CN214061982U - Building facade node that drips - Google Patents

Abstract

The utility model belongs to the technical field of the building technique and specifically relates to a building facade node that drips is related to, it is including installing rainwater drainage mechanism in wall body lateral wall upper end, rainwater drainage mechanism is including installing the fixed plate on the wall body, install first diaphragm and the second diaphragm on the wall one side is kept away from to the fixed plate perpendicularly, fix between first diaphragm and second diaphragm and keep away from the connecting plate of wall body one side, fixed mounting is bottom surface and vertical decurrent drainage plate under first diaphragm, the drainage plate is located first diaphragm and keeps away from wall body one end. When raining, the rainwater drips along the connecting plate and the drainage plate, so that the rainwater is prevented from directly flowing down along the wall body. This application has the effectual effect that reduces the erosion and the pollution of rainwater to the wall body.

Description

Building facade node that drips

Technical Field

The application relates to the technical field of buildings, in particular to a building vertical surface dripping node.

Background

At present, with the improvement of economic strength and the top of infrastructure capacity in China, most of cities of China have numerous high-rise buildings and CBD office buildings.

At present, people basically do not set an eave structure on the top of a floor in order to enhance the aesthetic property of the building body. Referring to fig. 1, when a rainy day occurs, rainwater 1 flows from the roof to the wall along the arrow direction shown in the figure and flows to the ground, and at present, most of the walls of tall buildings are made of aluminum plates or other metals or glass.

In view of the above-mentioned related art, the inventor believes that exposure of an aluminum plate or glass to air often causes a series of problems such as discoloration, rusting, remaining of dirt, and the like due to erosion by rainwater.

SUMMERY OF THE UTILITY MODEL

In order to reduce rainwater as far as possible and flow to the wall body, the application provides a building facade node that drips.

The application provides a building facade node that drips adopts following technical scheme:

the utility model provides a building facade node that drips, is including installing the rainwater drainage mechanism on the wall body lateral wall, rainwater drainage mechanism is including being on a parallel with the outer facade of wall body and installing fixed plate on the wall body, vertical installation in the fixed plate keep away from first diaphragm, fixed mounting bottom surface and vertical decurrent drainage plate under the first diaphragm, the drainage plate is located first diaphragm and keeps away from wall body one end.

By adopting the technical scheme, during rainfall, rainwater flows down along the side wall of the fixed plate far away from one side of the wall body, then flows to the upper surface of the first transverse plate, and finally drops along the drainage plate, so that rainwater is prevented from directly flowing down along the wall body, and the erosion and pollution of the rainwater to the wall body are effectively reduced.

Optionally, the rainwater drainage mechanism further comprises a first supporting block, a second supporting block and a first bolt used for fixing the fixing plate on the wall body, the first supporting block and the second supporting block are located between the wall body and the fixing plate, the first supporting block and the second supporting block are fixedly connected to the side wall, facing the wall body, of the fixing plate and abut against the wall body, the first bolt is arranged on the fixing plate in a penetrating mode and is in threaded connection with the wall body, and the first bolt is located between the first supporting block and the second supporting block.

Through adopting above-mentioned technical scheme, add first supporting shoe and second supporting shoe between fixed plate and the wall body and make the fixed plate keep away from the wall body more, and then the wall body is kept away from more to the drainage plate, and effectual reduction rainwater flows back again to the risk of wall body.

Optionally, a first sealant layer is arranged in a gap between the fixing plate, the first supporting block and the wall body.

Through adopting above-mentioned technical scheme, piled up in the clearance between wall body, first supporting block and the fixed plate when having avoided the rainwater to flow down from the roof.

Optionally, the rainwater drainage mechanism further comprises a second transverse plate fixedly mounted on one side, far away from the wall body, of the fixed plate and close to the upper side, chutes parallel to the length direction of the first transverse plate are formed in the first transverse plate and the second transverse plate, a connecting plate is arranged between the first transverse plate and the second transverse plate, two ends of the connecting plate are respectively connected in the chutes of the first transverse plate and the second transverse plate in a sliding mode, and second bolts and nuts used for enabling the connecting plate to be fixed relative to the first transverse plate and the second transverse plate are further arranged on the connecting plate.

Through adopting above-mentioned technical scheme, first bolt is arranged in the cavity that fixed plate, first diaphragm, second diaphragm and connecting plate formed, has effectively reduced the risk of being corroded by the rainwater.

Optionally, a second sealing adhesive layer is arranged between the connecting plate and the sliding groove.

Through adopting above-mentioned technical scheme, strengthened the leakproofness, effectively reduced the risk that the rainwater flowed in from the space between first diaphragm, second diaphragm and the spout.

Optionally, a plurality of water drainage holes are formed in the first transverse plate.

Through adopting above-mentioned technical scheme, if rainwater enters into the cavity that fixed plate, first diaphragm, second diaphragm and connecting plate formed, the rainwater that gets into in the cavity flows from the wash port.

Optionally, the side surface of the first transverse plate close to the second transverse plate is provided with wave crests and wave troughs, and the positions of the drain holes are wave troughs.

Through adopting above-mentioned technical scheme, under the effect of gravity, rainwater flow direction trough position has effectively reduced the risk that the rainwater was hoarded on first diaphragm.

Optionally, the rainwater drainage mechanism is provided with a plurality of along the length direction thereof.

By adopting the technical scheme, the building area of the existing building is large, the length and the width of the building are large, the rainwater drainage mechanism is designed in a segmented mode, and the installation operability is effectively improved.

Optionally, the first round pin is arranged on the side face, perpendicular to the wall body, of the first transverse plate, the waist-shaped hole corresponding to the first round pin is formed in the side face, away from the first round pin, of the first transverse plate, the second round pin is arranged on the side face, perpendicular to the wall body, of the second transverse plate, and the round hole corresponding to the second round pin is formed in the side face, away from the second round pin, of the first transverse plate.

Through adopting above-mentioned technical scheme, the second round pin inserts in the round hole that corresponds, and the waist shape hole is inserted to first round pin simultaneously, accomplishes two sections rainwater drainage unit's location and connects, and the degree of difficulty when the installation because dimensional tolerance can be reduced to the cooperation in a round hole and a waist shape hole.

Optionally, a third sealing adhesive layer is arranged between two adjacent rainwater drainage mechanisms.

By adopting the technical scheme, the connection sealing performance between the two sections of the rainwater drainage mechanisms is improved, and the possibility of rainwater leakage between the two sections of the rainwater drainage mechanisms is reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when rainfall, rainwater is left along the side wall of the fixing plate far away from one side of the wall body, then flows to the upper surface of the first transverse plate, and finally drops along the drainage plate, so that the rainwater is prevented from directly flowing down along the wall body, and the erosion and pollution of the rainwater to the wall body are effectively reduced;

2. all there is the sealant layer between each subassembly, and the leakproofness is good.

Drawings

FIG. 1 is a schematic view of a related art structure;

fig. 2 is a schematic structural diagram of an entire building elevation drip node according to an embodiment of the present application;

FIG. 3 is a side view of a building elevation drip node of an embodiment of the present application;

FIG. 4 is a schematic structural view of two adjacent rainwater drainage units;

description of reference numerals: 1. rain water; 2. a third sealant layer; 3. a wall body; 4. a rainwater drainage mechanism; 41. A fixing plate; 42. a second transverse plate; 421. a second round pin; 422. a circular hole; 43. a second bolt; 44. a first support block; 45. a connecting plate; 46. a second support block; 47. a first transverse plate; 471. a first round pin; 472. a waist-shaped hole; 473. a drain hole; 48. a drainage plate; 49. a second sealant layer; 410. a nut; 5. a first sealant layer; 6. a first bolt; 7. avoiding the hole.

Detailed Description

The present application is described in further detail below with reference to figures 2-4.

The embodiment of the application discloses building facade node that drips. Referring to fig. 2, a building facade node of dripping includes if install rainwater drainage mechanism 4 in 3 lateral walls upper ends of wall body, rainwater drainage mechanism 4 is equipped with a plurality of along its length direction.

Referring to fig. 3 and 4, the rainwater drainage mechanism 4 includes a fixing plate 41, a first supporting block 44 and a second supporting block 46 are fixedly mounted on a side wall of the fixing plate 41 close to one side of the wall body 3, an avoiding hole 7 is formed in the fixing plate 41, a first bolt 6 is arranged in the avoiding hole 7 in a penetrating manner, the first bolt 6 is arranged in the avoiding hole 7 in the fixing plate 41 in a penetrating manner, and meanwhile, the first bolt 6 is screwed in the wall body 3. Under the action of the first bolt 6, the first supporting block 44 and the second supporting block 46 are tightly pressed against the side wall of the wall body 3, and a first sealant layer 5 is arranged in a gap between the fixing plate 41, the wall body 3 and the first supporting block 44. A first transverse plate 47 and a second transverse plate 42 perpendicular to the fixing plate 41 are fixedly mounted on the side wall of the fixing plate 41 far away from the wall 3, the first transverse plate 47 is located at the lower end of the fixing plate 41, the second transverse plate 42 is located at the upper end of the fixing plate 41, sliding grooves are formed in the opposite side faces of the first transverse plate 47 and the second transverse plate 42, and the two sliding grooves are located at one ends, far away from the wall 3, of the first transverse plate 47 and the second transverse plate 42 respectively. A connecting plate 45 is arranged between the first horizontal plate 47 and the second horizontal plate 42, and two ends of the connecting plate 45 are respectively connected in the sliding groove of the first horizontal plate 47 and the sliding groove of the second horizontal plate 42 in a sliding manner. In order to make the connecting plate 45 install stably, the two chutes are provided with the second bolts 43, meanwhile, the second bolts 43 are arranged on the connecting plate 45 in a penetrating manner, the second bolts 43 are connected with nuts 410 in a threaded manner, and the connecting plate 45 is fixed through the second bolts 43 and the nuts 410.

The installation process is as follows: one side, close to the wall body 3, of the fixing plate 41 of the section of the rainwater drainage mechanism 4 is coated with sealant, after the sealant is coated, the first bolt 6 is arranged in the avoiding hole 7 of the fixing plate 41 in a penetrating mode, and the first bolt 6 is drilled into the wall through the electric drill. After the fixing plate 41 is fixed, the contact parts of the connecting plate 45 and the sliding grooves on the first transverse plate 47 and the second transverse plate 42 are coated with sealant, after the sealant is coated, the connecting plate 45 slides into the sliding grooves on the first transverse plate 47 and the second transverse plate 42 from the side, and then the connecting plate 45 is fixed on the first transverse plate 47 and the second transverse plate 42 through the four second bolts 43 and the four nuts matched with the bolts.

Referring to fig. 4, two contact surfaces of the two first transverse plates 47 in direct contact are respectively provided with a pin and a hole, and the two rainwater drainage mechanisms 4 are cooperatively positioned and connected through the pin and hole. A first round pin 471 perpendicular to the contact surface is fixedly mounted on the contact surface of one of the first transverse plates 47, a waist-shaped hole 472 opposite to the first transverse plate 47 of the other rain water guiding mechanism 4 is formed on the first transverse plate 47 in contact with the first round pin 471, and the first round pin 471 is inserted into the waist-shaped hole 472. The second horizontal plate 42 is fixedly provided with a second round pin 421, the second horizontal plate 42 in direct contact with the second round pin is provided with a round hole 422, and a third sealant layer 2 is arranged between two adjacent rainwater drainage mechanisms 4.

The installation process is as follows: the contact surface of installing 4 the second rainwater drainage mechanism 4 contact of installing on the rainwater drainage mechanism 4 before scribbles sealed glue, fix a position the fixed plate 41 of second rainwater drainage mechanism 4 earlier through second round pin 421 and round hole 422, first round pin 471 and waist shape hole 472 and connect, then through first bolt 6 with fixed plate 41 fixed mounting on wall body 3 side, install connecting plate 45 at the course of operation of the first rainwater drainage mechanism 4 of repeated installation, so on, install a plurality of rainwater drainage mechanism 4 in proper order.

Referring to fig. 4, the side of the first horizontal plate 47 close to the second horizontal plate 42 is disposed in a wave crest and a wave trough, and the drain holes 473 are all located in wave troughs. Under the action of gravity, the rainwater 1 flows to the positions of the wave troughs, so that the risk of hoarding of the rainwater 1 on the first transverse plate 47 is effectively reduced.

The implementation principle of the building facade drip node in the embodiment of the application is as follows:

firstly, the fixing plate 41 is coated with sealant and then fixed on the side wall of the wall 3 through the first bolt 6.

Secondly, glue is coated in advance on the contact part of the connecting plate 45 and the sliding grooves in the first transverse plate 47 and the second transverse plate 42, the connecting plate 45 is pushed into the sliding grooves after the glue is coated, and the connecting plate 45 is fixed through the second bolts 43 and the corresponding nuts 410.

Thirdly, the second section of rainwater drainage mechanism 4 and the installed first section of rainwater drainage mechanism 4 are positioned and connected through the matching of the hole pins on the first transverse plate 47 and the second transverse plate 42, the installation step of the first section of rainwater drainage mechanism 4 is repeated, and the installation of the multi-section rainwater drainage mechanism 4 is completed by analogy.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A building facade drip node which characterized in that: including installing rainwater drainage mechanism (4) on wall body (3) lateral wall, rainwater drainage mechanism (4) are including being on a parallel with wall body (3) outer facade and installing fixed plate (41) on wall body (3), vertical installation in fixed plate (41) keep away from first diaphragm (47) of wall body (3) one side, fixed mounting bottom surface and vertical decurrent drainage plate (48) under first diaphragm (47), drainage plate (48) are located first diaphragm (47) and keep away from wall body (3) one end.

2. The building facade drip node of claim 1, wherein: the rainwater drainage mechanism (4) further comprises a first supporting block (44), a second supporting block (46) and a first bolt (6) used for fixing the fixing plate (41) on the wall body (3), the first supporting block (44) and the second supporting block (46) are located between the wall body (3) and the fixing plate (41), the first supporting block (44) and the second supporting block (46) are fixedly connected to the side wall, facing the wall body (3), of the fixing plate (41) and tightly abutted to the wall body (3), the first bolt (6) penetrates through the fixing plate (41) and is in threaded connection with the wall body (3), and the first bolt (6) is located between the first supporting block (44) and the second supporting block (46).

3. The building facade drip node of claim 2, wherein: and a first sealant layer (5) is arranged in a gap between the fixing plate (41), the first supporting block (44) and the wall body (3).

4. The building facade drip node of claim 1, wherein: rainwater drainage mechanism (4) still include fixed mounting and keep away from wall body (3) one side and lean on second diaphragm (42) of top in fixed plate (41), all open the spout that is on a parallel with first diaphragm (47) length direction in first diaphragm (47) and second diaphragm (42), be equipped with connecting plate (45) between first diaphragm (47) and second diaphragm (42), sliding connection is in the spout of first diaphragm (47) and in the spout of second diaphragm (42) respectively at connecting plate (45) both ends, still be equipped with on connecting plate (45) and be used for making connecting plate (45) for first diaphragm (47) and second diaphragm (42) fixed second bolt (43) and nut (410).

5. The building facade drip node of claim 4, wherein: and a second sealant layer (49) is arranged between the connecting plate (45) and the sliding groove.

6. The building facade drip node of claim 1, wherein: a plurality of drain holes (473) are arranged on the first transverse plate (47).

7. The building facade drip node of claim 6, wherein: the side face, close to the second transverse plate (42), of the first transverse plate (47) is arranged in a wave crest and a wave trough mode, and the positions of the drain holes (473) are all wave troughs.

8. The building facade drip node of claim 1, wherein: the rainwater drainage mechanism (4) is provided with a plurality of rainwater drainage mechanisms along the length direction.

9. The building facade drip node of claim 7, wherein: first diaphragm (47) perpendicular to be equipped with first round pin (471) on the side of wall body (3), be equipped with waist shape hole (472) that correspond with first round pin (471) on the side that first round pin (471) was kept away from in first diaphragm (47), be equipped with second round pin (421) on the side of second diaphragm (42) perpendicular to wall body (3), be equipped with on the side that second round pin (421) was kept away from in first diaphragm (47) round hole (422) corresponding with second round pin (421).

10. The building facade drip node of claim 8, wherein: and a third sealing glue layer (2) is arranged between every two adjacent rainwater drainage mechanisms (4).

Images