CN209832097U - A rotatory cloth equipment for concrete pipe - Google Patents

Abstract

The utility model relates to a rotatory cloth equipment for concrete pipe belongs to concrete pipe processing equipment technical field, including supporting the diaphragm, the feeding through hole, the mount pad, discharging through hole, actuating mechanism, the cloth is fought, adjustment mechanism includes the sliding plate of being connected with the mount pad slides, the punishment in advance leads to the groove, drive assembly, two fixed risers, the conveying subassembly of setting between two fixed risers, the cloth is fought and is set up the discharge end at conveying subassembly, it is provided with the tiling subassembly in feeding through hole department to support the diaphragm, the tiling subassembly includes the axis of rotation along direction of height, fifth gear motor, set firmly the tiling board at the axis of rotation outer peripheral face, the bottom of axis of rotation is located conveying subassembly's top, the tiling board radially sets up along the axis of rotation. This a rotatory cloth equipment for concrete pipe, the concrete of tiling board on to conveying assembly tiles, has improved the cloth effect of cloth fill to the concrete, and then has improved the cloth effect of rotatory cloth equipment.

Description

A rotatory cloth equipment for concrete pipe

Technical Field

The utility model relates to a concrete pipe processing equipment technical field, in particular to rotatory cloth equipment for concrete pipe.

Background

Concrete pipes are pipes made of concrete or reinforced concrete and used for transporting fluids such as water, oil, gas and the like. The existing concrete pipe production process mainly comprises a horizontal centrifugal molding process and a vertical casting molding process, and the vertical casting molding process is generally adopted for the concrete pipe with large aperture. The vertical casting molding process utilizes inner and outer pipe dies to pour concrete, and the concrete is densely molded through a high-frequency vibrator attached to the inner and outer pipe dies. When concrete is poured between the inner pipe die and the outer pipe die, rotary material distribution equipment is generally adopted.

The rotary distributing device comprises a supporting transverse plate along the horizontal plane, a mounting seat arranged below the supporting transverse plate, a driving mechanism used for driving the mounting seat to rotate, a distributing hopper arranged on the mounting seat and used for distributing concrete, and an adjusting mechanism arranged between the distributing hopper and the mounting seat and used for adjusting the distance between the distributing hopper and the mounting seat, wherein the adjusting mechanism comprises a sliding plate in sliding connection with the mounting seat, a driving assembly used for driving the sliding plate to move, and a conveying assembly arranged below the sliding plate and used for conveying the concrete into the distributing hopper. The concrete is through the material through groove of crossing on the sliding plate on dropping conveyor components, later get into the cloth under conveyor components's effect and fight in to make the concrete drop between the inside and outside pipe die, realize the cloth of concrete, but when the concrete dropped conveyor components on, the concrete generally was the low middle high state in both ends, if directly get into the cloth and fight in, influence the cloth effect that the cloth was fought.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rotatory cloth equipment for concrete pipe sets up the tiling subassembly on supporting the diaphragm to make the tiling board stretch into conveyor assembly's top, the tiling board tiles the concrete on the conveyor assembly, has improved the cloth effect of cloth fill to the concrete, and then has improved the cloth effect of rotatory cloth equipment.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a rotary distributing device for concrete pipes comprises a supporting transverse plate along a horizontal plane, a supporting vertical plate which is fixedly arranged on the supporting transverse plate and plays a supporting role on the supporting transverse plate, a mounting seat which is arranged below the supporting transverse plate, a driving mechanism which is arranged between the mounting seat and the supporting transverse plate and is used for enabling the mounting seat to rotate, a distributing hopper which is arranged below the mounting seat and is used for distributing concrete, and an adjusting mechanism which is arranged between the distributing hopper and the mounting seat and is used for adjusting the distance between the distributing hopper and the mounting seat, wherein a feeding through hole is formed in the top surface of the supporting transverse plate, a discharging through hole which is matched with the feeding through hole is formed in the top surface of the mounting seat, the feeding through hole is communicated with the discharging through hole, the distributing hopper is communicated with the discharging through hole, a conveying mechanism which is convenient for feeding concrete is arranged on the supporting transverse plate, and one end, the adjusting mechanism comprises a sliding plate connected with the mounting seat in a sliding manner, a driving component arranged between the sliding plate and the mounting seat and used for enabling the sliding plate to move along the length direction of the sliding plate, two fixed vertical plates fixedly arranged on the bottom surface of the sliding plate in parallel and along the length direction of the fixed plates, and a conveying component arranged between the two fixed vertical plates and used for conveying concrete, wherein one end of the mounting seat along the horizontal direction is provided with a sliding through groove matched with the sliding plate, the bottom surface of the mounting seat is provided with a abdicating groove matched with the fixed vertical plates and communicated with the sliding through groove, the top surface of the sliding plate is provided with a material passing through groove along the length direction of the sliding plate, the material passing through groove is positioned between the two fixed plates, one end of the conveying component is arranged as a tiled discharging end, the material distributing hopper is arranged at the discharging end of the conveying component, and the transverse, the tiling subassembly includes along direction of height and lies in the axis of rotation in the feeding through-hole, be used for driving axis of rotation pivoted fifth gear motor, sets firmly at the axis of rotation outer peripheral face and along the flat bed that axis of rotation length direction set up, the bottom of axis of rotation is located conveyor components's top, the flat bed sets up along the axis of rotation is radial.

By adopting the technical scheme, when distributing the concrete, the concrete falls onto the conveying assembly through the feeding through hole of the supporting transverse plate and the discharging through hole of the mounting seat, moves into the distributing hopper under the action of the conveying assembly and then falls into the inner pipe mould and the outer pipe mould, meanwhile, the mounting seat is driven to rotate by the driving mechanism, so as to drive the distributing hopper to rotate, thereby realizing the distribution of the concrete, the fifth speed reducing motor is started, the fifth speed reducing motor drives the rotating shaft to rotate, the rotating shaft drives the tiling plate to rotate, the tiling plate tiles the concrete on the conveying assembly, the concrete is prevented from being in a state that two ends are low and the middle is high, the distributing effect of the distributing hopper on the concrete is improved, the distributing effect of the rotary distributing equipment is improved, meanwhile, the adjustment of the distance between the distributing hopper and the mounting seat is realized by the adjusting mechanism, so that the concrete can be adjusted according to the requirements of different diameters of concrete pipes, the practicality of rotatory cloth equipment has been improved.

The utility model discloses further set up to: the flatbed is set up to right angle triangle-shaped board, the inclined plane of flatbed deviates from the axis of rotation and sets up.

Through adopting above-mentioned technical scheme, make the smooth landing of concrete that drops the tiling board top surface, prevent that the concrete from piling up at the tiling board top surface and forming long-pending material, improved the stability that the tiling board used.

The utility model discloses further set up to: conveying component changes roller, setting and carries the conveyer belt between changeing the roller, is used for driving first transmission to change roller pivoted fourth gear motor at first transport commentaries on classics roller and second including rotating the first transmission of connection between two fixed risers, first transmission changes the roller and is located fixed riser and is close to the one end of cloth fill, be provided with the adjusting part who is used for adjusting distance between first transmission changes roller and the second transmission commentaries on classics roller between the both ends of second transmission changes the roller and two fixed risers.

Through adopting above-mentioned technical scheme, the concrete is passed through the punishment in advance logical groove of sliding plate and is dropped on the conveyer belt to get into the cloth under the effect of conveyer belt and fight in, realized the regulation of distance between first conveying commentaries on classics roller and the second conveying commentaries on classics roller through adjusting part, the installation of the conveyer belt of not only being convenient for plays the effect of tensioning to the conveyer belt moreover, has improved conveyor assembly's practicality.

The utility model discloses further set up to: the adjusting part comprises an installation block connected to one end of the second conveying rotary roller, a limiting block arranged on the side of the fixed vertical plate and matched with the installation block along the length direction of the fixed vertical plate, a limiting block fixedly arranged on the adjusting through groove, a limiting groove arranged on the adjusting through groove and matched with the limiting block along the length direction of the adjusting through groove, and an adjusting screw connected to the installation block to be far away from one end of the first conveying rotary roller and to be far away from the length direction of the adjusting through groove along the length direction of the adjusting through groove, wherein one end of the adjusting screw far away from the installation block runs through the adjusting through groove side wall and is connected.

Through adopting above-mentioned technical scheme, when the first conveying is changeed the roller and the distance is changeed in the second conveying to needs to be adjusted, rotatory adjusting screw, adjusting screw drives the installation piece and removes in adjusting logical inslot, and the installation piece drives the second conveying and changes the roller and remove to realize that the first conveying changes the regulation of roller and distance between the second conveying and changes the roller, make adjusting part's use more convenient.

The utility model discloses further set up to: and a second protection plate which is downwards inclined along the height direction is arranged above the fourth speed reduction motor and fixedly arranged on the fixed vertical plate.

Through adopting above-mentioned technical scheme, the second guard plate plays the effect of protection to fourth gear motor, prevents that the concrete from dropping in the fourth gear motor and influencing its operation, has improved the stability that conveyor components used.

The utility model discloses further set up to: the driving assembly comprises a driving rack fixedly arranged on the bottom surface of the mounting seat, a driving gear meshed with the driving rack, and a third speed reduction motor which is used for enabling the driving gear to rotate and fixedly arranged on the fixed vertical plate, and the driving rack is arranged along the length direction of the sliding plate.

Through adopting above-mentioned technical scheme, when the distance between cloth fill and the mount pad is adjusted to needs, start third gear motor, third gear motor drives drive gear and rotates, and drive gear drives the drive rack and removes, because third gear motor sets firmly on fixed riser to make the sliding plate remove in the slip recess, and then realize the regulation between cloth fill and the mount pad, make drive assembly's use more convenient.

The utility model discloses further set up to: and a first protection plate which inclines downwards along the height direction is arranged above the third speed reduction motor and fixedly arranged on the mounting seat.

Through adopting above-mentioned technical scheme, first guard plate plays the effect of protection to third gear motor, prevents that the concrete from dropping in the third gear motor and influencing its operation, has improved the stability that drive assembly used.

The utility model discloses further set up to: the support component is arranged between the two inner side faces of the sliding plate and the sliding groove respectively, the support component comprises at least two idler wheels which are detachably mounted on the inner side face of the sliding groove, the idler wheels are arranged at intervals along the length direction of the sliding plate, the guide groove matched with the idler wheels is formed in the side face of the sliding plate along the length direction of the sliding plate, and the idler wheels roll in the guide groove.

Through adopting above-mentioned technical scheme, the gyro wheel rolls in the direction recess to play the effect of support direction to the sliding plate, reduced the frictional force between sliding plate and the direction recess, make the removal of sliding plate more stable, more convenient.

The utility model discloses further set up to: the cloth fill is inverted funnel shape, just the longitudinal section that the cloth was fought is inverted isosceles trapezoid, the cloth fill top sets firmly on the sliding plate bottom surface, just the cloth fill be close to conveyor components's lateral wall set up rather than the opening of stepping down of looks adaptation, the lateral wall demountable installation that the conveyor components was kept away from to the cloth fill has the third protection board that is used for preventing that the concrete from splashing and is rather than parallel, the bottom of third protection board is located the below that the cloth was fought.

Through adopting above-mentioned technical scheme, the longitudinal section that the cloth was fought is isosceles trapezoid, makes the cloth of concrete more even, and the effect that third prevention backplate played blockking to the concrete in addition prevents that the concrete from splashing, has improved the stability that the cloth was fought and is used.

The utility model discloses further set up to: the lateral wall of cloth fill has set firmly the fixed plate, the top of third prevention backplate sets firmly the mounting panel of laminating mutually with the fixed plate, be provided with fastening bolt between mounting panel and the fixed plate, fastening bolt's screw rod runs through mounting panel, fixed plate threaded connection has fastening nut.

Through adopting above-mentioned technical scheme, when third prevention backplate was installed on the cloth is fought, fastening bolt's screw rod runs through mounting panel, fixed plate and fastening nut threaded connection, makes the installation and the dismantlement of third prevention backplate more convenient.

To sum up, the utility model discloses following beneficial effect has:

1. the utility model discloses a rotatory cloth equipment of purpose for concrete pipe sets up the tiling subassembly on supporting the diaphragm to make the tiling board stretch into conveyor assembly's top, the concrete of tiling board on to conveyor assembly tiles, has improved the cloth effect of cloth fill to the concrete, and then has improved the cloth effect of rotatory cloth equipment.

2. Set up the adjusting part between second conveying commentaries on classics roller and fixed riser, realized that first conveying commentaries on classics roller and second conveying change the regulation of distance between the roller, play the effect of tensioning to the conveyer belt, improved conveyor assembly's practicality.

3. Set up first guard plate through the top at third gear motor, set up the second guard plate in fourth gear motor's top, prevent that the concrete from dropping on third gear motor, fourth gear motor, improved stability and the life-span that third gear motor, fourth gear motor used.

4. The longitudinal section that the cloth was fought is isosceles trapezoid, makes the cloth of concrete more even, and sets up the third prevention backplate on the cloth is fought, and the third prevention backplate plays the effect that stops to the concrete, prevents that the concrete from splashing, has improved the stability that the cloth was fought and is used.

Drawings

FIG. 1 is a schematic structural view of an embodiment;

FIG. 2 is a partial sectional view for illustrating the drive mechanism;

FIG. 3 is a schematic view illustrating a structure of a driving gear;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a schematic view for showing the structure of the shield;

FIG. 6 is a schematic structural view of the sweeping assembly;

FIG. 7 is a schematic view for illustrating the support assembly;

FIG. 8 is a schematic view for showing the construction of the transport assembly;

FIG. 9 is an enlarged view of portion B of FIG. 8;

FIG. 10 is a partial cross-sectional view to illustrate the tiling assembly;

fig. 11 is an enlarged view of a portion C in fig. 10.

In the figure, 1, a transverse plate is supported; 2. a support vertical plate; 3. a conveying mechanism; 31. a conveying support plate; 32. a first conveying roller; 33. a second transport roller; 34. a conveyor belt; 35. a first reduction motor; 4. a mounting seat; 41. a sliding through groove; 42. a yielding groove; 5. a drive mechanism; 51. a connecting sleeve; 52. a driven gear; 53. a driving gear; 54. a second reduction motor; 55. a protective cover; 551. a protective transverse plate; 552. a protective vertical plate; 56. a sponge pad; 57. a sweeping assembly; 571. fixing the transverse plate; 572. a brush holder; 573. brushing; 574. fixing the bolt; 6. a cloth hopper; 61. a fixing plate; 62. a third protection plate; 63. mounting a plate; 64. fastening a bolt; 65. fastening a nut; 7. an adjustment mechanism; 71. a sliding plate; 711. a material passing through groove; 72. a drive assembly; 721. a drive rack; 722. a drive gear; 723. a third reduction motor; 724. a first guard plate; 725. a support assembly; 7251. a roller; 7252. fixing the screw rod; 7253. a fixed block; 7254. fixing a nut; 73. fixing a vertical plate; 731. adjusting the through groove; 732. a limiting groove; 74. a delivery assembly; 741. a first transfer roller; 742. a second transfer roller; 743. an adjustment assembly; 7431. mounting blocks; 7432. a limiting block; 7433. adjusting the screw rod; 7434. a limiting plate; 744. a conveyor belt; 745. a fourth reduction motor; 746. a second guard plate; 8. a tiling component; 81. a rotating shaft; 82. installing a cross bar; 83. installing a vertical rod; 84. a fifth reduction motor; 85. and (7) flatly paving the board.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

A rotary material distribution device for concrete pipes is shown in figure 1 and comprises a supporting transverse plate 1 arranged along a horizontal plane, wherein the supporting transverse plate 1 is a rectangular plate. The bottom surface of supporting diaphragm 1 along its length direction one end sets firmly two and supports riser 2, and two support risers 2 interval set up, and support riser 2 and set up along the direction of height. The top surface of the other end of the supporting transverse plate 1 is provided with a feeding through hole for feeding, the top surface of the supporting transverse plate 1 is provided with a conveying mechanism 3 convenient for concrete feeding, the conveying mechanism 3 is arranged along the length direction of the supporting transverse plate 1, and one end, close to the feeding through hole, of the conveying mechanism 3 is a discharging end and the other end is a feeding end. Support diaphragm 1 and be provided with mount pad 4 in feed-through's below, mount pad 4 sets up to rectangular shaped plate, and mount pad 4 sets up along the horizontal plane, and the top surface of mount pad 4 set up with the ejection of compact through-hole of feed-through looks adaptation, be provided with between mount pad 4 and the support diaphragm 1 and be used for driving mount pad 4 pivoted actuating mechanism 5, and ejection of compact through-hole and feed-through are linked together. The below of mount pad 4 is provided with the cloth fill 6 that is used for carrying out the cloth to the concrete, is provided with adjustment mechanism 7 that is used for adjusting the distance between the two between cloth fill 6 and the mount pad 4, and discharging hole and cloth fill 6 and be linked together.

As shown in fig. 1 and 2, the conveying mechanism 3 includes two conveying support plates 31 spaced apart along the width direction of the supporting cross plate 1, and the bottom ends of the conveying support plates 31 are fixed on the top surface of the supporting cross plate 1. One end of each of the two conveying support plates 31 close to the feeding through hole is rotatably connected with a first conveying roller 32, the other end of each of the two conveying support plates 31 is rotatably connected with a second conveying roller 33, and the first conveying roller 32 and the second conveying roller 33 are arranged along the width direction of the supporting transverse plate 1. A conveyor belt 34 is arranged between the first conveying roller 32 and the second conveying roller 33, and the conveyor belt 34 forms a kidney shape around the first conveying roller 32 and the second conveying roller 33. The top surface of the supporting transverse plate 1 is fixedly provided with a first speed reducing motor 35 for driving the first conveying roller 32 to rotate, and an output shaft of the first speed reducing motor 35 is fixedly connected with the first conveying roller 32.

As shown in fig. 2 and 3, the driving mechanism 5 includes a connecting sleeve 51 disposed between the mounting seat 4 and the supporting cross plate 1, and the connecting sleeve 51 is disposed along the height direction. The bottom end of the connecting sleeve 51 is fixedly arranged on the top surface of the mounting seat 4 at the position of the discharge through hole, and the top end of the connecting sleeve 51 is rotatably connected to the bottom surface of the mounting seat 4 at the position of the feed through hole, namely the feed through hole is communicated with the discharge through hole through the connecting sleeve 51. The peripheral surface of connecting sleeve 51 sets firmly has its driven gear 52 of adaptation, and the axis of driven gear 52 and the coincidence of connecting sleeve 51's axis. One side of the driven gear 52 is provided with a driving gear 53 matched with the driven gear, a second speed reducing motor 54 for driving the driving gear 53 to rotate is fixedly arranged on the supporting transverse plate 1, the axis of the output shaft of the second speed reducing motor 54 is arranged along the height direction, and the driving gear 53 is fixedly arranged on the output shaft of the second speed reducing motor 54.

As shown in fig. 5, in order to prevent concrete falling on the top surface of the mounting seat 4 from affecting the operation of the driving gear 53 and the driven gear 52 when the driving mechanism 5 is operated, a protective cover 55 is provided on the driving gear 53 and the driven gear 52. The protective cover 55 includes a protective transverse plate 551 fixedly disposed on the outer peripheral surface of the connecting sleeve 51 and adapted to the driving gear 53 and the driven gear 52, and an output shaft of the second gear motor 54 penetrates the protective transverse plate 551 and is rotatably connected thereto. The outer peripheral surface of the protection transverse plate 551 vertically extends downwards to be fixedly provided with a protection vertical plate 552 matched with the protection transverse plate, and the driving gear 53 and the driven gear 52 are positioned between the protection vertical plate 552 and the connecting sleeve 51. Sponge gasket 56 matched with the protective vertical plate 552 is fixedly arranged at the bottom end of the protective vertical plate 552, and the sponge gasket 56 is abutted to the top surface of the mounting seat 4. In order to prevent the driving gear 53 from being affected by the accumulation of concrete on the top surface of the mounting seat 4, cleaning assemblies 57 are respectively disposed on the outer peripheral surfaces of the protective risers 552 on both sides of the driving gear 53.

As shown in fig. 5 and 6, the sweeping component 57 includes a fixing cross plate 571 fixed on the outer peripheral surface of the protection vertical plate 552, and one end of the fixing cross plate 571 away from the protection vertical plate 552 extends to one side of the outer peripheral surface of the mounting seat 4. The bottom surface of the fixing cross plate 571 is provided with a mounting groove along the length direction thereof, a brush seat 572 adapted to the fixing cross plate 571 is detachably mounted in the mounting groove, the brush seat 572 is arranged along the length direction of the fixing cross plate 571, and one end of the brush seat 572, which is far away from the protective vertical plate 552, extends to one side of the outer peripheral surface of the mounting seat 4. A plurality of bristles 573 are uniformly and fixedly arranged on the bottom surface of the brush holder 572. Three fixing bolts 574 are arranged between the brush base 572 and the mounting groove, the three fixing bolts 574 are arranged at intervals along the length direction of the brush base 572, and the screw rods of the fixing bolts 574 penetrate through the side wall of the mounting groove and are in threaded connection with the brush base 572.

The concrete on the top surface of the mounting seat 4 falls off from the top surface of the mounting seat 4 under the action of the brush 573, and the brush seat 572 is detachably mounted on the fixing transverse plate 571 through the fixing bolt 574, so that the brush seat 572 is more convenient to mount and dismount, and the brush 573 is more convenient to replace.

As shown in fig. 2, 3 and 4, the adjusting mechanism 7 includes a sliding plate 71 slidably connected to the mounting base 4, the sliding plate 71 is a rectangular plate, and the sliding plate 71 is disposed along the length direction of the mounting base 4. One end of the mounting seat 4 along the length direction is provided with a sliding through groove 41 matched with the sliding plate 71, the sliding plate 71 slides in the sliding through groove 41, a driving assembly 72 for moving the sliding plate 71 is arranged between the sliding plate 71 and the mounting seat 4, and the driving assembly 72 is arranged on one side of the sliding plate 71 in the length direction. The top surface of the sliding plate 71 is provided with a material passing through groove 711 for realizing blanking along the length direction of the sliding plate 71, and the material passing through groove 711 is arranged along the length direction of the sliding plate 71. Two fixed risers 73 are respectively arranged on the bottom surface of the sliding plate 71 and on the two sides of the length direction of the material passing through groove 711, the fixed risers 73 are arranged along the length direction of the sliding plate 71, the two fixed risers 73 are arranged at intervals along the width direction of the sliding plate 71, the material passing through groove 711 is positioned between the two fixed risers 73, and the yielding groove 42 matched with the fixed risers 73 and communicated with the sliding through groove 41 is formed in the bottom surface of the mounting seat 4. A conveying assembly 74 for conveying concrete is arranged between the two fixed vertical plates 73, the conveying assembly 74 is arranged along the length direction of the sliding plate 71, one end of the conveying assembly 74 along the length direction is set as a discharge end, and the distributing hopper 6 is arranged at the discharge end of the conveying assembly 74.

As shown in fig. 3 and 4, the driving assembly 72 includes a driving rack 721 fixed on the bottom surface of the mounting seat 4, and the driving rack 721 is disposed along the length direction of the mounting seat 4. The bottom end of the driving rack 721 is provided with a driving gear 722 engaged with the driving rack, a third reducing motor 723 for rotating the driving gear 722 is fixedly arranged on the fixed vertical plate 73, the axis of the output shaft of the third reducing motor 723 is arranged along the horizontal direction, and the driving gear 722 is fixedly arranged on the output shaft of the third reducing motor 723. Referring to fig. 5, in order to prevent the influence of concrete on the third reducing motor 723, a first protection plate 724 is fixedly disposed on the side surface of the mounting base 4 above the third reducing motor 723, the first protection plate 724 is a rectangular plate, and the first protection plate 724 is inclined downward along the height direction.

As shown in fig. 5 and 7, in order to facilitate the sliding of the sliding plate 71 in the sliding groove, support members 725 are respectively provided between both sides of the sliding plate 71 in the width direction thereof and both inner side surfaces of the sliding groove. The support assembly 725 includes two rollers 7251 spaced apart along the length of the slide plate 71, with the axes of the rollers 7251 being aligned along the width of the slide plate 71. The roller 7251 is rotatably connected with a fixing screw 7252 in the center of one end in the axial direction, a fixing block 7253 is fixedly arranged on the peripheral surface of the fixing screw 7252, one end of the fixing screw 7252, which is far away from the roller 7251, penetrates through the side wall of the sliding groove and is positioned outside the sliding groove, a fixing nut 7254 is in threaded connection with the peripheral surface of the fixing screw 7252, and the side wall of the sliding groove is positioned between the fixing block 7253 and the fixing nut 7254. The sliding plate 71 is provided with a guide sliding groove along the length direction thereof, the guide sliding groove being matched with the roller 7251, and the roller 7251 rolls in the guide groove. When the roller 7251 is mounted on the mount 4, the roller 7251 is positioned in the guide groove, the fixing screw 7252 and the fixing nut 7254 are screw-coupled, and the side wall of the slide groove is positioned between the fixing nut 7254 and the fixing block 7253 and respectively abuts against them.

As shown in fig. 8 and 10, the conveyor 74 includes a first conveying roller 741 rotatably connected between the two fixed vertical plates 73 and a second conveying roller 742 rotatably connected between the two fixed vertical plates 73, and both the first conveying roller 741 and the second conveying roller 742 are provided along the width direction of the sliding plate 71. The first conveying roller 741 is located at one end of the fixed vertical plate 73 close to the distributing hopper 6, the second conveying roller 742 is located at one end of the fixed vertical plate 73 far away from the distributing hopper 6, and an adjusting component 743 for adjusting the distance between the first conveying roller 741 and the second conveying roller 742 is respectively arranged between two ends of the second conveying roller 742 and two fixed vertical plates 73. A conveyor belt 744 is provided between the first conveying roller 741 and the second conveying roller 742, and the conveyor belt 744 is formed into a belt shape around the first conveying roller 741 and the second conveying roller 742. A fourth speed reduction motor 745 for driving the first transmission roller 741 to rotate is arranged on the fixed vertical plate 73, an axis of an output shaft of the fourth speed reduction motor 745 is arranged along the horizontal direction, and the output shaft of the fourth speed reduction motor 745 is fixedly connected with the first transmission roller 741. In order to prevent the influence of the concrete on the fourth reduction motor 745, a second prevention plate 746 is fixedly provided at a side of the fixed riser 73 above the fourth reduction motor 745, the second prevention plate 746 is provided as a rectangular plate, and the second prevention plate 746 is provided to be inclined downward in a height direction.

As shown in fig. 8 and 9, the adjusting assembly 743 includes an installation block 7431 rotatably connected to one end of the second conveying roller 742, an adjusting through slot 731 adapted to the installation block 7431 is formed on a side surface of the fixed vertical plate 73, the adjusting through slot 731 is disposed along a length direction of the fixed vertical plate 73, and the installation block 7431 slides in the adjusting through slot 731. The top surface and the bottom surface of the mounting block 7431 are respectively and fixedly provided with a limiting block 7432, and the top surface and the inner bottom surface in the adjusting through groove 731 are respectively provided with a limiting groove 732 matched with the limiting block 7432 along the length direction. One end of the mounting block 7431 far from the first conveying roller 741 is rotatably connected with an adjusting screw 7433, the adjusting screw 7433 is arranged along the length direction of the fixed vertical plate 73, and one end of the adjusting screw 7433 far from the mounting block 7431 penetrates through the side wall of the adjusting through groove 731 and is in threaded connection with the side wall. A limiting plate 7434 is fixedly arranged at one end of the adjusting screw 7433 outside the adjusting through groove 731.

When carrying out the cloth to the concrete, the concrete is under the effect of conveyer belt 34, through the feed through hole who supports diaphragm 1, connecting sleeve 51, the exit gate of mount pad 4 drops on conveyer belt 744, and move and get into in the cloth fill 6 under the effect of conveyer belt 744, and then fall in the interior outer tube mould, meanwhile, second gear motor 54 passes through driving gear 53, driven gear 52 drives connecting sleeve 51 and rotates, connecting sleeve 51 drives mount pad 4 and rotates, mount pad 4 drives cloth through adjustment mechanism 7 and fights 6 and rotate, thereby realize the cloth of concrete. Through mutually supporting between protection diaphragm 551 and the protection riser 552, prevent that the concrete from dropping between driving gear 53 and the driven gear 52 and influencing its function, improved the stability that actuating mechanism 5 used, and then improved the stability and the life-span of rotatory cloth equipment use.

Meanwhile, the driving gear 722 is driven to rotate by the third speed reducing motor 723, and the driving gear 722 drives the driving rack 721 to move, so that the sliding plate 71 moves in the sliding groove, the cloth hopper 6 is further moved, the distance between the cloth hopper 6 and the mounting seat 4 is adjusted, the rotary cloth equipment can be adjusted according to the requirements of different concrete pipe diameters, and the practicability of the adjusting mechanism 7 is improved; by arranging the adjusting component 743 between the second transmission roller and the fixed vertical plate 73, the distance between the first transmission roller 741 and the second transmission roller 742 is adjusted, the transmission belt 744 is tensioned, and the practicability of the conveying component 74 is improved.

As shown in fig. 10 and 11, the distribution hopper 6 is in an inverted funnel shape, the longitudinal section of the distribution hopper 6 is in an inverted isosceles trapezoid shape, the cross section of the distribution hopper 6 is in a rectangular shape, and the top end of the distribution hopper 6 is fixedly arranged on the bottom surface of the sliding plate 71. The side wall of the distributing hopper 6 close to the conveying assembly 74 is provided with a yielding opening matched with the side wall, the outer side wall of the distributing hopper 6 far away from the conveying assembly 74 is fixedly provided with a fixed plate 61, and the fixed plate 61 is arranged along the width direction of the sliding plate 71. The bottom surface of fixed plate 61 is provided with third protection plate 62 that is used for preventing the concrete and splashes, and the bottom of third protection plate 62 is located the below of cloth fill 6, and third protection plate 62 and cloth fill 6 lateral walls parallel arrangement.

As shown in fig. 11, an attachment plate 63 attached to the fixed plate 61 is fixedly provided at the tip of the third prevention plate 62, two fastening bolts 64 are provided between the attachment plate 63 and the fixed plate 61, and fastening nuts 65 are screwed to the screws of the fastening bolts 64 sequentially penetrating the fixed plate 61 and the attachment plate 63. When the third prevention plate 62 is attached to the fixed plate 61, the screw of the fastening bolt 64 is screwed through the fixed plate 61, the attachment plate 63, and the fastening nut 65 in this order.

The longitudinal section that cloth was fought 6 is isosceles trapezoid, makes the cloth of concrete more even to demountable installation has third prevention backplate 62 on cloth is fought 6, and third prevention backplate 62 plays the effect that stops to the concrete, prevents that the concrete from splashing, has improved the stability that cloth was fought 6 and is used, the installation and the dismantlement of the third prevention backplate 62 of being convenient for moreover.

As shown in fig. 10, when the concrete falls onto the conveyor belt 744, the support cross slab 1 is provided with a laying assembly 8 at the feed through hole in order to lay the concrete flat on the conveyor belt 744. Tiling assembly 8 includes axis of rotation 81 along the direction of height, and axis of rotation 81 is located the feed-through, and the bottom of axis of rotation 81 is located the top of conveyer belt 744. The top of axis of rotation 81 rotates and is connected with along the installation horizontal pole 82 of horizontal direction, and the both ends of installation horizontal pole 82 set firmly perpendicularly respectively and install montant 83, and installation montant 83 sets up along the direction of height, and the bottom of installation montant 83 sets firmly on supporting diaphragm 1 top surface. The top surface of the mounting cross rod 82 is fixedly provided with a fifth speed reduction motor 84 for driving the rotating shaft 81 to rotate, the axis of the output shaft of the fifth speed reduction motor 84 is arranged along the height direction, and the output shaft of the fifth speed reduction motor 84 is fixedly connected with the top end of the rotating shaft 81. The outer peripheral face of axis of rotation 81 sets firmly the tiling board 85 that is used for the flat concrete along its length direction, and tiling board 85 sets up to right angle triangle-shaped board, and the right angle face of tiling board 85 sets firmly on axis of rotation 81's outer peripheral face, and the inclined plane of tiling board 85 deviates from axis of rotation 81 and sets up, and the radial setting of axis of rotation 81 is followed to tiling board 85.

When the concrete dropped on conveyer belt 744, start fifth gear motor 84, fifth gear motor 84 drove axis of rotation 81 and rotates, and axis of rotation 81 drives the flat bed 85 and rotates, and flat bed 85 tiles the concrete on conveyer belt 744, prevents that the concrete from being the high state in the middle of the both ends is low, has improved the cloth effect of cloth fill 6 to the concrete, and then has improved the cloth effect of rotatory cloth equipment.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (10)

1. A rotatory cloth equipment for concrete pipe which characterized in that: comprises a supporting transverse plate (1) along the horizontal plane, a supporting vertical plate (2) which is fixedly arranged on the supporting transverse plate (1) and plays a supporting role on the supporting transverse plate (1), a mounting seat (4) which is arranged below the supporting transverse plate (1), a driving mechanism (5) which is arranged between the mounting seat (4) and the supporting transverse plate (1) and is used for rotating the mounting seat (4), a distributing hopper (6) which is arranged below the mounting seat (4) and is used for distributing concrete, and an adjusting mechanism (7) which is arranged between the distributing hopper (6) and the mounting seat (4) and is used for adjusting the distance between the distributing hopper and the mounting seat, wherein the top surface of the supporting transverse plate (1) is provided with a feeding through hole, the top surface of the mounting seat (4) is provided with a discharging through hole matched with the feeding through hole, the feeding through hole is communicated with the discharging through hole, the distributing hopper (6) is communicated with the discharging through hole, the supporting transverse plate (1) is provided with, the end, close to the feeding through hole, of the conveying mechanism (3) is set to be a discharging end, the adjusting mechanism (7) comprises a sliding plate (71) connected with the mounting seat (4) in a sliding mode, a driving assembly (72) arranged between the sliding plate (71) and the mounting seat (4) and used for enabling the sliding plate (71) to move along the length direction of the sliding plate, two fixed vertical plates (73) fixedly arranged on the bottom surface of the sliding plate (71) in parallel along the length direction of the fixed plate (61), and a conveying assembly (74) arranged between the two fixed vertical plates (73) and used for conveying concrete, one end of the mounting seat (4) along the horizontal direction is provided with a sliding through groove (41) matched with the sliding plate (71), the bottom surface of the mounting seat (4) is provided with a yielding groove (42) matched with the fixed vertical plates (73) and communicated with the sliding through groove (41), and the top surface of the sliding plate (71) is provided with a material, the logical groove of punishment in advance (711) is located between two fixed plates (61), the one end of conveying subassembly (74) sets up to the discharge end, cloth fill (6) set up the discharge end at conveying subassembly (74), support diaphragm (1) and be provided with in feeding through-hole department and be used for making concrete tiling subassembly (8) of tiling on conveying subassembly (74), tiling subassembly (8) include along direction of height and lie in feeding through-hole axis of rotation (81), be used for driving axis of rotation (81) pivoted fifth gear motor (84), set firmly at axis of rotation (81) outer peripheral face and along axis of rotation (81) length direction setting's tiling board (85), the bottom of axis of rotation (81) is located the top of conveying subassembly (74), tiling board (85) are along axis of rotation (81) radial setting.

2. A rotary distribution apparatus for concrete pipes according to claim 1, characterized in that: the flat board (85) is arranged to be a right-angle triangular board, and the inclined plane of the flat board (85) deviates from the rotating shaft (81) and is arranged upwards.

3. A rotary distribution apparatus for concrete pipes according to claim 1, characterized in that: the conveying assembly (74) comprises a first conveying rotating roller (741) and a second conveying rotating roller (742) which are rotatably connected between two fixed vertical plates (73), a conveying belt (744) arranged between the first conveying rotating roller (32) and the second conveying rotating roller (33), and a fourth speed reduction motor (745) used for driving the first conveying rotating roller (741) to rotate, wherein the first conveying rotating roller (741) is located at one end, close to the material distribution hopper (6), of each fixed vertical plate (73), and an adjusting assembly (743) used for adjusting the distance between the first conveying rotating roller (741) and the second conveying rotating roller (742) is arranged between the two ends of the second conveying rotating roller (742) and the two fixed vertical plates (73).

4. A rotary distribution apparatus for concrete pipes according to claim 3, characterized in that: adjusting part (743) including rotate connect installation piece (7431) of second conveying commentaries on classics roller (742) one end, set up in fixed riser (73) side and with regulation logical groove (731) of installation piece (7431) looks adaptation along fixed riser (73) length direction, set firmly stopper (7432) on adjusting logical groove (731), set up on adjusting logical groove (731) and with stopper (7432) looks adaptation spacing recess (732) along adjusting logical groove (731) length direction, rotate to connect and keep away from first conveying commentaries on classics roller (741) one end and along adjusting logical groove (731) length direction's adjusting screw (7433) in installation piece (7431), adjusting screw (7433) keep away from the one end of installation piece (7431) and run through and adjust logical groove (731) lateral wall and rather than threaded connection.

5. A rotary distribution apparatus for concrete pipes according to claim 3, characterized in that: a second protection plate (746) which inclines downwards along the height direction is arranged above the fourth speed reducing motor (745), and the second protection plate (746) is fixedly arranged on the fixed vertical plate (73).

6. A rotary distribution apparatus for concrete pipes according to claim 1, characterized in that: the driving assembly (72) comprises a driving rack (721) fixedly arranged on the bottom surface of the mounting seat (4), a driving gear (722) meshed with the driving rack (721), and a third speed reducing motor (723) used for enabling the driving gear (722) to rotate and fixedly arranged on the fixed vertical plate (73), wherein the driving rack (721) is arranged along the length direction of the sliding plate (71).

7. A rotary distribution apparatus for concrete pipes according to claim 6, characterized in that: a first protection plate (724) which inclines downwards along the height direction is arranged above the third speed reducing motor (723), and the first protection plate (724) is fixedly arranged on the mounting base (4).

8. A rotary distribution apparatus for concrete pipes according to claim 1, characterized in that: support assemblies (725) are respectively arranged between the sliding plate (71) and two inner side faces of the sliding groove, each support assembly (725) comprises at least two rollers (7251) detachably mounted on the inner side face of the sliding groove, the rollers (7251) are arranged at intervals along the length direction of the sliding plate (71), a guide groove matched with the rollers (7251) is formed in the side face of the sliding plate (71) along the length direction of the sliding plate, and the rollers (7251) roll in the guide groove.

9. A rotary distribution apparatus for concrete pipes according to claim 1, characterized in that: cloth fill (6) are inverted funnel shape, just the longitudinal section that cloth was fought (6) is inverted isosceles trapezoid, cloth fill (6) top sets firmly on sliding plate (71) bottom surface, just cloth fill (6) are close to the lateral wall of conveyor components (74) and offer rather than the opening of stepping down of looks adaptation, the lateral wall demountable installation that conveyor components (74) were kept away from in cloth fill (6) has third protection board (62) that is used for preventing that the concrete from splashing and is rather than parallel, the bottom of third protection board (62) is located the below that cloth was fought (6).

10. A rotary distribution apparatus for concrete pipes according to claim 9, characterized in that: the lateral wall of cloth fill (6) has set firmly fixed plate (61), the top of third protection board (62) has set firmly mounting panel (63) of laminating mutually with fixed plate (61), be provided with fastening bolt (64) between mounting panel (63) and fixed plate (61), the screw rod of fastening bolt (64) runs through mounting panel (63), fixed plate (61) threaded connection has fastening nut (65).