CN116464289A - Concrete placement equipment for reinforced concrete main body construction - Google Patents

Abstract

The invention relates to the technical field of concrete engineering, in particular to concrete pouring equipment for reinforced concrete main body construction, which comprises an equipment frame, a material box arranged on the equipment frame and a material guide frame erected on the equipment frame, wherein the equipment frame is provided with a material guide frame; the output end of the material box is butted with the material guide frame, the material guide frame is obliquely arranged, a guide frame plate is arranged at the bottom of the frame body of the material guide frame, and the guide frame plates are sequentially connected end to end; the bottom of the equipment frame is provided with a plurality of supporting frames which are matched with the diversion frame plates one by one and are supported on the corresponding diversion frame plates through elastic supporting ends; the tail end of the equipment frame is also provided with a spreading support, the spreading support is provided with a pressing support, and the pressing support is provided with a plurality of pressing devices. According to the invention, the diversion frame plates are designed to form a fluctuation trend of head-to-tail connection, so that the output of concrete is guided, and the risk of concrete retention and accumulation is reduced; the tail end of the equipment frame is also provided with a spreading bracket, so that the effect of uniform spreading is achieved.

Description

Concrete placement equipment for reinforced concrete main body construction

Technical Field

The invention relates to the technical field of concrete engineering, in particular to concrete pouring equipment for reinforced concrete main body construction.

Background

In modern construction, concrete is a widely used building material, common concrete is an artificial stone which is prepared by taking cement as a main cementing material, mixing with water, sand and stones, adding chemical additives and mineral additives if necessary, mixing according to a proper proportion, uniformly stirring, compacting, forming, curing and hardening, and the concrete is mainly divided into two stages and states: the plastic state before setting and hardening, namely fresh concrete or concrete mixture; the hardened state after hardening, i.e. hardened concrete or concrete.

Prior art concrete casting equipment generally comprises: the vehicle body, install the universal wheel bottom the vehicle body, be provided with the agitator tank on the vehicle body, adopt the mode of pipeline output concrete, perhaps adopt the operation mode of inclined plate guide, but concrete itself is the solid fluid state, singly adopts pipeline delivery or inclined plate guide, easily has the risk of material jam; existing concrete pouring equipment also adopts a caterpillar band to convey concrete, but the equipment cost and the power cost of caterpillar band operation are greatly increased.

Disclosure of Invention

The invention aims to provide concrete pouring equipment for reinforced concrete main body construction, which solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the concrete pouring equipment for the construction of the reinforced concrete main body comprises an equipment frame, a material box arranged on the equipment frame and a material guide frame arranged on the equipment frame;

the output end of the material box is butted with a material guide frame, the material guide frame is obliquely arranged, a flow guide frame plate is arranged at the bottom of the frame body of the material guide frame, and the flow guide frame plates are sequentially connected end to end;

the bottom of the equipment frame is provided with a plurality of supporting frames which are matched with the diversion frame plates one by one and are supported on the corresponding diversion frame plates through elastic supporting ends;

the tail end of the equipment frame is also provided with a spreading support, the spreading support is provided with a pressing support, and the pressing support is provided with a plurality of pressing devices.

As a further scheme of the invention: the output of material case is provided with the conveyer, the material guide frame includes main frame cell body, sets up in the leading-out end of main frame cell body bottom and the input of butt joint with the conveyer, the bottom of main frame cell body is provided with the mounting bracket frame, is provided with the support frame in the mounting bracket frame, the water conservancy diversion frame is laid on the support frame.

As a further scheme of the invention: the guide frame plate comprises a main base plate, connecting ends arranged at two ends of the main base plate and buckling bolts arranged between the connecting ends, wherein connecting bolts are arranged between the buckling bolts, and the axis of the connecting bolts is arranged through a movable shaft.

As a further scheme of the invention: the upper end of the connecting end is of an oblique angle slope body structure and is provided with an extending soft board, and the corresponding extending soft boards are connected through the corrugated soft board.

As a further scheme of the invention: the support frame is including installing a plurality of strong points on the equipment frame, set up the backing bar on the strong point, install in the supporting shoe of backing bar rod end, the elastic support end is including installing the oblique base on the supporting shoe, set up in the flank frame plate of oblique base both sides and install the supporting spring in flank frame plate both sides, the oblique base passes through the swing bolt and installs on the supporting shoe, the supporting shoe is fixed in corresponding main base plate bottom through the fixed block to the supporting end of supporting spring.

As a further scheme of the invention: the spreading support comprises a top support arranged at the tail end of the equipment frame, a middle support frame body arranged on the top support and a bottom frame substrate arranged on the middle support frame body, locking support pieces are arranged between the top support and the middle support frame body, two sides of the bottom frame substrate are respectively provided with an operation end, each operation end comprises an installation lifting frame and an operation frame arranged on the lifting frame, and spreading pouring rollers and flattening pouring rollers are respectively arranged on the operation frames on the two sides.

As still further aspects of the invention: the spreading pouring roller comprises a first roller body and a plurality of roller surface ribs arranged on the roller surface of the roller body, and the flattening pouring roller comprises a second roller body and an outer pressing roller sleeve arranged on the roller surface of the second roller body.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the material guide frame is designed to be a concrete pouring guide structure, the bottom of the frame body of the material guide frame is provided with guide frame plates which are sequentially connected end to end, the guide frame plates are the carrier plates for the output flow of concrete, the support frame forms a bottom support for the corresponding guide frame plates, the elastic support end is a support end, and the elastic support end applies force to the elastic support end due to the gravity of the concrete, and simultaneously improves the supporting force in the direction, so that the guide frame plates form a fluctuation trend of end to end connection, the output of the concrete is guided, and the risk of detention and accumulation of the concrete is reduced; the tail end of the equipment frame is also provided with a spreading support, and after the concrete is output, the concrete is flattened through a pressing device, so that the effect of uniformly spreading is achieved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application. Meanwhile, these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to specific embodiments.

Fig. 1 is a schematic diagram of the overall structure of a concrete pouring device for reinforced concrete body construction according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a material guiding frame according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a paver support according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of the area a in fig. 3 according to the present invention.

Fig. 5 is a schematic structural diagram of a support frame according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a flattening casting roll according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a paving pouring roller according to an embodiment of the present invention.

In the figure: 11. an equipment frame; 12. a material box; 13. a material guide frame; 14. a diversion frame plate; 15. a support frame; 16. an elastic support end; 21. a spreading bracket; 22. pressing the bracket; 23. pressing the device; 31. a feeder; 32. an input end; 33. a main frame body; 34. a lead-out end; 35. a mounting frame; 36. a support frame; 41. a main substrate; 42. a connection end; 43. a buckling bolt; 44. a movable shaft; 45. a connecting bolt; 51. a top bracket; 52. a middle support frame; 53. a chassis base plate; 54. a locking support; 55. a working end; 56. installing a lifting frame; 57. an operation frame; 58. flattening the pouring roller; 59. spreading and pouring rollers; 61. a first roller body; 62. roll surface ribs; 63. a second roller body; 64. an outer pressure roller sleeve; 71. a support point; 72. a support rod; 73. a support block; 74. a swinging bolt; 75. an inclined support base; 76. a support spring; 77. a side wing frame plate.

Description of the embodiments

The technical solutions according to the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings, examples of which are shown in the accompanying drawings. When the following description refers to the accompanying drawings, like numerals in the various drawings refer to like or similar elements, unless otherwise specified.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

In one embodiment;

referring to fig. 1, there is provided a concrete pouring apparatus for reinforced concrete body construction, comprising an apparatus frame 11, a material box 12 mounted on the apparatus frame 11, and a material guide frame 13 mounted on the apparatus frame 11;

the output end of the material box 12 is butted with a material guide frame 13, the material guide frame 13 is obliquely arranged, a guide frame plate 14 is arranged at the bottom of the frame body of the material guide frame 13, and the guide frame plates 14 are sequentially connected end to end;

the bottom of the equipment frame 11 is provided with a plurality of supporting frames 15, and the supporting frames 15 are matched with the diversion frame plates 14 one by one and are supported on the corresponding diversion frame plates 14 through elastic supporting ends 16;

the tail end of the equipment frame 11 is also provided with a spreading support 21, the spreading support 21 is provided with a pressing support 22, and the pressing support 22 is provided with a plurality of pressing devices 23.

The invention is used for the paving treatment of concrete, and is based on the concrete pouring treatment in the prior art, and aims to optimize the paving smoothness of the concrete; the equipment frame 11 is provided with a related traction vehicle or a large-scale driving rack, the material box 12 is temporary storage equipment of concrete, and a related stirring structure can be arranged in the material box 12 so as to avoid the problem of concrete coagulation; the material guide frame 13 is a concrete pouring guide structure, the bottom of the frame body of the material guide frame 13 is provided with guide frame plates 14, the guide frame plates 14 are sequentially connected end to end, the guide frame plates 14 are the carrier plates for the output flow of concrete, the support frames 15 form bottom supports for the corresponding guide frame plates 14, the elastic support ends 16 are support ends, and the elastic support ends 16 simultaneously improve the supporting force of the direction while applying force to the elastic support ends 16 due to the gravity of the concrete, so that the guide frame plates 14 form the fluctuation trend of end to end connection, the output of the concrete is guided, and the risk of detention and accumulation of the concrete is reduced; the tail end of the equipment frame 11 is also provided with a spreading support 21, and after the concrete is output, the concrete is flattened through a pressing device 23, so that the effect of uniform spreading is achieved.

In one embodiment;

the output of material case 12 is provided with conveyer 31, material guide frame 13 includes main frame cell body 33, sets up in the derivation end 34 of main frame cell body 33 bottom and with the input 32 of conveyer 31 dock mutually, the bottom of main frame cell body 33 is provided with mounting bracket frame 35, is provided with in the mounting bracket frame 35 and strut frame 36, guide frame plate 14 is put up on strut frame 36.

The main structure of the material guide frame 13 is a main frame groove body 33 and a mounting frame 35, and the flow guide frame plate 14 is arranged on a supporting frame 36 along the inner edge of the supporting frame 36, so that the whole material guide frame 13 is added to form a peripheral closed channel structure. In operation, the feeder 31 forms an impetus for the concrete, the concrete is led into the inner cavity of the main frame groove body 33 from the input end 32, the main frame groove body 33 forms a space limit for the concrete, the concrete is led out to the leading-out end 34 along the guide frame plate 14, and the leading-out end 34 is paved on the corresponding pouring surface.

Preferably, screw conveyor or the like may be provided in the feeder 31 for providing an initial pushing force at the time of concrete output.

In one embodiment;

based on the above embodiment, for the specific material guiding implementation structure of the baffle plate 14, the design of this embodiment is as follows:

the baffle plate 14 comprises a main substrate 41, connecting ends 42 arranged at two ends of the main substrate 41, and buckling bolts 43 arranged between the connecting ends 42, wherein connecting bolts 45 are arranged between the buckling bolts 43, and the axis of the connecting bolts 45 is arranged through a movable shaft 44.

The support 15 comprises a plurality of support points 71 installed on the equipment frame 11, a support rod 72 arranged on the support points 71, and a support block 73 installed on the rod end of the support rod 72, the elastic support end 16 comprises an inclined support base 75 installed on the support block 73, side wing frame plates 77 arranged on two sides of the inclined support base 75, and support springs 76 installed on two sides of the side wing frame plates 77, the inclined support base 75 is installed on the support block 73 through a swinging bolt 74, and the support end of the support springs 76 is fixed at the bottom of the corresponding main base plate 41 through a fixed block 78.

The supporting point 71 is a fixed supporting point structure on the equipment frame 11, the supporting rod 72 is a supporting rack rod, the inclined supporting base 75 is obliquely installed on the supporting block 73 through the swinging bolt 74, the whole elastic supporting end 16 accords with the whole inclined trend of the diversion frame plate 14, the elastic supporting end 16 takes the supporting block 73 as a supporting point structure, the side wing frame plates 77 of two wings form an outer supporting structure, thereby elastic external tension is formed on two sides of the bottom plane of the main base plate 41, two ends of the main base plate 41 are connecting ends 42, buckling bolts 43 are used between the connecting ends 42 of the adjacent main base plate 41, the buckling bolts 43 are swinging installation structures taking movable shafts 44 as shaft parts, a swinging trend is formed between the adjacent main base plates 41, after concrete falls, impact is formed on the elastic supporting end 16 at the bottom, supporting springs 76 on two sides of the side wings 77 are sequentially stressed and deformed, and accordingly the connecting ends 42 at two ends of the main base plate 41 are sequentially fluctuated, the whole diversion frame plate 14 is fluctuated, the concrete material is led out, and the risk of accumulating concrete is reduced.

In one case of the present embodiment;

the upper end of the connecting end 42 is in an oblique angle slope structure and is provided with an extending soft board 46, and the corresponding extending soft boards 46 are connected through a corrugated soft board 47. The corrugated flexible board 47 is connected between the connection ends 42 so as to cover the upper part of the gap between the main substrates 41, and still maintains a closed sealing structure above the baffle plate 14 under the condition that the main substrates 41 fluctuate, and the corrugated flexible board 47 has stretching or folding effects and can adapt to the fluctuation effects between the connection ends 42.

In one embodiment;

the spreading support 21 comprises a top support 51 arranged at the tail end of the equipment frame 11, a middle support frame 52 arranged on the top support 51 and a bottom frame base plate 53 arranged on the middle support frame 52, locking supports 54 are arranged between the top support 51 and the middle support frame 52, two sides of the bottom frame base plate 53 are respectively provided with a working end 55, the working ends 55 comprise a mounting lifting frame 56 and a working frame 57 arranged on the lifting frame 56, and spreading pouring rollers 59 and flattening pouring rollers 58 are respectively arranged on the working frames 57 on the two sides.

The spreading pouring roller 59 comprises a first roller body 61 and a plurality of roller surface ribs 62 arranged on the roller surface of the roller body 61, and the flattening pouring roller 58 comprises a second roller body 63 and an outer pressing roller sleeve 64 arranged on the roller surface of the second roller body 63.

For the concrete implementation structure of the spreading support 21 for spreading, the top support 51 is a mounting frame of a main body, the middle support frame 52 is an equipment structure, two sides of the base plate 53 of the bottom support are provided with working ends 55, as an example, a mechanism arrangement mode of the spreading support 21 is given in the figure, and two sides of the embodiment are respectively provided with a spreading pouring roller 59 and a flattening pouring roller 58. When the concrete materials are output, the concrete materials pass through the position of the spreading pouring roller 59, a plurality of roller surface ribs 62 are arranged on the roller surface of the spreading pouring roller 59, the roller surface ribs 62 form a downward pressing extrusion effect on the concrete, the piled concrete materials are pressed into a plurality of piles of equal amounts of materials, the piles of the concrete materials pass through the flattening pouring roller 58, the flattening pouring roller 58 performs further pressing treatment on the concrete materials, the equal amounts of the piles of the materials are pressed into a flat pressing surface, and the concrete materials are uniformly spread and poured, so that the pouring effect is ensured.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. The concrete pouring equipment for the construction of the reinforced concrete main body comprises an equipment frame, a material box arranged on the equipment frame and a material guide frame arranged on the equipment frame; it is characterized in that the method comprises the steps of,

the output end of the material box is butted with a material guide frame, the material guide frame is obliquely arranged, a flow guide frame plate is arranged at the bottom of the frame body of the material guide frame, and the flow guide frame plates are sequentially connected end to end;

the bottom of the equipment frame is provided with a plurality of supporting frames which are matched with the diversion frame plates one by one and are supported on the corresponding diversion frame plates through elastic supporting ends;

the tail end of the equipment frame is also provided with a spreading support, the spreading support is provided with a pressing support, and the pressing support is provided with a plurality of pressing devices.

2. The concrete placement equipment for reinforced concrete main body construction according to claim 1, wherein the output end of the material box is provided with a feeder, the material guide frame comprises a main frame groove body, an output end arranged at the bottom of the main frame groove body and an input end butted with the feeder, the bottom of the main frame groove body is provided with a mounting frame, a supporting frame is arranged in the mounting frame, and the guide frame is arranged on the supporting frame in a frame-supporting mode.

3. The concrete placement equipment for reinforced concrete body construction according to claim 2, wherein the diversion frame plate comprises a main base plate, connecting ends arranged at two ends of the main base plate, and buckling bolts installed between the connecting ends, wherein connecting bolts are arranged between the buckling bolts, and the axis of the connecting bolts is installed through a movable shaft.

4. A reinforced concrete body construction concrete pouring apparatus according to claim 3, wherein the upper ends of the connection ends are of an oblique angle slope structure and are provided with extension flexible plates, and the corresponding extension flexible plates are connected by corrugated flexible plates.

5. The concrete placement equipment for reinforced concrete body construction according to claim 4, wherein the supporting frame comprises a plurality of supporting points mounted on the frame of the equipment, supporting rods arranged on the supporting points, supporting blocks mounted on the ends of the supporting rods, the elastic supporting ends comprise inclined supporting bases mounted on the supporting blocks, side wing frame plates arranged on two sides of the inclined supporting bases, and supporting springs mounted on two sides of the side wing frame plates, the inclined supporting bases are mounted on the supporting blocks through swing bolts, and the supporting ends of the supporting springs are fixed on the bottoms of the corresponding main base plates through fixing blocks.

6. The concrete placement equipment for reinforced concrete body construction according to any one of claims 1 to 5, wherein the spreading support comprises a top support arranged at the tail end of the equipment frame, a middle support frame arranged on the top support, and a bottom frame base plate arranged on the middle support frame, locking supports are arranged between the top support and the middle support frame, two sides of the bottom frame base plate are provided with working ends, each working end comprises a mounting lifting frame and a working frame mounted on the lifting frame, and spreading placement rollers and flattening placement rollers are mounted on the working frames on the two sides respectively.

7. The concrete placement equipment for reinforced concrete body construction according to claim 6, wherein the spreading placement roll comprises a first roll body and a plurality of roll surface ribs arranged on the roll surface of the roll body, and the flattening placement roll comprises a second roll body and an outer pressing roll sleeve arranged on the roll surface of the second roll body.