CN214447189U - Superimposed sheet mould of low energy consumption - Google Patents

Abstract

The application relates to a low-energy-consumption laminated slab die, relating to the technical field of manufacturing of laminated slabs; the steel bar pouring device comprises a bottom plate and four vertical plates fixedly arranged on the upper surface of the bottom plate, wherein the bottom plate and the four vertical plates jointly enclose a pouring cavity, and steel bars are arranged in the pouring cavity; each vertical plate comprises a mounting plate and a fixed plate fixedly connected to the top of the mounting plate, a plurality of movable plates are arranged on the mounting plate, mounting holes for the insertion of each movable plate or the end part of each steel bar are formed in the mounting plate, and fixing holes for the insertion of each movable plate are formed in the fixed plate; this application has and supplies the reinforcing bar to insert the position of establishing according to the nimble adjustment of arrangement of reinforcement interval, improves the application scope's of mould effect.

Description

Superimposed sheet mould of low energy consumption

Technical Field

The application relates to the technical field of laminated plate manufacturing, in particular to a laminated plate mold with low energy consumption.

Background

The laminated slab is an assembled integral floor slab formed by laminating prefabricated slabs and cast-in-place reinforced concrete layers, has good integrity, smooth upper and lower surfaces, is convenient for finishing of a finish coat, and is suitable for high-rise buildings and large-bay buildings with higher integral rigidity requirements.

A related Chinese patent with the publication number of CN211492081U discloses a laminated slab mold for buildings, which comprises a bottom plate and four groups of vertical plates, wherein the four groups of vertical plates are arranged at the top end of the bottom plate, the four groups of vertical plates are distributed around to form a framework plate of a laminated slab template, the top ends of the four groups of vertical plates are respectively provided with a plurality of groups of placing grooves, and reinforcing steel bar frames are arranged in the placing grooves; when processing, keep flat the bottom plate on subaerial, install the reinforcing bar frame to the bottom plate top earlier, each end of reinforcing bar frame all places in the standing groove, pours the raw materials to the bottom plate top, waits to pour and accomplishes, hangs the superimposed sheet from the superimposed sheet mould with the crane hook lock catch reinforcing bar frame, accomplishes the processing to the superimposed sheet.

In view of the above related technologies, the inventor believes that the distance between two adjacent placing grooves formed in the vertical plate is the steel bar spacing in the actual production process, and for processing laminated plates with different steel bar spacing requirements, the mold for the laminated plate has poor versatility and low reusability, thereby resulting in high energy consumption in mold manufacturing.

SUMMERY OF THE UTILITY MODEL

In order to improve the technical problem that the universality of laminated plates in the related art causes large energy consumption in die manufacturing, the application provides a laminated plate die with low energy consumption.

The application provides a superimposed sheet mould of low energy consumption adopts following technical scheme:

a low-energy-consumption laminated slab mold comprises a bottom plate and four vertical plates fixedly arranged on the upper surface of the bottom plate, wherein a pouring cavity is formed by the bottom plate and the four vertical plates in a surrounding mode, and reinforcing steel bars are arranged in the pouring cavity; each the riser all includes mounting panel and fixed plate of fixed connection in the mounting panel top, be provided with a plurality of fly leaf on the mounting panel, set up on the mounting panel and supply each fly leaf or each reinforcing bar tip to insert the mounting hole of establishing, set up on the fixed plate and supply each fly leaf to run through the fixed orifices of inserting the establishment.

Through adopting above-mentioned technical scheme, because every fly leaf all can be dismantled and connect on the mounting panel, consequently can be according to the requirement of arrangement of reinforcement interval with the individual fly leaf stand of detaching, the mounting hole of the fly leaf department of detaching this moment just can peg graft the reinforcing bar, consequently the adjustable of reinforcing bar, adjacent reinforcing bar distance is realized to the fly leaf of accessible dismouting different positions and fill the reinforcing bar in corresponding position to improve the suitability.

Optionally, each the fly leaf is including inserting butt joint plate and the baffle of fixed connection in butt joint plate below of locating in the fixed orifices, the one end that butt joint plate department was kept away from to the baffle is provided with the cambered surface, each the diapire that the mounting hole is close to each baffle department has all seted up the arc hole, cambered surface and reinforcing bar lateral wall on the baffle all laminate with the arc hole lateral wall that corresponds the position mutually.

By adopting the technical scheme, the arrangement of the cambered surface and the arc-shaped hole increases the contact area between the baffle and the mounting plate, realizes stable insertion of the baffle and improves the connection stability and tightness; on the other hand also plays limiting displacement to every fly leaf to make the fly leaf can only load and unload along vertical direction, and can not slide along the length direction of fixed orifices, influence inserting of reinforcing bar and establish.

Optionally, each baffle lateral wall has sealed the pad along its circumference is inlayed admittedly, is close to the sealed pad of cambered surface department pastes the arc hole lateral wall that corresponds the position, keeps away from the sealed pad of cambered surface department pastes sealed pad or the reinforcing bar lateral wall on adjacent baffle.

Through adopting above-mentioned technical scheme, sealed setting up of filling up has strengthened the leakproofness between fly leaf and riser, the adjacent fly leaf, avoids pouring into and pours the condition that the seepage appears in the production raw materials that is used for making the superimposed sheet in the cavity.

Optionally, each the surface that the butt joint board deviates from baffle department all flushes with the fixed plate surface mutually, each the surface that the butt joint board deviates from the baffle department of corresponding position all the symmetry is provided with the breach of stepping down.

Through adopting above-mentioned technical scheme, the breach of stepping down sets up to the operating personnel loading and unloading fly leaf and provides the point of application of force, and the operating personnel hand can be held between the fingers in the breach department of stepping down in order to take out the fly leaf from the fixed orifices or insert in the fixed orifices, improves the handling efficiency of fly leaf.

Optionally, each the lateral wall that the butt joint board is close to one of them breach department of stepping down all is provided with the spring, the one end fixed connection in butt joint piece of spring butt joint board department, the one end fixedly connected with gag lever post of spring department is kept away from to the butt joint piece, the spacing hole that supplies the gag lever post to insert to establish is seted up to the lateral wall that the fixed plate is close to fixed orifices department.

By adopting the technical scheme, when the spring is in an initial state, the limiting rod is inserted into the limiting hole in the corresponding position, so that the fixing plate is stably inserted into the fixing hole.

Optionally, a fixing groove for inserting the spring is formed in the side wall, close to the spring, of the butt joint plate, the butt joint piece faces the side wall, close to the spring, of the spring and is located on the periphery of the spring, a protection sleeve is fixedly connected to the side wall, far away from the butt joint piece, of the protection sleeve and is inserted into the fixing groove, and a space for allowing the protection sleeve to slide is formed in the fixing hole.

Through adopting above-mentioned technical scheme, the protection spring can be guaranteed to play on the one hand in setting up of protective casing and fixed orifices, avoids the spring to expose and receives the condition of corrosion such as steam among the external environment, and on the other hand also can guarantee that the spring is stable flexible along the length direction of gag lever post all the time, and the condition that the spring buckled can not appear, guarantees that the gag lever post can insert spacing downthehole under spring force drives.

Optionally, a protective rubber pad is arranged on a side wall of the butt joint piece facing away from the protective sleeve.

Through adopting above-mentioned technical scheme, the friction when protection rubber pad set up on the one hand and can increase the staff and contact to the piece also can reduce the spring force that the staff received when pressing to the piece simultaneously, reduces uncomfortable sense.

Optionally, each of the side walls of the position of the limiting rod far away from the butt joint piece at the corresponding position is provided with a guide surface which facilitates the rapid insertion of the limiting rod into the limiting hole.

Through adopting above-mentioned technical scheme, the setting of spigot surface can reduce the resistance when gag lever post tip inserts spacing downthehole portion, realizes that the gag lever post inserts the spacing downthehole of corresponding position fast and stably.

In summary, the present application includes at least one of the following beneficial technical effects:

1. each movable plate can be detachably connected to the mounting plate, so that the individual movable plate can be detached from the vertical plate according to the requirement of the reinforcement spacing, and reinforcing steel bars can be inserted into the mounting holes in the detached movable plates, so that the distance between the reinforcing steel bars and adjacent reinforcing steel bars can be adjusted by detaching the movable plates at different positions and filling the reinforcing steel bars in the corresponding positions, and the applicability is improved;

2. the setting of spring, butt joint piece, gag lever post can insert each fly leaf fast and steadily and locate the fixed orifices, improves the installation stability of fly leaf.

Drawings

FIG. 1 is a schematic structural view of a low energy consumption laminated plate mold in the embodiment;

FIG. 2 is a partial exploded view for showing the positional relationship between the movable plate and the vertical plate in the embodiment;

fig. 3 is a partial sectional view for showing a positional relationship between the movable plate and the vertical plate in the embodiment.

Description of reference numerals: 1. a base plate; 2. a vertical plate; 21. mounting a plate; 211. mounting holes; 2111. an arc-shaped hole; 22. a fixing plate; 221. a fixing hole; 2211. a limiting hole; 3. a movable plate; 31. a butt plate; 311. a abdication gap; 312. fixing grooves; 3121. a space of abdicating; 313. a spring; 314. a protective sleeve; 315. butt-jointing sheets; 3151. protecting the rubber pad; 316. a limiting rod; 3161. a guide surface; 32. a baffle plate; 321. a cambered surface; 322. a gasket; 4. reinforcing steel bars; 5. and (6) pouring the cavity.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses coincide board mould of low energy consumption. Referring to fig. 1, the low-energy-consumption laminated slab mold comprises a bottom plate 1 and four vertical plates 2 which are vertically arranged on the upper surface of the bottom plate 1 and positioned at the edges of the bottom plate 1, wherein the edges of the adjacent vertical plates 2 are welded with each other; four risers 2 enclose jointly with bottom plate 1 and synthesize pouring cavity 5, place the reinforcing bar 4 of violently indulging the cross arrangement in pouring cavity 5.

Referring to fig. 1 and 2, each vertical plate 2 includes a mounting plate 21 and a fixing plate 22 fixedly welded to an upper surface of the mounting plate 21, the mounting plate 21 is provided with a plurality of movable plates 3, and the upper surface of the fixing plate 22 is provided with a fixing hole 221 for each movable plate 3 to be inserted into; the length of fly leaf 3 is unanimous with reinforcing bar 4 diameter, and a plurality of mounting hole 211 has been seted up along its thickness direction to the mounting panel 21 lateral wall, and all mounting holes 211 communicate each other, and each mounting hole 211 can be used to supply fly leaf 3 to insert or supply reinforcing bar 4 tip to run through to insert and establish.

Referring to fig. 2 and 3, each of the movable plates 3 includes an abutting plate 31 inserted into the fixing hole 221 and a baffle plate 32 welded to a lower surface of the abutting plate 31, the baffle plate 32 being inserted into the mounting hole 211; the upper surface of each pair of connection plates 31 is symmetrically provided with abdicating notches 311, the side wall of the connection plate 31 close to one of the abdicating notches 311 is provided with a fixing groove 312, the fixing groove 312 is provided along the width direction of the fixing plate 22, a spring 313 is inserted inside the fixing groove 312, one end of the spring 313 is fixedly bonded on the inner wall of the fixing groove 312, the other end of the spring 313 is fixedly bonded with a pair of connection pieces 315, one end of the pair of connection pieces 315 close to the spring 313 is fixedly bonded with a protection casing 314, the protection casing 314 is sleeved outside the spring 313, one end of the protection casing 314 far away from the spring 313 is inserted in the fixing groove 312, and an abdicating space 3121 for the protection casing 314 to be inserted and slid in the fixing groove 312 is reserved in the fixing groove 312.

Referring to fig. 2 and 3, the side wall of the butt-joint piece 315 away from the spring 313 is vertically welded with the limiting rods 316, the side wall of the fixing hole 221 near each limiting rod 316 is provided with a limiting hole 2211 for the limiting rod 316 to be inserted, the end of the limiting rod 316 is provided with a guide surface 3161 convenient for the limiting rod 316 to be quickly inserted into the limiting hole 2211 at the corresponding position, and the butt-joint piece 315 away from the side wall of the spring 313 and above the limiting rod 316 is fixedly bonded with a protective rubber pad 3151; when the spring 313 is in an initial state, the limiting rod 316 is inserted into the limiting hole 2211, and when the limiting rod 316 is separated from the limiting hole 2211, the protection sleeve 314 is inserted into the fixing groove 312.

Referring to fig. 2 and 3, cambered surface 321 has been seted up to the end wall that baffle 32 deviates from butt joint plate 31 department, and baffle 32 lateral wall and cambered surface 321 surface are inlayed and are had the sealed pad 322 of rubber material, and arc hole 2111 has all been seted up to each mounting hole 211 lateral wall, and arc hole 2111 can laminate mutually with the sealed pad 322 on the baffle 32 cambered surface 321 of corresponding position, or laminate mutually with 4 lateral walls of reinforcing bar.

The implementation principle of the laminated plate die with low energy consumption in the embodiment of the application is as follows: according to the requirement of the reinforcement spacing, the reinforcing steel bars 4 are inserted into the pouring chamber 5 from the mounting holes 211, so that the reinforcing steel bars 4 in the pouring chamber 5 are distributed in a transversely and longitudinally overlapped mode, then the movable plate 3 is inserted into the mounting holes 211 where the reinforcing steel bars 4 are not inserted, the butt joint sheet 315 is pressed to enable the springs 313 to be in a contraction state, when the butt joint plate 31 is completely inserted into the fixing holes 221, the butt joint sheet 315 is released to be pressed, at the moment, the limiting rod 316 is inserted into the limiting hole 2211 under the elastic force action of the springs 313, at the moment, the sealing gaskets 322 are attached to the inner wall of the arc-shaped hole 2111, and therefore the installation of the mold is completed according to the requirement of the reinforcement spacing.

After the installation is finished, injecting the raw materials into the pouring cavity and pouring the raw materials to the top end of the mounting plate 21, after the pouring is finished, hooking the reinforcing steel bars 4 by using the crane hook lock to hang the laminated plate from the laminated plate mold, and finishing the processing of the laminated plate.

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

Claims (8)

1. A low-energy-consumption superposed plate die comprises a bottom plate (1) and four vertical plates (2) fixedly arranged on the upper surface of the bottom plate (1), wherein the bottom plate (1) and the four vertical plates (2) jointly enclose a pouring chamber (5), and reinforcing steel bars (4) are arranged in the pouring chamber (5); the method is characterized in that: each riser (2) all includes mounting panel (21) and fixed plate (22) of fixed connection in mounting panel (21) top, be provided with a plurality of fly leaf (3) on mounting panel (21), set up on mounting panel (21) and supply each fly leaf (3) or each reinforcing bar (4) tip to insert mounting hole (211) of establishing, set up on fixed plate (22) and supply each fly leaf (3) to run through fixed orifices (221) of establishing of inserting.

2. A low energy consumption lay-up tool according to claim 1, wherein: each fly leaf (3) are including inserting butt joint board (31) and the baffle (32) of fixed connection in butt joint board (31) below of locating in fixed orifices (221), the one end that butt joint board (31) department was kept away from in baffle (32) is provided with cambered surface (321), each arc hole (2111) have all been seted up to diapire that mounting hole (211) are close to each baffle (32) department, cambered surface (321) and reinforcing bar (4) lateral wall on baffle (32) all laminate mutually with the arc hole (2111) lateral wall of corresponding position.

3. A low energy consumption lay-up tool according to claim 2, wherein: each baffle (32) lateral wall is inlayed along its circumference and is had sealed the pad (322), is close to sealed pad (322) of cambered surface (321) department is laminated in the arc hole (2111) lateral wall that corresponds the position, keeps away from sealed pad (322) of cambered surface (321) department is laminated in sealed pad (322) or reinforcing bar (4) lateral wall on adjacent baffle (32).

4. A low energy consumption lay-up tool according to claim 3, wherein: each the surface that butt joint board (31) deviate from baffle (32) department all flushes mutually with fixed plate (22) surface, each the surface that butt joint board (31) deviate from baffle (32) department of corresponding position all the symmetry is provided with abdicating breach (311).

5. A low energy consumption lay-up tool according to claim 4, wherein: each the lateral wall that butt joint plate (31) are close to one of them breach of stepping down (311) department all is provided with spring (313), the one end fixed connection in butt joint piece (315) of spring (313) butt joint plate (31) department, the one end fixedly connected with gag lever post (316) of spring (313) department is kept away from to butt joint piece (315), spacing hole (2211) that supply gag lever post (316) to insert the establishment are seted up to the lateral wall that fixed plate (22) are close to fixed orifices (221) department.

6. A low energy consumption lay-up tool according to claim 5, wherein: the utility model discloses a fixing device for the spring (313) insert, including butt joint plate (31), spring (313) and protection sleeve pipe (314), the lateral wall that butt joint plate (31) is close to spring (313) department is seted up and is supplied spring (313) to insert fixed slot (312) of establishing, lateral wall that butt joint piece (315) are located towards spring (313) and be located spring (313) peripheral fixedly connected with protection sleeve pipe (314), the one end that protection sleeve pipe (314) are kept away from butt joint piece (315) is inserted and is located fixed slot (312) in, be provided with in fixed hole (221) and supply protection sleeve pipe (314) gliding space of stepping down (3121).

7. A low energy consumption lay-up tool according to claim 6, wherein: and a protective rubber pad (3151) is arranged on the side wall of the butt joint sheet (315) away from the protective sleeve (314).

8. A low energy consumption lay-up tool according to claim 6, wherein: the side wall of the position, far away from the corresponding position, of the butt joint piece (315) of each limiting rod (316) is provided with a guide surface (3161) which is convenient for the limiting rod (316) to be quickly inserted into the limiting hole (2211).

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