CN113482356A

CN113482356A - Vibrating device for building concrete pouring process

Info

Publication number: CN113482356A
Application number: CN202110818615.5A
Authority: CN
Inventors: 李宏; 刁开达; 苏舂霞; 畅晨鹰; 樊笑笑; 张涛; 任建银; 杨怔
Original assignee: CNNC Huachen Construction Engineering Co Ltd
Current assignee: CNNC Huachen Construction Engineering Co Ltd
Priority date: 2021-07-20
Filing date: 2021-07-20
Publication date: 2021-10-08
Anticipated expiration: 2041-07-20
Also published as: CN113482356B

Abstract

The invention discloses a vibrating device for a building concrete pouring process, which comprises a template, an extension plate, a movable support and a movable wheel set, wherein under the arrangement of a driving assembly, a rotating rod and a material receiving plate work synchronously, concrete residues adhered to the outer surface of a vibrating rod can fall onto the material receiving plate below the vibrating rod in the recovery process of the vibrating rod, the concrete residues cannot be scattered to the next area or even a leveled area, the residues are intensively collected and the vibrating rod is inserted into the material receiving plate for recycling, manual repeated repair is not needed, and simultaneously, resource waste is not caused, under the arrangement of a leveling box body, the movable support, the vibrating rod and a vibrating motor, the vibrating and leveling integration is realized, under the arrangement of an air cylinder, a first frame body, a first pin shaft, an anti-sticking soil plate and a driven driving assembly, the guide effect on the collected residues is played, and the collection efficiency of the residues flowing into the leveling box body is accelerated; meanwhile, after the processing is finished, the piston rod is contracted to enable the material receiving plate to incline leftwards and downwards, and then collected residues can be intensively and efficiently poured.

Description

Vibrating device for building concrete pouring process

Technical Field

The invention relates to the technical field of building construction equipment, in particular to a vibrating device used in a building concrete pouring process.

Background

After the concrete is poured, the poured concrete needs to be vibrated to make the concrete compact and combined, so that the phenomena of honeycomb pitted surface and the like of the concrete are eliminated, the strength of the concrete is improved, and the quality of the concrete member is ensured.

The existing vibrating device such as a row-type vibrating machine can only realize single vibrating work, and subsequent trowelling work needs to be removed from a machine replacing device for trowelling again, so that the efficiency is low; or after the vibration is finished, the manual handheld leveling equipment is adopted for leveling.

When row formula vibrating machine marchd the in-process, can the clearance stop to remove and insert the stick that vibrates, can carry the concrete residue after the stick that vibrates extracts concrete surface, the residue can splash and cause the wasting of resources and pollute operational environment, can spill even the floating region, needs constructor secondary repair.

The residues spilled from the inner side edge of the template can be pushed out of the outer side of the template when being leveled, so that the working environment is polluted while resource waste is caused.

Disclosure of Invention

The present invention is directed to a vibrating device for use in a concrete casting process of a building to solve the problems set forth in the background art.

In order to achieve the purpose, the invention provides the following technical scheme:

a vibrating device for building concrete placement process, including template, extension board, movable support and removal wheelset, the template side is provided with the extension board, is provided with the track of intercommunication on template and the extension board, be provided with on the movable support and remove the wheelset and drive the drive arrangement who removes wheelset along pathway movement, be provided with the installing support on the movable support, be provided with rotatable dwang on the installing support, be provided with a plurality of vibrating spears on the dwang, be provided with the vibrating motor of a plurality of drive vibrating spears work on the installing support, vibrating motor and vibrating spear one-to-one set up, be provided with the floating box on the installing support and collect, be provided with the vibrating spear in the floating box and take out the flitch that connects that carries the residue after the concrete, be provided with the drive dwang on the installing support and connect flitch synchro's drive assembly.

Be provided with a plurality of anchor clamps that match with the stick that vibrates on the dwang, be provided with multiunit damping bumper shock absorber between anchor clamps and the dwang.

The bottom surface of the floating box body is parallel to the top surface of the poured concrete, the floating box body is connected with the mounting support through a connecting rod, and the connecting rod is an L-shaped connecting rod.

The utility model discloses a gear rack, including the driven shaft, the dwang is connected with the initiative axle, is provided with the driving gear on the driving shaft, is provided with idler and driving pulley on the transmission shaft, is provided with incomplete gear and driven pulley on the driven shaft, connect to be provided with the rack on the flitch, driving gear and idler meshing, driving pulley and driven pulley pass through the belt and connect, incomplete gear and rack intermittent type meshing.

The mounting bracket is rotatable relative to the mobile bracket.

The mounting bracket is rotatably connected with the movable bracket through a rotating connecting plate, the movable bracket is provided with an air cylinder, a piston rod of the air cylinder is provided with a movable rod, the movable rod is provided with a first pin shaft, the mounting bracket is provided with a first frame body, and the first pin shaft is in rolling connection with the first frame body.

The mounting bracket is characterized in that a plurality of groups of driven supporting pieces are arranged at the bottom of the mounting bracket, each driven supporting piece comprises a sliding box, a sliding plate, a sliding rod, a second pin shaft, a spring and a second frame body, the sliding box is arranged on the moving bracket, the sliding plate is connected with the sliding plate in the sliding box in a sliding mode, the sliding rod is arranged at the top of the sliding plate, the sliding rod extends out of the sliding box and is provided with the second pin shaft, the spring is arranged between the sliding plate and the sliding box, the second frame body is arranged on the mounting bracket, and the second pin shaft is connected with the second frame body in a rolling mode.

One side opening and offside are provided with the bar hole on the floating box, the size in bar hole with connect the flitch to match the setting.

The opening side of the floating box body is provided with a cover plate capable of sealing the floating box body and a switch motor for driving the cover plate to rotate.

And an anti-skid soil plate is laid on the top of the material receiving plate.

The invention has the beneficial effects that:

1. under the arrangement of the driving assembly, the rotating rod and the material receiving plate work synchronously, the vibrating rod is in a state of rotating and recycling but not completely separating from concrete when the incomplete gear is in an unmeshed state, and the interference of rotary motion and linear motion is avoided by the material receiving plate driven in a delayed mode; concrete residue of the stick of vibrating outward appearance adhesion can drop to the below at its recovery in-process and connect on the flitch, can not spill next region even the floating region, the residue is all to concentrating to collect the stick of vibrating and insert and connect the flitch to retrieve simultaneously, when connecing the flitch to pass the floating box body, the residue can stay concentrate in the floating box body and collect and can not flow into the installing support in, can concentrate recovery used repeatedly after accomplishing the processing, need not artifical repair repeatedly after floating, the while also can not collect a large amount of residues and release the template and cause the wasting of resources.

2. Under the setting of floating box, movable support, vibrating rod and vibration motor, can trowel the concrete surface at the bottom surface that the in-process floating box that removes, realize the integration of floating, need not to withdraw the floating equipment of vibration machine change or adopt artifical secondary floating for production efficiency improves greatly.

3. Under the arrangement of the cylinder, the first frame body, the first pin shaft, the anti-sticking soil sliding plate and the driven driving assembly, the collected residues are guided, and the efficiency of collecting the residues flowing into the floating box body is accelerated; meanwhile, after the processing is finished, the piston rod is contracted to enable the material receiving plate to incline leftwards and downwards, and then collected residues can be intensively and efficiently poured.

Drawings

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

FIG. 2 is a schematic view of a drive assembly of the present invention;

FIG. 3 is a schematic view of the installation of multiple vibrating rods in accordance with the present invention;

FIG. 4 is a schematic structural view of the floating box of the present invention;

FIG. 5 is an enlarged view of a portion of the structure at A in FIG. 1 according to the present invention;

FIG. 6 is a cross-sectional view of a portion of the structure between the mounting bracket and the moving bracket of the present invention;

fig. 7 is a schematic view of the material receiving plate for collecting the residue in the present invention.

In the figure, 1, a template; 2. an extension plate; 3. moving the support; 4. a moving wheel set; 5. leveling the box body; 6. mounting a bracket; 7. a connecting rod; 8. vibrating a tamper; 9. a vibrating motor; 10. rotating the rod; 11. a damping shock absorber; 12. a clamp; 13. a cover plate; 14. a material receiving plate; 15. a rack; 16. an incomplete gear; 17. a driven pulley; 18. rotating the connecting plate; 19. a cylinder; 20. a travel bar; 21. a first frame body; 22. a first pin shaft; 23. a slide box; 24. a sliding plate; 25. a slide bar; 26. a second pin shaft; 27. a spring; 28. a strip-shaped hole; 29. switching the motor; 30. a driven shaft; 31. a drive shaft; 32. plugging and unplugging a motor; 33. a driving gear; 34. an idler pulley; 35. a drive shaft; 36. a drive pulley; 37. a second frame body.

Detailed Description

The technical solutions of the present invention are further described in detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following.

Referring to fig. 1 to 7, a vibrating device for a building concrete pouring process according to an embodiment of the present invention includes a formwork 1, an extension plate 2, a moving bracket 3 and a moving wheel set 4, wherein the extension plate 2 is disposed on a side surface of the formwork 1, a track is disposed on the formwork 1 and the extension plate 2, the moving bracket 3 is provided with the moving wheel set 4 and a driving device for driving the moving wheel set 4 to move along the track, and the vibrating device moves along the track, and intermittently stops inserting a vibrating rod 8 to vibrate concrete in the formwork.

Be provided with installing support 6 on the movable support 3, be provided with rotatable dwang 10 on the installing support 6, be provided with a plurality of vibrating rods 8 on the dwang 10, be provided with the vibrating motor 9 of a plurality of drives vibrating rod 8 work on the installing support 6, vibrating motor 9 sets up with vibrating rod 8 one-to-one, refer to and draw figure 1, make dwang 10 anticlockwise rotation can let vibrating rod 8 vibrate the concrete after pouring in inserting template 1 perpendicularly.

Referring to fig. 3, be provided with a plurality of anchor clamps 12 that match with the stick that vibrates 8 on dwang 10, refer to fig. 5, be provided with multiunit damping bumper shock absorber 11 between anchor clamps 12 and the dwang 10, damping bumper shock absorber 11 sets up the influence that makes the stick 8 that vibrates reduce rigid connection's dwang 10, improve equipment life, guaranteed the steady operation of equipment simultaneously.

Be provided with floating box 5 on installing support 6, floating box 5 bottom surface and the concrete top surface parallel arrangement after pouring, floating box 5 is connected with installing support 6 through connecting rod 7, and connecting rod 7 is the L connecting rod that appears.

After the completion of vibrating, reverse clockwise rotation dwang 10 promptly, will vibrate excellent 8 take out from the concrete of pouring, move movable support 3 and continue the antedisplacement so that vibrate next region, the bottom surface of floating box 5 can be floated concrete surface at the in-process that moves movable support 3 removed, realizes the integration of floating and floating, need not to withdraw the machinery of vibrating and change floating equipment or adopt artifical secondary floating for production efficiency improves greatly.

A material receiving plate 14 which can collect residues carried by the vibrating rod 8 after the vibrating rod is drawn out of the concrete is arranged in the trowelling box body 5, and a driving assembly which drives the rotating rod 10 and the material receiving plate 14 to synchronously work is arranged on the mounting support 6.

One side opening and offside are provided with bar hole 28 on the floating box 5, and the size in bar hole 28 matches the setting with the flitch that connects 14, and when receiving flitch 14 to shift out from bar hole 28, the concrete residue can not pass through bar hole 28.

Referring to fig. 2, the driving assembly includes a plugging motor 32, a rotatable driven shaft 30, a rotatable driving shaft 31 and a rotatable transmission shaft 35, the driven shaft 30, the driving shaft 31 and the transmission shaft 35 are all arranged on the mounting bracket 6, the plugging motor 32 is in transmission connection with the driving shaft 31 through a bevel gear transmission pair, the rotating rod 10 is connected with the driving shaft 31, a driving gear 33 is arranged on the driving shaft 31, an idler 34 and a driving pulley 36 are arranged on the transmission shaft 35, an incomplete gear 16 and a driven pulley 17 are arranged on the driven shaft 30, a rack 15 is arranged on the receiving plate 14, the driving gear 33 is meshed with the idler 34, the driving pulley 36 is connected with the driven pulley 17 through a belt, and the incomplete gear 16 is intermittently meshed with the rack 15.

The pulling-out state of the vibrating rod 8:

the driving shaft 31 rotates anticlockwise, the rotating rod 10 rotates anticlockwise, the vibrating rod 8 is pulled out of poured concrete, the driving gear 33 rotates anticlockwise, the idler wheel 34 rotates clockwise through the reversing transmission shaft 35, the driving pulley 36 and the driven pulley 17 transmit, the driven shaft 30 rotates clockwise, the incomplete gear 16 is continuously changed from an unengaged state to a meshed state, the rack 15 is driven to move in a delayed mode, and the material receiving plate 14 just moves to a position between the vibrating rod 8 and the concrete surface under the driving of the rack 15 after the vibrating rod 8 just breaks away from the concrete surface.

The vibrating rod 8 is recovered, the material receiving plate 8 extends out, when the incomplete gear 16 is in an unmeshed state, the vibrating rod 8 is in a state of rotating and recovering but not completely separating from concrete, and the interference of rotary motion and linear motion is avoided by the material receiving plate 14 driven in a delayed mode.

Concrete residues adhered to the outer surface of the vibrating rod 8 can fall onto the lower material receiving plate 14 in the recovery process of the concrete residues, the concrete residues cannot be scattered to the next area or even a leveled area, and the residues are collected in a centralized manner.

Insertion state of the vibrating rod 8:

the transmission process is opposite to the pulling-out state.

Referring to fig. 7, the vibrating rod 8 is inserted and the material receiving plate 8 is recycled, when the material receiving plate 8 penetrates through the floating box body 5, residues can be left in the floating box body 5 to be collected in a centralized mode and cannot flow into the mounting bracket 6, and the residues can be recycled in a centralized mode after machining is completed.

Need not artifical repeated repair after floating, also can not collect a large amount of residues simultaneously and release the template and cause the wasting of resources.

Further, the mounting bracket 6 is rotatable with respect to the moving bracket 3.

The mounting bracket 6 is rotatably connected with the movable bracket 3 through a rotating connecting plate 18, an air cylinder 19 is arranged on the movable bracket 3, a movable rod 20 is arranged on a piston rod of the air cylinder 19, a first pin 22 is arranged on the movable rod 20, a first frame 21 is arranged on the mounting bracket 6, and the first pin 22 is in rolling connection with the first frame 21.

The bottom of the mounting bracket 6 is provided with a plurality of groups of driven supporting pieces, the driven supporting pieces comprise a sliding box 23, a sliding plate 24, a sliding rod 25, a second pin shaft 26, a spring 27 and a second frame body 37, the sliding box 23 is arranged on the moving bracket 3, the sliding plate 24 is connected with the sliding plate 24 in the sliding box 23, the sliding rod 25 is arranged at the top of the sliding plate 24, the sliding rod 25 extends out of the sliding box 23 and is provided with the second pin shaft 26, the spring 27 is arranged between the sliding plate 24 and the sliding box 23, the second frame body 37 is arranged on the mounting bracket 6, the second pin shaft 26 is connected with the second frame body 37 in a rolling manner, and the driven supporting component improves the stability of the vibrating device during operation.

Referring to fig. 6, the driving cylinder 19 extends the piston rod to rotate the mounting bracket 6 clockwise, i.e. the receiving plate 14 tilts downwards to the right, i.e. the residue is guided, so that the efficiency of collecting the residue flowing into the floating box 5 is accelerated.

Meanwhile, after the processing is finished, the piston rod is contracted to enable the material receiving plate 14 to incline leftwards and downwards, and further the centralized and efficient dumping of residues can be achieved.

The anti-sticking smooth soil plate laid on the top of the material receiving plate 14 has super-strong lubricity, does not absorb water at the same time, and can cut off molecular chains formed by water absorption, so that concrete is not hung on the material receiving plate any more, and the problem of bonding of concrete residues is avoided.

Troweling box 5 opening side is provided with apron 13 that can seal troweling box 5 and drive apron 13 pivoted switching motor 29 (how to drive apron 13 and rotate and be prior art and not being repeated), when connecing flitch 14 to bar hole 28 one side and remove, apron 13 is opened, apron 13 seals when connecing flitch 14 to stretch out to the stick that vibrates 8 below and remove, further make concrete residue concentrate the gathering, mutual bonding between the residue of gathering can make the residue empty more thoroughly, reduce and remain the waste of further reduction resource.

The foregoing is illustrative of the preferred embodiments of this invention, and it is to be understood that the invention is not limited to the precise form disclosed herein and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the concept as disclosed herein, either as described above or as apparent to those skilled in the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A vibrating device for building concrete pouring process comprises a template (1), an extension plate (2), a movable support (3) and a movable wheel set (4), wherein the extension plate (2) is arranged on the side face of the template (1), communicated tracks are arranged on the template (1) and the extension plate (2), the movable support (3) is provided with the movable wheel set (4) and a driving device for driving the movable wheel set (4) to move along the tracks, the vibrating device is characterized in that a mounting support (6) is arranged on the movable support (3), a rotatable rotating rod (10) is arranged on the mounting support (6), a plurality of vibrating rods (8) are arranged on the rotating rod (10), a plurality of vibrating motors (9) for driving the vibrating rods (8) to work are arranged on the mounting support (6), the vibrating motors (9) and the vibrating rods (8) are arranged in a one-to-one correspondence manner, a leveling box body (5) is arranged on the mounting support (6), be provided with in the floating box body (5) and can collect vibrating rod (8) and take out material receiving plate (14) that carry the residue after the concrete, be provided with drive dwang (10) on installing support (6) and connect the drive assembly of material receiving plate (14) synchronous working.

2. The vibrating device for building concrete pouring process according to claim 1, characterized in that a plurality of clamps (12) matched with the vibrating rod (8) are arranged on the rotating rod (10), and a plurality of groups of damping shock absorbers (11) are arranged between the clamps (12) and the rotating rod (10).

3. The vibrating device for the building concrete pouring process according to claim 1, characterized in that the bottom surface of the troweling tank (5) is arranged in parallel with the top surface of the poured concrete, the troweling tank (5) is connected with the mounting bracket (6) through a connecting rod (7), and the connecting rod (7) is an L-shaped connecting rod.

4. The vibrating device for the building concrete pouring process according to claim 1, wherein the driving assembly comprises a plug motor (32), a rotatable driven shaft (30), a rotatable driving shaft (31) and a rotatable transmission shaft (35), the driven shaft (30), the driving shaft (31) and the transmission shaft (35) are all arranged on the mounting bracket (6), the plug motor (32) is in transmission connection with the driving shaft (31) through a bevel gear transmission pair, the rotating rod (10) is connected with the driving shaft (31), the driving shaft (31) is provided with the driving gear (33), the transmission shaft (35) is provided with an idler gear (34) and a driving pulley (36), the driven shaft (30) is provided with an incomplete gear (16) and a driven pulley (17), the receiving plate (14) is provided with a rack (15), and the driving gear (33) is meshed with the idler gear (34), the driving pulley (36) is connected with the driven pulley (17) through a belt, and the incomplete gear (16) is intermittently meshed with the rack (15).

5. Vibrating device for building concrete pouring processes according to claim 1, characterized in that the mounting bracket (6) is rotatable relative to the mobile bracket (3).

6. The vibrating device for building concrete pouring process according to claim 5, characterized in that the mounting bracket (6) is rotatably connected with the moving bracket (3) through a rotating connecting plate (18), the moving bracket (3) is provided with a cylinder (19), a piston rod of the cylinder (19) is provided with a moving rod (20), the moving rod (20) is provided with a first pin shaft (22), the mounting bracket (6) is provided with a first frame body (21), and the first pin shaft (22) is in rolling connection with the first frame body (21).

7. The vibrating device for building concrete pouring process according to claim 5, characterized in that a plurality of groups of driven supporting pieces are arranged at the bottom of the mounting bracket (6), each driven supporting piece comprises a sliding box (23), a sliding plate (24), a sliding rod (25), a second pin shaft (26), a spring (27) and a second frame body (37), the sliding box (23) is arranged on the movable bracket (3), the sliding plate (24) is connected in the sliding box (23), the sliding rod (25) is arranged at the top of the sliding plate (24), the sliding rod (25) extends out of the sliding box (23) and is provided with the second pin shaft (26), the spring (27) is arranged between the sliding plate (24) and the sliding box (23), the second frame body (37) is arranged on the mounting bracket (6), and the second pin shaft (26) is connected with the second frame body (37) in a rolling manner.

8. The vibrating device for the building concrete pouring process according to claim 1, characterized in that the troweling box body (5) is open on one side and is provided with a strip-shaped hole (28) on the opposite side, and the size of the strip-shaped hole (28) is matched with that of the receiving plate (14).

9. The vibrating device for the building concrete pouring process according to claim 8, characterized in that the open side of the troweling case (5) is provided with a cover plate (13) that can close the troweling case (5) and a switching motor (29) that drives the cover plate (13) to rotate.

10. The vibrating device for building concrete pouring process according to claim 8, characterized in that anti-skid earth plates are laid on top of the receiving plates (14).