CN210031820U

CN210031820U - Concrete pouring device

Info

Publication number: CN210031820U
Application number: CN201920532953.0U
Authority: CN
Inventors: 王金鹏; 廖熊; 涂齐亮; 魏振豹; 万磊; 马宁
Original assignee: Third Engineering Co Ltd of China Railway 17th Bureau Group Co Ltd
Current assignee: Third Engineering Co Ltd of China Railway 17th Bureau Group Co Ltd
Priority date: 2019-04-18
Filing date: 2019-04-18
Publication date: 2020-02-07
Anticipated expiration: 2029-04-18

Abstract

The utility model provides a concrete placement device belongs to civil engineering technical field, and supporting mechanism, pouring mechanism and vibration mechanism, on pouring mechanism and vibration mechanism all located the supporting mechanism, the supporting mechanism still was used for the drive to pour the mechanism and carries out concrete placement to the operation region to and the concrete of drive vibration mechanism in to the operation region vibrates and the flattening. The pouring mechanism and the vibrating mechanism are integrated through the supporting mechanism, and the supporting mechanism is further used for providing a driving function for the pouring mechanism and the vibrating mechanism, so that the concrete pouring device can complete multiple functions of pouring, vibrating and leveling, the number of required erected equipment in the construction process is reduced, and the overall operation difficulty is reduced.

Description

Concrete pouring device

Technical Field

The utility model belongs to the technical field of civil engineering, more specifically say, relate to a concrete placement device.

Background

The zipper roads repeatedly excavated in cities in China and the aerial spider webs of street net type overhead lines are very common, which not only influence the traveling of citizens, but also seriously influence the city appearance environment, and in recent years, the frequent problems of events such as waterlogging, pipeline leakage explosion, road surface collapse and the like caused by heavy rain are widely concerned. In order to solve the problems, underground space is developed, and underground comprehensive pipe gallery construction is carried out to play an important role in meeting the basic demands of the civilian life and improving the comprehensive bearing capacity of the city.

However, in the construction engineering of the underground comprehensive pipe gallery, when the pouring device is used for pouring concrete, vibration leveling equipment needs to be additionally erected so as to vibrate and level the poured concrete, but the erection of the vibration leveling equipment easily leads to the increase of an operation field, and particularly in some narrow and small operation environments, the operation is difficult.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a concrete placement device aims at solving the utility tunnel and pours the construction and need additionally erect the vibration equipment of making level and easily lead to the operation place increase, leads to the problem of operation difficulty.

In order to achieve the above object, the utility model adopts the following technical scheme: providing a concrete placement device comprising: the concrete vibrating machine comprises a supporting mechanism, a pouring mechanism and a vibrating mechanism, wherein the pouring mechanism and the vibrating mechanism are arranged on the supporting mechanism, the supporting mechanism is further used for driving the pouring mechanism to carry out concrete pouring on an operation area, and driving the vibrating mechanism to vibrate and level concrete in the operation area.

In one embodiment, the supporting mechanism comprises a support, a slide way and a connecting piece, the support comprises a guide bearing support, a moving support and a sliding assembly, the moving support is connected with the guide bearing support in a sliding mode, the sliding assembly is arranged at the bottom of the guide bearing support to move the guide bearing support and the moving support, the slide way is laid on the moving support, the pouring mechanism is arranged on the slide way in a sliding mode, and the vibrating mechanism is suspended on the moving support through the connecting piece.

In one embodiment, the supporting mechanism further includes a first driving unit and a second driving unit, the first driving unit is respectively connected to the moving bracket and the guide supporting bracket to drive the moving bracket to slide on the guide supporting bracket, and the second driving unit is respectively connected to the pouring mechanism and the slideway to drive the pouring mechanism to slide on the slideway.

In one embodiment, the first driving mechanism and the second driving mechanism are both linear motors.

In one embodiment, the two moving supports are arranged at the top of the guide bearing support and are respectively erected at two sides of the operation area, the two ends of the sliding way in the support arrangement direction are respectively fixed with the top of each moving support of the two supports, and the two groups of connecting pieces are respectively arranged at two ends of the vibration mechanism in the support arrangement direction to respectively connect each moving support of the two supports, so that the vibration mechanism is located between the two supports and suspended below the sliding way.

In one embodiment, the pouring mechanism comprises a material bearing plate, a hopper and a connecting pipe, the material bearing plate is connected with the slide way in a sliding mode, the hopper is installed on the material bearing plate, and one end of the connecting pipe penetrates through the material bearing plate and is communicated with the hopper.

In one embodiment, the inner channel of the connecting tube is spiral, and the number of the connecting tubes is multiple.

In one embodiment, the connecting member includes a connecting frame and a connecting rod, the connecting frame is fixed to the vibrating mechanism, and two opposite ends of the connecting rod are respectively fixed to the connecting frame and the slide way.

In one embodiment, the moving support reciprocates on the guide support along the vertical direction, the bottom of the vibration mechanism is a plane, and the bottom is provided with a plurality of hollow areas.

In one embodiment, the end face outer contour of the vibration mechanism is triangular.

The utility model provides a concrete placement device's beneficial effect lies in: compared with the prior art, this concrete placement device will pour mechanism and vibration mechanism through supporting mechanism and integrate, and supporting mechanism still is used for providing drive function to pouring mechanism and vibration mechanism, make concrete placement device can accomplish pour, a plurality of functions of vibration and flattening, the required equipment quantity of erectting in the construction process has been reduced, especially in some narrow and small construction projects, like the construction project of utility tunnel, the reduction of equipment quantity, correspondingly reduced the space size requirement to the operation place, whole operation degree of difficulty has been reduced thereupon.

Drawings

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

Fig. 1 is a schematic structural diagram of a concrete pouring device according to an embodiment of the present invention;

FIG. 2 is a front view schematically illustrating the concrete pouring apparatus shown in FIG. 1;

fig. 3 is a schematic top view of the concrete pouring apparatus shown in fig. 1.

In the figure: 100. a support mechanism; 110. a support; 111. a guide bearing bracket; 112. a motion bracket; 113. a sliding assembly; 200. a pouring mechanism; 210. a material bearing plate; 220. a hopper; 230. a connecting pipe; 300. a vibration mechanism; 350. and (6) a hollow-out area.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, a concrete pouring apparatus according to the present invention will now be described. The concrete pouring device comprises a supporting mechanism 100, a pouring mechanism 200 and a vibrating mechanism 300, wherein the supporting mechanism 100 is used for installing and fixing the pouring mechanism 200 and the vibrating mechanism 300, and is simultaneously used for respectively driving the pouring mechanism 20 to pour concrete in an operation area (for example, in the construction engineering of an underground comprehensive pipe gallery, the operation area can be a pipe gallery foundation pit), and driving the vibrating mechanism 300 to further vibrate and level the concrete in the operation area. Wherein, integrate pouring mechanism 200 and vibration mechanism 300 through setting up supporting mechanism 100, and supporting mechanism 100 can also provide driving function to pouring mechanism 200 and vibration mechanism 300, in utility tunnel's construction engineering, through the utility model provides a concrete pouring device can accomplish pouring, vibrating and the multiple functions of flattening of concrete, has reduced the equipment quantity that needs erect in the construction engineering, and the corresponding space size requirement to the operation place that has reduced the holistic operation degree of difficulty thereupon.

In the present embodiment, the supporting mechanism 100 includes a bracket 110, a slide 120 and a connecting member 130, wherein the slide 120 and the connecting member 130 are disposed on the bracket 110 for respectively mounting the casting mechanism 200 and the vibrating mechanism 300 on the bracket 110.

Specifically, the support 110 includes a guide support 111, a moving support 112 and a sliding assembly 113, the moving support 112 is slidably connected to the guide support 111, the sliding assembly 113 is disposed at the bottom of the guide support 111, the sliding assembly 113 is used for moving the guide support 111 and the moving support 112, in addition, a slideway 120 is laid on the moving support 112, the pouring mechanism 200 is slidably disposed on the slideway 120, and a connecting member 130 is connected to the moving support 112 to suspend the vibrating mechanism 300 on the moving support 112.

In the present embodiment, the sliding assembly 113 is a plurality of pulleys for horizontally moving the guide bracket 111 and the moving bracket 112, so as to correspondingly drive the vibration mechanism 300 to move in the horizontal direction. Further, the connecting member 130 includes a connecting frame 131 and a connecting rod 132, the connecting frame 131 is fixed to the vibration mechanism 300, and two opposite ends of the connecting rod 132 are respectively connected and fixed to the connecting frame 131 and the slideway 130.

In other embodiments, the end of the connecting rod 132 away from the connecting frame 131 can also be directly connected and fixed with the moving bracket 112.

In other embodiments, slide 120 is disposed on pedestal 111 to reduce the impact of motion bracket 112 on placement mechanism 200 during sliding. It will be appreciated that, at this time, the end of the connecting rod 132 away from the connecting frame 131 is directly connected and fixed with the moving bracket 112.

Further, the supporting mechanism 100 further includes a first driving unit and a second driving unit, the first driving unit is respectively connected to the guide supporting frame 111 and the moving frame 112 to drive the moving frame 112 to slide on the guide supporting frame 111, so as to vibrate the vibrating mechanism 300, and the second driving unit is respectively connected to the sliding channel 120 and the pouring mechanism 200 to drive the pouring mechanism 200 to slide on the sliding channel 120, so as to lift the pouring range of the pouring mechanism 200.

Specifically, the moving bracket 112 is slidably connected to the guide bracket 111 along the vertical direction, the first driving unit correspondingly drives the moving bracket 112 to slide on the guide bracket 111 in a reciprocating manner along the vertical direction, and the moving bracket 112 synchronously drives the vibrating mechanism 300 to slide in a reciprocating manner along the vertical direction through the connecting piece 130 to form vibration, so as to realize the vibrating function. And the vibration mechanism 300 is set at a suitable height through the moving bracket 112, for example, the vibration mechanism 300 is set at a leveling layer of concrete in the working area, and then the sliding assembly 113 horizontally moves the guide bracket 111 and the moving bracket 112, and correspondingly drives the vibration mechanism 300 to horizontally move, so as to achieve the leveling function.

More specifically, the first driving unit and the second driving unit are linear motors, in the first driving unit, a stator of the linear motor and a rotor of the linear motor are respectively connected and fixed with the guide bearing support 111 and the moving support 112, and when the rotor of the linear motor of the first driving unit moves, the moving support 112 is correspondingly driven to move to slide on the guide bearing support 111; in the second driving unit, the stator of the linear motor and the mover of the linear motor are respectively connected and fixed with the slide 120 and the pouring mechanism 200, and when the mover of the linear motor of the second driving unit moves, the pouring mechanism 200 is correspondingly driven to slide on the slide 130.

Furthermore, the two moving supports 112 are disposed on the top of the guiding support 111, the two supports 110 are respectively erected on two sides of the working area, two ends of the sliding way 130 along the arrangement direction of the supports 110 are respectively fixed with the top of each moving support 112 of the two supports 110, and two sets of connecting pieces 130 are respectively disposed on two ends of the vibrating mechanism 300 along the arrangement direction of the supports 110 to respectively connect the moving supports 112 of the two supports 110, so that the vibrating mechanism 300 is located between the two supports 110 and suspended below the sliding way 130 and faces the working area.

Referring to fig. 2 to 3 in further detail, the pouring mechanism 200 includes a material-receiving plate 210, a hopper 220 and a connecting pipe 230, the material-receiving plate 210 is disposed on a side of the slide 130 away from the moving support 112 and is slidably connected to the slide 130, the hopper 220 is mounted on the material-receiving plate 210 to slide on the slide 130 through the material-receiving plate 210, one end of the connecting pipe 230 passes through the material-receiving plate 210 and is communicated with the hopper 220, and concrete in the hopper 220 can be poured into a designated working area by connecting an end of the connecting pipe 230 away from the hopper 220 to an upper pouring hose (not shown).

Specifically, the inner channel of the connection pipe 230 is spiral, and the number of the connection pipes 230 is plural, and the concrete can be poured in multiple points by connecting the plural pouring hoses respectively.

Furthermore, in this embodiment, two slide ways 130 are disposed at an interval, two ends of the material receiving plate 210 are slidably connected to the two slide ways 130, the connecting pipe 230 passes through the material receiving plate 210 and is connected to the bottom surface of the hopper 220, and one end of the connecting pipe 230 away from the hopper 220 extends out from between the two slide ways 130.

Furthermore, in this embodiment, the number of the connecting rods 132 in each group of the connecting members 130 is two, two connecting rods 132 are correspondingly connected to the connecting frame 131 at one end of the vibration mechanism 300, and one ends of the two connecting rods 132 away from the corresponding connecting frame 131 are respectively connected and fixed to the bottoms of the two slide ways 130, that is, one surfaces of the two slide ways 130 away from the casting mechanism 200.

In this embodiment, the bottom surface of the vibration mechanism 300 is provided with a plurality of hollow areas 350 to improve the vibrating effect of the vibration mechanism 300 on the concrete, and the bottom surface of the vibration mechanism 300 is a plane, so that the concrete can be leveled when the vibration mechanism 300 translates through the sliding component 113.

Further, the outer contour of the end face of the vibration mechanism 300 is triangular to improve the structural stability thereof, and in other embodiments, the outer contour of the end face of the vibration mechanism 300 may also be trapezoidal or rectangular.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. A concrete placement device, characterized in that it comprises: the concrete vibrating machine comprises a supporting mechanism, a pouring mechanism and a vibrating mechanism, wherein the pouring mechanism and the vibrating mechanism are arranged on the supporting mechanism, the supporting mechanism is further used for driving the pouring mechanism to carry out concrete pouring on an operation area, and driving the vibrating mechanism to vibrate and level concrete in the operation area.

2. The concrete pouring device according to claim 1, wherein the supporting mechanism comprises a support, a slide and a connecting piece, the support comprises a guide support, a moving support and a sliding assembly, the moving support is connected with the guide support in a sliding mode, the sliding assembly is arranged at the bottom of the guide support to move the guide support and the moving support, the slide is laid on the moving support, the pouring mechanism is arranged on the slide in a sliding mode, and the vibrating mechanism is suspended on the moving support through the connecting piece.

3. The concrete pouring device according to claim 2, wherein the support mechanism further comprises a first driving unit and a second driving unit, the first driving unit is respectively connected with the moving bracket and the guide bracket to drive the moving bracket to slide on the guide bracket, and the second driving unit is respectively connected with the pouring mechanism and the slideway to drive the pouring mechanism to slide on the slideway.

4. The concrete pouring device according to claim 3, wherein the first drive mechanism and the second drive mechanism are both linear motors.

5. The concrete placement device according to claim 2, wherein the movable brackets are provided on top of the guide support, and the number of the brackets is two so as to be erected on both sides of the working area, the two ends of the slide rail in the bracket arrangement direction are fixed to top portions of the movable brackets of the two brackets, respectively, and the two sets of the connecting members are provided on both ends of the vibration mechanism in the bracket arrangement direction so as to connect the movable brackets of the two brackets, respectively, such that the vibration mechanism is positioned between the two brackets and suspended below the slide rail.

6. The concrete pouring device according to any one of claims 2 to 5, wherein the pouring mechanism comprises a material bearing plate, a hopper and a connecting pipe, the material bearing plate is connected with the slide way in a sliding mode, the hopper is installed on the material bearing plate, and one end of the connecting pipe penetrates through the material bearing plate and is communicated with the hopper.

7. The concrete pouring device according to claim 6, characterized in that it further comprises at least one of the following features:

the inner channel of the connecting pipe is spiral; and

the number of the connecting pipes is multiple.

8. The concrete pouring device according to any one of claims 2 to 5, wherein the connecting member includes a connecting frame and a connecting rod, the connecting frame is fixed to the vibrating mechanism, and opposite ends of the connecting rod are respectively connected and fixed to the connecting frame and the slide way.

9. The concrete pouring device according to claim 2, wherein the moving support reciprocates on the bearing and guide support in a vertical direction, the bottom of the vibration mechanism is a plane, and a plurality of hollowed-out areas are formed in the bottom.

10. The concrete pouring device according to claim 1, wherein the end face outer contour of the vibration mechanism is in a triangular shape.