CN217557442U - Floor water-stopping device in high-rise residence construction process - Google Patents

Floor water-stopping device in high-rise residence construction process Download PDF

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Publication number
CN217557442U
CN217557442U CN202221043693.9U CN202221043693U CN217557442U CN 217557442 U CN217557442 U CN 217557442U CN 202221043693 U CN202221043693 U CN 202221043693U CN 217557442 U CN217557442 U CN 217557442U
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water
saving
floor
connecting plate
construction process
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CN202221043693.9U
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Inventor
袁昌勇
谢泽木
车军伟
程帅
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Chongqing Huashuo Construction Co ltd
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Chongqing Huashuo Construction Co ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A20/00Water conservation; Efficient water supply; Efficient water use
    • Y02A20/108Rainwater harvesting
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A30/00Adapting or protecting infrastructure or their operation
    • Y02A30/60Planning or developing urban green infrastructure

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Abstract

The utility model relates to a building field specifically discloses a floor water stop device in high-rise residential construction process. Comprises an annular water-saving ring, wherein the water-saving ring is provided with a water receiving tank with an upward opening, and the bottom of the water receiving tank is communicated with a drain pipe. The utility model provides a floor among the high-rise residence work progress cuts water installation and need not to carry out the shutoff to the entrance to a cave and can avoid forming rivers in door opening department.

Description

Floor water-stopping device in high-rise residence construction process
Technical Field
The utility model relates to a building field, concretely relates to floor water stop device in high-rise residence work progress.
Background
When a building is constructed, a main body structure needs to be poured firstly, then construction or decoration of other structures such as building components and electromechanical structures is carried out on the basis of the main body structure, in the process, rainwater can flow downwards along the outer wall of the building and the side wall of an elevator shaft in rainy days, flowing water is formed at the positions of doors and windows, the positions of the doors and the windows of the building are not closed, and the rainwater can easily enter the building from the positions of the doors and the windows, so that a dry working environment cannot be provided when the construction or decoration of other components and electromechanical structures of the building is carried out, and the construction can be adversely affected by rainy days.
The traditional water-saving measures are used for plugging positions with holes such as doors and windows, but light in a building is deteriorated due to plugging, and because materials are inconvenient to transport, the plugging objects need to be dismantled after weather becomes clear, the workload is large, the plugging objects need to be repeatedly installed and dismantled, and the operation is complex.
SUMMERY OF THE UTILITY MODEL
The utility model provides a floor water stop device in high-rise residential construction process to need not to carry out the shutoff to the entrance to a cave and can avoid forming rivers in entrance to a cave department.
In order to achieve the above purpose, the utility model adopts the following technical scheme: the floor water interception device in the high-rise residential construction process comprises an annular water-saving ring, wherein a water receiving tank with an upward opening is arranged on the water-saving ring, and the bottom of the water receiving tank is communicated with a drain pipe.
The beneficial effect of this scheme does:
annular water-saving ring in this scheme installs on the wall of building, during rainy day, rainwater on the wall of building gets into the water receiving tank along the wall when flowing downwards, flows along the water receiving tank again, and discharge from the drain pipe at last, and no longer flows down from the top in entrance to a cave such as door, window, so can not form the flowing water in entrance to a cave department, make and carry out other constitutions of building, electromechanical construction or can keep doing the operation environment when decorating, avoid the construction progress to receive the hindrance.
Furthermore, the bottom of the water receiving tank is inclined, and the communication position of the drain pipe and the water receiving tank is located at the lowest position of the water intercepting tank.
The beneficial effect of this scheme does: the height difference of the bottom of the water receiving tank can promote water in the water receiving tank to flow to one side close to the drain pipe, the water is conveniently discharged from the drain pipe, the phenomenon that water overflows from the top of the water saving ring and forms flowing water due to the fact that excessive rainwater is accumulated in the water receiving tank is avoided, and the rainwater interception effect is improved.
Further, the water-saving ring comprises a first water-saving part and a second water-saving part, a first groove body and a second groove body are arranged on the first water-saving part and the second water-saving part respectively, the water-receiving groove is formed by communicating the first groove body and the second groove body, and the bottom of the first groove body is higher than the bottom of the second groove body.
The beneficial effect of this scheme does: taking the outer wall of a building as an example, a plurality of rooms are arranged in the same floor of the building, a plurality of windows are arranged on the outer wall of the building in order to ensure the lighting of each room and each staircase, and the height difference exists between the window of the staircase and the window of other rooms directly according to the difference between the height of the staircase and the height of other rooms. When the water-saving ring is installed, the water-saving ring is required to be ensured to be above all windows on the same floor, and all door openings can not form running water. In this scheme, there is the difference in height between first water conservation portion and the second water conservation portion, more convenient installation in the door opening top of co-altitude.
Furthermore, the lateral wall of the first water-saving part is provided with an opening, the opening is communicated with the second groove body, and the extension line of the second groove body penetrates through the opening.
The beneficial effect of this scheme does: the opening in this scheme is just to the second cell body, and the flow direction of the rainwater that flows from the opening is the same with the length direction of second cell body, when the rainwater flows to the second cell body from first cell body, can not receive blockking of the lateral wall of second cell body for more steady when the rainwater flows into the second cell body, can avoid the rainwater that flows to splash to the wall or splash down because of receiving to block.
Furthermore, a filter screen is arranged in the water receiving tank.
The beneficial effect of this scheme does: the filter screen can filter the rainwater, avoids falling into leaf or other large granule impurity in the water receiving tank and leads to the drain pipe to block up in falling into the drain pipe.
Further, a water guide block is fixed at the bottom of the water-saving ring and is positioned on one side of the water-saving ring, which is far away from the wall surface of the building.
The beneficial effect of this scheme does: when the rain power is too large, the rainwater falling into the water receiving tank in unit time is too much, and the rainwater in the water receiving tank overflows from the water receiving tank, the overflowing rainwater can flow downwards along the guide block and finally falls from the bottom of the guide block, so that the overflowing rainwater is prevented from flowing to the wall surface along the bottom of the water-saving ring, the washing of the wall surface by water is further reduced, and the paint brushed on the wall surface is prevented from falling off.
Furthermore, the water-saving rings are at least two, and the lower end of the water guide block is positioned in the water receiving groove on the water-saving ring on the lower side along the vertical projection.
The beneficial effect of this scheme does: the water-saving ring of downside can be collected the rainwater of overflowing, further improves the rainwater effect of damming, avoids entrance to a cave department to form flowing water.
Furthermore, one end of the water guide block, which is far away from the wall surface of the building, is an inclined plane, and the lower end of the inclined plane inclines towards one side, which is close to the wall surface of the building.
The beneficial effect of this scheme does: the inclined plane can carry out the water conservancy diversion to the rainwater of overflowing in the water receiving tank from the upside, guarantees that the rainwater can fall to and be collected in the water receiving tank of downside.
Further, the width of the water receiving groove in the lower water-saving ring is larger than that of the water receiving groove in the upper water-saving ring.
The beneficial effect of this scheme does: the width of downside water receiving tank is greater than the width of the water receiving tank of upside, need not to carry out the water conservancy diversion to the rainwater of overflowing and can guarantee that the water receiving tank of downside can be collected the rainwater of overflowing.
Furthermore, be equipped with the connecting block between first water conservation portion and the second water conservation portion, the connecting block includes fixed connection's water conservancy diversion portion, first connecting plate and second connecting plate, and first connecting plate and second connecting plate are located the both sides of water conservancy diversion portion respectively, and first connecting plate perpendicular to second connecting plate, and the lateral wall that water conservancy diversion portion is located between first connecting plate and the second connecting plate and the contained angle between first connecting plate and the second connecting plate are the obtuse angle.
The beneficial effect of this scheme does: when the water-saving device is installed, a height difference exists between the end parts of the first water-saving part and the second water-saving part. In this scheme, the second connecting plate offsets with the bottom of second cell body, the tip of first connecting plate and first water conservation portion offsets can be connected first water conservation portion and second water conservation portion to carry out the shutoff to the breach that forms because the difference in height between first water conservation portion and the second water conservation portion end, easy operation.
Secondly, water conservancy diversion portion can carry out the water conservancy diversion to the rainwater that flows from first cell body, further avoids the rainwater that flows to cause the impact to the second cell body to avoid leading to the rainwater to fly away from the second cell body because of assaulting.
Finally, because the difference in height between the windows of different buildings is different, when leading to first water conservation portion and the installation of second water conservation portion, the difference in height between first water conservation portion and the second water conservation portion end is different, during the connecting block installation in this scheme, first connecting plate can amputate the part of first connecting plate overlength with the tip counterbalance back of first water conservation portion, thereby make the connecting block can adapt to the first water conservation portion and the second water conservation portion of different differences in height.
Drawings
Fig. 1 is a perspective view of embodiment 1 of the present invention;
FIG. 2 is a cross-sectional view of the first water-saving part in FIG. 1 taken along the width direction;
fig. 3 is a cross-sectional view of the first water-saving part in the width direction according to embodiment 2 of the present invention;
fig. 4 is a cross-sectional view of the first water-saving part in the width direction according to embodiment 3 of the present invention;
fig. 5 is a cross-sectional view of the first water-saving part in the width direction according to embodiment 4 of the present invention;
fig. 6 is a sectional view of the second groove body of salt in the embodiment 5 of the present invention in the longitudinal direction.
Detailed Description
The following is further detailed by way of specific embodiments:
reference numerals in the drawings of the specification include: building 1, entrance to a cave 11, drain pipe 12, first water-saving portion 2, first cell body 21, sealed pad 22, baffle 3, filter screen 4, water conservancy diversion portion 5, first connecting plate 51, second connecting plate 52, water guide block 6, second water-saving portion 7.
Example 1
Floor water intercepting device in high-rise residential construction process, as shown in fig. 1, including annular water conservation ring, be equipped with the water receiving tank that the opening faces up on the water conservation ring, the water conservation ring in this embodiment adopts galvanized iron, as shown in fig. 2, when actually implementing, annular water conservation ring adopts the channel-section steel welding concatenation that a plurality of cross sections are the U-shaped to form, regard the outer wall of installing at building 1 as the example, the lateral wall that the channel-section steel is close to the outer wall is spliced and is had sealed the pad 22, specifically, sealed pad 22 can adopt the elastic rubber piece, avoids forming the gap between channel-section steel and the outer wall, improves the interception effect to the rainwater. As shown in FIG. 1, the inner wall of the water-saving ring is abutted against the outer wall of the building 1 and is mounted on the shear wall of the building 1 through steel nails.
The water-saving ring in the embodiment comprises a first water-saving part 2 and a second water-saving part 7 which are fixedly welded, wherein a first groove body 21 and a second groove body are respectively arranged on the first water-saving part 2 and the second water-saving part 7, the first groove body 21 and the second groove body are communicated to form a water receiving groove together, the bottom of the first groove body 21 is higher than that of the second groove body, the second water-saving part 7 in the embodiment is located above a window with the lowest top height or other holes 11, when the water-saving ring is actually implemented, the number of the first groove bodies 21 is determined according to the window with the higher height or other holes 11, and the first water-saving part 2 corresponds to other holes 11 except the hole 11 with the lowest top one to be located above the other holes 11.
The bottom that the second cell body is close to 2 one ends of first water-saving portion is higher than the bottom of keeping away from 2 one ends of first water-saving portion, and the bottom that first cell body 21 is close to 7 one ends of second water-saving portion is less than the bottom of keeping away from 7 one ends of second water-saving portion, so the bottom of first cell body 21 and second cell body all slopes, and is concrete, and the bottom slope 1 of water receiving tank in this embodiment impels the rainwater to flow along first cell body 21 and second cell body. The bottom intercommunication of second water-saving portion 7 has drain pipe 12, and drain pipe 12 splices on second water-saving portion 7, and drain pipe 12 in this embodiment communicates with the lowest of second cell body.
The baffle 3 is fixed to the one end that first water-saving portion 2 is close to second water-saving portion 7, and the top of baffle 3 is as high as the top of first water-saving portion 2, seals first cell body 21, avoids the flowing water and the wall contact of first cell body 21. Use the front end of first water-saving portion 2 as an example, the front end of first water-saving portion 2 is equipped with the opening, the extension line of second cell body right-hand member passes the opening, the rainwater flows to the one end that first cell body 21 is close to the second cell body, flow to the second cell body and follow the in-process that the second cell body flows, only receive stopping of baffle 3, and the top of baffle 3 and the height at 2 tops of first water-saving portion all are higher than the height at 7 tops of second water-saving portion, the event receives baffle 3 and splash a little when the rainwater leads to rainwater to flow to 3 positions of baffle because of the rainwater in first cell body 21 is too much, baffle 3 and the lateral wall of first water-saving portion 2 also can be better stop the rainwater, avoid the rainwater to splash to the outer wall.
The specific implementation process is as follows:
the water-saving ring in the embodiment can block rainwater flowing down along the outer wall, so that the rainwater enters the water receiving tank and finally flows out of the drain pipe 12, flowing water cannot be formed at the position of the hole 11, a dry operation environment can be provided for other components of the building 1, electromechanical construction or decoration, and the construction period is prevented from being blocked.
Example 2
On the basis of embodiment 1, as shown in fig. 3, a filter screen 4 is placed in the water receiving tank in this embodiment, specifically, the filter screen 4 in this embodiment adopts a block-shaped structure that is similar to a sponge or a steel wire ball at present and has a certain thickness and a through hole through which water passes, so as to improve the filtering effect on rainwater and prevent leaves or other impurities with large particles from falling into the drain pipe 12 and blocking the drain pipe 12. In practical implementation, a common flat-plate-shaped filter screen 4 can be adopted, the bottom of the filter screen is higher than the bottom of the water receiving tank, and leaves or other large-particle impurities on the filter screen 4 are prevented from being soaked in water for a long time and rotten. Secondly, the lower end of the drain pipe 12 can be communicated with a water pumping structure such as a water pump, and the effect of draining rainwater in the water receiving tank from the drain pipe 12 is improved.
Example 3
On the basis of embodiment 1 or embodiment 2, as shown in fig. 4, two water-saving rings are arranged and distributed along a vertical gap. Use first water-saving portion 2 as an example, water guide block 6 has all been welded to the bottom of first water-saving portion 2 and second water-saving portion 7, and the cross section of water guide block 6 in this embodiment is right triangle, and the hypotenuse of water guide block 6 is located the one side of keeping away from the outer wall, and the right wall of water guide block 6 forms the inclined plane of lower extreme leanto the left, and the upper end on inclined plane and the right wall of first water-saving portion 2 are located same vertical plane. In practical implementation, the number of the water-saving rings can be increased, and at the moment, the water guide blocks 6 can be arranged on the water-saving rings positioned below the uppermost water-saving ring to guide overflowing rainwater.
When the water intercepting device in the embodiment is used, when the rainfall is too large, the rainwater entering the first groove body 21 on the upper side in unit time is too much, and the rainwater cannot be discharged from the drain pipe 12 in time and overflows from the right side of the first water saving part 2, the overflowing rainwater flows downwards along the inclined plane and falls into the water receiving groove on the lower side, and is discharged from the drain pipe 12 connected with the water saving ring on the lower side, so that the rainwater intercepting effect is further improved, and the formation of running water at the hole 11 is avoided.
Example 4
On the basis of embodiment 3, as shown in fig. 5, the difference from embodiment 3 is that one of the right-angled sides of the water guide block 6 and the right wall of the first water-saving portion 2 are located on the same vertical plane. The width of the first groove body 21 on the lower side is larger than that of the first groove body 21 on the upper side, and rainwater flowing down along the water guide block 6 can be ensured to fall into the first groove body 21 on the lower side.
Example 5
On the basis of embodiment 1 or 2, as shown in fig. 6, a connecting block is arranged between the first water-saving part 2 and the second water-saving part 7, the connecting block comprises a flow guide part 5, a first connecting plate 51 and a second connecting plate 52 which are integrally formed, the cross section of the flow guide part 5 is a right triangle, the first connecting plate 51 and the second connecting plate 52 are respectively positioned on the upper side and the left side of the flow guide part 5, the right wall of the first connecting plate 51 and the right wall of the flow guide part 5 are positioned on the same plane, and the bottom of the second connecting plate 52 and the bottom of the flow guide part 5 are positioned on the same plane. The included angles between the first connecting plate 51 and the second connecting plate 52 and the oblique sides of the flow guide part 5 are obtuse angles; the front end and the rear end of the diversion part 5, the first connecting plate 51 and the second connecting plate 52 are respectively abutted against two vertical side walls of the water receiving tank.
During the installation of the connecting block in this embodiment, the first connecting plate 51 abuts against and is welded and fixed with the end part of the first water-saving part 2, the second connecting plate 52 abuts against and is welded with the bottom of the second groove body, and then the redundant part of the first connecting plate 51 is cut until the top of the first connecting plate 51 is equal to the bottom of the first groove body 21.
When installing the water blocking device in this embodiment on different buildings 1, because the distribution of entrance to a cave 11 such as window is different, lead to the difference in height between first water-saving portion 2 and the 7 tip of second water-saving portion, in this embodiment, after offsetting the bottom of second connecting plate 52 and second cell body, move the connecting block right and can offset first connecting plate 51 and first water-saving portion 2, can be connected first water-saving portion 2 and second water-saving portion 7 through the connecting block this moment, and carry out the shutoff to the breach that forms because the difference in height between first water-saving portion 2 and the second water-saving portion 7 simultaneously. After installation, other shielding objects do not exist on the left side and the right side of the redundant part of the first connecting plate 51, so that cutting is convenient, and assembly is convenient.
The above description is only an example of the present invention, and the detailed technical solutions and/or characteristics known in the solutions are not described too much here. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. Floor water stop device in the high-rise residence construction process, its characterized in that: the water-saving device comprises an annular water-saving ring, wherein a water receiving groove with an upward opening is formed in the water-saving ring, and a drain pipe is communicated with the bottom of the water receiving groove.
2. The floor intercepting apparatus in the construction process of a high-rise dwelling house according to claim 1, wherein: the bottom of the water receiving tank is inclined, and the communication position of the drain pipe and the water receiving tank is located at the lowest position of the water intercepting tank.
3. The floor intercepting apparatus in the construction process of a high-rise dwelling house according to claim 2, wherein: the water-saving ring comprises a first water-saving part and a second water-saving part, wherein a first groove body and a second groove body are arranged on the first water-saving part and the second water-saving part respectively, the water-receiving groove is formed by communicating the first groove body with the second groove body, and the bottom of the first groove body is higher than the bottom of the second groove body.
4. The floor intercepting apparatus in the construction process of a high-rise dwelling of claim 3, wherein: the lateral wall of first water conservation portion is equipped with the opening, opening and second cell body intercommunication, and the extension line of second cell body pass the opening.
5. The floor intercepting apparatus in the construction process of a high-rise dwelling house according to claim 1, wherein: a filter screen is arranged in the water receiving tank.
6. The floor intercepting apparatus in the construction process of a high-rise dwelling house according to claim 1, wherein: the bottom of the water-saving ring is fixed with a water guide block which is positioned on one side of the water-saving ring away from the wall surface of a building.
7. The floor intercepting apparatus in the construction process of a high-rise dwelling house according to claim 6, wherein: the water-saving ring is provided with at least two water-saving rings, and the lower end of the water guide block is positioned in the water receiving groove on the water-saving ring at the lower side along the vertical projection.
8. The floor intercepting apparatus in the construction process of a high-rise residential building according to claim 7, wherein: the end of the water guide block, which is far away from the wall surface of the building, is an inclined surface, and the lower end of the inclined surface inclines to one side close to the wall surface of the building.
9. The floor water intercepting apparatus in the construction process of a high-rise dwelling house according to claim 7, wherein: the width of the water receiving groove in the lower water-saving ring is larger than that of the water receiving groove in the upper water-saving ring.
10. The floor water intercepting apparatus in the construction process of a high-rise dwelling house according to claim 3, wherein: be equipped with the connecting block between first water conservation portion and the second water conservation portion, the connecting block includes fixed connection's water conservancy diversion portion, first connecting plate and second connecting plate are located the both sides of water conservancy diversion portion respectively, and first connecting plate perpendicular to second connecting plate, lateral wall that water conservancy diversion portion is located between first connecting plate and the second connecting plate and the contained angle between first connecting plate and the second connecting plate are the obtuse angle.
CN202221043693.9U 2022-04-29 2022-04-29 Floor water-stopping device in high-rise residence construction process Active CN217557442U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202221043693.9U CN217557442U (en) 2022-04-29 2022-04-29 Floor water-stopping device in high-rise residence construction process

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221043693.9U CN217557442U (en) 2022-04-29 2022-04-29 Floor water-stopping device in high-rise residence construction process

Publications (1)

Publication Number Publication Date
CN217557442U true CN217557442U (en) 2022-10-11

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ID=83472553

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202221043693.9U Active CN217557442U (en) 2022-04-29 2022-04-29 Floor water-stopping device in high-rise residence construction process

Country Status (1)

Country Link
CN (1) CN217557442U (en)

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