CN214187754U - Movable vibration platform - Google Patents

Abstract

The utility model discloses a movable vibration platform, which comprises a walking component (1), a frame component and a positioning component; the walking assembly (1) moves on the track platform (4) and is positioned by a plurality of positioning assemblies; the frame assembly comprises a frame (2) and a plurality of vibration assemblies (6) arranged on the frame (2), the frame (2) moves up and down through the lifting assembly, and is inserted on the walking assembly (1) through the limiting assembly (7) when the frame falls to the walking assembly (1); the upper vibration end surface of the vibration component (6) is higher than the upper end surface of the frame (2). This portable vibration platform, simple structure through the quick travel to and the lift of vibration subassembly, realize the concrete formwork high efficiency vibration to different stations, the guarantee with the intensity that strengthens the concrete.

Description

Movable vibration platform

Technical Field

The utility model relates to a concrete processing field, concretely relates to portable vibration platform.

Background

The concrete vibrating machine is one machine which produces vibration in certain frequency with certain device as vibration source and transmits the vibration in frequency to concrete to densify the concrete.

The concrete poured into the formwork must be vibrated reasonably, so as to reduce the friction and adhesive force between concrete grains, fill the gaps between the concrete grains under the action of self-gravity, eliminate the air in the concrete, prevent the formation of air holes in the condensed member, and ensure the smooth and flat surface of the member without pitted surface. The existing vibrating table is fixed, a large number of mould tables are required to move on a production line, when the vibrating table arrives at a vibrating station, the component is vibrated, the whole efficiency is reduced due to the inconvenient and quick movement of the mould tables, and the concrete mould tables at different stations need complex routes when moving, so that the energy consumption is high, and the economical efficiency is not good.

Disclosure of Invention

The utility model provides a portable vibration platform, simple structure through quick travel to and the lift of vibration subassembly, realize the high-efficient vibration of concrete formwork platform to different stations, ensure and the intensity of reinforcing concrete.

In order to achieve the purpose, the mobile vibration platform comprises a walking component, a frame component and a positioning component;

the walking assembly moves on the track platform and is positioned by the plurality of positioning assemblies;

the frame assembly comprises a frame and a plurality of vibration assemblies arranged on the frame, the frame moves up and down through the lifting assembly, and is inserted on the walking assembly through the limiting assembly when descending to the walking assembly;

the vibration upper end face of the vibration component is higher than the upper end face of the frame.

Furthermore, the limiting assemblies are in multiple groups and are symmetrically arranged on the front side and the rear side of the walking assembly, each group comprises a limiting block, the inner side surface of each limiting block is provided with a through hole which is vertically arranged, and a supporting roller is rotatably arranged in the through hole;

the front and rear positions of the frame are correspondingly provided with supporting plates matched with the position of the limiting blocks, and the supporting plates are vertically inserted into the through holes and are in rolling contact with the supporting rollers.

Furthermore, the positioning assemblies are a pair and are symmetrically arranged front and back, and each group of positioning assemblies comprises a positioning support arranged on the track platform and a positioning oil cylinder arranged on the frame;

the positioning support is provided with a positioning hole, the piston end of the positioning oil cylinder is connected with a second positioning pin, and the second positioning pin penetrates through the frame and is inserted into the positioning hole.

Furthermore, the positioning support is provided with an inductor, the frame is provided with an induction sheet matched with the inductor, the inductor is connected with the controller, and the controller sequentially controls the actions of the walking assembly and the positioning oil cylinder.

Furthermore, the vibration assembly is in flexible connection with the frame through a rubber shock pad.

Further, the second positioning pin is of a conical structure.

Furthermore, the two ends of the frame are respectively provided with a first positioning pin, the upper end face of the first positioning pin is higher than the upper end face of the vibration component, and when the frame drives the vibration component to ascend, the first positioning pin is inserted and positioned in the required vibration structure.

Compared with the prior art, this portable vibration platform is because running gear removes at track platform, and the frame passes through spacing subassembly cartridge on running gear when descending to running gear, consequently removes the mould platform below of different stations with the vibration subassembly through running gear, not only saves the resource, and convenient vibration to it moreover, drives vibration subassembly and the contact realization high efficiency vibration of laminating of concrete mould platform on the frame through lifting unit, ensures and strengthens the intensity of concrete.

Because the positioning assembly is arranged, the positioning oil cylinder is started to drive the second positioning pin to penetrate through the traveling assembly to be inserted on the positioning support, and therefore the traveling assembly is positioned on the track assembly; the limit assembly is arranged, the support plate at the side end of the frame is embedded into the through hole arranged on the limit block and can be supported and fixed through the support roller, so that the frame is limited on the walking assembly, deviation is avoided when the frame descends, and the frame is safer and more reliable;

the first positioning pin is arranged on the frame, is embedded into the lower end of the die table and can be inserted and positioned in a required vibration structure, so that the die table is effectively prevented from deviating during vibration; the vibration component and the frame are in flexible connection, so that the influence of the vibration component on the frame during working is effectively weakened, and the noise is reduced;

this portable vibration platform, simple structure through the quick travel to and the lift of vibration subassembly, realize the concrete formwork high efficiency vibration to different stations, the guarantee with the intensity that strengthens the concrete.

Drawings

Fig. 1 is an overall schematic view of the present invention;

fig. 2 is an overall front view of the present invention (increased drawing track assembly and jacking cylinder);

fig. 3 is an overall plan view of the present invention;

fig. 4 is a schematic view of a spacing assembly of the present invention;

in the figure: 1. the device comprises a walking assembly, 2, a frame, 21, a first positioning pin, 22, a supporting plate, 3, a positioning support, 4, a track platform, 41, a jacking oil cylinder, 51, a positioning oil cylinder, 52, a second positioning pin, 6, a vibration assembly, 7, a limiting assembly, 71, a limiting block, 72, a through hole, 73 and a supporting roller.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1, 2 and 3, the mobile vibration platform comprises a walking assembly 1, a frame assembly and a positioning assembly;

the walking assembly 1 moves on the track platform 4 and is positioned by a plurality of positioning assemblies;

the frame assembly comprises a frame 2 and a plurality of vibration assemblies 6 arranged on the frame 2, the frame 2 moves up and down through the lifting assembly, and is inserted on the walking assembly 1 through the limiting assembly 7 when the frame 2 descends to the walking assembly 1;

the upper vibration end surface of the vibration component 6 is higher than the upper end surface of the frame 2;

as shown in fig. 4, further, the limiting assemblies 7 are provided in multiple groups and symmetrically disposed on the front and rear sides of the walking assembly 1, each group includes a limiting block 71, a through hole 72 disposed vertically is disposed on the inner side surface of the limiting block 71, and a support roller 73 is rotatably mounted in the through hole 72;

the front and rear positions of the frame 2 are correspondingly provided with supporting plates 22 matched with the positions of the limiting blocks 71, and the supporting plates 22 are inserted into the through holes 72 up and down and are in rolling contact with the supporting rollers 73;

as shown in fig. 1 and fig. 3, further, the positioning assemblies are a pair and are symmetrically arranged front and back, and each group of positioning assemblies includes a positioning support 3 arranged on the track platform 4 and a positioning oil cylinder 51 arranged on the carriage frame 2;

the positioning support 3 is provided with a positioning hole, the piston end of the positioning oil cylinder 51 is connected with a second positioning pin 52, and the second positioning pin 52 penetrates through the frame 2 and is inserted in the positioning hole;

further, an inductor is arranged on the positioning support 3, an induction sheet matched with the inductor is arranged on the frame 2, the inductor is connected with a controller, and the controller sequentially controls the movement of the walking assembly 1 and the positioning oil cylinder 51;

consequently, when frame 2 removed to 3 departments of location and need fix a position, through inductor and response piece interreaction for the controller controls walking subassembly 1 stop motion earlier, restarts positioning cylinder 51, drives second locating pin 52 cartridge in the locating hole, consequently realizes automatic positioning, and is more convenient, and positioning efficiency is higher.

Further, the second positioning pin 52 has a tapered structure;

further, the vibration component 6 is in flexible connection with the frame 2 through a rubber shock pad;

further, the front end and the rear end of the frame 2 are respectively provided with a first positioning pin 21, the upper end surface of the first positioning pin 21 is higher than the upper end surface of the vibration component 6, and the first positioning pin is inserted and positioned in a required vibration structure;

when the movable vibration platform is used, for example, a concrete mould is vibrated, the traditional concrete mould is movably arranged on a fixed support, and the concrete mould can be suspended with the fixed support through a lifting oil cylinder in order to realize better vibration;

starting the walking component 1, moving the walking component 1 on the track platform 4 to the position below the energy-mixing soil mould platform, wherein the moving mode can be driven by a roller driven by a motor; then, the positioning oil cylinder 51 is started, and the piston end of the positioning oil cylinder drives the second positioning pin 52 to penetrate through the traveling assembly 1 and be inserted on the positioning support 3, so that the traveling assembly 1 is movably positioned on the track assembly;

the frame 2 moves up and down through the lifting assembly, namely the lifting assembly can be a jacking oil cylinder 41, the jacking oil cylinders 41 can be distributed at different die tables and are positioned below the frame assembly, the jacking oil cylinder 41 is started, the piston end of the jacking oil cylinder extends to drive the frame assembly to move upwards, so that the vibration assembly 6 is in contact with the die tables and performs vibration operation, in addition, a first positioning pin 21 can be arranged on the frame 2, the first positioning pin 21 is embedded at the lower end of the die tables to prevent the die tables from deviating, and the vibration assembly 6 is in flexible connection with the frame 2, so that the influence of the vibration assembly 6 on the frame 2 during working is effectively weakened, and noise is reduced;

after the vibration operation is completed, the lifting oil cylinder is retracted to drive the die table to fall back to the fixed support, the jacking oil cylinder 41 drives the frame assembly to descend to the walking assembly 1, the limiting assembly 7 is arranged, the supporting plate 22 at the side end of the frame 2 is embedded into the through hole 72 arranged on the limiting block 71 and can be supported and fixed through the supporting roller 73, the limiting of the frame 2 on the walking assembly 1 is realized, then the positioning oil cylinder 51 drives the second positioning pin 52 to be retracted and separated from the positioning support 3, and the device moves to the next die table station and performs vibration operation and reciprocating circulation.

The power supply mode of this device uses the wiping line as the power, through the quick travel of this device and the lift of frame subassembly, consequently realizes the quick vibration to different station mould platforms, and is more convenient, and efficiency is higher.

Claims (7)

1. The mobile vibration platform is characterized by comprising a walking component (1), a frame component and a positioning component;

the walking assembly (1) moves on the track platform (4) and is positioned by a plurality of positioning assemblies;

the frame assembly comprises a frame (2) and a plurality of vibration assemblies (6) arranged on the frame (2), the frame (2) moves up and down through the lifting assembly, and when the frame falls to the walking assembly (1), the frame is inserted into the walking assembly (1) through the limiting assembly (7);

the upper vibration end face of the vibration component (6) is higher than the upper end face of the frame (2).

2. The mobile vibration platform according to claim 1, characterized in that the limiting assemblies (7) are arranged in multiple groups and symmetrically arranged at the front and rear sides of the walking assembly (1), each group comprises a limiting block (71), the inner side surface of the limiting block (71) is provided with through holes (72) arranged up and down, and the supporting rollers (73) are rotatably arranged in the through holes (72);

the front and rear positions of the frame (2) are correspondingly provided with supporting plates (22) matched with the positions of the limiting blocks (71), and the supporting plates (22) are vertically inserted into the through holes (72) and are in rolling contact with the supporting rollers (73).

3. The mobile vibration platform according to claim 1 or 2, wherein the positioning assemblies are a pair and are symmetrically arranged in front and back, each group of positioning assemblies comprises a positioning support (3) arranged on the track platform (4) and a positioning oil cylinder (51) arranged on the frame (2);

the positioning support (3) is provided with a positioning hole, the piston end of the positioning oil cylinder (51) is connected with a second positioning pin (52), and the second positioning pin (52) penetrates through the frame (2) and is inserted into the positioning hole.

4. The mobile vibration platform of claim 3, wherein the positioning support (3) is provided with a sensor, the frame (2) is provided with a sensing piece matched with the sensor, the sensor is connected with a controller, and the controller controls the walking assembly (1) and the positioning oil cylinder (51) in sequence.

5. A mobile vibration platform according to claim 3, characterized in that the vibration module (6) is flexibly connected to the frame (2) by means of rubber cushions.

6. A mobile vibratory platform as set forth in claim 3 wherein said second locating pin (52) is of a tapered configuration.

7. The mobile vibration platform according to claim 3, wherein the frame (2) is provided with a first positioning pin (21) at each of two ends thereof, the upper end surface of the first positioning pin (21) is higher than the upper end surface of the vibration component (6), and when the frame (2) drives the vibration component (6) to ascend, the first positioning pin (21) is inserted and positioned in the desired vibration structure.

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