An outdoor lighting lamp
By introducing telescopic poles and storage slots into outdoor lighting fixtures, combined with support feet and lampshade design, the problems of limited brightness adjustment range and inconvenient storage are solved, achieving improved convenience and aesthetics in brightness adjustment, making it suitable for various outdoor activities.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN BEIHE TECHNOLOGY DEVELOPMENT CO LTD
- Filing Date
- 2025-08-21
- Publication Date
- 2026-06-19
AI Technical Summary
Existing outdoor lighting has limited brightness adjustment range and inconvenient storage methods, failing to meet the diverse needs of outdoor activities.
Design an outdoor lighting lamp by setting a telescopic rod and a storage slot inside the storage tube. The lighting strip slides with the telescopic rod to adjust the brightness. Support feet and sliding parts are set in the storage slot to realize multi-angle adjustment and storage of the lamp. The protrusions and bending sections of the lampshade improve the light focusing effect.
It has made it easier to adjust the brightness of lighting fixtures and expanded their applicable range, while improving the aesthetics of the storage tube and the protection of the lighting strips, thus enhancing portability and stability for outdoor activities.
Smart Images

Figure CN224381334U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of outdoor lighting technology, and in particular to an outdoor lighting lamp. Background Technology
[0002] Outdoor lighting is a type of lighting tool that people carry for outdoor use. Because of the lack of adequate lighting facilities in the wild, the lack of illumination at night makes it difficult for people to carry out activities. Therefore, outdoor lighting is widely used in various outdoor activities such as picnics, fishing, barbecues, mountain climbing, camping, and field exploration.
[0003] Existing outdoor lighting typically uses a folding storage method to house its support legs and lamp assembly. While this achieves portability, the lamp assembly is folded and stored directly within a notch in the outer wall of the lamp. The brightness of the lamp assembly is primarily adjusted via fixed brightness levels, limiting its applicability due to the fixed brightness settings. Summary of the Invention
[0004] The purpose of this utility model is to provide an outdoor lighting lamp that can arbitrarily adjust the lighting brightness of the lamp according to the lifting height of the lamp, thereby improving the brightness adjustment range, applicability, and protective properties of the lamp assembly.
[0005] To achieve the above objectives, this utility model provides an outdoor lighting lamp, the specific implementation of which is as follows:
[0006] An outdoor lighting fixture, comprising:
[0007] A storage tube has several storage slots, which extend along the axial direction of the storage tube and penetrate the top of the storage tube. The outer wall of the storage tube covers the storage slots.
[0008] The telescopic rod is located inside the storage tube and slides relative to the storage tube along the axial direction of the storage tube, moving away from or close to the storage tube.
[0009] Several lighting strips are all located at the top of the telescopic rod. As the telescopic rod slides, the strips move closer to the storage cylinder and into the storage slot or away from the storage cylinder and out of the storage slot. During the process of the lighting strips sliding into or out of the storage slot, the brightness of the lighting strips gradually dims or brightens in response to the change in their position.
[0010] When the lighting strip is completely detached from the storage slot, the lighting strip rotates relative to the telescopic rod to adjust the illumination range of the lighting strip.
[0011] This utility model discloses an outdoor lighting fixture. Compared with the prior art, it features a structure in which the lighting strip slides into or out of the storage slot as it moves along the telescopic rod, with the storage slot being shielded by the outer wall of the storage tube. This structure allows the brightness of the lighting strip to gradually dim or brighten in response to changes in its position as it slides into or out of the storage slot. This enables the lighting fixture to gradually adjust its brightness according to its depth within the storage slot, improving the convenience, adjustment range, and applicability of the outdoor lighting fixture's brightness adjustment. Furthermore, the shielding effect of the storage slot by the outer wall of the storage tube enhances the aesthetics of the storage tube and provides protection for the lighting strip installed within the storage slot.
[0012] In some embodiments, each of the storage slots is provided with a support foot, and each support foot is provided with a sliding member. The sliding member slides with the storage slot, causing the support foot to move along the axial direction of the storage cylinder and be stored in the storage slot or extend to the outside of the storage slot to support the storage cylinder. The support foot is hollow and forms a slot. When the support foot is stored in the storage slot, the lighting strip slides into the slot or moves away from the storage cylinder as the telescopic rod slides.
[0013] By installing support feet in each storage slot, the support feet slide and engage with the storage slot to be stored inside the storage slot or extend outside the storage slot to support the storage tube. Furthermore, by making the support feet hollow to form slots for inserting lighting strips, storage space for lighting strips is saved, and the volume and space occupancy of the storage tube are reduced.
[0014] In some embodiments, the support foot cooperates with the storage groove to form a first state or a second state, and the slider moves within the storage groove to form a first position and a second position.
[0015] In the first state, the slider moves from the first position to the second position and is limited to the bottom of the storage groove. The support foot swings along the circumferential direction of the slider and forms a first angle with the axial direction of the storage tube or the axial direction of the storage tube. The support foot extends outside the storage groove, forming an unfolded use state.
[0016] In the second state, the slider moves from the second position back to the first position and is limited by the top of the storage groove, and the support foot is stored in the storage groove, forming a stored state.
[0017] By installing support feet within the storage slot and mounting sliders on the support feet, the sliders and storage slot are movably engaged. When the sliders are positioned at the bottom of the storage slot, the support feet extend beyond the slot and can rotate circumferentially along the sliders, forming a first angle between the support feet and the main body's axial direction, thus supporting the outdoor lighting fixture. Conversely, when the sliders rotate circumferentially, the support feet become parallel to the main body's axial direction, and the support feet are then pushed into the storage slot. When the sliders and the top of the storage slot are positioned, the support feet are retracted into the slot. This support foot retraction structure allows the support feet to be stored inside the main body, resulting in a smaller volume compared to a support frame folded onto the main body, thus improving the portability of the outdoor lighting fixture.
[0018] In some embodiments, the bottom end of the support foot is provided with a foot pad, the bottom of the foot pad forms a support surface, and a second included angle is formed between the support surface and the support foot, the second included angle being an obtuse angle.
[0019] By setting foot pads at the bottom of the support feet, a support surface is formed at the bottom of the foot pads. The support surface and the support feet form a second obtuse angle, ensuring that the support feet can support the storage cylinder using the foot pads.
[0020] In some embodiments, the lighting strip includes:
[0021] The main body of the light strip has a receiving groove, and several light bodies are arranged in the receiving groove;
[0022] A lampshade is provided on the main body of the lamp strip to cover the receiving groove. A protrusion extending towards the lamp body is provided on one side facing the receiving groove, corresponding to the position of the lamp body. Several bending sections are provided on both sides of the protrusion, and each bending section is inclined downward from the outer sides of the protrusion.
[0023] By setting the lighting strip as a strip body with a receiving groove and a lampshade that covers the receiving groove, and setting a protrusion extending towards the lamp body on the side of the lampshade facing the receiving groove, the protrusion forms a convex mirror effect to focus the light and improve the lighting brightness. In addition, several bent sections set on both sides of the protrusion, which are inclined downward from the outer sides of the protrusion, make the light emitted by the lamp body wider and more numerous through refraction, further improving the lighting brightness.
[0024] In some embodiments, the bottom of the storage tube is provided with a base, the base is provided with a plurality of battery slots, and a storage slot is formed between every two adjacent battery slots. A protective shell is fitted on the outer wall of the battery slot, and the protective shell covers the storage slot.
[0025] On the one hand, by setting several battery slots on the base, the height of the battery slots can be adjusted according to the number of batteries required during actual use, adapting to the different battery life requirements of outdoor lighting. Furthermore, a storage slot is formed between every two adjacent battery slots, which fully improves the space utilization of the outdoor lighting storage tube, reduces structural weight, and enhances convenience.
[0026] On the other hand, by covering the storage compartment with a protective shell on the outer wall of the battery compartment, the external aesthetics of the storage tube are improved, as well as the protective effect of the lighting strip inside the storage compartment when not in use.
[0027] In some embodiments, the storage tube includes:
[0028] The first circuit board is disposed within the base;
[0029] A plug-in interface is located on the outer wall of the base, and a charging port electrically connected to the first circuit board is built-in; and...
[0030] A sealing gasket is hinged to the outer wall of the base and is inserted into the insertion interface.
[0031] Several power indicator lights are mounted on the base and electrically connected to the first circuit board.
[0032] By setting an interface on the outer wall of the base, a charging interface electrically connected to the first circuit board inside the base is built into the interface, and a sealing gasket is hinged on the outer wall of the base. The interface is sealed by the mating of the sealing gasket and the interface, thereby achieving dust and rain protection for the charging interface. The remaining power of the lighting lamp is displayed by the light shining through the power indicator light, improving the convenience of use.
[0033] In some embodiments, the storage tube includes:
[0034] A through slot, provided on the base, connects to the storage slot; and...
[0035] A notch is formed on the outer wall of the base to connect to the through groove;
[0036] An elastic limiting buckle is provided on the inner wall of the notch, and the side wall of the support foot is engaged with the elastic limiting buckle for limiting.
[0037] By setting a base at the bottom of the main body, a through groove for the storage slot is opened on the base, and a notch for the through groove is set on the base. An elastic limit buckle is set on the inner wall of the notch. The side wall of the support foot and the elastic limit buckle are matched for limiting. When the support foot extends out of the storage slot and rotates into place, the limiting effect of the elastic limit buckle is used to improve the stability of the outdoor lighting lamp during use.
[0038] In some embodiments, the top of the telescopic rod is provided with a lamp holder, and a mounting groove is provided on the top of the rod, with mounting holes provided on both sides of the mounting groove.
[0039] The mounting groove is provided with a swinging component, and the rotating protrusions on both sides of the swinging component are inserted into the mounting hole, and the rotating protrusions rotate along the circumferential direction of the mounting hole.
[0040] The lighting strip is provided on the swing member, rotatably connected to the swing member, and rotates relative to the telescopic rod under the rotation of the swing member;
[0041] The swing component includes a first housing and a second housing, which are joined together to form a connection hole;
[0042] The lighting strip is provided with a rotating column, which extends through the connecting hole into the swing member. The lighting strip rotates relative to the swing member along the circumferential direction of the rotating column.
[0043] By installing a lamp holder at the top of the telescopic pole, with an installation groove in the lamp holder and installation holes on both sides of the groove, and utilizing the connection between the rotating protrusions on both sides of the swing member and the installation holes, the swing member can swing within the installation groove under the circumferential rotation of the rotating protrusions in the installation holes. This drives the lighting strip connected to the swing member to be stored in the storage groove or flipped out from the storage groove for use, improving the convenience of storage, carrying, and use of the outdoor lighting lamp. A rotating column is installed on the lighting strip, and the swing member is configured as a first shell and a second shell that are spliced together. When the first shell and the second shell are spliced together, a connecting hole is formed. The lighting strip is spliced into the connecting hole through the rotating column, thus connecting the lighting strip and the swing member. Furthermore, the lighting strip can rotate along the circumferential direction of the rotating column under the action of the rotating column, thereby adjusting the lighting angle of the lighting strip.
[0044] In some embodiments, a second circuit board is provided inside the lamp holder.
[0045] Damping rubber rings are fitted on both the rotating protrusion and the outer peripheral wall of the rotating column.
[0046] The rotating protrusion has a wire hole that leads to the interior of the lighting strip.
[0047] By fitting damping rubber rings on both the rotating protrusion and the outer peripheral wall of the rotating column, the damping effect of the damping rubber rings is used to position the swing angle of the light strip when the rotating protrusion is inserted into the rotating hole, and the damping effect of the damping rubber rings is used to position the rotation angle of the light strip when the rotating column rotates in the connecting hole, thereby improving the stability of the light strip in use and adjustment; and a wire hole is provided on the rotating protrusion so that the second circuit board in the lamp holder can be electrically connected to the light strip to control the lighting of the light strip.
[0048] Based on the above technical solution, this utility model has the following beneficial effects compared with the prior art:
[0049] By sliding the light strip into or out of the storage slot as it moves along the telescopic rod towards the storage cylinder, with the storage slot concealed by the outer wall of the cylinder, the brightness of the light strip gradually dims or brightens in response to changes in its position. This structure allows the lighting fixture to gradually adjust its brightness based on its depth within the storage slot, improving the convenience, adjustment range, and applicability of outdoor lighting brightness adjustment. Furthermore, the outer wall of the storage cylinder conceals the storage slot, enhancing the aesthetics of the storage cylinder and providing protection for the light strip within the storage slot. Attached Figure Description
[0050] Figure 1 This is a structural diagram of the present invention in its stored state;
[0051] Figure 2 This is a structural diagram of the present invention in use;
[0052] Figure 3 For the breakdown of this utility model Figure 1 ;
[0053] Figure 4 For the breakdown of this utility model Figure 2 ;
[0054] Figure 5 For the breakdown of this utility model Figure 3 ;
[0055] Figure 6 This is a schematic diagram of the base structure of this utility model;
[0056] Figure 7 This is a schematic diagram of the structure of the lighting strip of this utility model;
[0057] Figure 8 Disassembly of the lighting strip of this utility model Figure 1 ;
[0058] Figure 9 Disassembly of the lighting strip of this utility model Figure 2 ;
[0059] Figure 10 This is an exploded view of the lighting strip and lamp holder of this utility model.
[0060] Figure 11 This is a schematic diagram of the structure of the support foot of this utility model;
[0061] Figure 12 This is a cross-sectional view of the dismantled portion of the structure of this utility model.
[0062] Explanation of reference numerals in the attached figures:
[0063] 100. Storage tube; 110. Battery slot; 120. Base; 121. Through slot; 122. Notch; 123. Limiting surface; 124. Limiting buckle; 125. Insertion interface; 126. Charging interface; 127. Sealing gasket; 128. Groove; 129. Hook; 130. Storage slot; 140. First circuit board; 150. Power indicator light; 160. Top cover;
[0064] 200, Support foot; 210, Slot; 220, Sliding component; 230, Foot pad; 231, Support surface;
[0065] 300. Telescopic pole; 310. Spring wire;
[0066] 400. Lighting strip; 410. Strip body; 411. Rotating column; 412. Receiving groove; 413. Lamp body; 420. Lampshade; 421. Protrusion; 422. Bending section;
[0067] 500, Lamp holder; 510, Second circuit board; 520, Rotating slot; 530, Rotating hole; 540, Control button;
[0068] 600, Swinging component; 610, First housing; 620, Second housing; 630, Connecting hole; 640, Rotating protrusion; 650, Threading hole;
[0069] 700, Damping rubber ring. Detailed Implementation
[0070] To facilitate understanding of this utility model, the specific embodiments of this utility model will be described in more detail below with reference to the accompanying drawings.
[0071] Unless otherwise specified or defined, the terms "first," "second," etc., used in this document are for distinguishing names only and do not represent a specific number or order.
[0072] Unless otherwise specified or defined, the term “and / or” as used herein includes any and all combinations of one or more of the associated listed items.
[0073] It should be noted that in this article, "fixed to" or "connected to" can mean directly fixed to or connected to a component, or indirectly fixed to or connected to a component.
[0074] like Figure 1-11As shown, the outdoor lighting provided in this embodiment includes a storage tube 100. The bottom of the storage tube 100 is provided with a base 120. Several battery slots 110 for accommodating batteries are provided on the base 120. The tops of all battery slots 110 are connected by a top cover 160. In this embodiment, three battery slots 110 are preferably provided, and all battery slots 110 are arranged in a ring array along the center of the base 120, so that a storage groove 130 is formed between every two adjacent battery slots 110. The storage groove 130 extends along the axial direction of the storage tube 100 and its top penetrates the storage tube 100.
[0075] Furthermore, the storage tube 100 covers the storage slot 130, improving the appearance of the storage tube 100.
[0076] A telescopic rod 300 is provided inside the storage cylinder 100. A lamp holder 500 is connected to the top of the telescopic rod 300. Several lighting strips 400 are provided on the lamp holder 500. The lighting strips 400 rotate relative to the lamp holder 500 and are adjusted to be parallel to the axial direction of the storage cylinder 100 or to form an adjustable angle with the axial direction of the storage cylinder 100, so as to adjust the lighting range and illumination angle of the lighting strips 400.
[0077] The telescopic rod 300 slides relative to the storage cylinder 100 along the axial direction of the storage cylinder 100, moving away from or close to the storage cylinder 100. When the lighting strip 400 is parallel to the axial direction of the storage cylinder 100, it slides close to the storage cylinder 100 and into the storage slot 130, or moves away from the storage cylinder 100 and out of the storage slot 130. During the process of the lighting strip 400 sliding into or out of the storage slot 130, the brightness of the lighting strip 400 gradually dims or brightens in response to the change in its position.
[0078] When the lighting strip 400 is completely detached from the storage slot 130, the lighting strip 400 rotates relative to the telescopic rod 300, so that there is an adjustable angle between the lighting strip 400 and the axial direction of the storage cylinder 100, so as to adjust the illumination range of the lighting strip 400.
[0079] Each of the storage slots 130 is provided with a support foot 200, and the top of the support foot 200 is provided with a slider 220. A through groove 121 is opened on the base 120 to guide the storage slot 130. The support foot 200 enters and exits the storage slot 130 through the through groove 121, and the slider 220 can be adjusted within the storage slot 130. When the slider 220 is moved to the bottom of the storage slot 130, it is limited and cooperates with the base 120 to prevent the support foot 200 from completely leaving the storage slot 130.
[0080] The support foot 200 cooperates with the storage groove 130 to form a first state or a second state, and the sliding member 220 moves within the storage groove 130 to form a first position and a second position.
[0081] In the first state, the slider 220 is displaced from the first position to the second position and is limited to the bottom of the storage groove 130. The support foot 200 swings along the circumferential direction of the slider 220 and forms a first angle with the axial direction of the storage cylinder 100 or the axial direction of the storage cylinder 100. The support foot 200 extends outside the storage groove 130, forming an unfolded use state.
[0082] In the second state, the slider 220 is displaced from the second position to return to the first position and is limited by the top of the storage groove 130. The support foot 200 is stored in the storage groove 130, forming a storage state.
[0083] Specifically, a notch 122 is provided on the base 120 to guide the through groove 121. When the sliding member 220 is in a limited engagement with the base 120, the support foot 200 can be rotated so that the support foot 200 rotates in the circumferential direction of the sliding member 220, so that the support foot 200 rotates outward to form a first angle with the axial direction of the storage tube 100.
[0084] The top of the notch 122 has a limiting surface 123. When the support foot 200 rotates to the limiting surface 123, the support foot 200 is limited and engaged with the limiting surface 123, thereby improving the stability of the support foot 200 in use.
[0085] An elastic limiting buckle 124 is provided on the inner wall of the notch 122. When the support foot 200 rotates to the limiting surface 123, the outer wall of the support foot 200 is engaged with the elastic limiting buckle 124. The elastic force restricts the movement of the support foot 200 in the normal state. An external force needs to be applied to break through the elastic force to rotate the support foot 200 again, so as to prevent the support foot 200 from rotating on its own and destroying the support effect on the storage tube 100.
[0086] A foot pad 230 is provided at the bottom of the support foot 200, and a support surface 231 is formed at the bottom of the foot pad 230. A second included angle is formed between the support surface 231 and the support foot 200, and the second included angle is an obtuse angle.
[0087] Understandably, when the support foot 200 is fully retracted into the storage groove 130, the foot pad 230 is located within the notch 122, and its positioning within the storage groove 130 is achieved by means of hard friction.
[0088] The foot pad 230 can be made of hard plastic or metal.
[0089] Furthermore, the support foot 200 is hollow and has a slot 210. When the support foot 200 is stored in the storage slot 130, the lighting strip 400 slides into the slot 210 as the telescopic rod 300 slides, either moving closer to the storage tube 100 or moving away from the slot 210. This reduces the volume of the storage tube 100 and makes it easier to carry.
[0090] Understandably, when the support leg 200 is disengaged from the storage slot 130, the lighting strip 400 is directly located inside the storage slot 130.
[0091] A first circuit board 140 is provided inside the base 120. The battery in the battery slot 110 is electrically connected to the first circuit board 140. An insertion interface 125 is provided on the outer wall of the base 120. A charging interface 126 electrically connected to the first circuit board 140 is provided inside the insertion interface 125. A sealing gasket 127 is hinged to the outer wall of the base 120. The sealing gasket 127 is inserted and cooperates with the insertion interface 125 to realize the rainproof and dustproof of the charging interface 126.
[0092] The base 120 is provided with several power indicator lights 150, which are electrically connected to the first circuit board 140 and are used to display the remaining power of the battery.
[0093] A through hole corresponding to the power indicator light 150 is provided on the outer wall of the base 120 so that the light from the power indicator light can pass through the base 120 for observation.
[0094] Of course, a waterproof ring can also be installed inside the base 120 to improve its waterproof performance, thus meeting the requirement of reducing the risk of internal water ingress when used outdoors.
[0095] A second circuit board 510 is provided inside the lamp holder 500, which is electrically connected to the battery in the battery compartment 110 and / or the first circuit board 140. In this embodiment, the second circuit board 510 of the lighting strip 400 is electrically connected to the battery 111 in the battery compartment 110 and / or the first circuit board 140 by means of a spring wire or connecting cable through the telescopic rod 300.
[0096] The lamp holder 500 is provided with a rotating groove 520 corresponding to the number of storage slots 130. A swing member 600 is provided in the rotating groove 520. The lighting strip 400 is rotatably connected to the swing member 600. The swing member 600 drives the lighting strip 400 to rotate parallel to the axial direction of the storage cylinder 100 or to form an adjustable angle with the axial direction of the storage cylinder 100.
[0097] Specifically, rotating holes 530 are provided on both sides of the rotating groove 520 to connect the interior of the lamp holder 500. Rotating protrusions 640 are provided on both sides of the swing member 600. A wire hole 650 is provided on the rotating protrusion 640 so that the second circuit board 510 can pass through and enter the swing member 600 to be electrically connected to the lighting strip 400 connected to the swing member 600.
[0098] A damping rubber ring 700 is fitted on the outer peripheral wall of the rotating protrusion 640 to increase the rotational friction of the rotating protrusion 640, thereby limiting the rotation angle of the swing member 600 and improving the stability of the lamp strip angle adjustment.
[0099] The oscillating component 600 includes a first housing 610 and a second housing 620. The first housing 610 and the second housing 620 are joined together to form a connecting hole 630 and the rotating protrusion 640. A rotating post 411 is provided at the end of the light strip. The rotating post 411 is located in the connecting hole 630 under the joining of the first housing 610 and the second housing 620, and is used to drive the light strip to rotate in the circumferential direction of the rotating post 411, thereby adjusting the lighting angle of the light strip and thus adjusting the lighting direction.
[0100] The lamp holder 500 is provided with a number of control buttons 540 that are electrically connected to the second circuit board 510, so that the opening and closing of the lamp strip and the adjustment of the level can be realized through the control buttons 540 and the second circuit board 510.
[0101] The lighting strip 400 includes a strip body 410 and a lampshade 420. The strip body 410 has a receiving groove 412, within which are arranged a plurality of lamp bodies 413 for illumination. The lampshade 420 is disposed on the strip body 410 for transmitting light and shielding the receiving groove 412. On the side of the lampshade 420 facing the receiving groove 412, corresponding to the position of the lamp body 413, there is a protrusion 421 extending toward the lamp body 413. Both sides of the protrusion 421 are provided with a plurality of bent sections 422, each bent section 422 sloping downward from the outer sides of the protrusion 421. The protrusion 421 forms a convex mirror effect to concentrate light and improve illumination brightness. Combined with the plurality of bent sections 422 arranged on both sides of the protrusion 421 sloping downward from the outer sides of the protrusion 421, the light emitted by the lamp body 413 is widened and increased through refraction, further improving illumination brightness.
[0102] A groove 128 is provided at the bottom of the storage tube 100, and a hook 129 is provided in the groove 128. The hook 129 is hinged to the two side walls of the groove 128. When the user uses the outdoor light in the tent, the outdoor light can be hung on the top of the tent for lighting by using the hook 129, and the light will not be blocked by the storage tube 100, thus improving the lighting range and lighting quality.
[0103] refer to Figure 6 As shown, the two ends of the hook 129 are inserted into the grooves opened on the groove 128 and are hinged to the groove wall of the groove 128 by means of accessories. Of course, other structures in the prior art can also be used to achieve this, as long as the hook 129 can be hinged to the groove wall of the groove 128. It is not limited to the structure described in this application.
[0104] like Figure 12 As shown, a spring wire 310 is provided inside the telescopic rod 300 to enable the connection between the lighting strip 400 and the battery 111, thereby enabling the battery 111 to supply power to the lighting strip 400.
[0105] The outdoor lighting provided in this embodiment features a structure where the lighting strip 400 slides into or out of the storage slot 130 as it moves along the telescopic rod 300, approaching the storage cylinder 100. The storage slot 130 is concealed by the outer wall of the storage cylinder 100. This structure allows the brightness of the lighting strip 400 to gradually dim or brighten in response to changes in its position as it slides into or out of the storage slot 130. This enables the lighting fixture to gradually adjust its brightness based on its depth within the storage slot 130, improving the convenience, range, and applicability of brightness adjustment. Furthermore, the concealment of the storage slot 130 by the outer wall of the storage cylinder 100 enhances the aesthetic appearance of the storage cylinder 100 and provides better protection for the lighting strip 400 within the storage slot 130.
[0106] Based on the disclosure and teachings of the above specification, those skilled in the art can make changes and modifications to the above embodiments. Therefore, this utility model is not limited to the specific embodiments disclosed and described above, and some modifications and changes to this utility model should also fall within the protection scope of the claims of this utility model. Furthermore, although some specific terms are used in this specification, these terms are only for convenience of explanation and do not constitute any limitation on this utility model.
Claims
1. An outdoor lighting lamp characterized by, include: The storage tube (100) has several storage slots (130). The storage slots (130) extend along the axial direction of the storage tube (100) and penetrate the top of the storage tube (100). The outer wall of the storage tube (100) covers the storage slots (130). The telescopic rod (300) is located inside the storage tube (100) and slides relative to the storage tube (100) along the axial direction of the storage tube (100) away from the storage tube (100) or close to the storage tube (100) for storage. Several lighting strips (400) are provided on the top of the telescopic rod (300). As the telescopic rod (300) slides, the strips move closer to the storage cylinder (100) and slide into the storage slot (130) or away from the storage cylinder (100) and slide out of the storage slot (130). During the process of the lighting strips (400) sliding into or out of the storage slot (130), the brightness of the lighting strips (400) gradually dims or brightens in response to the change in their position. When the lighting strip (400) is completely detached from the storage slot (130), the lighting strip (400) rotates relative to the telescopic rod (300) to adjust the illumination range of the lighting strip (400).
2. The outdoor lighting lamp of claim 1, wherein, Each of the storage slots (130) is provided with a support foot (200), and each support foot (200) is provided with a slider (220). The slider (220) slides with the storage slot (130) to drive the support foot (200) to move along the axial direction of the storage cylinder (100) and be stored in the storage slot (130) or extend to the outside of the storage slot (130) to support the storage cylinder (100). The support foot (200) is hollow and forms a slot (210). When the support foot (200) is stored in the storage slot (130), the lighting strip (400) follows the sliding of the telescopic rod (300) and slides into the slot (210) or slides out of the slot (210) away from the storage cylinder (100).
3. The outdoor lighting lamp of claim 2, wherein, The support foot (200) cooperates with the storage groove (130) to form a first state or a second state, and the sliding member (220) moves within the storage groove (130) to form a first position and a second position; In the first state, the slider (220) is displaced from the first position to the second position and is limited to the bottom of the storage groove (130). The support foot (200) swings along the circumferential direction of the slider (220) and forms a first angle with the axial direction of the storage cylinder (100) or with the axial direction of the storage cylinder (100). The support foot (200) extends outside the storage groove (130) to form an unfolded use state. In the second state, the slider (220) is displaced from the second position to return to the first position and is limited by the top of the storage groove (130). The support foot (200) is stored in the storage groove (130) to form a storage state.
4. The outdoor lighting lamp of claim 3, wherein, The bottom end of the support foot (200) is provided with a foot pad (230), and the bottom of the foot pad (230) forms a support surface (231). A second included angle is formed between the support surface (231) and the support foot (200), and the second included angle is an obtuse angle.
5. The outdoor lighting fixture as described in any one of claims 1-4, characterized in that, The lighting strip (400) includes: The main body of the light strip (410) has a receiving groove (412), and a number of light bodies (413) are provided in the receiving groove (412). A lampshade (420) is provided on the main body of the lamp strip (410) to cover the receiving groove (412). On the side facing the receiving groove (412), a protrusion (421) extending towards the lamp body (413) is provided. Several bending segments (422) are provided on both sides of the protrusion (421). Each bending segment (422) is inclined downward from both sides of the protrusion (421).
6. The outdoor lighting fixture as described in any one of claims 2-4, characterized in that, The bottom of the storage tube (100) is provided with a base (120), and the base (120) is provided with a plurality of battery slots (110), and the storage slot (130) is formed between every two adjacent battery slots (110).
7. The outdoor lighting fixture as described in claim 6, characterized in that, The storage tube (100) includes: The first circuit board (140) is disposed inside the base (120); A plug-in interface (125) is provided on the outer wall of the base (120), and has a built-in charging port electrically connected to the first circuit board (140); and, The sealing gasket (127) is hinged to the outer wall of the base (120) and is inserted into the insertion interface (125); Several power indicator lights (150) are disposed on the base (120) and electrically connected to the first circuit board (140).
8. The outdoor lighting fixture as described in claim 6, characterized in that, The storage tube (100) includes: A through slot (121) is provided on the base (120) to connect to the storage slot (130); and, A notch (122) is formed on the outer wall of the base (120) to connect the through groove (121). An elastic limiting buckle (124) is provided on the inner wall of the notch (122), and the outer wall of the support foot (200) is limited and engaged with the elastic limiting buckle (124).
9. The outdoor lighting fixture as described in any one of claims 1-4, characterized in that, The top of the telescopic rod (300) is provided with a lamp holder (500), and the lamp holder (500) is provided with a mounting groove, and mounting holes are provided on both sides of the mounting groove. The mounting groove is provided with a swing member (600), and the rotating protrusions (640) on both sides of the swing member (600) are inserted into the mounting hole, and the rotating protrusions (640) rotate in the circumferential direction of the mounting hole. The swing member (600) includes a first housing (610) and a second housing (620), and the first housing (610) and the second housing (620) are joined together to form a connection hole (630). The lighting strip (400) is provided with a rotating column (411), which passes through the connecting hole (630) and extends into the swing member (600). The lighting strip (400) rotates relative to the swing member (600) along the circumferential direction of the rotating column (411).
10. The outdoor lighting fixture as described in claim 9, characterized in that, The lamp holder (500) contains a second circuit board (510). Damping rubber rings (700) are fitted on the outer peripheral walls of the rotating protrusion (640) and the rotating column (411). The rotating protrusion (640) has a wire hole (650) that is connected to the interior of the lighting strip (400).