A smart displacement test tube holder for body fluid testing
By designing an intelligent test tube placer, intelligent identification and automatic displacement of test tubes are achieved, solving the problem of low efficiency of existing equipment, improving the accuracy and efficiency of test tube management, and ensuring sample quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHENGZHOU FEILONG MEDICAL EQUIP CO LTD
- Filing Date
- 2025-05-30
- Publication Date
- 2026-06-30
AI Technical Summary
Existing test tube management equipment lacks intelligent recognition and automatic transfer functions, resulting in low efficiency and susceptibility to human error, failing to meet the requirements of efficient and precise management in modern laboratories.
Design an intelligent displacement test tube holder for body fluid testing, with multiple placement areas, each corresponding to a specific type of test tube. Equipped with sensors and receivers for intelligent identification, and using a motor and controller to achieve automatic displacement and temperature regulation of the test tubes.
It enables intelligent and orderly storage of test tubes, improves management efficiency, reduces human error, ensures sample quality, and provides suitable storage conditions.
Smart Images

Figure CN224422941U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of medical devices, specifically a test tube holder for body fluid detection that can be intelligently displaced. Background Technology
[0002] In the process of bodily fluid testing, the management and storage of test tubes is a crucial step. Traditional methods of test tube placement typically rely on manual operation, which is not only inefficient but also prone to errors. Furthermore, during testing, test tubes often need to be temporarily stored and moved to specific locations for subsequent processing according to different testing requirements. Manual operation in this process is time-consuming and labor-intensive, and also increases the risk of human error. While some semi-automated test tube management devices exist, most of these devices lack intelligent identification and automatic relocation functions, failing to meet the requirements of modern, efficient, and precise laboratory management. Therefore, overcoming the aforementioned technical problems and shortcomings is a key issue that needs to be addressed. Utility Model Content
[0003] The purpose of this invention is to overcome the defects described in the background art, thereby realizing an intelligently movable test tube holder for body fluid testing. The holder is equipped with multiple placement areas to realize intelligent and orderly storage of test tubes. Each placement area corresponds to a specific type of test tube, improving the management efficiency of test tubes. During use, test tubes can be temporarily placed, and different types of test tubes can be intelligently identified, automatically moving different types of test tubes to the corresponding placement areas, facilitating subsequent movement and processing of test tubes.
[0004] To achieve the aforementioned objectives, the technical solution of this utility model is: a smart, movable test tube holder for body fluid testing, comprising a placement cylinder, wherein a partition is coaxially and vertically fixed inside the placement cylinder, dividing the interior of the placement cylinder into multiple placement areas. A detachable cylinder cap is coaxially mounted at the top of the placement cylinder, and a temporary storage box is mounted at the top of the cylinder cap to temporarily store test tubes in corresponding placement areas. A tube placement unit that cooperates with the temporary storage box is located inside each placement area. A controller is fixedly mounted at the top of the cylinder cap.
[0005] In the above-mentioned intelligently movable test tube holder for body fluid testing, the placement tube is a cylindrical structure with an open top, and a label groove that matches the corresponding placement area is provided on the outer side wall of the placement tube. At least one handle is fixedly provided on the outer side wall of the placement tube.
[0006] In the above-mentioned intelligently movable test tube holder for body fluid detection, the partition is a vertical, multi-sided impeller-shaped structure, and a rotating hole is vertically opened in the middle of the partition.
[0007] A rotating shaft that can be inserted into the rotating hole is coaxially fixed on the cylinder cover, and the rotating shaft passes through the middle position of the cylinder cover vertically.
[0008] In the aforementioned intelligently movable test tube holder for body fluid testing, the diameter of the cap is larger than the diameter of the placement tube, and multiple conical toothed blocks are arranged around the bottom circumference of the outer edge of the cap. A first protective cover is fixedly installed on the outer side wall of the placement tube, and a first motor is fixedly installed on the outer wall of the placement tube inside the first protective cover. The first motor is electrically connected to the controller. A bevel gear that meshes with the conical toothed blocks is fixedly installed at the output end of the first motor.
[0009] In the aforementioned intelligently movable test tube holder for body fluid testing, the temporary storage box has an opening at both the top and bottom and is designed to mimic the shape of the placement area. The temporary storage box is fixedly mounted on the upper part of the rotating shaft. A cover plate is rotatably mounted at the top of the rotating shaft, and the cover plate is located at the top of the temporary storage box and covers the top of the temporary storage box. Two limiting blocks are fixedly mounted at the top of the rotating shaft to restrict the position of the cover plate, and a friction part is fixedly mounted at the top of the cover plate.
[0010] In the above-mentioned intelligently movable test tube holder for body fluid testing, at least two first tube placement plates are horizontally arranged inside the temporary storage box. The two first tube placement plates are horizontally arranged in the vertical direction, and multiple first tube placement holes for inserting test tubes are vertically opened through the first tube placement plates.
[0011] A sensor electrically connected to the controller is fixedly installed on the side of the temporary storage box, and a first receiver adapted to the sensor is installed on the test tube. The first receiver can be of various types.
[0012] In the above-mentioned intelligently movable test tube holder for body fluid testing, a support plate is provided between the top of the cap and the bottom of the temporary storage box. The support plate is rotatably mounted on a rotating shaft and is designed to conform to the shape of the temporary storage box. A soft pad that can abut against the bottom of the test tube is fixedly provided on the top of the support plate.
[0013] A second protective cover is fixedly installed on the outer side wall of the temporary storage box. A mounting plate is fixedly installed on a rotating shaft inside the second protective cover. A second motor is fixedly installed on the mounting plate and is electrically connected to the controller. A reel is fixedly installed at the output end of the second motor. A belt is fixedly installed on the side of the tray, and the other end of the belt is fixedly installed on the reel.
[0014] The top of the tray is fixedly provided with a stop bar to limit the position of the tray, and at least one spring is horizontally fixed between the stop bar and the mounting plate.
[0015] In the above-mentioned intelligently movable test tube holder for body fluid detection, the tube placement unit includes a second receiver fixedly disposed on the side wall inside the placement area. Each second receiver is of the same type as the corresponding first receiver, and the second receiver is adapted to the sensor.
[0016] At least one second placement plate is horizontally arranged inside the placement area. The second placement plate is liftable and height-adjustable within the placement area. Multiple second placement holes, corresponding to the positions of the first placement holes, are vertically arranged through the second placement plate. The diameter of each second placement hole is larger than the diameter of the first placement hole, and a sponge ring is fixedly installed on the inner wall of each second placement hole. A liftable base plate is horizontally arranged at the bottom end of the placement area. At least one support rod is vertically fixedly installed at the top end of the base plate, and the top end of the support rod is fixedly installed to the bottom end of the second placement plate. Multiple sponge pads, corresponding to the positions of the corresponding second placement holes, are fixedly installed at the top end of the base plate.
[0017] In the above-mentioned intelligently movable test tube holder for body fluid testing, an electric push rod that is electrically connected to the controller is vertically fixed at the middle position of the bottom end of the base plate, and the inner bottom end of the placement tube is fixedly provided at the sleeve end of the electric push rod.
[0018] In the above-mentioned intelligently movable test tube holder for body fluid detection, a heater is fixedly installed inside the placement tube below the partition. The heater is electrically connected to the controller, and a temperature sensor is fixedly installed inside the placement tube.
[0019] Compared with the prior art, the intelligently movable test tube holder for body fluid testing of this utility model has at least the following beneficial effects:
[0020] This utility model discloses an intelligently movable test tube holder for body fluid testing. By setting up a placement cylinder with partitions, the internal space is divided into multiple placement areas. Combined with a detachable cylinder cap, a temporary storage box, and a label slot, it realizes intelligent and orderly storage of test tubes. Each placement area corresponds to a specific type of test tube, thereby improving the management efficiency of test tubes.
[0021] This utility model discloses an intelligently movable test tube holder for body fluid testing, which is equipped with a temporary storage box for temporary storage of test tubes. It can assist in the temporary placement of test tubes of the same type, and can automatically move the test tubes above the corresponding placement area. In conjunction with the lifting and lowering of the tube placement unit, it realizes the automatic displacement and placement of test tubes, which facilitates the subsequent processing of test tubes.
[0022] This invention relates to an intelligently movable test tube holder for body fluid testing, which is equipped with a sensor and multiple receivers. It can intelligently identify different types of test tubes and automatically place different types of test tubes into the corresponding placement areas.
[0023] This invention relates to an intelligently movable test tube holder for body fluid testing. The holder has a built-in heater and temperature sensor, which can adjust the internal temperature as needed to provide necessary preservation conditions for certain special samples and ensure sample quality. Attached Figure Description
[0024] Figure 1 This is a schematic diagram of the overall structure of the intelligently movable test tube holder for body fluid detection according to this utility model.
[0025] Figure 2 This is a schematic diagram of the temporary storage box structure of the intelligently movable test tube holder for body fluid detection according to this utility model.
[0026] Figure 3 This is an exploded structural diagram of the intelligently movable test tube holder for body fluid detection according to this utility model;
[0027] Figure 4 This is a schematic diagram of the sensor position of the intelligently movable test tube holder for body fluid detection according to this utility model.
[0028] Figure 5 This is a schematic diagram of the support rod position of the intelligently movable test tube holder for body fluid testing according to this utility model.
[0029] In the diagram: 1. Placement cylinder; 2. Divider; 3. Placement area; 4. Cylinder lid; 5. Temporary storage box;
[0030] 6. Tube placement unit; 61. Second receiver; 62. Second tube placement plate; 63. Second tube placement hole; 64. Sponge ring; 65. Base plate; 66. Support rod; 67. Sponge pad; 68. Electric actuator;
[0031] 7. Controller; 8. Label slot; 9. Handle; 10. Rotary hole; 11. Rotating shaft; 12. Conical gear; 13. First protective cover; 14. First motor; 15. Bevel gear; 16. Cover plate; 17. Limiting block; 18. Friction part; 19. First tube placement plate; 20. First tube placement hole; 21. Sensor; 22. First receiver; 23. Support plate; 24. Soft pad; 25. Second protective cover; 26. Mounting plate; 27. Second motor; 28. Winding wheel; 29. Belt winding; 30. Stop bar; 31. Spring; 32. Heater; 33. Temperature sensor. Detailed Implementation
[0032] The present invention provides a more detailed description of the intelligently movable test tube holder for body fluid detection, in conjunction with the accompanying drawings and specific embodiments.
[0033] In the description of this utility model, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0034] See Figures 1-5 This embodiment describes a smart, movable test tube holder for body fluid testing. The holder has multiple placement areas 3, enabling intelligent and orderly storage of test tubes. Each placement area 3 corresponds to a specific type of test tube, improving management efficiency. During use, test tubes can be temporarily placed, and different types of test tubes can be intelligently identified and automatically moved to the corresponding placement area 3 for easy subsequent movement and processing. In this embodiment, it mainly includes a placement cylinder 1, which is a cylindrical structure with an open top. A partition 2 is coaxially and vertically fixed inside the placement cylinder 1, dividing the interior into multiple placement areas 3. A label slot 8 is provided on the outer side wall of the placement cylinder 1, corresponding to the placement area 3. Labels with the corresponding liquid names can be placed in the label slots 8 for easy retrieval. At least one handle 9 is fixedly provided on the outer side wall of the placement cylinder 1, facilitating movement of the device. The partition 2 is a vertical, polygonal impeller-shaped structure with a vertically oriented rotating hole 10 in the middle. A detachable cover 4 is coaxially mounted on the top of the placement cylinder 1. A rotating shaft 11, which can be inserted into the rotating hole 10, is coaxially fixed on the cover 4, penetrating the middle of the cover 4. The rotating shaft 11 is directly inserted into the rotating hole 10, facilitating rotation and easy installation and removal. A controller 7 is fixedly mounted on the top of the cover 4. All electrical components are controlled via the controller 7.
[0035] The diameter of the cap 4 is larger than that of the placement tube 1, and multiple conical teeth 12 are arranged around the bottom circumference of the outer edge of the cap 4. A first protective cover 13 is fixedly installed on the outer side wall of the placement tube 1 to shield and protect the internal structure. A first motor 14 is fixedly installed on the outer wall of the placement tube 1 inside the first protective cover 13, and the first motor 14 is electrically connected to the controller 7. A bevel gear 15 that meshes with the conical teeth 12 is fixedly installed at the output end of the first motor 14. The controller 7 controls the first motor 14 to work, and the cap 4 rotates on the placement tube 1 through the bevel gear 15 and the conical teeth 12, thereby assisting in the subsequent repositioning of the test tube.
[0036] To assist in the transfer of the test tube. See also Figures 1-4In this embodiment, the top of the cap 4 is provided with a temporary storage box 5 that cooperates with the corresponding placement area 3 to temporarily store test tubes. The temporary storage box 5 has an open structure at both the top and bottom and is designed to mimic the shape of the placement area 3. The temporary storage box 5 is fixedly mounted on the upper part of the rotating shaft 11. A cover plate 16 is rotatably mounted on the top of the rotating shaft 11. The cover plate 16 is located at the top of the temporary storage box 5 and covers the top of the temporary storage box 5. Two limiting blocks 17 are fixedly mounted on the top of the rotating shaft 11 to restrict the position of the cover plate 16. A friction part 18 is fixedly mounted on the top of the cover plate 16. By rotating the cover plate 16 around the rotating shaft 11 through the friction part 18, the cover plate 16 is moved away from the top of the temporary storage box 5, thereby releasing the obstruction of the temporary storage box 5. The two limiting blocks 17 limit the two extreme positions of the cover plate 16. The temporary storage box 5 has at least two first tube placement plates 19 horizontally arranged inside, with each first tube placement plate 19 having multiple vertically penetrating first tube placement holes 20 for inserting test tubes. A sensor 21, electrically connected to the controller 7, is fixedly installed on the side of the temporary storage box 5. Each test tube has a first receiver 22 adapted to the sensor 21. The first receiver 22 comes in various types, with different liquids contained in test tubes with different first receivers 22. Test tubes containing the same type of liquid are inserted into their corresponding first tube placement holes 20 until all first tube placement holes 20 are used or all test tubes containing the same type of liquid are used.
[0037] A support plate 23 is provided between the top of the cylinder cover 4 and the bottom of the temporary storage box 5. The support plate 23 is rotatably mounted on the rotating shaft 11 and is designed to conform to the shape of the temporary storage box 5. A soft pad 24 is fixedly provided at the top of the support plate 23 so as to abut against the bottom of the test tube. When the test tube is placed in the first tube insertion hole 20, the soft pad 24 supports the bottom and prevents the bottom of the test tube from breaking when placed. A second protective cover 25 is fixedly provided on the outer side wall of the temporary storage box 5 to shield and protect the internal structure. A mounting plate 26 is fixedly provided on the rotating shaft 11 inside the second protective cover 25. A second motor 27 is fixedly provided on the mounting plate 26 and is electrically connected to the controller 7. A winding wheel 28 is fixedly provided at the output end of the second motor 27. A winding belt 29 is fixedly provided on the side of the support plate 23, and the other end of the winding belt 29 is fixedly provided on the winding wheel 28. A stop bar 30 is fixedly installed at the top of the tray 23 to restrict its position. At least one spring 31 is horizontally fixed between the stop bar 30 and the mounting plate 26. The controller 7 controls the second motor 27 to drive the reel 28 to rotate, thereby pulling the belt 29 to rotate the tray 23 around the shaft 11, thus moving the tray 23 away from the bottom of the temporary storage box 5. During this process, the stop bar 30 moves with the tray 23, compressing the spring 31. At this time, the test tube falls downward along the first tube placement hole 20. After the test tube has completely fallen, the control of the second motor 27 is disconnected. At this time, the tray 23 returns to its original position under the action of the spring 31 and is positioned by the stop bar 30.
[0038] To achieve the sorting of test tubes. In this embodiment, see... Figures 1-4 The placement area 3 is equipped with a tube placement unit 6 that cooperates with the temporary storage box 5. The tube placement unit 6 includes a second receiver 61 fixedly mounted on the side wall inside the placement area 3. Each second receiver 61 is of the same type as the corresponding first receiver 22, and the second receiver 61 is adapted to the sensor 21. When the cylinder cover 4 rotates, the sensor 21 senses the second receiver 61 and compares it with the first receiver 22. When the sensor 21 moves above the corresponding second receiver 61, it controls the first motor 14 to stop working. At this time, the controller 7 can control the second motor 27 to work.
[0039] At least one second placement plate 62 is horizontally arranged inside the placement area 3. The second placement plate 62 is vertically adjustable inside the placement area 3. Multiple second placement holes 63, corresponding to the positions of the first placement holes 20, are vertically arranged through the second placement plate 62. The diameter of the second placement holes 63 is larger than the diameter of the first placement holes 20, facilitating the entry of test tubes into the second placement holes 63. A sponge ring 64 is fixedly installed on the inner wall of the second placement hole 63. When a test tube falls from the first placement hole 20 into the second placement hole 63, it is cushioned by the sponge ring 64. A vertically adjustable base plate 65 is horizontally arranged at the bottom of the placement area 3. At least one support rod 66 is vertically fixedly installed at the top of the base plate 65, and the top of the support rod 66 is fixedly installed to the bottom of the second placement plate 62. Multiple sponge pads 67, corresponding to the positions of the corresponding second placement holes 63, are fixedly installed at the top of the base plate 65. When a test tube falls, it is cushioned by the sponge pads 67. Each of the bottom middle positions of the base plate 65 is vertically fixed with an electric push rod 68, which is electrically connected to the controller 7. The sleeve end of the electric push rod 68 is fixedly connected to the inner bottom end of the placement cylinder 1. Before the second motor 27 operates, the controller 7 controls the electric push rod 68 to move, thereby driving the base plate 65 to move upward, so that the second tube placement plate 62 is close to the first tube placement plate 19, which facilitates the relocation of the test tubes.
[0040] To regulate the internal ambient temperature. See details. Figure 5 A heater 32 is fixedly installed inside the placement cylinder 1 below the partition 2. The heater 32 is electrically connected to the controller 7, and a temperature sensor 33 is fixedly installed inside the placement cylinder 1. The controller 7 controls the operation of the heater 32, adjusting the internal ambient temperature as needed to provide necessary preservation conditions for certain special samples and ensure sample quality. During this process, the internal temperature is detected by the temperature sensor 33.
[0041] The method of using the intelligently movable test tube holder for body fluid testing of this utility model is as follows: First, different liquids are placed inside test tubes of different first receivers 22. The cover plate 16 is rotated around the pivot 11 by the friction part 18, and the cover plate 16 is removed from the top of the temporary storage box 5, thereby removing the obstruction to the temporary storage box 5. The cover plate 16 is limited to two extreme positions by two limiting blocks 17. Test tubes containing the same type of liquid are inserted into the corresponding first placement hole 20 until all the first placement holes 20 are used or all the test tubes containing the same type of liquid are used. When the test tubes are in the first placement holes 20, the bottom is supported by the soft pad 24 to prevent the bottom of the test tubes from breaking during placement. The controller 7 controls the first motor 14 to work, and the cylinder cover 4 is rotated on the placement cylinder 1 by the bevel gear 15 and the bevel gear 12, thereby assisting in the subsequent displacement of the test tubes. When the cylinder cover 4 rotates, the sensor 21 senses the second receiver 61 and compares it with the first receiver 22. When the sensor 21 moves above the corresponding second receiver 61, it controls the first motor 14 to stop working.
[0042] The controller 7 controls the electric actuator 68 to move, thereby driving the base plate 65 to move upward, bringing the second tube placement plate 62 closer to the first tube placement plate 19, facilitating the repositioning of the test tubes. The controller 7 also controls the second motor 27 to operate, driving the reel 28 to rotate, which in turn pulls the belt 29, causing the tray 23 to rotate around the shaft 11, thus removing the tray 23 from the bottom of the temporary storage box 5. During this process, the stop bar 30 moves with the tray 23, compressing the spring 31. At this time, the test tube falls downward along the first tube placement hole 20. The test tube falls from the first tube placement hole 20 into the second tube placement hole 63, where it is cushioned by the sponge ring 64. The test tube then falls onto the sponge pad 67 for further cushioning. After the test tube has completely fallen, the control of the second motor 27 is disconnected. At this time, the tray 23 returns to its original position under the action of the spring 31 and is positioned by the stop bar 30.
[0043] During the placement of the test tube, the controller 7 controls the heater 32 to operate, adjusting the internal ambient temperature as needed to provide necessary preservation conditions for certain special samples and ensure sample quality. During this process, the internal temperature is monitored by the temperature sensor 33.
[0044] Unless otherwise defined, the technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention pertains. The use of terms such as "a" or "an" in this specification and claims does not necessarily indicate a limitation on quantity. Terms such as "comprising" or "including" mean that the element or object preceding the word encompasses the element or object listed following the word and its equivalents, without excluding other elements or objects. Terms such as "connected" or "linked" are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect.
[0045] The exemplary embodiments of the present invention have been described in detail above with reference to preferred embodiments. However, those skilled in the art will understand that various modifications and alterations can be made to the above specific embodiments without departing from the concept of the present invention, and various combinations can be made to the various technical features and structures proposed by the present invention without exceeding the protection scope of the present invention.
Claims
1. A test tube holder for body fluid detection which can be intelligently moved, characterized by: The device includes a placement tube (1), inside which a partition (2) is coaxially and vertically fixed, dividing the interior of the placement tube (1) into multiple placement areas (3). A detachable tube cover (4) is coaxially provided at the top of the placement tube (1), and a temporary storage box (5) is provided at the top of the tube cover (4) to temporarily store test tubes in accordance with the corresponding placement area (3). Inside the placement area (3) is a tube placement unit (6) that cooperates with the temporary storage box (5). A controller (7) is fixedly provided at the top of the tube cover (4).
2. The smartly displaceable body fluid detection test tube placer according to claim 1, characterized in that: The placement tube (1) is a cylindrical structure with an open top. The outer side wall of the placement tube (1) is provided with a label groove (8) that matches the corresponding placement area (3). At least one handle (9) is fixedly provided on the outer side wall of the placement tube (1).
3. The smartly displaceable body fluid detection test tube placer according to claim 1, characterized in that: The partition (2) is a vertical and polygonal impeller-shaped structure, and a rotating hole (10) is vertically opened in the middle of the partition (2); A rotating shaft (11) that can be inserted into the rotating hole (10) is coaxially fixed on the cylinder cover (4), and the rotating shaft (11) passes through the middle position of the cylinder cover (4) vertically.
4. The smartly displaceable body fluid detection test tube placer according to claim 1, characterized in that: The diameter of the cover (4) is larger than the diameter of the placement tube (1). The bottom edge of the cover (4) is provided with a plurality of conical teeth (12) blocks. A first protective cover (13) is fixedly provided on the outer side wall of the placement tube (1). A first motor (14) is fixedly provided on the outer wall of the placement tube (1) inside the first protective cover (13). The first motor (14) is electrically connected to the controller (7). A bevel gear (15) that meshes with the conical teeth (12) blocks is fixedly provided at the output end of the first motor (14).
5. The smartly displaceable body fluid detection test tube placer according to claim 3, characterized in that: The temporary storage box (5) has an open structure at the top and bottom and is designed to resemble the shape of the placement area (3). The temporary storage box (5) is fixedly installed on the upper part of the rotating shaft (11). A cover plate (16) is rotatably installed at the top of the rotating shaft (11). The cover plate (16) is located at the top of the temporary storage box (5) and covers the top of the temporary storage box (5). Two limiting blocks (17) that restrict the position of the cover plate (16) are fixedly installed at the top of the rotating shaft (11). A friction part (18) is fixedly installed at the top of the cover plate (16).
6. The smartly displaceable body fluid detection test tube placer according to claim 5, characterized in that: The temporary storage box (5) has at least two first tube placement plates (19) horizontally arranged inside. The two first tube placement plates (19) are horizontally arranged in the vertical direction. Multiple first tube placement holes (20) for inserting test tubes are vertically opened on the first tube placement plate (19). The temporary storage box (5) is fixedly provided with a sensor (21) that is electrically connected to the controller (7) on its side. The test tube is provided with a first receiver (22) that is compatible with the sensor (21). The first receiver (22) can be of various types.
7. The smartly displaceable body fluid detection test tube placer according to claim 6, characterized in that: A tray (23) is provided between the top of the tube cap (4) and the bottom of the temporary storage box (5). The tray (23) is rotatably mounted on the rotating shaft (11) and is designed to resemble the shape of the temporary storage box (5). A soft pad (24) that can abut against the bottom of the test tube is fixedly provided on the top of the tray (23). A second protective cover (25) is fixedly installed on the outer side wall of the temporary storage box (5). A mounting plate (26) is fixedly installed on the rotating shaft (11) inside the second protective cover (25). A second motor (27) is fixedly installed on the mounting plate (26). The second motor (27) is electrically connected to the controller (7). A reel (28) is fixedly installed at the output end of the second motor (27). A belt (29) is fixedly installed on the side of the pallet (23). The other end of the belt (29) is fixedly installed on the reel (28). The top of the tray (23) is fixedly provided with a stop bar (30) to limit the position of the tray (23), and at least one spring (31) is horizontally fixed between the stop bar (30) and the mounting plate (26).
8. The smartly displaceable body fluid detection test tube placer according to claim 5, characterized in that: The tube placement unit (6) includes a second receiver (61) fixedly installed on the side wall inside the placement area (3). Each second receiver (61) is of the same type as the corresponding first receiver (22). The second receiver (61) is adapted to the sensor (21). At least one second tube placement plate (62) is horizontally arranged inside the placement area (3). The second tube placement plate (62) is vertically and vertically arranged inside the placement area (3). A plurality of second tube placement holes (63) corresponding to the positions of the first tube placement hole (20) are vertically and vertically arranged on the second tube placement plate (62). The diameter of the second tube placement hole (63) is larger than the diameter of the first tube placement hole (20). A sponge ring (64) is fixedly arranged on the inner wall of the second tube placement hole (63). A liftable base plate (65) is horizontally arranged at the bottom end of the placement area (3). At least one support rod (66) is vertically and fixedly arranged at the top end of the base plate (65). The top end of the support rod (66) is fixedly arranged with the bottom end of the second tube placement plate (62). A plurality of sponge pads (67) corresponding to the positions of the corresponding second tube placement holes (63) are fixedly arranged at the top end of the base plate (65).
9. The smartly displaceable body fluid detection test tube placer according to claim 8, characterized in that: The bottom of the base plate (65) is vertically fixed with an electric push rod (68) that is electrically connected to the controller (7) at the middle position of the bottom. The sleeve end of the electric push rod (68) is fixed with the inner bottom end of the placement cylinder (1).
10. The smartly displaceable body fluid detection test tube placer according to claim 1, characterized in that: A heater (32) is fixedly installed inside the placement cylinder (1) below the partition (2). The heater (32) is electrically connected to the controller (7). A temperature sensor (33) is fixedly installed inside the placement cylinder (1).