CN216664758U - Architectural design roof eaves mouth watertight fittings - Google Patents

Abstract

The utility model relates to the technical field of building waterproofing, and particularly discloses a building design roof cornice waterproof device which comprises connecting blocks fixedly connected at two ends of a cornice, wherein a supporting shaft is fixedly connected between the connecting blocks, a water collecting box is fixedly connected onto the supporting shaft, an opening is formed in one side, close to the cornice edge, of the water collecting box, a pushing mechanism is arranged at one end, close to a roof, of the connecting block, the pushing mechanism comprises a sealing plate and a push rod, the sealing plate is slidably connected between the connecting blocks and arranged above the water collecting box, the push rod is detachably connected to the bottom of the sealing plate, a water outlet is formed in one end of the water collecting box, the water outlet is communicated with a water discharge pipe, and the water discharge pipe is detachably connected with a filter screen.

Description

Architectural design roof eaves mouth watertight fittings

Technical Field

The application relates to the technical field of building waterproofing, and specifically discloses an architectural design roof eaves mouth watertight fittings.

Background

The eaves mouth is the roofing structure plate top of the outer wall body of structure and roofing structure plate juncture, in sleet weather, the roof produces ponding easily, in order can effectually to discharge the ponding on roof, avoid ponding infiltration wall body, the eaves mouth department of oblique roofing need use eaves mouth waterproof construction, carry out free drainage through the eaves mouth, but current architectural design oblique roof eaves mouth waterproof construction still has certain defect, wind can blow to waterproof construction with leaves etc. in, cause the jam easily, thereby influence the drainage effect of eaves mouth, lead to the rainwater to collect in the eaves mouth and spill over.

Accordingly, the present inventors have made an effort to provide a roof cornice waterproofing device for architectural design so as to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem that the drainage effect of a cornice is influenced because sundries are easy to accumulate in the traditional pitched roof cornice waterproof device.

In order to achieve the purpose, the utility model provides a building design roof cornice waterproof device, which comprises connecting blocks fixedly connected at two ends of a cornice, a supporting shaft is fixedly connected between the connecting blocks, a water collecting box is fixedly connected to the supporting shaft, an opening is formed in one side, close to the cornice edge, of the water collecting box, the length of the opening is not smaller than that of the cornice, a sealing plate is arranged at one end, close to a roof, of each connecting block, sliding rails are symmetrically arranged between the connecting blocks, one ends of the sliding rails extend to one ends of the water collecting box, the other ends of the sliding rails extend to a wall surface and are fixedly connected with the wall surface, a pushing mechanism for pushing the sealing plate to slide is arranged on the sealing plate, a water outlet is formed in one end of the water collecting box, an inclined block is fixedly connected to the inner bottom surface of the water collecting box, the low end, which is inclined quickly, is arranged at the position of the water outlet and communicated with a water drain pipe, and a filter screen is detachably connected to the water outlet.

The principle and the effect of the basic scheme are as follows:

1. in rainy days, rainwater flows into the water collecting box from the opening of the water collecting box under the eaves of the house, and the rainwater flows into the drain pipe along the inclined block to be discharged from the drain outlet rapidly because the inclined block is arranged on the bottom surface in the water collecting box, wherein solid impurities entering the water collecting box along with the rainwater can be filtered by the filter screen at the drain outlet and cannot enter the drain pipe.

2. The shrouding is located the top of water collection box and can shelters from the opening of catchmenting and cover, and pushing mechanism can promote the shrouding slide rail and slide, and in fine day, utilize the push rod to promote the shrouding to cover the water collection box, and the thing that leaves branch etc. produced the jam to the water collection box easily just can not drop inside the water collection box.

3. Compared with the prior art, the rainwater drainage device is simple in structure and ingenious in conception, the water collecting box is arranged below the cornice to catch rainwater flowing down from the cornice, the rainwater is concentrated from the water collecting box and is discharged from the drainage pipe, the rainwater is prevented from directly dropping to the ground from the cornice to wet pedestrians passing through the lower portion of the cornice, solid matters such as soil in rainwater are filtered by the filter screen, the drainage pipe is prevented from being blocked when the rainwater enters the drainage pipe, the wind tree leaf lamp sundries can be prevented from falling into the water collecting box when the non-rainy-day pushing mechanism pushes the push plate to cover the water collecting box, and the problem that the drainage effect of the cornice is affected due to the fact that sundries are easily accumulated in the traditional inclined roof cornice waterproof device is solved.

Further, pushing mechanism includes the fixed frame of rigid coupling in shrouding one side, and the rigid coupling has the connecting pipe in the fixed frame, and rule frame and threaded connection have the push rod are worn out to the bottom of connecting pipe, and the bilateral symmetry rigid coupling of connecting pipe has the connecting rod, the free end of connecting rod respectively with the shrouding rigid coupling. The push rod is pushed to apply acting force on the sealing plate, so that the sealing plate slides in the sliding rail to cover or open the opening of the water collecting box.

Further, pushing mechanism includes the motor of rigid coupling in connecting block one side, and the equal coaxial coupling of motor has first pivot, and first pivot free end pierces into the connecting block and rotates with the connecting block to be connected, and first pivot coaxial coupling has first gear, and the shrouding upper surface is equipped with can with gear engagement's first rack. The motor drives first pivot and rotates, gear revolve simultaneously, gear and the first rack toothing on the shrouding, gear revolve drives the shrouding and slides between the connecting block, and the different direction that then the shrouding removed of gear revolve's direction is different, and the motor realizes the removal labour saving and time saving of shrouding as the power supply, has increased the automation of whole device.

Furthermore, first pivot is located the shrouding top, and the shrouding below still is equipped with the second pivot between the rotation connecting block, and the one end coaxial coupling that first pivot is close to the motor has the driving gear, second pivot coaxial coupling have with driving gear engaged with driven gear, coaxial coupling has the second gear in the second pivot, the shrouding lower surface be equipped with can with the second gear engaged with second rack. First gear and second gear can drive the gliding mode of shrouding simultaneously about the shrouding and have increased the stability that the shrouding removed.

Furthermore, the first gear and the second gear are respectively positioned above and below the sealing plate and are symmetrically arranged. The first gear and the second gear are symmetrically arranged on the upper portion and the lower portion of the sealing plate, so that the sealing plate is stressed uniformly.

Furthermore, the free end of the drain pipe is communicated with a water collecting tank, and the water collecting tank is positioned on one side of the house. Rainwater drained by the drain pipe can be collected by the water collecting tank for utilization.

Further, be provided with the raindrop inductor on the eaves mouth, be provided with the controller on the connecting block, the raindrop inductor all is connected with the controller electricity with the motor. When rainwater flows to the cornice, the raindrop sensor senses the existence of rainwater and transmits a signal to the controller, and the controller controls the motor to rotate positively to drive the sealing plate to move forward for a certain distance so that the sealing plate covering the water collecting box is separated from the water collecting box and the water collecting box is opened.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic view showing a roof cornice waterproofing device for architectural design according to embodiment 1 of the present application;

FIG. 2 shows a detail view of a roof cornice waterproofing device of an architectural design proposed in example 1;

fig. 3 is a schematic view showing a roof cornice waterproofing device of an architectural design according to embodiment 2 of the present application;

fig. 4 shows a bottom view of a roof cornice waterproofing device of an architectural design according to embodiment 2 of the present application;

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the predetermined objects, the following detailed description of the embodiments, structures, features and effects according to the present invention will be made with reference to the accompanying drawings and preferred embodiments.

Reference numerals in the drawings of the specification include: house 1, eaves mouth 2, connecting block 3, back shaft 4, water-collecting box 5, drain pipe 6, shrouding 7, push rod 8, motor 9, first pivot 10, first gear 11, second pivot 12, second gear 13, driving gear 14, driven gear 15, first rack 16, second rack 17, fixed frame 18, connecting pipe 19, connecting rod 20.

Example 1 as shown in fig. 1 and 2, the house 1 has cornices 2 at both front and rear sides, the device comprises connecting blocks 3 fixedly connected to both left and right ends of the cornices 2 at both sides of the house 1, a supporting shaft 4 is fixedly connected between the connecting blocks 3, a water collecting box 5 is fixedly connected to the bottom of the supporting shaft 4, an opening is formed at the top of the water collecting box 5, a sealing plate 7 is arranged above the water collecting box 5, sliding rails are arranged on the side walls of the connecting blocks 3, the front end of the sliding rail extends to the left side of the water collecting box 5, the rear end of the sliding rail extends to be fixedly connected to the wall body, both sides of the sealing plate 7 are respectively arranged in the sliding rails, both sides of the sealing plate 7 are rotatably connected with rollers rolling in the sliding rails, a fixing frame 18 is fixedly connected to the sealing plate 7 near the rear side wall, a connecting pipe 19 is fixedly connected to the fixing frame 18, a circular groove is arranged inside the connecting pipe 19, threads are arranged on the inner wall of the circular groove, connecting rods 20 are symmetrically and fixedly connected to both left and right sides of the connecting pipe 19, the end parts of the connecting rods 20 are fixedly connected with the rear side wall of the sealing plate 7, and the interior of the connecting pipe 19 is in threaded connection with a push rod 8.

The bottom surface rigid coupling has the slope piece in the water collection box 5, and the low side of slope piece is established in drain outlet department, and 5 inside outlets that all are equipped with of water collection box, and drain outlet department all can dismantle and be connected with the filter screen, and the outlet all communicates has drain pipe 6, and drain pipe 6 communicates has the header tank of collecting the rainwater.

Embodiment 2 as shown in fig. 2 and 3, embodiment 2 differs from embodiment 1 only in the driving manner of the movement of the sealing plate 7, the movement of the sealing plate 7 in embodiment 1 is manually pushed, while the sealing plate 7 in embodiment 2 can be automatically moved, in embodiment 2, a motor 9 is fixedly connected to each front connecting block 3, a first rotating shaft 10 is coaxially connected to an output shaft of the motor 9, each first rotating shaft 10 is rotatably connected to each rear connecting block 3, a first gear 11 is coaxially connected to each first rotating shaft 10, the first gear 11 is located below the sealing plate 7, and a first rack 16 meshed with the first gear 11 is fixedly connected below the sealing plate 7.

All rotate between connecting block 3 and be connected with second pivot 12, equal coaxial coupling has second gear 13 in the second pivot 12, first pivot 10 and 12 front ends of second pivot are coaxial coupling respectively and have driving gear 14 and driven gear 15, driving gear 14 and 15 meshing of driven gear, second gear 13 is located shrouding 7 top respectively, the equal rigid coupling of shrouding 7 upper surface has the second rack 17 with 13 meshing of second gear, first gear 11 sets up in shrouding 7 below with 13 symmetries of second gear, it is favorable to the stability that shrouding 7 removed to set up two gears in shrouding 7's upper and lower symmetry.

Be provided with the raindrop inductor on the eaves mouth 2, be provided with the controller on the connecting block 3, the raindrop inductor all is connected with the controller electricity with motor 9.

The specific implementation process comprises the following steps: according to embodiment 2, in sunny days, the sealing plate 7 is in a state of covering the upper part of the water collecting box 5 and the opening of the water collecting box 5, leaves and branches do not fall into the water collecting box 5 to block the water collecting box 5, when raining, rainwater falls on the roof and flows to the cornice 2, the raindrop sensor at the cornice 2 senses raining and transmits signals to the controller, the controller controls the motor 9 to rotate clockwise for a certain number of turns, the motor 9 rotates clockwise to drive the driving gear 14 to rotate clockwise, the driven gear 15 rotates counterclockwise, the first rotating shaft 10 and the second rotating shaft 12 drive the first gear 11 and the second gear 13 to rotate clockwise and counterclockwise respectively, because the first gear 11 and the second gear 13 are meshed with the first rack 16 and the second rack 17 respectively, the sealing plate 7 moves backward for a certain distance under the action of the first gear 11 and the second gear 13, therefore, the front end of the sealing plate 7 leaves the upper part of the water collecting box 5, the opening of the water collecting box 5 is opened, and at the moment, rainwater flowing down from the cornice 2 flows into the water collecting box 5, flows into the drain pipe 6 from the water outlet of the water collecting box 5, and is discharged into the water collecting box from the drain pipe 6 to be collected and utilized.

When stopping rain, the rainwater is no longer sensed to the raindrop inductor, and the raindrop inductor gives the controller with signal transmission, and certain number of turns of controller control motor 9 anticlockwise rotation, under motor 9's effect, shrouding 7 moves one end distance forward and covers the opening of water collection box 5 completely, and the back is sheltered from by shrouding 7 to water collection box 5 opening when fine day, and the leaf can not all not float to water collection box 5 with the branch inside, avoids water collection box 5 to be blockked up.

The implementation process of embodiment 1 is different from that of embodiment 2 only in that, in embodiment 1, in rainy days, the push rod 8 needs to be manually pushed to open the opening of the water collecting box 5 by the sealing plate 7, in sunny days, the push rod 8 needs to be manually used to cover the opening of the water collecting box 5 by the sealing plate 7, meanwhile, the top end of the push rod 8 is in threaded connection with the sealing plate 7, the push rod 8 can be conveniently detached from the sealing plate 7 in a rotating manner and can also be installed in a rotating manner, compared with embodiment 1, embodiment 2 utilizes the raindrop sensor to sense rainy days, and the controller automatically controls the motor 9 to enable the sealing plate 7 to be automatically opened and closed.

According to the utility model, the water collecting box 5 is arranged below the cornice 2 to catch rainwater flowing down from the cornice 2, and the rainwater is concentrated from the water collecting box 5 and discharged from the drain pipe 6, so that the rainwater is prevented from directly dropping from the cornice 2 to the ground to wet pedestrians passing below the cornice 2, the solid matters such as soil in the rainwater are filtered by the filter screen, the drain pipe 6 is prevented from being blocked in the drain pipe 6, and the wind leaves and branches can be prevented from falling into the water collecting box 5 only by pushing the sealing plate 7 to cover the water collecting box 5 by using the push rod 8 in non-rainy days, so that the problem that the drainage effect of the cornice 2 is influenced because sundries are easily accumulated in the traditional inclined roof cornice 2 waterproof device is solved. And the automation of closing and opening the water collection box 5 according to sunny days and rainy days is realized.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (7)

1. The utility model provides an architectural design roof eaves mouth watertight fittings which characterized in that: including the connecting block of rigid coupling at eaves mouth both ends, the rigid coupling has the back shaft between the connecting block, the rigid coupling has the water-collecting box on the back shaft, one side that the water-collecting box is close to eaves mouth edge is equipped with the opening, opening length is not less than the length of eaves mouth, the one end that the connecting block is close to the roofing is equipped with the shrouding, the symmetry is equipped with the slide rail between the connecting block, the one end of slide rail extends to water-collecting box one end, the other end of slide rail extend to the wall and with the wall rigid coupling, be provided with on the shrouding and promote the gliding pushing mechanism of shrouding, water-collecting box one end is equipped with the outlet, the bottom rigid coupling has the sloping block in the water-collecting box, the fast low side of slope is established in drain outlet department, the outlet intercommunication has the drain pipe, the outlet can be dismantled and be connected with the filter screen.

2. The waterproof device for the eave of the architectural design roof as claimed in claim 1, wherein the pushing mechanism comprises a fixed frame fixedly connected to one side of the sealing plate, a connecting pipe is fixedly connected to the fixed frame, the bottom end of the connecting pipe penetrates through the fixed frame and is in threaded connection with a push rod, connecting rods are symmetrically and fixedly connected to two sides of the connecting pipe, and free ends of the connecting rods are respectively fixedly connected to the sealing plate.

3. The waterproof device for the eave of the architectural design roof as claimed in claim 1, wherein the pushing mechanism comprises a motor fixedly connected to one side of the connecting block, the motor is coaxially connected with a first rotating shaft, the free end of the first rotating shaft penetrates into the connecting block and is rotatably connected with the connecting block, the first rotating shaft is coaxially connected with a first gear, and the upper surface of the sealing plate is provided with a first rack which can be meshed with the gear.

4. The waterproof device for the eave of the architectural design roof as claimed in claim 3, wherein the first rotating shaft is located above the sealing plate, a second rotating shaft is further arranged below the sealing plate and between the rotating connecting blocks, a driving gear is coaxially connected to one end of the first rotating shaft close to the motor, a driven gear meshed with the driving gear is coaxially connected to the second rotating shaft, a second gear is coaxially connected to the second rotating shaft, and a second rack capable of being meshed with the second gear is arranged on the lower surface of the sealing plate.

5. An architecturally designed roof cornice waterproofing device according to claim 4 wherein the first and second gears are located above and below the sealing plate respectively and are symmetrically located.

6. An architecturally designed roof cornice waterproofing device according to claim 1, wherein the free end of the drain pipe is connected to a water collection tank, and the water collection tank is located on the side of the house.

7. The waterproof device for the eaves of the architectural design roof of claim 4, wherein the eaves is provided with a raindrop sensor, the connecting block is provided with a controller, and the raindrop sensor and the motor are electrically connected with the controller.

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