CN114673358A

CN114673358A - Building pouring vibrating device

Info

Publication number: CN114673358A
Application number: CN202210240579.3A
Authority: CN
Inventors: 何自祥
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-10
Filing date: 2022-03-10
Publication date: 2022-06-28

Abstract

The invention relates to a vibrating device, in particular to a building pouring vibrating device. The building pouring vibrating device can be placed on the surface of concrete and is convenient to move. A building pouring vibrating device comprises a vibrating rod, a first mounting block, a frame body, a first spring and the like; the vibrating rod is characterized in that a first mounting block is arranged at the top of the vibrating rod, a frame body is arranged on the outer side of the first mounting block in a sliding mode, and eight first springs are connected between the frame body and the first mounting block. The staff places the bottom plate on the concrete surface, and the bottom plate is bulky makes this device lifting surface area big, avoids this device to be absorbed in the concrete, simultaneously, because the bottom plate left and right sides is the perk setting, can effectively avoid the concrete to flow to the bottom plate when this device shift position on, gear motor's output shaft rotates and makes the slow downstream of vibrating rod to extrude the tamping with the inside space of concrete.

Description

Building pouring vibrating device

Technical Field

The invention relates to a vibrating device, in particular to a building pouring vibrating device.

Background

When concrete is poured, a concrete vibrator is needed to vibrate the poured concrete, so that air bubbles in the concrete are eliminated, gaps in the concrete are eliminated, the concrete is combined compactly, the strength of a concrete structure is improved, and the quality of a concrete member is ensured.

Patent grant publication number is CN 213449528U's patent has announced a building pouring equipment of vibrating, and this equipment of vibrating includes the bottom plate, the lower terminal surface of bottom plate can be dismantled and be connected with four evenly distributed's removal wheel, two first cylinder, two are all installed to the up end of first mounting panel two of the left side fixedly connected with of horizon bar push away the handle, two second cylinders are installed to the up end of installing frame, two the lower terminal surface of second connecting rod can be dismantled and be connected with the limiting plate, the up end of installing frame runs through and has seted up the second opening, the protection box is installed to the up end of installing frame, the motor of vibrating is installed on the right side of installing block, the output of motor of vibrating can be dismantled and be connected with the connection flexible axle, the lower terminal surface mounting of spliced pole has the vibrating rod. However, such vibrating devices are easily stuck in the concrete during operation and are cumbersome to move.

Therefore, the building pouring vibrating device which can be placed on the surface of concrete and is convenient to move is provided.

Disclosure of Invention

In order to overcome the defect that the existing vibrating equipment is easy to get into concrete in the operation process and is troublesome to move, the technical problem to be solved is as follows: the building pouring vibrating device can be placed on the surface of concrete and is convenient to move.

The utility model provides a building pouring vibrator, is including the tamp, first installation piece, framework, first spring, guiding mechanism and actuating mechanism, and the tamp top is equipped with first installation piece, and first installation piece outside sliding type is equipped with the framework, is connected with eight first springs between framework and the first installation piece, is equipped with guiding mechanism in the framework, and guiding mechanism is used for reciprocating the framework and leads, is equipped with actuating mechanism on the guiding mechanism, and actuating mechanism is used for driving the framework and reciprocates.

As preferred, guiding mechanism is including guide block, montant, first connecting ring, mounting disc and bottom plate, and both sides all are equipped with the guide block on the front and back of framework and right side, and all the slidingtype is equipped with the montant in the three guide block, is equipped with first connecting ring between the three montant top, is connected with the mounting disc between the three montant bottom, and the mounting disc bottom is equipped with the bottom plate.

Preferably, actuating mechanism is including second installation piece, the lead screw, first mounting bracket, gear motor, sector gear and full gear, the framework left side is equipped with second installation piece, the rotary type is connected with the lead screw between first connecting ring and the mounting disc left side, the lead screw passes through threaded connection with second installation piece, the bottom plate left side is equipped with first mounting bracket, first mounting bracket upper portion is equipped with gear motor, be equipped with sector gear on gear motor's the output shaft, the lead screw lower part is equipped with full gear, full gear and sector gear cooperation.

As preferred, still including being used for carrying out the knocking mechanism who beats to first installation piece, knocking mechanism is including second mounting bracket, slide bar, second spring and knocking the pole, and framework left side front side and right back side all are equipped with the second mounting bracket, and the slidingtype is equipped with the slide bar between two second mounting brackets, all around having connect the second spring between slide bar and the second mounting bracket, and the slide bar both ends all are equipped with strikes the pole, strikes the pole and moves down and first installation piece contact.

As preferred, still including being used for promoting the slewing mechanism of slide bar downstream, slewing mechanism is including the third mounting bracket, the horizontal pole, the mounting panel, the rotor plate, telescopic link and second go-between, the right front side of mounting panel and left rear side all are equipped with the third mounting bracket, equal vertical equidistance is equipped with six horizontal poles on the third mounting bracket, the right front side of framework and left rear side all are equipped with the mounting panel, equal rotary type is equipped with the rotor plate on the mounting panel, the rotor plate downstream all with the horizontal pole contact of homonymy, the rotor plate the inner all is equipped with the telescopic link, the equal slidingtype in telescopic link the inner is equipped with the second go-between, the second go-between all is connected with the slide bar rotary type.

Preferably, still including being used for adjusting the elevating system of mounting disc height, elevating system is equipped with first square plate, guide frame and bar shaped plate including first square plate, guide frame and bar shaped plate, the mounting disc front side, and first square plate front side slip formula is equipped with the guide frame, and the guide frame left and right sides all is equipped with the bar shaped plate.

Preferably, the heavy object placing device further comprises a placing mechanism for placing heavy objects, the placing mechanism comprises a square block, prismatic rods, a second square plate and placing frames, the square block is arranged on the front side of the lower portion of the guide frame, the two prismatic rods are arranged in the square block in a sliding mode, the second square plate is arranged between the two prismatic rods, and the four placing frames are arranged at the top of the second square plate.

Preferably, the strip-shaped plates are longitudinally provided with eight clamping grooves at equal intervals.

The invention has the following advantages: 1. the staff places the bottom plate on the concrete surface, and the bottom plate volume is great makes this device lifting surface area big, avoids in this device is absorbed in the concrete, simultaneously, because the bottom plate left and right sides is the perk setting, can effectively avoid the concrete to flow on the bottom plate when this device shift position.

2. The output shaft of gear motor rotates and makes the vibrating rod slowly move down to it is filled with the inside space extrusion of concrete.

3. The rotor plate constantly is extrudeed the upswing when moving down, and then makes the slide bar constantly drive and strikes the pole and move down and strike first installation piece and strike to make the vibrating spear constantly reciprocate, thereby improve the efficiency of vibrating, extrude the tamping in the concrete inside space fast.

4. The square board of second is placed subaerial outside the concrete, pushes down the square board of second through the heavy object to for the bottom plate provides certain holding power, further avoid the bottom plate to be absorbed in the concrete, simultaneously, the staff can promote first square board slide adjusting position from top to bottom in the guide frame according to concrete placement's thickness, thereby more make things convenient for this device to use.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a partial sectional structural schematic diagram of the present invention.

Fig. 4 is a schematic perspective view of the guide mechanism and the driving mechanism of the present invention.

Fig. 5 is a schematic perspective view of the knocking mechanism according to the present invention.

Fig. 6 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 7 is a schematic perspective view of the lifting mechanism of the present invention.

Fig. 8 is a schematic perspective view of the placement mechanism of the present invention.

Description of reference numerals: 1_ tamper, 2_ first mounting block, 3_ frame, 4_ first spring, 5_ guide mechanism, 51_ guide block, 52_ vertical bar, 521_ first connecting ring, 53_ mounting disc, 54_ bottom plate, 6_ drive mechanism, 61_ second mounting block, 62_ lead screw, 63_ first mounting block, 64_ reduction motor, 65_ sector gear, 66_ full gear, 7_ knocking mechanism, 71_ second mounting block, 72_ slide bar, 73_ second spring, 74_ knocking bar, 8_ rotation mechanism, 81_ third mounting block, 82_ cross bar, 83_ mounting plate, 84_ rotation plate, 85_ telescopic bar, 86_ second connecting ring, 9_ lifting mechanism, 91_ first square plate, 92_ guide frame, 93_ strip plate, 10_ placement mechanism, 101_ square block, 102_ prismatic bar, 103_ second square plate, and 104_ placement frame.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

The utility model provides a building pouring vibrating device, as shown in fig. 1-4, including the tamp 1, first installation piece 2, framework 3, first spring 4, guiding mechanism 5 and actuating mechanism 6, the welding of 1 top of tamp has first installation piece 2, the slidingtype framework 3 that is equipped with in 2 outsides of first installation piece, be connected with eight first springs 4 between framework 3 and the first installation piece 2, be equipped with guiding mechanism 5 on the framework 3, guiding mechanism 5 can reciprocate framework 3 and lead, be equipped with actuating mechanism 6 on the guiding mechanism 5, actuating mechanism 6 can drive framework 3 and reciprocate.

As shown in fig. 1 and 4, the guide mechanism 5 includes guide blocks 51, vertical bars 52, first connecting rings 521, a mounting plate 53 and a bottom plate 54, the guide blocks 51 are fixedly connected to the front side, the rear side and the right side of the frame 3 through bolts, the vertical bars 52 are slidably arranged in the three guide blocks 51, the first connecting rings 521 are welded between the tops of the three vertical bars 52, the mounting plate 53 is connected between the bottoms of the three vertical bars 52, and the bottom plate 54 is welded at the bottom of the mounting plate 53.

As shown in fig. 1 and 4, the driving mechanism 6 includes a second mounting block 61, a screw 62, a first mounting frame 63, a speed reducing motor 64, a sector gear 65 and a full gear 66, the second mounting block 61 is fixedly connected to the left side of the frame 3 through a bolt, the screw 62 is rotatably connected between the first connecting ring 521 and the left side of the mounting plate 53, the screw 62 is connected with the second mounting block 61 through a thread, the first mounting frame 63 is welded to the left side of the bottom plate 54, the speed reducing motor 64 is fixedly connected to the upper portion of the first mounting frame 63 through a bolt, the sector gear 65 is keyed on an output shaft of the speed reducing motor 64, the full gear 66 is keyed on the lower portion of the screw 62, and the full gear 66 is matched with the sector gear 65.

When the device is used, a worker moves the device above poured concrete, the device can be prevented from being sunk into the concrete under the action of the bottom plate 54, then the worker starts the speed reducing motor 64, the output shaft of the speed reducing motor 64 rotates to drive the sector gear 65 to rotate, when the sector gear 65 rotates to be meshed with the full gear 66, the sector gear 65 rotates to drive the full gear 66 to rotate, the full gear 66 rotates to drive the screw rod 62 to rotate, the screw rod 62 rotates to drive the second mounting block 61 to move downwards, the second mounting block 61 moves downwards to drive the frame body 3 to move downwards, the frame body 3 moves downwards to drive the guide block 51 to move downwards on the vertical rod 52, the frame body 3 drives the vibrating rod 1 to move downwards through the first mounting block 2 while moving downwards, the vibrating rod 1 is inserted into the concrete after moving downwards, the output shaft of the speed reducing motor 64 continuously rotates to enable the vibrating rod 1 to move downwards slowly, thereby fill up the inside space extrusion of concrete, after 1 downstream of the vibrating rod to the concrete bottommost, staff control gear motor 64's output shaft reversal, sector gear 65 reverses thereupon and drives the reversal of full gear 66, and then make lead screw 62 reverse drive second installation piece 61 rebound, framework 3 drives vibrating rod 1 rebound through first installation piece 2 thereupon and extracts from the concrete, then the staff closes gear motor 64, at this moment, the staff removes on promoting this device on the concrete, remove the in-process, because the bottom plate 54 left and right sides is the perk setting, can effectively avoid the concrete to flow on bottom plate 54, after this device removes to another position, the staff drives this device again and vibrates the work.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 5, the mounting structure further comprises a knocking mechanism 7, the knocking mechanism 7 can knock the first mounting block 2, the knocking mechanism 7 comprises a second mounting frame 71, a sliding rod 72, a second spring 73 and a knocking rod 74, the second mounting frame 71 is welded on the left front side and the right rear side of the frame body 3, the sliding rod 72 is arranged between the two second mounting frames 71, the second spring 73 is wound between the sliding rod 72 and the second mounting frame 71, the knocking rod 74 is welded on two ends of the sliding rod 72, and the knocking rod 74 moves downwards to be in contact with the first mounting block 2.

As shown in fig. 1 and 6, the slide bar installation structure further comprises a rotating mechanism 8, the rotating mechanism 8 can push the slide bar 72 to move downwards, the rotating mechanism 8 comprises a third installation frame 81, cross bars 82, installation plates 83, rotating plates 84, telescopic rods 85 and second connection rings 86, the third installation frame 81 is fixedly connected to the right front side and the left rear side of the installation plate 53 through bolts, six cross bars 82 are welded to the third installation frame 81 at equal longitudinal intervals, the installation plates 83 are welded to the right front side and the left rear side of the frame body 3, the rotating plates 84 are arranged on the installation plates 83 in an equal rotating mode, the rotating plates 84 move downwards to be in contact with the cross bars 82 at the same side, the telescopic rods 85 are welded to the inner ends of the rotating plates 84, the second connection rings 86 are arranged at the inner ends of the telescopic rods 85 in an equal sliding mode, and the second connection rings 86 are rotatably connected with the slide bar 72.

When the device is used, the frame body 3 moves downwards and simultaneously drives the rotating plate 84 to move downwards through the mounting plate 83, when the rotating plate 84 moves downwards to be in contact with the cross bar 82, the frame body 3 continues to move downwards, so that the outer end of the rotating plate 84 is extruded and swings upwards, the inner end of the rotating plate 84 drives the telescopic rod 85 to swing downwards, the telescopic rod 85 swings downwards and drives the sliding rod 72 to slide downwards through the second connecting ring 86, the second spring 73 is deformed, the sliding rod 72 slides downwards to drive the knocking rod 74 to move downwards to knock the first mounting block 2, so as to extrude the first mounting block 2 to slide downwards in the frame body 3, the first spring 4 is deformed, the first mounting block 2 slides downwards to drive the vibrating rod 1 to move downwards, when the rotating plate 84 moves downwards to be separated from the cross bar 82, under the reset effect of the second spring 73, the sliding rod 72 slides upwards along with the sliding rod 72 to drive the knocking rod 74 to move upwards, under the action of resetting of the first spring 4, the first mounting block 2 drives the vibrating rod 1 to move upwards, the sliding rod 72 slides upwards and drives the telescopic rod 85 to swing upwards through the second connecting ring 86, so that the rotating plate 84 rotates upwards to reset, and when the rotating plate 84 moves downwards to be in contact with the next cross rod 82, the actions are repeated to enable the vibrating rod 1 to move upwards and downwards continuously, so that the vibrating efficiency is improved, and the inner gap of concrete is extruded and filled quickly; when the frame body 3 moves upwards, the rotating plate 84 moves upwards along with the rotating plate, when the rotating plate 84 moves upwards to be in contact with the cross bar 82, the outer end of the rotating plate 84 is extruded and swings downwards, so that the telescopic rod 85 swings upwards, the telescopic rod 85 swings upwards to drive the sliding rod 72 to slide upwards through the second connecting ring 86, the second spring 73 deforms, after the rotating plate 84 moves upwards to be separated from the cross bar 82, under the reset effect of the second spring 73, the sliding rod 72 drives the second connecting ring 86 to move downwards, so that the telescopic rod 85 swings downwards, and the rotating plate 84 swings upwards to reset.

As shown in fig. 1 and 7, still including elevating system 9, elevating system 9 can adjust the mounting disc 53 height, and elevating system 9 is including first square plate 91, guide frame 92 and strip shaped plate 93, and the welding of mounting disc 53 front side has first square plate 91, and the sliding type is equipped with guide frame 92 in the front of first square plate 91, and the strip shaped plate 93 has all been welded to the guide frame 92 left and right sides, and it has eight draw-in grooves all to open on the strip shaped plate 93 vertical equidistance.

As shown in fig. 1 and fig. 8, the heavy object placing device 10 is further included, the heavy object placing device 10 can place heavy objects, the placing device 10 includes square blocks 101, prismatic rods 102, second square plates 103 and placing frames 104, the square blocks 101 are welded to the front side of the lower portion of the guide frame 92, the two prismatic rods 102 are arranged in the square blocks 101 in a sliding mode, the second square plates 103 are welded between the two prismatic rods 102, and the four placing frames 104 are welded to the tops of the second square plates 103.

When the device is used, a worker pushes the first square plate 91 to slide up and down to a proper position in the guide frame 92 according to the thickness of concrete pouring, then the worker inserts the insert rod into the clamping groove on the strip-shaped plate 93, so that the insert rod is positioned below the first square plate 91, the position of the first square plate 91 is fixed, after the position is adjusted, the worker places the second square plate 103 on the ground for pouring concrete, so that the bottom plate 54 is positioned on the surface of the concrete, after the position is adjusted, the worker places a heavy object on the placing frame 104, and presses the second square plate 103, so that a certain supporting force is provided for the bottom plate 54, the bottom plate 54 is further prevented from being sunk into the concrete, after the vibrating rod 1 finishes vibrating at one position, the worker controls the vibrating rod 1 to move upwards and pull out, at this time, the worker pushes the square block 101 to slide left and right on the prismatic rod 102, and then the lifting mechanism 9 drives the mounting disc 53 to move left and right, so that the bottom plate 54 moves left and right to adjust the vibrating position.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims

1. The utility model provides a building pouring vibrating device, including vibrating rod (1), first installation piece (2), framework (3) and first spring (4), vibrating rod (1) top is equipped with first installation piece (2), first installation piece (2) outside slidingtype is equipped with framework (3), be connected with eight first spring (4) between framework (3) and first installation piece (2), a serial communication port, still including guiding mechanism (5) and actuating mechanism (6), be equipped with guiding mechanism (5) on framework (3), guiding mechanism (5) are used for reciprocating framework (3) and lead, be equipped with actuating mechanism (6) on guiding mechanism (5), actuating mechanism (6) are used for driving framework (3) and reciprocate.

2. The building pouring vibrating device according to claim 1, wherein the guide mechanism (5) comprises guide blocks (51), vertical rods (52), first connecting rings (521), a mounting disc (53) and a bottom plate (54), the guide blocks (51) are arranged on the front side, the rear side and the right side of the frame body (3), the vertical rods (52) are arranged in the three guide blocks (51) in a sliding mode, the first connecting rings (521) are arranged between the tops of the three vertical rods (52), the mounting disc (53) is connected between the bottoms of the three vertical rods (52), and the bottom plate (54) is arranged at the bottom of the mounting disc (53).

3. The building pouring vibrating device according to claim 2, wherein the driving mechanism (6) comprises a second mounting block (61), a screw rod (62), a first mounting frame (63), a speed reducing motor (64), a sector gear (65) and a full gear (66), the second mounting block (61) is arranged on the left side of the frame body (3), the screw rod (62) is rotatably connected between the left sides of the first connecting ring (521) and the mounting disc (53), the screw rod (62) is in threaded connection with the second mounting block (61), the first mounting frame (63) is arranged on the left side of the bottom plate (54), the speed reducing motor (64) is arranged on the upper portion of the first mounting frame (63), the sector gear (65) is arranged on an output shaft of the speed reducing motor (64), the full gear (66) is arranged on the lower portion of the screw rod (62), and the full gear (66) is matched with the sector gear (65).

4. The building pouring vibrating device according to claim 3, further comprising a knocking mechanism (7) used for knocking the first mounting block (2), wherein the knocking mechanism (7) comprises a second mounting frame (71), a sliding rod (72), a second spring (73) and a knocking rod (74), the second mounting frame (71) is arranged on the left front side and the right rear side of the frame body (3), the sliding rod (72) is arranged between the two second mounting frames (71), the second spring (73) is wound between the sliding rod (72) and the second mounting frames (71), the knocking rods (74) are arranged at two ends of the sliding rod (72), and the knocking rods (74) move downwards to be in contact with the first mounting block (2).

5. The building pouring vibrating device according to claim 4, further comprising a rotating mechanism (8) for pushing the sliding rod (72) to move downwards, wherein the rotating mechanism (8) comprises a third mounting frame (81), cross rods (82), a mounting plate (83), a rotating plate (84), telescopic rods (85) and second connecting rings (86), the third mounting frame (81) is arranged on the right front side and the left rear side of the mounting plate (53), six cross rods (82) are longitudinally and equidistantly arranged on the third mounting frame (81), the mounting plates (83) are arranged on the right front side and the left rear side of the frame body (3), the rotating plates (84) are rotatably arranged on the mounting plates (83), the rotating plates (84) move downwards and are in contact with the cross rods (82) on the same side, the telescopic rods (85) are arranged at the inner ends of the rotating plates (84), the second connecting rings (86) are slidably arranged at the inner ends of the telescopic rods (85), the second connecting rings (86) are rotatably connected with the sliding rod (72).

6. The building pouring vibrating device according to claim 5, further comprising a lifting mechanism (9) for adjusting the height of the mounting plate (53), wherein the lifting mechanism (9) comprises a first square plate (91), a guide frame (92) and a strip-shaped plate (93), the first square plate (91) is arranged on the front side of the mounting plate (53), the guide frame (92) is movably arranged on the front side of the first square plate (91), and the strip-shaped plates (93) are arranged on the left side and the right side of the guide frame (92).

7. The building pouring vibrating device according to claim 6, further comprising a placing mechanism (10) for placing a heavy object, wherein the placing mechanism (10) comprises a square block (101), prismatic rods (102), a second square plate (103) and placing frames (104), the square block (101) is arranged on the front side of the lower portion of the guide frame (92), the two prismatic rods (102) are arranged in the square block (101) in a sliding mode, the second square plate (103) is arranged between the two prismatic rods (102), and the four placing frames (104) are arranged at the top of the second square plate (103).

8. The building pouring vibrating device according to claim 7, wherein the strip-shaped plates (93) are longitudinally provided with eight clamping grooves at equal intervals.