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US-12618749-B2 - Powder sample adding device and powder sample adding system

US12618749B2US 12618749 B2US12618749 B2US 12618749B2US-12618749-B2

Abstract

The present application provides a powder sample adding device and a powder sample adding system. The powder sample adding device includes a first bracket and a sample adding mechanism. The first bracket includes a powder adding substrate and a powder bucket carrying member, the powder adding substrate is connected to the powder bucket carrying member. The sample adding mechanism is connected to the powder adding substrate. The sample adding mechanism includes a powder adding member, a stirring driving member, and a pressing-down driving member. The stirring driving member is connected to the powder adding member in a transmission way and configured to drive the powder adding member to rotate. The pressing-down driving member is rotatably connected to the powder adding member and configured to drive the powder adding member to rise and fall relative to the powder adding substrate.

Inventors

  • Anxin HOU
  • Youlong WEI
  • Ruibin MAI
  • Jiandong Gao
  • Yang Liu

Assignees

  • SHENZHEN JINGTAI TECHNOLOGY CO., LTD.

Dates

Publication Date
20260505
Application Date
20240131
Priority Date
20220629

Claims (20)

  1. 1 . A powder sample adding device, comprising: a first bracket, comprising a powder adding substrate and a powder bucket carrying member, wherein the powder adding substrate is connected to the powder bucket carrying member, and the powder bucket carrying member is configured for carrying a powder adding bucket; and a sample adding mechanism, connected to the powder adding substrate, wherein the sample adding mechanism comprises a powder adding member, a stirring driving member, and a pressing-down driving member; the stirring driving member is connected to the powder adding member in a transmission way and configured to drive the powder adding member to rotate; the pressing-down driving member is rotatably connected to the powder adding member and configured to drive the powder adding member to rise and fall relative to the powder adding substrate; and the stirring driving member and the pressing-down driving member jointly act on the powder adding member, so that the powder adding member is in butt joint with the powder adding bucket, to drive the powder adding bucket to perform a powder adding operation.
  2. 2 . The powder sample adding device according to claim 1 , wherein the powder adding member comprises a sliding sleeve base, a rotating sliding sleeve, and a powder adding rod; the sliding sleeve base is connected to the powder adding substrate, and the rotating sliding sleeve is rotatably disposed inside the sliding sleeve base; the powder adding rod movably passes through the rotating sliding sleeve, and one end of the powder adding rod away from the powder adding bucket is rotatably connected to the pressing-down driving member, and the pressing-down driving member is configured to drive the powder adding rod to rise and fall relative to the rotating sliding sleeve; and the stirring driving member is connected to the rotating sliding sleeve in the transmission way, and configured for driving the rotating sliding sleeve to rotate, so as to drive the powder adding rod to rotate.
  3. 3 . The powder sample adding device according to claim 2 , wherein the powder adding rod comprises a first joint, a guide rod, a second joint, and an output rod; the first joint is rotatably connected to an output end of the pressing-down driving member; the guide rod movably passes through the rotating slide sleeve, and two opposite ends of the guide rod are respectively connected to the first joint and the second joint; and the output rod is connected to one side of the second joint away from the guide rod, and the output rod is configured to be in butt joint with the powder adding bucket; and the number of guide rods is at least two, and at least two guide rods are disposed in parallel.
  4. 4 . The powder sample adding device according to claim 2 , wherein the stirring driving member comprises: a driving motor; and a transmission assembly, disposed between an output end of the driving motor and the rotating sliding sleeve, wherein the transmission assembly comprises a first gear and a second gear, the first gear is connected to the output end of the driving motor, the second gear is connected to the rotating slide sleeve, and the first gear and the second gear are meshed with each other.
  5. 5 . The powder sample adding device according to claim 1 , further comprising a pressing mechanism, wherein the pressing mechanism is disposed on the powder adding substrate and configured for pressing the powder adding bucket onto the powder bucket carrying member; and the pressing mechanism comprises a pressing driving member and a pressing member, and the pressing driving member is disposed on one side of the powder adding substrate away from the powder adding bucket; a window is defined on the powder adding substrate, and the pressing member passes through the window to extend towards the powder adding bucket; and the pressing driving member is connected to the pressing member and configured for driving the pressing member to press the powder adding bucket or release the powder adding bucket.
  6. 6 . The powder sample adding device according to claim 1 , further comprising a micro-vibration assembly connected to the powder bucket carrying member and configured to drive the powder bucket carrying member to vibrate.
  7. 7 . The powder sample adding device according to claim 6 , wherein the micro-vibration assembly is further connected to the powder adding substrate; and the micro-vibration assembly comprises a micro-vibration member and a vibration frame, the micro-vibration member is connected to the powder adding substrate, and the vibration frame is connected to the micro-vibration member and the powder bucket carrying member.
  8. 8 . The powder sample adding device according to claim 1 , wherein the powder bucket carrying member comprises a first powder bucket positioning part configured to fix the powder adding bucket; one side of the first powder bucket positioning part away from the powder adding substrate defines an opening to avoid the powder adding bucket; and the powder sample adding device further comprises a powder bucket support, the powder bucket support comprises a second powder bucket positioning part that is cooperates with the first powder bucket positioning part; the powder bucket support is detachably positioned and assembled on the powder bucket carrying member, so that the powder adding bucket is simultaneously disposed on the first powder bucket positioning part and the second powder bucket positioning part.
  9. 9 . The powder sample adding device according to claim 8 , wherein the powder bucket support comprises a support part and a pick-up part, the second powder bucket positioning part is located on the support part, and the pick-up part is connected to the support part and extends outward from one side of the support part; the powder bucket support further comprises a powder bucket grab rod disposed on the pick-up part, and the powder bucket grab rod is configured for being picked up to carry the powder adding bucket for loading and unloading on the powder bucket support.
  10. 10 . The powder sample adding device according to claim 1 , further comprising a balance disposed on one side of the powder bucket carrying member away from the sample adding mechanism, and the balance is configured for carrying and weighing a container to be added with the powder.
  11. 11 . The powder sample adding device according to claim 10 , further comprising a vertical moving mechanism, and a driving end of the vertical moving mechanism is connected to the first bracket, and configured to drive the sample adding mechanism and the powder adding bucket to rise and fall with the first bracket, so as to adjust a distance between the container on the balance and the powder adding bucket in a vertical direction.
  12. 12 . The powder sample adding device according to claim 11 , further comprising a carrying platform and a horizontal driving mechanism, wherein the horizontal driving mechanism is configured to drive the carrying platform to move along a first horizontal direction and/or a second horizontal direction, and the first horizontal direction is perpendicular to the second horizontal direction; the balance is disposed on the carrying platform; and the horizontal driving mechanism and the vertical moving mechanism are disposed independently of each other, and the first bracket and the carrying platform are disposed independently of each other.
  13. 13 . The powder sample adding device according to claim 11 , further comprising a horizontal moving mechanism, wherein the horizontal moving mechanism is connected to the vertical moving mechanism and configured for driving the vertical moving mechanism to move along a horizontal direction perpendicular to a direction of rising and falling, so as to adjust the distance between the container on the balance and the powder adding bucket in a horizontal direction.
  14. 14 . The powder sample adding device according to claim 11 , further comprising a windproof assembly, wherein the windproof assembly defines a windproof cavity that at least partially surrounds the balance and container, and a powder outlet of the powder adding bucket is aligned with and communicated with the windproof cavity.
  15. 15 . The powder sample adding device according to claim 14 , wherein the windproof assembly comprises a first windproof member and a second windproof member, wherein the first windproof member is disposed around the balance; and the powder sample adding device further comprises a second bracket connected to the first bracket, the second windproof member is connected to the second bracket, and the vertical moving mechanism is connected to the second bracket and configured for driving the second bracket to rise and fall, so that the second windproof member covers the first windproof member to form the windproof cavity.
  16. 16 . The powder sample adding device according to claim 15 , wherein the first windproof member comprises a front wall, two side walls, and a first rear wall that are disposed around the balance; the second windproof member comprises a top cover configured for covering a cavity formed by the front wall, the two side walls, and the first rear wall; and the top cover defines an opening configured for butt joint with the powder adding bucket.
  17. 17 . The powder sample adding device according to claim 16 , wherein a limit member is disposed on the vertical moving mechanism, and the limit member is configured to limit a descending stroke of the vertical moving mechanism to prevent the top cover from hitting against the first rear wall; and/or the second windproof member further comprises a second rear wall connected to the top cover, a height of the first rear wall is smaller than that of the front wall and smaller than that of each of the two side walls, and the second rear wall is configured to cover a gap between the top cover and the first rear wall; and a sum of the height of the first rear wall and a height of the second rear wall is greater than or equal to the height of the front wall and greater than or equal to the height of each of the two side walls.
  18. 18 . The powder sample adding device according to claim 14 , wherein the windproof assembly comprises a first box body and a second box body, the second box body is hinged with the first box body and cover the balance, and an opening that is in butt joint with the powder adding bucket is defined on the first box body or the second box body; or the windproof assembly comprises a first windproof member and a second windproof member, the first windproof member comprises a first surrounding wall disposed around the balance, the second windproof member comprises a top cover and a second surrounding wall connected to the top cover, and the top cover defines an opening configured for butt joint with the powder adding bucket; in response to the second windproof member covering the first windproof member, the first surrounding wall and the second surrounding wall are sleeved with each other; or the windproof assembly comprises a windproof cover and a door body disposed on the windproof cover, and the windproof cover at least surrounds the balance and the sample adding mechanism; or the windproof assembly comprises a windproof cover connected to the first bracket, the windproof cover defines an opening that is in butt joint with the powder adding bucket; and in response to the vertical moving mechanism driving the first bracket to fall, the windproof cover covers the balance and the container.
  19. 19 . The powder sample adding device according to claim 10 , further comprising: a horizontal adjustment member, wherein the balance is disposed on the horizontal adjustment member, and the horizontal adjustment member is configured to keep the balance in a horizontal state; and an anti-vibration assembly, wherein the horizontal adjustment member is disposed on the anti-vibration assembly; the anti-vibration assembly comprises a first anti-vibration member and a second anti-vibration member, wherein the second anti-vibration member is movably connected to one side of the first anti-vibration member, and the second anti-vibration member supports the horizontal adjustment member; and the anti-vibration assembly further comprises a plurality of anti-vibration feet fixedly connected to the other side of the first anti-vibration member.
  20. 20 . A powder sample adding system, comprising: an experimental platform; a powder sample adding device, disposed on the experimental platform, wherein the powder sample adding device comprises: a first bracket, comprising a powder adding substrate and a powder bucket carrying member, wherein the powder adding substrate is connected to the powder bucket carrying member, and the powder bucket carrying member is configured for carrying a powder adding bucket; and a sample adding mechanism, connected to the powder adding substrate, wherein the sample adding mechanism comprises a powder adding member, a stirring driving member, and a pressing-down driving member; the stirring driving member is connected to the powder adding member in a transmission way and configured to drive the powder adding member to rotate; the pressing-down driving member is rotatably connected to the powder adding member and configured to drive the powder adding member to rise and fall relative to the powder adding substrate; and the stirring driving member and the pressing-down driving member jointly act on the powder adding member, so that the powder adding member is in butt joint with the powder adding bucket, to drive the powder adding bucket to perform a powder adding operation; and a transport device, disposed on the experimental platform, wherein the transport device is configured to take away and place the powder adding bucket on the powder bucket carrying member of the powder sample adding device.

Description

CROSS-REFERENCE TO RELATED DISCLOSURES The present application is a continuation of International Patent Application No. PCT/CN2023/102877, filed on Jun. 27, 2023, which claims priority to Chinese Patent Application No. 202210763160.6, entitled “A POWDER SAMPLE ADDING DEVICE AND POWDER SAMPLE ADDING SYSTEM”, filed Jun. 29, 2022, and Chinese Patent Application No. 202211610484.2, entitled “A POWDER SAMPLE ADDING DEVICE AND POWDER SAMPLE ADDING SYSTEM”, filed Dec. 14, 2022, which are herein incorporated by reference in their entirety. TECHNICAL FIELD The present disclosure relates to the field of powder sample adding technologies, and in particular to a powder sample adding device and a powder sample adding system. BACKGROUND In traditional technology, the development of a new material generally requires a longer time cycle, which consumes a lot of manpower and material resources. The repeated cycles of “preparation-performance evaluation-repreparation-performance re-evaluation” are explored until the material with the best performance is obtained. However, the existing powders configured for material experiments are mainly added manually by experimenters. The powder addition efficiency and the accuracy of the powder addition amount are difficult to meet the experimental needs. Moreover, the labor cost is high, the error is large, the efficiency is low, and the powder cannot be quickly added with high throughput. SUMMARY OF THE DISCLOSURE One technical solution adopted by the present disclosure is to provide a powder sample adding device. The powder sample adding device includes a first bracket and a sample adding mechanism. The first bracket includes a powder adding substrate and a powder bucket carrying member, the powder adding substrate is connected to the powder bucket carrying member, and the powder bucket carrying member is configured for carrying a powder adding bucket. The sample adding mechanism is connected to the powder adding substrate, the sample adding mechanism includes a powder adding member, a stirring driving member, and a pressing-down driving member; the stirring driving member is connected to the powder adding member in a transmission way and configured to drive the powder adding member to rotate; the pressing-down driving member is rotatably connected to the powder adding member and configured to drive the powder adding member to rise and fall relative to the powder adding substrate; and the stirring driving member and the pressing-down driving member jointly act on the powder adding member, so that the powder adding member is in butt joint with the powder adding bucket, to drive the powder adding bucket to perform a powder adding operation. In some embodiments, the powder adding member includes a sliding sleeve base, a rotating sliding sleeve, and a powder adding rod; the sliding sleeve base is connected to the powder adding substrate, and the rotating sliding sleeve is rotatably disposed inside the sliding sleeve base; the powder adding rod movably passes through the rotating sliding sleeve, and one end of the powder adding rod away from the powder adding bucket is rotatably connected to the pressing-down driving member, and the pressing-down driving member is configured to drive the powder adding rod to rise and fall relative to the rotating sliding sleeve; and the stirring driving member is connected to the rotating sliding sleeve in the transmission way, and configured for driving the rotating sliding sleeve to rotate, so as to drive the powder adding rod to rotate. In some embodiments, the powder adding rod includes a first joint, a guide rod, a second joint, and an output rod; the first joint is rotatably connected to an output end of the pressing-down driving member; the guide rod movably passes through the rotating slide sleeve, and two opposite ends of the guide rod are respectively connected to the first joint and the second joint; and the output rod is connected to one side of the second joint away from the guide rod, and the output rod is configured to be in butt joint with the powder adding bucket. The number of guide rods is at least two, and at least two guide rods are disposed in parallel. In some embodiments, the stirring driving member includes a driving motor and a transmission assembly. The transmission assembly is disposed between an output end of the driving motor and the rotating sliding sleeve, wherein the transmission assembly includes a first gear and a second gear, the first gear is connected to the output end of the driving motor, the second gear is connected to the rotating slide sleeve, and the first gear and the second gear are meshed with each other. In some embodiments, the powder sample adding device further includes a pressing mechanism, and the pressing mechanism is disposed on the powder adding substrate and configured for pressing the powder bucket onto the powder bucket carrying member. The pressing mechanism includes a pressing driving member and