TH11928B - "Ventilation structure that prevents condensation" - Google Patents

Abstract

Ventilation structure that prevents condensation With at least one claw Consisting of an innermost ventilation section designated as a passage for air flow The innermost fins are provided with an open top and bottom to make Forming a channel for the air flow inside An air flow reducer is located above or in the innermost fin to restrict air flow in the middle of the Such flow channel

Claims (5)

1.Condensation-proof ventilation construction with at least one of the fins. Defined as an air flow channel, such fins are provided with open top and bottom ends to define the air flow channels in them, and there is a suppressed air flow reducer. To have on the top of the stream of the fins To reduce the air flow in the center of the flow channel, in which the air flow reducer is provided, is provided at the center of the air flow reducer with the Restrict the flow that is against the flow And on the surrounding parts of the air flow component there is Allows a smooth, low-resistance air flow that is welded to the high-resistance flow limiter. 2. Anti-condensation ventilation structure according to claim 1, the air flow reducer consists of a perforated damper. 3. Condensation-proof ventilation structure according to claim 2, which the perforated flow reducer is made into a perforated sheet. 4. A vented structure that prevents condensation with at least one of its parts. The fins are set up as a long channel of air flow. The fins are provided with a top end and Below the opening to set the air flow control compartment in it, and there is an air flow reducer that is It is provided on top of the fin stream to reduce the air flow at the center of the flow channel. Where the air flow reducer is provided, in the middle of the air flow reducer with the Limiting the flow that is against high flow And on the surrounding part of the air flow reducer there is Allows a smooth, low-resistance air flow connected to the opposing flow limiter. High flow, such a reducer is composed of a perforated reducer and reducer. The perforated flow is then made into a grate. 5. A condensation-proof ventilation structure that contains at least one of the fins. Defined as an upward flow channel The fins are provided with the top and side ends. Bottom opening to set the air flow channel up in it. And there will be a suppressed air flow reducer It is provided above the fin stream top to reduce the air flow at the center of the flow channel where the air flow reducer is provided at the center of the air flow reducer with the limiter. The high anti-flow flow and on the surrounding part of the air flow reducer have a A smooth, low-flow airflow is created connected to the anti-flow limiter. High, and such a reducer consists of a perforated reducer. And flow reducer The perforated pattern is in the form of a parabolic coil. Which has reduced diameter respectively Towards the end of the stream of the air flow. 6. A ventilated structure that prevents condensation with at least one of the fins. Designated as a channel for rising air flow The fins are provided with an open top and bottom to direct the air flow in it. And there will be a suppressed air flow reducer To have on the top of the stream of the fins To reduce the air flow in the center of the flow channel in which the air flow reducer is provided, the center of the air flow reducer has a section. Limiting the flow at high anti-flow, and on the surrounding part of the air flow reducer there is This allows for a smooth, low-flow air flow connected to a high-flow counterpart, which is composed of a perforated reducer and a reducer. The perforated flow is in the form of a cone whose diameter decreases, respectively, towards The stream end of the air flow 7. A vented structure that prevents condensation with at least one of the The fins are designated as channels for rising air flow. The fins are provided with a top end and Bottom opening to set the air flow channel up in it. And there will be a reducer of air flow that Is set up above the stream of the fins To reduce the air flow in the center of the flow channel in which the air flow reducer is provided, the center of the air flow reducer has a section. Restrict the flow at high anti-flow, and on the surrounding part of the air flow reducer there is a This produces a smooth, low-flow air flow that is connected to the high anti-flow flow limiter, which is composed of a perforated duct reducer and a flow reducer. The perforated pattern will distribute the hole density. In which the density of the holes is Increase in order from the middle part to the part that is on the edge of it to reduce the ability Blocking the flow of air down, No. 8. Ventilation structures that prevent condensation according to claim 1, where the reducer The airflow consists of a flow limiter arranged in the center of the channel. Flow is defined within the fins. 9. Condensation-proof ventilation structure according to claim 1, where the reducer The air flow regulates its reduced diameter sequentially towards the stream end of the The air flow reducer extends into the air flow channel, so at least one part of the air flow reducer is installed between the top and bottom ends of the flanges. 0. A number of condensation-proof ventilation structures. Of the concentric fin segment, which includes the innermost fin portion, is provided with the upper and lower ends Bottom open Where the air flow channel is defined by and is located between the adjacent fin segments. The inner air channel is fixed inside the innermost fin and the reducer. Of perforated air is provided in Or on the top of the stream of the inner air flow channel at Is set up within the innermost fin section To restrict the air flow in the center of the channel The inner air flow is greater than the air flow outside of the inner air flow channel, where the air flow reducer only extends across the innermost fin section. They are made from the shape of the grid as specified. 1 1. Condensation-proof ventilation structure according to claim 10, where the ductwork is arranged in the center of the ductwork. Of air with parts Restrict the counter-flow and on the surrounding parts of the air flow reducer with allowable This produces a smooth, low-flow air flow that is connected to the high-flow anti-flow limiter 1 2. Condensation-proof ventilation structure according to claim 10, where the flow reducer Of such air controls the reduced diameter sequentially towards the end of the air flow. ; Where the air flow reducer extends into the air flow channel, therefore at least one part of the air flow reducer is installed between the top ends. And the bottom of the fins in the very end. 1 3. Ventilation structure that prevents condensation. ; Consists of a slit frame Hollow ventilation with a core in the center A certain number of fin sections are positioned within the slotted frame. Ventilation around the medial axis to define the air vents between the adjacent fin segments, the number of which includes the innermost fin section with the open top end and the bottom open end. During which it is defined as the air flow channel, the lower end is installed at the end. The stream of the upper end And air-flow reduction pathways for reducing air flow in At least in the middle of the air flow channel. And the way to reduce such air flow will There is a path for the air flow in the center of the air flow channel. Which will have less speed Than the air flow along the innermost surface of at least part of the trajectory The airflow reducer is positioned against the stream end of the open top end of the innermost fin section 14, a condensation-proof ventilation structure according to claim 13, where airflow reduction pathways are It is installed at the upper end of the innermost fin section and extends in the direction of the current inlet end 1 5. Condensation-proof ventilation structures according to claim 13, where such airflow mitigation paths include common flat parts aligned within the section. The innermost fin is between the top and bottom ends.