CN113334578A

CN113334578A - Efficient concrete pouring machine

Info

Publication number: CN113334578A
Application number: CN202110675793.7A
Authority: CN
Inventors: 许亚峰; 施旭光; 杨东升; 陈光毅; 王勇; 谢福美
Original assignee: China Construction Fifth Engineering Bureau Co Ltd
Current assignee: China Construction Fifth Engineering Bureau Co Ltd
Priority date: 2021-06-18
Filing date: 2021-06-18
Publication date: 2021-09-03

Abstract

The invention relates to the technical field of pouring machines, in particular to a high-efficiency concrete pouring machine, which adopts the technical scheme that: including the box and through the fixed hopper that feeds through the setting of the fixed intercommunication in bottom middle part of pipe and box, still include: the automatic concrete pouring device comprises a reciprocating mechanism fixedly installed below a box body, wherein a guide pipe is fixedly installed in the reciprocating mechanism, the box body is fixedly installed on the reciprocating mechanism, rolling assemblies arranged at the bottom end of the reciprocating mechanism, position sensors symmetrically and fixedly installed in two ends of the upper portion of the box body, and a controller fixedly installed on the reciprocating mechanism.

Description

Efficient concrete pouring machine

Technical Field

The invention relates to the technical field of pouring machines, in particular to a high-efficiency concrete pouring machine.

Background

Along with the development of economy in China, the living quality of people becomes better and better, the population is increased continuously, the housing problem becomes more and more serious, the high-rise building rises continuously, and a pouring machine is required to be used for concrete pouring in the building construction process of the high-rise building.

Current casting machine can't be with the even pouring of muddy earth in the hole when carrying out muddy earth and pouring, needs the manual work to mix even the spreading out of earth in the hole, wastes time and energy, and pours inefficiency.

Therefore, the invention is necessary to develop an efficient concrete pouring machine.

Disclosure of Invention

Therefore, the invention provides a high-efficiency concrete pouring machine, which drives a discharge hopper to be uniformly poured in a pit through a reciprocating mechanism, simultaneously, a position sensor is arranged to detect the position of the discharge hopper in real time so as to intermittently start a rolling mechanism to intermittently roll so as to realize the discharge hopper, a box body and the reciprocating mechanism to move the pouring position, so that the concrete is automatically and uniformly poured in an S-shaped pouring route, the problem that the concrete cannot be uniformly poured in the pit manually and the concrete cannot be uniformly spread in the pit when the concrete is poured by the existing pouring machine is solved, the problems that the concrete cannot be uniformly poured in the pit manually, the time and the labor are wasted, and the pouring efficiency is low.

In order to achieve the above purpose, the invention provides the following technical scheme: the utility model provides a high-efficient earth pouring machine that mixes, includes the box and through the fixed hopper that feeds through the setting of the fixed bottom middle part of pipe and box, still includes:

the reciprocating mechanism is fixedly arranged below the box body and used for driving the discharge hopper to reciprocate so as to realize uniform concrete pouring, a guide pipe is fixedly arranged in the reciprocating mechanism, and the box body is fixedly arranged on the reciprocating mechanism;

the rolling component is arranged at the bottom end of the reciprocating mechanism and is used for intermittently driving the box body and the reciprocating mechanism to move;

position sensors symmetrically and fixedly arranged in two ends of the upper part of the box body and used for detecting the position of the hopper; and

and the controller is fixedly arranged on the reciprocating mechanism and used for receiving signals of the position sensor and controlling the reciprocating mechanism and the rolling assembly to operate.

Preferably, the reciprocating mechanism comprises a supporting body and a sliding block, screw rods are symmetrically meshed with two sides of the sliding block and are symmetrically and rotatably installed in two sides of the supporting body, rolling assemblies are arranged on the bottom end of the supporting body, first chain wheels are fixedly installed at one ends of the screw rods, and the first chain wheels are connected with driving assemblies in a transmission fit mode through first chains.

Preferably, the driving assembly includes a second sprocket and a motor, the second sprocket is connected with the first sprocket through a first chain in a transmission fit manner, the second sprocket is fixedly mounted on a first rotating shaft, the first rotating shaft is rotatably mounted in one end, close to the first sprocket, of the upper portion of the supporting body, one end, far away from the sliding block, of the first rotating shaft is connected with the motor in a transmission manner, the motor performs periodic forward and reverse rotation, the motor is fixedly mounted on the supporting body, and the motor is electrically connected with the controller.

Preferably, the rolling component comprises a second rotating shaft and rollers, the second rotating shaft is symmetrically and rotatably installed in two sides of the lower portion of the supporting body, the second rotating shaft is arranged in parallel with the screw rod, the rollers are symmetrically and fixedly installed at two ends of the second rotating shaft, a third chain wheel is fixedly installed at one end of the second rotating shaft, and the third chain wheel is connected with the power component through a second chain in a transmission matching mode.

Preferably, power component includes third pivot and second motor, the third pivot is rotated and is installed in the lower part of supporter is close to the one end of third sprocket, fixed mounting has the fourth sprocket on the supporter, the fourth sprocket passes through the second chain and is connected with the third sprocket transmission cooperation that both sides set up, the second motor is connected in the one end transmission that the slider was kept away from in the third pivot, second motor fixed mounting is on the supporter, second motor and controller electric connection.

Preferably, the position sensors are symmetrically and fixedly installed in two ends of the upper portion of the supporting body, the controller is fixedly installed on one side of the top end of the supporting body, the controller is electrically connected with the discharge hopper, and the box body is fixedly installed above the sliding block.

Preferably, the pipe is the metal material, be provided with the stirring subassembly in the box, be provided with the valve member on the bottom of stirring subassembly, the bottom of valve member slides and sets up in the discharge gate, the discharge gate intercommunication sets up in the bottom middle part of box, the discharge gate is with the fixed intercommunication of pipe.

Preferably, the stirring subassembly includes the stirring board, stirring board equipartition symmetry fixed mounting is on the both sides of fourth pivot, the top of fourth pivot is rotated and is installed in the top of box, the top transmission of fourth pivot is connected with the third motor, third motor fixed mounting is on the box, third motor and controller electric connection.

Preferably, two groups of stirring plates arranged at the bottom end of the fourth rotating shaft are fixedly connected with the valve component.

Preferably, the valve member includes spherical sprue and concave piece, the concave piece is equipped with two sets ofly altogether, concave piece difference fixed mounting is on two sets of stirring boards that fourth pivot bottom set up, concave piece fixed mounting is on one side that the fourth pivot is close to the stirring board bottom, fixed mounting has the slide bar in the bottom of concave piece, the slide bar slides on being close to the one end of fourth pivot and is provided with the U-shaped piece, the connecting rod is installed to the bottom internal rotation of U-shaped piece, the bottom of connecting rod is rotated and is installed in spherical sprue, the lower part of spherical sprue slides and sets up in the discharge gate.

The invention has the beneficial effects that:

1. according to the invention, the reciprocating mechanism drives the discharging hopper to be uniformly cast in the pit, and the position sensor is arranged to detect the position of the discharging hopper in real time so as to intermittently start the rolling mechanism to intermittently roll to realize the discharging hopper, the box body and the reciprocating mechanism to move the casting position, so that the casting route is S-shaped, concrete is automatically and uniformly cast, the concrete is prevented from being uniformly spread in the pit manually, and the casting efficiency is high;

2. according to the invention, the stirring mechanism is arranged in the box body, so that the concrete in the box body can be stirred, the fluidity of the concrete is increased, the downward sliding is smoother in the concrete pouring process, and the concrete is prevented from being solidified in the box body;

3. the valve component is controlled by the stirring mechanism, when pouring is carried out, the stirring mechanism stirs concrete to drive the valve component to slide out of the discharging port, when pouring is not needed, the stirring mechanism stops stirring, and the valve component slides into the discharging port under the action of gravity to block the discharging port.

Drawings

FIG. 1 is a structural diagram of a casting machine according to the present invention;

FIG. 2 is a schematic view of the structure A-A of FIG. 1 according to the present invention;

FIG. 3 is a view of the structure B-B of FIG. 1 according to the present invention;

FIG. 4 is an enlarged view of area C of FIG. 3 in accordance with the present invention;

FIG. 5 is an enlarged view of area D of FIG. 1 in accordance with the present invention;

fig. 6 is a structural view of the support body according to the present invention.

In the figure: 1-box, 2-conduit, 3-discharge hopper, 4-reciprocating mechanism, 41-support, 42-slide block, 43-screw rod, 44-first chain wheel, 45-second chain wheel, 46-motor, 47-first rotating shaft, 48-first chain, 5-position sensor, 6-rolling component, 61-second rotating shaft, 62-roller, 63-third chain wheel, 64-second chain, 65-fourth chain wheel, 66-third rotating shaft, 67-second motor, 7-controller, 8-stirring component, 81-stirring plate, 82-fourth rotating shaft, 83-third motor, 9-valve component, 91-spherical block, 92-connecting rod, 93-U-shaped block, 94-sliding rod, 95-concave block, 10-discharge port.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Referring to the attached drawings 1-6, the invention provides a high-efficiency concrete pouring machine, which comprises a box body 1 and a discharge hopper 3 fixedly communicated with the middle part of the bottom end of the box body 1 through a guide pipe 2, and further comprises:

the reciprocating mechanism 4 is fixedly arranged below the box body 1 and used for driving the discharge hopper 3 to reciprocate so as to realize uniform concrete pouring, the guide pipe 2 is fixedly arranged in the reciprocating mechanism 4, and the box body 1 is fixedly arranged on the reciprocating mechanism 4;

the rolling component 6 is arranged at the bottom end of the reciprocating mechanism 4 and is used for intermittently driving the box body 1 and the reciprocating mechanism 4 to move;

the position sensors 5 are symmetrically and fixedly arranged in the two ends of the upper part of the box body 1 and are used for detecting the position of the discharge hopper 3; and

a controller 7 fixedly installed on the reciprocating mechanism 4 for receiving a signal of the position sensor 5 and controlling the operation of the reciprocating mechanism 4 and the rolling assembly 6.

Further, the reciprocating mechanism 4 includes a supporting body 41 and a sliding block 42, two sides of the sliding block 42 are symmetrically engaged with each other to form a screw rod 43, the screw rods 43 are symmetrically and rotatably installed in two sides of the supporting body 41, the bottom end of the supporting body 41 is provided with a rolling component 6, one end of each screw rod 43 is fixedly provided with a first chain wheel 44, the first chain wheels 44 are respectively connected with a driving component (not labeled in the figure) through a first chain 48 in a transmission fit manner, specifically, the driving component can drive the first chain wheels 44 to periodically rotate forward and backward through the first chain 48, namely, the periodic forward and backward rotation of the screw rods 43 can be realized, and the reciprocating motion of the sliding block 42, the box body 1 and the discharge hopper 3 in the horizontal direction can be realized.

Further, the driving assembly comprises a second chain wheel 45 and a motor 46, the second chain wheel 45 is connected with the first chain wheel 44 through a first chain 48 in a transmission fit mode, the second chain wheel 45 is fixedly installed on a first rotating shaft 47, the first rotating shaft 47 is rotatably installed in one end, close to the first chain wheel 44, of the upper portion of the supporting body 41, one end, far away from the sliding block 42, of the first rotating shaft 47 is in transmission connection with the motor 46, the motor 46 does periodic forward and reverse rotation movement, the motor 46 is fixedly installed on the supporting body 41, and the motor 46 is electrically connected with the controller 7.

Further, the rolling assembly 6 comprises a second rotating shaft 61 and a roller 62, the second rotating shaft 61 is symmetrically and rotatably installed in two sides of the lower portion of the supporting body 41, the second rotating shaft 61 and the screw rod 43 are arranged in parallel, the roller 62 is symmetrically and fixedly installed at two ends of the second rotating shaft 61, a third chain wheel 63 is fixedly installed at one end of the second rotating shaft 61, the third chain wheel 63 is connected with a power assembly (not marked in the figure) through a second chain 64 in a transmission fit mode, specifically, the power assembly can work intermittently, the power assembly can drive the third chain wheel 63 to rotate through the second chain 64 when rotating, the third chain wheel 63 can be realized, the second rotating shaft 61 and the roller 62 can rotate, the box body 1 can be realized, and the supporting body 41 and the discharge hopper 3 can move by one end distance.

Further, the power assembly comprises a third rotating shaft 66 and a second motor 67, the third rotating shaft 66 is rotatably installed in one end, close to the third chain wheel 63, of the lower portion of the supporting body 41, a fourth chain wheel 65 is fixedly installed on the supporting body 41, the fourth chain wheel 65 is in transmission fit connection with the third chain wheels 63 arranged on two sides through a second chain 64, one end, far away from the sliding block 42, of the third rotating shaft 66 is in transmission connection with the second motor 67, the second motor 67 is fixedly installed on the supporting body 41, and the second motor 67 is electrically connected with the controller 7.

Furthermore, the position sensors 5 are symmetrically and fixedly installed in the two ends of the upper portion of the supporting body 41, the controller 7 is fixedly installed on one side of the top end of the supporting body 41, the controller 7 is electrically connected with the discharging hopper 3, and the box body 1 is fixedly installed above the sliding block 42.

Further, pipe 2 is the metal material, is provided with stirring subassembly 8 in the box 1, is provided with valve member 9 on stirring subassembly 8's the bottom, and valve member 9's bottom slides and sets up in discharge gate 10, and discharge gate 10 intercommunication sets up in the bottom middle part of box 1, and discharge gate 10 and the fixed intercommunication of pipe 2, and is specific, and pipe 2 can make out hopper 3 when pouring the rigidity of hopper 3 for the metal material.

Further, stirring subassembly 8 includes stirring board 81, stirring board 81 equipartition symmetry fixed mounting is on the both sides of fourth pivot 82, the top of fourth pivot 82 is rotated and is installed in the top of box 1, the top transmission of fourth pivot 82 is connected with third motor 83, third motor 83 fixed mounting is on box 1, third motor 83 and 7 electric connection of controller, it is concrete, third motor 83 rotates and to drive fourth pivot 82 and stirring board 81 and rotate, stirring board 81 rotates and to stir the muddy earth in the box 1, increase muddy earth's mobility, it is more smooth and easy to make muddy earth pour the in-process lapse, avoid muddy earth to solidify in box 1.

Furthermore, two groups of stirring plates 81 arranged on the bottom end of the fourth rotating shaft 82 are fixedly connected with the valve assembly 9.

Further, the valve assembly 9 includes a spherical block 91 and a concave block 95, the concave blocks 95 are provided with two sets, the concave blocks 95 are respectively fixedly installed on two sets of stirring plates 81 arranged at the bottom end of the fourth rotating shaft 82, the concave block 95 is fixedly installed on one side of the bottom end of the stirring plate 81 close to the fourth rotating shaft 82, a sliding rod 94 is fixedly installed in the bottom end of the concave block 95, one end of the sliding rod 94 close to the fourth rotating shaft 82 is provided with a U-shaped block 93 in a sliding manner, a connecting rod 92 is rotatably installed at the bottom end of the U-shaped block 93, the bottom end of the connecting rod 92 is rotatably installed in the spherical block 91, the lower part of the spherical block 91 is slidably arranged in the discharge port 10, specifically, due to the high-speed rotation of the third motor 83, even if the U-shaped block 93 slides to one side far away from the fourth rotating shaft 82 under the effect of centrifugal force, the U-shaped block 93 slides to drive the top end of the connecting rod 92 to slide, i.e. the bottom end of the connecting rod 92 rotates upwards, namely, the ball-shaped block 91 can be moved upward, and the discharge hole 10 can be opened.

The using process of the invention is as follows: when pouring, the third motor 83 and the motor 46 are started through the controller 7, the third motor 83 rotates at a high speed, that is, the stirring plate 81 and the fourth rotating shaft 82 rotate, the fourth rotating shaft 82 rotates to stir the concrete in the box body 1, the fluidity of the concrete is increased, the downward sliding in the concrete pouring process is smoother, the concrete is prevented from being solidified in the box body 1, due to the high-speed rotation of the third motor 83, that is, the U-shaped block 93 slides to one side far away from the fourth rotating shaft 82 under the action of centrifugal force, the sliding of the U-shaped block 93 drives the top end of the connecting rod 92 to slide, that is, the bottom end of the connecting rod 92 rotates upwards, that is, the spherical block 91 can move upwards, that is, the discharge port 10 can be in an opening state, the concrete in the box body 1 is poured through the guide pipe 2 and the discharge hopper 3, the motor 46 rotates to do periodic forward and reverse rotation, that is, that the first rotating shaft 47 and the second chain wheel 45 rotate, the second chain wheel 45 rotates to drive the first chain wheel 44 to rotate through the first chain 48, the first chain wheel 44 rotates, namely the screw rod 43 does periodic positive and negative rotation movement, the screw rod 43 rotates to be meshed with the slide block 42, the box body 1, the conduit 2 and the discharge hopper 3 can reciprocate in the horizontal direction, namely concrete pouring can be more uniform, meanwhile, when the slide block 42 moves to the end of the supporting body 41, the position sensor 5 detects that the distance between the slide block 42 and the position sensor 5 reaches a preset distance, namely the distance between the discharge hopper 3 and the position sensor 5 is detected, after the position sensor 5 detects the distance of the discharge hopper 3, information is transmitted to the controller 7 through an electric signal, the controller 7 starts the second motor 67, the second motor 67 rotates the third rotating shaft 66 and the fourth chain wheel 65 to rotate, the fourth chain wheel 65 rotates to drive the third chain wheel 63 to rotate through the second chain 64, third sprocket 63 rotates and second pivot 61 and gyro wheel 62 rotate promptly, realizes that gyro wheel 62 rolls promptly, and gyro wheel 62 rolls can make supporter 41, box 1 and play hopper 3 remove, and when position sensor 5 detected position sensor 5 and the distance of going out hopper 3 and exceeded the default, controller 7 closed second motor 67, can realize out hopper 3' S pouring route and be the S-shaped, can make out hopper 3 pour more even.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solution described above. Therefore, any simple modifications or equivalent substitutions made in accordance with the technical solution of the present invention are within the scope of the claims of the present invention.

Claims

1. The utility model provides a high-efficient muddy earth pouring machine, includes box (1) and through fixed hopper (3) that feed through set up with the fixed intercommunication in bottom middle part of box (1) of pipe (2), its characterized in that still includes:

the reciprocating mechanism (4) is fixedly arranged below the box body (1) and used for driving the discharge hopper (3) to reciprocate so as to realize uniform concrete pouring, a guide pipe (2) is fixedly arranged in the reciprocating mechanism (4), and the box body (1) is fixedly arranged on the reciprocating mechanism (4);

the rolling component (6) is arranged at the bottom end of the reciprocating mechanism (4) and is used for intermittently driving the box body (1) and the reciprocating mechanism (4) to move;

position sensors (5) symmetrically and fixedly arranged in two ends of the upper part of the box body (1) and used for detecting the position of the discharge hopper (3); and

and the controller (7) is fixedly arranged on the reciprocating mechanism (4) and is used for receiving signals of the position sensor (5) and controlling the reciprocating mechanism (4) and the rolling assembly (6) to operate.

2. The efficient concrete pouring machine of claim 1, wherein: the pipe (2) is made of metal, a stirring assembly (8) is arranged in the box body (1), a valve assembly (9) is arranged at the bottom end of the stirring assembly (8), the bottom end of the valve assembly (9) is arranged in the discharge port (10) in a sliding mode, the discharge port (10) is communicated with the middle of the bottom end of the box body (1), and the discharge port (10) is fixedly communicated with the pipe (2).

3. The efficient concrete pouring machine of claim 1, wherein: reciprocating mechanism (4) are including supporter (41) and slider (42), the bilateral symmetry meshing of slider (42) is provided with lead screw (43), lead screw (43) symmetry rotation is installed in the both sides of supporter (41), set up rolling assembly (6) on the bottom of supporter (41), the equal fixed mounting first sprocket (44) of one end of lead screw (43), first sprocket (44) all are connected with drive assembly through first chain (48) transmission fit.

4. The efficient concrete casting machine of claim 2, wherein: stirring subassembly (8) are including stirring board (81), stirring board (81) equipartition symmetry fixed mounting is on the both sides of fourth pivot (82), the top of fourth pivot (82) is rotated and is installed in the top of box (1), the top transmission of fourth pivot (82) is connected with third motor (83), third motor (83) fixed mounting is on box (1), third motor (83) and controller (7) electric connection.

5. The efficient concrete casting machine of claim 3, wherein: drive assembly includes second sprocket (45) and motor (46), second sprocket (45) are connected through first chain (48) and the equal transmission fit of first sprocket (44), second sprocket (45) fixed mounting is on first pivot (47), first pivot (47) rotate to be installed in the one end that the upper portion of supporter (41) is close to first sprocket (44), the one end transmission of slider (42) is kept away from in first pivot (47) is connected motor (46), periodic positive reverse rotation motion is done to motor (46), motor (46) fixed mounting is on supporter (41), motor (46) and controller (7) electric connection.

6. The efficient concrete casting machine of claim 3, wherein: roll subassembly (6) including second pivot (61) and gyro wheel (62), second pivot (61) symmetry is rotated and is installed in the lower part both sides of supporter (41), second pivot (61) and lead screw (43) parallel arrangement, the equal symmetry fixed mounting gyro wheel (62) in both ends of second pivot (61), the equal fixed mounting third sprocket (63) of one end of second pivot (61), third sprocket (63) all are connected with power component through second chain (64) transmission fit.

7. The efficient concrete casting machine of claim 3, wherein: the automatic feeding device is characterized in that position sensors (5) are symmetrically and fixedly mounted in two ends of the upper portion of the supporting body (41), a controller (7) is fixedly mounted on one side of the top end of the supporting body (41), the controller (7) is electrically connected with the discharging hopper (3), and a box body (1) is fixedly mounted above the sliding block (42).

8. The efficient concrete casting machine of claim 4, wherein: two groups of stirring plates (81) arranged at the bottom end of the fourth rotating shaft (82) are fixedly connected with the valve component (9).

9. The efficient concrete casting machine of claim 6, wherein: the power assembly comprises a third rotating shaft (66) and a second motor (67), the third rotating shaft (66) is rotatably installed in one end, close to a third chain wheel (63), of the lower portion of the supporting body (41), a fourth chain wheel (65) is fixedly installed on the supporting body (41), the fourth chain wheel (65) is connected with the third chain wheel (63) arranged on two sides in a transmission matching mode through a second chain (64), one end, far away from the sliding block (42), of the third rotating shaft (66) is connected with the second motor (67), the second motor (67) is fixedly installed on the supporting body (41), and the second motor (67) is electrically connected with the controller (7).

10. The efficient concrete casting machine of claim 8, wherein: valve member (9) are including spherical sprue (91) and spill piece (95), spill piece (95) are equipped with two sets ofly altogether, spill piece (95) fixed mounting respectively is on two sets of stirring board (81) that fourth pivot (82) bottom set up, spill piece (95) fixed mounting is on one side that fourth pivot (82) are close to in stirring board (81) bottom, fixed mounting has slide bar (94) in the bottom of spill piece (95), slide bar (94) are provided with U-shaped piece (93) near sliding on the one end of fourth pivot (82), connecting rod (92) are installed to the bottom rotation of U-shaped piece (93), the bottom rotation of connecting rod (92) is installed in spherical sprue (91), the lower part slip setting of spherical sprue (91) is in discharge gate (10).