CN115059316A - Floor reservation entrance to a cave component block structure among architectural design - Google Patents

Abstract

The invention discloses a plugging structure for a reserved hole component of a floor slab in building design, which comprises a wall penetrating pipe, wherein a plurality of feed inlets are annularly and equidistantly formed in the outer side wall of the wall penetrating pipe, a hydraulic sleeve is fixedly installed in the wall penetrating pipe, a core column is jointly sealed and slidably inserted in the hydraulic sleeve and the wall penetrating pipe, a first screw groove is formed in the upper end of the core column, a screw rod upper cover is installed in the first screw groove, a pouring groove is formed in the upper surface of the screw rod upper cover, a plurality of pouring gates are symmetrically formed in the side wall of a screw section of the screw rod upper cover, and a sealing cover is installed at the notch of the pouring groove. According to the invention, by adopting a mode of plugging two sides of the reserved hole in the middle and filling the filler, the filling effect can be improved, the filling difficulty can be reduced, the waste and the difficulty in cleaning caused by the leakage of the filler can be avoided, the reserved hole with a plurality of apertures can be adapted by adjusting the fixed diameter through the non-return positioner, the application range is wider, the operation is simple, and the plugging effect is better.

Description

Floor reservation entrance to a cave component block structure among architectural design

Technical Field

The invention relates to the technical field of plugging of constructional engineering, in particular to a plugging structure of a component of a reserved opening of a floor slab in architectural design.

Background

When the floor reserved hole is poured by a concrete floor, the concrete floor is poured in order to reserve pipelines such as water and electricity, the reserved hole is not necessarily used completely, the reserved hole is not necessarily a regular circle, the unused reserved hole needs to be plugged, and the problem that the structural safety is influenced by long-term weathering of the hole is avoided.

The existing reserved hole plugging member usually adopts through-wall pipe plugging, the through-wall pipe which is close to the irregular reserved hole in size and has the thickness equal to the thickness of a floor slab is inserted into the reserved hole, then waterproof adhesive is filled between the periphery of the through-wall pipe and the reserved hole, the through-wall pipe is fixed in the reserved hole, then the through-wall pipe is subjected to specification sealing, but the plugging is realized in the mode, the filled adhesive is easy to leak outwards, the adhesive is wasted, the difficulty in cleaning is caused, different through-wall pipes are required to be selected for the reserved holes with different apertures, the operation is troublesome, and the filling is inconvenient.

Disclosure of Invention

The invention aims to solve the problems that preformed holes of various specifications cannot be plugged, filling agents are easy to leak during plugging, waste is caused, and cleaning is difficult, and provides a plugging structure for a reserved hole component of a floor slab in building design.

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

a plugging structure for a reserved hole component of a floor slab in building design comprises a wall penetrating pipe, a plurality of feed inlets are annularly and equidistantly arranged on the outer side wall of the wall penetrating pipe, a hydraulic sleeve is fixedly arranged in the wall penetrating pipe, the hydraulic sleeve and the wall penetrating pipe are jointly sealed and slidably inserted with a core column, a first screw groove is arranged at the upper end of the core column, a screw rod upper cover is arranged in the first screw groove, a pouring groove is arranged on the upper surface of the screw rod upper cover, a plurality of pouring gates are symmetrically arranged on the side wall of the screw section of the screw upper cover, a sealing cover is arranged at the notch of the pouring groove, the lower end of the core column is provided with a second screw groove, the lower end of the hydraulic sleeve is hermetically and slidably inserted with a pipe sleeve, the lower end of the core column is hermetically and slidably inserted into the pipe sleeve, the lower end of the wall penetrating pipe is inserted with a screw lower cover, and the screw section of the screw lower cover extends into the pipe sleeve and is installed in the second screw groove in a threaded mode.

Furthermore, a plurality of shape hydraulic pressure slotted holes of returning have been seted up to hydraulic pressure sheathed tube upper end annular equidistance, every it all seals to slide in the shape hydraulic pressure slotted hole and inserts and be equipped with hydraulic push rod, every hydraulic push rod's upper end all extends to hydraulic pressure sheathed tube top and rotates to inlay and be equipped with the ball.

Furthermore, annular equidistance is fixed between two parties on the lateral wall of through-wall pipe and is inserted and be equipped with a plurality of piston pipes, every the piston pipe is close to one side that hydraulic pressure sheathed tube one end all extends to returning shape hydraulic pressure slotted hole and keep away from hydraulic push rod, every the piston pipe is kept away from hydraulic pressure sheathed tube one end and is all arranged in the outside of through-wall pipe and sealed slip and insert and be equipped with the piston rod, every the piston rod is kept away from hydraulic pressure sheathed tube one end and the lateral wall of through-wall pipe and all installs the non return locator jointly.

Further, every non return locator all includes the roof of fixing on the piston rod and two spacing smooth boxes of longitudinal symmetry on the wall-penetrating pipe outer wall, every all rotate on the roof and install two non return cardboard, every the one end that the roof was kept away from to the non return cardboard all extends to in the spacing smooth box, every non return thorn groove has all been seted up on the interior diapire of spacing smooth box, every the one end that the roof was kept away from to the non return cardboard all supports in the thorn groove of non return, every one section that the non return cardboard is located in the spacing smooth box all installs the anticreep pole, anticreep pole slidable mounting is on the inside wall of spacing smooth box.

Further, a plurality of blades are uniformly installed on the outer side wall of the wall penetrating pipe, each feed inlet is located between every two adjacent blades, and each check positioner is located between every two vertical adjacent blades.

Further, the core column comprises an upper section, a middle section and a lower section, the diameter of the upper section of the core column is equal to the inner diameter of the wall penetrating pipe, the upper section of the core column is hermetically and slidably inserted into the wall penetrating pipe, the diameter of the middle section of the core column is equal to the inner diameter of the hydraulic sleeve, the middle section of the core column is hermetically and slidably inserted into the hydraulic sleeve, the diameter of the lower section of the core column is equal to the inner diameter of the hydraulic sleeve, and the lower section of the core column is hermetically and slidably inserted into the hydraulic sleeve.

Has the advantages that: through the mode that adopts the both sides of shutoff reservation entrance to a cave placed in the middle and carry out the packing of filler, can enough promote the packing effect, also can reduce the packing degree of difficulty, and avoid the filler to spill and cause extravagant and clearance difficulty, and can adjust the reservation entrance to a cave of fixed diameter adaptation multiple aperture through the non return locator, application scope is wider, and easy operation, the shutoff effect is better.

Drawings

Fig. 1 is a schematic structural view of a plugging structure of a reserved floor opening member in a building design according to the present invention;

FIG. 2 is a schematic partially cut-away view of a through-wall pipe of a plugging structure of a reserved hole member of a floor slab in a building design according to the present invention;

FIG. 3 is a schematic sectional view of a core column of a plugging structure of a member for a reserved hole of a floor slab according to the present invention;

fig. 4 is a schematic partially-cut-away view of a limiting slide box of a plugging structure of a member for a reserved hole of a floor slab in the building design provided by the invention.

In the figure: the device comprises a wall penetrating pipe 1, a blade plate 11, a feed inlet 12, a hydraulic sleeve 2, a hydraulic groove hole 21 in a shape of Chinese character 'hui', a hydraulic push rod 22, a ball 23, a piston pipe 24, a piston rod 25, a pipe sleeve 26, a check positioner 3, a top plate 31, a limit sliding box 32, a check snap-gauge 33, a check ratchet groove 34, a check rod 35, a core column 4, a first spiral groove 41, a second spiral groove 42, a lower screw rod cover 5, an upper screw rod cover 6, a pouring groove 61, a pouring gate 62 and a sealing cover 63.

Detailed Description

Referring to fig. 1-4, a plugging structure for a reserved hole component of a floor slab in building design comprises a wall penetrating pipe 1, a plurality of feed inlets 12 are annularly and equidistantly formed in the outer side wall of the wall penetrating pipe 1, a hydraulic sleeve 2 is fixedly installed in the wall penetrating pipe 1, a core column 4 is jointly and hermetically inserted in the hydraulic sleeve 2 and the wall penetrating pipe 1 in a sliding manner, a first screw groove 41 is formed in the upper end of the core column 4, a screw upper cover 6 is installed in the first screw groove 41, a pouring groove 61 is formed in the upper surface of the screw upper cover 6, a plurality of pouring gates 62 are symmetrically formed in the side wall of a screw section of the screw upper cover 6, a sealing cover 63 is installed at the notch of the pouring groove 61, a second screw groove 42 is formed in the lower end of the core column 4, a pipe sleeve 26 is hermetically and slidably inserted at the lower end of the hydraulic sleeve 2, a pipe sleeve 4 is hermetically inserted in the pipe sleeve 26 in a sliding manner, a screw lower cover 5 is inserted at the lower end of the wall penetrating pipe 1, and the screw section of the screw lower cover 5 extends into the pipe sleeve 26 and is threadedly installed in the second screw groove 42.

Inserting the core column 4 into the wall penetrating pipe 1, inserting the lower end of the core column 4 into the hydraulic sleeve 2, installing the upper end of the core column 4 through the first screw groove 41 and the screw upper cover 6, installing the lower end of the core column 4 through the second screw groove 42 and the screw lower cover 5, sealing the lower end of the core column 4 and the hydraulic sleeve 2 by the pipe sleeve 26, respectively locking the screw upper cover 6 and the screw lower cover 5 in the first screw groove 41 and the second screw groove 42, namely tightly abutting the upper end of the wall penetrating pipe 1 with the screw upper cover 6 and tightly abutting the lower end of the wall penetrating pipe 1 with the screw lower cover 5, tightly covering the reserved hole with the screw upper cover 6 and the screw lower cover 5, sealing the reserved hole, inserting the wall penetrating pipe 1 into the reserved hole, injecting the leakage-proof filler into the pouring groove 61, allowing the leakage-proof filler to enter the wall penetrating pipe 1 through the pouring gate 62 and be located above the core column 4, and allowing the filler to enter between the outer wall of the wall penetrating pipe 1 and the leakage-proof hole from the plurality of feed ports 12, then make reserved entrance to a cave filled up gradually to cover sealed lid 63, make wall pipe 1 with reserve the entrance to a cave packing bonding, reach the effect of shutoff, and can plug up the back with reserving the entrance to a cave both sides and carry out the leak protection filler and fill, can make to fill more convenient and the filling effect is better, and can avoid the leak protection filler to spill, can enough save the leak protection filler, also can avoid the leak protection filler to spill and lead to the floor surface clearance degree of difficulty to increase.

A plurality of clip-shaped hydraulic slotted holes 21 are formed in the upper end of the hydraulic sleeve 2 in an annular and equidistant mode, hydraulic push rods 22 are inserted into each clip-shaped hydraulic slotted hole 21 in a sealing and sliding mode, and the upper end of each hydraulic push rod 22 extends to the upper portion of the hydraulic sleeve 2 and is embedded with balls 23 in a rotating mode.

Stem 4 when moving between wall pipe 1 and hydraulic pressure sleeve pipe 2 for stem 4 can extrude ball 23 and promote hydraulic pressure push rod 22 and remove, then can make hydraulic pressure push rod 22 remove to returning shape hydraulic pressure slotted hole 21, make and return shape hydraulic pressure slotted hole 21 internal pressure increase, ball 23 can make stem 4 take place when rotating, avoid stem 4 to produce horizontal thrust to hydraulic pressure push rod 22, can avoid hydraulic pressure push rod 22 crooked promptly, increase hydraulic pressure push rod 22's reliability.

Annular equidistance is fixed between two parties on the lateral wall of poling 1 and is inserted and be equipped with a plurality of piston pipes 24, one end that every piston pipe 24 is close to hydraulic sleeve 2 all extends to in returning shape hydraulic groove hole 21 and keeps away from one side of hydraulic push rod 22, the outside of poling 1 is all arranged in to the one end that hydraulic sleeve 2 was kept away from to every piston pipe 24 and sealed slip is inserted and is equipped with piston rod 25, non return locator 3 is all installed jointly to the one end that hydraulic sleeve 2 was kept away from to every piston rod 25 and the lateral wall of poling 1.

When the pressure in the clip-shaped hydraulic groove hole 21 is increased, the pressure in the piston tube 24 is increased, the piston rod 25 moves outwards, and the check positioner 3 can be pushed to work, so that the check positioner 3 can fix the wall penetrating tube 1 in the reserved hole, and the wall penetrating tube 1 is prevented from moving in the plugging process to influence the plugging effect.

Every non return locator 3 all includes two spacing smooth boxes 32 of roof 31 and the longitudinal symmetry on the wall pipe 1 outer wall of fixing on piston rod 25, all rotate on every roof 31 and install two non return cardboard 33, the one end that roof 31 was kept away from to every non return cardboard 33 all extends to in the spacing smooth box 32, non return ratchet groove 34 has all been seted up on the interior diapire of every spacing smooth box 32, the one end that roof 31 was kept away from to every non return cardboard 33 all supports in non return ratchet groove 34, anticreep pole 35 is all installed to one section that every non return cardboard 33 is located spacing smooth box 32, anticreep pole 35 slidable mounting is on the inside wall of spacing smooth box 32.

When the piston rod 25 moves outwards, the top plate 31 is pushed to move and abut against the hole wall of the reserved hole, the top plate 31 moves to pull the check catch plates 33 on the two sides to move, one end, far away from the top plate 31, of each check catch plate 33 is limited in the limiting sliding box 32 by the anti-falling rod 35, so that the check catch plates 33 rotate on the top plate 31, the check catch plates 33 slide in the check ratchet grooves 34, and the check catch plates 33 are reversely locked by the check ratchet grooves 34, so that the top plate 31 can be prevented from returning, namely, when the wall penetrating pipe 1 is blocked after being fixed by the check positioner 3, even if damage leakage occurs between the hydraulic push rod 22 and the return hydraulic groove hole 21 due to operation failure, the wall penetrating pipe 1 can be ensured to be fixed in the middle of the reserved hole, the blocking reliability is improved, the reserved holes with different hole diameters can be fixed by moving the top plate 31, the application range of the wall penetrating pipe is enlarged, namely, the assembly depth of the first screw groove 41 and the screw upper cover 6 and the second screw groove 42 and the screw lower cover are adjusted, and the screw cover are adjusted 5, assembling to a deep depth.

A plurality of blades 11 are uniformly installed on the outer side wall of the wall penetrating pipe 1, each feed inlet 12 is located between two adjacent blades 11, and each check positioner 3 is located between a plurality of vertically adjacent blades 11.

The vane 11 can increase the resistance between leak protection filler and the wall pipe 1, treats the leak protection filler solidification back, even screw rod upper cover 6 and screw rod lower cover 5 damage drop, also can avoid the wall pipe 1 to drop, increases the fastness of wall pipe 1 shutoff.

The stem 4 includes upper segment, middle section and hypomere, and the upper segment diameter of stem 4 equals the internal diameter of wall pipe 1, and the sealed slip of the upper segment of stem 4 inserts and establishes in wall pipe 1, and the middle section diameter of stem 4 equals the internal diameter of hydraulic sleeve 2, and the sealed slip of the middle section of stem 4 inserts and establishes in hydraulic sleeve 2, and the hypomere diameter of stem 4 equals the internal diameter of pipe box 26, and the sealed slip of the hypomere of stem 4 inserts and establishes in pipe box 26.

Stem 4 is through upper segment and the sealed sliding connection of wall-penetrating pipe 1, and through middle section and the sealed sliding connection of hydraulic sleeve 2 and through hypomere and the sealed sliding connection of pipe box 26, can make in the wall-penetrating pipe 1 do not seal, can make promptly that the leak protection filler that gets into in the wall-penetrating pipe 1 only can flow to reserving the hole in through feed inlet 12 in, avoids the leak protection filler to spill and leads to the consumption to increase.

Inserting the wall penetrating pipe 1 into the reserved hole and making two end faces of the wall penetrating pipe 1 flush with two end faces of the reserved hole, inserting the pipe sleeve 26 into the lower end of the hydraulic sleeve 2 in the wall penetrating pipe 1, then inserting the core column 4 into the wall penetrating pipe 1, making the upper section of the core column 4 slidably inserted on the inner wall of the wall penetrating pipe 1, making the middle section of the core column 4 slidably inserted on the inner wall of the hydraulic sleeve 2, making the lower section of the core column 4 slidably inserted on the inner wall of the pipe sleeve 26, then covering the lower end of the wall penetrating pipe 1 with the lower screw cover 5, pushing the core column 4 to make the screw section of the lower screw cover 5 inserted into the second screw groove 42, then inserting the screw section of the upper screw cover 6 into the first screw groove 41 and rotating for a certain number of turns, then pushing the upper screw cover 6 to make it push the core column 4 to move, so that the lower screw cover 5 is pushed by the core column 4 to move out of the wall penetrating pipe 1, and making the upper screw cover 6 abut against the wall penetrating pipe 1, then the screw lower cover 5 is rotated to enable the screw lower cover 5 to be tightly close to the wall penetrating pipe 1, and the screw upper cover 6 and the screw lower cover 5 are enabled to cover the reserved hole;

when the core column 4 moves, the upper section of the core column 4 pushes the ball 23 and the hydraulic push rod 22 to move towards the clip-shaped hydraulic groove hole 21, so that the pressure in the clip-shaped hydraulic groove hole 21 is increased, the pressure in the piston tube 24 is increased, the piston rod 25 moves outwards and pushes the top plate 31 to move to tightly abut against the inner wall of the reserved hole, that is, the wall penetrating tube 1 is fixed in the middle of the reserved hole by the top plate 31 and the piston rod 25, the top plate 31 moves to drive the check clamping plate 33 to move and rotate, and one end of the check clamping plate 33, which is positioned in the limiting sliding box 32, slides and is reversely blocked by the check ratchet groove 34;

wall pipe 1 is fixed between two parties in reserving the entrance to a cave and screw rod upper cover 6 and screw rod lower cover 5 will reserve the entrance to a cave when sealing, insert through the external pipe and water in groove 61 and inwards pour into the leak protection filler into, make the leak protection filler can follow runner 62 and get into in wall pipe 1, then get into through feed inlet 12 and reserve in the entrance to a cave and be full of, cover sealed lid 63, then after the solidification of leak protection filler, make wall pipe 1 closely adhere with reserving the entrance to a cave, and lamina 11 can avoid wall pipe 1 not hard up droing in the leak protection filler.

Claims (6)

1. The plugging structure for the reserved hole component of the floor slab in the building design comprises a wall penetrating pipe (1) and is characterized in that a plurality of feed inlets (12) are formed in the outer side wall of the wall penetrating pipe (1) in an annular equal distance mode, a hydraulic sleeve (2) is fixedly installed in the wall penetrating pipe (1), a core column (4) is jointly sealed and slidably inserted into the hydraulic sleeve (2) and the wall penetrating pipe (1), a first screw groove (41) is formed in the upper end of the core column (4), a screw upper cover (6) is installed in the first screw groove (41), a pouring groove (61) is formed in the upper surface of the screw upper cover (6), a plurality of pouring gates (62) are symmetrically formed in the side wall of a screw section of the screw upper cover (6), a sealing cover (63) is installed at the notch of the pouring groove (61), a second screw groove (42) is formed in the lower end of the core column (4), and a pipe sleeve (26) is hermetically and slidably inserted into the lower end of the hydraulic sleeve (2), the lower end of the core column (4) is hermetically and slidably inserted into the pipe sleeve (26), the lower end of the wall penetrating pipe (1) is inserted with a screw lower cover (5), and the screw section of the screw lower cover (5) extends into the pipe sleeve (26) and is installed in the second screw groove (42) in a threaded manner.

2. The plugging structure for the reserved hole component of the floor slab in the building design according to claim 1, wherein a plurality of clip-shaped hydraulic slotted holes (21) are formed in the upper end of the hydraulic sleeve (2) in an annular and equidistant mode, hydraulic push rods (22) are inserted in each clip-shaped hydraulic slotted hole (21) in a sealing and sliding mode, and the upper end of each hydraulic push rod (22) extends to the position above the hydraulic sleeve (2) and is embedded with a ball (23) in a rotating mode.

3. The plugging structure for the reserved hole component of the floor slab in the building design according to claim 2, wherein a plurality of piston pipes (24) are fixedly inserted in the middle of an annular equal distance on the outer side wall of the through-wall pipe (1), one end of each piston pipe (24) close to the hydraulic sleeve (2) extends into the clip-shaped hydraulic groove hole (21) and is far away from one side of the hydraulic push rod (22), one end of each piston pipe (24) far away from the hydraulic sleeve (2) is arranged on the outer side of the through-wall pipe (1) and is inserted with a piston rod (25) in a sealing sliding mode, and one end of each piston rod (25) far away from the hydraulic sleeve (2) and the outer side wall of the through-wall pipe (1) are provided with the check positioner (3) together.

4. A floor slab reserved hole component blocking structure in building design according to claim 3, the anti-falling device is characterized in that each check positioner (3) comprises a top plate (31) fixed on a piston rod (25) and two limiting sliding boxes (32) which are vertically symmetrical on the outer wall of the wall penetrating pipe (1), each top plate (31) is rotatably provided with two check clamping plates (33), one end of each check clamping plate (33) far away from the top plate (31) extends into the limiting sliding box (32), the inner bottom wall of each limiting sliding box (32) is provided with a check ratchet groove (34), one end of each check clamping plate (33) far away from the top plate (31) is propped against the check ratchet groove (34), one section of each check clamping plate (33) in the limiting sliding box (32) is provided with an anti-falling rod (35), anticreep pole (35) slidable mounting is on the inside wall of spacing smooth box (32).

5. The plugging structure for the reserved hole member of the floor slab in the building design according to claim 3, wherein a plurality of blades (11) are uniformly installed on the outer side wall of the through-wall pipe (1), each feeding hole (12) is positioned between two adjacent blades (11), and each check locator (3) is positioned between a plurality of vertically adjacent blades (11).

6. The plugging structure for the component of the reserved hole of the floor slab in the building design according to claim 1, wherein the core column (4) comprises an upper section, a middle section and a lower section, the diameter of the upper section of the core column (4) is equal to the inner diameter of the wall penetrating pipe (1), the upper section of the core column (4) is hermetically and slidably inserted in the wall penetrating pipe (1), the diameter of the middle section of the core column (4) is equal to the inner diameter of the hydraulic sleeve (2), the middle section of the core column (4) is hermetically and slidably inserted in the hydraulic sleeve (2), the diameter of the lower section of the core column (4) is equal to the inner diameter of the pipe sleeve (26), and the lower section of the core column (4) is hermetically and slidably inserted in the pipe sleeve (26).

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