CN215859133U - Building engineering construction equipment - Google Patents

Abstract

The utility model relates to a construction device for building engineering; the automatic concrete pouring device comprises a moving assembly, a lifting assembly and a discharging assembly, wherein concrete is filled into a discharging box body from a feeding hole and is moved to a pouring place through the moving assembly, the discharging box body is driven to lift through a sliding block in the lifting assembly, when the discharging box body rises to the same height as a concrete pouring opening, a discharging opening is pushed into the pouring opening through a moving wheel, at the moment, the concrete in the discharging box body is conveyed into the pouring opening through the rotation of a first spiral conveying blade in the discharging assembly, the concrete in the discharging box body is centralized through an arc-shaped plate, the concrete in the discharging box body can be completely conveyed into the pouring opening through the first spiral conveying blade, in addition, the concrete at the bottom can be conveyed into a high-altitude discharging box body through a conveying structure, and when the concrete in the discharging box body is poured, the bottom does not need to be lowered to be filled into the concrete again, and the transport structures are detachably connected together.

Description

Building engineering construction equipment

Technical Field

The utility model particularly relates to a construction device for constructional engineering.

Background

Concrete is one of the most important materials in modern construction work, and the process of pouring concrete into a mold is used in concrete pouring.

Due to the rapid development of the society and the rapid development of the building industry, when a building is built in the building industry, a frame of the building must be built firstly, after the frame is fixed, concrete is poured into the frame, the frame can be connected with the frame by pouring the concrete for the first time, the building frame can be firmer, after the frame is firm, the frame begins to be poured for the second time for each floor frame in the building frame, the inside and the outside of the building can be covered by the concrete, and the building can be firmer and more stable.

Because the space between every floor is little, large-scale pouring equipment can not enter the district, can only pour through artificial, need consume a large amount of time and physical power, carry out the secondary and pour to it is slow to pour the progress.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a construction device for building engineering, which can replace manual pouring.

In order to accomplish the above object, the present invention provides a construction apparatus for construction works; the automatic feeding device comprises a moving assembly, a lifting assembly and a blanking assembly;

the moving assembly is provided with a fixed plate and moving wheels, and the moving wheels are arranged below the fixed plate;

the lifting component is arranged on the fixed plate, the lifting component is a group of relatively opposite lifting components arranged on the fixed plate, the lifting component is provided with a fixed frame, a lead screw, a slide rod, a slide block and a lifting motor, the fixed frame is arranged on the fixed plate, the lead screw is arranged in the fixed frame, the slide rod is arranged in the fixed frame, the slide block is arranged on the lead screw and the slide rod, the lifting motor is arranged at the upper end of the fixed frame, the lifting motor is connected with the lead screw,

the blanking assembly is arranged on the sliding block and provided with a blanking box body, a feed inlet, an arc-shaped plate, a rotating motor, a rotating shaft rod, a first spiral conveying blade and a discharge port, the blanking box body is arranged between the sliding blocks, the feed inlet is arranged at the upper end of the blanking box body, the arc-shaped plate is arranged at the bottom of the blanking box body, the rotating shaft rod is arranged above the arc-shaped plate in the blanking box body, the rotating motor is fixed at one side of the blanking box body and connected with one end of the rotating shaft rod, the first spiral conveying blade is arranged on the rotating shaft rod, and the discharge port is arranged at the other side of the blanking box body.

In the specific use process, firstly, concrete is loaded into the blanking box body from the feeding hole and is moved to a pouring place through the movable wheel below the fixed plate, at the moment, the lifting motor is started to drive the screw rod to rotate, so that the sliding block is lifted on the screw rod and the sliding rod, the blanking box body is driven to lift through the lifting of the sliding block, when the blanking box body rises to the same height of a concrete pouring opening, the discharging opening is pushed into the pouring opening through the movable wheel, at this time, the rotating motor is started to drive the rotating shaft lever to rotate, the first spiral conveying blades are sequentially rotated on the rotating shaft lever, the concrete in the blanking box body is conveyed into the pouring opening through the rotation of the first spiral conveying blade, concrete in the blanking box body is centralized together by arranging the arc-shaped plates, so that the first spiral conveying blades can convey all the concrete in the blanking box body into a pouring opening.

A preferred scheme is, still include transport structure, transport structure sets up on the fixed plate, transport structure includes material loading subassembly, material loading box and material loading mouth, the material loading box is fixed on the fixed plate, the inside cavity that is of material loading box, material loading subassembly sets up in the material loading box, the material loading mouth sets up the upper end at the material loading box, can be down the internal transport concrete of workbin through transport structure's setting.

According to a preferable scheme, the feeding assembly is provided with a first feeding pipe, a second feeding pipe, a first connecting rod, a second spiral conveying blade, a first driving motor and a second driving motor, the first feeding pipe is arranged at the upper end of a feeding hole in the blanking box body, the first connecting rod is arranged in the first feeding pipe, the first driving motor is connected with one end of the first connecting rod, the second feeding pipe is detachably connected with one end of the first feeding pipe through a fixing piece, the second connecting rod is arranged in the second feeding pipe, the second driving motor is connected with one end of the second connecting rod, and the second spiral conveying blade is arranged on the first connecting rod and the second connecting rod respectively. The bottom concrete is conveyed into the blanking box body through the feeding assembly, the blanking box body does not need to be descended to the bottom, and the concrete is conveyed to the blanking box body through the feeding assembly in the high altitude.

One preferred scheme is that the mounting sets up in one of second material loading pipe, the mounting has first connecting plate and second connecting plate, first connecting plate and second connecting plate all include fixed axostylus axostyle, crooked board and ear, fixed axostylus axostyle sets up on one side of first connecting plate, and the one end of crooked board articulates on fixed axostylus axostyle, the other end of crooked board is provided with the ear, be provided with the screw hole on the ear, the screw hole passes through bolt detachable and connects first connecting plate and second connecting plate together. The second feeding pipe is detachably connected with the first connecting pipe through the fixing piece.

One preferable scheme is that adjacent ends of the second feeding pipes are connected together through a clamping assembly, adjacent ends of the second connecting rods are connected together through a fastening piece, and the second spiral conveying blades are arranged on the second connecting rods. The second feeding pipes and the second connecting rods are detachably connected together through the clamping assembly and the screwing piece.

One preferred scheme is, the block subassembly has solid fixed ring and elastic connection portion, gu fixed ring sets up and serves at adjacent second feeding pipe of connecting, gu fixed ring has and holds the cell body, the both sides that hold the cell body have breach department, elastic connection portion sets up on adjacent second feeding pipe other end of connecting, is provided with the connection cylinder on the elastic connection portion, the adjacent other end of second feeding pipe with hold the cell body cooperation, connect cylinder and breach department cooperation.

One preferred scheme is, the piece of screwing has the hole of screwing and the post of screwing, the hole setting of screwing is served at the second connecting rod of adjacent connection, the inner in hole of screwing is provided with the screw thread, the post of screwing sets up on the other end of the second connecting rod of adjacent connection, the outer end of the post of screwing is provided with the screw thread, the hole of screwing with the post cooperation of screwing.

According to a preferable scheme, the two ends of the first feeding pipe are provided with a second opening and a blanking opening, the upper end and the tail end of the second feeding pipe are provided with a third opening and a fourth opening, the blanking opening is arranged above the feeding hole, the first feeding pipe and the second feeding pipe are connected together through a clamping assembly, the second opening is communicated with the third opening, and the tail end of the second feeding pipe is arranged in the feeding box body so that the fourth opening is communicated with the feeding box body. So that the concrete can smoothly enter the blanking box body.

According to a preferable scheme, two ends of the first feeding pipe are of a closed structure, and the upper end of the second feeding pipe is of a closed structure.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of a construction apparatus for construction work of the present invention;

fig. 2 is a schematic structural view of the constructional engineering construction device of the present invention;

FIG. 3 is a schematic structural view of the present invention in a blanking box of a construction apparatus for construction work;

fig. 4 is a schematic structural view of the constructional engineering construction device of the present invention;

FIG. 5 is a schematic structural view of the construction apparatus for construction of construction works according to the present invention in a first loading pipe;

FIG. 6 is a schematic structural view of the construction apparatus for construction of construction engineering according to the present invention in a second loading pipe;

fig. 7 is a schematic structural view of the constructional engineering construction device of the present invention;

FIG. 8 is an enlarged view of region A in FIG. 7;

FIG. 9 is an enlarged schematic view of region B in FIG. 4;

FIG. 10 is a schematic structural view of a construction work implement clamping assembly of the present invention;

FIG. 11 is an enlarged view of region C of FIG. 10;

FIG. 12 is a schematic structural view of a snap-fit assembly of the construction device of the present invention;

FIG. 13 is a schematic view of the construction work implement tightening member of the present invention;

fig. 14 is a partial structural view of the constructional engineering construction device of the present invention;

fig. 15 is a partial structural view of the constructional engineering construction device of the present invention;

fig. 16 is a partial structural view of the constructional engineering construction device of the utility model;

fig. 17 is a partial structural view of the constructional engineering construction device of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the drawings in the embodiments of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

A first embodiment;

as shown in fig. 1 to 3, the present invention provides a construction apparatus for construction works; comprises a moving component 10, a lifting component 20 and a blanking component 30;

the moving assembly 10 has a fixed plate 11 and moving wheels 12, and a plurality of the moving wheels 12 are disposed below the fixed plate 11;

lifting unit 20 sets up on fixed plate 11, lifting unit 20 sets up on fixed plate 11 for a set of relative opposition, lifting unit 20 has fixed frame 21, lead screw 22, slide bar 23, sliding block 24 and elevator motor 25, fixed frame 21 sets up on fixed plate 11, lead screw 22 sets up in fixed frame 21, sliding block 23 sets up in fixed frame 21, sliding block 24 sets up on lead screw 22 and slide bar 23, elevator motor 25 sets up the upper end at fixed frame 21, elevator motor 25 is connected with lead screw 22,

the blanking assembly 30 is arranged between the lifting assemblies 20 which are oppositely arranged, the blanking assembly 30 is provided with a blanking box body 31, a feeding hole 32, an arc-shaped plate 33, a rotating motor 34, a rotating shaft rod 35, a first spiral conveying blade 36 and a discharging hole 37, the blanking box body 31 is arranged between the sliding blocks 24 which are oppositely arranged, the feeding hole 32 is arranged at the upper end of the blanking box body 31, the arc-shaped plate 33 is arranged at the bottom of the blanking box body 31, the rotating shaft rod 35 is arranged above the arc-shaped plate 33 in the blanking box body 31, the rotating motor 34 is fixed at one side of the blanking box body 31, the rotating motor 34 is connected with one end of the rotating shaft rod 35, the first spiral conveying blade 36 is arranged on the rotating shaft rod 35, and the discharging hole 37 is arranged at the other side of the blanking box body 31.

In the specific use process, firstly, concrete is loaded into the blanking box body 31 from the feeding hole 32, the concrete moves to a pouring place through the moving wheel 12 below the fixed plate 11, at this time, the lifting motor 25 is started to drive the screw rod 22 to rotate, so that the sliding block 24 is lifted on the screw rod 22 and the sliding rod 23, the blanking box body 31 is driven to lift through the lifting of the sliding block 24, when the blanking box body 31 is lifted to the same height of a concrete pouring opening, the discharging hole 37 is pushed into the pouring opening through the moving wheel 12, at this time, the rotating motor 34 is started to drive the rotating shaft lever 35 to rotate, the first spiral conveying blades 36 are sequentially rotated on the rotating shaft lever 35, the concrete in the blanking box body 31 is conveyed into the pouring opening through the discharging hole 37 through the rotation of the first spiral conveying blades 36, the concrete in the blanking box body 31 is concentrated through the arrangement of the arc-shaped plate 33, the first conveying screw 36 can convey the whole concrete in the blanking box 31 into the pouring opening.

A second embodiment;

as shown in fig. 4 to 17, the conveying device further includes a conveying structure 40, the conveying structure 40 is disposed on the fixing plate 11, the conveying structure 40 includes a feeding assembly 50, a feeding box body 41 and a feeding opening 42, the feeding box body 41 is fixed on the fixing plate 11, a cavity is formed inside the feeding box body 41, the feeding assembly 50 is disposed in the feeding box body 41, the feeding opening 42 is disposed at an upper end of the feeding box body 41,

the feeding assembly 50 is provided with a first feeding pipe 51, a second feeding pipe 52, a first connecting rod 53, a second connecting rod 54, a second spiral conveying blade 55, a first driving motor 56 and a second driving motor 57, wherein the first feeding pipe 51 is arranged at the upper end of the blanking box body 31, the first connecting rod 53 is arranged in the first feeding pipe 51, the first driving motor 56 is connected with one end of the first connecting rod 53, the second feeding pipe 52 is detachably connected with one end of the first feeding pipe 51 through a fixing member 60, the second connecting rod 54 is arranged in the second feeding pipe 52, the second driving motor 57 is connected with one end of the second connecting rod 54, and the second spiral conveying blade 55 is respectively arranged on the first connecting rod 53 and the second connecting rod 54.

The fixing piece 60 is arranged at one end of the second feeding pipe 52, the fixing piece 60 is provided with a first connecting plate 61 and a second connecting plate 62, the first connecting plate 61 and the second connecting plate 62 respectively comprise a fixing shaft rod 63, a bending plate 64 and an ear 65, the fixing shaft rod 63 is arranged on one side of the first connecting plate 61, one end of the bending plate 64 is hinged to the fixing shaft rod 63, the other end of the bending plate 64 is provided with the ear 65, the ear 65 is provided with a threaded hole, and the threaded hole connects the first connecting plate 61 and the second connecting plate 62 together through a bolt in a detachable mode.

The adjacent ends of the second feeding pipes 52 are connected together through a clamping assembly 70, the adjacent ends of the second connecting rods 54 are connected together through a tightening member 80, the second spiral conveying blades 55 are respectively arranged on the second connecting rods 54, and the second feeding pipes 52 and the second connecting rods 54 are respectively detachably connected together through the clamping assembly 70 and the tightening member 80.

The clamping assembly 70 is provided with a fixing ring 71 and an elastic connecting portion 75, the fixing ring 71 is arranged at one end of the second feeding pipe 52 which is adjacently connected, the fixing ring 71 is provided with an accommodating groove body 72, the two sides of the accommodating groove body 72 are provided with notches 73, the elastic connecting portion 75 is arranged at the other end of the second feeding pipe 52 which is adjacently connected, a connecting column body 74 is arranged on the elastic connecting portion 75, the other end of the second feeding pipe 52 is matched with the accommodating groove body 72, and the connecting column body 74 is matched with the notches 73.

The tightening piece 80 is provided with a tightening hole 81 and a tightening post 82, the tightening hole 81 is arranged at one end of the second connecting rod 54 which is adjacently connected, the inner end of the tightening hole 81 is provided with a thread 83, the tightening post 82 is arranged at the other end of the second connecting rod 54 which is adjacently connected, the outer end of the tightening post 81 is provided with a thread 83, and the tightening hole 81 is matched with the tightening post 82.

The two ends of the first feeding pipe 51 are provided with a second opening 91 and a lower opening 92, the upper end and the tail end of the second feeding pipe 52 are provided with a third opening 93 and a fourth opening 94, the lower opening 92 is arranged above the feeding hole 32, the first feeding pipe 51 is connected with the second feeding pipe 52 through a fixing piece 60, so that the second opening 91 is communicated with the third opening 93, the tail end of the second feeding pipe 52 is arranged in the feeding box body 41, the fourth opening 94 is arranged at the tail end of the second feeding pipe 52, and the fourth opening 94 is communicated with the feeding box body 41.

The two ends of the first feeding pipe 51 are of a closed structure, and the upper end of the second feeding pipe 52 is of a closed structure.

The operation steps are that firstly, a first feeding pipe 51 is sleeved in a sleeve 98 at the upper end of a blanking box body 31, at the moment, a first connecting rod 53 and a second spiral conveying blade 55 are arranged in the first feeding pipe 53, at the moment, the first connecting plate 61 and a second connecting plate 62 at one end of a second feeding pipe 52 are connected together through bolts, the upper end of the second feeding pipe 52 is connected with one end of the first feeding pipe 51, at the moment, a second opening 91 on the first feeding pipe 51 is communicated with a third opening 93 at the upper end of the second feeding pipe 52, at the moment, a second connecting rod 54 is arranged in the second feeding pipe 52, the second spiral conveying blade 55 is arranged on a second connecting rod 54, a plurality of second connecting rods 54 are connected together through screws 80, a plurality of second feeding pipes 52 are connected together through a clamping assembly 70, and second spiral conveying blades 55 are arranged on the plurality of second connecting rods 54, the tail ends of the connected second feeding pipes 52 are placed in the feeding box body 41, at this time, a fourth opening 94 is arranged at the tail end of the second feeding pipe 52, the fourth opening 94 is communicated with the inside of the feeding box body 41, after the concrete in the feeding box body 31 is conveyed, the second driving motor 57 is started to drive the second connecting rod 54 to rotate, the second spiral conveying blades 55 are sequentially driven to rotate, the first driving motor 56 is started to drive the first connecting rod 53 to rotate, and then the second spiral conveying blades 55 are driven to rotate, at this time, the concrete is added into the feeding box body 41 through the feeding port 42, at this time, the concrete in the feeding box body 41 enters the second feeding pipe 52 through the fourth opening 94, and is conveyed to the third opening 93 at the upper end of the second feeding pipe 52 through the second spiral conveying blades 55 in the second feeding pipe 52, and then the concrete enters the second opening 91 from the third opening 93, enters the first feeding pipe 51 from the second opening 91, is conveyed to the discharging opening 92 through the second spiral conveying blade 55 on the first connecting rod 53, and enters the discharging box body 31 through the discharging opening 92.

In addition, the whole conveying structure 40 is convenient to disassemble and connect, so that concrete is not required to be added into the blanking box body 31 during pouring of the concrete through repeated lifting movement, the concrete is directly conveyed to a high place through the conveying structure 40, and a large amount of pouring time is saved.

The moving wheel 12 has a self-locking function.

It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims (9)

1. A building engineering construction device which is characterized in that: the method comprises the following steps:

a moving assembly having a fixed plate and moving wheels, the moving wheels being disposed below the fixed plate;

the lifting component is arranged on the fixed plate, the lifting component is a group of relatively opposite lifting components arranged on the fixed plate, the lifting component is provided with a fixed frame, a lead screw, a slide rod, a slide block and a lifting motor, the fixed frame is arranged on the fixed plate, the lead screw is arranged in the fixed frame, the slide rod is arranged in the fixed frame, the slide block is arranged on the lead screw and the slide rod, the lifting motor is arranged at the upper end of the fixed frame, the lifting motor is connected with the lead screw,

the blanking assembly is arranged on the sliding block, the blanking assembly is provided with a blanking box body, a feed inlet, an arc plate, a rotating motor, a rotating shaft rod, a first spiral conveying blade and a discharge port, the blanking box body is arranged between the sliding block, the feed inlet is arranged at the upper end of the blanking box body, the arc plate is arranged at the bottom in the blanking box body, the rotating shaft rod is arranged above the arc plate in the blanking box body, the rotating motor is fixed at one side of the blanking box body and connected with one end of the rotating shaft rod, the first spiral conveying blade is arranged on the rotating shaft rod, and the discharge port is arranged at the other side of the blanking box body.

2. The constructional engineering construction device of claim 1, further comprising a conveying structure, wherein the conveying structure is arranged on the fixing plate, the conveying structure comprises a feeding assembly, a feeding box body and a feeding opening, the feeding box body is fixed on the fixing plate, a cavity is formed inside the feeding box body, the feeding assembly is arranged in the feeding box body, and the feeding opening is arranged at the upper end of the feeding box body.

3. The constructional engineering construction device according to claim 2, wherein the feeding assembly is provided with a first feeding pipe, a second feeding pipe, a first connecting rod, a second spiral conveying blade, a first driving motor and a second driving motor, the first feeding pipe is arranged at the upper end of the feeding hole in the blanking box body, the first connecting rod is arranged in the first feeding pipe, the first driving motor is connected with one end of the first connecting rod, the second feeding pipe is detachably connected with one end of the first feeding pipe through a fixing member, the second connecting rod is arranged in the second feeding pipe, the second driving motor is connected with one end of the second connecting rod, and the second spiral conveying blade is respectively arranged on the first connecting rod and the second connecting rod.

4. The constructional engineering construction device of claim 3, wherein the fixing member is arranged at one end of the second feeding pipe, the fixing member is provided with a first connecting plate and a second connecting plate, the first connecting plate and the second connecting plate respectively comprise a fixing shaft rod, a bending plate and an ear part, the fixing shaft rod is arranged on one side of the first connecting plate, one end of the bending plate is hinged on the fixing shaft rod, the other end of the bending plate is provided with the ear part, the ear part is provided with a threaded hole, and the threaded hole detachably connects the first connecting plate and the second connecting plate together through a bolt.

5. The construction device according to claim 3, wherein adjacent ends of the plurality of second feeding pipes are connected together by a snap assembly, adjacent ends of the plurality of second connecting rods are connected together by a fastening member, and the plurality of second helical conveying blades are provided on the second connecting rods.

6. The constructional engineering construction device of claim 5, wherein the clamping assembly is provided with a fixing ring and an elastic connecting portion, the fixing ring is arranged at one end of the adjacent second feeding pipe, the fixing ring is provided with an accommodating groove body, notches are arranged at two sides of the accommodating groove body, the elastic connecting portion is arranged at the other end of the adjacent second feeding pipe, a connecting column body is arranged on the elastic connecting portion, the other end of the adjacent second feeding pipe is matched with the accommodating groove body, and the connecting column body is matched with the notches.

7. The constructional engineering construction device of claim 5, wherein the screwing member has a screwing hole and a screwing post, the screwing hole is provided on one end of the adjacently connected second connecting rod, the inner end of the screwing hole is provided with a thread, the screwing post is provided on the other end of the adjacently connected second connecting rod, the outer end of the screwing post is provided with a thread, and the screwing hole is matched with the screwing post.

8. The constructional engineering construction device of claim 3, wherein the first feeding pipe is provided with a second opening and a blanking port at two ends, the second feeding pipe is provided with a third opening and a fourth opening at the upper end and the tail end, the blanking port is arranged above the feeding port, the first feeding pipe and the second feeding pipe are connected together through a clamping assembly, so that the second opening is communicated with the third opening, and the tail end of the second feeding pipe is arranged in the feeding box body, so that the fourth opening is communicated with the feeding box body.

9. The constructional engineering construction device of claim 3, wherein both ends of the first feeding pipe are of a closed structure, and the upper end of the second feeding pipe is of a closed structure.

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