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CN-224224883-U - Bottom drainage assembly for skylight

CN224224883UCN 224224883 UCN224224883 UCN 224224883UCN-224224883-U

Abstract

The utility model relates to the field of skylights, in particular to a bottom water draining assembly for the skylights, which comprises a water draining mechanism, wherein the water draining mechanism comprises a water draining plate, the water draining plate is provided with a water draining groove, the water draining plate comprises a bottom plate, two lateral plates are arranged on two opposite sides of the bottom plate respectively, the bottom plate and the two lateral plates form a water draining groove, the bottom plate comprises a bottom plate body, a supporting protrusion is arranged on the bottom plate body, water on the skylights is conveniently discharged through the arrangement of the water draining groove, and the water draining plate is arranged through the supporting protrusion, and the structural strength of the water draining plate is guaranteed through the arrangement of a protrusion structure.

Inventors

  • WANG JIE
  • Wu henglong
  • ZHANG PING
  • ZHAI XIAOLING
  • TAO HAIYAN
  • XU JINGUO
  • WU YONG
  • LIU YAN

Assignees

  • 安徽宏晟智能装备有限公司

Dates

Publication Date
20260512
Application Date
20250630

Claims (8)

  1. 1. The bottom end water draining assembly for the skylight is characterized by comprising a water draining mechanism, wherein the water draining mechanism comprises a water draining plate, and a water draining groove is arranged on the water draining plate; The water draining plate comprises a bottom plate, wherein two lateral plates are respectively arranged on two opposite sides of the bottom plate; the bottom plate includes the bottom plate body, be equipped with the supporting bulge on the bottom plate body.
  2. 2. The bottom drainage assembly for a skylight of claim 1, wherein the lateral plates are inclined and the included angle between the lateral plates and the bottom plate is greater than 90 degrees.
  3. 3. The bottom drainage assembly for a skylight of claim 1, wherein the side panels are provided with snap-fit flanges at ends thereof remote from the bottom panel.
  4. 4. The bottom end drainage assembly for the skylight of claim 1, further comprising a fixing unit, wherein the fixing unit comprises a fixing corner bracket, the fixing corner bracket comprises a first connecting frame and a second connecting frame, the first connecting frame and the second connecting frame are intersected, the first connecting frame in the fixing corner bracket is fixed on the side face of the drainage plate, and the second connecting frame in the fixing corner bracket is connected to the roof base frame.
  5. 5. The bottom drainage assembly for a skylight of claim 4, further comprising an internal supporting mechanism arranged in the drainage tank, wherein the internal supporting mechanism comprises supporting beams, and two ends of each supporting beam are respectively connected with the drainage plate through supporting corner brackets.
  6. 6. The bottom drain assembly for a skylight of claim 5, wherein the support corner brace comprises a first support bracket and a second support bracket, the first support bracket is connected to a side plate of the drain plate, and the second support bracket is connected to a support beam.
  7. 7. The bottom drainage assembly for a skylight of claim 6, wherein the end of the supporting beam is provided with an end slot, and the second supporting frame is inserted into the end slot of the end of the supporting beam.
  8. 8. The roof drain assembly of claim 6, wherein each of the fixed corner fittings corresponds to a support corner fitting, and two of the fixed corner fittings and the support corner fittings are disposed on opposite sides of the adjacent side panels.

Description

Bottom drainage assembly for skylight Technical Field The utility model relates to the field of skylights, in particular to a bottom water draining assembly for a skylight. Background Skylight systems are widely used in modern buildings, mainly for lighting, ventilation and for regulating indoor environments. In order to ensure proper operation of the skylight system, to prevent rain water accumulation and leakage, the design of the drainage system is critical. Existing skylight drain systems typically include a drain tank for directing a flow of water out of the bottom of the skylight. Although existing drainage systems can meet drainage needs to some extent, the following problems still remain: The existing water draining tank is generally simpler in design, limited in opening area, high in resistance when water flows into the water draining tank, and low in water draining efficiency. When the area of the skylight is large in stormy weather, water accumulation easily occurs, and normal use of the skylight is affected. The prior drain board has insufficient structural strength, usually adopts a simple flat plate structure, and lacks effective supporting and reinforcing measures. Under the impact of water flow or external force, the water draining plate is easy to deform, so that the normal use of the water draining tank is influenced, and even water leakage is caused. The installation is complicated by the fact that existing drainage systems typically require holes to be punched in the drainage plate and secured to the roof by bolts or other fasteners. The installation mode is complex in operation and easy to cause water leakage or seepage due to improper installation. The maintenance is inconvenient, because of the complexity of the installation mode, the maintenance and replacement of the existing drainage system are difficult, and the maintenance cost and time are increased. Although the prior patent 201920346181.1-a thin skylight for fire-fighting lighting and smoke discharging discloses a water discharging groove structure, the specific structure of the water discharging groove is not discussed in detail, and the technology discloses a U-shaped groove body structure from the view of the attached drawing. Therefore, in order to solve or improve at least one of the above technical problems, an optimized design of the existing skylight drainage groove structure is needed. Disclosure of utility model The utility model aims to provide a skylight water drain groove structure with high structural strength and good water drain effect. In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the bottom end water draining assembly for the skylight comprises a water draining mechanism, wherein the water draining mechanism comprises a water draining plate, and a water draining groove is arranged on the water draining plate; The water draining plate comprises a bottom plate, wherein two lateral plates are respectively arranged on two opposite sides of the bottom plate; the bottom plate includes the bottom plate body, be equipped with the supporting bulge on the bottom plate body. The lateral plates are obliquely arranged, and the included angle between the lateral plates and the bottom plate is larger than 90 degrees. The lateral plates being remote from the base plate one end is provided with a clamping flanging. The bottom water draining assembly for the skylight further comprises a fixing unit, the fixing unit comprises a fixing corner bracket, the fixing corner bracket comprises a first connecting frame and a second connecting frame, the first connecting frame and the second connecting frame are arranged in an intersecting mode, the first connecting frame in the fixing corner bracket is fixed on the side face of the water draining plate, and the second connecting frame in the fixing corner bracket is connected to the roof base frame. The bottom water draining assembly for the skylight further comprises an internal supporting mechanism arranged in the water draining groove, the internal supporting mechanism comprises a supporting beam, and two ends of the supporting beam are respectively connected with the water draining plate through supporting corner brackets. The support angle sign indicating number includes first support frame and second support frame, first support frame is connected with the side direction board in the sluicing board, the second support frame is connected with the supporting beam. The end part of the supporting beam is provided with an end part slot, and the second supporting frame is inserted into the end part slot of the end part of the supporting beam. Each fixed angle code corresponds to one supporting angle code, and two fixed angle codes and the supporting angle code which are distributed oppositely are distributed on two sides of the mutually attached lateral plate. The utility model has the advantages that: The utility model discloses