CN218204829U - Architectural engineering construction rainfall drainage structure - Google Patents

Abstract

The utility model discloses a rainfall drainage structure for building engineering construction, which comprises a drainage box, the interior of the drainage box is fixedly connected with a partition, and the partition divides the interior of the drainage box into a collection chamber and a liquid storage chamber. A square ring plate is detachably connected to the opening of the upper end, and two ends of the bottom of the square ring plate are rotatably connected to conveying rollers, and the two conveying rollers are connected through a conveyor belt. Through the mutual cooperation between the set conveying roller, conveyor belt, port, collection box and square ring plate, the rainwater can drive building debris to fall on the surface of the conveyor belt, realize solid-liquid separation through the filter hole, and then pass through the conveying The rotation of the belt drives the sundries on the surface to move towards the port. When the sundries move to the position of the side conveying roller, they will fall into the collection box in the collection chamber through the port under the action of gravity to complete the collection, and at the same time pass through the conveyor belt. The continuous rotation avoids the blockage caused by the accumulation of sundries at the square ring plate.

Description

Architectural engineering construction rainfall drainage structure

technical field

The utility model relates to the technical field of rainwater treatment in construction engineering, in particular to a rainwater drainage structure in construction engineering.

Background technique

Construction projects are inevitably subject to rainfall during the construction process. Rainwater discharge is generally led to the sewage channel to be drained by rainwater pipes. During the construction process, the precipitation and accumulated water on the construction site are comprehensively discharged and utilized to ensure the cleanliness of the construction site and increase water conservation. Recycling and utilization of resources will achieve the goals of water saving, energy saving, and environmental protection, while reducing operating costs. Therefore, on-site water treatment is an important issue.

During the construction period of the construction site, drainage channels need to be dug to deal with the problem of drainage in rainy days. However, due to the large amount of soil and stone particles in the construction environment, it is easy to block the drainage board, resulting in the failure of the drainage system to operate normally. A large amount of water in the construction site has caused a certain degree of safety hazard to the construction project.

Utility model content

The purpose of this utility model is to provide a construction rainwater drainage structure in order to solve the above problems, as detailed below.

In order to achieve the above object, the utility model provides the following technical solutions:

The construction rainfall drainage structure provided by the utility model includes a drainage box, and the inside of the drainage box is fixedly connected with a partition, and the partition divides the interior of the drainage box into a collection chamber and a liquid storage chamber. The opening of the upper end is detachably connected with a square ring plate, and both ends of the bottom of the square ring plate are rotatably connected with transmission rollers. hole, the side wall of the drainage box is provided with a driving assembly for driving one of the conveying rollers to rotate towards the collection chamber, and the upper part of the partition is provided with a port suitable for the conveyor belt. There is a detachable collection box.

With the above-mentioned construction rainwater drainage structure, when in use, rainwater flows into the liquid storage chamber through the square ring plate, and the rainwater drives building debris to fall on the surface of the conveyor belt. At this time, the rainwater falls into the storage chamber through the filter holes on the surface of the conveyor belt. In the liquid chamber, the sundries are separated on the surface of the conveyor belt at the same time, and one of the conveying rollers is driven to rotate by controlling the drive assembly, and the sundries on the surface of the conveyor belt are driven to move toward the opening through the cooperation of the two conveying rollers. When the sundries move When it reaches the position of the side conveying roller, it falls into the collection box in the collection chamber through the opening under the action of gravity to complete the collection, and at the same time, the continuous rotation of the conveyor belt prevents debris from accumulating at the square ring plate.

Preferably, two clamping blocks are fixedly connected to both side walls of the square ring plate, and the upper ends of the two side walls of the liquid storage chamber are provided with clamping grooves adapted to the clamping blocks.

Preferably, the drive assembly includes a gear one, the gear one is fixedly connected to the rotating shaft at the end of one of the conveying rollers, the side wall of the liquid storage chamber is rotatably connected with a gear two meshed with the gear one, and the A motor that drives the gear two to rotate is fixedly installed on the outer wall of the drainage box.

Preferably, an inclined plate is fixedly connected to the bottom edge of the opening, the high side of the inclined plate is located at the bottom side of the conveyor belt, and the upper end of the inclined plate is made of rubber material and is in contact with the surface of the conveyor belt.

As a preference, the lower part of the side wall of the collection chamber is fixedly connected with a limit strip adapted to the bottom edge of the collection box, and the inner bottom of the collection box is provided with a filter screen for draining, and the side of the collection box away from the opening The upper end of the side wall is fixedly connected with a cover plate through a connecting rod, and the cover plate is adapted to the upper end opening of the collection chamber.

As a preference, the inner bottom of the drainage tank is inclined, and one side of the collection chamber is higher than the side of the liquid storage chamber, and the lower end of the partition connects the collection chamber and the liquid storage chamber through the water outlet, and the liquid storage chamber A submersible pump is fixedly installed at the lower end of the side wall, and the output end of the submersible pump is connected to the outside of the drainage tank.

Preferably, a U-shaped baffle is fixedly connected to the upper part of the inner wall of the square ring plate, and the opening end of the U-shaped baffle is located on the side of the opening.

The beneficial effects are:

Through the mutual cooperation between the set conveying roller, conveyor belt, port, collection box and square ring plate, rainwater can drive building debris to fall on the surface of the conveyor belt, realize solid-liquid separation through the filter hole, and then pass through the conveying The rotation of the belt drives the sundries on the surface to move towards the port. When the sundries move to the position of the side conveying roller, they fall into the collection box in the collection chamber through the port under the action of gravity to complete the collection, and at the same time pass through the conveyor belt. The continuous rotation avoids the blockage caused by the accumulation of sundries at the square ring plate.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the accompanying drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description These are only some embodiments of the utility model, and those skilled in the art can also obtain other drawings based on these drawings without creative work.

Fig. 1 is a perspective view of the utility model;

Fig. 2 is a sectional perspective view of the drainage tank of the present invention;

Fig. 3 is the perspective view of the utility model square ring plate;

Fig. 4 is a perspective view of the collection box of the present invention.

The reference signs are explained as follows:

1. Drainage tank; 2. Partition plate; 3. Drive assembly; 3a. Gear one; 3b. Gear two; 3c. Motor; 4. Collection chamber; 5. Liquid storage chamber; 6. Square ring plate; 7. Transfer roller ;8, conveyor belt; 9, cover plate; 10, inclined plate; 11, limit bar; 12, U-shaped deflector; 13, block; 14, slot; 17. Submersible pump.

detailed description

In order to make the purpose, technical solution and advantages of the utility model clearer, the technical solution of the utility model will be described in detail below. Apparently, the described embodiments are only some of the embodiments of the present invention, not all of them. Based on the embodiments of the present utility model, all other implementations obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present utility model.

Referring to Fig. 1-shown in Fig. 4, the utility model provides the construction rainfall drainage structure, comprises drainage box 1, and the inside of drainage box 1 is fixedly connected with partition 2, and this partition 2 separates the interior of drainage box 1 into collection chamber 4 and liquid storage chamber 5, the upper opening of the liquid storage chamber 5 is detachably connected with a square ring plate 6, both ends of the bottom of the square ring plate 6 are rotatably connected with transmission rollers 7, and the two transmission rollers 7 pass through The belt 8 is connected by transmission, and the surface of the conveyor belt 8 is provided with a water filter hole, and the side wall of the drainage tank 1 is provided with a driving assembly 3 for driving one of the conveying rollers 7 to rotate in the direction of the collection chamber 4, and the upper part of the partition 2 is provided with a There is a port 15 suitable for the conveyor belt 8, and a detachable collection box 16 is arranged in the collection chamber 4.

As an optional embodiment, two clamping blocks 13 are fixedly connected to both side walls of the square ring plate 6. By setting the clamping blocks 13 and the clamping grooves 14, the square ring plate 6 can be removed from the upper opening of the liquid storage chamber 5. Take it off, it is convenient to clean the inner wall of the liquid storage chamber 5, and at the same time, it is convenient to overhaul the device. The upper ends of the two side walls of the liquid storage chamber 5 are provided with a card slot 14 adapted to the block 13.

As an optional embodiment, the drive assembly 3 includes a gear one 3a, which is fixedly connected to the shaft at the end of one of the transmission rollers 7, and the side wall of the liquid storage chamber 5 is rotatably connected to a gear that meshes with the gear one 3a. The gear two 3b of gear two 3b, by setting gear one 3a, gear two 3b and motor 3c, can drive gear two 3b to rotate by motor 3c, gear two 3b drives the meshed gear one 3a to rotate again, drives this side transmission roller 7 to rotate simultaneously, is convenient to The conveyor belt 8 drives the debris to move in the collection chamber 4, and the motor 3c that drives the gear 2 3b to rotate is fixedly installed on the outer wall of the drainage box 1.

As an optional embodiment, the bottom edge of the opening 15 is fixedly connected with an inclined plate 10, and the high side of the inclined plate 10 is positioned at the bottom side of the conveyor belt 8. By setting the inclined plate 10, the debris on the conveyor belt 8 can be removed. guide, so that the debris falls into the collection box 16 better, and at the same time, the upper end of the inclined plate 10 can scrape off the debris adhered to the surface of the conveyor belt 8 by contacting the surface of the conveyor belt 8, thereby improving the water filtration effect of the conveyor belt 8. And the upper end of the inclined plate 10 is made of rubber material and is in contact with the surface of the conveyor belt 8 .

As an optional embodiment, the lower part of the side wall of the collection chamber 4 is fixedly connected with a limit strip 11 adapted to the bottom edge of the collection box 16. By setting the limit strip 11, the lower end of the collection box 16 can be limited, so that The collection box 16 is located above the water outlet, so that the liquid carried by the sundries falling into the collection box 16 can be filtered into the liquid storage chamber 5 through the filter screen, and the cover plate 9 can block the upper opening of the collection chamber 4 at the same time , to avoid accidental fall of personnel, the inner bottom of the collection box 16 is provided with a filter screen for draining, and the upper end of the side wall of the collection box 16 away from the side of the port 15 is fixedly connected with a cover plate 9 through a connecting rod, and the cover plate 9 is connected to the collection box. The upper opening of chamber 4 fits.

As an optional embodiment, the inner bottom of the drainage tank 1 is an inclined plane, and one side of the collection chamber 4 is higher than the side of the liquid storage chamber 5. By setting the inner bottom of the drainage tank 1 as an inclined plane, the drainage tank 16 can After falling into the inner bottom of the collection chamber 4, the discharged water slides down the slope under the action of gravity, and enters the interior of the liquid storage chamber 5 through the water outlet, so that the liquid stored in the liquid storage chamber 5 can be extracted by the submersible pump 17 for engineering use. The lower end of the partition plate 2 communicates with the collection chamber 4 and the liquid storage chamber 5 through the water outlet. The lower end of the side wall of the liquid storage chamber 5 is fixedly equipped with a submersible pump 17 , and the output end of the submersible pump 17 is connected to the outside of the drainage tank 1 .

As an optional embodiment, the upper part of the inner wall of the square ring plate 16 is fixedly connected with a U-shaped deflector 12. By setting the U-shaped deflector 12, the gap between the square ring plate 6 and the conveyor belt 8 can be blocked. To prevent sundries from falling into the gap when they flow into the conveyor belt 8 , the open end of the U-shaped deflector 12 is located on the side of the opening 15 .

With the above structure, when in use, rainwater flows into the liquid storage chamber 5 through the square ring plate 6, and the rainwater drives building debris to fall on the surface of the conveyor belt 8. At this time, the rainwater falls into the liquid storage through the filter holes on the surface of the conveyor belt 8. In the chamber 5, the sundries are separated on the surface of the conveyor belt 8 at the same time, by controlling the drive assembly 3 to drive one of the conveying rollers 7 to rotate, and through the cooperation of the two conveying rollers 7, the sundries on the surface of the conveying belt 8 are driven to the direction of the port 15 When the sundries move to the position of the side conveying roller 7, they fall into the collection box 16 in the collection chamber 4 through the opening 15 under the action of gravity to complete the collection, and at the same time, the continuous rotation of the conveyor belt 8 avoids the sundries Stacked at the square ring plate 6.

The above is only a specific embodiment of the present utility model, but the scope of protection of the present utility model is not limited thereto. Anyone familiar with the technical field can easily think of changes or changes within the technical scope disclosed by the utility model Replacement should be covered within the protection scope of the present utility model. Therefore, the protection scope of the present utility model should be based on the protection scope of the claims.

Claims (7)

1. Building engineering construction rainfall drainage structures, its characterized in that: including drain box (1), the inside fixedly connected with baffle (2) of drain box (1), this baffle (2) become collection room (4) and liquid storage chamber (5) with drain box (1) internal partitioning, the upper end opening part of liquid storage chamber (5) can be dismantled and is connected with square ring board (6), the bottom both ends of square ring board (6) are all rotated and are connected with transfer roller (7), two connect through conveyer belt (8) transmission between transfer roller (7), and the drainage hole has been seted up on the surface of this conveyer belt (8), be provided with on the lateral wall of drain box (1) and be used for driving one of them transfer roller (7) to collection room (4) direction pivoted drive assembly (3), opening (15) with conveyer belt (8) looks adaptation are seted up on the upper portion of baffle (2), be provided with dismantled and assembled collecting box (16) in collection room (4).

2. The construction rainfall drainage structure of claim 1, wherein: two clamping blocks (13) are fixedly connected to two side walls of the square ring plate (6), and clamping grooves (14) matched with the clamping blocks (13) are formed in the upper ends of the two side walls of the liquid storage chamber (5).

3. The rainfall drainage structure for construction engineering according to claim 1, wherein: including gear (3 a) in drive assembly (3), this gear (3 a) fixed connection is in the pivot of one of them transfer roller (7) tip, rotate on the lateral wall of stock solution room (5) and be connected with two (3 b) of gear (3 a) meshing, fixed mounting has on the lateral wall of drain box (1) drives two (3 b) pivoted motors of gear (3 c).

4. The rainfall drainage structure for construction engineering according to claim 1, wherein: the bottom edge of the through hole (15) is fixedly connected with an inclined plate (10), the high edge of the inclined plate (10) is positioned at the bottom side of the conveying belt (8), and the upper end of the inclined plate (10) is made of rubber and is in surface contact with the conveying belt (8).

5. The rainfall drainage structure for construction engineering according to claim 1, wherein: the lower portion of the side wall of the collecting chamber (4) is fixedly connected with a limiting strip (11) matched with the bottom edge of the collecting box (16), a filter screen for draining is arranged on the inner bottom of the collecting box (16), the upper end of the side wall, far away from one side of the through hole (15), of the collecting box (16) is fixedly connected with a cover plate (9) through a connecting rod, and the cover plate (9) is matched with an opening in the upper end of the collecting chamber (4).

6. The rainfall drainage structure for construction engineering according to claim 1, wherein: the inner bottom of drainage box (1) is the inclined plane, and collects room (4) one side and is higher than liquid reserve chamber (5) one side, the lower extreme of baffle (2) will be collected room (4) and liquid reserve chamber (5) intercommunication through leading to the water mouth, the lateral wall lower extreme fixed mounting of liquid reserve chamber (5) has immersible pump (17), and the output intercommunication of immersible pump (17) to drainage box (1) outside.

7. The rainfall drainage structure for construction engineering according to claim 1, wherein: the upper part of the inner wall of the square annular plate (6) is fixedly connected with a U-shaped guide plate (12), and the open end of the U-shaped guide plate (12) is positioned on one side of the through hole (15).

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