CN215714708U - Cantilever beam manufacturing die applied to construction of hanging basket cantilever - Google Patents

Abstract

The utility model relates to the technical field of cradle cantilever construction, and particularly discloses a cantilever beam manufacturing die applied to cradle cantilever construction. The die comprises a die body, wherein the die body comprises an outer die, an inner die, a bottom die and an end die, the outer die is used for limiting the two sides of the current construction beam section, the inner die is used for limiting the inner side of the current construction beam section, the bottom die is used for limiting the bottom side of the current construction beam section, the end die is used for limiting the end side of the current construction beam section, and the outer die, the inner die, the bottom die and the end die are used for limiting a pouring cavity for pouring the current construction beam section. The utility model provides a cantilever beam manufacturing die applied to construction of a hanging basket cantilever. It can realize conveniently pouring the cantilever beam function, solves the great problem of the cantilever beam construction degree of difficulty, reaches the effect that has promoted the cantilever beam and has pour speed.

Description

Cantilever beam manufacturing die applied to construction of hanging basket cantilever

Technical Field

The utility model relates to the technical field of cradle cantilever construction, in particular to a cantilever beam manufacturing mold applied to cradle cantilever construction.

Background

When the construction of the hanging basket cantilever is carried out, a base is required to be arranged at intervals, and then the construction is carried out simultaneously on different bases, so that the construction difficulty is high when the cantilever is built, the construction period is long, and the construction of the engineering is inconvenient.

SUMMERY OF THE UTILITY MODEL

Aiming at the defect of high cantilever beam construction difficulty in the prior art, the utility model provides a cantilever beam manufacturing die applied to the construction of a hanging basket cantilever. It can realize conveniently pouring the cantilever beam function, solves the great problem of the cantilever beam construction degree of difficulty, reaches the effect that has promoted the cantilever beam and has pour speed.

In order to solve the technical problem, the utility model is solved by the following technical scheme:

apply to the cantilever beam manufacturing mould in hanging basket cantilever construction, it includes the mould body, the mould body is including being used for going on the external mold of injecing to the both sides of present construction beam section, an centre form for injecing the inboard of present construction beam section, a die block for injecing the bottom die of current construction beam section, and an end mould for injecing the distolateral side of present construction beam section, external mold, centre form, die block and end mould are used for injecing jointly and are used for pouring the chamber of pouring of present construction beam section, its characterized in that: the end mould is provided with a first mould body matched with the horizontal part of the beam section under current construction and a second mould body matched with the vertical part of the beam section under current construction; the inner side of the first die body positioned at the upper part of the current construction beam section extends to the inner die, the outer side of the first die body extends to the upper part of the upper side of the current construction beam section, and two ends of the first die body respectively extend to the corresponding second die bodies; the inner side of a first die body positioned at the lower part of the current construction beam section extends to the inner die, the outer side of the first die body extends to the bottom die, and two ends of the first die body respectively extend to corresponding second die bodies; the upper end of the second die body extends to the upper side of the beam section under the current construction, the lower end of the second die body extends to the bottom die, and two sides of the second die body respectively extend to the corresponding second die body, the inner die or the outer die; the first die body and the second die body correspond to the embedded part of the current construction beam section and are provided with embedded part channels for enabling the corresponding embedded parts to penetrate out.

Through the arrangement of the end die and the pouring cavity, the concrete is poured into the pouring cavity, and after the concrete is solidified, the end die is removed to finish pouring, so that the pouring speed of the cantilever beam is improved better, the working strength of constructors is reduced, and the working efficiency of the constructors is improved better. Through the setting of first die body and second die body for can connect first die body respectively through second die body both ends, thereby adjust the width of the cantilever beam of will pouring, thereby conveniently connect into a whole with a plurality of end moulds, thereby conveniently pour a plurality of cantilever beams simultaneously, reduce the used time of engineering, promote constructor's work efficiency.

Preferably, the embedded part comprises steel bars and corrugated pipes, and the embedded part channel comprises a U-shaped groove for the steel bars to pass through and a through hole for the corrugated pipes to pass through.

According to the utility model, through the arrangement of the U-shaped groove and the through hole, when the cantilever beam is poured, the steel bars and the corrugated pipes in the cantilever beam can penetrate through the U-shaped groove and the through hole, so that the steel bars and the corrugated pipes can be conveniently buried in the cantilever beam when the cantilever beam is poured.

Preferably, anchors for embedding the currently constructed beam section are arranged at two ends of the first die body.

According to the utility model, through the arrangement of the anchorage device, the anchorage device can be left in the concrete after the pouring is finished, so that the tensile strength of the solidified concrete is better improved.

Preferably, the anchorage device comprises a base, a connecting column is arranged on the base, a fixing block is arranged on the side wall of one end, close to the base, of the connecting column, a spring is sleeved on the connecting column, and one end of the spring is welded with the fixing block.

According to the utility model, through the arrangement of the spring, after the pouring is finished, a worker uses the hammer head to knock the anchorage device off the first die body and leave the anchorage device in the poured cantilever beam, and the spring on the anchorage device and the anchorage device are embedded into the concrete together, so that the tensile strength of the solidified concrete is improved better, and the structural strength of the cantilever beam is also improved.

Preferably, the base is provided with a connecting hole, and the first mold body is provided with a fixing hole corresponding to the connecting hole.

According to the utility model, through the arrangement of the connecting holes, a constructor can bind the anchorage device on the first die body by penetrating the steel wire through the connecting holes and the fixing holes, so that the anchorage device is conveniently installed on the first die body.

Preferably, the end of the hollow column away from the base is flared circumferentially outwardly to form a flange.

According to the utility model, through the arrangement of the flange, after the pouring is finished, the anchorage device can be conveniently knocked down from the first die body by constructors.

Preferably, the side wall of the hollow column close to the base is provided with a reinforcing rib plate.

According to the utility model, through the arrangement of the reinforcing rib plate, the connection strength between the hollow column and the base is preferably enhanced.

Preferably, the hollow column is hollow, and an opening is arranged at one end far away from the base.

According to the utility model, the hollow column is arranged in a hollow manner, so that the hollow column can be conveniently sleeved on the originally poured concrete during pouring, the end mold can be conveniently fixed, and the stability of the end mold during pouring is better improved.

Drawings

Fig. 1 is a schematic view of a mold body in example 1.

FIG. 2 is a schematic view of a second mold body according to example 1.

FIG. 3 is a schematic view of the anchor of example 1.

Fig. 4 is a sectional view of a die body in example 1.

The names of the parts indicated by the numerical references in the drawings are as follows:

110. a mold body; 120. end die; 130. a first mold body; 140. an anchorage device; 150. a second mold body; 210. a U-shaped groove; 220. a through hole; 310. connecting columns; 320. a fixed block; 330. a base; 340. a spring; 350. connecting holes; 360. a flange; 370. a reinforcing rib plate; 410. and (6) pouring a cavity.

Detailed Description

For a further understanding of the utility model, reference should be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the utility model and not limiting.

Example 1

As shown in fig. 1 to 4, the present embodiment provides a cantilever beam manufacturing mold for use in the construction of a suspended-basket cantilever, which includes a mold body 110, the mold body 110 includes an outer mold for defining two sides of a currently constructed beam segment, an inner mold for defining an inner side of the currently constructed beam segment, a bottom mold for defining a bottom side of the currently constructed beam segment, and an end mold 120 for defining an end side of the currently constructed beam segment, the outer mold, the inner mold, the bottom mold, and the end mold 120 are used to collectively define a pouring cavity 410 for pouring the currently constructed beam segment; the method is characterized in that: the end mold 120 has a first mold body 130 for cooperating with a horizontal portion of the currently constructed beam section and a second mold body 150 for cooperating with a vertical portion of the currently constructed beam section; the first mold body 130 positioned at the upper part of the current construction beam section extends from the inner side to the inner mold, extends from the outer side to the upper side of the current construction beam section, and extends from the two ends to the corresponding second mold body 150; the first die body 130 positioned at the lower part of the current construction beam section extends from the inner side to the inner die, extends from the outer side to the bottom die, and extends from both ends to the corresponding second die body 150; the upper end of the second mold body 150 extends to the upper side of the currently constructed beam section, the lower end of the second mold body 150 extends to the bottom mold, and two sides of the second mold body 150 respectively extend to the corresponding second mold body 150, the inner mold or the outer mold; the first die body 130 and the second die body 150 are provided with embedded part channels for penetrating out corresponding embedded parts at the embedded parts of the current construction beam section; the embedded part comprises steel bars and corrugated pipes, and the embedded part channel comprises U-shaped grooves 210 for the steel bars to pass through and through holes 220 for the corrugated pipes to pass through; two ends of the first mold body 130 are provided with anchors 140 for embedding the current construction beam section; the anchorage device 140 comprises a base 330, wherein a hollow column 310 is arranged on the base 330, a fixed block 320 is arranged on the side wall of one end, close to the base 330, of the hollow column 310, a spring 340 is sleeved on the hollow column 310, and one end of the spring 340 is welded with the fixed block 320; the base 330 is provided with a connecting hole 350, and the first mold body 130 is provided with a fixing hole corresponding to the connecting hole 350; one end of the hollow column 310 far away from the base 330 expands outwards along the circumferential direction to form a flange 360; the side wall of the hollow column 310 close to the base 330 is provided with a reinforcing rib plate 370; the hollow column 310 is hollow inside, and an opening is provided at an end far away from the base 330.

Through the arrangement of the end mold 120 and the pouring cavity 410 in the embodiment, concrete is poured into the pouring cavity 410, and after the concrete is solidified, pouring can be completed by removing the end mold 120, so that the cantilever beam pouring speed is improved better, the working strength of constructors is reduced, and the working efficiency of the constructors is improved better; through the arrangement of the first mold body 130 and the second mold body 150 in the embodiment, the two ends of the second mold body 150 can be respectively connected with the first mold body 130, so that the width of the cantilever beam to be poured is adjusted, a plurality of end molds 120 can be conveniently connected into a whole, a plurality of cantilever beams can be conveniently poured at the same time, the time for engineering is shortened, and the working efficiency of constructors is improved.

Through the arrangement of the U-shaped groove 210 and the through hole 220 in the embodiment, when the cantilever beam is poured, the steel bars and the corrugated pipes in the cantilever beam can penetrate through the U-shaped groove 210 and the through hole 220, so that the steel bars and the corrugated pipes can be conveniently buried in the cantilever beam when the cantilever beam is poured.

Through the arrangement of the anchorage device 140 in the embodiment, after the pouring is completed, the anchorage device 140 can be left in the concrete, so that the tensile strength of the solidified concrete is improved better.

Through the arrangement of the spring 340 in the embodiment, after the pouring is completed, the worker knocks down the anchorage device 140 from the first mold body 130 by using a hammer head and reserves the poured cantilever beam, and the spring 340 on the anchorage device 140 and the anchorage device 140 are embedded into the concrete together, so that the tensile strength of the solidified concrete is improved, and the structural strength of the cantilever beam is also improved.

Through the arrangement of the connection holes 350 in the embodiment, a constructor can pass through the connection holes 350 and the fixing holes through steel wires to bind the anchorage device on the first mold body 130, so that the anchorage device 140 can be conveniently installed on the first mold body 130.

Through the arrangement of the flange 360 in the embodiment, after the pouring is completed, the anchor 140 can be conveniently knocked off from the first mold body 130 by a constructor.

The strength of the connection between the hollow column 310 and the base 330 is preferably enhanced by the arrangement of the reinforcing ribs 370 in this embodiment.

Through the hollow arrangement inside the hollow column 310 in the embodiment, the hollow column is conveniently sleeved on the originally poured concrete during pouring, so that the end mold 120 is conveniently fixed, and the stability of the end mold 120 during pouring is improved better.

When the cantilever beam manufacturing mold applied to the construction of the hanging basket cantilever in the embodiment is used specifically, firstly, the outer mold of the mold body 110 is hung to the position parallel to the base, then the inner mold on the mold body 110 is inserted into the through hole on the base, then the end mold 120 is installed at one end of the inner mold, so that the casting groove 410 is formed among the outer mold, the inner mold, the bottom mold and the end mold 120, finally, concrete is cast in the annular casting groove 410, after the concrete is solidified, a constructor uses a hammer head to knock down the anchorage device 140 on the first mold body 130 to be left in the concrete, then the outer mold, the inner mold, the bottom mold and the end mold 120 are moved, the anchorage device 160 is welded on the first mold body 130 again, and the operation is repeated for segmented casting.

In summary, the above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made in the claims of the present invention should be covered by the claims of the present invention.

Claims (8)

1. Apply to the cantilever beam manufacturing mould in hanging basket cantilever construction, its characterized in that: including mould body (110), mould body (110) are including being used for going on the external mold of injecing to the both sides of present construction beam section, are used for going on the internal mold of injecing to the inboard of present construction beam section, are used for going on the die block of injecing to the bottom side of present construction beam section to and be used for going on end mould (120) of injecing to the terminal side of present construction beam section, and external mold, internal mold, die block and end mould (120) are used for injecing jointly and are used for pouring cavity (410) of pouring of present construction beam section, its characterized in that:

the end mould (120) is provided with a first mould body (130) matched with the horizontal part of the currently constructed beam section and a second mould body (150) matched with the vertical part of the currently constructed beam section; the inner side of the first die body (130) positioned at the upper part of the current construction beam section extends to the inner die, the outer side of the first die body extends to the upper part of the upper side of the current construction beam section, and two ends of the first die body respectively extend to the corresponding second die bodies (150); the inner side of a first die body (130) positioned at the lower part of the current construction beam section extends to the inner die, the outer side of the first die body extends to the bottom die, and two ends of the first die body respectively extend to corresponding second die bodies (150); the upper end of the second die body (150) extends to the upper side of the current construction beam section, the lower end of the second die body (150) extends to the bottom die, and two sides of the second die body (150) respectively extend to the corresponding second die body (150), the inner die or the outer die; the first die body (130) and the second die body (150) correspond to embedded parts of a current construction beam section and are provided with embedded part channels for enabling the corresponding embedded parts to penetrate out.

2. The cantilever beam manufacturing mold applied to the construction of the hanging basket cantilever according to claim 1, wherein: the embedded part comprises steel bars and corrugated pipes, and the embedded part channel comprises a U-shaped groove (210) for the steel bars to pass through and a through hole (220) for the corrugated pipes to pass through.

3. The cantilever beam manufacturing mold applied to the construction of the hanging basket cantilever according to claim 1, wherein: anchors (140) for embedding the current construction beam section are arranged at two ends of the first die body (130).

4. The cantilever beam manufacturing mold applied to the construction of the hanging basket cantilever according to claim 3, wherein: the anchorage device (140) comprises a base (330), wherein a hollow column (310) is arranged on the base (330), a fixed block (320) is arranged on the side wall of one end, close to the base (330), of the hollow column (310), a spring (340) is sleeved on the hollow column (310), and one end of the spring (340) is welded with the fixed block (320).

5. The cantilever beam manufacturing mold applied to the construction of the hanging basket cantilever according to claim 4, wherein: the base (330) is provided with a connecting hole (350), and the first mold body (130) is provided with a fixing hole corresponding to the connecting hole (350).

6. The cantilever beam manufacturing mold applied to the construction of the hanging basket cantilever according to claim 4, wherein: one end of the hollow column (310) far away from the base (330) expands outwards along the circumferential direction to form a flange (360).

7. The cantilever beam manufacturing mold applied to the construction of the hanging basket cantilever according to claim 4, wherein: and a reinforcing rib plate (370) is arranged on the side wall of the hollow column (310) close to the base (330).

8. The cantilever beam manufacturing mold applied to the construction of the hanging basket cantilever according to claim 4, wherein: the hollow column (310) is hollow, and an opening is formed at one end far away from the base (330).

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