CN111636553A - Assembled balcony structure and construction process - Google Patents

Abstract

The invention relates to an assembly type balcony structure and a construction process, wherein the structure comprises a prefabricated body, the prefabricated body comprises a rectangular bottom plate, side plates are arranged on three sides of the bottom plate in a surrounding manner, the prefabricated body also comprises a telescopic connecting piece arranged on a building main body, the upper end surface of the bottom plate is provided with a connecting groove towards the thickness direction of the bottom plate, the connecting groove is formed from the middle part of the bottom plate to the width direction, the lower end of the connecting groove is communicated with a clamping groove formed towards the length square of the bottom plate, and the clamping groove and the connecting groove are distributed at; the telescopic connecting piece is a rod piece arranged towards the width direction of the bottom plate, and one end of the telescopic connecting piece is always positioned in the floor slab and is connected with the limiting mechanism; one end of the telescopic connecting piece extends into the clamping groove when extending out of the floor slab, so that the prefabricated body is hung on the outer vertical surface of the building. The invention has the advantages that the assembled balcony is connected with the building main body after the construction of the building main body is finished, and the lifting of the hanging basket is convenient for constructing the exterior finish of the building.

Description

Assembled balcony structure and construction process

Technical Field

The invention relates to the technical field of building assembly, in particular to an assembly balcony structure and a construction process.

Background

At present, more building structures are prefabricated in factories and then transported to a construction site to be spliced with a building main body for construction.

Chinese patent document with an authorization publication number of CN207646858U discloses an assembled prefabricated balcony, relates to the technical field of building construction, and solves the problem of inconvenient installation and replacement of balcony side plates of the existing balcony. Technical scheme is a prefabricated balcony of assembled, including the balcony bottom plate, balcony curb plate and curb plate mount, the curb plate mount includes chord member and lower chord member, and be located the web member between the two, lower chord member is fixed to be set up in the periphery of balcony bottom plate, the perpendicular fixed connection of lower extreme of web member is in lower chord member, the both sides of balcony curb plate are all connected in the web member, it includes fixed plate and apron to go up the chord member, the fixed plate is "T" style of calligraphy and two branches board up, respectively wear to be equipped with a threaded connection in the fixing bolt of web member on two branches boards of fixed plate, the fixed plate butt is in the balcony curb plate, the apron cup joints in the fixed plate, and still be provided with the screw of threaded connection in the fixed.

As in the prior art, the fabricated balcony is generally an overhung balcony, and the fabricated balcony is coupled with the building body during the construction of the building body. Because after the construction of building subject finishes, still need carry out the veneer construction to building subject's facade, at this moment, because the existence of balcony can obstruct the hanging flower basket lift to the efficiency of building facade construction has been reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an assembly type balcony structure and a construction process, which have the advantages that the assembly type balcony is connected with a building main body after the building main body is constructed, and a hanging basket is convenient to lift to construct an exterior finish of a building.

The first technical purpose of the invention is realized by the following technical scheme: an assembled balcony structure comprises a prefabricated body, wherein the prefabricated body comprises a rectangular bottom plate, three sides of the bottom plate are surrounded by side plates, two side plates at two ends of the bottom plate in the length direction are oppositely arranged hoisting plates, one side of the bottom plate in the width direction is provided with one side plate, the assembled balcony structure further comprises a telescopic connecting piece which is connected to a floor slab of a building main body in a sliding mode, the upper end face of the bottom plate is provided with a connecting groove in the thickness direction of the bottom plate, the connecting groove is formed in the middle of the bottom plate in the width direction, the lower end of the connecting groove is communicated with a clamping groove formed in the length direction of the bottom plate, and the clamping groove; the telescopic connecting piece is a rod piece arranged towards the width direction of the bottom plate, and one end of the telescopic connecting piece is always positioned in the floor slab and is connected with the limiting mechanism; one end of the telescopic connecting piece extends into the clamping groove when extending out of the floor slab, so that the prefabricated body is hung on the outer vertical surface of the building.

By adopting the technical scheme, the hoisting equipment is arranged, and the prefabricated bodies to be installed are installed from top to bottom; release the flexible connecting piece of highest floor slab earlier, utilize hoisting equipment to connect the prefabricated part and promote it after that, let the connecting rod aim at the spread groove for flexible connecting piece gets into to the spread groove in, recycles hoisting equipment drive prefabricated part horizontal displacement, makes flexible connecting piece get into the draw-in groove, at last at spread groove, fill the mortar in the spout. The existence of the limiting mechanism can limit the telescopic connecting piece to be completely separated from the floor slab.

Because the telescopic connectors are telescopic, when a prefabricated body with a target height is installed, the telescopic connectors below the prefabricated body are contracted in a floor slab, so that the telescopic connectors at the lower part cannot influence the lifting and installation of the prefabricated body at the higher part.

The present invention in a preferred example may be further configured to: the one end that the spread groove is located the bottom plate middle part is connected with the spacing groove one that cross sectional dimension is greater than spread groove cross sectional dimension, the one end that the draw-in groove is located the bottom plate middle part is connected with the spacing groove two that cross sectional dimension is greater than draw-in groove cross sectional dimension, spacing groove one forms a rectangular channel with spacing groove two intercommunication, telescopic connection spare for the other end that is located the floor throughout be provided with spacing groove one, spacing groove two complex spacing head.

Through adopting above-mentioned technical scheme, spacing head and spacing groove one, the cooperation of spacing groove two make the prefabricated part can not retract in the floor after being connected with telescopic connection spare to make more firm that prefabricated part and floor are connected.

The present invention in a preferred example may be further configured to: the floor slab is provided with a base block, the base is fixedly connected with steel bars in the floor slab, the outer end face of the floor slab is provided with a sliding groove which penetrates through the base block towards the inner part of the floor slab, the setting direction of the sliding groove is consistent with the width direction of the bottom plate, the upper surface of the floor slab is downwards provided with a control groove communicated with the sliding groove, the control groove extends along the length direction of the sliding groove, the telescopic connecting piece is connected with a control block, and the control block is positioned in the control groove.

By adopting the technical scheme, the sliding control block can control the telescopic connecting piece to stretch out and draw back in the sliding groove in the control groove. The control block can only slide in the control groove, so the control block can also play a role in limiting and is used for limiting the telescopic connecting piece to be separated from the floor slab.

The present invention in a preferred example may be further configured to: the upper ends of the two opposite hoisting plates are provided with corresponding connecting holes, connecting rods penetrate through the connecting holes in the hoisting plates on each side, and one ends, located between the two hoisting plates, of the connecting rods on the hoisting plates on the two sides are connected through a connecting mechanism.

Through adopting above-mentioned technical scheme, after the prefabricated body of higher department has been installed, carry out the in-process of installing to the prefabricated body of lower department, lifting device's rope is because be located the outer one end of bottom plate both sides hoisting plate with the connecting rod and link to each other, because the rope also is located the both sides of the prefabricated body of higher department, so make the prefabricated body can be convenient install according to top-down's order through setting up the connecting rod.

Through setting up coupling mechanism for the connecting rod on the hoist and mount board of bottom plate both sides can be convenient can dismantle the connection.

The present invention in a preferred example may be further configured to: the connecting mechanism comprises an external thread which is arranged at one end of the connecting rod between the two hoisting plates, and a threaded sleeve is connected to the external thread in a threaded manner.

Through adopting above-mentioned technical scheme, can make the swivel nut can remove along the axial direction of connecting rod through rotatory swivel nut, and when the swivel nut was simultaneously with two connecting rods one end spiro union in opposite directions, be about to two connecting rods spiro union together.

The present invention in a preferred example may be further configured to: the connecting holes are distributed along the width direction of the bottom plate, and one ends, located outside the two hoisting plates, of the connecting rods on each side of the hoisting plate are connected through the hoisting rods.

Through adopting above-mentioned technical scheme, many connecting rods that parallel are connected with the hoist and mount board to thereby make at the in-process of hoist and mount, thereby the prefabricated body can not rotate around the axis of connecting rod and strengthened hoist and mount the stability of prefabricated body in the work progress.

The second technical purpose of the invention is realized by the following technical scheme: an assembly type balcony construction process comprises the following steps:

the method comprises the following steps: arranging hoisting equipment;

step two: pushing the telescopic connecting piece out of the chute on the upper surface of the floor slab at the highest position;

step three: the connecting rods are inserted into the corresponding hoisting plates and then the connecting rods on the hoisting plates on the two sides are connected through the connecting mechanism;

step four: hoisting equipment is connected with the connecting rod to lift the prefabricated body;

step five: aligning the connecting rod with the connecting groove so that the connecting rod enters the connecting groove;

step six: driving the prefabricated body to horizontally displace by using hoisting equipment so that the connecting rod enters the clamping groove;

step seven: filling mortar in the connecting groove and the control groove;

step eight: and (4) installing the prefabricated bodies of the next stage on the prefabricated bodies to be installed in the order from top to bottom.

By adopting the technical scheme, the balcony prefabricated body can be installed in a hoisting mode after finishing the decoration construction of the building facade, and the building facade is a plane without obvious protruding objects before the prefabricated body is installed, so that the construction of the building facade is facilitated.

And, through setting up the flexible connecting piece to the flexible connection in floor, consequently can install the prefabricated part from last to down in proper order through the hoist and mount setting.

The present invention in a preferred example may be further configured to: and fifthly, gluing and waterproofing treatment are carried out between the prefabricated body and the floor slab.

Through adopting above-mentioned technical scheme, strengthen the waterproof sealing performance between prefabricated part and the floor.

In conclusion, the invention has the following beneficial effects:

1. after finishing the decoration construction of the building facade, the balcony prefabricated body can be installed in a hoisting mode, and before the prefabricated body is installed, the building facade is a plane without obvious protruding objects, so that the construction of the building facade is facilitated;

2. the telescopic connecting piece is arranged to be telescopically connected with the floor slab, so that the prefabricated bodies can be sequentially installed from top to bottom through hoisting;

3. the cooperation of spacing head and spacing groove one, spacing groove two makes the prefabricated part can not retract in the floor after being connected with telescopic connection spare to make the more firm of being connected of prefabricated part and floor.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the preform during the hoisting process of the present invention.

Reference numerals: 1. prefabricating a body; 2. a telescopic connecting piece; 3. a base plate; 4. hoisting the plate; 5. connecting holes; 6. a connecting rod; 7. a threaded sleeve; 8. hoisting the rod; 9. a hoisting ring; 10. connecting grooves; 11. a card slot; 12. a first limiting groove; 13. a second limiting groove; 14. a limiting head; 15. a floor slab; 16. a substrate block; 17. a chute; 18. a control slot; 19. a control block.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in fig. 1, an assembled balcony structure includes a prefabricated body 1 and telescopic links 2 provided on a floor 15 of a building body.

The prefabricated part 1 comprises a rectangular bottom plate 3, side plates are arranged on three sides of the bottom plate 3 in a surrounding mode, two side plates at two ends of the bottom plate 3 in the length direction are lifting plates 4 which are oppositely arranged, and one side of the bottom plate 3 in the width direction is provided with one side plate.

Two relative hoist and mount 4 upper ends are provided with corresponding connecting hole 5, and connecting hole 5 distributes along the width direction of bottom plate 3 has a plurality ofly, and connecting hole 5 on every hoist and mount board 4 is three in this embodiment. Connecting rods 6 penetrate through the connecting holes 5 in the hoisting plates 4 on each side, and one ends, located between the two hoisting plates 4, of the connecting rods 6 in the hoisting plates 4 on the two sides are connected through a connecting mechanism. The connecting mechanism comprises an external thread which is arranged at one end of the connecting rod 6 between the two hoisting plates 4, the external thread is connected with a threaded sleeve 7 in a threaded manner, and the threaded sleeve 7 can move along the axis direction of the connecting rod 6 by rotating the threaded sleeve 7. When the two ends of the threaded sleeve 7 are simultaneously in threaded connection with the two connecting rods 6, the two connecting rods 6 are in threaded connection. The ends, located outside the two hoisting plates 4, of the three connecting rods 6 on each hoisting plate 4 are connected together through a hoisting rod 8, and the middle of the hoisting rod 8 is also provided with a hoisting ring 9 for being connected with hoisting equipment. The hoisting equipment is connected with the hoisting ring 9, so that the prefabricated body 1 can be stably hoisted and lifted. Wherein, the hoisting equipment can be a tower crane, a crane, an electric hoist and the like.

Three connecting rods 6 that parallel are connected with hoisting plate 4 to make at the in-process of hoist and mount, prefabricated body 1 can't rotate around the axis of connecting rod 6, thereby strengthened hoist and mount stability of prefabrication 1 in the work progress.

The up end of bottom plate 3 is provided with connecting groove 10 to the thickness direction of bottom plate 3, and connecting groove 10 is seted up to the one side that does not set up the curb plate from the middle part of bottom plate 3, and the lower extreme intercommunication of connecting groove 10 is to the draw-in groove 11 that 3 length squares of bottom plate were seted up, and draw-in groove 11 all along the length direction interval distribution multichannel of bottom plate 3 with connecting groove 10, wherein is three in this embodiment.

One end of the connecting groove 10, which is located in the middle of the bottom plate 3, is connected with a first limiting groove 12, the cross-sectional dimension of which is greater than that of the connecting groove 10, one end of the clamping groove 11, which is located in the middle of the bottom plate 3, is connected with a second limiting groove 13, the cross-sectional dimension of which is greater than that of the clamping groove 11, and the first limiting groove 12 is communicated with the second limiting groove 13 to form a rectangular groove. The depth of the rectangular groove is deeper than that of the first limiting groove 12 and the second limiting groove 13, and the two ends of the rectangular groove are closer to the two ends of the length of the bottom plate 3 than that of the first limiting groove 12 and the second limiting groove 13.

The other end of the telescopic connecting piece 2, which is always positioned in the floor slab 15, is provided with a limiting head 14 matched with the first limiting groove 12 and the second limiting groove 13. Limiting head 14 and limiting groove 12, the cooperation of limiting groove two 13, because limiting head 14 can't enter into in spread groove 10 and draw-in groove 11 for prefabricated part 1 can not retract in floor 15 after being connected with telescopic connection 2, thereby make the more firm that prefabricated part 1 is connected with floor 15.

Telescopic connection 2 is the member that sets up for the width direction towards bottom plate 3, and telescopic connection 2 sliding connection is in building floor 15, and telescopic connection 2's one end is located floor 15 all the time and connects stop gear. Specifically, a rectangular base block 16 is provided in the floor 15, the base block 16 is a metal block or a high-strength concrete block, and the base block 16 is integrally embedded in the floor 15 and has one end flush with the outer end surface of the floor 15. The base blocks 16 are fixedly connected to the reinforcing bars in the floor 15 and are arranged toward the width direction of the floor 3.

The outer end face of the floor slab 15 is provided with a sliding chute 17 which penetrates through the base block 16 towards the inner part of the floor slab 15, and the arrangement direction of the sliding chute 17 is consistent with the width direction of the bottom plate 3. The limiting mechanism comprises a control groove 18 and a control block 19, the control groove 18 is opened downwards from the upper surface of the floor slab 15 and is communicated with the sliding groove 17, the control groove 18 extends along the length direction of the sliding groove 17 but does not penetrate through the base block 16, the control block 19 is connected to the telescopic connecting piece 2, and the control block 19 is located in the control groove 18. The sliding of the telescopic link 2 in the slide slot 17 can be controlled by pushing the control piece 19, and the engagement of the control piece 19 with the control slot 18 prevents the telescopic link 2 from disengaging from the base block 16. The opening of the slide groove 17 is smaller than the size of the stopper 14, so that the stopper 14 cannot enter into the slide groove 17. The limiting head 14 only slightly protrudes out of the outer end face of the floor slab 15, so that the lifting of the prefabricated body 1 is difficult to influence in the lifting process of the prefabricated body 1.

Example two:

as shown in fig. 2, a construction process of an assembly balcony includes the following steps:

the method comprises the following steps: arranging hoisting equipment, wherein the hoisting equipment can be a tower crane, a crane, an electric hoist and the like;

step two: the upper surface of the floor 15 at the highest position where the prefabricated part 1 is required to be connected is pushed out of the sliding groove 17 by the telescopic connecting piece 2, and then mortar is poured into the control groove 18 to be filled and leveled;

step three: the connecting rods 6 penetrate into the connecting holes 5, and then the connecting rods 6 on the hoisting plates 4 on the two sides of the prefabricated body 1 are connected together by utilizing the threaded sleeves 7;

step four: the hoisting equipment is connected with the hoisting rings 9 on the hoisting rods 8 to lift the prefabricated body 1, and the telescopic connecting piece 2 below the target position is contracted in the floor slab 15 and only the positioning head 14 slightly protrudes out of the outer vertical surface of the building, so that the lifting process of the prefabricated body 1 is difficult to be hindered by the telescopic connecting piece 2 at a lower height position;

step five: aligning the connecting rod 6 with the connecting groove 10, enabling the connecting rod 6 to enter the connecting groove 10 from top to bottom, and enabling the limiting head 14 to enter the limiting groove I12;

step six: the hoisting equipment is used for driving the prefabricated part 1 to horizontally displace, so that the connecting rod 6 enters the clamping groove 11, and the limiting head 14 enters the second limiting groove 13;

step seven: 1. filling mortar in the connecting groove 10, the clamping groove 11, the first limiting groove 12 and the second limiting groove 13;

2. brushing waterproof glue or waterproof mortar between the prefabricated body 1 and the outer end face of the floor slab 15 for waterproof treatment;

step eight: the preform 1 of the next stage is mounted in order from top to bottom.

By adopting the construction steps, the balcony prefabricated body 1 can be installed in a hoisting mode after finishing the decoration construction of the building facade, and the building facade is a plane without obvious protruding objects before the prefabricated body 1 is installed, so that the construction of the building facade is facilitated.

And, by setting the telescopic connection member 2 in a form of being telescopically connected to the floor 15, the prefabricated body 1 can be sequentially installed from top to bottom through a hoisting setting.

The embodiments of the present invention are the preferred embodiments of the present invention, and the scope of the present invention is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (8)

1. The utility model provides an assembled balcony structure, includes prefabricated part (1), prefabricated part (1) includes rectangle bottom plate (3), the trilateral encirclement of bottom plate (3) is provided with the curb plate, and wherein two blocks of curb plates at bottom plate (3) length direction both ends are relative hoisting plate (4) that set up, and one side of bottom plate (3) width direction is provided with a curb plate, characterized by: the floor structure is characterized by further comprising a telescopic connecting piece (2) which is connected to a building main body floor slab (15) in a sliding mode, a connecting groove (10) is formed in the upper end face of the bottom plate (3) in the thickness direction of the bottom plate (3), the connecting groove (10) is formed in the middle of the bottom plate (3) in the width direction, the lower end of the connecting groove (10) is communicated with a clamping groove (11) formed in the length direction of the bottom plate (3), and multiple grooves are formed in the clamping groove (11) and the connecting groove (10) at intervals along the length direction of the bottom plate (; the telescopic connecting piece (2) is a rod piece arranged towards the width direction of the bottom plate (3), and one end of the telescopic connecting piece (2) is always positioned in the floor slab (15) and is connected with the limiting mechanism; one end of the telescopic connecting piece (2) extends into the clamping groove (11) when extending out of the floor slab (15), so that the prefabricated body (1) is hung on the outer vertical surface of the building.

2. An assembled balcony structure according to claim 1, wherein: one end that spread groove (10) are located bottom plate (3) middle part is connected with first (12) of spacing groove that cross sectional dimension is greater than spread groove (10) cross sectional dimension, the one end that draw-in groove (11) are located bottom plate (3) middle part is connected with second (13) of spacing groove that cross sectional dimension is greater than draw-in groove (11) cross sectional dimension, spacing groove one (12) and spacing groove two (13) intercommunication form a rectangular channel, expansion joint spare (2) are provided with for the other end that is located floor (15) all the time with spacing groove one (12), spacing groove two (13) complex spacing head (14).

3. An assembled balcony structure according to claim 2, wherein: the floor slab (15) is internally provided with a base block (16), the base block (16) is fixedly connected with a steel bar in the floor slab (15), a sliding groove (17) penetrating through the base block (16) is formed in the outer end face of the floor slab (15) towards the inside of the floor slab (15), the setting direction of the sliding groove (17) is consistent with the width direction of the bottom plate (3), a control groove (18) communicated with the sliding groove (17) is formed in the lower surface of the floor slab (15), the control groove (18) extends along the length direction of the sliding groove (17), a control block (19) is connected onto the telescopic connecting piece (2), and the control block (19) is located in the control groove (18).

4. An assembled balcony structure according to claim 1, wherein: the upper ends of the two opposite hoisting plates (4) are provided with corresponding connecting holes (5), connecting rods (6) penetrate through the connecting holes (5) in the hoisting plates (4) on each side, and one ends, located between the two hoisting plates (4), of the connecting rods (6) in the hoisting plates (4) on the two sides are connected through a connecting mechanism.

5. An assembled balcony structure according to claim 4, wherein: the connecting mechanism comprises an external thread which is arranged at one end of the connecting rod (6) between the two hoisting plates (4), and a threaded sleeve (7) is connected onto the external thread in a threaded manner.

6. The assembly balcony structure and the construction process as claimed in claim 5, wherein: the connecting holes (5) are distributed along the width direction of the bottom plate (3) in a plurality, and one end, located outside the two hoisting plates (4), of the connecting rod (6) on each side of the hoisting plate (4) is connected through the hoisting rod (8).

7. An assembly balcony construction process according to any one of the claims 1-6, characterised in that: the method comprises the following steps:

the method comprises the following steps: arranging hoisting equipment;

step two: pushing the telescopic connecting piece (2) out of the sliding groove (17) on the upper surface of the floor (15) at the highest position;

step three: the connecting rods (6) are inserted into the corresponding hoisting plates (4), and then the connecting rods (6) on the hoisting plates (4) at two sides are connected through a connecting mechanism;

step four: hoisting equipment is connected with the connecting rod (6) to lift the prefabricated body (1);

step five: aligning the connecting rod (6) with the connecting groove (10) so that the connecting rod (6) enters the connecting groove (10);

step six: the hoisting equipment is utilized to drive the prefabricated body (1) to horizontally displace, so that the connecting rod (6) enters the clamping groove (11);

step seven: mortar is filled in the connecting groove (10) and the control groove (18);

step eight: and (3) installing the prefabricated body (1) of the next level on the prefabricated body (1) to be installed in the order from top to bottom.

8. The fabricated balcony construction process according to claim 7, wherein: and fifthly, gluing and waterproofing treatment are carried out between the prefabricated body (1) and the floor slab (15).

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