CN220847499U - Electric light power feeler - Google Patents
Electric light power feeler Download PDFInfo
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- CN220847499U CN220847499U CN202322737701.0U CN202322737701U CN220847499U CN 220847499 U CN220847499 U CN 220847499U CN 202322737701 U CN202322737701 U CN 202322737701U CN 220847499 U CN220847499 U CN 220847499U
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- 239000000523 sample Substances 0.000 claims description 10
- 238000003860 storage Methods 0.000 claims description 5
- 238000000034 method Methods 0.000 claims description 3
- 230000005540 biological transmission Effects 0.000 claims description 2
- 238000001514 detection method Methods 0.000 description 4
- 239000002689 soil Substances 0.000 description 4
- 238000010009 beating Methods 0.000 description 3
- 238000011065 in-situ storage Methods 0.000 description 2
- 238000012360 testing method Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 239000004927 clay Substances 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 238000011835 investigation Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000035515 penetration Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 238000010998 test method Methods 0.000 description 1
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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Abstract
The utility model discloses an electric light power feeler instrument, which comprises a frame and an intelligent controller, wherein a feeler mechanism capable of sliding up and down is vertically arranged at the central position inside the frame, four chains respectively arranged on an upper driven chain wheel and a lower driving chain wheel are arranged inside the frame around the feeler mechanism, two chains on the left side are connected with left hammer lifting rods, two chains on the right side are connected with right hammer lifting rods, the teeth number of the four driving chain wheels is the same, a servo motor drives the four chains to synchronously rotate through four gears and the driving chain wheels which are sequentially meshed, and the synchronously rotated chains lift and drop the heavy hammer of the feeler mechanism once through the left and right hammer lifting rods. Easy to operate, labor and physical power saving and high working efficiency.
Description
Technical Field
The utility model belongs to the technical field of engineering quality detection equipment, and particularly relates to an electric light power feeler.
Background
The dynamic sounding test is an in-situ test method commonly used for geotechnical engineering investigation. The method comprises the steps of utilizing a certain drop weight mass, beating a probe with a certain size and a certain shape into the soil, and judging the name and engineering property of the soil layer according to the beating difficulty, namely the beating number of the penetration hammer. The weight of the drop hammer is 10kg, 63.5kg and 120kg according to the difference of the weight and the lifting height, and the weight is called light weight, heavy weight and extra heavy weight dynamic sounding.
The light dynamic sounding is suitable for clay soil and silt soil, and the drop hammer is lifted manually; the labor intensity of the manual hammer lifting is high, and the consistency of the manual hammer lifting height and the perpendicularity of the guide rod cannot be ensured; under the general condition, the positions of field tests and in-situ detection are more, the engineering quantity is large, the personnel are stressed, and an electric light-duty dynamic sounding instrument which has the advantages of simple structure, easy operation, manpower and physical power saving and high working efficiency is urgently needed.
Disclosure of utility model
The utility model aims to solve the problems in the prior art and provides the electric light power feeler which has the advantages of simple structure, easy operation, labor and physical power saving and high working efficiency.
The technical scheme adopted by the utility model is as follows: an electric light power feeler instrument comprises a frame, a feeler mechanism and an intelligent controller, wherein the feeler mechanism comprises a probe, a feeler lever, a hammer seat, a guide lever and a heavy hammer; the method is characterized in that: a sounding mechanism capable of sliding vertically is arranged in the frame; four driven chain wheels are arranged at the upper part in the frame, and are respectively: the left front driven sprocket, the left back driven sprocket, the right front driven sprocket, the right back driven sprocket sets up four driving sprocket that the number of teeth is the same in the frame lower part, and these four driving sprocket do not: the left front driving chain wheel, the left rear driving chain wheel, the right front driving chain wheel, the right rear driving chain wheel, the left front chain is connected between the left front driven chain wheel and the left front driving chain wheel, the left rear chain is connected between the left rear driven chain wheel and the left rear driving chain wheel, the right front chain is connected between the right front driven chain wheel and the right front driving chain wheel, the right rear chain is connected between the right rear driven chain wheel and the right rear driving chain wheel, the left front driving chain wheel and the left rear driving chain wheel are fixedly arranged on the left driving chain shaft, the right front driving chain wheel and the right rear driving chain wheel are fixedly arranged on the right driving chain shaft, the left driving chain shaft and the right driving chain shaft are connected through four gear transmission with the same tooth numbers which are meshed with each other in sequence, the left driving chain shaft or the right driving chain shaft is driven to rotate by a servo motor, a left hammer lifting rod is connected between the left front chain and the right rear chain, and a right hammer lifting rod which is symmetrical with the left hammer lifting rod is connected between the right front chain and the right rear chain.
Preferably, the frame comprises an upper four-side frame and a lower four-side frame, wherein the upper four-side frame comprises an upper front frame, an upper rear frame, an upper left frame and an upper right frame, the lower four-side frame comprises a lower front frame, a lower rear frame, a lower left frame and a lower right frame, and four corners between the upper four-side frame and the lower four-side frame are respectively connected with a front left column, a front right column, a rear left column and a rear right column; the lower part of the middle between the front left column and the front right column is transversely connected with the front middle lower frame, the front left middle column and the front right middle column are connected between the upper front frame and the front middle lower frame, the rear left middle column and the rear right middle column are connected between the upper rear frame and the lower rear frame, four supporting feet are arranged below the lower four-side frame, the left box plate is connected between the front left column and the rear left column, the right box plate is connected between the front right column and the rear right column, the front lower box plate is connected between the front middle lower frame and the lower front frame, the front left box plate is connected between the front left middle column and the front left column, the front right box plate is connected between the front right middle column and the front right column, the rear left box plate is connected between the rear left middle column and the rear left column, and the rear right box plate is connected between the rear right middle column and the rear right column.
Preferably, the left driving chain shaft is arranged between the front lower box plate and the rear left box plate through a bearing, the right driving chain shaft is arranged between the front lower box plate and the rear right box plate through a bearing, and the four gears with the same tooth number are respectively: the left gear is fixedly arranged on the left driving chain shaft, the right gear is fixedly arranged on the right driving chain shaft, and the left middle gear and the right middle gear are arranged on the front lower box plate through bearings and short shafts.
Preferably, the left front driven sprocket and the left rear driven sprocket are fixedly arranged on a left driven sprocket shaft, the left driven sprocket shaft is arranged between the rear left box plate and the front left box plate through a bearing, the right front driven sprocket and the right rear driven sprocket are fixedly arranged on a right driven sprocket shaft, and the right driven sprocket shaft is arranged between the rear right box plate and the front right box plate through a bearing.
Preferably, a hammer count sensor is provided at the upper portion in the frame.
Preferably, the counting sensor is an infrared correlation photoelectric switch comprising a transmitter and a receiver, the transmitter or the receiver is arranged at the upper parts of the front left middle column and the rear left middle column through a connecting plate, and the receiver or the transmitter is arranged at the upper parts of the front right middle column and the rear right middle column through a connecting plate.
Preferably, the middle part between the upper front frame and the upper rear frame is connected with an upper middle frame, the middle part of the upper middle frame is provided with an upper sleeve, the middle part between the lower front frame and the lower rear frame is connected with a lower middle frame, the middle part of the lower middle frame is provided with a lower sleeve, a guide rod of the sounding mechanism is sleeved in the upper sleeve, and a sounding rod of the sounding mechanism is sleeved in the lower sleeve.
Preferably, the middle parts of the front left column and the rear left column are connected with a left handrail, and the middle parts of the front right column and the rear right column are connected with a right handrail.
Preferably, the intelligent controller controls the servo motor to work according to the set parameters and the feedback signals of the counting sensor.
Preferably, a storage battery for supplying power to the intelligent controller and the servo motor is arranged at the bottom in the frame.
Compared with the prior art, the utility model has the beneficial effects that:
(1) According to the utility model, the left hammer lifting rod and the right hammer lifting rod are driven to circularly move up and down by the four chains which synchronously rotate, so that the heavy hammer is driven to repeatedly lift and fall, the manual hammer lifting operation is replaced, the manpower and the physical strength are saved, meanwhile, the error caused by individual difference of the manual operation is avoided, and the accuracy of detection data is improved.
(2) The intelligent controller is arranged, the servo motor can be controlled to automatically work according to the set parameters and the feedback signals of the counting sensor, the automation degree is high, the use is convenient, and the problem of inaccurate manual counting is solved.
(3) According to the utility model, the storage battery for providing power for the intelligent controller and the servo motor is arranged at the bottom in the frame, and the storage battery is arranged at the bottom, so that the gravity center is reduced, the stability is improved, and the problem that the outdoor operation is inconvenient to connect with the power supply is solved.
(3) The utility model has simple and compact overall design structure and light weight, and two persons can conveniently place the two persons on accurate detection positions through the left handrail and the right handrail.
Drawings
FIG. 1 is a schematic perspective view of the rear left side view of the electric light-duty power feeler of the present utility model;
FIG. 2 is a schematic perspective view of the front right side view of the electric light-duty dynamic feeler of the present utility model;
FIG. 3 is a schematic view of the internal perspective of the rear left side view of the electric light-duty power feeler of the present utility model;
Fig. 4 is a schematic internal perspective view of the front right side view of the electric light-duty dynamic feeler of the present utility model.
In the figure: 1-intelligent controller, 2-probe, 3-probe rod, 4-hammer seat, 5-guide rod, 6-hammer, 7-left front driven sprocket, 8-left back driven sprocket, 9-right front driven sprocket, 10-right back driven sprocket, 11-left front driving sprocket, 12-left back driving sprocket, 13-right front driving sprocket, 14-right back driving sprocket, 15-left front chain, 16-left back chain, 17-right front chain, 18-right back chain, 19-left driving chain shaft, 20-right driving chain shaft, 21-left driven chain shaft, 22-right driven chain shaft, 23-left gear, 24-left middle gear, 25-right middle gear, 26-right gear, 27-servo motor, 28-left hammer lifting rod, 29-right hammer lifting rod, 30-upper front frame, 31-upper rear frame, 32-upper left frame, 33-upper right frame, 34-lower front frame, 35-lower rear frame, 36-lower left frame, 37-lower right frame, 38-front left column, 39-front right column, 40-rear left column, 41-rear right column, 42-front middle lower frame, 43-front left middle column, 44-front right middle column, 45-rear left middle column, 46-rear right middle column, 47-foot, 48-left box plate, 49-right box plate, 50-front lower box plate, 51-front left box plate, 52-front right box plate, 53-rear left box plate, 54-rear right box plate, 55-short axis, 56-emitter, 57-receiver, 58-upper middle frame, 59-upper sleeve, 60-lower middle frame, 61-lower sleeve, 62-left handrail, 63-right handrail and 64-storage battery.
Detailed Description
Embodiments of the technical scheme of the present utility model are described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and thus are merely examples, and are not intended to limit the scope of the present utility model.
Examples: as shown in fig. 1 to 4, an electric light power feeler-probe comprises a frame, a feeler-probe mechanism and an intelligent controller 1, wherein the feeler-probe mechanism comprises a probe 2, a probe rod 3, a hammer seat 4, a guide rod 5 and a heavy hammer 6; a sounding mechanism capable of sliding vertically is arranged in the frame; four driven chain wheels are arranged at the upper part in the frame, and are respectively: the left front driven sprocket 7, the left rear driven sprocket 8, the right front driven sprocket 9, the right rear driven sprocket 10, the lower part sets up four driving sprocket that the number of teeth is the same in the frame, these four driving sprocket are respectively: the left front driving sprocket 11, the left rear driving sprocket 12, the right front driving sprocket 13, the right rear driving sprocket 14, the left front driven sprocket 7 is connected with the left front driving sprocket 11 by a left front chain 15, the left rear driven sprocket 8 is connected with the left rear driving sprocket 12 by a left rear chain 16, the right front driven sprocket 9 is connected with the right front driving sprocket 13 by a right front chain 17, the right rear driven sprocket 10 is connected with the right rear driving sprocket 14 by a right rear chain 18, the left front driving sprocket 11 and the left rear driving sprocket 12 are fixedly arranged on the left driving sprocket shaft 19, the right front driving sprocket 13 and the right rear driving sprocket 14 are fixedly arranged on the right driving sprocket shaft 20, the left driving sprocket shaft 19 and the right driving sprocket shaft 20 are connected by four gears with the same tooth number which are meshed with each other in sequence, the right driving sprocket shaft 20 is driven to rotate by a servo motor 27, a left hammer lifting rod 28 is connected between the left front chain 15 and the left rear chain 16, and a right hammer lifting rod 29 which is symmetrical to the left hammer rod 28 is connected between the right front chain 17 and the right rear chain 18.
The frame comprises an upper four-side frame and a lower four-side frame, wherein the upper four-side frame is composed of an upper front frame 30, an upper rear frame 31, an upper left frame 32 and an upper right frame 33, the lower four-side frame is composed of a lower front frame 24, a lower rear frame 35, a lower left frame 36 and a lower right frame 37, and four corners between the upper four-side frame and the lower four-side frame are respectively connected with a front left column 38, a front right column 39, a rear left column 40 and a rear right column 41; the middle lower part between the front left column 38 and the front right column 39 is transversely connected with a front middle lower frame 42, the front left middle column 43 and the front right middle column 44 are connected between the upper front frame 30 and the front middle lower frame 42, the rear left middle column 45 and the rear right middle column 46 are connected between the upper rear frame 31 and the lower rear frame 35, and four supporting feet 47 are arranged below the lower four-edge frame;
Left box plate 48 is connected between front left column 38 and rear left column 40, right box plate 49 is connected between front right column 39 and rear right column 41, front lower box plate 50 is connected between front middle lower frame 42 and lower front frame 34, front left box plate 51 is connected between front left middle column 43 and front left column 38, front right box plate 52 is connected between front right middle column 44 and front right column 39, rear left box plate 53 is connected between rear left middle column 45 and rear left column 40, and rear right box plate 54 is connected between rear right middle column 46 and rear right column 41.
The left driving chain shaft 19 is arranged between the front lower box plate 50 and the rear left box plate 53 through a bearing, and the right driving chain shaft 20 is arranged between the front lower box plate 50 and the rear right box plate 54 through a bearing; the gears with the same number of teeth are respectively: the left gear 23, the left middle gear 24, the right middle gear 25 and the right gear 26, the left gear 23 is fixedly mounted on the left driving chain shaft 19, the right gear 26 is fixedly mounted on the right driving chain shaft 20, and the left middle gear 24 and the right middle gear 25 are mounted on the front lower box plate 50 through bearings and a short shaft 55.
The left front driven sprocket 7 and the left rear driven sprocket 8 are fixedly arranged on a left driven sprocket shaft 21, the left driven sprocket shaft 21 is arranged between a rear left box plate 53 and a front left box plate 51 through a bearing, the right front driven sprocket 9 and the right rear driven sprocket 10 are fixedly arranged on a right driven sprocket shaft 22, and the right driven sprocket shaft 22 is arranged between a rear right box plate 54 and a front right box plate 52 through a bearing.
The upper part in the frame is provided with a hammering times counting sensor which is an infrared correlation photoelectric switch comprising an emitter 56 and a receiver 57, the emitter 56 is arranged on the upper parts of the front left middle column 43 and the rear left middle column 45 through a connecting plate, and the receiver 57 is arranged on the upper parts of the front right middle column 44 and the rear right middle column 46 through a connecting plate.
The middle part between the upper front frame 30 and the upper rear frame 31 is connected with an upper middle frame 58, the middle part of the upper middle frame 58 is provided with an upper sleeve 59, the middle part between the lower front frame 34 and the lower rear frame 35 is connected with a lower middle frame 60, the middle part of the lower middle frame 60 is provided with a lower sleeve 61, the guide rod 5 of the feeler mechanism is sleeved in the upper sleeve 59, and the feeler rod 3 of the feeler mechanism is sleeved in the lower sleeve 61.
A left armrest 62 is connected to the middle of the front left column 38 and the rear left column 40, and a right armrest 63 is connected to the middle of the front right column 39 and the rear right column 41.
The intelligent controller 1 controls the servo motor 27 to work according to the set parameters and the feedback signals of the counting sensor.
A battery 64 for supplying power to the intelligent controller 1 and the servo motor 27 is provided at the bottom inside the frame.
Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model, and are intended to be included within the scope of the appended claims and description.
Claims (10)
1. An electric light power feeler instrument comprises a frame, a feeler mechanism and an intelligent controller, wherein the feeler mechanism comprises a probe, a feeler lever, a hammer seat, a guide lever and a heavy hammer; the method is characterized in that: a sounding mechanism capable of sliding vertically is arranged in the frame; four driven chain wheels are arranged at the upper part in the frame, and are respectively: the left front driven sprocket, the left back driven sprocket, the right front driven sprocket, the right back driven sprocket sets up four driving sprocket that the number of teeth is the same in the frame lower part, and these four driving sprocket do not: the left front driving chain wheel, the left rear driving chain wheel, the right front driving chain wheel, the right rear driving chain wheel, the left front chain is connected between the left front driven chain wheel and the left front driving chain wheel, the left rear chain is connected between the left rear driven chain wheel and the left rear driving chain wheel, the right front chain is connected between the right front driven chain wheel and the right front driving chain wheel, the right rear chain is connected between the right rear driven chain wheel and the right rear driving chain wheel, the left front driving chain wheel and the left rear driving chain wheel are fixedly arranged on the left driving chain shaft, the right front driving chain wheel and the right rear driving chain wheel are fixedly arranged on the right driving chain shaft, the left driving chain shaft and the right driving chain shaft are connected through four gear transmission with the same tooth numbers which are meshed with each other in sequence, the left driving chain shaft or the right driving chain shaft is driven to rotate by a servo motor, a left hammer lifting rod is connected between the left front chain and the right rear chain, and a right hammer lifting rod which is symmetrical with the left hammer lifting rod is connected between the right front chain and the right rear chain.
2. The electrically powered light-duty dynamic sounding instrument of claim 1, wherein: the frame comprises an upper four-side frame and a lower four-side frame, wherein the upper four-side frame consists of an upper front frame, an upper rear frame, an upper left frame and an upper right frame, the lower four-side frame consists of a lower front frame, a lower rear frame, a lower left frame and a lower right frame, and four corners between the upper four-side frame and the lower four-side frame are respectively connected with a front left column, a front right column, a rear left column and a rear right column; the lower part of the middle between the front left column and the front right column is transversely connected with the front middle lower frame, the front left middle column and the front right middle column are connected between the upper front frame and the front middle lower frame, the rear left middle column and the rear right middle column are connected between the upper rear frame and the lower rear frame, four supporting feet are arranged below the lower four-side frame, the left box plate is connected between the front left column and the rear left column, the right box plate is connected between the front right column and the rear right column, the front lower box plate is connected between the front middle lower frame and the lower frame, the front left box plate is connected between the front left middle column and the front left column, the front right box plate is connected between the front right middle column and the front right column, the rear left box plate is connected between the rear left middle column and the rear left column, and the rear right box plate is connected between the rear right middle column and the rear right column.
3. The electrically powered light-duty dynamic sounding instrument of claim 2, wherein: the left driving chain shaft is arranged between the front lower box plate and the rear left box plate through a bearing, the right driving chain shaft is arranged between the front lower box plate and the rear right box plate through a bearing, and the four gears with the same tooth number are respectively: the left gear is fixedly arranged on the left driving chain shaft, the right gear is fixedly arranged on the right driving chain shaft, and the left middle gear and the right middle gear are arranged on the front lower box plate through bearings and short shafts.
4. An electrically powered lightweight dynamic sounding apparatus as claimed in claim 3, wherein: the left front driven sprocket and the left rear driven sprocket are fixedly arranged on a left driven chain shaft, the left driven chain shaft is arranged between a rear left box plate and a front left box plate through a bearing, the right front driven sprocket and the right rear driven sprocket are fixedly arranged on a right driven chain shaft, and the right driven chain shaft is arranged between a rear right box plate and a front right box plate through a bearing.
5. The electrically powered lightweight dynamic sounding apparatus of claim 4, wherein: the upper part in the frame is provided with a hammering times counting sensor.
6. The electrically powered lightweight dynamic sounding apparatus of claim 5, wherein: the counting sensor is an infrared correlation photoelectric switch comprising a transmitter and a receiver, the transmitters or the receivers are arranged at the upper parts of the front left middle column and the rear left middle column through connecting plates, and the receivers or the transmitters are arranged at the upper parts of the front right middle column and the rear right middle column through connecting plates.
7. The electrically powered lightweight dynamic sounding apparatus of claim 6, wherein: the middle part between the upper front frame and the upper rear frame is connected with an upper middle frame, the middle part of the upper middle frame is provided with an upper sleeve, the middle part between the lower front frame and the lower rear frame is connected with a lower middle frame, the middle part of the lower middle frame is provided with a lower sleeve, a guide rod of the sounding mechanism is sleeved in the upper sleeve, and a sounding rod of the sounding mechanism is sleeved in the lower sleeve.
8. The electrically powered lightweight dynamic sounding apparatus of claim 7, wherein: the middle parts of the front left column and the rear left column are connected with a left handrail, and the middle parts of the front right column and the rear right column are connected with a right handrail.
9. The electrically powered lightweight dynamic sounding apparatus of claim 8, wherein: the intelligent controller controls the servo motor to work according to the set parameters and the feedback signals of the counting sensor.
10. The electrically powered lightweight dynamic sounding apparatus of claim 9, wherein: the bottom in the frame is provided with a storage battery for providing power for the intelligent controller and the servo motor.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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CN2023223485232 | 2023-08-31 | ||
CN202322348523 | 2023-08-31 |
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Publication Number | Publication Date |
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CN220847499U true CN220847499U (en) | 2024-04-26 |
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Application Number | Title | Priority Date | Filing Date |
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CN202322737701.0U Active CN220847499U (en) | 2023-08-31 | 2023-10-12 | Electric light power feeler |
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CN (1) | CN220847499U (en) |
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2023
- 2023-10-12 CN CN202322737701.0U patent/CN220847499U/en active Active
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