阅读说明：本技术 双排斗 (Double-row bucket ) 是由 刘红梅 位春雷 位学长 于 2021-11-14 设计创作，主要内容包括：本发明公开了一种屋面排水排汽装置——双排斗,主要应用于屋面防水保温排水排汽系统,旨在解决屋面保温层内积水不能及时排泄和湿气排放缓慢的难题。双排斗由底座和盖板两部分组成,底座安装在屋面结构中,盖板支撑柱朝下安装在底座上,底座下端连接在室内厨房、卫生间排气筒上,排气筒下端与下水管网连接,上端高出屋面与大气连通,当屋面保温层内积水过多时,双排斗通过厨房、卫生间下水管网把保温层内积水排出,当屋面保温层内有积汽有压力时,气体也会通过挤塑板缝隙进入双排斗,通过排气筒排放到空中。(The invention discloses a roof drainage and steam exhaust device, namely a double-row bucket, which is mainly applied to a roof waterproof heat-preservation drainage and steam exhaust system and aims to solve the problems that accumulated water in a roof heat-preservation layer cannot be drained in time and moisture is slowly discharged. The double-row bucket is composed of a base and a cover plate, the base is installed in a roof structure, a cover plate supporting column is installed on the base downwards, the lower end of the base is connected to an indoor kitchen and toilet exhaust funnel, the lower end of the exhaust funnel is connected with a sewer pipe network, the upper end of the exhaust funnel is higher than the roof and communicated with the atmosphere, when accumulated water in the roof insulation layer is too much, the double-row bucket discharges the accumulated water in the insulation layer through the sewer pipe network in the kitchen and the toilet, when accumulated steam in the roof insulation layer has pressure, gas can enter the double-row bucket through gaps of extruded sheets and is discharged into the air through the exhaust funnel.)

1. A drainage and steam exhaust device, double-row bucket, includes base and cover plate, and is characterized by that the double-row bucket is formed from base seat and cover plate, the base seat is mounted in roof structure layer, the cover plate supporting column is downwards mounted on the base seat, and under the combined action of cover plate filtering column, supporting column, blade and inner wall of base seat a drainage and steam exhaust channel is formed between the cover plate cover and base seat, at the same time the cover plate filtering column is used for filtering impurity.

2. The twin bucket of claim 1 wherein the base is thick at the top and thin at the bottom with a diameter varying, the top ledge of the base has a base panel with a panel groove on the top surface, the bottom surface has a base stabilizing strip, the panel groove facilitates the firm bonding of the inverted waterproof layer, and the base stabilizing strip facilitates the mounting of the fixed base.

3. The dual-purpose bucket according to claim 1, wherein a plurality of filtering columns are arranged under the cover plate panel, and the filtering columns are arranged in 4 concentric circles at a certain interval, so that the cover plate can be supported, a gap is reserved between the cover plate and the base to form a drainage and steam exhaust channel, and impurities can be prevented from flowing into the base.

4. The dual bucket of claim 1 wherein the center of the cover plate is downwardly oriented with a support post around which are regularly arranged and symmetrically arranged pairs of blades that closely engage the inner wall of the base to ensure that the cover plate is securely mounted on the base without being offset from the center of the base.

Technical Field

The invention relates to a drainage and steam exhaust device, namely a double-row hopper, which is mainly applied to a building roof and used for exhausting accumulated water and moisture in a roof heat-insulating layer.

Background

GB50345-2012 roofing engineering specification 4.4.5 states that the roof exhaust structure should comply with the following regulations:

(1) the dividing joint arranged on the leveling layer can be used as a steam exhaust passage, and the width of the steam exhaust passage is preferably 40 mm;

(2) the steam exhaust channel is communicated with the vertical and horizontal steam exhaust pipes communicated with the atmosphere, and the steam exhaust holes can be arranged below the cornice or at the intersection of the vertical and horizontal steam exhaust channels;

(3) the longitudinal and transverse spacing of the steam exhaust channel is preferably 6m, and the area of the roof is 36m²A steam exhaust hole is preferably arranged and is subjected to waterproof treatment;

(4) plastic boards with supporting points can also be laid under the heat preservation layer.

The 8 th item generally specified in the common general knowledge of the general regulations in the second chapter of the courseware of the technical Specification GB50345-2018 and the inverted roof technical Specification JGJ230-2018 indicates that the roof exhaust steam structure meets the following regulations:

(1) the dividing joint arranged on the leveling layer can be used as an exhaust passage, and the width of the exhaust passage is preferably 40 mm;

(2) the exhaust channel is communicated with the exhaust pipe communicated with the atmosphere in a longitudinal and transverse mode, and the exhaust hole can be arranged under the cornice or at the intersection of the longitudinal and transverse exhaust channels;

(3) the longitudinal and transverse spacing of the exhaust passage is preferably 6m, and the area of the roof is 36m²An exhaust hole is preferably arranged and is subjected to waterproof treatment;

(4) a plastic plate with a fulcrum can also be laid under the heat preservation layer, and water and air are discharged through the cavity layer.

It can be seen that 'steam' in the technical specification of the roof engineering of GB50345-2012 and 'gas' in the technical specification of the roof engineering of GB50345-2018 and the technical specification of the inverted roof JGJ230-2018 teach that 'gas' is a meaning in courseware, and in the field of building, 'steam barrier' and 'gas barrier' are often mixed, so that 'steam' and 'gas' written in the present invention are also a meaning. The steam discharge structure in the above two specifications has basically the same items (1), (2) and (3), and in item (4), after 'a plastic plate with a fulcrum can be laid under the heat preservation layer', the latter adds 'water discharge and air discharge through the cavity layer'. It can be seen that the purpose of the two specifications is to control the water and steam in the insulating layer to gather under the insulating layer, and the latter specification is more clearly expressed. At present, the roof engineering technical specification only designs the steam exhaust hole, and although moisture can be upwards discharged from the steam exhaust pipe through the steam exhaust hole, accumulated water is discharged downwards, so that the accumulated water cannot be discharged from the steam exhaust hole.

Can see through above standard regulation, the downthehole ponding of roofing insulation, moisture all wait for them to become gaseous back, lean on the steam vent to discharge slowly, if only a small amount of moisture, can also solve the steam exhaust problem through the steam vent, but in fact, a lot of seepage roofing all has a large amount of ponding in the insulation, lean on evaporative emission far away not enough. These specifications were introduced from the sixty-seven years of the last century, and the insulating material used in the insulating layer was cement perlite or asphalt perlite, so that the accumulated water would not flow in the cement perlite or asphalt perlite, but would be slowly discharged from the steam vent by evaporation. The existing roof heat-insulating layer material uses the extruded sheet to replace cement perlite, the extruded sheet does not absorb water, accumulated water or moisture has good water mobility and steam mobility in gaps of the extruded sheet, the moisture can return upwards through the gaps of the heat-insulating plate, and the accumulated water can naturally gather under the heat-insulating layer. From the real roofing seepage condition, all there is ponding in the seepage roofing insulation can, the condition is serious, and ponding can reach more than 100mm in the insulation can, and the steam vent does not have quick drainage function, can not satisfy drainage, steam extraction needs.

The invention relates to a drainage and steam exhaust device, in particular to a double-row bucket, which consists of a base and a cover plate, wherein the base is arranged in a roof structure layer, a base stabilizing strip is embedded in a structural slope layer or a leveling layer, and a steam barrier layer or an inverted waterproof layer is arranged on the plane of a base panel. The water outlet of the base is connected with the steam exhaust barrel of the roof of a kitchen or a toilet indoors, the cover plate covers the base, the inverted waterproof layer is arranged below the filter column of the cover plate, water and steam in the heat-insulating layer are collected and discharged through the double-drain-bucket base, and are shunted in the steam exhaust barrel, the steam moves upwards and is discharged from the steam exhaust port, the water flows downwards, enters the drainage channel of the steam exhaust barrel and flows to the drainage pipe network of the building.

GB50345-2012 roofing engineering specification 5.3.4 section 4 states that metal or plastic exhaust pipes can be embedded at the intersections of the longitudinal and transverse exhaust ducts of the roof, the exhaust pipes are preferably arranged on the structural layer, and holes should be punched through the insulating layer and around the pipe walls of the exhaust ducts. In cold winter, a thick layer of frost is condensed on the inner wall of the roof exhaust pipe, and the frost flows into the heat-insulating layer from the exhaust hole after being converted into water. After the device of the invention, namely the double drain buckets are installed, the roof is not provided with steam exhaust holes, and a steam exhaust pipe is not installed, so that the condition that condensed water flows into the heat insulation layer can be avoided.

On the roof with a small area, the double-row bucket can completely replace steam exhaust holes, and on the roof with a large area, the double-row bucket can be supplemented with other water and steam exhaust devices, such as a three-row bucket and the like, so as to partially replace the steam exhaust holes (the three-row bucket is another water and steam exhaust device developed based on the same idea, and has the functions of collecting and discharging roof rainwater, exhausting accumulated water and moisture in the heat insulation layer, ventilating the heat insulation layer and the like). Because the double-row bucket is arranged in the heat-insulating layer, steam is exhausted outwards by virtue of the steam exhaust barrels of the kitchen and the toilet, the roof does not have steam exhaust holes, and the steam exhaust pipe is not arranged, thereby eliminating the hidden trouble that the steam exhaust pipe is damaged and changed into a roof leakage point.

Disclosure of Invention

The invention aims to solve the problems that accumulated water in a roof insulation layer cannot be drained in time and moisture is slowly drained. The invention solves the problem by designing a double-drain device of water and steam, namely a double-drain bucket.

The accumulation of accumulated water and moisture under the roof insulation layer and the fluidity of water and steam in the gaps of the extruded sheet provide feasibility for the installation and the use of the device, namely the double-drain. Compared with the steam exhaust hole, the double-drain-bucket steam exhaust area is larger, 1 double-drain bucket can replace a plurality of steam exhaust holes, and the double-drain bucket is installed to cancel the roof steam exhaust hole, so that the open steam exhaust of the steam exhaust hole is changed into the dark steam exhaust of the double-drain bucket, and the drainage of accumulated water and moisture in the heat insulation layer is facilitated.

The double-row bucket is composed of a base and a cover plate, the base is installed in a roof structure, a base water outlet is connected with a kitchen and toilet roof exhaust funnel indoors, a base panel and a structure slope finding layer are at the same height, a cover plate support column is installed downwards in the base and is jointly acted by a cover plate filtering column, a support column, blades and the inner wall of the base, a water and steam discharging channel is formed between the cover plate and the base (on a steam isolating layer or an inverted waterproof layer), and meanwhile, the cover plate filtering column can be used for filtering sundries. The base is thick at the top and thin at the bottom, and is provided with a variable diameter, the thick at the top is beneficial to collecting accumulated water, and the thin at the bottom is beneficial to being connected with the exhaust funnel. A base stabilizing strip is arranged below the base panel and embedded in the structural slope finding layer to play a role in stabilizing the base. The lower end of the base is connected to an exhaust funnel of an indoor kitchen or toilet, the lower end of the exhaust funnel is connected with a sewer pipe network, the upper end of the exhaust funnel is higher than a roof and is communicated with the atmosphere, when excessive water is accumulated in a heat-insulating layer of the roof, the double-row hopper discharges the accumulated water in the heat-insulating layer through a sewer passage of the exhaust funnel (the accumulated water in the heat-insulating layer is limited, the flow is far smaller than the water flow of the kitchen or toilet, the normal use function of the kitchen or toilet cannot be influenced), and when steam pressure exists in the heat-insulating layer of the roof, gas can enter the double-row hopper through gaps of the extruded sheet and is discharged into the air through the exhaust funnel. The filter column can not only filter sundries and prevent the sundries from flowing into the base, but also support the cover plate to keep a certain distance with the base, thereby ensuring the accumulated water to be discharged smoothly. The support columns and the blades can ensure that the cover plate is stabilized at the central position above the base.

When water and steam in the heat-insulating layer flow through the exhaust funnel through the double drain hoppers, the water and the steam are divided, the steam flows upwards, the water flows downwards, and the principle of the water and the steam division is the same as that of the water and the steam after the water flows to the exhaust funnel in a kitchen and a toilet. Thus, the double-drain bucket realizes double drainage of water and steam. Accumulated water and moisture in the heat-insulating layer are discharged in time, so that the hidden danger of house leakage can be reduced, the heat-insulating performance of the heat-insulating layer can be improved, and the waterproof heat-insulating service life of the roof can be prolonged.

Drawings

FIG. 1 is a schematic view of a dual drain cover.

Fig. 2 is a front view of a double-deck, where 1 is a deck panel, 2 is a filter column, 3 is a support column, and 4 is a blade.

Fig. 3 is a bottom view of the dual drain cover.

FIG. 4 is a schematic view of a dual-dock, where 1 is the dock faceplate and 2 is the faceplate slot.

FIG. 5 is a front view of a dual-row bucket base, where 1 is a base stabilizing strip and 2 is a reducing.

FIG. 6 is a top view of the dual drain base.

Fig. 7 is a schematic view of the dual hopper assembly.

Fig. 8 is a schematic view of double-drain roof installation, wherein 1 is a waterproof protective layer, 2 is an insulating layer, 3 is an inverted waterproof layer, 4 is a slope layer, 5 is a roof structure layer, 6 is an exhaust funnel of a kitchen or a toilet, 7 is an exhaust port, 8 is a water and steam inlet, 9 is a double-drain, and 10 is a drainage channel of the exhaust funnel.

Detailed Description

The use and installation requirements of the invention are as follows: double-hopper pedestal mounting is in roofing structure, and the mounted position is close to kitchen, bathroom exhaust stack department to about 600mm of both outer wall intervals is suitable, and the base is connected with the steam extraction section of thick bamboo indoor, and the apron is located roofing heated board below, and if the apron influences roofing heated board when shop pastes, usable instrument excision receives the influence part heated board, and it is suitable to loosely shop paste the heated board, then in double-hopper top spread one deck area 1 m additional²And the additional layer of the insulation board with proper thickness is arranged on the left and the right. Note that: the height of the steam exhaust cylinder from the roof needs to be ensured to keep a distance of more than 600mm between a steam outlet and a waterproof protective layer, a building with a ceiling design is arranged in a top room, a structure slope finding layer is not needed, after a water closing test of a steam barrier layer or an inverted waterproof layer, double rows of hoppers are additionally arranged at the most concave part of the structure, and the nearest steam exhaust cylinder is connected indoors.