CN218715097U - Concrete pouring device for cast-in-situ beam - Google Patents

Abstract

The utility model provides a concrete placement device for cast-in-place roof beam, include the concrete placement device body that has main part injection pore, the setting is on concrete placement device body and be used for as the shell of supplementary injection pore, through concrete placement device body, the skeleton to cast-in-place roof beam has been realized carrying out middle cement mortar and has been pour, through the shell, carry out other along cement mortar to the skeleton of having realized cast-in-place roof beam and pour, the multiple spot cement mortar tiling simultaneously has been carried out in the skeleton of cast-in-place roof beam, consequently, the concrete placement shaping quality of cast-in-place roof beam has been improved.

Description

Concrete pouring device for cast-in-situ beam

Technical Field

The utility model relates to a concrete placement device, especially a concrete placement device for cast-in-place roof beam.

Background

When the cast-in-place beam is formed, a concrete pouring device is needed to inject cement mortar into a framework of the cast-in-place beam, so the concrete pouring device for the cast-in-place beam is an important building product.

Disclosure of Invention

The object of the utility model is a concrete placement device for cast-in-place roof beam.

In order to overcome the technical defect, the utility model aims at providing a concrete placement device for cast-in-place roof beam consequently has improved the concrete placement shaping quality of cast-in-place roof beam.

In order to achieve the purpose, the utility model adopts the technical proposal that: comprises a concrete pouring device body with a main body pouring hole channel and a cylinder shell which is arranged on the concrete pouring device body and is used as an auxiliary pouring hole channel.

Owing to designed concrete placement device body and shell, through the concrete placement device body, realized carrying out middle cement mortar to the skeleton of cast-in-place roof beam and pour, through the shell, carry out other along cement mortar to the skeleton of cast-in-place roof beam and pour, realized carrying out the tiling of multiple spot cement mortar simultaneously in the skeleton of cast-in-place roof beam, consequently improved the concrete placement shaping quality of cast-in-place roof beam.

The utility model discloses a, according to the mode that carries out the while tiling of multiple spot cement mortar in the skeleton of cast-in-place roof beam concrete placement device body and shell interconnect.

The utility model discloses a, according to pour the mode that realizes carrying out the while tiling of multiple spot cement mortar in the skeleton of cast-in-place roof beam through other along cement mortar and couple shell and concrete placement device body.

The utility model discloses a, concrete placement device body sets up to including steel bar frame and platen.

The technical effects of the three technical schemes are as follows: the pouring efficiency of the framework of the cast-in-place beam is accelerated by pouring the cement mortar at five points on the framework of the cast-in-place beam.

The utility model discloses a, still include first annex device and first annex device sets up between bobbin shell and concrete placement device body, and first annex device sets up to the buckle.

The technical effects of the technical scheme are as follows: the integration of other parts has been realized, the technical effect of the utility model has been expanded.

The utility model discloses a, be provided with the platen on the steel reinforcement frame, the shell setting is provided with the buckle in steel reinforcement frame and platen and between shell and steel reinforcement frame and platen.

The technical effects of the technical scheme are as follows: through reinforcing bar frame, platen, shell and buckle, constitute the utility model discloses a basic technical scheme has solved the utility model discloses a technical problem.

The utility model discloses a, the bobbin casing sets up to including vertical cylinder portion, horizontal cylinder portion and otic placode portion and the side upper portion of vertical cylinder portion sets up to linking with horizontal cylinder portion, the side middle part of vertical cylinder portion sets up to linking with otic placode portion and vertical cylinder portion sets up to running through the string formula hookup with reinforcing bar frame and platen, be provided with the through-hole body on the otic placode and the through-hole body of otic placode sets up to linking with the buckle, the lower extreme terminal surface portion of otic placode sets up to linking with reinforcing bar frame contact and vertical cylinder portion and horizontal cylinder portion do not set up to circular tubulose, vertical cylinder portion and horizontal cylinder portion set up to being \\\\ 951, the font distributes and otic placode portion sets up to the rectangular sheet body.

The technical effects of the technical scheme are as follows: the cast-in-place beam framework is subjected to direct injection pouring of the pipeline.

The utility model discloses a, the reinforcing bar frame sets up to the net body that has horizontal rib and vertical rib to constitute and the upper end terminal surface portion of reinforcing bar frame sets up to be coupleed with the platen, and the mesh body of reinforcing bar frame sets up to be coupleed and the rib of reinforcing bar frame sets up to be coupleed with buckle contact with the shell.

The utility model discloses a, be provided with at the intermediate part of the board of platen and pour the hole body and be provided with the mounting hole body in the bight of board, be provided with the hole for hoist body and the lower extreme terminal surface portion of board sets up to hookup with the reinforcing bar frame at the edge part of board, the mounting hole body sets up respectively to hookup and the board sets up to the rectangle lamellar body with shell of a tube and buckle, the hole for hoist body sets up to the circular port body and the hole for hoist body sets up to the peripheral interval arrangement distribution along the board, the mounting hole body sets up respectively to the rectangular hole body with pour the hole body.

The technical effects of the technical scheme are as follows: the mesh surface injection pouring of the framework of the cast-in-place beam is realized.

The utility model discloses a, the buckle sets up to including the buckle slot portion, the axle head portion, spring portion and pressure plate portion and be provided with at one of them horizontal portion of buckle slot portion and run through the cluster hole, wherein another horizontal portion at the buckle slot portion is provided with the screw hole body and one of them end of axle head portion sets up to run through the cluster hole with the buckle slot portion, spring portion and pressure plate portion run through the cluster formula hookup, wherein another end of axle head portion sets up to the screw hole body hookup with the buckle slot portion and the axle head portion sets up respectively to run through the cluster formula hookup with platen and barrel casing, the lower extreme terminal surface portion of pressure plate portion sets up to and the buckle slot portion sets up to hold the formula hookup with the reinforcing bar frame, the buckle slot portion sets up to U font seat body and the axle head portion sets up to T font pole body that one of them end has the flange body, spring portion sets up to flange portion and one of them end of spring portion sets up to and the hookup with buckle slot portion contact, wherein another end of spring portion sets up to and the pressure plate portion sets up to the rectangular piece as with pressure plate portion contact hookup to the rectangular piece.

The technical effects of the technical scheme are as follows: the fixed connection acting force generated by the thread acting force and the elastic acting force on the cylinder shell is realized.

The utility model discloses a, the buckle sets up to still containing and presses the claw portion, stir claw portion and torsion spring portion and be provided with at wherein another transverse part of catching groove portion and run through the cluster hole, be provided with the opening cell body on wherein another transverse part end of catching groove portion and be provided with the tooth body in the side lower part of the wherein another end of axle head portion, press claw portion to set up in the opening cell body and press the claw portion to hookup through round pin axle and catching groove portion rotary type, press the inner end of claw portion to set up to hookup with tooth body contact and press the upper end terminal surface portion of claw portion to hookup with stirring the claw portion, torsion spring portion sets up to and is located catching groove portion and press the round pin axle suit formula hookup between the claw portion and one of them end of torsion spring portion sets up to and presses claw portion hookup, one of them end of torsion spring portion sets up to and presses the claw portion to set up to L font platelike body with catching groove portion hookup, stir claw portion and set up to C font platelike and the opening cell body to U font, tooth body sets up to the vertical range distribution along the central line of catching groove portion.

The technical effects of the technical scheme are as follows: the movement of the ratchet wheel and the rack and the elastic acting force can generate fixed connection acting force on the cylinder shell at the same time.

The utility model discloses a, reinforcing bar frame and platen set up to the mode according to the bight passageway and the reinforcing bar frame, platen and barrel casing and buckle set up to the mode according to the bight straining and distribute, a barrel casing and a buckle set up to form a set of bight channel part and four bight channel part of group set up on reinforcing bar frame and platen, the axle head portion sets up to run through string formula hookup with otic placode portion, pressure plate portion sets up to hookup with otic placode portion contact, erect the section of thick bamboo portion, otic placode portion and axle head portion set up respectively to hookup with the mounting hole body.

In this technical scheme, the bobbin casing is basic part, also the utility model discloses a necessary technical feature, reinforcing bar frame, platen and buckle are functional unit, are the realization the utility model discloses a characteristic of other technological effects, board, the hoist and mount hole body, the mounting hole body, pour the hole body, erect section of thick bamboo portion, horizontal section of thick bamboo portion, otic placode portion, buckle slot part, axle head portion, spring portion, pressure board portion, opening cell body, tooth body, pressure claw portion, stir the design of these technical feature of claw portion and torsion spring portion is the technical feature who accords with the patent law and implement the rule.

In the technical scheme, the concrete pouring device body and the cylinder shell which are used for simultaneously paving the multi-point cement mortar in the framework of the cast-in-place beam are important technical characteristics, and have novelty, creativity and practicability in the technical field of the concrete pouring device for the cast-in-place beam, and the terms in the technical scheme can be explained and understood by using patent documents in the technical field.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Figure 1 is a schematic view of one of the first embodiments of the present invention,

figure 2 is a schematic view of the connection between the cartridge housing 3 and the buckle 4,

figure 3 is a schematic view of a second embodiment of the present invention,

figure 4 is a schematic cross-sectional view of figure 3,

the steel bar frame-1, the bedplate-2, the cylinder shell-3, the buckle-4, the plate part-21, the hoisting hole body-22, the mounting hole body-23, the pouring hole body-24, the vertical cylinder part-31, the horizontal cylinder part-32, the lug plate part-33, the buckle groove part-41, the shaft head part-42, the spring part-43, the pressing plate part-44, the opening groove body-411, the tooth body-45, the pressing claw part-46, the toggle claw part-47 and the torsion spring part-48.

Detailed Description

Terms such as "having," "including," and "comprising," as used herein with respect to the present invention, are to be understood as not specifying the presence or addition of one or more other elements or combinations thereof.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

In addition, the technical features mentioned in the different embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other, and unless otherwise specified, the devices and materials used in the following examples are commercially available, and if the processing conditions are not explicitly stated, please refer to the purchased product specification or follow the conventional method in the art.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Fig. 1 is a first embodiment of the present invention, which is specifically described with reference to the accompanying drawings, and includes a steel bar frame 1, a table plate 2, a cartridge 3, and a buckle 4, and a table plate 2 is disposed on the steel bar frame 1, and the cartridge 3 is disposed in the steel bar frame 1 and the table plate 2, and the buckle 4 is disposed between the cartridge 3 and the steel bar frame 1 and the table plate 2.

In the present embodiment, the reinforcing cage 1 is provided as a lattice-like body having the transverse ribs and the longitudinal ribs and the upper end face portion of the reinforcing cage 1 is provided to be coupled to the bed 2, the mesh body of the reinforcing cage 1 is provided to be coupled to the can 3 and the ribs of the reinforcing cage 1 are provided to be coupled in contact with the clip 4.

Through steel reinforcement frame 1, formed the support tie point to platen 2, barrel shell 3 and buckle 4, by steel reinforcement frame 1, realized being connected with platen 2, realized being connected with barrel shell 3, realized being connected with buckle 4, its technical aim at: for serving as a support carrier for the platen 2, the cartridge housing 3 and the catch 4.

In the present embodiment, a pouring hole body 24 is provided in the middle portion of the plate portion 21 of the deck 2 and mounting hole bodies 23 are provided in the corners of the plate portion 21, lifting hole bodies 22 are provided in the edge portion of the plate portion 21 and the lower end surface portion of the plate portion 21 is provided to be coupled to the steel bar frame 1, the mounting hole bodies 23 are provided to be coupled to the tube case 3 and the clip 4, respectively, and the plate portion 21 is provided as a rectangular plate-shaped body, the lifting hole bodies 22 are provided as circular hole bodies and the lifting hole bodies 22 are provided to be arranged at intervals along the periphery of the plate portion 21, and the mounting hole bodies 23 and the pouring hole bodies 24 are provided as rectangular hole bodies, respectively.

Through platen 2, formed the support tie point to steel reinforcement frame 1, barrel shell 3 and buckle 4, by plate 21, realized being connected with steel reinforcement frame 1, by the mounting hole body 23, realized being connected with barrel shell 3, realized being connected with buckle 4, by hoist and mount hole body 22, realized the processing of passing through to the lifting rope, by pouring hole body 24, realized pouring cement mortar and handled, its technical aim at: the main body component is used for pouring cement mortar.

In the present embodiment, the cylindrical case 3 is configured to include the upright tube portion 31, the horizontal tube portion 32, and the ear plate portion 33, and the upper portion of the side surface of the upright tube portion 31 is configured to be coupled with the horizontal tube portion 32, the middle portion of the side surface of the upright tube portion 31 is configured to be coupled with the ear plate portion 33, and the upright tube portion 31 is configured to be coupled with the reinforcement frame 1 and the deck 2 in series, the through hole body is provided on the ear plate portion 33, and the through hole body of the ear plate portion 33 is configured to be coupled with the clip 4, the lower end surface portion of the ear plate portion 33 is configured to be coupled with the reinforcement frame 1 in contact, and the upright tube portion 31 and the horizontal tube portion 32 are respectively configured to be circular tubular bodies, the upright tube portion 31 and the horizontal tube portion 32 are configured to be 9510distributed in a zigzag shape, and the ear plate portion 33 is configured to be a rectangular sheet-shaped body.

Through the shell 3, formed the support connection point to steel reinforcement 1, platen 2 and buckle 4, by vertical section of thick bamboo portion 31, realized being connected with steel reinforcement 1, realized being connected with platen 2, by otic placode portion 33, realized being connected with buckle 4, by horizontal section of thick bamboo portion 32, realized carrying out exhaust treatment to cement mortar, its technical aim at: the auxiliary component is used for pouring cement mortar.

In the present embodiment, the clip 4 is configured to include the snap groove portion 41, the shaft head portion 42, the spring portion 43, and the pressure plate portion 44 and is provided with the through-serial hole at one of the lateral portions of the snap groove portion 41, the threaded hole body is provided at the other lateral portion of the snap groove portion 41 and one end of the shaft head portion 42 is configured to be through-serial coupled with the through-serial hole of the snap groove portion 41, the spring portion 43, and the pressure plate portion 44, the other end of the shaft head portion 42 is configured to be coupled with the threaded hole body of the snap groove portion 41 and the shaft head portion 42 is respectively configured to be through-serial coupled with the platen 2 and the drum housing 3, the lower end surface portion of the pressure plate portion 44 is configured to be in contact coupled with the drum housing 3 and the snap groove portion 41 is configured to be in accommodation coupled with the reinforcement frame 1, the snap groove portion 41 is configured to be a U-shaped seat body and the shaft head portion 42 is configured to be a T-shaped rod body having a flange body at one end, the spring portion 43 is configured to be a cylindrical spring and one end of the spring portion 43 is configured to be in contact coupled with the snap groove portion 41, the other end is configured to be in contact coupled with the pressure plate portion 44.

The support connection points of the reinforcing steel bar frame 1, the bedplate 2 and the cylinder shell 3 are formed through the buckles 4, the connection with the reinforcing steel bar frame 1 is realized through the buckle groove parts 41, the connection with the bedplate 2 is realized through the shaft head part 42, the connection with the cylinder shell 3 is realized through the shaft head part 42 and the pressing plate part 44, the buffer connection processing of the cylinder shell 3 is realized through the spring part 43, and the technical aim is that: as a means for connecting the vessel shell 3 to the reinforcing bar frame 1.

In the present embodiment, reinforcing frame 1 and deck 2 and barrel casing 3 are arranged to be distributed in a corner passage manner and reinforcing frame 1, deck 2 and barrel casing 3 and clip 4 are arranged to be distributed in a corner fastening manner, one barrel casing 3 and clip 4 are arranged to constitute one set of corner passage members and four sets of corner passage members are arranged on reinforcing frame 1 and deck 2, nose portion 42 is arranged to be coupled to ear plate portion 33 in a through-type manner, compression plate portion 44 is arranged to be coupled to ear plate portion 33 in a contact manner, and vertical barrel portion 31, ear plate portion 33 and nose portion 42 are respectively arranged to be coupled to mounting hole body 23.

The vertical tube part 31 and the lug plate part 33 are placed in the installation hole body 23, the vertical tube part 31 is inserted into the mesh body of the steel bar frame 1, the bars of the steel bar frame 1 are placed in the buckling groove part 41, the shaft head part 42 is installed in the through hole body of the lug plate part 33, the shaft head part 42 is rotated, the other end of the shaft head part 42 is connected with the threaded hole body of the buckling groove part 41, the spring part 43 is in a compressed state, the pressing plate part 44 acts on the lug plate part 33 under the elastic energy storage effect of the spring part 43, the lug plate part 33 is contacted with the bars of the steel bar frame 1, the vertical tube part 31 is installed on the steel bar frame 1 and the bedplate 2, when the cast-in-situ beam is cast, after the lifting rope passes through the lifting hole body 22, the lifting hook positioned on the lifting rope is connected with the bars of the steel bar frame 1, the steel bar frame 1 is placed on the framework of the cast-in-place beam by a crane, cement mortar is injected into the framework of the cast-in-place beam through the pouring hole body 24, the cement mortar is injected into the framework of the cast-in-place beam through the vertical cylinder part 31 by an operator, the cement mortar in the framework of the cast-in-place beam is tamped by the vibrating rod through the pouring hole body 24 and the vertical cylinder part 31, when the shaft head part 42 rotates in the opposite direction, the other end of the shaft head part 42 is separated from the threaded hole body of the buckling groove part 41, the shaft head part 42 is taken out from the through hole body of the lug plate part 33, the buckling groove part 41 is taken out from the rib of the steel bar frame 1, and the vertical cylinder part 31 and the lug plate part 33 are taken out from the mesh hole body and the mounting hole body 23 of the steel bar frame 1.

Fig. 3 is a second embodiment of the present invention, which is specifically described with reference to the accompanying drawings, wherein the buckle 4 further includes a pawl pressing portion 46, a toggle portion 47 and a torsion spring portion 48, and a through hole is provided at the other transverse portion of the buckle slot portion 41, an open slot 411 is provided at the upper end of the other transverse portion of the buckle slot portion 41, and a tooth body 45 is provided at the lower side of the other end of the shaft head portion 42, the pawl pressing portion 46 is provided in the open slot 411 and the pawl pressing portion 46 is provided to be rotatably coupled with the buckle slot portion 41 by a pin shaft, the inner end of the pawl pressing portion 46 is provided to be coupled with the tooth body 45 in a contact manner and the upper end of the pawl pressing portion 46 is provided to be coupled with the toggle portion 47, the torsion spring portion 48 is provided to be coupled with the pin shaft between the pawl pressing portion 41 and the toggle portion 46 in a sleeved manner and one end of the torsion spring portion 48 is provided to be coupled with the pawl pressing portion 46, one end of the torsion spring portion 48 is provided to be coupled with the toggle portion 41 and the toggle portion 46 is provided to be coupled with the toggle portion, the pawl portion 47 is provided in a C-shaped plate-shaped body, and the opening is provided to be arranged in a U-shaped groove-shaped body, and the tooth groove portion 45 is arranged along the tooth body 45.

The technical purpose is as follows: for use as a means of connecting the stub portion 42.

When the other end of the head portion 42 is installed in the through hole of the other transverse portion of the buckling groove portion 41, the inner end of the pressing claw portion 46 is connected with the tooth body 45 under the action of elastic energy storage of the torsion spring portion 48, the shaft portion 42 is fixed by the pressing claw portion 46, when the head portion 42 moves downwards, the inner end of the pressing claw portion 46 moves on the tooth body 45, when the head portion 42 moves upwards, the inner end of the pressing claw portion 46 is clamped between two adjacent tooth bodies 45, and when an operator overcomes the elastic energy storage of the torsion spring portion 48 through the toggle claw portion 47, the pressing claw portion 46 swings outwards, so that the inner end of the pressing claw portion 46 is separated from the tooth body 45, the shaft head portion 42 can be in a free state of lifting movement, and the other end of the head portion 42 is taken out of the through hole of the other transverse portion of the buckling groove portion 41.

The utility model discloses a second embodiment, according to the mode of carrying out the while tiling of multiple spot cement mortar in the skeleton of cast-in-place roof beam concrete placement device body and 3 hookups of bobbin case each other.

In this embodiment, the cylindrical shell 3 is coupled with the concrete pouring device body in such a manner that multi-point cement mortar is simultaneously tiled in the framework of the cast-in-place beam by pouring cement mortar along the side edges.

In this embodiment, the concrete pouring apparatus body is configured to include a reinforcing frame 1 and a deck 2.

In the present embodiment, a first attachment means is further included and provided between the drum shell 3 and the concrete pouring device body, the first attachment means being provided as a buckle 4.

The second embodiment of the present invention is based on the first embodiment.

The utility model has the characteristics of down:

1. owing to designed concrete placement device body and shell 3, through concrete placement device body, realized carrying out middle cement mortar to the skeleton of cast-in-place roof beam and pour, through shell 3, carried out other along cement mortar to the skeleton of cast-in-place roof beam and pour, realized carrying out the tiling of multiple spot cement mortar simultaneously in the skeleton of cast-in-place roof beam, consequently improved the concrete placement shaping quality of cast-in-place roof beam.

2. Due to the design of the reinforcing steel frame 1 and the bedplate 2, the arrangement of forming a cement mortar pouring platform on the framework of the cast-in-place beam is realized.

3. Due to the design of the buckle 4, the clamping arrangement of the cylinder shell 3 is realized.

4. Owing to designed and carried out numerical range's injecion to the knot configuration form, made numerical range do the utility model discloses a technical scheme in the technical scheme technical characteristics, not through the formula calculation or through the technical characteristics that the limited number of experiments reachs, the experiment shows that this numerical range's technical characteristics has obtained fine technological effect.

5. Owing to designed the utility model discloses a technical characteristics, in technical characteristics's the effect alone and each other set, through the experiment show, the utility model discloses an each item performance index is 1.7 times for current each item performance index at least, has fine market value through the aassessment.

Still other technical features associated with the concrete pouring device body and the shell 3, in which the multipoint cement mortar is simultaneously spread in the framework of the cast-in-place beam, are all one of the embodiments of the present invention, and the technical features of the above-described embodiments may be arbitrarily combined, and in order to satisfy the requirements of patent laws, patent implementation rules and examination guidelines, all possible combinations of the technical features of the above-described embodiments will not be described.

Therefore in the concrete placement device technical field who is used for cast-in-place roof beam, all include concrete placement device body that has the main part and pour into the pore, set up on concrete placement device body and be used for as the technical content of supplementary injection pore's shell 3 all be in the utility model discloses a within the scope of protection.

Claims (7)

1. The utility model provides a concrete placement device for cast-in-place roof beam, characterized by: comprises a concrete pouring device body with a main body pouring pore canal, a cylinder shell (3) which is arranged on the concrete pouring device body and is used as an auxiliary pouring pore canal,

the concrete pouring device body is arranged to comprise a reinforcing steel bar frame (1) and a bedplate (2),

also comprises a first accessory device which is arranged between the cylinder shell (3) and the concrete pouring device body and is provided with a buckle (4),

a bedplate (2) is arranged on the reinforcing steel bar frame (1), the cylinder shell (3) is arranged in the reinforcing steel bar frame (1) and the bedplate (2), and a buckle (4) is arranged between the cylinder shell (3) and the reinforcing steel bar frame (1) and the bedplate (2).

2. The concrete casting apparatus for a cast-in-place girder according to claim 1, wherein: the concrete pouring device body and the cylinder shell (3) are connected with each other in a mode of simultaneously tiling multi-point cement mortar in the framework of the cast-in-place beam.

3. The concrete casting apparatus for a cast-in-place beam according to claim 2, wherein: the cylinder shell (3) is connected with the concrete pouring device body in a mode that multi-point cement mortar is simultaneously paved in the framework of the cast-in-place beam through the side edge cement mortar pouring.

4. The concrete casting apparatus for a cast-in-place beam according to claim 1, wherein: the cylinder shell (3) is arranged to comprise a vertical cylinder part (31), a transverse cylinder part (32) and an ear plate part (33), the upper part of the side surface of the vertical cylinder part (31) is connected with the transverse cylinder part (32), the middle part of the side surface of the vertical cylinder part (31) is connected with the ear plate part (33), the vertical cylinder part (31) is connected with the reinforcing steel bar frame (1) and the bedplate (2) in a penetrating mode, a through hole body is arranged on the ear plate part (33), the through hole body of the ear plate part (33) is connected with a buckle (4), the lower end surface part of the ear plate part (33) is connected with the reinforcing steel bar frame (1) in a contact mode, the vertical cylinder part (31) and the transverse cylinder part (32) are respectively arranged to be circular tubular bodies, the vertical cylinder part (31) and the transverse cylinder part (32) are arranged to be 951-shaped, the ear plate part (33) is distributed in a 0shape, and the ear plate part (33) is arranged to be a rectangular sheet body.

5. The concrete casting apparatus for a cast-in-place beam according to claim 1, wherein: the reinforcing steel bar frame (1) is arranged to be a grid body consisting of transverse ribs and longitudinal ribs, the upper end surface part of the reinforcing steel bar frame (1) is connected with the bedplate (2), the mesh body of the reinforcing steel bar frame (1) is connected with the barrel shell (3), and the ribs of the reinforcing steel bar frame (1) are connected with the buckles (4) in a contact mode.

6. The concrete casting apparatus for a cast-in-place beam according to claim 1, wherein: a pouring hole body (24) is arranged in the middle of a plate portion (21) of the bedplate (2), mounting hole bodies (23) are arranged at corners of the plate portion (21), hoisting hole bodies (22) are arranged at the edge of the plate portion (21), the lower end face of the plate portion (21) is connected with the steel bar frame (1), the mounting hole bodies (23) are respectively connected with the cylinder shell (3) and the buckle (4), the plate portion (21) is a rectangular sheet-shaped body, the hoisting hole bodies (22) are circular hole bodies, the hoisting hole bodies (22) are distributed at intervals along the periphery of the plate portion (21), and the mounting hole bodies (23) and the pouring hole bodies (24) are respectively rectangular hole bodies.

7. The concrete casting apparatus for a cast-in-place beam according to claim 1, wherein: the buckle (4) is provided with a buckle groove part (41), a shaft head part (42), a spring part (43) and a pressing plate part (44), a through serial hole is arranged at one transverse part of the buckle groove part (41), a thread hole body is arranged at the other transverse part of the buckle groove part (41), one end head of the shaft head part (42) is provided with the through serial hole of the buckle groove part (41), the spring part (43) and the pressing plate part (44) are connected in series, the other end head of the shaft head part (42) is provided with the thread hole body of the buckle groove part (41) and the shaft head part (42) is respectively provided with the through serial connection with the bedplate (2) and the barrel shell (3), the lower end surface part of the pressing plate part (44) is provided with a contact type connection with the barrel shell (3) and the buckle groove part (41) is provided with a holding type connection with the reinforcing steel bar frame (1), the buckle groove part (41) is provided with a U-shaped seat and the shaft head part (42) is provided with a T-shaped rod body with a flange body at one end, the spring part (43) is provided with a contact type connection with the pressing plate part (44), the spring part (43) is provided with a cylindrical plate part (43) and the other end head part (44) is provided with a connection with the pressing plate part,

or the buckle (4) is provided with a pressing claw part (46), a toggle claw part (47) and a torsion spring part (48), and a through serial hole is arranged at the other transverse part of the buckle groove part (41), an opening groove body (411) is arranged at the upper end of the other transverse end of the buckling groove part (41), a tooth body (45) is arranged at the lower side of the other end of the shaft head part (42), a pressing claw part (46) is arranged in the opening groove body (411) and the pressing claw part (46) is rotatably connected with the buckling groove part (41) through a pin shaft, the inner end of the pressing claw part (46) is connected with the tooth body (45) in a contact mode, the upper end face of the pressing claw part (46) is connected with a shifting claw part (47), a torsion spring part (48) is connected with the pin shaft between the buckling groove part (41) and the pressing claw part (46) in a sleeved mode, one end of the torsion spring part (48) is connected with the pressing claw part (46), one end of the torsion spring part (48) is connected with the buckling groove part (41) and the pressing claw part (46) is arranged to be an L-shaped plate, the shifting claw part (47) is arranged to be a C-shaped plate body and the opening groove body (411) is arranged to be a U-shaped groove, the tooth body (45) is arranged to be distributed along the tooth groove part (41).

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