CN209644889U - A kind of cardiac bioelectricity monitoring device - Google Patents

Abstract

The utility model relates to a kind of cardiac bioelectricity monitoring devices comprising flexible pedestal, control mould group, the first electrocardiogram acquisition mould group, the second electrocardiogram acquisition mould group and flexible circuit board, flexible pedestal include pedestal ontology, the first adjutage and the second adjutage.First electrocardiogram acquisition mould group includes the first electrocardiogram acquisition circuit unit and first electrode, first electrocardiogram acquisition circuit unit is located in the first adjutage, the first end of first electrode is plugged in the first adjutage and is electrically connected with the first electrocardiogram acquisition circuit unit, and the second end of first electrode is located at outside the first adjutage.Second electrocardiogram acquisition mould group includes the second electrocardiogram acquisition circuit unit and second electrode, second electrocardiogram acquisition circuit unit is located in the second adjutage, the first end of second electrode is plugged in the second adjutage and is electrically connected with the second electrocardiogram acquisition circuit unit, and the second end of second electrode is located at outside the second adjutage.The utility model has the advantages that small in size, reaction speed is fast, and stabilization is high and highly reliable.

Description

A kind of cardiac bioelectricity monitoring device

Technical field

The utility model relates to cardiac monitoring technical fields, and in particular, to a kind of cardiac bioelectricity monitoring device.

Background technique

With the improvement of living standards, cardiovascular disease increasingly takes place frequently, prevention and the prison of cardiovascular disease how are carried out Shield becomes the problem of whole society pays close attention to jointly.Medical monitoring is generally divided into two kinds, and one is traditional medical monitorings, refers in hospital Physiological signal monitoring is carried out to patient using special instrument by medical practitioner；Another kind is Novel medical monitoring, i.e., long-range doctor Monitor system is treated, it refers to by sufferers themselves or its family members using telemedicine monitoring terminal, passes through remote medical monitor end End sends gained physiological signal to related doctor in time and guards.

It is guarded due to traditional medical and is restricted by multifactor conditions such as medical resource, patient's economic conditions, make it increasingly It is not suitable with current real-time, continuous, monitoring requirement incessantly.Portable cardiac bioelectricity monitoring device is with easy to carry, price is low Etc. advantages, be very suitable for for individual, family, middle-size and small-size community hospital, it is new for family health care prevention and tele-medicine etc. Emerging medical mode provides excellent support and helps.However, existing cardiac bioelectricity monitoring device volume is big, information collection be not enough and In time, often not accurate enough to many heart disease diagnosis.

Utility model content

The purpose of the utility model is to overcome the defect of the prior art and deficiencies, provide a kind of small in size, information collection Timely and sufficient cardiac bioelectricity monitoring device.

In order to achieve the above object, the utility model provides a kind of cardiac bioelectricity monitoring device, comprising: flexible pedestal, control mould Group, the first electrocardiogram acquisition mould group, the second electrocardiogram acquisition mould group and flexible circuit board, the flexibility pedestal includes pedestal ontology, the One adjutage and the second adjutage are provided with holding tank in the pedestal ontology, and the control mould group is plugged in the holding tank Interior, the control mould group passes through the flexible circuit board and the first electrocardiogram acquisition mould group and the second electrocardiogram acquisition mould group Electrical connection；First adjutage is connected with the pedestal ontology with second adjutage and is located at the pedestal sheet The opposite two sides in body position；

The first electrocardiogram acquisition mould group includes the first electrocardiogram acquisition circuit unit and first electrode, and first electrocardio is adopted Collector unit is located in first adjutage, the first end of the first electrode be plugged in first adjutage and with The first electrocardiogram acquisition circuit unit electrical connection, the second end of the first electrode are located at outside first adjutage；It is described Second electrocardiogram acquisition mould group includes the second electrocardiogram acquisition circuit unit and second electrode, the second electrocardiogram acquisition circuit unit position In in second adjutage, the first end of the second electrode be plugged in second adjutage and with second electrocardio The electrical connection of Acquisition Circuit unit, the second end of the second electrode are located at outside second adjutage；The flexibility pedestal is one Forming structure.

Preferably, the control mould group includes processor, wireless communication unit and push-button unit, the processor with it is described First electrocardiogram acquisition circuit unit and the second electrocardiogram acquisition circuit unit electrical connection, for analyzing first electrocardiogram acquisition Circuit unit and the second electrocardiogram acquisition circuit unit are transmitted through the electrocardiogram (ECG) data come；The wireless communication unit is for emitting institute The information that processor is sent to telemonitoring center is stated, the push-button unit includes emergency key, and the emergency key is for touching It sends out processor described, the processor is made to send distress signals to the telemonitoring center.

Preferably, the control mould group further includes GPS positioning unit, and the GPS positioning unit is electrically connected with the processor It connects.

Preferably, the push-button unit further includes switch key, is provided with first through hole and second on the pedestal ontology Through-hole, the first through hole are arranged with the second through-hole interval and are connected with the holding tank；The first of the switch key End is plugged in the holding tank, and the second end of the switch key passes through the first through hole and extends to the pedestal ontology Outside；The first end of the emergency key is plugged in the holding tank, and it is logical that the second end of the emergency key passes through described second It is external that hole extends to the pedestal sheet, is connected with linking arm between the switch key and the emergency key.

Preferably, the switch key, the emergency key and the linking arm are an integral molding structure, the linking arm In the holding tank.

Preferably, the cardiac bioelectricity monitoring device further includes battery and wireless charging unit, the battery and the control mould Group, the first electrocardiogram acquisition mould group and the electrical connection of the second electrocardiogram acquisition mould group, the wireless charging unit are electrically connected with the battery.

Preferably, the cardiac bioelectricity monitoring device further includes charging electrode, and the charging electrode is connected with the pedestal ontology And it is located at the pedestal ontology backwards to the side of the holding tank notch.

Preferably, the cardiac bioelectricity monitoring device further includes display unit, and the display unit is electrically connected with the control mould group It connects.

Preferably, the cardiac bioelectricity monitoring device further includes the memory being electrically connected with the control mould group, the memory Detachable interposing is located in the pedestal ontology.

Preferably, the cardiac bioelectricity monitoring device further includes SIM card support, and the SIM card support and the pedestal ontology activity connect It connects, the memory is SIM card, and the SIM card activity is plugged in the SIM card.

The utility model compared with the existing technology, has the advantages that since the flexible pedestal includes pedestal sheet Body, the first adjutage and the second adjutage are provided with holding tank in the pedestal ontology, and the control mould group is plugged in the appearance It receives in slot, first adjutage is connected with the pedestal ontology with second adjutage and is located at the pedestal sheet The opposite two sides in body position；The first electrocardiogram acquisition circuit unit is located in first adjutage, and second electrocardio is adopted Collector unit is located in second adjutage, thus the first electrocardiogram acquisition circuit unit and second electrocardiogram acquisition Skin of the circuit unit apart from user is closer, can timely and accurately acquire the electrocardiogram (ECG) data of user, and reaction speed is fast, stablizes Height, it is highly reliable, the electrocardiogram (ECG) data that user cannot be timely obtained when acquiring over long distances is avoided, and be easy by signal interference Problem.Further, since the flexibility pedestal is fabricated from a flexible material and is an integral molding structure, thus it is relatively easy to fitting user Skin, integrated level is high, small in size, user-friendly.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model cardiac bioelectricity monitoring device.

Fig. 2 is the functional block diagram of the control mould group of the utility model cardiac bioelectricity monitoring device shown in Fig. 1.

Fig. 3 is the exploded view of the utility model cardiac bioelectricity monitoring device shown in Fig. 1.

Fig. 4 is the structural schematic diagram of the push-button unit of the utility model cardiac bioelectricity monitoring device shown in Fig. 1.

Specific embodiment

Below with reference to examples and drawings, the utility model is described in further detail, but the reality of the utility model It is without being limited thereto to apply mode.

As shown in Figures 1 to 4, the utility model discloses a kind of cardiac bioelectricity monitoring devices, comprising: flexible pedestal 1, control mould The 2, first electrocardiogram acquisition mould group 3 of group, the second electrocardiogram acquisition mould group 4 and flexible circuit board 5, the flexibility pedestal 1 includes pedestal sheet Body 11, the first adjutage 12 and the second adjutage 13 are provided with holding tank 14, the control mould group 2 in the pedestal ontology 11 It is plugged in the holding tank 14, the control mould group 2 passes through the flexible circuit board 5 and the first electrocardiogram acquisition mould group 3 And the second electrocardiogram acquisition mould group 4 is electrically connected.First adjutage 12 and second adjutage 13 with the pedestal Ontology 11 is connected and is located at the opposite two sides in 11 position of pedestal ontology, and the flexible circuit board 5 is plugged in described In flexible pedestal 1, the flexibility pedestal 1 is an integral molding structure.

In the present embodiment, the flexible circuit board 5 (Flexible Printed Circuit Board, abbreviation FPC) It is that there is height reliability, excellent pliable printed circuit using polyimides or polyester film as one kind made of substrate.Institute Stating flexible pedestal 1 is colloidal silica, it is to be understood that the flexibility pedestal 1 or polyurethane foam etc., material is herein It is not specifically limited, as long as being flexible material.Since the flexible pedestal 1 is made of flexible material, thus it is easy to be bonded The skin of user, use is relatively comfortable, improves user experience.

The first electrocardiogram acquisition mould group 3 include the first electrocardiogram acquisition circuit unit 31 and first electrode 32, described first Electrocardiogram acquisition circuit unit 31 is located in first adjutage 12, and the first end of the first electrode 32 is plugged in described first It is electrically connected in adjutage 12 and with the first electrocardiogram acquisition circuit unit 31, the second end of the first electrode 32 is located at described Outside first adjutage 12.The second electrocardiogram acquisition mould group 4 includes the second electrocardiogram acquisition circuit unit 41 and second electrode 42, institute It states the second electrocardiogram acquisition circuit unit 41 to be located in second adjutage 13, the first end of the second electrode 42 is plugged in institute It states in the second adjutage 13 and is electrically connected with the second electrocardiogram acquisition circuit unit 41, the second end of the second electrode 42 Outside second adjutage 13.Wherein, the first electrode 32 and the second electrode 42 can be the metal electrode of sheet, The material of the electrode is medical stainless steel, copper sheet, iron, manganese steel or electric silica gel etc., in the present embodiment, the first electrode 32 and the second electrode 42 are column, and have stainless steel material to be made, it is to be understood that the first electrode 32 with The material and shape of the second electrode 42 are not specifically limited herein.

In a preferred embodiment, the control mould group 2 includes processor 21, wireless communication unit 22 and push-button unit 23, the processor 21 is electrically connected with the first electrocardiogram acquisition circuit unit 31 and the second electrocardiogram acquisition circuit unit 41 It connects, is transmitted through the electrocardio come for analyzing the first electrocardiogram acquisition circuit unit 31 and the second electrocardiogram acquisition circuit unit 41 Data.The wireless communication unit 22 is described wireless for emitting the information that the processor 21 is sent to telemonitoring center The wireless signals such as WIFI or/and bluetooth can be transmitted in communication unit 22.The push-button unit 23 includes emergency key 231, described to ask Key 231 is rescued for triggering the processor 21, the processor 21 is made to send distress signals to the telemonitoring center.Cause This presses the distress signal when user needs to cry for help, thus can be handled in time emergency situations, ensure that The security of the lives and property of user.Preferably, the control mould group 2 further includes GPS positioning unit 24, the GPS positioning unit 24 It is electrically connected with the processor 21.Therefore, telemonitoring center can understand the location of user in real time, need convenient for user The accurate address for understanding user when helping.

In a preferred embodiment, the push-button unit 23 further includes switch key 232, is arranged on the pedestal ontology 11 Have first through hole 111 and the second through-hole 112, the first through hole 111 and the setting of the second through-hole 112 interval and with the receiving Slot 14 is connected.The first end of the switch key 232 is plugged in the holding tank 14, and the second of the switch key 232 End extends to outside the pedestal ontology 11 across the first through hole 111.The first end of the emergency key 231 is plugged in described In holding tank 14, the second end of the emergency key 231 passes through second through-hole 112 and extends to outside the pedestal ontology 11, Linking arm 233 is connected between the switch key 232 and the emergency key 231.It is opened by the linking arm 233 by described Close button 232 links together with the emergency key 231, thus in production, by clamping the linking arm 233 with by institute It states switch key 232 and the emergency key 231 is assembled on predeterminated position, thus, it is easy to produce.Preferably, the switch Key 232, the emergency key 231 and the linking arm 233 are an integral molding structure, and the linking arm 233 is located at the appearance It receives in slot 14, thus overall structure is compacter, easy to produce and use.

In a preferred embodiment, the cardiac bioelectricity monitoring device further includes battery 6 and wireless charging unit 7, the battery 6 It is electrically connected with the control mould group 2, the first electrocardiogram acquisition mould group 3 and the second electrocardiogram acquisition mould group 4, the wireless charging unit 7 It is electrically connected with the battery 6.It charges by the way that the wireless charging unit 7 is arranged, therefore convenient for user, avoids frequently replacement electricity Pond 6.Preferably, the cardiac bioelectricity monitoring device further includes charging electrode 8, the charging electrode 8 is connected with the pedestal ontology 11 And it is located at the pedestal ontology 11 backwards to the side of 14 notch of holding tank.By the setting charging electrode 8, thus When needing to charge, the charging electrode 8 is located by connecting with charger grafting, thus is preferably positioned, makes charger pair The quasi- wireless charging unit 7, so that charge efficiency can be improved.

In a preferred embodiment, the cardiac bioelectricity monitoring device further include display unit 91 and with 2 electricity of the control mould group The memory (not shown) of connection, the display unit 91 are electrically connected with the control mould group 2, the heart rate data of user It is shown on the display unit 91, thus understands the health status of oneself in time convenient for user.The memory detachable interposing It is located in the pedestal ontology 11, thus electrocardiogram (ECG) data can be transferred on other storage devices by user.Preferably, the electrocardio Monitor device further includes SIM card support 92, and the SIM card support 92 is flexibly connected with the pedestal ontology 11, and the memory is SIM card, the SIM card activity are plugged in the SIM card, thus are relatively convenient for taking SIM card.

In a preferred embodiment, the cardiac bioelectricity monitoring device further includes first shell 93, second shell 94 and transparency cover Plate 95, the first shell 93 and the second shell 94 are in square frame-shaped structure, and the first shell 93 is plugged in the appearance Receive the bottom of slot 14, the second shell 94 is plugged in the holding tank 14 and extends to outside the notch of the holding tank 14, The battery 6 is located in the first shell 93, and the control mould group 2 is fixed on the upper surface of the first shell 93 and is located at In the second shell 94, the lid of transparent cover plate 95 is located at the notch of the holding tank 14 and is fixed on the second shell 94 upper end, the display location is between the transparent cover plate 95 and the control mould group 2.Therefore, structure is compacter, body Product is small, convenient for assembling and uses.

In use, the utility model cardiac bioelectricity monitoring device is pasted on the skin of facies anterior cordis, the first electrode 32 With the second electrode 42 and the skin contact, to receive accurate electrocardiosignal.The first electrode 32 with it is described Second electrode 42 and human body and the first electrocardiogram acquisition circuit unit 31 and the 41 unit shape of the second electrocardiogram acquisition circuit At primary Ioops, the first electrocardiogram acquisition circuit unit 31 and the second electrocardiogram acquisition circuit unit 41 can acquire the corresponding heart Electric signal (electrocardiogram (ECG) data), then in memory by electrocardiogram (ECG) data storage.Further, it is also possible to module by wireless communication By the electrocardiogram (ECG) data real-time Transmission in memory to long distance monitoring terminal.

In conclusion since the flexible pedestal 1 includes pedestal ontology 11, the first adjutage 12 and the second adjutage 13, Holding tank 14 is provided in the pedestal ontology 11, the control mould group 2 is plugged in the holding tank 14, and described first extends Arm 12 is connected with the pedestal ontology 11 with second adjutage 13 and to be located at 11 position of pedestal ontology opposite Two sides；The first electrocardiogram acquisition circuit unit 31 is located in first adjutage 12, the second electrocardiogram acquisition circuit Unit 41 is located in second adjutage 13, thus the first electrocardiogram acquisition circuit unit 31 and second electrocardiogram acquisition Skin of the circuit unit 41 apart from user is closer, can timely and accurately acquire the electrocardiogram (ECG) data of user, and reaction speed is fast, Stablize height, it is highly reliable, the electrocardiogram (ECG) data that user cannot be timely obtained when acquiring over long distances is avoided, and be easy dry by signal The problem of disturbing.Further, since the flexibility pedestal 1 is fabricated from a flexible material and is an integral molding structure, thus it is relatively easy to paste The skin at family is shared, integrated level is high, and it is small in size, it is user-friendly.

Cardiac bioelectricity monitoring device provided by the utility model is described in detail above, it is used herein specifically a Example is expounded the principles of the present invention and embodiment, this reality that the above embodiments are only used to help understand With novel method and its core concept；At the same time, for those skilled in the art, based on the idea of the present invention, There will be changes in the specific implementation manner and application range.In conclusion the content of the present specification is only the utility model Embodiment, therefore it does not limit the scope of the patent of the utility model, all using in the utility model specification and attached drawing Equivalent structure or equivalent flow shift made by holding, is applied directly or indirectly in other relevant technical fields, and similarly wraps It includes in the scope of patent protection of the utility model, should not be construed as a limitation of the present invention.

Claims (10)

1. a kind of cardiac bioelectricity monitoring device, which is characterized in that described device includes: flexible pedestal, control mould group, the first electrocardio are adopted Collect mould group, the second electrocardiogram acquisition mould group and flexible circuit board, the flexibility pedestal includes pedestal ontology, the first adjutage and second Adjutage is provided with holding tank in the pedestal ontology, and the control mould group is plugged in the holding tank, the control mould group It is electrically connected by the flexible circuit board with the first electrocardiogram acquisition mould group and the second electrocardiogram acquisition mould group；Described first Adjutage be connected with the pedestal ontology with second adjutage and be located at the pedestal body position it is opposite two Side；

The first electrocardiogram acquisition mould group includes the first electrocardiogram acquisition circuit unit and first electrode, the first electrocardiogram acquisition electricity Road unit is located in first adjutage, the first end of the first electrode be plugged in first adjutage and with it is described The electrical connection of first electrocardiogram acquisition circuit unit, the second end of the first electrode are located at outside first adjutage；Described second Electrocardiogram acquisition mould group includes the second electrocardiogram acquisition circuit unit and second electrode, and the second electrocardiogram acquisition circuit unit is located at institute State in the second adjutage, the first end of the second electrode be plugged in second adjutage and with second electrocardiogram acquisition Circuit unit electrical connection, the second end of the second electrode are located at outside second adjutage；The flexibility pedestal is integrated into Type structure.

2. cardiac bioelectricity monitoring device as described in claim 1, which is characterized in that the control mould group includes processor, channel radio Believe unit and push-button unit, the processor and the first electrocardiogram acquisition circuit unit and the second electrocardiogram acquisition circuit list Member electrical connection is transmitted through the heart come for analyzing the first electrocardiogram acquisition circuit unit and the second electrocardiogram acquisition circuit unit Electric data；The wireless communication unit is for emitting the information that the processor is sent to telemonitoring center, the key list Member includes emergency key, and the emergency key makes the processor transmission distress signals to described for triggering the processor Telemonitoring center.

3. cardiac bioelectricity monitoring device as claimed in claim 2, which is characterized in that the control mould group further includes GPS positioning unit, The GPS positioning unit is electrically connected with the processor.

4. cardiac bioelectricity monitoring device as claimed in claim 2 or claim 3, which is characterized in that the push-button unit further includes switch key, It is provided with first through hole and the second through-hole on the pedestal ontology, the first through hole and the second through-hole interval are arranged and and institute Holding tank is stated to be connected；The first end of the switch key is plugged in the holding tank, and the second end of the switch key is worn Crossing the first through hole, to extend to the pedestal sheet external；The first end of the emergency key is plugged in the holding tank, institute The second end for stating emergency key passes through second through-hole extend to the pedestal sheet external, the switch key and the emergency Linking arm is connected between key.

5. cardiac bioelectricity monitoring device as claimed in claim 4, which is characterized in that the switch key, the emergency key and institute It states linking arm to be an integral molding structure, the linking arm is located in the holding tank.

6. cardiac bioelectricity monitoring device as described in any one of claims 1 to 3, which is characterized in that the cardiac bioelectricity monitoring device also wraps Include battery and wireless charging unit, the battery and the control mould group, the first electrocardiogram acquisition mould group and the second electrocardiogram acquisition mould Group electrical connection, the wireless charging unit are electrically connected with the battery.

7. cardiac bioelectricity monitoring device as claimed in claim 6, which is characterized in that the cardiac bioelectricity monitoring device further includes charging electricity Pole, the charging electrode are connected with the pedestal ontology and are located at the pedestal ontology backwards to the side of the holding tank notch.

8. cardiac bioelectricity monitoring device as described in any one of claims 1 to 3, which is characterized in that the cardiac bioelectricity monitoring device also wraps Display unit is included, the display unit is electrically connected with the control mould group.

9. cardiac bioelectricity monitoring device as described in any one of claims 1 to 3, which is characterized in that the cardiac bioelectricity monitoring device also wraps The memory being electrically connected with the control mould group is included, the memory detachable interposing is located in the pedestal ontology.

10. cardiac bioelectricity monitoring device as claimed in claim 9, which is characterized in that the cardiac bioelectricity monitoring device further includes SIM card Support, the SIM card support are flexibly connected with the pedestal ontology, and the memory is SIM card, and the SIM card activity is plugged in institute It states in SIM card.