CN220080560U - Building top drainage structure - Google Patents

Abstract

The utility model is suitable for the technical field of building design assistance, and discloses a building top drainage structure. According to the technical scheme, when the clamping arc plates positioned on two sides of the pipe body are pushed by an operator to carry out abutting limiting treatment on the pipe body, after the clamping arc plates are pushed continuously, the pushing block can be abutted against the limiting block inclined surface while contacting the limiting block inclined surface, so that the movable rod moves outwards in the hollow frame until the limiting block inclined surface is separated from the limiting block inclined surface, and the right-angle sides of the limiting block and the pushing block are mutually attached under the pushing action of the pushing spring to generate abutting limiting force, so that the two groups of clamping arc plates are prevented from being separated randomly to influence the fixing action of the pipe body, and meanwhile, the labor consumption required by the installation of the pipe body is reduced.

Description

Building top drainage structure

Technical Field

The utility model is suitable for the technical field of building design assistance, and particularly relates to a building top drainage structure.

Background

At present, the design of a drainage structure is an indispensable step in building design, and particularly drainage performance of the top of a house. In the prior art, in order to be convenient for discharge ponding at house top in rainy day, generally can install the drain pipe for assemble drain pipe department with the rainwater at house top, guide the eminence water to the eminence through the drain pipe, and then be convenient for discharge through the sewer.

At present, when the building drainage pipeline is installed and used, the pipeline is basically sleeved and installed with the building outer wall surface through the pipe clamp, an operator is required to fix the pipe clamp by using a subsequent bolt when the pipeline is sleeved inside the pipe clamp, and in the process, the operator is required to hold the pipeline by hand, so that the pipeline cannot be displaced after being sleeved, and the subsequent screwing limiting treatment is influenced. We therefore propose a building roof drainage structure.

Disclosure of Invention

The utility model mainly aims to provide a drainage structure for the top of a building, which can effectively solve the problems in the background technology.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

building top drainage structures, including the body, the connecting plate is all laminated to body outside surface, every connecting plate side both ends surface all articulates through the pivot has joint arc board, every two sets of joint arc board side top surface fixed mounting has cavity frame and linking frame respectively, every cavity frame both ends all vertically run through slidable mounting has the movable rod, every the inboard top surface of movable rod is all fixed mounting has the stopper, every the inboard both ends of linking frame are all fixed mounting has the connecting rod, every cavity frame outside both ends surface is all fixed mounting has the fixed frame, two sets of fixed mounting has the impeller between the connecting rod is inboard, and impeller and stopper are triangle-shaped.

As an alternative of the technical scheme of the utility model, a pushing plate is slidably arranged on the bottom surface of the inner side of each fixed frame, and the top of the movable rod is fixedly connected with the bottom surface of the pushing plate.

As an alternative of the technical scheme of the utility model, the top of the inner side of each fixed frame is movably sleeved with a pushing spring, and the bottom of the pushing spring is attached to the outer side surface of the pushing plate.

As an alternative of the technical scheme of the utility model, the two ends of the outer side of each hollow frame are provided with movable grooves, and the movable rods penetrate through and are slidably arranged in the movable grooves.

As an alternative of the technical scheme of the utility model, the inner side surface of the top end of the pipe body is fixedly provided with a filter plate.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the building top drainage structure, when an operator pushes the clamping arc plates positioned on two sides of the pipe body to tightly support and limit the pipe body, the clamping arc plates are pushed continuously, the pushing block can be kept against the limiting block inclined plane while contacting the limiting block inclined plane, so that the movable rod moves outwards in the hollow frame until the pushing block inclined plane is separated from the limiting block inclined plane, the right-angle sides of the limiting block and the pushing block are mutually attached to generate a supporting and limiting force under the pushing action of the pushing spring, the two groups of clamping arc plates are prevented from being separated randomly to influence the fixing action of the pipe body, and meanwhile labor consumption required by installation of the pipe body is reduced.

2. According to the drainage structure for the building top, disclosed by the technical scheme of the utility model, through the guiding and limiting effect of the movable groove on the movable rod, when the limiting block is propped by the pushing block to move outwards in the hollow frame, the movable rod can only move outwards without any side movement affecting the subsequent limiting transmission treatment.

Drawings

FIG. 1 is a schematic diagram of the overall front cross-sectional structure of a roof drainage structure of a building according to the present utility model;

fig. 2 is a schematic diagram of the overall top view cross-section of the drainage structure of the building roof of the present utility model.

Reference numerals: 1. a tube body; 2. a connecting plate; 3. clamping the arc plate; 4. a hollow frame; 5. a connection frame; 6. a movable rod; 7. a limiting block; 8. a connecting rod; 9. a pushing block; 10. a fixed frame; 11. a pushing plate; 12. a pushing spring; 13. a movable groove.

Detailed Description

As shown in fig. 1-2, the present utility model provides a technical solution: the drainage structure at the top of the building comprises a pipe body 1, connecting plates 2 are respectively attached to the outer side surface of the pipe body 1, and clamping arc plates 3 are respectively hinged to the two end surfaces of the side edges of each connecting plate 2 through rotating shafts.

In this technical scheme (shown through fig. 1 and 2), every two sets of joint arc board 3 side top surface fixed mounting has cavity frame 4 and connecting frame 5 respectively, every cavity frame 4 both ends all vertically run through slidable mounting has movable rod 6, every movable rod 6 inboard top surface equal fixed mounting has stopper 7, every connecting frame 5 inboard both ends equal fixed mounting has connecting rod 8, every cavity frame 4 outside limit both ends surface equal fixed mounting has fixed frame 10, fixed mounting has the impeller 9 between the two sets of connecting rod 8 inboards, and impeller 9 and stopper 7 are triangle-shaped.

In the technical scheme, after the pushing block 9 pushes against the limiting block 7, the two groups of clamping arc plates 3 can be driven to move in a fitting manner, and then the pushing block 7 can be pushed against.

In this technical solution (shown in fig. 1 and 2), a pushing plate 11 is slidably mounted on the bottom surface of the inner side of each fixed frame 10, and the top of the movable rod 6 is fixedly connected with the bottom surface of the pushing plate 11.

In the technical scheme, the limiting block 7 can be propped against the pushing spring 12 after moving through the connection of the pushing plate 11 and the movable rod 6, so that the subsequent pushing again is convenient.

In some technical solutions (shown in fig. 1 and 2), two ends of the outer side of each hollow frame 4 are provided with movable grooves 13, and the movable rod 6 is installed inside the movable grooves 13 in a penetrating and sliding manner.

In this technical scheme, through the direction spacing effect of movable groove 13 to movable rod 6 for stopper 7 is when receiving the butt of pushing block 6 and outwards moving in cavity frame 4 inside, and movable rod 6 can only outwards move and can not arbitrary side move influence follow-up spacing transmission processing.

In some embodiments (shown in fig. 1 and 2), the filter plate 14 is fixedly mounted on the inner surface of the top end of the tube 1.

In this solution, the liquid flowing through the inside of the tube 1 is filtered by the filter plates 14.

When the pipe body 1 to be installed and used is attached to the surface of the connecting plate 2 and the connecting plate 2 is installed on the surface of a building wall, then the clamping arc plates 3 on two sides are continuously pulled to rotate inwards so that the pushing block 9 is pushed into the hollow frame 4, then after the inclined planes of the pushing block 9 and the inclined planes of the limiting blocks 8 are contacted with each other, the clamping arc plates 3 are continuously pushed to drive the limiting blocks 8 on two sides to move outwards into the fixed frame 10 until the inclined planes of the pushing block 9 are separated from the inclined planes of the limiting blocks 7, the limiting block 7 and the right-angle edges of the pushing block 9 are attached to each other under the pushing action of the structure of the pushing spring 12, so that the abutting limiting force is generated, the joint of the two groups of clamping arc plates 3 is prevented from being separated randomly, the installation and use of the pipe body 1 are completed, and the drainage use is carried out on a building roof.

Claims (5)

1. Building top drainage structures, including the body, its characterized in that: connecting plates are mounted on the outer side surfaces of the tube body in a fitting mode, and clamping arc plates are hinged to the two end surfaces of the side edges of each connecting plate through rotating shafts;

a hollow frame and a connecting frame are fixedly installed on the top surfaces of the side edges of each two groups of clamping arc plates respectively, movable rods vertically penetrate through the two ends of each hollow frame in a sliding manner, limiting blocks are fixedly installed on the top surfaces of the inner sides of each movable rod, and connecting rods are fixedly installed at the two ends of the inner sides of the middle ends of each connecting frame;

every cavity frame outside limit both ends surface is all fixed mounting has fixed frame, two sets of fixed mounting has the pushing block between the connecting rod inboard, and pushing block and stopper all are triangle-shaped.

2. The building roof drainage structure of claim 1, wherein: every fixed frame inboard bottom surface all slidable mounting has the push plate, and movable rod top and push plate bottom surface stationary phase are connected.

3. The building roof drainage structure of claim 1, wherein: every fixed frame inboard top has all movably sleeved and has promoted the spring, and promotes the spring bottom laminating in the outside surface of push plate.

4. The building roof drainage structure of claim 1, wherein: the two ends of the outer side of each hollow frame are provided with movable grooves, and the movable rods penetrate through the movable grooves and are slidably arranged in the movable grooves.

5. The building roof drainage structure of claim 1, wherein: the inner side surface of the top end of the pipe body is fixedly provided with a filter plate.