TWI723174B - Building radiator cover corresponding to the base structure of the ventilation ball - Google Patents

Abstract

The present invention relates to a structure of a ventilation ball base corresponding to a building heat dissipation cover, which is effectively combined with the corresponding ventilation ball base of the building heat dissipation cover, so as to provide that the user of the ventilation ball can remove the body of the ventilation ball and leave the ventilation ball base for the building The main body of the heat dissipation cover corresponds to the frame. Therefore, even if the user adopts the ventilation ball, the cumbersome installation and disassembly of the whole group can be reduced.

Description

Building radiator cover corresponding to the base structure of the ventilation ball

The invention relates to building accessories, in particular to a building radiator cover.

Buildings often need to be ventilated and dissipated due to sultry heat. If there are only simple heat-dissipating windows, or powered by pumping and exhaust, it is often not enough to escape the hot air, especially steel-framed houses, iron houses or simple working houses, etc. If it can sufficiently dissipate heat, it will be more difficult to be suitable for living or working. Later, some companies introduced the so-called ventilating ball. The body of the ventilating ball is rotated by the external wind, and the indoor hot air can be discharged from the gaps in the blades. However, it is possible that the rotation of the ventilating ball is not smooth due to the rotation of the bearing of the ventilating ball, or the inclination angle of the ventilating ball is not good. When it rains, it may cause rainwater infiltration. Furthermore, the ventilating ball mainly includes a blade wheel locked in A ventilated ball base, but the two-stage design may be broken and separated during typhoons or strong winds. Considering the permeation of preventing rainwater from penetrating, some industry companies have also introduced a building heat dissipation cover, including a heat dissipation cover main body, the heat dissipation cover main body includes an air inlet, the air inlet is for connecting with the predetermined hole on the top of the building, and the heat dissipation The main body of the cover includes an air outlet, and the air inlet and the air outlet form an exhaust path. Since the seat is integrated and stable, a fan can be added to increase air convection if necessary, so the number of new installations or replacements is gradually increased . However, if a ventilation ball is already installed, if it is to be converted into a heat dissipation cover, it is often necessary to disassemble the entire set of ventilation balls, and then refit the heat dissipation cover, which is time-consuming and costly.

In view of the problems of the prior art, the inventor believes that an improved structure should be produced. For this purpose, a building radiating cover corresponding to the ventilation ball base structure is provided, which includes a radiating hood main body, the radiating hood main body including an air inlet, and The heat dissipation cover main body includes an air outlet, and the air inlet and the air outlet form an exhaust path, and a ventilation ball base is provided. The ventilation ball base includes a hollow cylinder, and the bottom of the hollow cylinder extends horizontally. For the ground sheet, the inner edge of the air inlet hole of the heat dissipation cover main body is framed on the outer periphery of the hollow cylinder of the ventilating ball base, and the bottom of the heat dissipation cover main body is crimped on the ground sheet. In this way, it is provided that those who use the ventilating ball can remove the body of the ventilating ball and leave the base of the ventilating ball for the corresponding frame of the main body of the heat dissipation cover of the building. Therefore, even if the user adopts the ventilation ball, the cumbersome installation and disassembly of the whole group can be reduced. Furthermore, the hollow cylinder has a height, so if rainwater penetrates into the main body of the heat dissipation cover, it is not easy to overflow into the hollow cylinder, and the floor extending horizontally at the bottom of the hollow cylinder is also provided The sealing and waterproof effect of a turning point. In addition, the bottom of the main body of the heat dissipation cover is crimped to the ground, which can reduce the second degree of damage to the top of the building. Therefore, the effect of the present invention is not only the "1+1" additive effect, but the existing ventilation ball base and the heat dissipation cover main body can be combined to produce an effect greater than the sum of the two, which is consistent with the multiplicative effect.

The structure, features, and embodiments of the present invention will be explained below with the aid of the drawings, so that your examiner will have a better understanding of the present invention. Please refer to the first figure. As shown in the second figure, the present invention relates to a ventilating ball base structure corresponding to a building heat dissipation cover, which includes a heat dissipation cover body (1), and the heat dissipation cover body (1) includes an air inlet ( 11) (In conjunction with the third figure), the air inlet (11) can be through the wall of the heat dissipation cover main body (1), and a partition (1) provided between the two symmetrical walls of the heat dissipation cover main body (1) 14) is framed, and the heat dissipation cover main body (1) includes an air outlet (12), and the air inlet (11) and the air outlet (12) form an exhaust path, and the air outlet (12) ㄧ A guide plate (121) extends obliquely downward to the inside of the heat dissipation cover body (1). The end of the guide plate (121) is folded into a baffle (122), which can form an oblique guide and receive with the water. When the rain is full Then, it can overflow from the baffle (122), and then flow out from the drainage hole (13) reserved at the bottom of the heat dissipation cover main body (1) to prevent rainwater from infiltrating into the air intake hole (11). A vented ball base (2) is provided. The vented ball base (2) includes a hollow cylinder (21). The bottom of the hollow cylinder (21) extends horizontally with a floor (22). The heat dissipation cover body (1) ) The inner edge of the air inlet (11) is framed on the outer edge of the hollow cylinder (21) of the ventilating ball base (2), and the bottom of the heat dissipation cover body (1) is crimped on the ground (22), The crimping refers to the use of welding, riveting or other bonding methods and crimping and bonding, so that the two can be firmly combined. Therefore, it is provided that those who use the ventilating ball can remove the body of the ventilating ball and leave the ventilating ball base (2) for the corresponding frame of the heat dissipation cover main body (1) of the building. Therefore, even if the user adopts the ventilation ball, the cumbersome installation and disassembly of the whole group can be reduced. Furthermore, the hollow cylinder (21) has a height, so if rainwater penetrates into the heat dissipation cover body (1), it is not easy to overflow into the hollow cylinder (21), and the hollow cylinder (21) ) The ground piece (22) extending horizontally at the bottom also provides the sealing and waterproof effect of a turning point (20). In addition, the bottom of the heat dissipation cover main body (1) is crimped to the ground (22), which can reduce the second degree of damage to the top of the building. Therefore, the effect of the present invention is not only the "1+1" additive effect, but the existing ventilation ball base (2) can be combined with the heat dissipation cover main body (1) to produce an effect greater than the addition of the two. And in line with the multiplying effect. The main body of the heat dissipation cover of the present invention can have many types: The main body (1A) of the heat dissipation cover as shown in the fourth figure, the vent hole (12A) at the top is located on the side, and the rim of the vent hole (12A) A side wall (126A) is relatively extended to the inside of the heat dissipation cover main body (1A) to guide air out and can contain rainwater so that the rainwater can be led out from the drainage channel (13A) provided at the bottom of the heat dissipation cover main body (1A). As shown in the fifth figure, it is the heat dissipation cover body (1B) of the present invention. A protective eaves (127B) is provided under the air outlet (12B) at the top to guide rainwater so that the rainwater can pass from the heat dissipation cover body (1B) The drainage channel (13B) provided at the bottom is led out. For the heat dissipation cover body (1C) shown in Figure 6, the vent hole (12C) at the top is located on the side, and the edge of the vent hole (12C) extends toward the inside of the heat dissipation cover body (1C). The bent side wall (126C) is used to guide air out and can contain rainwater, so that the rainwater is led out from the drainage channel (13C) provided at the bottom of the heat dissipation cover main body (1C). As shown in the seventh figure, the vent hole (12D) at the top of the heat dissipation cover body (1D) is located directly above, and the edge of the vent hole (12D) extends relatively toward the inside of the heat dissipation cover body (1D) The obliquely lower side wall (126D) is used to guide air out and can contain rainwater so that the rainwater can be led out from the drainage channel (13D) provided at the bottom of the heat dissipation cover main body (1D). In summary, the present invention is indeed in line with industrial applicability, and has not been seen in publications or publicly used before the application, and has not been known to the public, and it is non-obvious and easy to know, and meets the requirements of patentability. Therefore, a patent application is filed in accordance with the law. . However, the foregoing is a preferred embodiment of the present invention in the industry, and all the equivalent changes made in accordance with the scope of the patent application of the present invention fall within the scope of the claims of this case.

(1) ‧ ‧ Radiator cover body (1A) ‧ ‧ Radiator cover body (1B) ‧ ‧ Radiator cover body (1C) ‧ ‧ Radiator cover body (1D) ‧ ‧ Radiator cover body (11) ‧ ‧Air Inlet (12)‧‧‧Exhaust (12A)‧‧‧Exhaust (12B)‧‧‧Exhaust (12C)‧‧‧Exhaust (12D)‧‧‧Exhaust (121)‧‧‧ Guide plate (122) ‧ ‧ baffle plate (126A) ‧ ‧ side wall (126C) ‧ ‧ side wall (126D) ‧ ‧ side wall (127B) ‧ ‧ eaves (13) ‧ ‧ drainage channel (13A) ‧‧‧Drainage channel (13B)‧‧‧Drainage channel (13C)‧‧‧Drainage channel (13D)‧‧‧Drainage channel (14)‧‧‧Partition (2)‧‧‧Ventilation ball base (20)‧ ‧‧Turnover (21)‧‧‧Hollow cylinder (22)‧‧‧Floor

The first figure is a perspective view of the first embodiment of the present invention. The second figure is a perspective exploded view of the first embodiment of the present invention. The third figure is an internal schematic view of the first embodiment of the present invention. The fourth figure is a type of the main body of the heat sink of the present invention. The fifth figure is the internal schematic diagram of the radiator cover main body of the present invention in two-type installation. The sixth figure is the internal schematic diagram of the radiator cover main body of the present invention in three-mode installation. The seventh figure is the fourth radiator cover main body of the present invention. Internal schematic diagram of type installation

(1)‧‧‧The main body of the heat sink

(11)‧‧‧Air inlet

(12)‧‧‧Vent

(121)‧‧‧Guide Plate

(122)‧‧‧Bezel

(13)‧‧‧Drainage channel

(14)‧‧‧Partition

(2)‧‧‧Ventilation ball base

(20)‧‧‧Turning Point

(21)‧‧‧Hollow cylinder

(22)‧‧‧Lands

Claims (6)

A building heat dissipation cover corresponding to a ventilation ball base structure includes a heat dissipation cover body, the heat dissipation cover body includes an air inlet, and the heat dissipation cover body includes an air outlet, and the air inlet and the air outlet form an exhaust And set a ventilation ball base, the ventilation ball base includes a hollow cylinder, the bottom of the hollow cylinder extends horizontally with a piece of ground, the inner edge of the air inlet hole of the main body of the heat dissipation cover is framed in the hollow of the ventilation ball base The outer edge of the cylinder and the bottom of the main body of the heat dissipation cover are crimped on the ground. As described in item 1 of the scope of patent application, the heat dissipation cover of the building corresponds to the vent ball base structure, in which a guide plate extends obliquely downward from the side of the vent hole into the main body of the heat dissipation cover, and the end of the guide plate is folded into a baffle, and A drainage hole is reserved at the bottom of the main body of the heat dissipation cover. As described in item 1 of the scope of patent application, the heat dissipation cover of the building corresponds to the vent ball base structure, wherein the air outlet is arranged on the side, and the edge of the vent hole extends a side wall relatively toward the inside of the heat dissipation cover main body. As described in item 1 of the scope of patent application, the building radiating cover corresponds to the base structure of the ventilating ball, wherein a protective eaves is provided under the air outlet. As described in item 1 of the scope of patent application, the radiating cover of the building corresponds to the base structure of the ventilating ball, wherein the vent hole is located on the side, and the edge of the vent hole extends toward the inside of the main body of the radiating cover with a curved side wall. . As described in the first item of the scope of patent application, the heat dissipation cover of the building corresponds to the vent ball base structure, wherein the vent hole is set directly above, and the edge of the vent hole extends toward the inside of the heat dissipation cover body by an obliquely lower side wall .

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