CN218264604U - Quick drainage roofing for computer lab - Google Patents

Abstract

The utility model provides a quick drainage roofing for computer lab, including catch basin, drainage tube and a plurality of roofing units, the roofing unit is rectangular structure, and the arrangement of roofing unit is arranged along the width direction in proper order, and the roofing unit inclines towards the same direction and sets up, and each roofing unit interval sets up, the catch basin sets up between each roofing unit for collect the rivers on the roofing unit, the catch basin has seted up the catch basin delivery port on the catch basin, the one end of drainage tube is connected in the catch basin delivery port; the problem of because of the computer lab is with quick drainage roofing oversize, the face that causes is crooked easily, be difficult to the transportation, the cost is high is avoided to through the quick drainage of catch basin, avoid roofing ponding, and set up the drainage tube and draw forth the rivers in the catch basin. The quick drainage roof for the machine room can quickly lead out the running water on the roof in a partitioned manner, so that the roof water leakage caused by the slow water flow discharge speed is avoided.

Description

Quick drainage roofing for computer lab

Technical Field

The utility model relates to a computer lab is with quick drainage roofing's technical field especially relates to a computer lab is with quick drainage roofing structure.

Background

Outdoor machine room has been widely used in units such as telecom operators, power operators and the like because of the convenience of actual deployment, and the situation of roof water leakage inevitably occurs after the outdoor machine room completes construction for several years, which easily causes the fault of water-meeting of internal equipment of the machine room, and may cause the situations of electric power short circuit or fire disaster in the machine room if serious.

If regularly change the roofing and can cause the computer lab maintenance cost to increase by a wide margin, for this reason, we propose a roofing for outdoor computer lab.

SUMMERY OF THE UTILITY MODEL

Therefore, a quick drainage roof for a machine room is needed to solve the problem of roof water leakage easily formed in an outdoor machine room due to the aging of waterproof materials or construction process.

For realizing above-mentioned purpose, the inventor provides a quick drainage roofing is used to computer lab, including catch basin, drainage tube and a plurality of roofing unit, the roofing unit is arranged in proper order, the roofing unit sets up towards same direction slope, and each roofing unit interval sets up, the catch basin sets up between each roofing unit for collect the rivers on the roofing unit, the catch basin delivery port has been seted up on the catch basin, the one end of drainage tube is connected in the catch basin delivery port.

Furthermore, the roof units are of a strip-shaped structure, and the arrangement direction of the roof units is arranged along the width direction of the roof units.

Furthermore, the roof units are arranged at intervals along the length direction and the width direction, or the roof units are arranged at intervals along the length direction, or the roof units are arranged at intervals along the width direction.

Further, the length of the water storage tank is the same as that of the roof unit, and the length direction of the water storage tank is arranged along the length direction of the roof unit.

Further, the inclination angles of the roof units are consistent.

Further, the drainage tube is arranged vertically.

Furthermore, the bottom of the water storage tank is an inclined plane, and the bottom of the water storage tank inclines towards the direction of the drainage tube, so that water in the water storage tank flows into the drainage tube quickly.

Further, the cross section of the water storage tank is of a U-shaped structure.

Furthermore, the roof unit comprises a leveling layer, a heat insulation layer, a steam barrier and a structural base layer which are sequentially arranged from top to bottom.

Furthermore, the structure base layer is a color steel plate, the steam barrier layer is a felt, the heat preservation layer is prefabricated and assembled by polystyrene foam plastic plates, and the leveling layer is a mortar leveling layer.

Different from the prior art, the technical scheme has the following advantages:

through setting up the roofing into the structure that a plurality of roofing units are constituteed, avoided because of the computer lab is with quick drainage roofing oversize, the easy crooked, the difficult transportation of face that causes, the problem that the cost is high set up the catch basin between each roofing unit and make the rivers on each roofing unit flow in the catch basin that corresponds to through the quick drainage of catch basin, avoid roofing ponding, and set up the drainage tube and draw forth the rivers of catch basin. The quick drainage roof for the machine room can quickly lead out the running water on the roof in a partitioned mode, and the roof water leakage caused by the slow water flow discharge speed is avoided.

Drawings

Fig. 1 is a schematic top view of a quick drainage roof for a machine room in the embodiment;

FIG. 2 is a schematic structural view of a quick drainage roof cutting line C for the machine room in the embodiment;

FIG. 3 is a schematic structural view of a quick drainage roof cutting line B for the machine room in the embodiment;

fig. 4 is a schematic structural view of the roofing unit of the embodiment;

FIG. 5 is a schematic view of the draft tube of this embodiment.

Description of reference numerals:

1. a roofing unit;

15. a water storage tank;

2. a drainage tube;

11. leveling layer;

12. a heat-insulating layer;

13. a vapor barrier;

14. a structural base layer;

4. a tilt beam;

5. a cross beam;

6. a support pillar;

7. sandal wood strips.

Detailed Description

In order to explain in detail possible application scenarios, technical principles, practical embodiments, and the like of the present application, the following detailed description is given with reference to the accompanying drawings in conjunction with the listed embodiments. The embodiments described herein are merely for more clearly illustrating the technical solutions of the present application, and therefore, the embodiments are only used as examples, and the scope of the present application is not limited thereby.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase "an embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or related to other embodiments specifically defined. In principle, in the present application, the technical features mentioned in the embodiments can be combined in any manner to form a corresponding implementable solution as long as there is no technical contradiction or conflict.

Unless otherwise defined, technical terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the use of relational terms herein is intended to describe specific embodiments only and is not intended to limit the present application.

In the description of the present application, the term "and/or" is a expression for describing a logical relationship between objects, meaning that three relationships may exist, for example a and/or B, meaning: there are three cases of A, B, and both A and B. In addition, the character "/" herein generally indicates that the former and latter associated objects are in a logical relationship of "or".

In this application, terms such as "first" and "second" are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Without further limitation, in this application, the use of the phrases "comprising," "including," "having," or other similar expressions, is intended to cover a non-exclusive inclusion, and these expressions do not exclude the presence of additional elements in a process, method, or article that includes the elements, such that a process, method, or article that includes a list of elements may include not only those elements defined, but other elements not expressly listed, or may include other elements inherent to such process, method, or article.

As is understood in the examination of the guidelines, the terms "greater than", "less than", "more than" and the like in this application are to be understood as excluding the number; the expressions "above", "below", "within" and the like are understood to include the present numbers. Furthermore, the description of embodiments herein of the present application of the term "plurality" means more than two (including two), and the analogous meaning of "plurality" is also to be understood, e.g., "plurality", etc., unless explicitly specified otherwise.

In the description of the embodiments of the present application, spatially relative expressions such as "central," "longitudinal," "lateral," "length," "width," "thickness," "up," "down," "front," "back," "left," "right," "vertical," "horizontal," "vertical," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used, and the indicated orientations or positional relationships are based on the orientations or positional relationships shown in the specific embodiments or drawings and are only for convenience of describing the specific embodiments of the present application or for the convenience of the reader, and do not indicate or imply that the device or component in question must have a specific position, a specific orientation, or be constructed or operated in a specific orientation and therefore should not be construed as limiting the embodiments of the present application.

Unless specifically stated or limited otherwise, the terms "mounted," "connected," "secured," and "disposed" used in the description of the embodiments of the present application should be construed broadly. For example, the connection can be a fixed connection, a detachable connection, or an integrated connection; it can be mechanical connection, electrical connection, and communication connection; they may be directly connected or indirectly connected through an intermediate; which may be communication within two elements or an interaction of two elements. Specific meanings of the above terms in the embodiments of the present application can be understood by those skilled in the art to which the present application pertains in accordance with specific situations.

Outdoor machine room has been widely used in units such as telecom operators, power operators and the like because of the convenience of actual deployment, and the situation of roof water leakage inevitably occurs after the outdoor machine room completes construction for several years, which easily causes the fault of water-meeting of internal equipment of the machine room, and may cause the situations of electric power short circuit or fire disaster in the machine room if serious.

If regularly change the roofing and can cause the computer lab maintenance cost to increase by a wide margin, for this reason, we propose a roofing for outdoor computer lab.

Referring to fig. 1 to 5, the present embodiment provides a quick drainage roof for a machine room, including: the roof unit 1 is of a strip-shaped structure, the arrangement of the roof units 1 is sequentially arranged along the width direction, the roof units 1 are obliquely arranged towards the same direction, the inclination angles of the roof units are consistent, each roof unit 1 is arranged at intervals along the length direction, the water storage tank 15 is arranged among the roof units 1 and used for collecting water flow on the roof units 1, a water storage tank 15 water outlet is formed in the water storage tank 15, and one end of the drainage tube 2 is connected to the water outlet of the water storage tank 15;

through setting up the roofing into the structure that a plurality of roofing units 1 are constituteed, avoided because of the computer lab is too big with quick drainage roofing size, the face that causes is crooked easily, be difficult to the transportation, the problem that the cost is high, set up catch basin 15 between each roofing unit 1 and make the flowing water on each roofing unit 1 flow in corresponding catch basin 15 to through the quick drainage of catch basin 15, avoid roofing ponding, and set up drainage tube 2 and draw forth the rivers in the catch basin 15. The quick drainage roof for the machine room can quickly lead out the running water on the roof in a partitioned mode, and the roof water leakage caused by the slow water flow discharge speed is avoided.

The direction of the arrows in fig. 1 and 3 is the drainage direction.

The roof unit 1 is of a strip-shaped structure, the arrangement direction of the roof units 1 is arranged along the width direction of the roof units, the strip-shaped roof units 1 are arranged, so that the roof units 1 can be regularly arranged along the side lines, the construction is facilitated, the required size of the roof unit 1 can be calculated through measurement, the size is reasonably selected, the materials and the cost are saved, the roof units 1 are arranged in a lap joint manner along the width direction of the roof units 1, and when the weather of rainwater is met, the rainwater can flow along the width direction of the roof units 1, and the roof water leakage cannot be caused;

when the roof units 1 are arranged at intervals along the width direction, the adjacent intervals have height difference on the vertical plane, so that the adjacent roof units 1 have overlapping areas on the horizontal plane, and the overlapping areas can prevent rainwater from flowing into a room when the rainwater flows through the adjacent roof units 1;

the length of the water storage tank 15 is the same as that of the roof unit 1, the length direction of the water storage tank 15 is arranged along the length direction of the roof unit 1, rainwater flowing into the interval of the roof unit 1 can be collected by arranging the water storage tank 15, the length of the water storage tank 15 is the same as that of the roof unit 1, the interval of the roof unit 1 can be completely covered, the direction of the water storage tank 15 is consistent with that of the roof unit 1, an operator can conveniently connect the water storage tank 15 with the roof unit 1, and the construction speed is accelerated;

the inclination angles of the roof units 1 are consistent, the uniform inclination angle is convenient for drainage of the roof units 1, and backflow and water leakage phenomena caused by inconsistent inclination angles can be avoided;

the drainage tube 2 is vertically arranged and is close to the outer wall of a building, the drainage tube 2 is vertically arranged, rainwater collected in the water storage tank 15 can be drained most quickly, the drainage tube is not easy to block after being used for a long time, and the vertical drainage tube 2 is more favorable for dredging;

the bottom of the water storage tank 15 is an inclined plane, and the bottom of the water storage tank 15 inclines towards the drainage tube 2, so that water in the water storage tank 15 can quickly flow into the drainage tube 2, accumulated water in the water storage tank 15 is prevented from causing scale, and the water storage tank 15 can have a longer service life;

the cross section of the water storage tank 15 is of a U-shaped structure, and the inner wall of the water storage tank 15 with the U-shaped structure is smooth and has no included angle, so that sand grains and dust flowing into the water storage tank 15 can flow out conveniently, and the water storage tank 15 is prevented from being burdened by accumulation of the sand grains and the dust;

roofing unit 1 includes screed-coat 11, heat preservation 12, vapour barrier 13 and the structure basic unit 14 that top-down set gradually, through structure basic unit 14 set up to the roofing structure provides the support, provides the most direct water-proof effects, vapour barrier 13 can prevent that the indoor steam from permeating through structure basic unit 14 and getting into heat preservation 12, can guarantee that heat preservation 12 is effective for a long time, set up heat preservation 12 and can be isolated indoor outer temperature to certain ground, play heat preservation or thermal-insulated ground effect, screed-coat 11 can separate rainwater and 11 bottom structures of screed-coat, has avoided the corrosion of bottom structure to suffer the rainwater, can provide smooth drainage face simultaneously, makes the roofing not have the production of ponding, wherein, structure basic unit 14 is the color steel board, vapour barrier 13 is the asphalt felt, heat preservation 12 is the prefabricated assembly of polystyrene foam plastic slab, screed-coat 11 is mortar screed-coat 11.

The utility model discloses a still include: the roof rapid drainage system comprises inclined beams 4, cross beams 5, support columns 6 and sandalwood strips 7, wherein the inclined beams 4, the cross beams 5 and the sandalwood strips 7 are arranged at the bottom of a roof unit 1, the support columns 6 are arranged at the bottoms of the inclined beams 4, the cross beams 5 and the catch basins 15, the cross beams 5 are arranged along the length direction of the roof unit 1, the length of the cross beams 5 is consistent with that of the roof unit 1, the cross section of each cross beam 5 is a right-angle quadrangle and is connected to the bottom of the roof unit 1, the cross beams 5 are arranged at the free ends of the head and tail roof units 1, the inclined beams 4 are arranged along the width direction of the roof unit 1, the inclination angles of the inclined beams are consistent with that of the roof unit 1, the sandalwood strips 7 are uniformly distributed along the width direction of the roof unit 1 and are arranged between the two adjacent catch basins 15 and between the catch basins 15 and the cross beams 5, the support columns 6 are preferably arranged at the bottom of the catch basins 15 when being distributed along the inclined beams 4, and the machine room rapid drainage roof is used for the machine room, and the inclined beams 4, and the sandalwood strips 7 and the support columns 6 are made of square steel;

through set up sloping beam 4 in roofing unit 1 bottom, crossbeam 5, sandalwood strip 7, can support for roofing unit 1, the frame that sloping beam 4 and crossbeam 5 are connected and are formed can support the border of roofing unit 1, form quick drainage roofing shape for the computer lab, set up sandalwood strip 7 between adjacent catch basin 15 evenly at the interval, between catch basin 15 and the crossbeam 5, with sloping beam 4, crossbeam 5 forms the plane that supports roofing unit 1, sloping beam 4 mainly provides the support for the width direction of roofing unit 1, crossbeam 5 mainly provides the support for the length direction of roofing unit 1, the setting of sandalwood strip 7 can reduce the span of roofing unit 1 length direction, and then reduce the thickness of quick drainage for the computer lab, adjust the inclination of sloping beam 4 and the inclination of roofing unit 1 to unanimous, make the atress of contact surface more even be favorable to the stability of roofing structure, connect the top surface of support column 6 with catch basin 15, compare in support column 6 top surface and sloping beam 4 and be connected, the former top surface can not need polish into the inclined plane the same with the sloping beam 4 with the inclination of sloping beam, be more favorable to the installation.

According to the technical scheme, in quick drainage roofing construction and use for the computer lab, operating personnel acquires the square steel support column 6 of different length according to different construction requirements, and will the top of square steel support column 6 is tentatively polished into with required angle of connection, connect square steel support column 6 in the building top firmly according to the construction drawing demand, subsequently erect crossbeam 3 and sloping roof beam 4 at support column 6 top, polish support column 6 top, adjust the seam smoothness degree of junction, with support column 6 and crossbeam 5, sloping roof beam 4 welds each other, make crossbeam 5 and sloping roof beam 4 upper surface form the plane of middle part fretwork, then erect U type catch basin 15 in the position that support column 6 corresponds on sloping roof beam 4, make its level back and sloping roof beam 4 weld. The sandalwood strip 7 sets up between two adjacent U type catch basin 15 and between the crossbeam 5 of U type catch basin 15 and 1 lop of roofing unit, and the interval between each other is even, the operator marks sandalwood strip 7 and U type catch basin 15 on U type catch basin 15, behind the hookup location of crossbeam 5, adjust the upper surface of sandalwood strip 7 to unified domatic angle after welded fastening, lay and fix after will being regarded as the color steel board of structure basic unit 14 and cut length, then bond steam barrier 13 felt and structure basic unit 14, wait to bond firmly the back, assemble polystyrene foam plastic board at steam barrier 13 upper surface, carry out mortar screed-coat 11 afterwards, wait for screed-coat 11 intensity standard after, use waterproof glass to glue to fill the gap that will bond and form. An operator connects the drainage tubes 2 through the U-shaped water storage groove 15, after assembly is completed, if precipitation is generated, rainwater can flow into the water storage groove 15 along the upper surface of the color steel plate of the structural base layer 14, the rainwater in the water storage groove 15 flows to the water outlet along the bottom surface of the water storage groove 15 under the action of gravity, the rainwater is drained out of a roof under the action of the drainage tubes 2, and the roof unit 1 is spliced to avoid the problems that the roof is easy to bend and difficult to bear due to the overlong length of the roof unit 1, meanwhile, the problem that the thickness of the structural plate is increased due to the overlong length of the roof unit 1 is solved, the manufacturing cost is improved, the closed waterproofness of the roof is guaranteed, when the roof unit 1 is damaged to cause water leakage, only the unit 1 with water leakage needs to be replaced, compared with a quick drainage roof for a traditional machine room, and the maintenance cost of the roof with water leakage is greatly reduced.

Finally, it should be noted that, although the above embodiments have been described in the text and drawings of the present application, the scope of the patent protection of the present application is not limited thereby. All technical solutions generated by replacing or modifying the equivalent structure or the equivalent flow described in the text and the drawings of the present application and directly or indirectly implementing the technical solutions of the above embodiments in other related technical fields and the like based on the substantial idea of the present application are included in the scope of the patent protection of the present application.

Claims (10)

1. The utility model provides a computer lab is with quick drainage roofing, its characterized in that, includes catch basin, drainage tube and a plurality of roofing unit, the roofing unit is arranged in proper order, the roofing unit sets up towards the slope of same direction, and each roofing unit interval sets up, the catch basin sets up between each roofing unit for collect the rivers on the roofing unit, the catch basin delivery port has been seted up on the catch basin, the one end of drainage tube is connected in the catch basin delivery port.

2. The quick drainage roof for the machine room of claim 1, characterized in that: the roof unit is of a strip-shaped structure, and the arrangement direction of the roof unit is arranged along the width direction of the roof unit.

3. The quick drainage roof for the machine room of claim 2, characterized in that: the roofing unit is all set up at interval along length direction and width direction, or the roofing unit sets up along its length direction interval, or the roofing unit sets up along its width direction interval.

4. The quick drainage roof for the machine room as claimed in claim 2, wherein the length of the water storage tank is the same as that of the roof unit, and the length direction of the water storage tank is arranged along the length direction of the roof unit.

5. The quick drainage roof for the machine room according to claim 1, characterized in that: the inclination angles of the roof units are consistent.

6. The quick drainage roof for the machine room of claim 1, characterized in that: the drainage tube is vertically arranged.

7. The quick drainage roof for the machine room of claim 1, characterized in that: the bottom of the water storage tank is an inclined plane, and the bottom of the water storage tank inclines towards the drainage tube, so that water in the water storage tank flows into the drainage tube quickly.

8. The quick drainage roof for the machine room of claim 1, characterized in that: the cross section of the water storage tank is of a U-shaped structure.

9. The quick drainage roof for the machine room of claim 1, characterized in that: the roof unit comprises a leveling layer, a heat preservation layer, a steam barrier and a structural base layer which are sequentially arranged from top to bottom.

10. The quick drainage roof for the machine room of claim 9, characterized in that: the structure basic unit is various steel sheet, the vapour barrier is the asphalt felt, the heat preservation is the prefabricated assembly of polystyrene foam plastic board, the screed-coat is the mortar screed-coat.

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