CN219773605U - Aluminum die device for joint point of concrete column and steel beam - Google Patents

Abstract

The utility model belongs to the technical field of aluminum molds, and discloses an aluminum mold device for a joint point between a concrete column and a steel beam, which comprises a socket aluminum mold, wherein the left side of the socket aluminum mold is inserted and installed with an inserted aluminum mold, the right side of the inserted aluminum mold is fixedly provided with a wedge-shaped inserted rod, and a plate groove matched with a bolt plate is formed on the opposite surfaces of the socket aluminum mold and the inserted aluminum mold, so that the bolt plate can be pre-embedded in advance before concrete is poured between the socket aluminum mold and the inserted aluminum mold, and the steel beam is directly connected with the bolt plate through the bolt plate in a later concrete curing molding mode.

Description

Aluminum die device for joint point of concrete column and steel beam

Technical Field

The utility model belongs to the technical field of aluminum molds, and particularly relates to an aluminum mold device for a joint point between a concrete column and a steel beam.

Background

The girder steel is a support type structure commonly used in the field of building engineering, and aims to provide support for a support surface of a floor, ensure stability and safety of construction work, and realize support and reinforcement of a main structure by commonly matching with concrete combination in the field of construction.

In the prior art, when the steel beam is connected with concrete, a bolt plate is usually required to be perforated and connected with the cast-in-situ and cured concrete wall surface, and then the steel beam is connected with the bolt plate through bolts, but the method can possibly cause the concrete connecting surface to be cracked due to vibration caused by perforation, so that the structural stability of the connecting surface is affected.

Disclosure of Invention

The utility model aims at: in order to solve the problem that the concrete joint surface is cracked by vibration when the perforation is carried out and the structural stability of the joint surface is affected, the aluminum mould device for the joint point position of the concrete column and the steel girder is provided.

The technical scheme adopted by the utility model is as follows: the utility model provides a concrete column and girder steel joint position aluminium mould device, includes socket joint aluminium mould, socket joint aluminium mould's left side is pegged graft and is installed the grafting aluminium mould, the right side fixed mounting of grafting aluminium mould has the wedge inserted bar, and the wedge inserted bar is pegged graft and is installed in socket joint aluminium mould's left side, socket joint aluminium mould is for the sliding installation in the position of wedge inserted bar grafting has the wedge gag lever post, the right-hand member of wedge inserted bar and the bottom of wedge gag lever post are the slope design, wedge groove with wedge gag lever post looks adaptation has been seted up to the outer wall of wedge inserted bar, the outer wall of socket joint aluminium mould is rather to the fixed mounting of wedge gag lever post has the unlocking block, the rotation is connected with T shape threaded rod in the unlocking block, hexagonal groove has been seted up at the top of T shape threaded rod, the bottom outer wall of T shape threaded rod is provided with the thread groove with T shape threaded rod looks adaptation, socket joint aluminium mould and the equal joint of the relative face of grafting aluminium mould have the screw plate, socket joint aluminium mould and spigot joint aluminium mould have the bolt hole and spigot joint aluminium mould and the equal outside of spigot joint mould and the equal mould vibration device.

In a preferred embodiment, the sizes and shapes of the spigot and socket aluminum dies can be prefabricated according to construction site drawings.

In a preferred embodiment, a slot matched with the wedge-shaped inserted rod is formed in the left side of the socket aluminum die, and the wedge-shaped inserted rod is inserted and installed in the slot.

Through offer with wedge inserted bar looks adaptation's slot in socket joint aluminium mould, be convenient for the workman splice socket joint aluminium mould and grafting aluminium mould fast.

In a preferred embodiment, the outer wall of the wedge-shaped inserted link is sleeved with a water stop, and the left side of the water stop is fixedly connected with the inserted aluminum die.

Through setting up the waterstop, can prevent effectively that the slip casting of socket joint aluminium mould and grafting aluminium mould concatenation back gap department from leading to the concrete of joining point pouring not closely knit.

In a preferred embodiment, a chute matched with the wedge-shaped limiting rod is formed in the socket aluminum die, and the top of the wedge-shaped limiting rod is connected with the inner wall of the socket aluminum die through a spring.

Through offer the spout with wedge gag lever post looks adaptation in socket joint aluminium mould, play the wedge gag lever post on the one hand and can slide from top to bottom in the socket joint aluminium mould, can prevent on the one hand that the wedge gag lever post from producing the rotation after sliding.

In a preferred embodiment, a rotating groove matched with the T-shaped threaded rod is formed in the unlocking block, and a second spring is sleeved below the outer wall of the T-shaped threaded rod.

Through offer the rotation groove with T shape threaded rod looks adaptation in the unblock piece for T shape threaded rod can rotate in the unblock piece, the rebound of cooperation No. two springs simultaneously makes the inboard end of T shape threaded rod can keep away from the top of wedge gag lever post.

In a preferred embodiment, the opposite surfaces of the socket aluminum die and the plug aluminum die are provided with plate grooves matched with the bolt plates, and the bolt plates are clamped and installed in the plate grooves.

By arranging the plate grooves matched with the bolt plates on the opposite surfaces of the socket aluminum die and the plug aluminum die, the bolt plates can be pre-embedded in advance before concrete is poured between the socket aluminum die and the plug aluminum die, and the steel beams are directly connected through the bolt plates in the later stage, so that the defect that the strength of the concrete column can be damaged and cracks are generated by punching bolt holes in the concrete column after maintenance is optimized in the prior art.

In a preferred embodiment, the motor is fixedly installed on the left side of an inner cavity of the vibrator, the U-shaped rotating rod is fixedly installed on the right side of an output shaft of the motor, the right side of the U-shaped rotating rod is connected with the inner wall of the vibrator through a bearing, a linkage rod is sleeved on the outer wall of the U-shaped rotating rod, a T-shaped striking rod is hinged to the top of the linkage rod, the bottom of the T-shaped striking rod is connected with the inner wall of the vibrator through a third spring, and the top of the T-shaped striking rod is arranged opposite to the outer walls of the socket aluminum die and the socket aluminum die.

Through setting up the vibrator, start when the motor and drive U-shaped bull stick rotation, can make the gangbar that cup joints on U-shaped bull stick outer wall promote T shape striking pole round trip to circulate and bump the outer wall surface of socket joint aluminium mould and grafting aluminium mould, played the effect of vibrating concrete, prevent the not closely knit problem that produces the space and make intensity reduce of concrete of pouring between socket joint aluminium mould and the grafting aluminium mould.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

1. according to the utility model, through arranging the sliding groove matched with the wedge-shaped limiting rod in the socket aluminum die, on one hand, the wedge-shaped limiting rod can slide up and down in the socket aluminum die, on the other hand, the rotation of the wedge-shaped limiting rod can be prevented after the wedge-shaped limiting rod slides, and because the right end of the wedge-shaped limiting rod and the bottom of the wedge-shaped limiting rod are both of an inclined design, when the wedge-shaped limiting rod on the socket aluminum die is inserted into a slot arranged on the socket aluminum die, the wedge-shaped limiting rod is extruded by the wedge-shaped limiting rod to force the wedge-shaped limiting rod to move to the socket aluminum die for yielding, and when the wedge-shaped limiting rod is inserted into place, the wedge-shaped limiting rod is inserted into the wedge-shaped groove arranged on the wedge-shaped limiting rod under the rebound of the spring, so that the limiting fixation of the wedge-shaped limiting rod is realized, and the stable assembly of the socket aluminum die and the inserted aluminum die is realized.

2. According to the utility model, the T-shaped threaded rod can rotate in the unlocking block by arranging the rotating groove matched with the T-shaped threaded rod in the unlocking block, when concrete maintenance between the socket aluminum die and the plug aluminum die is completed and the socket aluminum die and the plug aluminum die are required to be disassembled, a worker only needs to plug in the electric hexagonal wrench from the unlocking block to align with the hexagonal groove on the T-shaped threaded rod and press inwards, so that the T-shaped threaded rod is plugged in the threaded groove on the wedge-shaped limiting rod, then the electric hexagonal wrench is started to drive the T-shaped threaded rod to rotate, the wedge-shaped limiting rod is pulled out of the wedge-shaped groove on the wedge-shaped inserting rod, the limit of the wedge-shaped inserting rod is released, and the socket aluminum die and the plug aluminum die can be taken out at the moment, so that the next utilization is realized through easy disassembly and recovery.

3. According to the utility model, the opposite surfaces of the socket aluminum die and the plug aluminum die are provided with the plate grooves matched with the bolt plates, so that before concrete is poured between the socket aluminum die and the plug aluminum die, the bolt plates are pre-embedded in advance and fastened through the bolt connection, and the steel beams are directly and bolted through the bolt plates after concrete curing and forming.

Drawings

FIG. 1 is a schematic view of the present utility model prior to assembly of the structure;

FIG. 2 is an enlarged schematic view of FIG. 1A according to the present utility model;

fig. 3 is a cross-sectional view of a vibrator and its adjacent structure in the present utility model.

The marks in the figure: 1-socket aluminum mould, 2-socket aluminum mould, 3-wedge inserted bar, 4-slot, 5-water stop, 6-wedge limit bar, 7-unlocking block, 8-T-shaped threaded rod, 9-bolt plate, 10-plate groove, 11-wedge groove, 14-vibrator, 15-motor, 16-U-shaped rotating rod, 17-linkage bar and 18-T-shaped striking bar.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1, a concrete column and girder steel joint position aluminum mould device, including spigot and socket aluminum mould 1, spigot and socket aluminum mould 2 is installed in spigot and socket aluminum mould 1's left side grafting, spigot and socket aluminum mould 1 and spigot and socket aluminum mould 2's size, shape can be prefabricated according to the job site drawing, spigot and socket aluminum mould 2's right side fixed mounting has wedge inserted bar 3, and wedge inserted bar 3 grafting is installed in spigot and socket aluminum mould 1's left side, socket aluminum mould 1's left side has been seted up with wedge inserted bar 3 looks adaptation slot 4, and wedge inserted bar 3 grafting is installed in slot 4, wedge inserted bar 3's outer wall cover is established and is installed waterstop 5, and the left side and the spigot and socket aluminum mould 2 fixed connection of waterstop 5, through set up in spigot and socket aluminum mould 1 with wedge inserted bar 3 looks adaptation slot 4, the workman of being convenient for will spigot and socket aluminum mould 2 carries out quick splice, set up waterstop 5, can prevent effectively that spigot and socket aluminum mould 1 and spigot and socket aluminum mould 2 splice back gap department from leaking thick liquid, lead to the joint to not closely knit.

Referring to fig. 1 and 2, the wedge-shaped limiting rod 6 is slidably mounted in the socket aluminum die 1 relative to the position where the wedge-shaped limiting rod 3 is inserted, a sliding groove matched with the wedge-shaped limiting rod 6 is formed in the socket aluminum die 1, the top of the wedge-shaped limiting rod 6 is connected with the inner wall of the socket aluminum die 1 through a spring, the right end of the wedge-shaped limiting rod 3 and the bottom of the wedge-shaped limiting rod 6 are both of an inclined design, a wedge-shaped groove 11 matched with the wedge-shaped limiting rod 6 is formed in the outer wall of the wedge-shaped limiting rod 3, and by forming a sliding groove matched with the wedge-shaped limiting rod 6 in the socket aluminum die 1, the wedge-shaped limiting rod 6 can slide up and down in the socket aluminum die 1 on the one hand, and can prevent rotation after the wedge-shaped limiting rod 6 slides on the other hand, and because the right end of the wedge-shaped limiting rod 3 and the bottom of the wedge-shaped limiting rod 6 are of an inclined design, when the wedge-shaped limiting rod 3 on the socket aluminum die 2 is inserted into the slot 4 formed in the socket aluminum die 1, the wedge-shaped limiting rod 6 can be extruded by the wedge-shaped limiting rod 3 to force the wedge-shaped limiting rod 3 to move inwards in the direction of the socket aluminum die 1, and the wedge-shaped limiting rod 3 is firmly inserted into the wedge-shaped limiting rod 3, and the wedge-shaped limiting rod 3 is stably inserted into the socket aluminum die 1, and the wedge-shaped limiting rod 3.

Referring to fig. 1 and 2, the outer wall of the socket aluminum die 1 is fixedly provided with a unlocking block 7 corresponding to the position of the wedge-shaped limit rod 6, the unlocking block 7 is internally connected with a T-shaped threaded rod 8 in a rotating way, a second spring is installed below the outer wall of the T-shaped threaded rod 8 in a sleeved way, the top of the T-shaped threaded rod 8 is provided with a hexagonal groove, the outer wall of the bottom of the T-shaped threaded rod 8 is provided with threads, the top of the wedge-shaped limit rod 6 is provided with a thread groove matched with the T-shaped threaded rod 8, the T-shaped threaded rod 8 can rotate in the unlocking block 7 through the rotating groove matched with the T-shaped threaded rod 8, when the concrete maintenance between the socket aluminum die 1 and the plug aluminum die 2 is needed to be removed, a worker only needs to plug the hexagonal wrench into the hexagonal groove on the T-shaped threaded rod 8 from the unlocking block 7, the hexagonal groove is pressed inwards, the T-shaped threaded rod 8 is plugged into the hexagonal groove on the wedge-shaped limit rod 6, then the wedge-shaped threaded rod 8 is pulled out from the T-shaped threaded rod 8, and then the wedge-shaped threaded rod 3 can be removed from the wedge-shaped limit rod 3 easily, and the wedge-shaped limit rod 11 can be removed from the wedge-shaped limit rod 3 by the socket aluminum die 2.

Referring to fig. 1 and 2, bolt plates 9 are installed on opposite surfaces of a socket aluminum die 1 and an inserting aluminum die 2 in a clamping manner, plate grooves 10 matched with the bolt plates 9 are formed on opposite surfaces of the socket aluminum die 1 and the inserting aluminum die 2, the bolt plates 9 are installed in the plate grooves 10 in a clamping manner, bolt holes are formed in the outer sides of the socket aluminum die 1 and the inserting aluminum die 2 in a clamping manner, the bolt plates 9 are respectively connected with the socket aluminum die 1 and the inserting aluminum die 2 through bolts, and the plate grooves 10 matched with the bolt plates 9 are formed on opposite surfaces of the socket aluminum die 1 and the inserting aluminum die 2, so that the bolt plates 9 can be pre-embedded in advance before concrete is poured between the socket aluminum die 1 and the inserting aluminum die 2, and are fastened through bolt connection, and a steel beam is directly connected through the bolt plates 9 through bolt connection in post concrete curing, so that the design optimizes the defect that in the prior art, the strength of a concrete column can be damaged by punching the bolt holes in the concrete column after curing is finished, and cracks are generated.

Referring to fig. 1 and 3, the vibrator 14 is fixedly installed on the outer sides of the socket aluminum die 1 and the plug aluminum die 2, the motor 15 is fixedly installed on the left side of the inner cavity of the vibrator 14, the U-shaped rotating rod 16 is fixedly installed on the right side of the output shaft of the motor 15, the right side of the U-shaped rotating rod 16 is connected with the inner wall of the vibrator 14 through a bearing, the linkage rod 17 is sleeved on the outer wall of the U-shaped rotating rod 16, the T-shaped impact rod 18 is hinged to the top of the linkage rod 17, the bottom of the T-shaped impact rod 18 is connected with the inner wall of the vibrator 14 through a spring III, the top of the T-shaped impact rod 18 is opposite to the outer walls of the socket aluminum die 1 and the plug aluminum die 2, and the vibrator 14 is arranged, when the motor 15 is started to drive the U-shaped rotating rod 16 to rotate, the linkage rod 17 sleeved on the outer wall of the U-shaped rotating rod 16 pushes the T-shaped impact rod 18 up and down to circularly bump the outer wall surfaces of the socket aluminum die 1 and the plug aluminum die 2, the action of vibrating concrete is achieved, and the problem that the strength of the concrete is not reduced due to pouring gaps between the socket aluminum die 1 and the plug aluminum die 2 is prevented.

The above connection method is a connection method commonly used in the prior art, and will not be described in detail.

The implementation principle of the embodiment of the utility model is as follows:

firstly, prefabricating a socket aluminum die 1 and a plug aluminum die 2 in a factory according to a drawing, then clamping a bolt plate 9 on a plate groove 10 formed in the socket aluminum die 1 and the plug aluminum die 2, then inserting and assembling a wedge-shaped inserting rod 3 on the plug aluminum die 2 into a slot 4 formed in the socket aluminum die 1, and finally pouring concrete in the socket aluminum die 1 and the plug aluminum die 2 by utilizing the bolt connection to fix the bolt plate 9 as the right end of the wedge-shaped inserting rod 3 and the bottom of the wedge-shaped limiting rod 6 are of an inclined design, when the wedge-shaped inserting rod 3 on the plug aluminum die 2 is inserted into the slot 4 formed in the socket aluminum die 1, the wedge-shaped limiting rod 6 is extruded by the wedge-shaped inserting rod 3 to force the wedge-shaped inserting rod 3 to be moved to the position, and when the wedge-shaped limiting rod 6 is inserted into a wedge-shaped groove 11 formed in the wedge-shaped inserting rod 3 under the rebound of a spring, so that the limit fixing of the wedge-shaped inserting rod 3 is realized.

When pouring, the motor 15 is started to drive the U-shaped rotating rod 16 to rotate, so that the linkage rod 17 sleeved on the outer wall of the U-shaped rotating rod 16 pushes the T-shaped impact rod 18 up and down to circularly impact the outer wall surfaces of the socket aluminum mould 1 and the plug aluminum mould 2, the effect of vibrating concrete is achieved, and the problem that the strength is reduced due to the fact that the concrete poured between the socket aluminum mould 1 and the plug aluminum mould 2 is not compact is solved.

When concrete maintenance between the socket aluminum die 1 and the plug aluminum die 2 is completed, and the socket aluminum die 1 and the plug aluminum die 2 are required to be disassembled, a worker only needs to plug in the electric hexagonal wrench from the unlocking block 7 to align with the hexagonal groove on the T-shaped threaded rod 8 and press inwards, so that the T-shaped threaded rod 8 is plugged in the thread groove on the wedge-shaped limiting rod 6, then the electric hexagonal wrench is started to drive the T-shaped threaded rod 8 to rotate, the wedge-shaped limiting rod 6 is pulled out from the wedge-shaped groove 11 on the wedge-shaped inserting rod 3, limiting on the wedge-shaped inserting rod 3 is released, and at the moment, the socket aluminum die 1 and the plug aluminum die 2 can be taken out, so that the next utilization of easy disassembly and recovery is realized.

After the socket aluminum die 1 and the plug aluminum die 2 are disassembled and the strength of the concrete column is improved, the steel beam is connected with the bolt plate 9 through bolts, and the design optimizes the defect that the strength of the concrete column can be damaged and cracks are generated by connecting the steel beam through bolt holes in the concrete column after maintenance is finished in the prior art.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. The utility model provides a concrete column and girder steel joint point position aluminium mould device, includes socket joint aluminium mould (1), its characterized in that: the left side grafting of spigot-and-socket aluminum mould (1) is installed and is pegged graft aluminium mould (2), the right side fixed mounting of spigot-and-socket aluminum mould (2) has wedge inserted bar (3), and wedge inserted bar (3) are pegged graft and are installed in the left side of spigot-and-socket aluminum mould (1), the position of spigot-and-socket aluminium mould (1) for wedge inserted bar (3) grafting is interior sliding mounting has wedge gag lever post (6), the right-hand member of wedge inserted bar (3) and the bottom of wedge gag lever post (6) are the slope design, wedge groove (11) with wedge gag lever post (6) looks adaptation are seted up to the outer wall of wedge inserted bar (3), the outer wall of spigot-and-socket aluminum mould (1) is fairly fixed mounting to the position of wedge gag lever post (6) has unlocking block (7), the internal rotation of unlocking block (7) is connected with T shape threaded rod (8), hexagonal groove has been seted up at the top of T shape threaded rod (8), the bottom outer wall of T shape threaded rod (8) is provided with screw thread, wedge gag lever post (6) is equipped with wedge gag lever post (6) and is equipped with bolt hole (8) looks adaptation aluminium mould (2) all has, and spigot-and socket aluminum mould (2) are all had, spigot-and socket aluminum mould (2) are connected with screw bolt (8), and the bolt plate (9) is respectively connected with the socket aluminum die (1) and the plug aluminum die (2) through bolts, and vibrators (14) are fixedly arranged on the outer sides of the socket aluminum die (1) and the plug aluminum die (2).

2. A concrete column and steel beam junction aluminum die device as defined in claim 1, wherein: the sizes and the shapes of the socket aluminum die (1) and the plug aluminum die (2) can be prefabricated according to a construction site drawing.

3. A concrete column and steel beam junction aluminum die device as defined in claim 1, wherein: the left side of socket joint aluminium mould (1) has offered slot (4) with wedge inserted bar (3) looks adaptation, and wedge inserted bar (3) grafting is installed in slot (4).

4. A concrete column and steel beam junction aluminum die device as defined in claim 1, wherein: the outer wall of the wedge-shaped inserted link (3) is sleeved with a water stop (5), and the left side of the water stop (5) is fixedly connected with the inserted aluminum die (2).

5. A concrete column and steel beam junction aluminum die device as defined in claim 1, wherein: the socket aluminum die (1) is internally provided with a chute matched with the wedge-shaped limiting rod (6), and the top of the wedge-shaped limiting rod (6) is connected with the inner wall of the socket aluminum die (1) through a spring.

6. A concrete column and steel beam junction aluminum die device as defined in claim 1, wherein: the unlocking block (7) is internally provided with a rotating groove matched with the T-shaped threaded rod (8), and a second spring is sleeved below the outer wall of the T-shaped threaded rod (8).

7. A concrete column and steel beam junction aluminum die device as defined in claim 1, wherein: the opposite surfaces of the socket aluminum die (1) and the plug aluminum die (2) are respectively provided with a plate groove (10) matched with the bolt plate (9), and the bolt plate (9) is clamped and installed in the plate grooves (10).

8. A concrete column and steel beam junction aluminum die device as defined in claim 1, wherein: the novel vibrating screen is characterized in that a motor (15) is fixedly installed on the left side of an inner cavity of the vibrator (14), a U-shaped rotating rod (16) is fixedly installed on the right side of an output shaft of the motor (15), the right side of the U-shaped rotating rod (16) is connected with the inner wall of the vibrator (14) through a bearing, a linkage rod (17) is sleeved on the outer wall of the U-shaped rotating rod (16), a T-shaped impact rod (18) is hinged to the top of the linkage rod (17), the bottom of the T-shaped impact rod (18) is connected with the inner wall of the vibrator (14) through a third spring, and the top of the T-shaped impact rod (18) is arranged opposite to the outer walls of the socket aluminum module (1) and the plug aluminum module (2).