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CN219000277U - Finger stall type multifunctional detection assembly and monitoring device with same - Google Patents

Finger stall type multifunctional detection assembly and monitoring device with same Download PDF

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Publication number
CN219000277U
CN219000277U CN202222213131.0U CN202222213131U CN219000277U CN 219000277 U CN219000277 U CN 219000277U CN 202222213131 U CN202222213131 U CN 202222213131U CN 219000277 U CN219000277 U CN 219000277U
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detection
air bag
air
fingerstall
detection assembly
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CN202222213131.0U
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张少林
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Shenzhen Jiemeirui Technology Co ltd
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Shenzhen Jiemeirui Technology Co ltd
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Abstract

The utility model relates to the technical field of medical equipment, the application discloses a multi-functional detection subassembly of dactylotheca and have its guardianship device, and this multi-functional detection subassembly of dactylotheca includes pedestal, gasbag part and detection part, and the top surface interval of pedestal is formed with two detection faces, and two detection faces symmetry sets up, is provided with first electrode slice and second electrode slice on two detection faces respectively; the air bag component comprises a first air bag and a second air bag which are respectively arranged on the two detection surfaces, and the first air bag and the second air bag are arranged in an annular structure; the detection component is arranged on the detection surface and is used for detecting the blood oxygen value and/or the blood pressure value. The first air bag and the second air bag are inflated to provide uniform pressing force for two fingers, so that the accuracy of electrocardiosignal measurement is ensured. Meanwhile, the detection part on the detection surface can also detect the blood oxygen value and/or the blood pressure value when measuring the electrocardio value, so that the simultaneous measurement of a plurality of detection data is realized, and the measurement efficiency is improved.

Description

Finger stall type multifunctional detection assembly and monitoring device with same
Technical Field
The application relates to the technical field of medical equipment in general, and specifically discloses a multifunctional fingerstall type detection assembly and a monitoring device with the same.
Background
Medical devices refer to instruments, devices, appliances, in vitro diagnostic reagents and calibrators, materials and other similar or related items used directly or indirectly for the human body, including computer software needed for the purpose of diagnosis, prevention, monitoring, treatment or alleviation of diseases, diagnosis, monitoring, treatment, alleviation or functional compensation of injuries; examination, substitution, regulation or support of physiological structures or processes, support or maintenance of life, pregnancy control; monitors are one of the commonly used medical devices that provide information for medical or diagnostic purposes by examining a sample from the human body.
The existing monitor can only detect data, such as blood pressure, and has the advantages of single function, small application range, large limitation and incapability of meeting the detection requirements of various conventional health indexes.
Disclosure of Invention
The utility model aims at providing a multi-functional detection component of dactylotheca formula and have its guardianship device, it can solve monitor application range and is little, the great technical problem of limitation.
In order to achieve the purpose of the utility model, the application adopts the following technical scheme:
in a first aspect, the present application provides a multi-functional detection assembly of dactylotheca, including:
the device comprises a base body, wherein two detection surfaces are formed on the top surface of the base body at intervals, the two detection surfaces are symmetrically arranged, and a first electrode plate and a second electrode plate are respectively arranged on the two detection surfaces;
the air bag component comprises a first air bag and a second air bag which are respectively arranged on the two detection surfaces, the first air bag and the second air bag are arranged in an annular structure, a first detection space is formed between the first air bag and the detection surface connected with the first air bag, and a second detection space is formed between the second air bag and the detection surface connected with the second air bag; and
and the detection component is arranged on the detection surface and is used for detecting the blood oxygen value and/or the blood pressure value.
According to an embodiment of the application, the detection means comprise a pressure sensor for sensing a pressure signal within the first balloon.
According to an embodiment of the application, the detection means comprise a photoelectric sensor, the probe of which is located on one of the detection surfaces.
According to an embodiment of the application, the detection surface comprises a finger web surface for matching with a finger web of a finger and a fingertip surface for matching with the fingertip of the finger.
According to an embodiment of the application, the air pump and the air valve are further included, the first air bag is communicated with the second air bag through a pipeline, and the air pump and the air valve are communicated with the first air bag.
According to an embodiment of the present application, a mounting cavity is formed inside the seat body, and the air pump and the air valve are both disposed in the mounting cavity.
According to an embodiment of the application, a circuit board is arranged in the mounting cavity, and the air pump, the air valve, the first electrode plate, the second electrode plate and the detection part are all connected to the circuit board, and a micro control unit for controlling the air pump is further arranged on the circuit board.
According to an embodiment of the present application, the base is provided with a switch connected to the circuit board.
According to an embodiment of the application, a display screen is arranged on the seat body, and the display screen is located between the first air bag and the second air bag.
In a second aspect, a monitoring device is provided, comprising: the finger stall type multifunctional detection assembly.
According to the fingerstall type multifunctional detection assembly and the monitoring device disclosed by the embodiment of the application, the fingerstall type multifunctional detection assembly comprises a seat body, an air bag component and a detection component, wherein two detection surfaces are formed on the top surface of the seat body at intervals, the two detection surfaces are symmetrically arranged, and a first electrode plate and a second electrode plate are respectively arranged on the two detection surfaces; the air bag component comprises a first air bag and a second air bag which are respectively arranged on the two detection surfaces, the first air bag and the second air bag are arranged in an annular structure, a first detection space is formed between the detection surfaces connected with the first air bag, and a second detection space is formed between the detection surfaces connected with the second air bag; the detection component is arranged on the detection surface and is used for detecting the blood oxygen value and/or the blood pressure value. The first air bag and the second air bag are inflated to provide uniform pressing force for two fingers, so that the accuracy of electrocardiosignal measurement is ensured. Meanwhile, the detection part on the detection surface can also detect the blood oxygen value and/or the blood pressure value when measuring the electrocardio value, so that the simultaneous measurement of a plurality of detection data is realized, and the measurement efficiency is improved.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the utility model and together with the description, serve to explain the principles of the utility model.
In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the description of the embodiments or the prior art will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.
Fig. 1 is a schematic diagram showing the overall structure of a fingerstall-type multifunctional sensing assembly according to an exemplary embodiment.
Fig. 2 is a schematic diagram of a structure for embodying a switch in a finger-stall type multifunctional sensing assembly according to an exemplary embodiment.
Fig. 3 is a schematic diagram of a structure for embodying a detection surface in a finger-stall type multifunctional detection assembly according to an exemplary embodiment.
Fig. 4 is a schematic diagram of a structure for embodying a circuit board in a finger-stall type multifunctional sensing assembly according to an exemplary embodiment.
Wherein reference numerals are as follows:
1. a base; 2. a top surface; 3. a detection surface; 4. finger ventral surface; 5. a fingertip surface; 6. a first electrode sheet; 7. a second electrode sheet; 8. a first air bag; 9. a second air bag; 10. a first detection space; 11. a second detection space; 12. a photoelectric sensor; 13. a circuit board; 14. a micro control unit; 15. a switch; 16. and a display screen.
Detailed Description
For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present application based on the embodiments herein.
It should be noted that, in the description and claims of the present application and the above figures, relational terms such as "first" and "second" and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be capable of being practiced otherwise than as specifically illustrated and described herein.
Moreover, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those elements but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.
Spatially relative terms, such as "above … …," "above … …," "upper surface at … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial location relative to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other devices or structures would then be oriented "below" or "beneath" the other devices or structures. Thus, the exemplary term "above … …" may include both orientations of "above … …" and "below … …". The device may also be positioned in other different ways (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.
Referring to fig. 1-4, an embodiment of the disclosure provides a finger-stall type multifunctional detection assembly, which comprises a base 1, an air bag component and a detection component, wherein two detection surfaces 3 are formed on the top surface 2 of the base 1 at intervals, the two detection surfaces 3 are symmetrically arranged, and a first electrode plate 6 and a second electrode plate 7 are respectively arranged on the two detection surfaces 3; the air bag component comprises a first air bag 8 and a second air bag 9 which are respectively arranged on the two detection surfaces 3, the first air bag 8 and the second air bag 9 are arranged in an annular structure, a first detection space 10 is formed between the first air bag 8 and the detection surface 3 connected with the first air bag, and a second detection space 11 is formed between the second air bag 9 and the detection surface 3 connected with the second air bag; the detection means is provided on the detection surface 3, and the detection means is used for detecting the blood oxygen value and/or the blood pressure value.
When in actual use, a measurer places two different fingers on the two detection surfaces 3 respectively and is respectively attached to the first electrode plate 6 and the second electrode plate 7, and the two fingers are provided with uniform pressing force through the inflation of the first air bag 8 and the second air bag 9 so as to ensure the accuracy of electrocardiosignal measurement. Meanwhile, the detection part on the detection surface 3 can also detect the blood oxygen value and/or the blood pressure value when measuring the electrocardio value, so that the simultaneous measurement of a plurality of detection data is realized, and the measurement efficiency is improved.
Referring to fig. 1, in some embodiments, the detecting means includes a pressure sensor for sensing a pressure signal in the first air bag 8, and acquiring a pulse wave signal from the pressure signal in the first air bag 8.
In some embodiments, in combination with fig. 3, the detection means comprise a photosensor 12, the probe of the photosensor 12 being located on one of the detection faces 3. Alternatively, the probe of the photoelectric sensor 12 may be located on the detection surface 3 connected to the first balloon 8, and likewise, the probe of the photoelectric sensor 12 may be located on the detection surface 3 connected to the second balloon 9.
Optionally, the detecting surface 3 includes a finger belly surface 4 for matching with a finger belly and a fingertip surface 5 for matching with a fingertip of the finger, so that the detecting surface 3 can be better fitted with the finger.
Optionally, the detecting means includes a pressure sensor and a photoelectric sensor 12, and the detecting means can detect both the blood pressure value and the blood oxygen value of the measurer. Wherein the pressure sensor is used for sensing a pressure signal in the first air bag 8, and the probe of the photoelectric sensor 12 is also positioned on the detection surface 3 connected with the first air bag 8; therefore, when the measurer does not need to measure the electrocardio value, the measurer can measure the blood pressure value and the blood oxygen value by only putting one finger into the first detection space 10, thereby meeting different requirements of the measurer and being convenient for the measurer to operate.
Similarly, when the measurement person performs a normal test, the measurement person places the finger of the left hand in the first detection space 10 and attaches the abdomen of the finger to the first electrode sheet 6, and places the finger of the right hand in the second detection space 11 and attaches the abdomen of the finger to the second electrode sheet 7, and applies a specific pressure to the inside of the first air bag 8 and the second air bag 9, thereby obtaining the blood pressure value of the measurement person. Because the fingers are pressed on the probes of the first electrode sheet 6, the second electrode sheet 7 and the photoelectric sensor 12, in the process of measuring blood pressure, an electrocardiosignal value and a volume wave signal value can be simultaneously obtained, the electrocardiosignal value and the volume wave signal value are used for carrying out auxiliary judgment, interference signals in pressure signals can be removed, and meanwhile, the volume wave signal value is processed and calculated to obtain blood oxygen values, so that various detection data values can be simultaneously measured.
In addition, in the detection process, as pulse signals obtained by measurement of the device are acquired through gas pressure, blood oxygen volume wave signals are acquired through the photoelectric sensor 12, electrocardiosignals are acquired through the electrocardio electrode plates, the signal values are different responses to human heart beats, mutual verification capability exists between the signals, and especially under the condition that the signals are relatively poor, the mutual verification plays a key role under the condition that noise and limited signals cannot be distinguished, and in addition, the differences among the signals can reflect some pathological characteristics of a human body. By way of example, when an R wave of the heart is acquired from a finger, but no wave signal of the volume wave is acquired, and no pulse wave signal in the pressure wave is detected, it is indicated that the heart is fluctuated, but is not conducted to the finger, and insufficient blood output may be caused by insufficient closure of an arterial valve of the heart, and the device can also be used as an arteriosclerosis detector.
Referring to fig. 1-4, in some embodiments, the first air bag 8 and the second air bag 9 are both disposed in a ring structure, a first detection space 10 is formed between the first air bag 8 and the detection surface 3 connected thereto, and a second detection space 11 is formed between the second air bag 9 and the detection surface 3 connected thereto. The first airbag 8 and the detection surface 3, which are arranged by the ring-shaped structure, are connected such that the first detection space 10 is provided with openings along both ends of its own axis, and likewise the second detection space 11 is provided with openings along both ends of its own axis. Through the structure setting of opening for the measurement person is after putting into it with the finger, and the finger web of the finger of different length nails all can be with the contact of first electrode slice 6 or second electrode slice 7 on the detection plane 3, guarantee measurement effect.
In addition, both ends of the annular structure of the first air bag 8 may be connected to both sides of the width direction of the seat body 1, respectively, and both ends of the annular structure of the second air bag 9 may be connected to both sides of the width direction of the seat body 1, so that the axial direction of the first detection space 10 and the axial direction of the second detection space 11 are parallel to each other and to the length direction of the seat body 1. In order to facilitate the operation of the measurer, in this case, the axial direction of the first detection space 10 may also be arranged to coincide with the axial direction of the second detection space 11.
Similarly, two ends of the annular structure of the first air bag 8 may be connected to two spaced portions of the seat body 1 in the longitudinal direction, and two ends of the annular structure of the second air bag 9 may be connected to two other spaced portions of the seat body 1 in the longitudinal direction, where the axial direction of the first detection space 10 and the axial direction of the second detection space 11 are parallel to each other and perpendicular to the longitudinal direction of the seat body 1.
Referring to fig. 1-4, in some embodiments, the finger-stall multifunctional detection assembly further comprises an air pump and an air valve, wherein the first air bag 8 and the second air bag 9 are communicated through a pipeline, and the air pump and the air valve are both communicated with the first air bag 8. The first air bag 8 and the second air bag 9 are communicated through the pipeline, so that the first air bag 8 and the second air bag 9 can be inflated simultaneously, and the inside of the first air bag and the second air bag have the same air pressure, so that the pressure of the first air bag and the second air bag to two fingers is the same. Compared with the traditional handheld electrocardiograph paste equipment, when the electrocardiograph is measured, insufficient contact can be caused when the strength of the hand of a measurer is too loose, the signal noise is large, a large number of myopoint signals can be generated when the strength of the hand of the measurer is too tight, and the quality of the electrocardiograph signals can be greatly influenced. In addition, when the electrocardiograph is measured by using the electrode patch, it is troublesome to clean the skin of the measurer. The device provided by the application provides proper pressure for the fingers through the way of inflating the first air bag 8 and the second air bag 9, so that the reliability of electrocardiosignal measurement is ensured.
Similarly, when measuring the blood oxygen signal, the pressure difference between the finger and the probe of the electrocardio sensor can also cause the blood flow in the capillary vessel of the finger to change, so the stability of the pressure of the finger to the probe can be ensured by adopting the air pump to inflate the first air bag 8.
Optionally, when measuring the blood oxygen signal value, the air pump controls the first air bag 8 to be inflated to a preset pressure value, wherein the preset pressure value is greater than 10mmHg, and when the preset pressure value is too small, the probe of the electrocardio sensor is easy to cause that the blood oxygen signal cannot be measured; the preset pressure value is less than the average pressure of the blood pressure and, when the preset pressure value is too large, the finger portion is caused to have no blood flow therethrough, as an example, the preset pressure value is less than 100mmHg.
Optionally, a mounting cavity is formed in the seat body 1, and the air pump and the air valve are both disposed in the mounting cavity. The air pump and the air valve are arranged through the mounting cavity to provide the control of placement, so that the device is integrated in structure, and the air circuit structure is not required to be additionally connected during use, thereby being convenient to operate and carry.
Specifically, a circuit board 13 is arranged in the mounting cavity, the air pump, the air valve, the first electrode plate 6, the second electrode plate 7 and the detection component are all connected to the circuit board 13, and a micro control unit 14 for controlling the air pump is further arranged on the circuit board 13. The air charge of the air pump is controlled by the micro control unit 14, so that the measurement effect is further improved.
Optionally, a power supply is arranged in the mounting cavity, the power supply is connected with the circuit board 13, and power equipment is provided for the whole device through the power supply, so that the device is not required to be plugged in for use, and the universality of application environment is improved. In addition, a plurality of measurement data can be obtained simultaneously during measurement through one power supply, so that compared with the power consumption of an independent measurement device for independent test, the power consumption is greatly reduced, and the power cost is saved.
Optionally, a switch 15 connected to the circuit board 13 is provided on the base 1, and the connection and disconnection of the circuit board 13 is controlled by the provision of the switch 15.
Optionally, a display screen 16 is provided on the seat 1, the display screen 16 is located between the first air bag 8 and the second air bag 9, and the display screen 16 is used for displaying measurement data. The blood pressure value, the blood oxygen value and the electrocardio value which are obtained through measurement can be intuitively seen through the arrangement of the display screen 16, and the use of a user is facilitated.
Referring to fig. 1-4, an embodiment of the present disclosure further provides a monitoring device including the aforementioned fingerstall-type multifunctional detection assembly.
The foregoing is merely a specific embodiment of the application to enable one skilled in the art to understand or practice the application. Many modifications and variations to these embodiments will be apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present application are intended to be included within the scope of the present application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A multi-functional dactylotheca detection subassembly, characterized in that includes:
the device comprises a base body (1), wherein two detection surfaces (3) are formed on the top surface (2) of the base body (1) at intervals, the two detection surfaces (3) are symmetrically arranged, and a first electrode plate (6) and a second electrode plate (7) are respectively arranged on the two detection surfaces (3);
the air bag component comprises a first air bag (8) and a second air bag (9) which are respectively arranged on the two detection surfaces (3), the first air bag (8) and the second air bag (9) are arranged in an annular structure, a first detection space (10) is formed between the first air bag (8) and the detection surface (3) connected with the first air bag, and a second detection space (11) is formed between the second air bag (9) and the detection surface (3) connected with the second air bag; and
and a detection means provided on the detection surface (3) for detecting a blood oxygen value and/or a blood pressure value.
2. The multi-functional fingerstall detection assembly of claim 1, wherein the detection component comprises a pressure sensor for sensing a pressure signal within the first balloon (8).
3. The multi-functional fingerstall detection assembly of claim 1, wherein the detection means comprises a photoelectric sensor (12), the probe of the photoelectric sensor (12) being located on one of the detection faces (3).
4. A multi-functional fingerstall detection assembly as claimed in claim 1, wherein the detection surface (3) comprises a finger web surface (4) for cooperation with a finger web and a fingertip surface (5) for cooperation with the finger tip.
5. The fingerstall type multifunctional detection assembly according to claim 1, further comprising an air pump and an air valve, wherein the first air bag (8) and the second air bag (9) are communicated through a pipeline, and the air pump and the air valve are both communicated with the first air bag (8).
6. The fingerstall type multifunctional detection assembly according to claim 5, wherein a mounting cavity is formed in the base body (1), and the air pump and the air valve are both arranged in the mounting cavity.
7. The fingerstall type multifunctional detection assembly as claimed in claim 6, wherein a circuit board (13) is arranged in the mounting cavity, the air pump, the air valve, the first electrode plate (6), the second electrode plate (7) and the detection component are all connected to the circuit board (13), and a micro control unit (14) for controlling the air pump is further arranged on the circuit board (13).
8. The fingerstall type multifunctional detection assembly as claimed in claim 7, wherein a switch (15) connected with the circuit board (13) is arranged on the base body (1).
9. The fingerstall type multifunctional detection assembly as claimed in claim 1, wherein a display screen (16) is arranged on the base body (1), and the display screen (16) is located between the first air bag (8) and the second air bag (9).
10. A monitoring device, comprising: the multi-functional fingerstall detection assembly of any of claims 1-9.
CN202222213131.0U 2022-08-22 2022-08-22 Finger stall type multifunctional detection assembly and monitoring device with same Active CN219000277U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202222213131.0U CN219000277U (en) 2022-08-22 2022-08-22 Finger stall type multifunctional detection assembly and monitoring device with same

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202222213131.0U CN219000277U (en) 2022-08-22 2022-08-22 Finger stall type multifunctional detection assembly and monitoring device with same

Publications (1)

Publication Number Publication Date
CN219000277U true CN219000277U (en) 2023-05-12

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CN202222213131.0U Active CN219000277U (en) 2022-08-22 2022-08-22 Finger stall type multifunctional detection assembly and monitoring device with same

Country Status (1)

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CN (1) CN219000277U (en)

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