CN-120799582-B - Self-adaptive ventilation light-transmitting building partition purifying structure

CN120799582BCN 120799582 BCN120799582 BCN 120799582BCN-120799582-B

Abstract

The invention belongs to the technical field of building structures, in particular to a self-adaptive ventilation light-transmitting building partition purification structure which comprises a plurality of linearly distributed bottom carriers, wherein the bottom carriers sequentially penetrate through a first circulation groove and a second circulation groove, the first circulation groove and the second circulation groove are vertically staggered, an upper movable groove is formed in the bottom carriers and above the first circulation groove, a displacement groove is formed in the top of the bottom carriers, and a sliding mechanism is arranged in the bottom carriers and close to the displacement groove. Under windless condition, the electric guide rail can drive the fluctuation rod to realize fluctuation for the fluctuation rod can initiatively attract ambient air to flow, guarantees the ventilation effect in the building, electric guide rail fixed set up in the top of first top loading body, this device is when having wind, through circuit board control electric guide rail stop operation, makes the inboard natural ventilation of this device, convenient to use.

Inventors

Zhao Hanchong
YANG ZHENSEN
ZHOU JIELONG

Assignees

航天建设集团深圳有限公司

Dates

Publication Date: 20260505
Application Date: 20250814

Claims (9)

1. The self-adaptive ventilation light-transmitting building partition purification structure is characterized by comprising a plurality of bottom carriers (100) which are linearly distributed, wherein the bottom carriers (100) sequentially penetrate through a first circulation groove (101) and a second circulation groove (102), and an upper movable groove (103) is formed in the bottom carriers (100) and above the first circulation groove (101); the device comprises a plurality of fluctuation rods (200), wherein connecting blocks (201) are integrally formed on the outer sides of the fluctuation rods (200), connecting mechanisms are arranged on the connecting blocks (201), isolating layers (207) are arranged on the connecting mechanisms, two adjacent fluctuation rods (200) are connected through the isolating layers (207), inner carrier pipes (204) are arranged on the inner sides of the fluctuation rods (200), central holes (210) are formed in the connecting blocks (201), and central rotating shafts (211) are rotatably arranged in the central holes (210); A plurality of first top loading bodies (300), wherein a plurality of second top loading bodies (301) which are linearly distributed are arranged on the inner side of the first top loading bodies (300), pull and move grooves (305) are formed in the first top loading bodies (300) and the second top loading bodies (301), and a pushing mechanism is arranged on the inner side of each pull and move groove (305) in a sliding mode; The first top loading body (300) and the second top loading body (301) are provided with first ventilation holes (311), and a plurality of first air measuring pipes (312) communicated with the first ventilation holes (311) are fixedly arranged on the first top loading body (300); an electric rail (400), the electric rail (400) being fixedly arranged on top of the first top carrier (300); -a circuit board (600), said circuit board (600) being arranged on said first top carrier (300); a displacement groove (104) is formed in the top of the bottom loading body (100), a sliding mechanism is arranged on the bottom loading body (100) and close to the displacement groove (104), and the fluctuation rod (200) is connected with the sliding mechanism; The inner side of the inner carrying pipe (204) is provided with a weight body (205), and the outer side of the top of the fluctuation rod (200) is fixedly provided with a limit rod (203); The top of the first top loading body (300) and the top of the second top loading body (301) are respectively fixedly provided with a first pushing matching component, the pushing mechanism corresponds to the fluctuation rod (200), the inner sides of the first top loading body (300) and the second top loading body (301) are provided with a second pushing matching component, and the limiting rod (203) is in sliding connection with the second pushing matching component.
2. The self-adaptive ventilation light-transmitting building partition purification structure of claim 1, wherein the connection mechanism comprises a plurality of installation seats (208) arranged on two sides of a connection block (201), connection strips (209) are arranged on the installation seats (208), the connection strips (209) are arranged in parallel, connection columns (202) are fixedly arranged on the connection block (201), and inclined planes (206) are symmetrically arranged on the connection block (201).
3. The self-adaptive ventilation and light-transmitting building partition purification structure according to claim 2, wherein the sliding mechanism comprises a sliding sleeve (105) arranged on the bottom loading body (100) and close to the displacement groove (104), and a sliding plate (106) is arranged on the sliding sleeve (105) in a sliding manner.
4. The self-adaptive ventilation light-transmitting building partition purification structure according to claim 1, wherein the pushing mechanism comprises an upper top moving plate (306) which is slidably arranged at the inner side of a pull moving groove (305), a lower top moving plate (307) is fixedly arranged at the bottom of the upper top moving plate (306), top moving inclined planes (308) are symmetrically arranged on the lower top moving plate (307), buffer arc grooves (309) are symmetrically arranged at the bottom of the lower top moving plate (307), the top moving inclined planes (308) and the buffer arc grooves (309) respectively correspond to the fluctuation rod (200), a sleeve pipe (310) is fixedly arranged on the upper top moving plate (306), a long pull rod (403) is inserted on the sleeve pipe (310), a sliding block (401) is slidably arranged on the electric guide rail (400), a plug column (402) is fixedly arranged on the sliding block (401), and the plug column (402) is connected with the long pull rod (403); the first pushing and matching assembly comprises a supporting plate (302), the supporting plate (302) is respectively arranged on the top of the first top loading body (300) and the top of the second top loading body (301), a supporting rod (303) is fixedly arranged on the supporting plate (302), and a supporting arm (304) corresponding to the upper supporting and moving plate (306) is fixedly arranged on the supporting rod (303).
5. The self-adaptive ventilation light-transmitting building partition purification structure of claim 4, wherein a hollowed-out plate (313) is fixedly arranged at one end, far away from the first ventilation hole (311), of the inner side of the first air measuring pipe (312), a close hole (321) is formed in the hollowed-out plate (313) in a penetrating mode, a small rotating shaft (316) is arranged at the inner side of the hollowed-out plate (313), a first thin film (317) is connected to the small rotating shaft (316) in a rotating mode, copper wires (319) are arranged at the inner side of the first thin film (317), an iron sheet (318) is arranged at the bottom of the first thin film (317), an inductive proximity sensor (315) corresponding to the iron sheet (318) is arranged at the bottom of the close hole (321), and a second ventilation hole (314) is formed in the hollowed-out plate (313); The inductive proximity sensor (315) is electrically connected with the circuit board (600), and the electric guide rail (400) is electrically connected with the circuit board (600).
6. The self-adaptive ventilation and light-transmitting building partition purification structure according to claim 1, wherein the second pushing and matching assembly comprises strip-shaped arc grooves (320) respectively formed in the inner side of the first top loading body (300) and the inner side of the second top loading body (301), and the strip-shaped arc grooves (320) are in sliding connection with the limiting rod (203).
7. The structure according to claim 5, wherein the circuit board (600) controls the electric guide rail (400) to stop operating when at least half of the inductive proximity sensors (315) in the structure cannot detect the iron sheet (318), i.e., in a non-contact state.
8. The self-adaptive ventilation light-transmitting building partition purification structure according to claim 1, further comprising a second air measuring pipe (3121), wherein the second air measuring pipe (3121) is respectively arranged on the first top loading body (300) and the second top loading body (301), a receiving column (3122) is fixedly arranged at one end, far away from the first top loading body (300) and the second top loading body (301), a second film (3123) is arranged on the receiving column (3122), a light-proof film (3124) is arranged at the middle part of the second film (3123), a sensor fixing strip (3125) is arranged at the bottom of the inner side of the second air measuring pipe (3121), infrared reflection sensors (3126) are respectively arranged at two sides of the sensor fixing strip (3125) and positioned at the second film (3123), and a third ventilation hole (500) is formed in the second top loading body (301) in a penetrating manner.
9. The structure according to claim 8, wherein a plurality of the infrared reflective sensors (3126) are electrically connected, the infrared reflective sensors (3126) are electrically connected to the circuit board (600), and when at least half of the infrared reflective sensors (3126) in the structure detect the opaque film (3124), the circuit board (600) controls the electric guide rail (400) to stop running.

Description

Self-adaptive ventilation light-transmitting building partition purifying structure Technical Field The invention belongs to the technical field of building structures, and particularly relates to a self-adaptive ventilation light-transmitting building partition purification structure. Background In modern buildings ventilation and lighting are two important aspects affecting the quality of the indoor environment. The good ventilation can effectively discharge indoor polluted air, reduce indoor pollutant concentration such as carbon dioxide, volatile organic compounds and the like, and simultaneously introduce fresh air to maintain the freshness of the indoor air. And reasonable daylighting can fully utilize natural light sources, reduce the use of artificial lighting, save energy, and simultaneously provide comfortable illumination environment for indoor personnel. Traditional building cuts off, generally realizes the indoor ventilation of building through fan or natural draft, especially under the weather condition of no wind or breeze, indoor air is detained easily, influences the quality in the building, inconvenient use. Therefore, a self-adaptive ventilation and light transmission building partition purification structure is provided for the problems. Disclosure of Invention The invention aims at overcoming the defects of the prior art, and solves the technical problems in the background art by arranging the self-adaptive ventilation light-transmitting building partition purification structure. The self-adaptive ventilation light-transmitting building partition purification structure comprises a plurality of linearly distributed bottom carriers, wherein the bottom carriers sequentially penetrate through a first circulation groove and a second circulation groove, the first circulation groove and the second circulation groove are vertically staggered, an upper movable groove is formed in the bottom carriers and above the first circulation groove, a displacement groove is formed in the top of the bottom carriers, and a sliding mechanism is arranged in the bottom carriers and close to the displacement groove; The fluctuation rods are connected with the sliding mechanism, connecting blocks are integrally formed on the outer sides of the fluctuation rods, connecting mechanisms are arranged on the connecting blocks, a separation layer is arranged on each connecting mechanism, two adjacent fluctuation rods are connected through the separation layer, an inner carrying pipe is arranged on the inner side of each fluctuation rod, a weight body is arranged on the inner side of each inner carrying pipe, a limiting rod is fixedly arranged on the outer side of the top of each fluctuation rod, a central hole is formed in each connecting block, and a central rotating shaft is rotatably arranged on each central hole; The device comprises a plurality of first top loading bodies, wherein a plurality of second top loading bodies which are linearly distributed are arranged on the inner sides of the first top loading bodies, pulling and moving grooves are formed in the first top loading bodies and the second top loading bodies, a pushing mechanism is slidably arranged on the inner sides of the pulling and moving grooves, a first pushing and moving matching assembly is fixedly arranged at the top of the first top loading bodies and the second top loading bodies and close to the positions of the pulling and moving grooves, the pushing mechanism corresponds to a fluctuation rod, a second pushing and moving matching assembly is arranged on the inner sides of the first top loading bodies and the second top loading bodies, and the limiting rod is slidably connected with the second pushing and moving matching assembly; The first top loading carrier and the second top loading carrier are respectively provided with a first ventilation hole, a plurality of first air measuring pipes which are communicated with the first ventilation holes are fixedly arranged on the first top loading carrier, a hollowed-out plate is fixedly arranged at one end, which is far away from the first ventilation holes, of the inner side of the first air measuring pipe, a close hole is formed in the hollowed-out plate in a penetrating manner, a small rotating shaft is arranged at the inner side of the hollowed-out plate, a first thin film is rotatably connected to the small rotating shaft, copper wires are arranged at the inner side of the first thin film, an iron sheet is arranged at the bottom of the first thin film, an inductive proximity sensor corresponding to the iron sheet is arranged at the bottom of the close hole, and a second ventilation hole is further formed in the hollowed-out plate; the electric guide rail is fixedly arranged at the top of the first top loading body; The circuit board is arranged on the first top loading body, a plurality of inductive proximity sensors are electrically connected with each other, the inductive proximity sensors ar