CN215618778U - Improved generation shaking table device is used in processing of concrete prefabricated part - Google Patents

Abstract

The utility model discloses an improved vibrating table device for processing a concrete prefabricated part, which comprises two main frames, wherein the main frames comprise a plurality of supporting legs arranged in front and back, the supporting legs are fixed on a ground pouring block, two upper guide beams are arranged in parallel and are installed on the two corresponding supporting legs, a guide channel is formed between the two upper guide beams, the guide channels on the same side of the two main frames are aligned in the left and right directions, a motor base is fixed on the outer side wall of a transverse beam on the outer side of each main frame, a vibrating motor is fixed on the motor base, a plurality of bottom seats are fixed on the ground pouring block, a buffer air bag is fixed on the top surface of each bottom seat, an upper support frame is fixed on the top of each buffer air bag, wheels of a material conveying trolley are placed on corresponding guide rails, and the top surface of each upper support frame corresponds to the bottom surface of the transverse beam of the material conveying trolley. The material conveying trolley can vibrate the front side and the rear side of the material conveying trolley, and can also vibrate the middle part of the material conveying trolley, so that the uniformity of vibration is realized, and the manufacturing effect is improved.

Description

Improved generation shaking table device is used in processing of concrete prefabricated part

The technical field is as follows:

the utility model relates to the field of building processing and manufacturing equipment, in particular to an improved vibrating table device for processing a concrete prefabricated part.

Background art:

the existing concrete prefabricated member generally needs to be processed in a prefabrication factory, and when the prefabricated member is processed, the concrete prefabricated member generally needs 1 operation (including demoulding, mould cleaning, mould filling, oil coating, reinforcing mesh, embedded parts and pouring vibration) line and a plurality of maintenance (including static maintenance, autoclaved maintenance and warehouse-out) lines, in the operation line, the pouring vibration adopts a vibration table to carry out vibration processing on the pouring material, the existing vibration table is generally provided with a vibration motor on a side beam, the vibration table only vibrates two sides of a material conveying trolley on the vibration table, the vibration effect is limited, and the vibration uniformity is poor.

The utility model has the following contents:

the utility model aims to overcome the defects of the prior art and provides an improved vibrating table device for processing concrete prefabricated parts, which can vibrate the front side and the rear side of a material conveying trolley and also can vibrate the middle part of the material conveying trolley, thereby realizing the uniformity of vibration and improving the manufacturing effect.

The scheme for solving the technical problems is as follows:

an improved vibrating table device for processing concrete prefabricated parts comprises two main frames, wherein the main frames comprise a plurality of supporting legs arranged in the front and at the back, the supporting legs are fixed on a ground pouring block, two upper guide beams are arranged in parallel and are installed on the two corresponding supporting legs, a guide channel is formed between the two upper guide beams, the guide channels on the same side of the two main frames are aligned in the left and right directions, guide rails are inserted in the two corresponding guide channels, the bottom surfaces of the guide rails are fixed on push plates of a plurality of jacking jacks, the bottom surfaces of the jacking jacks are fixed on the ground, a motor base is fixed on the outer side wall of a transverse beam on the outer side of the main frames, a vibrating motor is fixed on the motor base, a plurality of bottom bases are fixed on the ground pouring block, a buffering air bag is fixed on the top surface of each bottom base, an upper support frame is fixed on the top of the buffering air bag, wheels of a material conveying trolley are placed on the corresponding guide rails, the top surface of the upper supporting frame corresponds to the bottom surface of the transverse beam of the material conveying trolley.

The bottom surface of the vertical column of the upper supporting frame is fixed on the top surface of the buffering air bag, a side motor frame is fixed on the side wall of the vertical column, and a side vibration motor is fixed on the side motor frame.

The top surfaces of the vertical columns of all the upper supporting frames on the same side are fixed on the bottom surface of the same transverse connecting beam, the side walls of the transverse connecting beam are fixed with a plurality of side reinforcing blocks, and the top surfaces of the side reinforcing blocks and the top surfaces of the transverse connecting beam correspond to the bottom surface of the transverse beam of the material conveying trolley.

And a middle support column is fixed on the ground pouring block between the two corresponding front and back bottom seats, a middle support transverse beam extending left and right is fixed on the top surface of each middle support column, and the top surface of the middle support transverse beam corresponds to the bottom surface of the transverse beam of the material conveying trolley.

An outer supporting column is fixed on the ground pouring block at the outer side of the main frame, the top of the outer supporting column is hinged with a guide wheel, and the inner side of the guide wheel is located at the top surface of the outer side of an upper guide beam at the outer side of the main frame.

The utility model has the following outstanding effects:

the material conveying trolley can vibrate the front side and the rear side of the material conveying trolley, and can also vibrate the middle part of the material conveying trolley, so that the uniformity of vibration is realized, and the manufacturing effect is improved.

Description of the drawings:

FIG. 1 is a schematic view of a partial structure of the present invention;

FIG. 2 is a partial cross-sectional view of FIG. 1;

FIG. 3 is a partial cross-sectional view of the guide track as it descends;

fig. 4 is a partial cross-sectional view between the guide rail and the outer support post as the guide rail is lowered;

fig. 5 is a schematic structural view between the jacking jack and the guide rail.

The specific implementation mode is as follows:

embodiment, as shown in fig. 1 to 5, an improved vibration table apparatus for processing a concrete preform includes two main frames 10, the main frames 10 including a plurality of legs 11 arranged in a front-rear direction, the legs 11 being fixed to a ground casting block, a plurality of transverse beams 12 arranged in a front-rear direction being fixed to top surfaces of the corresponding legs 11, two transverse beams 12 being fixed to top surfaces of each of the legs 11, a plurality of intermediate connecting blocks 13 being fixed between the two transverse beams 12, a plurality of intermediate beams 14 being arranged between the front and rear adjacent transverse beams 12, both ends of each of the intermediate beams 14 being welded to inner side walls of the corresponding transverse beam 12, an upper guide beam 15 being fixed to top surfaces of each of the transverse beams 12, a guide channel 1 being formed between the adjacent upper guide beams 15, the guide channels 1 on the same side of the two main frames 10 being aligned in a left-right direction, guide rails 20 being inserted into the corresponding two guide channels 1, the bottom surface of guide rail 20 is fixed on the push pedal of a plurality of jacking jacks 21, and the bottom surface of jacking jack 21 is fixed subaerial, be fixed with motor cabinet 16 on the lateral wall of the horizontal roof beam 12 of the outside department of main frame 10, be fixed with vibrating motor 17 on the motor cabinet 16, be fixed with a plurality of bottom seats 50 on the ground pouring piece, be fixed with buffering gasbag 51 on the top surface of bottom seat 50, the top of buffering gasbag 51 is fixed with upper strut frame 52, and the wheel 101 of fortune material platform truck 100 is placed on corresponding guide rail 20, and the top surface of upper strut frame 52 is corresponding with the bottom surface of the horizontal roof beam of fortune material platform truck 100.

Further, the bottom surface of the vertical column of the upper support frame 52 is fixed on the top surface of the buffer airbag 51, the side motor frame 53 is fixed on the side wall of the vertical column, and the side vibration motor 54 is fixed on the side motor frame 53.

Further, the top surfaces of the vertical columns of all the upper support frames 52 on the same side are fixed on the bottom surface of the same transverse connecting beam 55, the side walls of the transverse connecting beam 55 are fixed with a plurality of side reinforcing blocks 56, and the top surfaces of the side reinforcing blocks 56 and the top surfaces of the transverse connecting beams 55 correspond to the bottom surfaces of the transverse beams of the material conveying trolley 100.

Further, a middle support pillar 60 is fixed on the ground pouring block between the two corresponding front and rear bottom seats 50, a middle support transverse beam 61 extending left and right is fixed on the top surface of all the middle support pillars 60, and the top surface of the middle support transverse beam 61 corresponds to the bottom surface of the transverse beam of the material transporting trolley 100.

Further, an outer support column 40 is fixed on the ground pouring block at the outer side of the main frame 10, a guide wheel 41 is hinged to the top of the outer support column 40, and the inner side of the guide wheel 41 is located at the top surface of the outer edge of the upper guide beam 15 at the outer side of the main frame 10.

Further, a locking connecting seat 30 is fixed on the outer side wall of the transverse beam 12 at the outer side of the main frame 10, the lower part of the locking connecting seat 30 is hinged to a locking oil cylinder 31 through a hinge shaft, the top end of a push rod of the locking oil cylinder 31 is hinged to a locking head 32 through a hinge shaft, a clamping part 33 extending towards the upper guide beam 15 is formed on the inner side wall of the locking head 32, a locking groove 34 is formed in the middle of the inner wall surface of the clamping part 33, and the lower part of the clamping part 33 is hinged to the corresponding upper guide beam 15 through a hinge shaft.

Further, the upper portion of the outer side wall of the outer upper guide beam 15 of the main frame 10 is formed with a hollow groove 151, a coupling plate 152 is fixed in the inside of the outer upper guide beam 15, and the lower portion of the clamping portion 33 is hinged to the corresponding coupling plate 152 by a hinge shaft.

Further, the wheels 101 of the material conveying trolley 100 are pressed against the top surfaces of the guide rails 20, the bottom surfaces of the bottom bent portions 102 of the cross beams of the material conveying trolley 100 are pressed against the top surfaces of the corresponding transverse beams 12, and the bottom bent portions 102 of the cross beams on the outer sides of the material conveying trolley 100 and the top plates of the upper guide beams 15 above the empty grooves 151 correspond to the locking grooves 34.

Further, the bottom bent part 102 of the outer side beam of the material transporting trolley 100 placed on the guide rail 20 is close to the inner side of the guide wheel 41.

The buffer air bag 51 is communicated with one end of a control valve communicated with the air pump through a connecting pipe. The air pump and the control valve are of common structures and are not described in detail, and are not shown in the attached drawings.

In this embodiment, in use, the material handling trolley 100 moves into the guide rail 20 through the guide rail of the preceding station (the guide rail of the preceding station is flush with the top surface of the guide rail 20), and rests on the two main frames 10, the main frame 10 is provided with a proximity switch which can sense the material conveying trolley 100 and transmit a sensing signal to the control host, the control host can control the hydraulic system, the proximity switch and the control host of the corresponding hydraulic system to be common structures, detailed description is omitted, so that the push plate of the jacking jack 21 descends and the guide rail 20 descends, so that the bottom surface of the bottom bent part 102 of the cross beam of the material transporting trolley 100 is pressed against the top surface of the corresponding upper guide beam 15, at the same time, the bottom surfaces of some of the transverse beams of the pallet 100 are pressed against the top surface of the central supporting transverse beam 61, so that both the main frame 10 and the central support cross beam 61 carry the load on the material handling trolley 100.

The guide rail 20 is in contact with or separated from the wheels 101 of the material conveying trolley 100, then the push rod of the locking oil cylinder 31 pushes the guide rail, so that the bottom bending part 102 of the cross beam on the outer side of the material conveying trolley 100 and the top plate of the upper guide beam 15 above the empty groove 151 are clamped in the corresponding locking groove 34 to realize fixation, and meanwhile, the control valve operates to lead the gas of the gas pump to be introduced into the buffering air bag 51, so that the top surfaces of the side reinforcing blocks 56 and the transverse connecting beam 55 are lifted and pressed against the bottom surface of the transverse beam of the material conveying trolley 100;

then, the vibration motor 17 and the side motor frame 53 operate, so that the middle part and the side part of the material in the mold on the material conveying trolley 100 are vibrated, the vibration uniformity is improved, and the processing effect of the prefabricated part is ensured;

in the vibration process, the buffer air bag 51 can reduce the vibration force transmitted to the ground pouring block, and has the shock absorption effect;

after the processing is finished, a control valve communicated with a connecting port arranged on the buffer air bag 51 operates, so that the buffer air bag 51 can be deflated, and the side reinforcing blocks 56 and the transverse connecting beam 55 are lowered.

The above embodiments are only for illustrating the utility model and are not to be construed as limiting the utility model, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the utility model, therefore, all equivalent technical solutions also belong to the scope of the utility model, and the scope of the utility model is defined by the claims.

Claims (5)

1. An improved vibrating table device for processing concrete prefabricated parts comprises two main frames (10), wherein the main frames (10) comprise a plurality of support legs (11) arranged front and back, the support legs (11) are fixed on a ground pouring block, two upper guide beams (15) are arranged on the two corresponding support legs (11) in parallel, a guide channel (1) is formed between the two upper guide beams (15), the guide channels (1) on the same side of the two main frames (10) are aligned left and right, guide tracks (20) are inserted in the two corresponding guide channels (1), the bottom surfaces of the guide tracks (20) are fixed on push plates of a plurality of jacking jacks (21), the bottom surfaces of the jacking jacks (21) are fixed on the ground, a motor base (16) is fixed on the outer side wall of a transverse beam (12) on the outer side of the main frames (10), and a vibrating motor (17) is fixed on the motor base (16), the method is characterized in that: the ground pouring block is fixedly provided with a plurality of bottom seats (50), the top surfaces of the bottom seats (50) are fixedly provided with buffer airbags (51), the tops of the buffer airbags (51) are fixedly provided with upper support frames (52), wheels (101) of the material conveying trolley (100) are placed on corresponding guide rails (20), and the top surfaces of the upper support frames (52) correspond to the bottom surfaces of transverse beams of the material conveying trolley (100).

2. The improved vibrating table device for processing the concrete precast member according to claim 1, wherein: the bottom surface of a vertical column of the upper support frame (52) is fixed on the top surface of the buffer air bag (51), a side motor frame (53) is fixed on the side wall of the vertical column, and a side vibration motor (54) is fixed on the side motor frame (53).

3. The improved vibrating table device for processing the concrete precast member according to claim 2, wherein: the top surfaces of the vertical columns of all the upper support frames (52) on the same side are fixed on the bottom surface of the same transverse connecting beam (55), a plurality of side reinforcing blocks (56) are fixed on the side wall of the transverse connecting beam (55), and the top surfaces of the side reinforcing blocks (56) and the top surfaces of the transverse connecting beams (55) correspond to the bottom surface of the transverse beam of the material conveying trolley (100).

4. The improved vibrating table device for processing the concrete precast member according to claim 1, wherein: and a middle supporting column (60) is fixed on the ground pouring block between the two corresponding front and back bottom seats (50), a middle supporting transverse beam (61) extending left and right is fixed on the top surface of all the middle supporting columns (60), and the top surface of the middle supporting transverse beam (61) corresponds to the bottom surface of the transverse beam of the material conveying trolley (100).

5. The improved vibrating table device for processing the concrete precast member according to claim 1, wherein: an outer supporting column (40) is fixed on the ground pouring block on the outer side of the main frame (10), a guide wheel (41) is hinged to the top of the outer supporting column (40), and the inner side of the guide wheel (41) is located on the top surface of the outer side of an upper guide beam (15) on the outer side of the main frame (10).

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