CN113622529A

CN113622529A - Waterproof node

Info

Publication number: CN113622529A
Application number: CN202110930266.6A
Authority: CN
Inventors: 孙瑞彤; 左廷忠; 肖亚明; 谭建国; 刘原; 胡青云; 刘呈华
Original assignee: China Construction Eighth Engineering Division Co Ltd
Current assignee: China Construction Eighth Engineering Division Co Ltd
Priority date: 2021-08-13
Filing date: 2021-08-13
Publication date: 2021-11-09
Anticipated expiration: 2041-08-13
Also published as: CN113622529B

Abstract

A waterproof node is used for solving the technical problem that a water stop belt placed at a joint of a structure is inconvenient to replace. The bearing wall comprises a bearing wall, wherein a strip-shaped groove with an outward opening is formed in one side of the bearing wall along the length direction of the bearing wall; the end part of the floor slab is fixedly lapped with the inner wall of the lower part of the strip-shaped groove; the driving assembly is arranged on the bearing wall, the lower part of the driving assembly is connected with a sealing strip in a sliding manner, the sealing strip can slide on the lower part of the driving assembly along the horizontal direction, and the driving assembly is used for driving the sealing strip to slide downwards along the vertical direction so as to enable the sealing strip to be abutted against and sealed with the inner wall of the lower part of the strip-shaped groove; the sliding block is arranged on the inner wall of the lower part of the strip-shaped groove and can slide along the horizontal direction; the connecting assembly is arranged on the driving assembly and used for driving the sliding block to slide along with the downward movement of the driving assembly to push the sealing strip, so that the sealing strip slides in the horizontal direction and is in sealing and abutting joint with the end part of the floor slab.

Description

Waterproof node

Technical Field

The invention relates to the technical field of construction, in particular to a waterproof node.

Background

The underground garage is in underground environment, because the relief is low-lying, phenomenon such as ponding can appear in the underground garage sometimes, underground garage structure generally all have bearing wall and with bearing wall fixed connection's floor, the junction between bearing wall and the floor belongs to the weak link of atress, this place can produce the crackle under serious condition after receiving external effort many times, even can not produce the crackle, the infiltration phenomenon can appear in the junction between bearing wall and the floor, the performance of building has been influenced to a certain extent.

In the existing construction mode, in order to prevent the water seepage of the joints of the structures, a water stop belt is constructed at the joints of the structures in the construction design, so that the water seepage phenomenon of the joints of the structures is prevented.

With the prolonging of the service time, the waterstop is gradually aged and deformed, so that the waterstop performance is reduced, but in the existing construction process, the waterstop is generally embedded at the joint of a structure, and the waterstop is inconvenient to replace due to the mode.

Disclosure of Invention

The invention aims to provide a waterproof node aiming at the defects of the prior art and is used for solving the technical problem that a water stop belt placed at a structure connecting part is inconvenient to replace in the background technology.

In order to achieve the purpose, the invention adopts the following technical scheme:

a waterproof node, comprising:

the bearing wall is provided with a strip-shaped groove with an outward opening along the length direction of one side of the bearing wall, and the inner wall of the upper part and the inner wall of the lower part of the strip-shaped groove are horizontal;

the end part of the floor slab is fixedly lapped with the inner wall of the lower part of the strip-shaped groove;

the driving assembly is arranged on the bearing wall, the lower part of the driving assembly is connected with a sealing strip in a sliding manner, the sealing strip can slide on the lower part of the driving assembly along the horizontal direction, and the driving assembly is used for driving the sealing strip to slide downwards along the vertical direction so as to enable the sealing strip to be abutted against and sealed with the inner wall of the lower part of the strip-shaped groove;

the sliding block is arranged on the inner wall of the lower part of the strip-shaped groove and can slide along the horizontal direction;

and the connecting assembly is arranged on the driving assembly and used for driving the sliding block to slide along with the downward movement of the driving assembly to push the sealing strip, so that the sealing strip slides in the horizontal direction and is in sealing and abutting joint with the end part of the floor slab.

The working principle is as follows:

after the construction of the bearing wall and the floor slab is completed, constructors install the driving assembly on the bearing wall, connect the sealing strip at the lower part of the driving assembly and install the connecting assembly on the driving assembly.

Then constructor passes through drive assembly drive sealing strip along vertical lapse, this in-process the sealing strip is close to towards the inner wall of bar groove lower part, and simultaneously, drive assembly drive coupling assembling moves down, and coupling assembling moves down the in-process with the drive slider towards the sealing strip slip to the top pushes away the sealing strip and makes the sealing strip towards floor tip horizontal slip.

Constructor continuously operates drive assembly, reaches the sealing strip and the inner wall butt of bar groove lower part and sealed to the sealing strip slides on the horizontal direction and seals with floor tip butt, accomplishes the sealing strip installation this moment.

When the sealing strip needs to be replaced, the constructor needs to drive the sealing strip to move upwards through the driving assembly until the sealing strip is moved upwards to the groove opening of the strip groove, and then the constructor takes down the sealing strip from the lower part of the driving assembly.

The invention has the beneficial effects that:

when the sealing strip mounting device is used, a constructor only needs to drive the sealing strip to move downwards in the strip-shaped groove towards the inner wall of the lower part of the strip-shaped groove by means of the driving assembly, meanwhile, the driving assembly also drives the connecting assembly to move downwards, the sliding block is driven to slide in the downward movement process of the connecting assembly, the sliding block pushes the sealing strip, so that the sealing strip horizontally slides towards the end part of a floor slab, the sealing strip is continuously driven to move downwards by means of the driving assembly until the sealing strip is abutted against and sealed with the inner wall of the lower part of the strip-shaped groove, and meanwhile, the sealing strip is abutted against and sealed with the end part of the floor slab, and at the moment, the operation of mounting the sealing strip is completed. When the sealing strip needs to be replaced, a constructor only needs to drive the sealing strip to move upwards by virtue of the driving assembly and move to the notch of the strip-shaped groove, and then takes down the sealing strip from the lower part of the driving assembly.

Under drive assembly and coupling assembling's combined action, constructor passes through the in-process that the drive assembly drive sealing strip removed towards the inner wall of bar groove lower part downwards, coupling assembling also drives the sealing strip simultaneously and slides towards the tip of floor on the horizontal direction, and it is sealed up to the inner wall butt of sealing strip and bar groove lower part, and it is sealed up to the tip butt of sealing strip and floor to realize the waterproof problem of sealing of junction between bearing wall and the floor, and the sealing strip is changed easily.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

fig. 3 is an enlarged assembly view of the connecting rod and the sealing strip.

Description of reference numerals: the device comprises a bearing wall 1, a strip-shaped groove 2, a floor slab 3, a sealing strip 4, a sliding block 5, an installation block 6, a screw 7, a connecting rod 8, an installation rod 9, a driving block 10, a first sliding groove 11, a first sliding block 12, a tension spring 13, a first embedded plate 14, a second embedded plate 15, a first reinforcing rod 16, a third embedded plate 17, a second reinforcing rod 18, an installation shell 19, a connecting column 20, a second sliding groove 21 and a second sliding block 22.

Detailed Description

The technical solution of the present invention is further explained with reference to the drawings and the embodiments.

As shown in fig. 1, a waterproof node includes:

the bearing wall comprises a bearing wall 1, wherein a strip-shaped groove 2 with an outward opening is formed in one side of the bearing wall 1 along the length direction of the bearing wall, and the inner wall of the upper part and the inner wall of the lower part of the strip-shaped groove 2 are horizontal;

the end part of the floor slab 3 is fixedly lapped with the inner wall at the lower part of the strip-shaped groove 2;

the driving assembly is arranged on the bearing wall 1, the lower part of the driving assembly is connected with a sealing strip 4 in a sliding manner, the sealing strip 4 can slide on the lower part of the driving assembly along the horizontal direction, and the driving assembly is used for driving the sealing strip 4 to slide downwards along the vertical direction so as to enable the sealing strip 4 to be abutted and sealed with the inner wall of the lower part of the strip groove 2;

the sliding block 5 is arranged on the inner wall of the lower part of the strip-shaped groove 2, and the sliding block 5 can slide along the horizontal direction;

and the connecting assembly is arranged on the driving assembly and used for driving the sliding block 5 to slide along with the downward movement of the driving assembly to push the sealing strip 4, so that the sealing strip 4 slides in the horizontal direction and is in sealing and abutting joint with the end part of the floor slab 3.

As shown in fig. 1 and 2, the driving assembly includes a mounting block 6 fixed on the bearing wall 1, a screw 7 and a connecting rod 8 penetrating through the mounting block 6 and connected with the mounting block 6 by a thread, the screw 7 and the connecting rod 8 are both vertical, the bottom of the screw 7 is rotatably connected with the top of the connecting rod 8, the connecting rod 8 can rotate relative to the screw 7, a mounting shell 19 with a cylindrical cavity is fixed at the bottom of the screw 7, a connecting column 20 matched with the cavity is arranged in the mounting shell 19, the connecting column 20 can rotate relative to the mounting shell 19, the top of the connecting rod 8 is fixedly connected with the connecting column 20, the bottom of the connecting rod 8 is slidably connected with the sealing strip 4, as shown in fig. 2 and 3, a second sliding groove 21 penetrating the sealing strip 4 is formed in the upper portion of the sealing strip 4, a second sliding block 22 is slidably arranged in the second sliding groove 21, and the bottom of the connecting rod 8 is fixedly connected with the second sliding block 22, the connecting component is fixedly connected with the connecting rod 8. Coupling assembling is including installation pole 9 and drive block 10, installation pole 9 and 8 fixed connection of connecting rod, drive block 10 and installation pole 9 fixed connection, this drive block 10 is the wedge block structure that has the inclined plane, slider 5 is also the wedge block structure that has the inclined plane, and drive block 10 is located slider 5 top, and both inclined planes adaptation and relative.

This kind of design simple structure of drive assembly and coupling assembling, whole operation is convenient more, it is swift, constructor precession screw rod 7, screw rod 7 drives connecting rod 8 and sealing strip 4 downstream, connecting rod 8 drives installation pole 9 and drive block 10 downstream simultaneously, drive block 10 downstream in-process pushes away slider 5 towards the 4 direction slides with 5 butts of slider, continuously precession screw rod 7, inner wall butt and sealed up to sealing

strip

4 and 2 lower parts in bar groove, meanwhile, slider 5 continuously pushes away sealing strip 4, thereby sealing

strip

4 and 3 tip butts of floor are sealed, thereby sealed with the junction between bearing wall 1 and the floor 3.

When sealing strip 4 needs to be changed, constructor upwards unscrews screw rod 7, and screw rod 7 drives connecting rod 8 and sealing strip 4 and upwards removes, and up to the notch position with sealing strip 4 upwards removal to bar groove 2, later constructor sliding seal 4 again to with the second sliding block 22 deviate from in the second spout 21 can, can change sealing strip 4 afterwards.

As shown in fig. 1 and 2, open on the inner wall of bar groove 2 lower part has first spout 11, and this first spout 11 sliding connection has first sliding block 12, this first sliding block 12 and slider 5 fixed connection, be equipped with extension spring 13 in the first spout 11, this extension spring 13 one end and 11 inner wall fixed connection of first spout, its other end and first sliding block 12 are connected, and this extension spring 13 is used for tractive first sliding block 12 and makes first sliding block 12 drive slider 5 slide and keep away from floor 3 and reset, after sealing strip 4 rebound in bar groove 2, extension spring 13 can stimulate first sliding block 12 to make first sliding block 12 drive slider 5 slide and reset, make preparation for next installation sealing strip 4, this kind of design is favorable to improving the efficiency of changing sealing strip 4.

As shown in fig. 1, two first embedded plates 14 are embedded in the bearing wall 1, the strip-shaped groove 2 is located between the two first embedded plates 14, two second embedded plates 15 are fixed between the two first embedded plates 14, a plurality of first reinforcing rods 16 are fixed on the two first embedded plates 14, the first embedded plates 14 and the second embedded plates 15 are both of steel plate structures, and the positions of the bearing wall 1 in the strip-shaped groove 2 can be enhanced by arranging the first embedded plates 14 and the second embedded plates 15, so that the strength and stability of the structure are ensured. The third embedded plate 17 is fixedly connected with the first embedded plate 14 located below the strip-shaped groove 2, the third embedded plate 17 extends out of the bearing wall 1 and extends into the floor slab 3 to be fixed in the floor slab 3, the third embedded plate 17 is also of a steel plate structure, and the third embedded plate 17 is respectively arranged between the bearing wall 1 and the floor slab 3, so that the connection strength between the bearing wall 1 and the floor slab 3 is enhanced. Many pre-buried second stiffeners 18 in the floor 3, many these second stiffeners 18 all with stretch into the pre-buried board 17 fixed connection of third in the floor 3, first stiffener 16 and second stiffener 18 are steel bar structure, and first stiffener 16 and second stiffener 18 can improve the structural strength of bearing wall 1 and floor 3 respectively, sealing strip 4 is the rubber waterstop structure.

The working principle is as follows:

after the construction of the bearing wall 1 and the floor slab 3 is completed, constructors install a driving assembly on the bearing wall 1, connect the sealing strip 4 at the lower part of the driving assembly, and install a connecting assembly on the driving assembly.

Afterwards constructor passes through drive assembly drive sealing strip 4 and follows vertical lapse, this in-process sealing strip 4 is close to towards the inner wall of 2 lower parts in strip groove, and simultaneously, drive assembly drive coupling assembling downstream, coupling assembling downstream's in-process will drive slider 5 and slide towards sealing strip 4 to top sealing strip 4 makes sealing strip 4 towards floor 3 tip horizontal slip.

Specifically, constructor precession screw rod 7, screw rod 7 drives connecting rod 8 and sealing strip 4 downstream, connecting rod 8 drives installation pole 9 and drive block 10 downstream simultaneously, drive block 10 downstream in-process pushes away the slider 5 with the butt of slider 5 and slides towards the 4 directions of sealing strip, continuously precession screw rod 7, it is sealed up to the inner wall butt of sealing strip 4 with the 2 lower parts in bar groove, meanwhile, slider 5 continuously pushes away sealing strip 4, thereby sealing

strip

4 and 3 tip butts of floor and seal, thereby it is sealed with the junction between bearing wall 1 and the floor 3.

When needing to change sealing strip 4, constructor need drive sealing strip 4 rebound through drive assembly, until with the upward notch department that moves strip groove 2 of sealing strip 4, later constructor again with sealing strip 4 from drive assembly's lower part take off can.

Specifically, constructor upwards unscrews screw rod 7, and screw rod 7 drives connecting rod 8 and sealing strip 4 rebound, and up to the notch position with sealing strip 4 rebound to bar groove 2, later constructor slip sealing strip 4 again to with second sliding block 22 deviate from in the second spout 21 can, can change sealing strip 4 afterwards.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims

1. A waterproof node, comprising:

the bearing wall (1), one side of the bearing wall (1) is provided with a strip-shaped groove (2) with an outward opening along the length direction, and the inner wall of the upper part and the inner wall of the lower part of the strip-shaped groove (2) are horizontal;

the end part of the floor slab (3) is fixedly lapped with the inner wall at the lower part of the strip-shaped groove (2);

the driving assembly is arranged on the bearing wall (1), the lower part of the driving assembly is connected with a sealing strip (4) in a sliding mode, the sealing strip (4) can slide on the lower part of the driving assembly along the horizontal direction, and the driving assembly is used for driving the sealing strip (4) to slide downwards along the vertical direction so as to enable the sealing strip (4) to be abutted against and sealed with the inner wall of the lower part of the strip-shaped groove (2);

the sliding block (5) is arranged on the inner wall of the lower part of the strip-shaped groove (2), and the sliding block (5) can slide along the horizontal direction;

and the connecting assembly is arranged on the driving assembly and used for driving the sliding block (5) to push the sealing strip (4) in a sliding manner along with the downward movement of the driving assembly, so that the sealing strip (4) slides in the horizontal direction and is in sealing and abutting joint with the end part of the floor slab (3).

2. A water resistant node according to claim 1, characterized in that: drive assembly including fix installation piece (6) on bearing wall (1), wear to establish on installation piece (6) and with installation piece (6) threaded connection's screw rod (7) and connecting rod (8), screw rod (7) and connecting rod (8) are all vertical, screw rod (7) bottom and the top of connecting rod (8) are rotated and are connected, screw rod (7) rotation relatively in this connecting rod (8), connecting rod (8) bottom and sealing strip (4) sliding connection, coupling assembling and connecting rod (8) fixed connection.

3. A water resistant node according to claim 2, characterized in that: coupling assembling is including installation pole (9) and drive block (10), installation pole (9) and connecting rod (8) fixed connection, drive block (10) and installation pole (9) fixed connection, this drive block (10) are the wedge block structure that has the inclined plane, slider (5) also are the wedge block structure that has the inclined plane, and drive block (10) are located slider (5) top, and the inclined plane adaptation of both is just relative.

4. A water resistant node according to claim 3, characterized in that: open on the inner wall of bar groove (2) lower part has first spout (11), and this first spout (11) sliding connection has first sliding block (12), this first sliding block (12) and slider (5) fixed connection, be equipped with extension spring (13) in first spout (11), this extension spring (13) one end and first spout (11) inner wall fixed connection, its other end is connected with first sliding block (12), and this extension spring (13) are used for tractive first sliding block (12) and then make first sliding block (12) drive slider (5) and slide and keep away from floor (3) and reset.

5. A water resistant node according to claim 1, characterized in that: two first embedded plates (14) are embedded in the bearing wall (1), the strip-shaped groove (2) is located between the two first embedded plates (14), and two second embedded plates (15) are fixed between the two first embedded plates (14).

6. A watertight joint as claimed in claim 5, characterized in that: a plurality of first reinforcing rods (16) are fixed on the two first embedded plates (14).

7. A water resistant node according to claim 1, characterized in that: the floor slab is characterized by further comprising a third embedded plate (17), wherein the third embedded plate (17) is fixedly connected with the first embedded plate (14) positioned below the strip-shaped groove (2), and the third embedded plate (17) extends out of the bearing wall (1) and extends into and is fixed in the floor slab (3).

8. A water resistant node according to claim 7, characterized in that: a plurality of second reinforcing rods (18) are embedded in the floor (3), and the second reinforcing rods (18) are fixedly connected with a third embedded plate (17) extending into the floor (3).