CN215549494U - Running gear for concrete vibrating equipment - Google Patents

Abstract

The application discloses a walking device for concrete vibrating equipment, which comprises a mounting frame for mounting a vibrator; mounting cross beams are arranged on two sides of the mounting frame in the width direction, and the length direction of the mounting cross beams is arranged along the length direction of the mounting frame; the mounting frame is sequentially provided with at least two moving assemblies along the length direction of the mounting beam; the moving assembly comprises support shafts arranged on two sides of the mounting frame in the width direction in a relative mode and support rollers arranged on each support shaft, and each support roller rotates around the axis of the corresponding support shaft; the axial direction of each supporting shaft is arranged along the width direction of the mounting rack, and the peripheral wall of each supporting roller is abutted to the upper surface of the mounting cross beam at the corresponding position; at least one of the moving assemblies is connected with a driving piece for driving the corresponding supporting roller to rotate. After the vibration is finished, the driving piece drives the mounting frame to move, so that a mould does not need to be moved, the possibility of mixing air in concrete is reduced, and the quality of the prefabricated part is improved.

Description

Running gear for concrete vibrating equipment

Technical Field

The application relates to the field of transfer devices, in particular to a walking device for concrete vibrating equipment.

Background

When the concrete prefabricated part is poured, vibration equipment is needed to be used for reducing air bubbles in concrete, so that the concrete is combined compactly, and the quality of the concrete prefabricated part is improved.

A concrete vibrating device, which is shown in fig. 1, comprises a mounting frame 1, wherein a support rod 11 is welded and fixed on the mounting frame 1 to support the mounting frame 1; the mounting frame 1 is provided with a mounting plate 12, the mounting plate 12 is provided with a guide hole 121 in a penetrating manner along the vertical direction, a guide rod 1211 is inserted into the guide hole 121, and two ends of the guide rod 1211 are welded and fixed with the mounting frame 1; the guide holes 121 are matched with the guide rods 1211, and the mounting plate 12 can slide up and down; the mounting rack 1 is rotatably provided with a driving screw 13, and the driving screw 13 is arranged along the vertical direction in the axial direction; the driving screw 13 penetrates through the mounting plate 12 and is in threaded connection with the mounting plate 12; the mounting frame 1 is fixedly provided with a lifting motor 14 through a screw, and the output end of the lifting motor 14 is connected with a driving screw 13 so as to drive the driving screw 13 to rotate, thereby driving the mounting plate 12 to move up and down. The mounting plate 12 is fixedly provided with a plurality of plug-in vibrators 122, and vibrating heads 1221 of the plug-in vibrators 122 extend downwards. When the device is used, a mould poured with concrete is placed at a position right below the mounting frame 1, and then the lifting motor 14 is started to drive the mounting plate 12 to move downwards; at the same time, the plug-in vibrator 122 is activated; the vibrating head 1221 can be inserted downward into the concrete as the mounting plate 12 moves downward to tap the concrete; finally, the operator controls the lifting motor 14 to rotate reversely until the vibrating head 1221 moves up to the outside of the concrete, and then moves the mold to a designated position.

In view of the above-mentioned related technologies, the inventor believes that after the vibrating head 1221 vibrates the concrete in the mold, the operator needs to move the mold away to facilitate the vibrating device to vibrate the concrete in the other molds; however, when the mold is moved, the concrete in the mold is easily mixed, and air may be mixed again into the concrete, which may affect the quality of the prefabricated member after molding, and thus improvement is desired.

SUMMERY OF THE UTILITY MODEL

In order to improve the quality of precast concrete component, this application provides a running gear for concrete vibrating equipment.

The application provides a running gear for concrete vibrating equipment adopts following technical scheme:

a running gear for concrete vibrating equipment comprises a mounting frame for mounting a vibrator; mounting cross beams are arranged on two sides of the mounting rack in the width direction, and the length direction of the mounting cross beams is arranged along the length direction of the mounting rack; the mounting frame is sequentially provided with at least two moving assemblies along the length direction of the mounting beam; the moving assembly comprises support shafts arranged on two sides of the mounting frame in the width direction in an opposite mode and support rollers arranged on each support shaft, and each support roller rotates around the axis of the corresponding support shaft; the axial direction of each supporting shaft is arranged along the width direction of the mounting rack, and the peripheral wall of each supporting roller is abutted against the upper surface of the mounting cross beam at the corresponding position; at least one of the moving assemblies is connected with a driving piece for driving the corresponding supporting roller to rotate.

By adopting the technical scheme, the mounting beam is fixedly mounted in a suspended manner through the upright posts or the brackets; when the mould is used, a plurality of moulds poured with concrete are sequentially placed at the lower positions of the mounting cross beams along the length direction of the mounting cross beams; then, the operator controls the driving piece to operate, and the driving piece drives the supporting roller wheel to rotate so as to enable the supporting roller wheel to roll along the upper surface of the mounting cross beam and further drive the mounting frame to move along the length direction of the mounting cross beam; the mounting frame can be moved above any mould in turn so that the vibrators mounted on the mounting frame vibrate the concrete located in the corresponding mould. Through removing the mounting bracket, after vibrating, the mould that corresponds can stand in situ, need not the shift position, has reduced the concrete in the mould and has taken place to rock and sneak into the possibility of air to be favorable to improving the quality of the concrete prefabricated part after the shaping.

Optionally, the number of the driving members connected to the corresponding moving assembly is two, and the two driving members correspond to the two corresponding support rollers one to one.

Through adopting above-mentioned technical scheme, but two driving pieces synchronous operation to the supporting roller synchronous rotation that the drive corresponds has improved the homogeneity of the atress of the width direction's of mounting bracket both sides, has reduced the mounting bracket and has taken place to incline so that the mounting bracket and the emergence of the dead condition of installation crossbeam card because of the unilateral atress, thereby has improved the stability of the removal of mounting bracket.

Optionally, the driving piece comprises a driving motor fixedly connected with the mounting frame and a driven gear fixedly connected with the corresponding supporting roller in a coaxial mode, and a driving gear meshed with the driven gear is fixedly arranged at the output end of the driving motor.

Through adopting above-mentioned technical scheme, driving gear and driven gear intermeshing transmission, simple structure, easy to assemble and transmission are stable, are favorable to improving the pivoted stability of the support rolls who corresponds to improve the stability of the removal of mounting bracket.

Optionally, one end of each of the two oppositely arranged support rollers, which is close to or far away from each other, is fixedly provided with a limit ring; and the side wall of each limiting ring is abutted against the side wall of the corresponding mounting cross beam.

Through adopting above-mentioned technical scheme, every spacing ring cooperates with the installation crossbeam that corresponds, can restrict the supporting roller who corresponds along self axial's removal to restricted the mounting bracket along the width direction's of self removal, reduced because of the removal of mounting bracket and leaded to the possibility that supporting roller and the upper surface of installation crossbeam deviate from, improved supporting roller and installation crossbeam complex stability.

Optionally, both sides of the width direction of the mounting frame are provided with abutting pieces abutted to the lower surface of the corresponding mounting beam.

Through adopting above-mentioned technical scheme, the ascending removal of mounting bracket can be restricted to the lower surface butt of butt piece and installation crossbeam, has reduced because of the vibration of installation crossbeam and has leaded to the possibility that supporting roller breaks away from with the upper surface of installation crossbeam to improve the stability that mounting bracket and installation crossbeam are connected.

Optionally, the abutting part comprises an abutting shaft connected with the mounting frame and an abutting roller rotatably connected with the abutting shaft around the axis of the abutting shaft, and the peripheral wall of the abutting roller abuts against the lower surface of the corresponding mounting cross beam.

Through adopting above-mentioned technical scheme, when the mounting bracket removed, the butt gyro wheel rolled along the lower surface of installation crossbeam, was favorable to reducing the frictional force between butt piece and the installation crossbeam to be convenient for the removal of mounting bracket reduces the wearing and tearing between butt piece and the installation crossbeam simultaneously.

Optionally, one end of the butt joint shaft is fixedly connected with the mounting frame, and the other end of the butt joint shaft extends along the width direction of the mounting frame in the direction away from the mounting frame.

Through adopting above-mentioned technical scheme, during the installation butt gyro wheel, operating personnel with the butt gyro wheel by the butt axle keep away from a pot head of mounting bracket establish the periphery wall of butt axle can, simple structure, the simple operation.

Optionally, a reinforcing plate is detachably connected between one end of the butting shaft, which is far away from the mounting frame, and the mounting frame.

Through adopting above-mentioned technical scheme, the reinforcing plate can support the butt axle to improve the rigidity of the one end that the mounting bracket was kept away from to the butt axle, reduce the possibility that the butt axle takes place bending deformation.

Optionally, both ends of the reinforcing plate are provided with connecting holes in a penetrating manner along the axial direction of the abutting shaft, and a connecting screw rod is inserted in each connecting hole in a penetrating manner; one end of one of the connecting screw rods, which is close to the mounting rack, is fixedly connected with the end wall of the abutting shaft, and one end of the other connecting screw rod, which is close to the mounting rack, is fixedly connected with the mounting rack; every the equal threaded connection of periphery wall that connecting screw is located the reinforcing plate and keeps away from one side of mounting bracket has lock nut.

Through adopting above-mentioned technical scheme, connecting screw and lock nut cooperation to fixed reinforcing plate, simple structure tears, adorns the convenience open.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the driving piece drives the supporting roller to rotate, so that the mounting frame and the vibrator can be driven to move, so that concrete in the moulds at different positions can be vibrated, the moulds do not need to be moved, the possibility that the concrete in the moulds is mixed with air is reduced, and the quality of the prefabricated part is improved;

2. the limiting ring is abutted against the mounting cross beam, so that the possibility of separation of the supporting roller from the upper surface of the mounting cross beam can be reduced;

3. the support piece can further improve the stability that mounting bracket and installation crossbeam are connected.

Drawings

Fig. 1 is a schematic view of an overall structure of a concrete vibrating apparatus in the related art.

Fig. 2 is a schematic overall structure diagram of an embodiment 1 of the traveling device for a concrete vibrating apparatus according to the present application.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is an exploded schematic view for showing a connection structure between the reinforcing plate and the abutment shaft.

FIG. 5 is a schematic view for showing the fit relationship between the stop collar and the mounting beam.

Fig. 6 is a schematic view of the fitting relationship between the retainer ring and the mounting cross member in embodiment 2 of the present application.

Fig. 7 is a schematic view of the fitting relationship between the retainer ring and the mounting beam according to embodiment 3 of the present application.

Description of reference numerals:

1. a mounting frame; 11. a support bar; 12. mounting a plate; 121. a guide hole; 1211. a guide bar; 122. an insertion vibrator; 1221. a vibrating head; 13. driving a lead screw; 14. a lifting motor; 2. mounting a cross beam; 21. a support beam; 211. a support pillar; 3. a moving assembly; 31. a support shaft; 32. supporting the rollers; 321. a limiting ring; 4. a drive member; 41. a drive motor; 411. a driving gear; 42. a driven gear; 5. an abutting member; 51. a butt joint shaft; 511. a reinforcing plate; 5111. connecting holes; 5112. a hole of abdication; 512. connecting a screw rod; 5121. locking the nut; 52. Is abutted against the roller.

Detailed Description

The present application is described in further detail below with reference to figures 2-7.

The application discloses a running gear for concrete vibrating equipment.

Example 1

Referring to fig. 2, a traveling device for a concrete vibrating apparatus includes an installation frame 1 and two installation beams 2, wherein one installation beam 2 is located on one side of the width direction of the installation frame 1, the other installation beam 2 is located on the other side of the width direction of the installation frame 1, the two installation beams 2 are parallel to each other, and the length directions of the two installation beams 2 are all arranged along the length direction of the installation frame 1. Supporting beams 21 are arranged at the positions of two ends of the mounting cross beam 2, supporting columns 211 are fixedly welded at the two ends of the supporting beams 21, and the lower ends of the supporting columns 211 are fixed with the ground through foundation bolts; each mounting cross beam 2 is welded and fixed with the upper surface of the support beam 21. The mounting frame 1 is used for mounting a vibrator, which in this embodiment comprises an insertion vibrator 122.

Referring to fig. 2, the mounting frame 1 is provided with a moving assembly 3, and the moving assembly 3 can drive the mounting frame 1 to move along the length direction of the mounting beam 2. When the device is used, an operator firstly places a plurality of moulds poured with concrete at positions below the mounting cross beam 2, and all the moulds are sequentially arranged along the length direction of the mounting cross beam 2; an operator can move the mounting frame 1 to the upper part of any mould by controlling the moving assembly 3, and at the moment, the vibrating head 1221 of the plug-in vibrator 122 can vibrate the concrete in the corresponding mould, so that the gas in the concrete is discharged, and the concrete is compacted.

Referring to fig. 2 and 3, at least two moving assemblies 3 are sequentially arranged along the length direction of the mounting frame 1, and in this embodiment, the number of the moving assemblies 3 is two. The moving assembly 3 comprises two supporting shafts 31 and supporting rollers 32 sleeved on the peripheral wall of each supporting shaft 31; two support shafts 31 set up the position in the width direction's of mounting bracket 1 both sides relatively, and one of them one end of support shaft 31 and mounting bracket 1 welded fastening, the other end of support shaft 31 extends the setting to the direction of keeping away from mounting bracket 1 along the width direction of mounting bracket 1. The supporting rollers 32 are connected with the supporting shafts 31 through bearings, and each supporting roller 32 can rotate around the axis of the corresponding supporting shaft 31. Each support roller 32 is located right above the corresponding mounting beam 2, and the peripheral wall of each support roller 32 abuts against the upper surface of the corresponding mounting beam 2 to support the mounting frame 1.

With reference to fig. 2 and 3, the moving assembly 3 is provided with a drive 4; only one of the moving assemblies 3 may be provided with the driving member 4, a plurality of the moving assemblies 3 may be provided with the driving members 4, respectively, or each of the moving assemblies 3 may be provided with the driving member 4. In the present embodiment, only one of the moving assemblies 3 is provided with a driving member 4; the number of the driving members 4 is two, and the two driving members 4 correspond to the two corresponding support rollers 32 one by one. The two driving members 4 can drive the corresponding two supporting rollers 32 to rotate synchronously, so as to drive the mounting frame 1 to move stably.

Referring to fig. 3 and 4, the driving member 4 includes a driving motor 41 and a driven gear 42, the driving motor 41 is connected to the mounting frame 1, and the driven gear 42 is coaxially welded and fixed to the end wall of the corresponding support roller 32; the output end of each driving motor 41 is keyed with a driving gear 411, and the driving gear 411 is engaged with the corresponding driven gear 42. In this embodiment, the two driving motors 41 have the same model, and the two driving motors 41 are connected to a control switch through a wire. By pressing the control switch button, the operator can control the two driving motors 41 to rotate synchronously.

Referring to fig. 2 and 3, abutments 5 are provided at both sides of the mounting bracket 1 in the width direction; in this embodiment, the number of the abutting members 5 located on each side of the mounting frame 1 is the same as the number of the support rollers 32 located on the corresponding side of the mounting frame 1, and all the abutting members 5 correspond to all the support rollers 32 one to one. Each abutment 5 is located below the corresponding mounting beam 2 and each abutment 5 is located directly below the corresponding support roller 32. The abutting pieces 5 abut against the lower surface of the mounting cross beam 2, and the moving stability of the mounting frame 1 is improved.

Referring to fig. 3 and 4, the abutment member 5 includes an abutment shaft 51 and an abutment roller 52 fitted around an outer peripheral wall of the abutment shaft 51. One end of the abutting shaft 51 is fixedly welded with the mounting rack 1, and the other end of the abutting shaft 51 extends in the direction far away from the mounting rack 1 along the width direction of the mounting rack 1; the abutment roller 52 is connected to the abutment shaft 51 via a bearing, and the abutment roller 52 is rotatable about the axis of the abutment shaft 51. The peripheral wall of the abutting roller 52 abuts against the lower surface of the corresponding mounting beam 2 to restrict upward movement of the mounting frame 1, and improve the stability of the fit between the supporting roller 32 and the mounting beam 2.

Referring to fig. 3, each butt axle 51 is kept away from between one end of mounting bracket 1 and the mounting bracket 1 and all is connected with reinforcing plate 511, and wherein one end of reinforcing plate 511 links to each other with butt axle 51, and the other end of reinforcing plate 511 links to each other with the back shaft 31 that is located directly over the butt axle 51 that corresponds to improved the rigidity that butt axle 51 kept away from mounting bracket 1 one end and back shaft 31 and kept away from the one end of mounting bracket 1 simultaneously.

Referring to fig. 4, a connecting screw 512 is coaxially welded and fixed to each of an end of the abutting shaft 51 away from the mounting bracket 1 and an end of the supporting shaft 31 away from the mounting bracket 1; each end of the reinforcing plate 511 is provided with a connecting hole 5111 along the axial direction of the abutting shaft 51 for inserting the corresponding connecting screw 512. The outer peripheral wall of each connecting screw 512 is threadedly connected with a lock nut 5121. The outer diameter of the connecting screw 512 is smaller than the outer diameters of the abutment shaft 51 and the support shaft 31; when the reinforcing plate 511 is installed, each connecting hole 5111 is aligned with the corresponding connecting screw 512, and then the reinforcing plate 511 is moved towards the mounting frame 1, so that the connecting screw 512 is inserted into the corresponding connecting hole 5111; at this time, the locking nut 5121 is sleeved on the connecting screw 512 by the end of the connecting screw 512 far away from the mounting frame 1, and the locking nut 5121 is screwed until the locking nut 5121 and the reinforcing plate 511 are contacted and abutted against the side wall of the side far away from the mounting frame 1. The connecting screw 512 is matched with the locking nut 5121, so that the structure is simple, and the disassembly and assembly operations of the reinforcing plate 511 are facilitated.

Referring to fig. 4, an avoiding hole 5112 is formed at a position of the reinforcing plate 511 close to one end of the support shaft 31, and the avoiding hole 5112 penetrates in the axial direction of the support shaft 31. The driving motor 41 is fixedly installed on one side of the reinforcing plate 511 far away from the mounting frame 1 through screws, and the output end of the driving motor 41 penetrates through the abdicating hole 5112. The driving motor 41 is fixedly connected with the reinforcing plate 511, which is beneficial to reducing the occupation of the driving motor 41 on the mounting frame 1 between the two mounting cross beams 2, so as to facilitate the disassembly, assembly and use of the vibrator.

Referring to fig. 2 and 5, the outer peripheral walls of the two oppositely disposed support rollers 32 are coaxially welded and fixed with limiting rings 321, and each limiting ring 321 is located at one end of the corresponding support roller 32 far away from the other support roller 32; meanwhile, each limiting ring 321 is located at a position where the corresponding mounting beam 2 is far away from one side of the other mounting beam 2, and the mutually facing side walls of each limiting ring 321 and the corresponding mounting beam 2 are mutually abutted to limit the mounting frame 1 to move in the width direction, so that the possibility of separation of the supporting rollers 32 from the upper surface of the mounting beam 2 is reduced.

The implementation principle of the walking device for the concrete vibrating equipment in the embodiment of the application is as follows:

when needs remove mounting bracket 1, operating personnel passes through the operation of the steerable driving motor 41 of control switch to the drive corresponds support rolls 32 and rotates, thereby makes support rolls 32 roll along the upper surface of the installation crossbeam 2 that corresponds, and then drives mounting bracket 1 and remove along the length direction of installation crossbeam 2, simple structure, simple operation.

An operator sequentially places a plurality of moulds poured with concrete at positions below the mounting cross beam 2 along the length direction of the mounting cross beam 2; then, by moving the mounting frame 1, the vibrators can be sequentially moved to the positions above each mould, so that the vibrating heads 1221 of the vibrators vibrate the concrete in the corresponding mould; after the vibration is finished, the mould can stand in place without being carried, so that the possibility of air mixing into the concrete again is reduced, and the quality of the formed concrete prefabricated part is improved.

Example 2

Referring to fig. 5 and 6, the present embodiment is different from embodiment 1 in that:

each limiting ring 321 is located at one end of the corresponding support roller 32 close to the other support roller 32, and each limiting ring 321 is located between the two mounting beams 2; each limiting ring 321 is abutted against the side wall facing each other of the corresponding mounting beam 2, so as to limit the mounting frame 1 to move along the width direction of the mounting frame.

Example 3

Referring to fig. 5 and 7, the present embodiment is different from embodiment 1 in that:

the number of the limiting rings 321 on the outer circumferential wall of each supporting roller 32 is two, one limiting ring 321 is located at one end of the supporting roller 32, and the other limiting ring 321 is located at the other end of the supporting roller 32. The distance between the two limit rings 321 connected with the same support roller 32 is equal to the width of the mounting beam 2, and each limit ring 321 is abutted against the side wall of the corresponding side of the corresponding mounting beam 2; two spacing rings 321 mutually support, can strengthen the spacing ring 321 to the restriction effect of mounting bracket 1, improve the stability of structure.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. A running gear for concrete vibrating equipment comprises a mounting rack (1) for mounting a vibrator; the method is characterized in that: mounting cross beams (2) are arranged on two sides of the mounting rack (1) in the width direction, and the length direction of the mounting cross beams (2) is arranged along the length direction of the mounting rack (1); the mounting frame (1) is sequentially provided with at least two moving assemblies (3) along the length direction of the mounting cross beam (2); the moving assembly (3) comprises support shafts (31) which are oppositely arranged on two sides of the mounting rack (1) in the width direction and support rollers (32) which are arranged on each support shaft (31), and each support roller (32) rotates around the axis of the corresponding support shaft (31); the axial direction of each supporting shaft (31) is arranged along the width direction of the mounting rack (1), and the peripheral wall of each supporting roller (32) is abutted to the upper surface of the mounting cross beam (2) at the corresponding position; at least one of the moving assemblies (3) is connected with a driving piece (4) for driving the corresponding supporting roller (32) to rotate.

2. A running gear for a concrete vibrating apparatus according to claim 1, wherein: the number of the driving parts (4) connected with the corresponding moving assembly (3) is two, and the two driving parts (4) correspond to the two corresponding supporting rollers (32) one by one.

3. A running gear for a concrete vibrating apparatus according to claim 1, wherein: the driving piece (4) comprises a driving motor (41) fixedly connected with the mounting frame (1) and a driven gear (42) coaxially and fixedly connected with the corresponding supporting roller (32), and the output end of the driving motor (41) is fixedly provided with a driving gear (411) meshed and connected with the driven gear (42).

4. A running gear for a concrete vibrating apparatus according to claim 1, wherein: one ends, close to each other or far away from each other, of the two oppositely arranged supporting rollers (32) are fixedly provided with limiting rings (321); and the side wall of each limiting ring (321) is abutted against the side wall of the corresponding mounting cross beam (2).

5. A running gear for a concrete vibrating apparatus according to claim 1, wherein: both sides of the width direction of the mounting rack (1) are provided with abutting pieces (5) abutted against the lower surfaces of the corresponding mounting cross beams (2).

6. The running gear for a concrete vibrating apparatus according to claim 5, wherein: the abutting part (5) comprises an abutting shaft (51) connected with the mounting frame (1) and an abutting roller (52) which is rotatably connected with the abutting shaft (51) around the axis of the abutting shaft (51), and the outer peripheral wall of the abutting roller (52) is abutted to the lower surface of the corresponding mounting cross beam (2).

7. The running gear for a concrete vibrating apparatus according to claim 6, wherein: wherein one end and mounting bracket (1) fixed connection of butt joint axle (51), the other end of butt joint axle (51) extends the setting to the direction of keeping away from mounting bracket (1) along the width direction of mounting bracket (1).

8. A running gear for a concrete vibrating apparatus according to claim 7, wherein: a reinforcing plate (511) is detachably connected between one end, far away from the mounting frame (1), of the abutting shaft (51) and the mounting frame (1).

9. A running gear for a concrete vibrating apparatus according to claim 8, wherein: connecting holes (5111) are formed in the two ends of the reinforcing plate (511) in a penetrating mode along the axial direction of the abutting shaft (51), and a connecting screw rod (512) is inserted into each connecting hole (5111) in a penetrating mode; one end of one of the connecting screw rods (512) close to the mounting rack (1) is fixedly connected with the end wall of the abutting shaft (51), and one end of the other connecting screw rod (512) close to the mounting rack (1) is fixedly connected with the mounting rack (1); and each connecting screw rod (512) is positioned on the outer peripheral wall of one side of the reinforcing plate (511) far away from the mounting frame (1) and is in threaded connection with a locking nut (5121).

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