CN206973762U - Upside-down mounting blinds air-conditioning storehouse water-proof drainage system - Google Patents

Abstract

The utility model relates to a waterproof and drainage system for an air-conditioning warehouse with flip-mounted louvers. The air-conditioning warehouse is formed by recessing the facade of a building and has an opening communicating with the outside world. The air-conditioning warehouse is used to accommodate an air-conditioning external unit. The waterproof and drainage system includes : fixed on the frame of the air-conditioning compartment along the edge of the opening; a plurality of louvers fixed in the frame obliquely and in parallel, the elevation of the inner end of the louver is lower than the elevation of the outer end; and a water collecting blade located below the louvers, the water collecting blade is fixed on the bottom of the frame and is inclined upward toward the inside of the air-conditioning compartment, the upper surface of the water collecting blade is formed with a setting slope. The utility model adopts the addition of water-collecting blades at the bottom to collect the rainwater that enters the air-conditioning chamber through the louvers, and discharges the collected rainwater out of the air-conditioning chamber through the slope formed by itself, so as to realize the drainage function.

Description

Inverted louver air-conditioning warehouse waterproof drainage system

technical field

The utility model relates to the technical field of building construction, in particular to a waterproof and drainage system for an air-conditioning warehouse with inverted louvers.

Background technique

The earliest louver air-conditioning warehouse system is to install rain-proof louvers on the outside of the air-conditioning warehouse. Under the premise of ensuring the natural ventilation and heat dissipation of the air-conditioning external unit, the messy air-conditioning external unit is installed neatly and beautifully, and it is integrated with the entire building. The façades are coordinated.

The inverted louver air-conditioning warehouse system is based on the original louver air-conditioning warehouse system, which is formed by inverting the louver blades and appropriately increasing the distance between the louver blades. The inverted louver air-conditioning warehouse system can greatly improve the outdoor appearance of the building's facade. Through the reverse inclination of the louver blades, it can ensure that the appearance of the building's facade is at the angle of view from the ground, which accounts for most of the cases, under the condition of appropriately increasing the distance between the louver blades. Within the range, it provides better sight shielding for the air-conditioning outdoor units installed on the inner side, further improving the clean and unified effect of the facade. At the same time, by increasing the louver spacing and inclination angle, the heat dissipation effect of the outdoor unit of the air conditioner can be effectively improved.

However, the inverted louver air-conditioning system also has its own shortcomings. After the louvers are inverted, the rainproof function of the original rain-proof louvers is greatly weakened, and a large amount of rainwater collects and flows into the air-conditioning compartment along the louvers, and the rainwater cannot be discharged. , it will cause damage to the building surface and waterproof structure, causing certain hidden dangers of rainwater leakage.

Utility model content

The purpose of this utility model is to overcome the defects of the prior art and provide a waterproof and drainage system for the inverted louver air-conditioning warehouse, which can solve the problem that the rainwater in the original inverted louver air-conditioning warehouse system cannot be discharged, causing damage to the building surface and waterproof structure. caused by rainwater seepage.

The technical scheme for realizing the above-mentioned purpose is:

The utility model provides a waterproof and drainage system for an air-conditioning warehouse with flip-mounted louvers. The air-conditioning warehouse is formed by a sunken interior of the facade of a building and has an opening communicating with the outside. The air-conditioning warehouse is used to accommodate an air-conditioning external unit. include:

fixed on the frame of the air-conditioning compartment along the edge of the opening;

a plurality of louver blades fixed obliquely and parallelly in the frame, the elevation of the inner end of the louver is lower than the elevation of the outer end; and

The water-collecting blade located below the louvers, the water-collecting blade is fixed on the bottom of the frame and inclined upward toward the inside of the air-conditioning compartment, the upper surface of the water-collecting blade is formed with a Set the slope.

The utility model has the beneficial effects of adding water collecting blades at the bottom to collect rainwater entering the air-conditioning chamber through the louvers, and discharging the collected rainwater out of the air-conditioning chamber through the slope formed by itself, thereby realizing the drainage function.

The further improvement of the waterproof and drainage system of the inverted louver air-conditioning warehouse of the utility model is that the frame includes a first frame and a second frame, the second frame is fixed in the first frame, and the bottom of the second frame A drainage gap is left between the bottom of the first frame and the first frame.

The further improvement of the waterproof and drainage system of the inverted louver air-conditioning warehouse of the utility model is that it also includes a closing mechanism for controlling the opening and closing of the louvers, which is arranged between the side of the second frame and the side of the first frame. Page.

The further improvement of the waterproof and drainage system of the inverted louver air-conditioning warehouse of the utility model is that the upper surface of the water-collecting blade is set corresponding to the inner end of the louver, and receives the rainwater flowing in from the inner end of the louver, Furthermore, the inflowing rainwater flows to the second frame along the set slope and is discharged from the air-conditioning compartment.

The further improvement of the waterproof and drainage system of the inverted louver air-conditioning warehouse of the utility model is that the inner wall of the air-conditioning warehouse is provided with a heat-insulating layer, and the outer surface of the heat-insulating layer is provided with a waterproof layer; the bottom of the heat-insulating layer and the bottom of the waterproof layer The thickness gradually decreases from the end away from the opening to the end close to the opening, forming a drainage slope.

The further improvement of the waterproof and drainage system of the inverted louver air-conditioning warehouse of the utility model lies in that the upper surface of the bottom of the waterproof layer is also provided with a waterproof coating.

The further improvement of the waterproof and drainage system of the inverted louver air-conditioning warehouse of the utility model is that the elevation of the end of the drainage slope close to the opening is higher than the elevation of the drainage gap and lower than the elevation of the top of the water-collecting blade, so that Rainwater splashed on the water-collecting blades flows along the drainage slope to the drainage gap and is discharged from the air-conditioning compartment.

The further improvement of the waterproof and drainage system of the air-conditioning warehouse with flip-mounted louvers of the utility model is that it also includes a window frame protruding from the opening of the air-conditioning warehouse on the outside of the building.

The further improvement of the waterproof and drainage system of the air-conditioning warehouse with flip-mounted louvers of the utility model lies in that, the upper surfaces of the top and the bottom of the window frame are formed with flowing water slopes.

The further improvement of the waterproof and drainage system of the inverted louver air-conditioning warehouse of the utility model lies in that a waterproof sealing structure is filled between the building body at the opening, the frame and the window frame.

Description of drawings

Fig. 1 is a schematic structural view of the waterproof and drainage system of the inverted louver air-conditioning warehouse of the present invention when the air conditioner is installed.

Fig. 2 is a partially enlarged schematic diagram of the bottom of the waterproof and drainage system of the air-conditioning warehouse with flip-mounted louvers of the present invention.

Fig. 3 is a partially enlarged schematic diagram of the top of the waterproof and drainage system of the air-conditioning warehouse with flip-mounted louvers of the present invention.

Detailed ways

Below in conjunction with accompanying drawing and specific embodiment the utility model is further described.

Referring to Figure 1, the utility model provides a waterproof and drainage system for the inverted louver air-conditioning warehouse, which solves the problem that the rainwater in the original inverted louver air-conditioning warehouse system cannot be discharged, causing damage to the building surface and waterproof structure, resulting in rainwater leakage question. The waterproof and drainage system for the inverted louver air conditioner warehouse of the present invention will be described below in conjunction with the accompanying drawings.

As shown in FIG. 1 , the air-conditioning compartment 10 is formed by a building façade recessed inside, and has an opening communicating with the outside world. The air-conditioning compartment 10 is used to accommodate an air-conditioning external unit 12 .

The waterproof and drainage system of the inverted louver air-conditioning warehouse of the utility model comprises: a frame 2, an insulating layer 31, a waterproof layer 32, a louver blade 41, a water collecting blade 42, a hinge and a waterproof sealing structure 61.

Wherein, as shown in FIG. 2 and FIG. 3 , the frame 2 is disposed on the edge of the opening, including a first frame 21 and a second frame 22 . The first frame 21 is attached to the inner edge of the building body 11 at the opening, the second frame 22 is fixed in the first frame 21, and a drainage gap 23 is left between the first frame 21 and the second frame 22, It is used to drain the rainwater inside the air conditioning compartment. As a preferred embodiment, both the first frame 21 and the second frame 22 are aluminum alloy frames of 50mm*30mm*2mm.

As shown in FIG. 1 , there are a plurality of louvers 41 , which are obliquely and parallelly fixed on the second frame 22 , and the elevation of the inner end of the louvers 41 is lower than the elevation of the outer end. The opening of the air conditioning compartment is blocked by the louvers 41 .

The hinge is disposed between the side of the first frame 21 and the side of the second frame 22 for controlling opening and closing of the louvers 41 . When the hinge is operated to open the louver 41, the ventilation performance of the system is enhanced and the waterproof performance is weakened; when the hinge is operated to close the louver 41, the ventilation performance of the system is weakened and the waterproof performance is enhanced. People can adjust the opening and closing and opening and closing angle of the louvers 41 according to actual needs, which increases the flexibility of the system.

As shown in Figure 2, the bottom end of the water-collecting vane 42 is fixed on the upper surface of the bottom of the second frame 22 and is inclined upwardly towards the inside of the air-conditioning compartment. Directly below the inner end of the louver 41, rainwater enters the air-conditioning compartment from the outside through the louver 41 and drips from the inner end of the louver 41 to the water collecting blade 42, so that the water collecting blade 42 achieves the effect of collecting rainwater Further, the upper surface of the water-collecting blade 42 is formed with a set slope towards the opening, and the elevation of the side of the water-collecting blade 42 away from the second frame is higher than that of the side of the water-collecting blade 42 close to the second frame. Gravity flows through the upper surface of the bottom of the second frame 22 along with the set slope and discharges the air-conditioning compartment, so that the system achieves the purpose of drainage.

In a preferred embodiment, both ends of the water-collecting blade 42 have flange plates for fixing, and the water-collecting blade 42 is fixed by passing bolts through the flange plate and driving into the bottom of the second frame 22 on the second frame 22.

As shown in Figures 1 and 2, the insulation layer 31 is arranged on the inner wall of the air-conditioning warehouse, and the waterproof layer 32 is arranged on the outer surface of the insulation layer 31. Preferably, the insulation layer is a rock wool insulation layer, and the waterproof layer is a waterproof mortar layer. The thickness of the bottom of the insulation layer 31 and the bottom of the waterproof layer 32 gradually decreases from the end away from the opening to the end close to the opening, forming a drainage slope, the elevation of the end of the drainage slope near the opening is higher than the elevation of the drainage gap and lower than the water collecting blades The elevation of the top, preferably, the slope of the drainage slope is 5%. When rainwater drops onto the water-collecting blades, it is easy to splash out to the bottom of the air-conditioning compartment, and the rainwater splashed on the waterproof layer flows to the drainage gap 23 along with the drainage slope through the drainage slope, and the air-conditioning compartment is discharged from the drainage gap 23. As a preferred embodiment, the system also includes a waterproof coating 33 located on the upper surface of the bottom of the waterproof layer 32, used to strengthen the waterproof performance of the system and prevent rainwater from seeping. Preferably, the waterproof coating 33 is cement Base crystalline waterproof coating or 1.5mm thick polyurethane waterproof coating.

As shown in FIG. 1 , the window frame 51 is protrudingly arranged on the outside of the building body 11 at the opening of the air-conditioning warehouse, and plays a role of protecting the wall at the opening and looking good. The upper surface of the top and bottom of the window frame 51 is formed with a water slope, preferably, the slope of the water slope is 2%, and the water slope prevents rainwater from accumulating on the window frame 51 and causing the quality of the window frame to decline. The top of the window frame 51 can also serve as a shelter from the rain to prevent excessive rainwater from entering the air-conditioning compartment through the louvers 41 .

A waterproof sealing structure 61 is filled between the frame 2, the building body 11 at the opening and the window frame 51, which enhances the waterproof performance of the system. As a preferred embodiment, the waterproof sealing structure is a foam rod with a diameter of 18mm and waterproof sealant.

The action process of the waterproof and drainage system for the air-conditioning storehouse with flip-mounted louvers of the present invention will be described below.

In rainy days, the system can play its waterproof and drainage function. Rainwater enters the air-conditioning compartment along the inverted louvers, drips on the water-collecting blades, and flows out of the air-conditioning compartment through the set slope formed by the water-collecting vanes; when the rainwater splashes to the bottom of the air-conditioning compartment, due to the waterproof layer installed And the waterproof coating will not cause rainwater leakage. Further, the rainwater will flow to the drainage gap through the drainage slope formed by the insulation layer and the waterproof layer, and will be discharged out of the air-conditioning warehouse along the drainage gap.

The beneficial effects of the waterproof and drainage system of the utility model flip-mounted louver air-conditioning warehouse are as follows:

The utility model improves on the original flip-mounted louver air-conditioning warehouse system, and while ensuring the flip-mounted louvers to achieve heat dissipation and ventilation effects and beautiful appearance, the originally weakened waterproof and drainage performance is greatly enhanced. Water collecting blades are added at the bottom to collect the rainwater entering the air-conditioning chamber through the louvers, and the collected rainwater is discharged out of the air-conditioning chamber through the slope formed by itself, so as to realize the drainage function. The inner wall of the air-conditioning compartment is equipped with a waterproof layer and a waterproof coating is added at the bottom to ensure the waterproof performance and eliminate the hidden danger of rainwater leakage. The drainage slope formed by the thermal insulation layer and the waterproof layer further discharges the rainwater splashed from the water collection blades into the air-conditioning compartment, thereby increasing the drainage performance of the system.

The utility model has been described in detail above in conjunction with the embodiments of the accompanying drawings, and those skilled in the art can make various changes to the utility model according to the above description. Therefore, some details in the embodiments should not constitute a limitation to the utility model, and the utility model shall take the scope defined by the appended claims as the protection scope of the utility model.

Claims (10)

1. a kind of upside-down mounting blinds air-conditioning storehouse water-proof drainage system, air-conditioning storehouse is internally recessed by elevation of building to be formed, its have with The opening of external world's connection, the air-conditioning storehouse are used to house outdoor machine of air-conditioner, it is characterised in that the water-proof drainage system includes：

The frame in the air-conditioning storehouse is fixedly arranged on along the edge of opening；

Tilt and be abreast fixedly arranged on multiple louvre blades in the frame, the absolute altitude of the louvre blade medial end is less than outside The absolute altitude of end；And

Collection wiper blade below the louvre blade, the collection wiper blade are fixedly arranged on the bottom of the frame and towards the air-conditioning Tilt upward settings on the inside of storehouse, the upper surface for collecting wiper blade is formed with one towards the setting slope of the opening.

2. upside-down mounting blinds air-conditioning storehouse as claimed in claim 1 water-proof drainage system, it is characterised in that the frame includes first Frame and the second frame, second frame are fixedly arranged in first frame, and the second frame bottom and described first Draining gap is installed between frame bottom.

3. upside-down mounting blinds air-conditioning storehouse as claimed in claim 2 water-proof drainage system, it is characterised in that also include located at described the Between the side of two frames and the side of first frame, for the hinge of louvre blade described in control folding.

4. upside-down mounting blinds air-conditioning storehouse as claimed in claim 2 water-proof drainage system, it is characterised in that described to collect the upper of wiper blade The medial end that surface corresponds to the louvre blade is set, and receives the rainwater flowed into from the medial end of the louvre blade, and then The rainwater of inflow flow to second frame along the setting slope and discharges the air-conditioning storehouse.

5. upside-down mounting blinds air-conditioning storehouse as claimed in claim 2 water-proof drainage system, it is characterised in that the inwall in the air-conditioning storehouse Face is provided with heat-insulation layer, and the outer surface of the heat-insulation layer is provided with waterproof layer；The thickness of the heat-insulation layer bottom and waterproof layer bottom from One end away from opening tapers into one end close to opening, formed with drainage slope.

6. upside-down mounting blinds air-conditioning storehouse as claimed in claim 5 water-proof drainage system, it is characterised in that the waterproof layer bottom Upper surface is additionally provided with waterproof coating.

7. upside-down mounting blinds air-conditioning storehouse as claimed in claim 5 water-proof drainage system, it is characterised in that the drainage slope is close The absolute altitude of open at one end higher than the draining gap absolute altitude and less than the absolute altitude of the vane tip that catchments so that from described The rainwater splashed down in collection wiper blade flow to the draining gap along the drainage slope and discharges the air-conditioning storehouse.

8. upside-down mounting blinds air-conditioning storehouse as claimed in claim 1 water-proof drainage system, it is characterised in that also described including being convexly equipped in Window frame on the outside of the building body of air-conditioning storehouse opening.

9. upside-down mounting blinds air-conditioning storehouse as claimed in claim 8 water-proof drainage system, it is characterised in that the top of the window frame and The upper surface of bottom is formed with flowing water slope.

10. upside-down mounting blinds air-conditioning storehouse as claimed in claim 9 water-proof drainage system, it is characterised in that the opening is built Waterproof plugging structure is filled between building body, the frame and the window frame.