Integrated structure of anti-slip and lighting for building staircases
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 卢存杰
- Filing Date
- 2025-08-23
- Publication Date
- 2026-06-30
Smart Images

Figure CN224431861U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of anti-slip lighting technology for building staircases, and more specifically, it relates to an integrated structure for anti-slip and lighting of building staircases. Background Technology
[0002] In the field of building safety, staircases, as the core component of the vertical transportation system, play a crucial role in connecting different floors and ensuring the efficient flow of people. Their safety performance is directly related to the life and property safety of building users. Among them, the anti-slip performance and nighttime lighting effect of staircases are two core safety elements. The two complement each other and jointly build a three-dimensional safety protection system.
[0003] Traditional anti-slip measures for stairs mainly rely on laying anti-slip tiles, attaching anti-slip strips, or applying anti-slip paint to the stair surface. While these methods can improve anti-slip performance to some extent, they have obvious drawbacks. For example, anti-slip tiles and strips will gradually wear down due to frequent foot traffic over a long period of time, resulting in a significant decrease in their anti-slip effect, and they are not easy to replace after wear. Anti-slip paint, on the other hand, is prone to peeling off, especially in humid or high-temperature environments, where its adhesion and durability are difficult to guarantee, requiring frequent repainting. This not only affects the normal use of the stairs but also increases the workload of maintenance. Utility Model Content
[0004] To address the aforementioned technical problems, this utility model provides an integrated structure for anti-slip and lighting of building staircases, thereby resolving the issue mentioned in the background art where the anti-slip structure is difficult to replace after wear.
[0005] This utility model's integrated anti-slip and lighting structure for building staircases is achieved through the following specific technical means:
[0006] The integrated structure for anti-slip and lighting of building staircases includes a mounting frame; the mounting frame has connecting holes on both sides of its top, and a mounting hole A is opened on the top of the mounting frame, and a mounting hole B is opened inside one side of the mounting frame; a placement groove is opened inside one side of the mounting frame, and the placement groove communicates with the mounting hole B; a connecting groove is opened inside the mounting frame, and the connecting groove is located on both sides of the placement groove, and the connecting groove communicates with the placement groove; threaded holes are opened inside the top side of the mounting frame, and the threaded holes are symmetrically arranged.
[0007] The mounting bracket is equipped with an anti-slip lighting component on its top inner side, and an auxiliary structure is fixedly installed inside one side of the mounting bracket, with a shielding component installed inside the placement slot; the anti-slip lighting component includes: a pedal, an anti-slip strip, and anti-slip transparent glass; the pedal is movably installed on the top inner side of the mounting bracket; the anti-slip strip is fixedly installed on the top of the pedal and is arranged in a straight line; the anti-slip transparent glass is fixedly installed inside the top side of the pedal and is arranged in two sets symmetrically.
[0008] Furthermore, the mounting bracket is equipped with a light strip inside, and round holes are provided on both sides of the light strip, and the light strip is located directly below the anti-slip transparent glass; an internal hexagon screw is provided inside the round hole, and the internal hexagon screw is set inside the threaded hole through a threaded connection.
[0009] Furthermore, the anti-slip lighting assembly also includes: a fixed base, a fixed rod, a connecting block, and a toggle block; the fixed base is fixedly disposed inside both sides of the pedal; the fixed rod is fixedly disposed inside the fixed base; the connecting block is slidably disposed between the inside of the fixed base and the outside of the fixed rod, and a spring is provided between the outside of the connecting block and the end of the fixed rod; the bottom of the end side of the connecting block is configured as a beveled structure, and the connecting block is slidably disposed inside the connecting hole; the toggle block is fixedly disposed on the top of the connecting block, and the toggle block is slidably disposed inside the top side of the fixed base; the toggle block is configured as a hollow structure, and the top of the toggle block is flush with the top of the pedal.
[0010] Furthermore, the auxiliary structure includes: a fixed cylinder, a glass plate, a fixed plate, a photosensitive sensor, and a human body sensor; the fixed cylinder is fixedly disposed inside one side of the mounting frame; the glass plate is fixedly disposed inside the fixed cylinder; the fixed plate is fixedly disposed inside the fixed cylinder; and the photosensitive sensor and the human body sensor are both fixedly disposed on one side of the fixed plate.
[0011] Furthermore, the auxiliary structure also includes: a control module and a timing module; the control module is fixedly installed inside the fixed cylinder, and the control module, the photosensitive sensor, and the human body induction sensor are all electrically connected, and the control module is electrically connected to the light strip; the timing module is fixedly installed on the other side of the fixed plate, and the timing module is electrically connected to the control module.
[0012] Furthermore, the shielding component includes: an elastic plate, a plug-in block, and a toggle bar; the elastic plate is movably disposed inside the placement groove and has a certain elasticity; the plug-in block is fixedly disposed on both sides of the elastic plate and is movably disposed inside the connecting groove; the toggle bar is fixedly disposed on the outside of the elastic plate and is arranged in a straight line.
[0013] Compared with the prior art, the present invention has the following beneficial effects:
[0014] 1. In this utility model, by providing a spring and a fixing rod, the connecting block can be automatically slid into the connecting hole, so that the pedal can be conveniently fixed to the inner side of the top of the mounting bracket; and when the anti-slip strip on the top of the pedal is damaged, it can be easily disassembled and replaced.
[0015] 2. In this utility model, by setting anti-slip strips arranged in a straight line on the top of the pedal and symmetrically setting anti-slip transparent glass on the inside of the top side of the pedal, the friction of the pedal surface is greatly increased, effectively preventing users from slipping when walking on the stairs. It is especially suitable for humid environments or emergency evacuation situations, providing reliable protection for personnel safety.
[0016] 3. In this utility model, a light strip is installed inside the mounting bracket, and the light strip is located directly below the anti-slip transparent glass. This ingenious design allows the light to shine through the anti-slip transparent glass and evenly illuminate the stair treads, providing sufficient lighting for users to walk at night or in low-light environments, avoiding accidents caused by poor visibility, and improving the convenience and safety of using the stairs.
[0017] 4. In this utility model, the photosensitive sensor and human body sensor set in the auxiliary structure can sense the ambient light intensity and human activity in real time and transmit the signals to the control module; the control module automatically controls the switching and brightness of the light strip according to the received signals to realize intelligent lighting control; the light strip is automatically turned off when there is sufficient light to save energy; the light strip is automatically turned on when people approach and automatically turned off according to the time set by the timing module after people leave, avoiding unnecessary energy waste.
[0018] 5. In this utility model, by providing an elastic plate, a plug-in block, and a connecting groove, the elastic plate can be conveniently fixed in the placement groove, thereby making the elastic plate cover the two sets of mounting holes B, enhancing the aesthetics of the integrated anti-slip and lighting structure. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model.
[0020] Figure 2 This is a schematic diagram of the upper surface structure of the mounting bracket of this utility model.
[0021] Figure 3 This is a cross-sectional structural diagram of the pedal of this utility model.
[0022] Figure 4 This is a schematic diagram of the internal structure of the fixing base of this utility model.
[0023] Figure 5 This is a schematic diagram of the shielding component of this utility model.
[0024] Figure 6 This is a schematic diagram of the internal structure of the fixed cylinder of this utility model.
[0025] Figure 7 This is a system block diagram of the auxiliary structure of this utility model.
[0026] In the diagram, the correspondence between component names and drawing numbers is as follows:
[0027] 1. Mounting bracket; 101. Connecting hole; 102. Mounting hole A; 103. Mounting hole B; 104. Placement slot; 105. Connecting slot; 106. Threaded hole; 107. Light strip; 108. Round hole; 109. Socket head screw;
[0028] 2. Anti-slip lighting assembly; 201. Pedal; 202. Anti-slip strip; 203. Anti-slip transparent glass; 204. Fixing base; 205. Fixing rod; 206. Connecting block; 207. Actuating block;
[0029] 3. Auxiliary structures; 301. Fixing cylinder; 302. Glass plate; 303. Fixing plate; 304. Photosensitive sensor; 305. Human body sensor; 306. Control module; 307. Timing module;
[0030] 4. Shielding assembly; 401. Flexible plate; 402. Connecting block; 403. Toggle bar. Detailed Implementation
[0031] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples.
[0032] Example 1: As shown in the attached document Figure 1 To be continued Figure 7 As shown:
[0033] This utility model provides an integrated structure for anti-slip and lighting of building stairs, including a mounting bracket 1; the mounting bracket 1 has connecting holes 101 on both sides of its top, and a mounting hole A102 on its top, and a mounting hole B103 inside one side of its interior; a placement groove 104 inside one side of its interior, and the placement groove 104 communicates with the mounting hole B103; a connecting groove 105 inside the mounting bracket 1, located on both sides of the placement groove 104, and communicating with the placement groove 104; and threaded holes 106 inside the top side of the mounting bracket 1, and the threaded holes 106 are symmetrically arranged.
[0034] In this embodiment, an anti-slip lighting component 2 is provided on the inner side of the top of the mounting bracket 1, and an auxiliary structure 3 is fixedly provided inside one side of the mounting bracket 1. A shielding component 4 is provided inside the placement groove 104. The anti-slip lighting component 2 includes: a pedal 201, anti-slip strips 202, and anti-slip transparent glass 203. The pedal 201 is movably disposed on the inner side of the top of the mounting bracket 1. The anti-slip strips 202 are fixedly disposed on the top of the pedal 201, and the anti-slip strips 202 are arranged in a straight line. The anti-slip transparent glass 203... The anti-slip transparent glass 203 is fixedly installed inside the top side of the pedal 201, and two sets are symmetrically arranged; the mounting bracket 1 is provided with a light strip 107, and the light strip 107 has round holes 108 on both sides, and the light strip 107 is located directly below the anti-slip transparent glass 203; the round holes 108 are provided with hexagonal socket screws 109, and the hexagonal socket screws 109 are threaded into the threaded holes 106; the anti-slip lighting assembly 2 also includes: a fixing base 204, a fixing rod 205, and a fixing seat 204. The connecting block 206 and the actuating block 207 are provided; the fixed base 204 is fixedly installed inside both sides of the pedal 201; the fixed rod 205 is fixedly installed inside the fixed base 204; the connecting block 206 is slidably installed between the inside of the fixed base 204 and the outside of the fixed rod 205, and a spring is provided between the outside of the connecting block 206 and the end of the fixed rod 205; the bottom of the end side of the connecting block 206 is set with a beveled structure, and the connecting block 206 is slidably installed inside the connecting hole 101; the actuating block 207 is fixedly installed on the top of the connecting block 206, and the actuating block 207 is slidably installed inside the top side of the fixed base 204; the actuating block 207 is set with a hollow structure, and the top of the actuating block 207 is flush with the top of the pedal 201; its specific function is: by setting anti-slip strips 202 arranged in a straight line on the top of the pedal 201, and symmetrically setting anti-slip transparent glass 203 inside the top side of the pedal 201, the friction of the surface of the pedal 201 is greatly increased, effectively preventing users from slipping when walking on the stairs.
[0035] Example 2: As shown in the attached document Figure 6 With appendix Figure 7As shown: Based on Embodiment 1, the auxiliary structure 3 includes: a fixed cylinder 301, a glass plate 302, a fixed plate 303, a photosensor 304, a human body sensor 305, a control module 306, and a timing module 307; the fixed cylinder 301 is fixedly disposed inside one side of the mounting bracket 1; the glass plate 302 is fixedly disposed inside the fixed cylinder 301; the fixed plate 303 is fixedly disposed inside the fixed cylinder 301; the photosensor 304 and the human body sensor 305 are both fixedly disposed on one side of the fixed plate 303; the control module 306 is fixedly disposed inside the fixed cylinder 301, and the control module 306 and the photosensor 304 are fixedly disposed inside the human body sensor 307. All sensors 305 are electrically connected, and the control module 306 is electrically connected to the light strip 107. The timing module 307 is fixedly mounted on the other side of the fixing plate 303 and is electrically connected to the control module 306. Its specific function is as follows: the photosensitive sensor 304 and the human body sensor 305 set in the auxiliary structure 3 can sense the ambient light intensity and human activity in real time and transmit the signals to the control module 306. The control module 306 automatically controls the switching and brightness of the light strip 107 according to the received signals to realize intelligent lighting control. The light strip 107 is automatically turned off when there is sufficient light to save energy.
[0036] Example 3: As shown in the attached document Figure 1 With appendix Figure 5 As shown: Based on Embodiment 1 and Embodiment 2, the shielding component 4 includes: an elastic plate 401, a plug-in block 402, and a toggle bar 403; the elastic plate 401 is movably disposed inside the placement groove 104, and the elastic plate 401 has a certain elasticity; the plug-in block 402 is fixedly disposed on both sides of the elastic plate 401, and the plug-in block 402 is movably disposed inside the connecting groove 105; the toggle bar 403 is fixedly disposed on the outside of the elastic plate 401, and the toggle bar 403 is arranged in a straight line; its specific function is: by providing the elastic plate 401, the plug-in block 402, and the connecting groove 105, the elastic plate 401 can be conveniently fixed in the placement groove 104, thereby making the elastic plate 401 shield the two sets of mounting holes B103, enhancing the aesthetics of the integrated anti-slip and lighting structure.
[0037] The specific usage and function of this embodiment are as follows:
[0038] In this utility model, during use, the mounting bracket 1 is placed at a preset position on the stair step and fixed by expansion bolts through mounting holes A102 and B103; the light strip 107 is placed inside the mounting bracket 1, aligning the round holes 108 on both sides of the light strip 107 with the threaded holes 106 on the top side of the mounting bracket 1, and fixed by hexagonal screws 109 and threaded holes 106; the pedal 201 is placed on top of the mounting bracket 1, and then the pedal 201 is pressed down, causing the mounting bracket 1 to press against the connecting block 206, and the connecting block 206 slides into the fixing seat 204 using the beveled end structure; when the pedal 201 is fully slid into the mounting bracket 1, the spring element drives the connecting block 206 to slide into the connecting hole 101, so that the pedal 201 is fixed to the top of the mounting bracket 1; then the elastic plate 401 is fully extended, and the two sets of plug-in blocks 402 are slid into the connecting groove 105 respectively, so that the elastic plate 401 is fixed in the placement groove 104, and the two sets of mounting holes B103 are fixed in the placement groove 104. When the ambient light is insufficient, such as at night, the photosensitive sensor 304 detects that the light intensity is lower than the set threshold and sends a signal to the control module 306, causing the light strip 107 to automatically light up. The light shines through the anti-slip transparent glass 203 to evenly illuminate the surface of the step 201. When a person approaches the stairs, the human body sensor 305 detects human activity, and the control module 306 keeps the light strip 107 lit. After the person leaves, the timing module 307 starts a countdown. After the countdown ends, the light strip 107 automatically turns off to avoid energy waste. When the ambient light intensity is higher than the preset threshold, the photosensitive sensor 304 sends an inhibition signal to the control module 306. At this time, even if the human body sensor 305 detects a person approaching, the control module 306 still keeps the light strip 107 in the off state. The anti-slip strip 202 and the anti-slip transparent glass 203 at the top of the step 201 have high friction, which can effectively prevent slipping even in wet environments or emergencies, ensuring walking safety.
Claims
1. A building stair anti-skid and lighting integrated structure, characterized in that, include: Mounting bracket (1); the mounting bracket (1) has connecting holes (101) on both sides of its top, and mounting holes A (102) on its top, and mounting holes B (103) on one side of its interior; a placement groove (104) is provided on one side of the mounting bracket (1), and the placement groove (104) communicates with the mounting hole B (103); a connecting groove (105) is provided inside the mounting bracket (1), and the connecting groove (105) is located on both sides of the placement groove (104), and the connecting groove (105) communicates with the placement groove (104); a threaded hole (106) is provided inside the top side of the mounting bracket (1), and the threaded holes (106) are symmetrically arranged; The mounting bracket (1) is provided with an anti-slip lighting component (2) on the inner side of the top, and an auxiliary structure (3) is fixedly provided inside one side of the mounting bracket (1), and a shielding component (4) is provided inside the placement slot (104); the anti-slip lighting component (2) includes: a pedal (201), an anti-slip strip (202) and an anti-slip transparent glass (203). The pedal (201) is movably installed on the inner side of the top of the mounting bracket (1); the anti-slip strip (202) is fixedly installed on the top of the pedal (201), and the anti-slip strip (202) is arranged in a straight line; the anti-slip transparent glass (203) is fixedly installed on the inner side of the top of the pedal (201), and there are two sets of anti-slip transparent glass (203) arranged symmetrically.
2. The integrated anti-slip and lighting structure for building staircases according to claim 1, characterized in that: The mounting bracket (1) is provided with a light strip (107) inside, and round holes (108) are provided on both sides of the light strip (107), and the light strip (107) is located directly below the anti-slip transparent glass (203); a hexagonal screw (109) is provided inside the round hole (108), and the hexagonal screw (109) is provided inside the threaded hole (106) by threaded connection.
3. The integrated anti-slip and lighting structure for building staircases according to claim 1, characterized in that: The anti-slip lighting assembly (2) further includes: a fixed base (204), a fixed rod (205), a connecting block (206), and a toggle block (207); the fixed base (204) is fixedly installed inside both sides of the pedal (201); the fixed rod (205) is fixedly installed inside the fixed base (204); the connecting block (206) is slidably installed between the inside of the fixed base (204) and the outside of the fixed rod (205), and a spring is provided between the outside of the connecting block (206) and the end of the fixed rod (205); the bottom of the end side of the connecting block (206) is set as a beveled structure, and the connecting block (206) is slidably installed inside the connecting hole (101); the toggle block (207) is fixedly installed on the top of the connecting block (206), and the toggle block (207) is slidably installed inside the top side of the fixed base (204); the toggle block (207) is set as a hollow structure, and the top of the toggle block (207) is flush with the top of the pedal (201).
4. The integrated anti-slip and lighting structure for building staircases according to claim 2, characterized in that: The auxiliary structure (3) includes: a fixed cylinder (301), a glass plate (302), a fixed plate (303), a photosensitive sensor (304), and a human body sensor (305); the fixed cylinder (301) is fixedly installed inside one side of the mounting frame (1); the glass plate (302) is fixedly installed inside the fixed cylinder (301); the fixed plate (303) is fixedly installed inside the fixed cylinder (301); the photosensitive sensor (304) and the human body sensor (305) are both fixedly installed on one side of the fixed plate (303).
5. The integrated anti-slip and lighting structure for building staircases according to claim 4, characterized in that: The auxiliary structure (3) further includes: a control module (306) and a timing module (307); the control module (306) is fixedly installed inside the fixed cylinder (301), and the control module (306), the photosensitive sensor (304), and the human body sensor (305) are all electrically connected, and the control module (306) is electrically connected to the light strip (107); the timing module (307) is fixedly installed on the other side of the fixed plate (303), and the timing module (307) is electrically connected to the control module (306).
6. The integrated anti-slip and lighting structure for building staircases according to claim 1, characterized in that: The shielding component (4) includes: an elastic plate (401), a plug-in block (402), and a toggle bar (403); the elastic plate (401) is movably disposed inside the placement groove (104), and the elastic plate (401) has a certain elasticity; the plug-in block (402) is fixedly disposed on both sides of the elastic plate (401), and the plug-in block (402) is movably disposed inside the connecting groove (105); the toggle bar (403) is fixedly disposed on the outside of the elastic plate (401), and the toggle bar (403) is arranged in a straight line.