CN111493891B - Blood collection vibration detection equipment - Google Patents

Abstract

The application provides a vibration check out test set is gathered to blood, vibration check out test set is gathered to blood includes the body, fixed connection is in the vibrating device of body, can dismantle the blood sampling device of being connected with vibrating device, fixed connection is in printing opacity sampling needle and the detecting system of body, blood sampling device is equipped with the blood sampling straw, the target liquid has been acceptd to the blood sampling straw, and the inner wall coating of blood sampling straw has the anticoagulant, when blood sampling device is fixed in vibrating device, blood sampling device can receive the vibration energy of vibrating device output, partial target liquid can be gathered to the printing opacity sampling needle, partial target body fluid that the printing opacity sampling needle gathered is for waiting to detect liquid, detect the volume of bubble in the definite printing opacity sampling needle, wait to detect the volume of liquid, and wait to detect whether liquid agglutinates.

Description

Blood collection vibration detection equipment

technical field

The application relates to the field of medical technology, in particular to blood collection vibration detection equipment.

Background technique

Peripheral blood sampling refers to the method of puncturing a specific part of a finger or heel to collect capillary blood for testing. It is one of the most common and important medical methods in clinical diagnosis and treatment of children. Compared with the process of venous blood sample collection, peripheral blood collection has the advantages of high success rate of blood collection and low incidence of complications. Therefore, peripheral blood collection occupies an indispensable position in pediatric clinical work. At present, the collected patient's blood is generally oscillated by medical personnel, and then the oscillated blood is put into a hemocytometer for detection. However, this method cannot ensure whether the blood is shaken evenly, and often cannot accurately determine whether there is coagulation in the shaken blood. If there is coagulation, it will make the detection of the blood cell instrument wrong, delay the patient's condition and even life.

Contents of the invention

The present application provides a blood collection vibration detection device, through which the blood collection device is oscillated by the vibration device in the blood collection vibration detection device, without the need for medical staff to manually vibrate the test tube, which reduces the work intensity of the medical staff; and The target liquid in the blood collection straw is fully contacted with the anticoagulant on the inner wall of the blood collection straw to avoid agglutination of the target liquid. No need for medical personnel to manually judge whether the target liquid in the blood collection device is agglutinated, but the volume of the liquid to be detected in the light-transmitting sampling needle and the volume of air bubbles in the light-transmitting sampling needle are detected in the detection system, And whether the liquid to be detected is agglutinated, the automation level of detecting whether the target liquid is agglutinated is improved, the work intensity of the medical staff is reduced, and the possible misjudgment that depends on the naked eyes of the medical staff is avoided.

The blood collection vibration detection device includes a body, a vibration device fixedly connected to the body, a blood collection device detachably connected to the vibration device, a light-transmitting sampling needle fixedly connected to the body, and a detection system. The device is provided with a blood collection suction tube, the blood collection suction tube contains the target liquid, and the inner wall of the blood collection suction tube is coated with anticoagulant, when the blood collection device is fixed on the vibration device, the blood collection device can receive the The vibration energy output by the vibration device, the light-transmitting sampling needle can collect part of the target liquid, and the part of the target body fluid collected by the light-transmitting sampling needle is the liquid to be detected. The detection system includes a light source, and the The receiving board facing the light source, and the processor fixedly connected to the receiving board, the light source, the receiving board, and the processor are fixedly connected to the body, and the light source and the receiving board are arranged on the On opposite sides of the light-transmitting sampling needle, the light source emits initial light toward the light-transmitting sampling needle, and the initial light is detected after transmission and scattering occur in the light-transmitting sampling needle and the liquid to be detected. Light, the detection light is transmitted to the receiving board, and the receiving board generates an electrical signal after receiving the detection light, and transmits the electrical signal to the processor, and the processor determines according to the electrical signal The intensity of the detection light is detected, and the volume of the air bubbles in the light-transmitting sampling needle, the volume of the liquid to be detected, and whether the liquid to be detected is agglomerated are determined according to the intensity of the detection light.

Further, the vibrating device is provided with a storage tray, and the storage tray accommodates the blood collection device.

Further, the main body is provided with a housing part, and the housing part houses the vibration device, the light source, the receiving board and the processor.

Further, the accommodating part includes a top and a bottom opposite to the top, the top is fixed with the light source, the receiving board and the processor, the blood collection vibration detection device also includes a sliding device, the The sliding device includes a base and a transmission belt slidingly connected with the base, the base is fixedly connected to the bottom, the transmission belt carries the vibrating device, and the transmission belt is used to move the vibrating device slide towards the light source, the receiver board and the processor.

Further, the blood collection device includes a casing and a blood collection needle, the casing has a storage cavity and an opening connected to the storage cavity, the blood collection suction tube and the blood collection needle are stored in the storage cavity, the blood collection The needle can slide into or out of the receiving cavity along the opening.

Further, the blood collection suction tube is spaced apart from the blood collection needle, and the blood collection suction tube can slide into or out of the storage cavity along the opening.

Further, the blood collection straw has a spout end, and the blood collection device further includes a sealing cap, and the sealing cap seals the spout end of the blood collection straw to seal the blood collection straw.

Further, the light-transmitting sampling needle pierces the sealing cap to collect the liquid to be detected in the blood collection straw.

Further, the blood collection vibration detection device includes a blood collection needle control button and a blood collection suction pipe control button, the blood collection needle control button and the blood collection suction pipe control button are fixedly connected to the housing, and the blood collection needle control button receives the first After the external pressure, the blood collection needle can be controlled to slide out of the storage chamber along the opening, and the blood collection suction tube control button can control the blood collection needle outside the storage chamber to slide out of the storage chamber after receiving the second external pressure. The opening slides into the storage cavity, and controls the blood collection straw to slide out of the storage cavity along the opening, and the control button of the blood collection suction tube can be controlled outside the storage cavity after receiving the third external pressure The blood collection straw slides into the receiving chamber.

Further, the light-transmitting sampling needle can be plugged into an external hemocytometer, so as to transmit the liquid to be detected to the hemocytometer.

Description of drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the following will briefly introduce the accompanying drawings that need to be used in the embodiments. Obviously, the accompanying drawings in the following description are only some embodiments of the present application. Those of ordinary skill in the art can also obtain other drawings based on these drawings without any creative effort.

FIG. 1 is a schematic diagram of a three-dimensional structure of a blood collection vibration detection device provided by an embodiment of the present application.

Fig. 2 is a schematic top view structural diagram of a blood collection vibration detection device provided by an embodiment of the present application.

Fig. 3 is a schematic front view structural view of a blood collection vibration detection device provided by an embodiment of the present application.

Fig. 4 is a schematic front view of a blood collection vibration detection device provided in another embodiment of the present application.

Fig. 5 is a schematic front view of the blood collection vibration detection device provided in another embodiment of the present application.

Fig. 6 is a schematic structural diagram of a blood collection device in a blood collection vibration detection device provided in another embodiment of the present application.

Fig. 7 is a schematic structural diagram of a blood collection device in a blood collection vibration detection device according to another embodiment of the present application.

Detailed ways

The following will describe the technical solutions in the embodiments of the application with reference to the drawings in the embodiments of the application. Obviously, the described embodiments are only part of the embodiments of the application, not all of them. Based on the implementation manners in this application, all other implementation manners obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of this application.

Please refer to Figures 1 to 3 together. Figure 1 is a schematic diagram of a three-dimensional structure of a blood collection vibration detection device provided in an embodiment of the present application; Figure 2 is a schematic top view of a blood collection vibration detection device provided in an embodiment of the present application; Fig. 3 is a schematic diagram of a front view structure of a blood collection vibration detection device provided by an embodiment of the present application. In this embodiment, the blood collection vibration detection device 1 is used in the medical field. The blood collection vibration detection device 1 includes a body 10 , a vibration device 20 fixedly connected to the body 10 , a blood sampling device 30 detachably connected to the vibration device 20 , and a light-transmitting sampling needle fixedly connected to the body 10 44 and the detection system 40, the blood collection device 30 is provided with a blood collection suction tube 33, the blood collection suction tube 33 contains a target liquid, and the inner wall of the blood collection suction tube 33 is coated with an anticoagulant. When the blood collection device 30 is fixed on the vibration device 20, the blood collection device 30 can receive the vibration energy output by the vibration device 20, and the detection system 40 includes a light source 41 and a receiving plate opposite to the light source 41 42. The processor 43 fixedly connected to the receiving board 42, the light source 41, the receiving board 42, and the processor 43 are fixedly connected to the body 10, the light source 41 and the receiving board 42 Set on opposite sides of the light-transmitting sampling needle 44, the light source 41 emits initial light toward the light-transmitting sampling needle 44, and the initial light is generated in the light-transmitting sampling needle 44 and the liquid to be detected. The detection light is formed after the transmission phenomenon and the scattering phenomenon, and the detection light is transmitted to the receiving board 42, and the receiving board 42 generates an electrical signal after receiving the detection light, and transmits the electrical signal to the processor 43 , the processor 43 determines the intensity of the detection light according to the electrical signal, and determines the volume of the air bubbles in the light-transmitting sampling needle 44, the volume of the liquid to be detected, and the volume of the liquid to be detected according to the intensity of the detection light. Describe whether the liquid to be detected is agglutinated.

In this embodiment, the blood collection vibration detection device 1 includes a main body 10, and the main body 10 is used to support the vibration device 20, the light-transmitting sampling needle 44, and the detection system 40, so that the vibration The device 20, the light-transmitting sampling needle 44, and the detection system 40 are stable. The vibration device 20 is fixedly connected to the body 10 , and the vibration device 20 is detachably connected to the blood collection device 30 , and the vibration device 20 can output vibration energy to the blood collection device 30 . The blood collection device 30 is provided with a blood collection suction tube 33, the blood collection suction tube 33 contains a target liquid, the target liquid is blood, and the inner wall of the blood collection suction tube 33 is coated with an anticoagulant, and the anticoagulant can Remove or inhibit coagulation factors in the target liquid to prevent the target liquid from agglutinating. When the blood collection device 30 is fixed on the vibration device 20, the blood collection device 30 can receive the vibration energy output by the vibration device 20, so as to vibrate the target liquid, and the target liquid can be combined with the blood collection suction tube 33 The anticoagulant on the inner wall is in sufficient contact to prevent the target liquid from agglutinating for detection. The detection system 40 is fixedly connected to the body 10, the detection system 40 includes the light source 41, the receiving board 42, and the processor 43, the light source 41, the receiving board 42, and the The processor 43 is fixedly connected to the main body 10 , and the light source 41 , the receiving board 42 , and the processor 43 are fixed on the main body 10 . The light source 41 and the receiving plate 42 are arranged on opposite sides of the light-transmitting sampling needle 44, and the light source 41 can stably emit initial light toward the light-transmitting sampling needle 44, and the initial light is not limited to visible light , one or more of invisible light, etc. The initial light beam is transmitted and scattered in the light-transmitting sampling needle 44 and the liquid to be detected to form a detection light, that is, part of the initial light passes through the light-transmitting sampling needle 44, and part of the initial light The process of passing through the liquid to be detected and part of the initial light passing through the bubbles in the liquid to be detected will cause transmission and heat dissipation, and the intensity of the formed detection light will be weaker than the intensity of the initial light . The detection light is transmitted to the receiving board 42, and the receiving board 42 generates an electrical signal after receiving the detection light, and transmits the electrical signal to the processor 43, and the processor 43 transmits the electrical signal according to the electrical signal. The signal determines the intensity of the detection light, and according to the intensity of the detection light, the volume of the air bubbles in the light-transmitting sampling needle 44 , the volume of the liquid to be detected, and whether the liquid to be detected is agglutinated are determined.

In the related art, the blood agglutination in the test tube is often avoided by the medical staff manually vibrating the test tube, but this way may make the medical staff come into contact with the blood, which increases the risk of the medical staff being infected with germs. Moreover, in the related art, it is often judged whether the blood has agglutinated by visually observing the blood in the test tube by the medical personnel, and the accuracy rate of this method of judging is not high.

In this embodiment, the blood collection device 30 is oscillated by the vibrating device 20 in the blood collection vibration detection device 1 without medical personnel manually vibrating the test tube, which reduces the work intensity of the medical personnel; and makes the The target liquid in the blood collection straw 33 is fully in contact with the anticoagulant on the inner wall of the blood collection straw 33 to prevent the target liquid from coagulating. There is no need for medical personnel to manually judge whether the target liquid in the blood collection device 30 is agglutinated, but by detecting whether the liquid to be detected is agglutinated in the detection system 40, the automation level of detecting whether the target liquid is agglutinated is improved, and medical care is reduced. The work intensity of the personnel is reduced, and the possible misjudgment that may occur by relying on the naked eyes of the medical staff is avoided. Moreover, the detection system 40 can also detect the volume of air bubbles in the light-transmitting sampling needle 44 and the volume of the liquid to be detected, so as to input the predetermined liquid to be detected into the external hemocytometer.

In this embodiment, the blood collection device 40 contains an anticoagulant, which can prevent blood from coagulating. Specifically, the blood collection device includes a blood collection suction tube 33 for sampling and collecting the target liquid, and the target liquid inside the blood collection device 40 is collected in the blood collection suction tube 33 . Further, the anticoagulant is coated on the inner wall of the blood collection suction tube 33 . The blood interacts with the anticoagulant on the inner wall of the blood collection suction tube 33 and is not easy to agglutinate. In this embodiment, the blood sampling device 40 uses the siphon effect to collect the blood of the target organism.

Please refer to FIG. 4 . FIG. 4 is a front view schematic diagram of a blood collection vibration detection device provided in another embodiment of the present application. This embodiment can be combined with the blood collection vibration detection device 1 provided in the previous embodiments. In this embodiment, the vibration device 20 is provided with a storage tray 21 , and the storage tray 21 accommodates the blood collection device 30 .

The blood collection device 30 is accommodated in the storage tray 21, and the storage tray 21 limits the position of the blood collection device 30, so that the blood collection device 30 can receive vibration energy while preventing the blood collection device 30 from detaching from the vibration device. 20.

Please refer to FIG. 5 again. FIG. 5 is a front view schematic diagram of a blood collection vibration detection device provided in another embodiment of the present application. The main body 10 is provided with a receiving portion 11 , and the receiving portion 11 houses the vibrating device 20 , the light source 41 , the receiving board 42 and the processor 43 . The main body 10 is provided with a housing portion 11, which accommodates the vibrating device 20, the light source 41 and the light detection device 42, so as to protect the vibrating device 20, the light source 41, and the receiving plate 42. and the processor 43 .

In this embodiment, the accommodating part 11 includes a top 111 and a bottom 112 opposite to the top 111, the top 111 is fixed with the light source 41, the receiving board 42 and the processor 43, the The blood collection vibration detection device 1 also includes a sliding device 50, the sliding device 50 includes a base 51 and a transmission belt 52 slidably connected to the base 51, the base 51 is fixedly connected to the bottom 112, the The transmission belt 52 carries the vibration device 20 , and the transmission belt 52 is used to slide the vibration device 20 to the light source 41 , the receiving board 42 and the processor 43 .

In this embodiment, the top 111 is fixed with the light source 41 , the receiving board 42 and the processor 43 , and the sliding device 50 includes a base 51 and a transmission belt slidably connected to the base 51 52, the base 51 is fixedly connected to the bottom 112, and the base 51 can be fixed on the base. The base 51 is slidably connected to the transmission belt 52 to support the transmission belt 52 . The transmission belt 52 can slide relative to the base 51, the transmission belt 52 carries the vibrating device 20, and drives the vibrating device 20 to slide along the positive direction of the X-axis to approach the light source 41, the receiving plate 42 and The processor 43.

In this embodiment, the receiving portion 11 is provided with a first side portion 113 and a second side portion 114 connecting the top portion 111 and the bottom portion 112, the first side portion 113 is opposite to the second side portion 114 . The vibrating device 20 carries the blood sampling device 30 , and the vibrating device 20 and the blood sampling device 30 slide along the transmission belt 52 at the part of the base 51 close to the first side part 113 . The second side portion 114 . When the blood collection device 30 slides with the transmission belt 52, the blood collection device 30 receives the vibration energy of the vibration device 20, the target liquid in the blood collection suction tube 33 shakes, and the blood collection suction tube 33 The anticoagulant on the inner wall of 33 is fully contacted to prevent the target liquid from coagulating.

In one embodiment, after the blood collection device 30 receives the vibration energy, the blood collection device 30 can vibrate clockwise; in one embodiment, the blood collection device 30 can vibrate counterclockwise; in one embodiment, the The blood collection device 30 vibrates clockwise at the first time, and vibrates counterclockwise at the second time. In yet another embodiment, the blood sampling device 30 vibrates irregularly.

In this embodiment, the blood collection vibration detection device 1 further includes an information collector 60 , and the information collector 60 is electrically connected to the processor 43 . The information collector 60 is fixed on a portion of the top 111 close to the first side portion 113 . The information collector 60 is used to acquire the information of the blood collection device 30 . Specifically, the blood collection device 30 includes a casing 31, and the casing 31 can be pasted with a blood information barcode. The information collector 60 scans the information barcode to acquire the information of the barcode. It can be understood that the housing 31 can transmit light, and the light can pass through the housing 31 and enter the accommodating cavity 311 inside the housing 31 .

In this embodiment, the vibration device 20 outputs vibration energy to the blood collection device 30 after the information collector 60 acquires the information of the barcode.

In this embodiment, the light-transmitting sampling needle 44 is arranged between the light source 41 and the receiving plate 42, and the light-transmitting sampling needle 44 is used to collect the target liquid in the blood collection device 30. The part of the target liquid collected by the light-transmitting sampling needle 44 is the liquid to be detected, and the detection light is formed after the initial light passes through the light-transmitting sampling needle 44 and the liquid to be detected.

In this embodiment, the light-transmitting sampling needle 44 can extract the target liquid in the blood collection suction tube 33 , and draw the target liquid to the level of the light source 41 and the light detection device 42 . The position, that is, the height of the target liquid in the light-transmitting sampling needle 44 in the Y-axis direction may be at the same level as the light source 41 and the light detection device 42 .

In one embodiment, the air pressure in the light-transmitting sampling needle 44 is lower than the air pressure in the blood-collecting straw 33 , and after the light-transmitting sampling needle 44 is inserted into the blood-collecting straw 33 , the air pressure in the blood-collecting straw 33 The target liquid flows to the light-transmitting sampling needle 44 .

In another embodiment, the blood collection vibration detection device 1 further includes a water pump, the water pump is connected to the part of the light-transmitting sampling needle 44 facing the top 111, and the water pump reduces the air pressure of the light-transmitting sampling needle 44, After the light-transmitting sampling needle 44 is connected to the blood collection suction tube 33, the water pump draws the target liquid into the light-transmitting sampling needle 44, so as to detect the target liquid.

Please refer to FIG. 6 . FIG. 6 is a schematic structural diagram of a blood collection device in a blood collection vibration detection device provided in another embodiment of the present application. This embodiment can be combined with the blood collection vibration detection device 1 provided in the previous embodiment. In this embodiment, the blood collection device 30 includes a housing 31 and a blood collection needle 32. The housing 31 has a receiving cavity 311 and is connected to the The opening 312 connected to the storage cavity 311, the blood collection suction tube 33 and the blood collection needle 32 are stored in the storage cavity 311, and the blood collection needle 32 can slide into the storage cavity 311 or slide along the opening 312. out of the accommodating chamber 311. The blood collection needle 32 can slide into the receiving chamber 311 , and can also slide out of the receiving chamber 311 . When the blood collection needle 32 slides out of the receiving cavity 311, the blood collection needle 32 can be used to collect a target liquid, and the target liquid refers to the liquid of a target organism. When the blood collection needle 32 slides into the receiving cavity 311 , it can prevent the blood collection needle 32 from piercing the external objects.

In this embodiment, the blood collection suction tube 33 is accommodated in the storage cavity 311 and is spaced apart from the blood collection needle 32 , and the blood collection suction tube 33 can slide into the storage cavity 311 along the opening 312 or slide out of the accommodating chamber 311. The blood collection needle 32 is spaced apart from the blood collection suction tube 33 to prevent the blood collection needle 32 from piercing the blood collection suction tube 33 . In this embodiment, after the blood collection needle 32 pierces the skin of the target organism, slide the blood collection needle 32 into the storage cavity 311, and then slide the blood collection suction tube 33 out of the storage cavity 311, the The blood collection suction tube 33 can suck the target liquid of the target organism.

In this embodiment, the blood collection suction tube 33 has a nozzle end 331 , and after the blood collection suction tube 33 absorbs the target liquid, the target liquid may flow out from the nozzle end 331 .

Please refer to FIG. 7 . FIG. 7 is a schematic structural diagram of a blood collection device in a blood collection vibration detection device according to another embodiment of the present application. This embodiment can be combined with the blood collection vibration detection device 1 provided in the previous embodiment. In this embodiment, the blood collection device 30 further includes a sealing cap 34, and the sealing cap 34 seals the mouth of the blood collection suction tube 33 end 331 to seal the blood collection suction tube 33 . The sealing cap 34 seals the nozzle end 331 to prevent the target liquid from flowing out.

In this embodiment, the light-transmitting sampling needle 44 pierces the sealing cap 34 to collect the target liquid in the blood collection suction tube 33 . After the light-transmitting sampling needle 44 pierces the sealing cap 34 , the light-transmitting sampling needle 44 can absorb the target liquid in the blood collection pipette 33 . In this embodiment, the diameter of the sealing cap 34 is larger than the diameter of the blood collection suction tube 33 . The volume of the sealing cap is large, which is convenient for the light-transmitting sampling needle 44 to pierce the sealing cap 43 to obtain the target liquid.

It can be understood that the light-transmitting sampling needle 44 can be plugged into an external hemocytometer so as to detect the liquid to be detected. In this embodiment, the detection system 40 can detect the volume of the liquid to be detected, so as to output a preset volume of the liquid to be detected to the blood cell detector. Specifically, the light-transmitting sampling needle 44 can be plugged into a sample loading needle of the hemocytometer.

The blood collection device 30 also includes a blood collection needle control button 35 and a blood collection suction pipe control button 36, the blood collection needle control button 35 and the blood collection suction pipe control button 36 are fixedly connected to the housing 31, and the blood collection needle control button 35 receives After the first external pressure, the blood collection needle 32 can be controlled to slide out of the storage cavity 311 along the opening 312, and the blood collection suction tube control button 36 can be controlled to slide out of the storage cavity 311 after receiving the second external pressure. The outer blood collection needle 32 slides into the storage cavity 311 along the opening 312, and controls the blood collection suction tube 33 to slide out of the storage cavity 311 along the opening 312, and the blood collection suction tube control button 36 receives After the third external pressure, the blood collection suction tube 33 outside the receiving chamber 311 can be controlled to slide into the receiving chamber 311 . In this embodiment, through the control of the blood collection needle control button 35 and the blood collection suction tube control button 36 , the positions of the blood collection needle 32 and the blood collection suction tube 33 relative to the accommodating cavity can be adjusted. When the blood collection straw 33 is used, the blood collection needle 32 will be slid into the receiving cavity 311 to prevent the blood collection needle 32 from piercing external objects; and when the blood collection suction pipe 33 and the blood collection needle 32 are not needed , the blood collection straw 33 and the blood collection needle 32 can be slid into the receiving cavity 311 to avoid damage to the blood collection suction pipe 33 and the blood collection needle 32 .

The embodiments of the present application have been introduced in detail above, and specific examples have been used in this paper to illustrate the principles and implementation methods of the present application. The descriptions of the above embodiments are only used to help understand the methods and core ideas of the present application; meanwhile, for Those skilled in the art will have changes in specific implementation methods and application scopes based on the ideas of the present application. In summary, the contents of this specification should not be construed as limiting the present application.

Claims (9)

1. A vibration detection device for blood collection is characterized by comprising a body, a vibration device fixedly connected with the body, a blood collection device detachably connected with the vibration device, a light transmission sampling needle fixedly connected with the body and a detection system, wherein the blood collection device is provided with a blood collection straw, the blood collection straw contains target liquid, the inner wall of the blood collection straw is coated with anticoagulant, when the blood collection device is fixed on the vibration device, the blood collection device can receive vibration energy output by the vibration device, the light transmission sampling needle can collect part of the target liquid, the part of the target body fluid collected by the light transmission sampling needle is liquid to be detected, the detection system comprises a light source, a receiving plate opposite to the light source and a processor fixedly connected with the receiving plate, the light source, the receiving plate and the processor are fixedly connected with the body, the light source and the receiving plate are arranged on two opposite sides of the light transmission sampling needle, the light source emits initial light to the light transmission sampling needle, the initial light generates transmission phenomenon and scattering phenomenon in the light transmission sampling needle and the light transmission sampling needle generates detection light, and the detection light transmission needle can detect whether the volume of the electric signal or not according to the electric signal, the detection system can determine the light transmission sampling needle and the detection result that the electric signal is received by the light transmission sampling needle, the detection system can detect the electric signal, and the electric signal processing needle can be detected, so as to transmit the liquid to be detected for the preset physical examination to the blood globe.

2. The blood collection vibration test apparatus of claim 1 wherein said vibration device is provided with a receiving tray which receives said lancing device.

3. The blood collection vibration testing apparatus of claim 1 wherein said body defines a receiving portion, said receiving portion receiving said vibration device, said light source, said receiving plate, and said processor.

4. The blood collection vibration testing apparatus of claim 3, wherein said containing portion comprises a top portion and a bottom portion opposite to said top portion, said top portion is fixed with said light source, said receiving plate and said processor, said blood collection vibration testing apparatus further comprises a sliding device, said sliding device comprises a base and a transmission belt slidably connected with said base, said base is fixedly connected with said bottom portion, said transmission belt carries said vibration device, said transmission belt is used for sliding said vibration device to said light source, said receiving plate and said processor.

5. The vibration detecting apparatus for collecting blood according to claim 1, wherein the blood sampling device includes a housing having a housing chamber and an opening connected to the housing chamber, and a lancet housed in the housing chamber, the lancet being slidable into or out of the housing chamber along the opening.

6. The vibration detecting apparatus for collecting blood according to claim 5, wherein the pipette is spaced apart from the lancet, and the pipette is slidable into or out of the housing chamber along the opening.

7. The blood collection vibration test apparatus of claim 6, wherein said blood collection pipette has a nozzle end, and said blood collection set further comprises a sealing cap sealing said nozzle end of said blood collection pipette to seal said blood collection pipette.

8. The blood collection vibration testing apparatus of claim 7 wherein said light-transmissive sampling needle pierces said sealing cap to collect the fluid to be tested in said blood collection tube.

9. The vibration detection device for blood collection according to claim 6, wherein the blood collection device further comprises a lancet control button and a lancet control button, the lancet control button and the lancet control button are fixedly connected to the housing, the lancet control button can control the lancet to slide out of the opening after receiving a first external pressure, the lancet control button can control the lancet to slide into the housing along the opening after receiving a second external pressure, and control the lancet to slide out of the opening after receiving a third external pressure, and the lancet control button can control the lancet to slide into the housing outside the housing after receiving a third external pressure.

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