug (210) at one end and connected with the power supply at the other end; and

a housing assembly (230) connected with the first plug (100), the housing assembly (230) being used for sealing the plug (210), the bulkhead (220) and the first plug (100).

8. The submersible light according to claim 7, wherein the bulkhead (220) comprises:

a connection line (221), the connection line (221) providing power to the first plug (100);

an enclosure (222) that is enclosed outside the connection line (221), and

and the sealing ring (223) is sleeved on the inclusion body (222).

9. The submersible light according to claim 8, wherein the attachment wire (221), the enclosure (222), and the sealing ring (223) are integrally formed.

10. The submersible light according to claim 9, wherein the enclosure (222) is a cone-shaped structure, and wherein the diameter of the enclosure (222) increases in a direction away from the plug (210), and wherein the housing assembly (230) has an inner diameter corresponding to the diameter of the enclosure (222).

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