CN108488657B

CN108488657B - Industrial and mining lamp

Info

Publication number: CN108488657B
Application number: CN201810333650.6A
Authority: CN
Inventors: 郭福杨; 杨林; 杨海涛
Original assignee: Longhorn Lighting Co ltd
Current assignee: Longhorn Lighting Co ltd
Priority date: 2018-04-13
Filing date: 2018-04-13
Publication date: 2021-03-02
Anticipated expiration: 2038-04-13
Also published as: CN108488657A

Abstract

The invention discloses an industrial and mining lamp, and relates to the technical field of lamps. The mining lamp comprises a main body light source module and a split light source module, wherein the split light source module can be turned and folded relative to the main body light source module. The mining lamp main body light source module and the split light source module can be relatively turned and folded, the mining lamp can be folded when being packaged, the folded mining lamp can reduce the internal space of the package, the internal space utilization rate is higher, filling materials in the package are saved, the occupied area of a packaging box is saved, the whole package is more firm and solid, and the packaging and transportation cost can be reduced. In addition, after being folded, the package of other low-power mining lamps in the same series can be compatible, and the package types are reduced.

Description

Industrial and mining lamp

Technical Field

The invention relates to the technical field of lamps, in particular to a foldable linear mining lamp.

Background

Industrial and mining lamp is a generic name of lamps used in production work areas of factories, mines, warehouses and high-rise sheds. The linear industrial and mining lamp is a strip industrial and mining lamp. Due to the requirements of the use occasions, the linear mining lamp is large in size and large in required power; the larger the power of the linear mining lamp is, the larger the corresponding volume is.

After the existing linear mining lamp is produced, the shape of the existing linear mining lamp cannot be changed, so that the linear mining lamp needs a larger packing box and more packing materials in the packing process, occupies a larger space in the transportation process, and causes high packing and transportation costs.

Based on the above problems, there is a need for a mining lamp that can be folded and deformed to solve the problem of high packaging and transportation costs caused by an excessively large volume.

Disclosure of Invention

The invention aims to provide a mining lamp which can be folded and deformed, can reduce the volume of the linear mining lamp and reduce the packaging and transportation cost.

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

the utility model provides an industrial and mining lamp, includes main part light source module and components of a whole that can function independently light source module, wherein the components of a whole that can function independently light source module can for main part light source module upset is folding.

As a preferred scheme of the mining lamp, one of the main body light source module and the split light source module is provided with a fixing support, the other is provided with a connecting lug, and the fixing support is hinged to the connecting lug.

As an optimal scheme of above-mentioned industrial and mining lamp, be provided with a plurality of joint positions that circumference distributes on the fixed bolster, be provided with the through-hole on the engaging lug, when the relative fixed bolster of engaging lug was rotatory, the through-hole can with every the coaxial correspondence of joint position.

As a preferable scheme of the mining lamp, the mining lamp further comprises a clamping structure, and the clamping structure is configured to penetrate through the through hole and a clamping position coaxially corresponding to the through hole.

As a preferred scheme of the mining lamp, the clamping and stopping structure is a pin shaft or a bolt.

As a preferred scheme of the mining lamp, the adjacent clamping positions are arranged at intervals.

As a preferred scheme of the mining lamp, the clamping positions are communicated with each other.

As a preferable scheme of the mining lamp, the rotation angle range of the connecting lug is 0-180 °.

As a preferred scheme of the mining lamp, the number of the split light source modules is 2, and the split light source modules are respectively arranged on two sides of the main body light source module.

As an optimal scheme of the industrial and mining lamp, the main body light source module comprises a main body power supply bin, the main body power supply bin comprises a power supply bin body and a bin cover, one side of the bin cover is hinged to the power supply bin body, the other side of the bin cover is hinged to a rotary buckle, and the rotary buckle can be connected with the power supply bin body in a clamped mode.

The invention has the beneficial effects that:

the mining lamp provided by the invention comprises the plurality of light source modules, wherein at least two light source modules can be relatively rotated and folded, so that the mining lamp can be folded when being packaged, the folded mining lamp can reduce the gaps inside the package, the utilization rate of the internal space is higher, the filling material inside the package is saved, the floor area of a packing box is saved, the whole package is more firm and solid, and the packaging and transportation cost is reduced. In addition, after being folded, the package of other low-power mining lamps in the same series can be compatible, and the package types are reduced.

Drawings

Fig. 1 is a schematic structural diagram of an industrial and mining lamp provided by an embodiment of the invention;

fig. 2 is an exploded view of a mining lamp according to an embodiment of the present invention;

fig. 3 is a side view of a mining lamp provided in an embodiment of the present invention;

fig. 4 is a side view of the split power module according to the embodiment of the invention for maintaining a desired light-emitting angle (greater than 0 ° and less than 180 °);

fig. 5 is a side view of a mining lamp according to an embodiment of the present invention in a folded state;

fig. 6 is a schematic structural view of an industrial and mining lamp according to an embodiment of the present invention in a state where a cap is opened;

fig. 7 is a schematic structural view of a mining lamp according to an embodiment of the present invention in a state where a cap is closed;

FIG. 8 is a schematic structural view of a rotating buckle according to an embodiment of the present invention;

fig. 9 is a schematic structural view of the power supply bin body and the rotating buckle provided in the embodiment of the present invention when the rotating buckle is clamped with the power supply bin body;

fig. 10 is a schematic structural diagram of the rotating buckle provided in the embodiment of the present invention when the rotating buckle is not clamped with the power supply cabin body.

Wherein, 1, the main body light source module; 2. a split light source module; 3. a locking structure;

11. fixing a bracket; 111. clamping and connecting; 12. a main power supply bin; 121. a power supply bin body; 122. a bin cover; 123. rotating the buckle; 124. a hinge;

1211. a clamping hole;

1231. a connecting portion; 1232. a toggle part; 1233. a clamping part; 1234. a card slot;

21. connecting lugs; 211. and a through hole.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

The embodiment discloses a foldable mining lamp, and a specific folding structure of the foldable mining lamp is described by taking a linear mining lamp as an example. As shown in fig. 1 to 3, the linear industrial and mining lamp of the present embodiment includes a main body light source module 1 and two split light source modules 2 respectively disposed at two sides of the main body light source module 1, and the split light source modules 2 can be turned and folded with respect to the main body light source module 1. The main body light source module 1 and the split light source module 2 can be turned and folded relatively, the mining lamp can be folded when being packaged, the space inside the package can be reduced by the mining lamp after being folded, the utilization rate of the internal space is higher, the filling material inside the package is saved, the occupied area of the packaging box is saved, and the whole package is more firm and solid. In addition, after being folded, the package of other low-power mining lamps in the same series can be compatible, and the package types are reduced. The mining lamp can reduce the packaging and transportation cost. According to specific conditions, the number of the light source modules of the mining lamp can be multiple.

In this embodiment, as shown in fig. 3 to 5, the fixing brackets 11 are disposed on both sides of the main body light source module 1, the connecting lugs 21 are disposed at corresponding positions of the split body light source module 2, and the fixing brackets 11 are hinged to the connecting lugs 21 through bolts, so that the split body light source module 2 can be turned and folded relative to the main body light source module 1. The main body light source module 1 and each split light source module 2 are connected through two spaced fixing brackets 11 and two spaced connecting lugs 21. Because components of a whole that can function independently light source module 2 has certain length, if only a department is articulated with main part light source module 1, will cause components of a whole that can function independently light source module 2's unstability, the problem such as card is dead because of rocking probably appears in components of a whole that can function independently light source module 2 rotation process. When two hinge points exist between the main body light source module 1 and the split light source module 2, the split light source module 2 is stable and smooth in the overturning process.

The rotation angle range of the connecting lug 21 is 0-180 degrees, and correspondingly, the rotation angle of the split light source module 2 relative to the main body light source module 1 can also reach 180 degrees. Therefore, in general, as shown in fig. 3, the lower surfaces of the three light source modules are flush in the use state. When the mining lamp is in a folded state after being rotated by 180 degrees, as shown in fig. 5, the split light source module 2 can be folded above the main body light source module 1, so that the area of the lower surface of the mining lamp is reduced, the occupied area of packaging is correspondingly reduced, and the transportation cost is reduced; after the mining lamp is folded, the filling material filled above the main body light source module 1 can be correspondingly reduced, and the packaging cost is reduced.

In this embodiment, referring to fig. 2 and 4, the fixing bracket 11 is provided with an adjusting disc, the adjusting disc is provided with a plurality of clamping positions 111 distributed circumferentially, the engaging lug 21 is provided with a through hole 211, and when the engaging lug 21 rotates relative to the fixing bracket 11, the through hole 211 can coaxially correspond to each clamping position 111. The mining lamp further comprises a clamping structure 3, wherein the clamping structure 3 is configured to penetrate through the through hole 211 and the clamping position 111 coaxially corresponding to the through hole 211, so that the connecting lug 21 is limited to rotate relative to the fixing support 11. Therefore, the rotation range of the connecting lug 21 can be adjusted within the range of the clamping position 111, so that the rotation angle of the split light source module 2 can be adjusted, the light emitting angle of the split light source module 2 can be adjusted, and different lighting environment requirements can be met. The stop structure 3 can be selected as a pin or a bolt, and the split light source module 2 can be limited by the stop structure 3, so that the split light source module 2 is kept at a certain position relative to the main light source module 1 to provide a required light-emitting angle. The light-emitting angle of the split light source module 2 is adjusted through the structure, the rotation and limiting operation is simple, and the user operation is convenient.

In this embodiment, the clamping positions 111 are circular holes formed in the adjusting plate, the adjacent clamping positions 111 are arranged at intervals, the rotation angle of the connecting lug 21 between the adjacent clamping positions 111 is 30 °, flexible adjustment of the rotation angle of the split light source module 2 can be realized, and the rotation angle of the connecting lug 21 is adjusted within the range of 0-180 °, which can be 30 °, 60 °, 90 °, 120 ° or 150 °. Of course, the spacing between adjacent card slots 111 may be adjusted according to lighting requirements.

Adjacent clamping sites 111 can also be arranged to communicate with each other, and specifically, adjacent clamping sites 111 communicate with each other through a connecting channel, and the width dimension of the connecting channel is smaller than the diameter dimension of the clamping sites 111. Correspondingly, the clamping structure 3 can be arranged to be a stepped pin shaft, the pin shaft comprises a first pin part with a larger diameter and a second pin part with a smaller diameter, the diameter of the second pin part is smaller than the width of the connecting channel, and the diameter of the first pin part is larger than the width of the connecting channel. Therefore, when the angle of the split light source module 2 is adjusted, the pin shaft does not need to be completely pulled out of the clamping position 111, and only the first pin part needs to be pulled out of the clamping position 111, so that the second pin part is located at the position of the clamping position 111, the pin shaft is moved to the specified clamping position 111 from one clamping position 111 through the connecting channel, and then the first pin part is matched with the specified clamping position 111, so that the positioning of the connecting lug 21 of the split light source module 2 is realized. When adjusting the angle of components of a whole that can function independently light source module 2, need not to carry out whole dismantlement and installation step to the structure 3 that stops, only need to stop the structure 3 and carry out partial removal can, easy and simple to handle, save adjustment time.

In this embodiment, as shown in fig. 6 and 7, the main body light source module 1 includes a main body power supply bin 12, the main body power supply bin 12 includes a power supply bin body 121 and a bin cover 122, one side of the bin cover 122 is hinged to the power supply bin body 121, the other side is hinged to a rotating buckle 123, and the rotating buckle 123 can be clamped to the power supply bin body 121. The rotation of the rotating buckle 123 can realize the connection or disconnection between the other side of the bin cover 122 and the power supply bin body 121. When the other side of the bin cover 122 is not connected with the power supply bin body 121, the bin cover 122 of the main body power supply bin 12 can be opened, so that the wiring of the interior of the main body power supply bin 12 is realized.

Specifically, the bin cover 122 includes a cover body and two sides, one of the sides is hinged to the power supply bin body 121 through a hinge 124, the other side is hinged to a rotating buckle 123, and the rotating buckle 123 is connected to the power supply bin body 121. The power supply compartment body 121 includes a bottom plate, and a fastening hole 1211 is formed on the bottom plate. As shown in fig. 8, the rotating buckle 123 includes a connecting portion 1231, a toggle portion 1232 and a clamping portion 1233, which are all sheet-shaped, wherein the connecting portion 1231 is hinged on the other side of the bin cover 122, and the toggle portion 1232 and the clamping portion 1233 are respectively disposed on two sides of the connecting portion 1231. The toggle portion 1232 is perpendicular to the connecting portion 1231, the clamping portion 1233 and the connecting portion 1231 are located in the same plane, and a clamping groove 1234 is formed between the connecting portion 1231 and the clamping portion 1233. As shown in fig. 9, when the bin cover 122 is connected to the power supply bin body 121, the toggle portion 1232 is attached to the outer surface of the cover of the bin cover 122, the connecting portion 1233 passes through the bottom plate of the power supply bin body 121 through the clamping hole 1211, and the edge of the clamping hole 1211 is clamped into the clamping groove 1234, so that the other side of the bin cover 122 is connected to the power supply bin body 121, and at this time, the connecting portion 1231 is attached to the other side of the bin cover 122 and located between the power supply bin body 121 and the side.

Wherein the connecting portion 1231 is a long strip sheet, one end of the connecting portion 1231 is hinged to the other side of the bin cover 122, and the other end is connected to the toggle portion 1232. Joint portion 1233 is the L type, including two vertically joint limits, and one of them joint limit is connected in the position that is close to the one end of connecting portion 1231, and another joint limit then is on a parallel with connecting portion 1231 length direction, and the draw-in groove 1234 that forms between connecting portion 1231 and the joint portion 1233 is the U type, and the opening direction of draw-in groove 1234 is the other end of connecting portion 1231 dorsad. Therefore, when the bin cover 122 needs to be opened and closed, the rotating buckle 123 needs to rotate forward or backward by 90 degrees.

The specific opening and closing operations of the bin cover 122 are:

when the bin cover 122 needs to be opened for wiring, the toggle part 1232 is rotated manually or by using a tool, so that the toggle part 1232 is far away from the outer surface of the cover body, the rotating buckle 123 is rotated by 90 degrees, the clamping part 1233 is completely separated from the power supply bin body 121 through the clamping hole 1211, and at this time, the bin cover 122 can rotate relative to the power supply bin body 121 through the hinge 124, so that the bin cover 122 is opened, as shown in fig. 6 and 10; when the bin cover 122 needs to be closed, the bin cover 122 is firstly rotated relative to the power supply bin body 121, the opening of the power supply bin body 121 is covered by the cover, then the toggle part 1232 is rotated reversely, so that the connecting part 1231 is driven to rotate relative to the other side of the bin cover 122, the clamping part 1233 extends into the power supply bin body 121 through the clamping hole 1211, when the rotating buckle 123 rotates reversely by 90 degrees, the edge of the clamping hole 1211 is clamped into the clamping groove 1234, and the bin cover 122 is closed, as shown in fig. 7 and 9.

Note that the above is only a preferred embodiment of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims

1. The mining lamp is characterized by comprising a main body light source module (1) and a split light source module (2), wherein the split light source module (2) can be turned and folded relative to the main body light source module (1);

one of the main body light source module (1) and the split light source module (2) is provided with a fixed support (11), the other one is provided with a connecting lug (21), and the fixed support (11) is hinged with the connecting lug (21);

the fixing support (11) is provided with a plurality of clamping positions (111) which are distributed in the circumferential direction, the adjacent clamping positions (111) are communicated through a connecting channel, the width dimension of the connecting channel is smaller than the diameter dimension of the clamping positions (111), through holes (211) are formed in connecting lugs (21), and when the connecting lugs (21) rotate relative to the fixing support (11), the through holes (211) can coaxially correspond to each clamping position (111);

the mining lamp further comprises a clamping structure (3), the clamping structure (3) is configured to penetrate through the through hole (211) and the clamping position (111) coaxially corresponding to the through hole (211), the clamping structure (3) is a step-shaped pin shaft, the pin shaft comprises a first pin part with a larger diameter and a second pin part with a smaller diameter, the diameter of the second pin part is smaller than the width of the connecting channel, and the diameter of the first pin part is larger than the width of the connecting channel; when the angle of the split light source module (2) is adjusted, the first pin part is only required to be pulled out of the clamping position (111), the second pin part is positioned at the clamping position (111), the pin shaft is moved to the appointed clamping position (111) from one clamping position (111) through the connecting channel, and then the first pin part is matched with the appointed clamping position (111), so that the connecting lug (21) of the split light source module (2) can be positioned;

the main body light source module (1) comprises a main body power supply bin (12), the main body power supply bin (12) comprises a power supply bin body (121) and a bin cover (122), one side of the bin cover (122) is hinged with the power supply bin body (121), the other side of the bin cover is hinged with a rotating buckle (123), and the rotating buckle (123) can be clamped with the power supply bin body (121);

the power supply bin body (121) comprises a bottom plate, and a clamping hole (1211) is formed in the bottom plate; the rotating buckle (123) comprises a connecting part (1231), a shifting part (1232) and a clamping part (1233), the connecting part (1231) is hinged to the other side edge of the bin cover (122), the shifting part (1232) and the clamping part (1233) are respectively arranged on two sides of the connecting part (1231), the shifting part (1232) is perpendicular to the connecting part (1231), the clamping part (1233) and the connecting part (1231) are in the same plane, and a clamping groove (1234) is formed between the connecting part (1231) and the clamping part (1233); work as cang gai (122) with when power storehouse body (121) joint, portion of stirring (1232) with the surface laminating of the lid of cang gai (122), joint portion (1233) warp card hole (1211) passes power storehouse body (121) the bottom plate just the edge card of card hole (1211) is gone into in draw-in groove (1234), makes the opposite side of cang gai (122) with power storehouse body (121) are connected, just connecting portion (1231) with another side laminating of cang gai (122), and be located power storehouse body (121) with between the side.

2. The mining lamp according to claim 1, characterized in that the rotation angle of the engaging lug (21) ranges from 0 to 180 °.

3. The mining lamp according to any one of claims 1-2, wherein the number of the split light source modules (2) is 2, and the split light source modules are respectively arranged on two sides of the main body light source module (1).