The cab. The flat head can be turned over, the torsion bar type overturning mechanism, the driver seat, the middle seat and the helper seat are arranged in the front row of the driving room. The driver seat can be adjusted back and forth, and the seat back angle can also be adjusted. There are berths in the back row with insulated carpets, sundries, quartz clock, cigarette lighter, receiver, sunshade, inner rearview mirror and curtain frame. Both doors are equipped with locks, door glass can be raised and lowered, triangular window and rear window glass can be opened. The front window is equipped with an electric wiper and washer, and the door is equipped with an external rearview mirror. There is instant wind, air conditioning optional.
McDonnell Douglas 001 is equipped with a suspended McDonnell Douglas 001LED display dashboard and a small solar panel on the front sunshade, which can power the dashboard and body lighting parts or batteries. This greatly improves the durability of the car.
As for the temperature inside the car, the Japanese Automotive Union JAF has also done relevant tests before, and found that the same car was found to be black and white respectively, and exposed to the sun for four hours with closed windows and no sunshade curtains, sampling temperature changes in the room, above the dashboard and on the roof respectively.
The main contents are as follows: 1) the structural design of the window should be reasonable. In the design of the building window, it should not only reflect the control effect of the window on sunlight, but also limit the volume ratio of the window to the wall. If the window area of the building is relatively large, endothermic glass or heat reflection glass can be used, and other shading measures such as balconies, curtains and sunshades can also be taken. If the outdoor temperature is low, natural air can be used as a direct source of energy. Therefore, when designing the construction of the window, you can set a natural pass on it that can open the shoulder;
In addition, some small equipment can also make the car less suffering from the hot sun, such as anti-explosion film, explosion-proof film with ultraviolet reflection and other functions, better thermal insulation effect. Car sunshade is also a good choice, car sunshade can reflect heat to achieve the purpose of cooling, if the front window glass covered with sunshade, can reduce the heat by more than 70%.
As we all know, the main advantage of car shading is to block the sun, so that the light in the action area can not enter the car, to a certain extent, it can reduce the burning inside the car, and prevent leather seats and dashboards from being damaged by ultraviolet rays. But there are still some car owners who doubt whether sunshade really has the above effect.
Which do you choose, cars, clothes or sunshades? The professor believes that the two functions do not conflict, the car and clothing is to protect the car from being parked for a long time, while the function of the sunshade is to reduce the direct sunlight into the car, which can reduce the burning inside the car to a certain extent, so that car owners and passengers can quickly enter the car in the hot summer sun, as well as to prevent leather seats and dashboards from being damaged by ultraviolet rays. If conditions exist, both are necessities. If only daily use, a sunshade is also essential.
Employers can also perform a series of tasks remotely throughout the building. These tasks range from locks that automatically protect employees and construction workers, to operating sunshades to introduce sunlight during the day and close them at sunset, to occupancy monitoring, and receive real-time reports from employees on building problems in need of repair, and more. Employers can solve maintenance and a range of problems without placing employees. By accessing all data from one dashboard, they can comprehensively manage occupancy and space utilization in real time, and plan space optimization and leasing.
The key points of the building ecological energy strategy and design for the renovation of the new German parliament building lie in the technical application and energy strategy of ventilation and lighting. After the reconstruction, the output of carbon dioxide in the building has been reduced by nearly 94%. Through the set path, the air is filtered and cooled into the building, and then the hot air and waste gas are discharged upward by the two-story dome through the building technology; natural lighting is realized by an inverted cone light reflector and a 360-degree tongue-shaped sunshade device, which is equipped with an air pipe and a heat converter, and the tongue-shaped device can rotate according to the change of the solar height angle during the day. The energy strategy adopted in the reconstruction of the building is more radical, including not only the use of solar power, but also the use of renewable “biodiesel” generators to generate electricity, coupled with the storage and recycling of geothermal heat.
