CN115194912A - Vibrator for producing T-shaped beam - Google Patents

Abstract

The invention relates to the technical field of vibrators, in particular to a vibrator for producing a T-shaped beam, which comprises a movable support, wherein the bottom of the movable support is provided with a plurality of suspension devices, the bottom of each suspension device is provided with a vibrating device, and a T-shaped beam module is arranged below each vibrating device; the vibrating device comprises a first plate located below the suspension device, six cylindrical through holes distributed in a linear array are formed in the first plate, and corrugated pipes penetrate through the cylindrical through holes. Provide high-pressure gas through high compression pump, make high-pressure gas spout from the air outlet groove in the piece that deflects to drive the high-speed rotation of piece that deflects, the piece that deflects drives the pipe high-frequency vibration that vibrates, thereby realizes the effect of tamping, and journal bearing and thrust bearing support deflection piece and hollow bearing when spacing, the heat of production can be taken away by exhaust high-pressure gas, thereby has improved journal bearing and thrust bearing's life.

Description

Vibrator for producing T-shaped beam

Technical Field

The invention relates to the technical field of vibrators, in particular to a vibrator for producing a T-shaped beam.

Background

When the concrete vibrator works, the internal friction and adhesion between particles in the concrete are reduced sharply, the concrete is in a heavy liquid state, the aggregates slide and are rearranged, gaps among the aggregates are filled with mortar, and the bubbles are extruded out, so that the tamping effect is achieved.

At present, when vibrating the cement in the T shape roof beam module on the market, because the width difference at T shape roof beam module bottom and top is great, often need the artifical equidistance of small-size vibrator of carrying to carry out the tamping to the inside cement of T shape roof beam module, tamping efficiency is comparatively low, influence the construction progress, and deflection shaft in the present vibrator is when high-speed rotating, support spacing bearing to deflection shaft and can sharply generate heat, life reduces at excessive speed, consequently need urgently a bearing life in the vibrator to obtain the extension, tamping efficiency is high, and can be applicable to a production T for roof beam vibrator of T shape roof beam module.

The above information disclosed in this background section is only for enhancement of understanding of the background of the disclosure and therefore it may contain information that does not form the prior art that is already known to a person of ordinary skill in the art.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a vibrator for producing a T-shaped beam.

The technical scheme adopted by the invention for solving the technical problem is as follows: a vibrator for producing T-shaped beams comprises a movable support, wherein a plurality of suspension devices are arranged at the bottom of the movable support, vibrating devices are arranged at the bottoms of the suspension devices, and T-shaped beam modules are arranged below the vibrating devices;

the utility model discloses a vibration device, including the first board that is located the hanging device below, the inside cylinder through-hole that has six to be linear array distribution that opens of first board, the inside bellows that runs through of cylinder through-hole, bellows bottom fixedly connected with vibration pipe, vibrate intraductal global two first supporting sheets of fixedly connected with, first supporting sheet bottom fixedly connected with thrust bearing, thrust bearing bottom fixedly connected with second supporting sheet, second supporting sheet bottom fixedly connected with journal bearing, two first supporting sheet inner peripheral surfaces run through and fixedly connected with hollow shaft, hollow shaft bottom fixedly connected with deflection piece, deflection piece middle part is opened there is the air outlet duct, first hollow column top end rotates and is connected with the connector, journal bearing, second supporting sheet and connector all with the intraductal global fixed connection that vibrates, connector top fixedly connected with, the intake pipe runs through the bellows top, the intake pipe top runs through and fixedly connected with locating piece, the locating piece outside is equipped with the holding ring, four fixedly connected with of fixedly connected with between holding ring and the locating piece are the first spring that annular array distributes, the holding disk, bellows runs through the holding disk top, two air pump top fixed connection of the air pump top is connected with the air outlet duct with the high-pressure air pump.

Specific speaking, the suspension device includes the first pneumatic cylinder with first board top fixed connection, first board one end fixedly connected with second board is kept away from to first pneumatic cylinder, open second board one side has the first groove, the second board opposite side is opened there is the second groove, the inside fixedly connected with U-shaped board of second groove, the inside sliding connection of U-shaped board has the connecting plate, connecting plate and first groove sliding connection, connecting plate outer wall one side is rotated and is connected with first pole, first pole is kept away from connecting plate one end and is rotated and be connected with the second pole, first pole one end is kept away from to the second pole and is rotated with the first board and be connected, second board one side is kept away from to first pole and second pole is equipped with the second pneumatic cylinder, the second pneumatic cylinder output is kept away from connecting plate one side with the first pole and is rotated and is connected, the second pneumatic cylinder is kept away from first pole one end and is kept away from second board one side with the second pole and is rotated and is connected.

Specifically speaking, the top end of the second plate is fixedly connected with a lifting ring, the top of the lifting ring is provided with a crane, the crane is fixedly connected with the movable support, the bottom of the crane is connected with a lifting appliance through a rope, and the lifting appliance is detachably connected with the lifting ring.

Specifically, air ducts are arranged on two sides of the inner circumferential surface of the vibrating tube, one end of each air duct is located below the deflection block, and the other end of each air duct is located above the connector.

Specifically speaking, the top of the positioning block is fixedly connected with four second springs, and the second springs are fixedly connected with the top surface of the inner cavity of the positioning plate.

Specifically, the top end of the inner peripheral surface of the corrugated pipe is fixedly connected with four limiting blocks distributed in an annular array, and the limiting blocks are fixedly connected with the air inlet pipe.

The invention has the beneficial effects that:

(1) According to the vibrator for producing the T-shaped beam, high-pressure gas is provided through the high-pressure gas pump, so that the high-pressure gas is sprayed out of the gas outlet groove in the deflection block, the deflection block is driven to rotate at a high speed, the deflection block drives the vibrating tube to vibrate at a high frequency, the tamping effect is achieved, and when the deflection block and the hollow bearing are supported and limited by the radial bearing and the thrust bearing, heat generated by the radial bearing and the thrust bearing can be taken away by the discharged high-pressure gas, so that the service lives of the radial bearing and the thrust bearing are prolonged.

(2) According to the vibrator for producing the T-shaped beam, the connecting plate on one suspension device is controlled to be inserted into the first groove on the adjacent suspension device by controlling the shortening or the extension of the output shaft of the second hydraulic cylinder, so that the plurality of suspension devices form a whole, the width of the vibrator is adjusted, the device can quickly vibrate the narrow part at the bottom of the T-shaped beam module and synchronously vibrate the wide part at the top of the T-shaped beam module, the vibrator does not need to manually carry small vibrators to vibrate slowly one by one in the prior art, the vibrator can synchronously vibrate quickly, and the vibrator is suitable for vibrating sections with different widths.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

FIG. 1 is a schematic view of the overall structure provided by the present invention;

FIG. 2 is a perspective view of a suspension device provided by the present invention;

FIG. 3 is a partial cross-sectional view provided by the present invention;

FIG. 4 is a partial cross-sectional view of a first plate provided by the present invention;

FIG. 5 is a partial cross-sectional view of a vibrating tube provided by the present invention;

fig. 6 is a cross-sectional view of the interior of the hollow shaft provided by the present invention.

In the figure: 1. the device comprises a movable support, a 2, a suspension device, a 3, a vibrating device, a 4, a T-shaped beam module, a 5, a first plate, a 6, a cylindrical through hole, a 7, a corrugated pipe, a 8, a vibrating pipe, a 9, a first supporting sheet, a 10, a thrust bearing, a 11, a second supporting sheet, a 12, a radial bearing, a 13, a hollow shaft, a 14, a deflection block, a 15, an air outlet groove, a 16, a connector, a 17, an air inlet pipe, an 18, a positioning block, a 19, a positioning ring, a 20, a first spring, a 21, a positioning disc, a 22, a high-pressure air pump, a 23, an air outlet pipe, a 24, a first hydraulic cylinder, a 25, a second plate, a 26, a first groove, a 27, a second groove, a 28, a U-shaped plate, a 29, a connecting plate, a 30, a first rod, a 31, a second rod, a 32, a second hydraulic cylinder, a 33, a lifting ring, a 34, a crane, a 35, a lifting appliance, a 36, a ventilation pipeline, a 37, a second spring, a 38 and a limiting block.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-6, the vibrator for producing T-shaped beams according to the present invention comprises a moving support 1, a plurality of suspension devices 2 are arranged at the bottom of the moving support 1, a vibrating device 3 is arranged at the bottom of each suspension device 2, a T-shaped beam module 4 is arranged below each vibrating device 3, the vibrating device 3 vibrating the concrete at high frequency sharply reduces the internal friction and adhesive force between particles in the concrete, the concrete is in a heavy liquid state, aggregates slide and rearrange, gaps between the aggregates are filled with mortar, and air bubbles are extruded out, so as to achieve the tamping effect, the number of the vibrating devices 3 descending is changed by the suspension devices 2, so that only a small number of corresponding vibrating devices 3 descend to work when vibrating a narrow bottom of the T-shaped beam module 4, and a wider top of the T-shaped beam module 4 can descend by a large number of corresponding vibrating devices 3, so that the vibrator can be applied to different T-shaped beam modules 4, and accelerate the vibrating speed and improve the efficiency;

the vibrating device 3 comprises a first plate 5 located below the suspension device 2, six cylindrical through holes 6 distributed in a linear array are formed in the first plate 5, a corrugated pipe 7 penetrates through the cylindrical through holes 6, a vibrating pipe 8 is fixedly connected to the bottom of the corrugated pipe 7, two first supporting pieces 9 are fixedly connected to the inner peripheral surface of the vibrating pipe 8, a thrust bearing 10 is fixedly connected to the bottom of each first supporting piece 9, a second supporting piece 11 is fixedly connected to the bottom of the thrust bearing 10, a radial bearing 12 is fixedly connected to the bottom of the second supporting piece 11, a hollow shaft 13 penetrates through and is fixedly connected to the inner peripheral surface of each first supporting piece 9, a deflection block 14 is fixedly connected to the bottom of the hollow shaft 13, an air outlet groove 15 is formed in the middle of the deflection block 14, a connector 16 is rotatably connected to the top end of the first hollow column, the radial bearing 12, the second supporting piece 11 and the connector 16 are fixedly connected to the inner peripheral surface of the vibrating pipe 8, an air inlet pipe 17 is fixedly connected to the top end of the connector 16, the air inlet pipe 17 penetrates through the top of the corrugated pipe 7, a positioning block 18 is fixedly connected to a positioning block 18, a positioning block 19 is fixedly connected to the top of the air pump 21, a high-pressure air outlet pipe 22 is connected to the positioning plate 5, a high-pressure air pump 21 is connected to the air outlet pipe 22, and a high-pressure air pump 21 is connected to the air outlet pipe 22, high-pressure gas enters the gas inlet pipe 17 from the gas outlet pipe 23, then enters the hollow shaft 13 through the connector 16, and then is discharged out of the deflection block 14 through the gas outlet groove 15, because the high-pressure gas is sprayed out of the deflection block 14 to generate reverse thrust, thereby driving the deflection block 14, the deflection block 14 drives the hollow shaft 13 to rotate at high speed, the hollow shaft 13 drives the first supporting sheet 9 and the radial bearing 12 to rotate at high speed, the first supporting sheet 9 drives the thrust bearing 10 to rotate at high speed, the thrust bearing 10 and the radial bearing 12 limit the hollow shaft 13 and simultaneously assist the hollow shaft 13 to rotate, the thrust bearing 10 and the radial bearing 12 start to generate heat under the high-speed rotation, the high-pressure gas rises from the bottom of the vibrating tube 8, passes through the thrust bearing 10 and the radial bearing 12 to take away heat, thereby prolonging the service life of the thrust bearing 10 and the radial bearing 12, and prolonging the whole service life of the equipment, then the gas with heat is discharged through the connector 16 and the corrugated pipe 7, the deflection block 14 with high-speed rotation drives the vibrating tube 8 to vibrate, thereby realizing the effect of compacting cement.

Specifically, the suspension device 2 comprises a first hydraulic cylinder 24 fixedly connected with the top of the first plate 5, one end of the first hydraulic cylinder 24, which is far away from the first plate 5, is fixedly connected with a second plate 25, one side of the second plate 25 is provided with a first groove 26, the other side of the second plate 25 is provided with a second groove 27, the second groove 27 is internally and fixedly connected with a U-shaped plate 28, the U-shaped plate 28 is internally and slidably connected with a connecting plate 29, the connecting plate 29 is slidably connected with the first groove 26, one side of the outer wall of the connecting plate 29 is rotatably connected with a first rod 30, one end of the first rod 30, which is far away from the connecting plate 29, is rotatably connected with the first plate 5, one end of the second rod 31, which is far away from the first rod 30, is rotatably connected with the second plate 5, the first rod 30 and the second rod 31 are far away from the second plate 25 are provided with a second hydraulic cylinder 32, the output end of the second hydraulic cylinder 32 is rotatably connected with one side of the first rod 30, which is far away from the connecting plate 29, the second rod 32 is far away from the first rod 31, the second rod 31, the output shaft 32 is extended, so as to drive the first rod 30 and the first rod 30 to drive the first rod 24 to extend, thereby the first rod 24 to increase the width of the first hydraulic cylinder, so that the first rod 24 is suitable for driving the whole of the concrete tamping bar 24, thereby increasing the length of the concrete vibrating bar 24, and the concrete vibrating bar 28, and the concrete vibrating bar is suitable for the concrete vibrating bar 5.

Specifically, a hanging ring 33 is fixedly connected to the top end of the second plate 25, a crane 34 is arranged on the top of the hanging ring 33, the crane 34 is fixedly connected with the moving support 1, the bottom of the crane 34 is connected with a lifting appliance 35 through a rope, the lifting appliance 35 is detachably connected with the hanging ring 33, the crane 34 drives the rope to descend, the rope drives the lifting appliance 35, the lifting appliance 35 drives the vibrating devices 3 which are connected into a whole in the middle to descend, so that when the bottom of the T-shaped beam module 4 is vibrated, a small number of vibrating devices 3 can be controlled to descend, when the top of the T-shaped beam module 4 is vibrated, most of the vibrating devices 3 can be controlled to descend, the equipment can be suitable for different stages of the T-shaped beam module 4, and the efficiency and the applicability are improved.

Specifically, the two sides of the inner peripheral surface of the vibrating tube 8 are provided with the vent pipes 36, one end of each vent pipe 36 is positioned below the deflection block 14, the other end of each vent pipe 36 is positioned above the connector 16, and when high-pressure gas rises from the bottom of the vibrating tube 8, part of the gas passes through the radial bearing 12 and the thrust bearing 10, and part of the gas passes through the vent pipes 36, so that the gas can be conveniently circulated out, and the gas is prevented from being accumulated at the bottom of the vibrating tube 8, and the pressure is excessive.

Specifically speaking, the top of the positioning block 18 is fixedly connected with four second springs 37, the second springs 37 are fixedly connected with the top surface of the inner cavity of the positioning plate 21, and the second springs 37 are matched with the first springs 20, so that the vibration generated by the vibrating tube 8 during working can be reduced and then transmitted to the positioning plate 21 and the first plate 5, and the influence of the vibration on parts above the positioning plate 21 and the first plate 5 is reduced.

Specifically, four limiting blocks 38 distributed in an annular array are fixedly connected to the top end of the inner circumferential surface of the corrugated pipe 7, the limiting blocks 38 are fixedly connected with the air inlet pipe 17, a gap exists between the air inlet pipe 17 and the corrugated pipe 7 through the limiting blocks 38, and air is conveniently discharged from the corrugated pipe 7.

The working principle is as follows: when the cement at the bottom of the T-shaped beam module 4 is tamped, firstly, the output shafts of the second hydraulic cylinders 32 on the suspension devices 2 at two sides are shortened to narrow the suspension device 2 forming the whole, then the crane 34 starts the suspension device 2 again to enable the vibrating device 3 to be positioned above the cement, then the first hydraulic cylinder 24 is started to insert the vibrating tube 8 into the cement, then the high-pressure air pump 22 is started, high-pressure air generated by the high-pressure air pump 22 drives the deflection block 14 to rotate at high speed to drive the vibrating tube 8 to vibrate at high frequency, so that the internal friction force and the adhesive force among particles in the concrete are reduced sharply, the concrete is in a heavy liquid state, aggregates slide and rearrange mutually, gaps among the aggregates are filled with mortar, bubbles are extruded out, and the effect of compaction is achieved, when the wider top of the T-shaped beam module 4 needs to be tamped, the suspension devices 2 are firstly lifted to the same horizontal plane, then the output shafts of the second hydraulic cylinders 32 on the suspension devices 2 of which two sides need to be assembled together are extended, so that the connecting plates 29 on one suspension device 2 are inserted into the first groove on the other suspension device 2, and then the whole, the T-shaped beam module 4 is combined to be tamped, and the whole, and the width of the T-shaped beam is enlarged;

high-pressure gas is provided by a high-pressure air pump 22 and is sprayed out of the air outlet groove 15 in the deflection block 14, so that the deflection block 14 is driven to rotate at a high speed, the deflection block 14 drives the vibrating tube 8 to vibrate at a high frequency, and the tamping effect is realized, and when the radial bearing 12 and the thrust bearing 10 support and limit the deflection block 14 and the hollow shaft 13, heat generated can be taken away by the discharged high-pressure gas, so that the service lives of the radial bearing 12 and the thrust bearing 10 are prolonged;

by controlling the shortening or the extension of the output shaft of the second hydraulic cylinder 32, the connecting plate 29 on one suspension device 2 is controlled to be inserted into the first groove 26 on the adjacent suspension device 2, so that a plurality of suspension devices 2 form a whole, the width adjustment of the equipment is realized, the equipment can quickly vibrate the narrow part at the bottom of the T-shaped beam module 4 and synchronously vibrate the wide part at the top of the T-shaped beam module 4, the low-speed vibration of small-sized vibrators carried by people in the prior art is not needed, the synchronous quick vibration can be realized, and the equipment is suitable for vibration sections with different widths.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (6)

1. The utility model provides a production T vibrator for roof beam, includes movable support (1), its characterized in that: the bottom of the movable support (1) is provided with a plurality of suspension devices (2), the bottom of each suspension device (2) is provided with a vibrating device (3), and a T-shaped beam module (4) is arranged below each vibrating device (3);

the vibrating device (3) comprises a first plate (5) located below the suspension device (2), six cylindrical through holes (6) distributed in a linear array are formed in the first plate (5), a corrugated pipe (7) penetrates through the cylindrical through holes (6), a vibrating pipe (8) is fixedly connected to the bottom of the corrugated pipe (7), two first supporting pieces (9) are fixedly connected to the inner circumferential surface of the vibrating pipe (8), a thrust bearing (10) is fixedly connected to the bottom of the first supporting pieces (9), a second supporting piece (11) is fixedly connected to the bottom of the thrust bearing (10), a radial bearing supporting piece (12) is fixedly connected to the bottom of the second supporting piece (11), a hollow shaft (13) is fixedly connected to the inner circumferential surface of the two first supporting pieces (9), a deflection block (14) is fixedly connected to the bottom of the hollow shaft (13), an air outlet groove (15) is formed in the middle of the deflection block (14), a connector (16) is rotatably connected to the top of the first hollow cylinder, the radial bearing (12), the second supporting piece (11) and the connector (16) are fixedly connected to the top of the vibrating pipe (8), and a positioning block (17) is fixedly connected to the top of the vibrating pipe (8), locating piece (18) outside is equipped with holding ring (19), four first springs (20) that are the ring array and distribute of fixedly connected with between holding ring (19) and locating piece (18), holding ring (19) outer peripheral face fixedly connected with positioning disk (21), positioning disk (21) top is run through in bellows (7), positioning disk (21) and first board (5) bottom surface fixed connection, two high compression pump (22) of first board (5) top fixedly connected with, two high compression pump (22) output end fixedly connected with outlet duct (23), outlet duct (23) and six intake pipe (17) top fixed connection.

2. The vibrator for producing the T-beam as claimed in claim 1, wherein: suspension device (2) include with first board (5) top fixed connection's first pneumatic cylinder (24), first board (5) one end fixedly connected with second board (25) are kept away from in first pneumatic cylinder (24), open second board (25) one side has first groove (26), second board (25) opposite side is opened has second groove (27), the inside fixedly connected with U-shaped board (28) of second groove (27), the inside sliding connection of U-shaped board (28) has connecting plate (29), connecting plate (29) and first groove (26) sliding connection, connecting plate (29) outer wall one side is rotated and is connected with first pole (30), connecting plate (29) one end is kept away from in first pole (30) and is rotated and be connected with second pole (31), first pole (30) one end is kept away from in second board (25) one side and is equipped with second pneumatic cylinder (32) second pole (31), second pneumatic cylinder (32) and second pole (31) are kept away from second board (25) one side and are connected second pole (30) rotation and second pole (31) one side is kept away from second pole (30) rotation and second pole (31).

3. The vibrator for producing the T-beam as claimed in claim 2, wherein: second plate (25) top fixedly connected with rings (33), rings (33) top is equipped with loop wheel machine (34), loop wheel machine (34) and movable support (1) fixed connection, loop wheel machine (34) bottom is connected with hoist (35) through the rope, hoist (35) and rings (33) can be dismantled and be connected.

4. The vibrator for producing T-shaped beams according to claim 1, wherein: and air ducts (36) are formed in two sides of the inner peripheral surface of the vibrating tube (8), one end of each air duct (36) is positioned below the deflection block (14), and the other end of each air duct is positioned above the connector (16).

5. The vibrator for producing T-shaped beams according to claim 1, wherein: the top of the positioning block (18) is fixedly connected with four second springs (37), and the second springs (37) are fixedly connected with the top surface of the inner cavity of the positioning plate (21).

6. The vibrator for producing the T-beam as claimed in claim 1, wherein: the top end of the inner circumferential surface of the corrugated pipe (7) is fixedly connected with four limiting blocks (38) distributed in an annular array, and the limiting blocks (38) are fixedly connected with an air inlet pipe (17).

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