Ice-built landscape brightening slot type inlay device

By setting intersecting light troughs and positioning slots within the ice-built landscape structure, combined with positioning rods and limiting components, the problem of light strip slippage and detachment caused by heat energy was solved, achieving stable fixation of the light strips, reducing maintenance costs and improving the reliability of the lighting system.

CN224465552UActive Publication Date: 2026-07-07HEILONGJIANG PROVINCIAL CONSTR ENG GRP CO

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HEILONGJIANG PROVINCIAL CONSTR ENG GRP CO
Filing Date
2025-08-22
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In traditional methods of lighting ice-built landscapes, the heat released by the light strips during operation causes parts of the ice-built landscape to melt, creating gaps. This leads to the light strips sliding and falling off longitudinally, and in severe cases, the light strips may even fall off completely, increasing maintenance costs.

Method used

The ice-built landscape lighting trough-type inlay device is adopted. By setting intersecting light troughs and positioning grooves within the ice-built landscape structure, the light strips and positioning rods are fixed by filling the trough material. The positioning rods and wavy positioning plates are used to enhance the fixation, and the height of the light strips is adjusted by connecting ropes and limiting components to reduce sliding displacement.

Benefits of technology

It effectively reduces the sliding displacement and detachment of light strips within the ice-built landscape structure, improves the reliability and durability of the lighting system, reduces maintenance costs, and provides high-quality lighting effects.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to outdoor ice building landscape brightening engineering technical field, concretely relates to a kind of ice building landscape brightening channel type inlay device, including ice building landscape structure, and ice building landscape structure inside inlay has lamp strip and multiple positioning rods, lamp strip and positioning rod are connected, and lamp strip and positioning rod are cross arrangement, lamp groove and the positioning groove that are cross arrangement are set up in ice building landscape structure on, lamp strip is installed in the inside of lamp groove, positioning rod is installed in the inside of positioning groove, and the inside of lamp groove and positioning groove is filled with wire slot filling material, both ends of positioning rod are fixedly connected with wave-shaped positioning sheet, and the position of positioning groove end portion is set up in ice building landscape structure on Expansion slot, and wave-shaped positioning sheet is located in the inside of Expansion slot.The utility model can greatly reduce the phenomenon that lamp strip longitudinal slip, fall off, reduce the phenomenon that lamp strip is damaged due to lamp strip longitudinal slip, fall off, reduce maintenance cost.
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Description

Technical Field

[0001] This utility model belongs to the technical field of outdoor ice-building landscape lighting engineering, specifically relating to an ice-building landscape lighting trough-type inlay device. Background Technology

[0002] With the booming development of ice and snow tourism and cultural industries, ice-built landscapes, as a distinctive winter tourism resource in northern China, rely heavily on lighting effects to enhance their attractiveness and visitor experience.

[0003] Traditional methods of illuminating ice-based landscapes cause the surrounding area of ​​the ice structure to melt due to the heat released by the light strips during operation. This creates gaps between the ice structure and the light strips, making it easy for the vertical light strips to slide downwards under gravity, and in severe cases, even detach from the structure. Utility Model Content

[0004] The purpose of this utility model is to provide a grooved inlay device for lighting landscapes in ice-building, which can greatly reduce the phenomenon of longitudinal slippage and detachment of light strips, reduce the damage to light strips caused by longitudinal slippage and detachment, and reduce maintenance costs.

[0005] The specific technical solution adopted by this utility model is as follows:

[0006] A lighting trough-type inlay device for ice-built landscapes includes an ice-built landscape structure, in which light strips and multiple positioning rods are inlaid, and the light strips and positioning rods are connected.

[0007] Furthermore, the light strip and the positioning rod are arranged in a crisscross pattern.

[0008] Furthermore, the ice-building landscape structure has light troughs and positioning slots that intersect with the light troughs. The light strips are installed inside the light troughs, and the positioning rods are installed inside the positioning slots. Both the light troughs and the positioning slots are filled with wire groove filling material.

[0009] Furthermore, both ends of the positioning rod are fixedly connected with wavy positioning pieces.

[0010] Furthermore, the ice-building landscape structure has a flared groove at the end of the positioning groove, and the wave-shaped positioning piece is located inside the flared groove.

[0011] Furthermore, both the positioning rod and the wavy positioning piece are made of colorless and transparent material.

[0012] Furthermore, the positioning rod and the light strip are connected by a connecting rope.

[0013] Furthermore, a through hole is provided in the middle of the positioning rod, the connecting rope passes through the through hole of the positioning rod, and a limiting member is fixedly connected to the outside of the connecting rope. The limiting member can be locked at different positions on the outside of the connecting rope.

[0014] Furthermore, the limiting component includes an outer cylinder, a return spring is fixedly connected inside the outer cylinder, a slider is fixedly connected to one end of the return spring, the slider is slidably connected inside the outer cylinder, a first through groove is provided on the outer cylinder, a second through groove corresponding to the first through groove is provided on the slider, and the connecting rope is inserted into the first through groove and the second through groove.

[0015] The technical effects achieved by this utility model are as follows:

[0016] This utility model discloses a channel-type inlay device for lighting ice-building landscapes. By using positioning rods to limit the position of the light strips, it reduces the sliding displacement of the light strips within the ice-building landscape structure. This reduces the displacement and detachment of the light strips within the ice-building landscape structure, enhances the reliability and durability of the lighting system, and greatly reduces the cost of frequent repairs and replacements of light strips and related accessories due to longitudinal slippage and detachment of the light strips. It also lowers maintenance costs and provides high-quality lighting effects for ice-building landscapes. Attached Figure Description

[0017] Figure 1 This is a partial structural schematic diagram of the present invention;

[0018] Figure 2 This is a schematic diagram of the structure of the lamp slot and positioning slot of this utility model;

[0019] Figure 3 This is a partial sectional side view of the structure of this utility model;

[0020] Figure 4 This is a top view of a partially sectional structure of this utility model;

[0021] Figure 5 This is a schematic diagram of the combined structure of the positioning rod, light strip, limiting component and connecting rope of this utility model;

[0022] Figure 6 This is a schematic diagram of the structure of the connecting rope of this utility model;

[0023] Figure 7 This is a structural schematic diagram of the limiting component of this utility model;

[0024] Figure 8 This is a cross-sectional structural diagram of the limiting component of this utility model;

[0025] Figure 9 This is a construction process flow chart for this utility model.

[0026] The attached diagram lists the components represented by each number as follows:

[0027] 1. Ice-built landscape structure; 2. Light trough; 3. Positioning groove; 4. Flared groove; 5. Trough filling material; 6. Positioning rod; 7. Wave-shaped positioning piece; 8. Light strip; 9. Limiting component; 10. Connecting rope; 11. Outer cylinder; 12. Slider; 13. Return spring; 14. First through groove; 15. Second through groove. Detailed Implementation

[0028] To make the objectives and advantages of this utility model clearer, the following detailed description is provided in conjunction with embodiments. It should be understood that the following text is merely used to describe one or more specific embodiments of this utility model and does not strictly limit the scope of protection specifically claimed by this utility model.

[0029] like Figures 1-9 As shown, an ice-building landscape lighting trough-type inlay device includes an ice-building landscape structure 1. The ice-building landscape structure 1 is inlaid with a lighting system light strip 8 and multiple positioning rods 6. The light strip 8 and the positioning rods 6 are connected, so that the positioning rods 6 can limit the light strip 8, reduce the sliding displacement of the light strip 8 inside the ice-building landscape structure 1, and effectively maintain the stability of the light strip 8.

[0030] In some implementations, the light strip 8 and the positioning rod 6 are arranged in a cross configuration, such as an angle of 25° to 55° between the light strip 8 and the positioning rod 6, specifically 30°. When the light strip 8 is turned on, if the heat released by the light strip 8 melts the ice around the light strip 8, causing a gap between the light strip 8 and the ice-built landscape structure 1, the positioning rod 6 can be used as a cold-resistant fixing component to limit the light strip 8, reducing the sliding displacement of the light strip 8 inside the ice-built landscape structure 1. This reduces the displacement and detachment of the light strip 8 inside the ice-built landscape structure 1, enhances the reliability and durability of the lighting system, and greatly reduces the cost of frequent maintenance and replacement of the light strip 8 and related accessories due to longitudinal slippage and detachment of the light strip 8, thereby reducing maintenance costs and providing high-quality lighting effects for the ice-built landscape.

[0031] like Figures 1-4As shown, in some embodiments, the ice-building landscape structure 1 has a light trough 2 and a positioning groove 3 intersecting with the light trough 2. The light strip 8 is installed inside the light trough 2, and the positioning rod 6 is installed inside the positioning groove 3. The interior of the light trough 2 and the positioning groove 3 are filled with wire groove filling material 5 for fixing the light strip 8 and the positioning rod 6. The construction of the light trough 2, the positioning groove 3 and the wire groove filling material 5 is relatively simple and can improve construction efficiency. Since the light strip 8 is fixedly connected to the interior of the ice-building landscape structure 1 through the positioning rod 6 and the wire groove filling material 5, it does not directly contact the ice-building landscape structure 1, which can reduce the phenomenon of heat energy released by the light strip 8 being conducted into the interior of the ice-building landscape structure 1, reduce heat conduction, and further reduce the melting phenomenon caused by heat in the part of the ice-building landscape structure 1 located around the light strip 8. The stable mechanical structure resists the longitudinal slippage of the light strip 8.

[0032] Specifically, the light trough 2 can be designed according to the shape of the light strip 8 in the lighting system.

[0033] In some further embodiments, both ends of the positioning rod 6 are fixedly connected with wavy positioning pieces 7. The wavy positioning pieces 7 can improve the stability of the positioning rod 6 inside the ice-building landscape structure 1 and reduce the displacement of the positioning rod 6 inside the positioning groove 3, thereby further reducing the displacement of the light strip 8 inside the light groove 2.

[0034] In some further embodiments, a flared groove 4 is provided at the end of the positioning groove 3 on the ice-building landscape structure 1, and a wave-shaped positioning piece 7 is located inside the flared groove 4. By setting the flared groove 4, the opening width of the positioning groove 3 only needs to be greater than the diameter of the positioning rod 6, thereby reducing the opening size of the positioning groove 3. The inside of the flared groove 4 can also be filled with wire groove filling material 5 to fix the wave-shaped positioning piece 7.

[0035] In some implementations, both the positioning rod 6 and the wavy positioning piece 7 are made of colorless and transparent material, such as colorless plastic, which can reduce the impact of the positioning rod 6 and the wavy positioning piece 7 on the aesthetics of the ice-building landscape.

[0036] like Figures 1-2 and Figures 4-6 As shown, in some embodiments, the positioning rod 6 and the light strip 8 are connected by a connecting rope 10. In this case, when the light strip 8 is arranged vertically, the height of the light strip 8 can be easily and quickly adjusted by adjusting the length of the connecting rope 10 between the positioning rod 6 and the light strip 8. This simplifies the installation process and allows the elevation of the light strip 8 to be quickly adjusted to the ideal state, meeting the needs of different ice building shapes and lighting designs.

[0037] like Figures 4-6As shown, in some further embodiments, a through hole is provided in the middle of the positioning rod 6, and the connecting rope 10 passes through the through hole of the positioning rod 6. A limiting member 9 is fixedly connected to the outside of the connecting rope 10. The limiting member 9 can be locked at different positions on the outside of the connecting rope 10. By moving the connecting rope 10 outside the limiting member 9, the length of the connecting rope 10 between the positioning rod 6 and the light strip 8 can be adjusted relatively easily.

[0038] like Figures 6-8 As shown, one structure of the limiting member 9 is disclosed herein. The limiting member 9 includes an outer cylinder 11, a return spring 13 is fixedly connected inside the outer cylinder 11, a slider 12 is fixedly connected to one end of the return spring 13, the slider 12 is slidably connected inside the outer cylinder 11, a first through groove 14 is provided on the outer cylinder 11, a second through groove 15 corresponding to the first through groove 14 is provided on the slider 12, and a connecting rope 10 is inserted into the first through groove 14 and the second through groove 15.

[0039] When the limiting member 9 needs to be moved, the slider 12 is pressed to align the first through groove 14 and the second through groove 15, so that the connecting rope 10 can move inside the first through groove 14 and the second through groove 15. After the limiting member 9 has moved, the slider 12 is released, and the slider 12 automatically resets under the pushing force of the return spring 13, so that the inner walls of the first through groove 14 and the second through groove 15 squeeze and fix the connecting rope 10.

[0040] like Figure 9 As shown, the construction process of an ice-building landscape lighting trough-type inlay device includes the following steps:

[0041] Step 1: Material Preparation

[0042] Prepare all necessary materials according to the design requirements and construction schedule, including cold-resistant fasteners, LED strips, and other auxiliary materials.

[0043] The materials and equipment prepared in step one are shown in the table below:

[0044]

[0045] Step Two: Positioning and Laying Out Lines, Ice Construction

[0046] Based on the design drawings, the construction workers laid out and positioned the outline of the ice structure, and then began to build the ice structure from the foundation. Using cranes or manual labor, the ice blocks were stacked one by one according to the predetermined structural sequence, ensuring that each block fit tightly together to form a stable overall structure.

[0047] Step 3: Ice surface cleaning

[0048] Remove snow, debris, dust, and uneven ice crystals from the ice surface. Ensure the ice surface is clean and flat to provide a stable and accurate working surface for laying out lines and other operations.

[0049] Step 4: Laying out the lines

[0050] According to the design drawings, the positions and directions of the light troughs 2, positioning troughs 3, etc. are accurately marked on the cleared ice surface.

[0051] Step 5: Grooving

[0052] According to the determined groove positions, specialized ice cutting equipment such as ice saws and ice planers are used to cut the grooves. The depth and width of the grooves need to be determined based on the dimensions of the light strip 8 and the positioning rod 6 to ensure that the groove can firmly accommodate the light strip 8 and related components, while not excessively weakening the ice structure. The positioning groove 3 and the light groove 2 intersect at an angle.

[0053] Step Six: Clean the tank

[0054] After the grooving is completed, immediately clean the ice chips and residual impurities in the grooving thoroughly.

[0055] Step 7: Wiring

[0056] After the trench cleaning is completed and the materials are ready, the wiring work begins. Using the positioning rods 6, the light strips 8 are carefully laid along the designed route of the light trench 2. The positioning rods 6 are spaced approximately 500mm apart.

[0057] Step 8: Filling the grooves

[0058] After the LED strip 8 is wired, the groove is filled with the pre-prepared groove filling material 5.

[0059] Step Nine: Continue building the ice structure until the finished product is complete.

[0060] Continue building and enriching the details until it becomes a finished piece of ice art.

[0061] The quality control standards for the construction process of the ice-building landscape lighting trough-type inlay device are as follows:

[0062] General Specification for Construction Scaffolding (GB55023-2022)

[0063] Technical Standard for Ice and Snow Landscape Architecture (GB512202-2016)

[0064] The key points of quality control standards are:

[0065] During the grooving process, it is important to control the cutting speed and force to ensure the flatness and verticality of the groove wall and reduce unnecessary damage to the ice.

[0066] The LED strip 8 should be firmly and reliably fixed, without any loosening, displacement, or falling off. The light-emitting surface of the LED strip 8 should be flush with the surface of the groove, and the light brightness should be uniform without obvious light spots, shadows, or flickering.

[0067] Ensure the slot width, depth, and slot spacing of the fixed adjustable device.

[0068] The safety measures for the construction process of the ice-building landscape lighting trough-type inlay device are as follows:

[0069] Provide construction workers with complete and necessary safety protective equipment, such as cold-proof clothing, non-slip shoes, safety helmets, gloves, and goggles, to ensure that construction workers can work safely in cold environments. The protective equipment should meet the relevant national standards and be inspected and replaced regularly to ensure that its protective performance is good.

[0070] Before construction, all construction equipment must be thoroughly inspected and maintained to ensure that the equipment is in good working order and safe and reliable. In particular, insulation performance tests must be conducted on electrical equipment and power tools to prevent safety accidents caused by equipment failure. It is strictly forbidden to use equipment with potential safety hazards for construction.

[0071] Clear safety warning signs and protective facilities, such as fences, warning lights, and anti-slip mats, should be set up at the construction site to close and isolate dangerous areas and prevent unauthorized personnel from entering. The inspection and supervision of the construction site should be strengthened, and unsafe behaviors of construction workers should be corrected and dealt with in a timely manner to ensure the safety and order of the construction site. At the same time, the construction sequence and working time should be reasonably arranged to avoid construction workers working continuously for a long time in low-temperature environments and to prevent safety accidents caused by fatigue and cold.

[0072] If hot work is required, a hot work permit must be obtained, and effective fire prevention measures must be taken to ensure fire safety during the construction process.

[0073] The environmental protection measures for the construction process of the Bingjian landscape lighting trough-type inlay device are as follows:

[0074] Prioritize the use of environmentally friendly and recyclable materials to reduce long-term potential harm to the environment.

[0075] In ice cutting, carving and other construction operations, advanced low-dust and low-noise equipment is used to reduce dust and noise pollution.

[0076] During construction, energy-efficient construction equipment and lighting tools should be used as much as possible to reduce energy consumption and greenhouse gas emissions.

[0077] Recyclable waste is collected in a special way and regularly sent to recycling stations for recycling and processing, so as to realize the recycling of resources.

[0078] The above description is merely a preferred embodiment of this utility model. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of this utility model, and these improvements and modifications should also be considered within the scope of protection of this utility model. Structures, devices, and operating methods not specifically described or explained in this utility model, unless otherwise specified or limited, shall be implemented using conventional methods in the field.

Claims

1. A type of trough-shaped inlay device for lighting ice-built landscapes, characterized in that: The ice-built landscape structure (1) includes an ice-built landscape structure (1) with an embedded light strip (8) and multiple positioning rods (6), the light strip (8) and the positioning rods (6) being connected.

2. The ice-building landscape lighting trough-type inlay device according to claim 1, characterized in that: The light strip (8) and the positioning rod (6) are arranged in a cross pattern.

3. The ice-building landscape lighting trough-type inlay device according to claim 2, characterized in that: The included angle between the light strip (8) and the positioning rod (6) is 25°~55°.

4. The ice-building landscape lighting trough-type inlay device according to claim 1, characterized in that: The ice-building landscape structure (1) has a light trough (2) and a positioning groove (3) that intersects with the light trough (2). The light strip (8) is installed inside the light trough (2), and the positioning rod (6) is installed inside the positioning groove (3). The interior of the light trough (2) and the positioning groove (3) are both filled with wire groove filling material (5).

5. The ice-building landscape lighting trough-type inlay device according to claim 4, characterized in that: Both ends of the positioning rod (6) are fixedly connected with wave-shaped positioning pieces (7).

6. The ice-building landscape lighting trough-type inlay device according to claim 5, characterized in that: The ice-building landscape structure (1) has a flared groove (4) at the end of the positioning groove (3), and the wave-shaped positioning piece (7) is located inside the flared groove (4).

7. The ice-building landscape lighting trough-type inlay device according to claim 5, characterized in that: The positioning rod (6) and the wavy positioning piece (7) are both made of colorless and transparent material.

8. The ice-building landscape lighting trough-type inlay device according to claim 1, characterized in that: The positioning rod (6) and the light strip (8) are connected by a connecting rope (10).

9. The ice-building landscape lighting trough-type inlay device according to claim 8, characterized in that: The positioning rod (6) has a through hole in the middle position. The connecting rope (10) passes through the through hole of the positioning rod (6). A limiting member (9) is fixedly connected to the outside of the connecting rope (10). The limiting member (9) can be locked at different positions on the outside of the connecting rope (10).

10. The ice-building landscape lighting trough-type inlay device according to claim 9, characterized in that: The limiting component (9) includes an outer cylinder (11), a return spring (13) is fixedly connected inside the outer cylinder (11), a slider (12) is fixedly connected to one end of the return spring (13), the slider (12) is slidably connected inside the outer cylinder (11), a first through groove (14) is provided on the outer cylinder (11), a second through groove (15) corresponding to the first through groove (14) is provided on the slider (12), and the connecting rope (10) is inserted into the first through groove (14) and the second through groove (15).