CN106981737A - Ecg scanning module, its connector, its scanner and apply its intelligent clothing - Google Patents

Abstract

The present invention proposes a kind of ecg scanning module, its connector, its scanner and applies its intelligent clothing.Multi-contact connector includes pedestal, auxiliary section and multiple first conductive parts.Pedestal is configured in the wearable carrier with a plurality of wire.Auxiliary section is configured at pedestal, and auxiliary section surrounds out holding part.Inner peripheral edge surfaces of this little first conductive part along holding part are circumferentially annularly configured, and each first conductive part is electrically connected with corresponding wire.Ecg scanning device includes multiple second conductive parts, and one end of each second conductive part is protruded from the outer peripheral edge face of ecg scanning device.After Multi-contact connector is connected with ecg scanning device, each second conductive part radially provides radial load, to be electrically connected with corresponding first conductive part.

Description

Ecg scanning module, its connector, its scanner and apply its intelligent clothing

Technical field

The present invention relates to a kind of ECG (electrocardiogram electrocardiography) scan module, its connection Device, its ECG scanner and apply its intelligent clothing, and more particularly to a kind of multijunction ECG scan modules, Its multijunction connector, its ECG scanner and apply its intelligent clothing.

Background technology

Traditional intelligence clothing includes a connector, and the dress material of intelligent clothing is embedded in it, uses the physiology for obtaining human body Signal.ECG scanners with the connector to be connected, to receive and handle the human body that connector is transmitted Physiological signal.In a kind of connected mode, ECG scanners include a public public copper button of buckle such as one, and Connector includes the female copper button of a mother metal button such as one, by male copper button with female copper button along its axial pressing, ECG scanners can be made to be connected to each other with connector.

However, the shortcoming of such a traditional copper button docking mode is that the more the contact of quantity causes male and female copper Gross contact area between button is bigger, and then causes contact engaging and separating force also bigger.In this way, having a strong impact on human body on the contrary The diversity of comfortableness and/or function on the intelligent clothing of wearing.Further, since being between male and female copper button Float contact, therefore when resource-user cost method, traditional copper button can because continuous vibration and caused by connect impedance unstable Unnecessary noise is given birth in fixed output quota.A pair of bronze medal buttons are additionally, since to be only capable of transmitting a signal.When having, transmission to be believed Number demand and when increasing copper button quantity, such as 8 signals are retouched and take aim at device and can become too big, make intelligent clothing Dress gets up to have obvious discomfort.Therefore traditional copper button is unfavorable for needing the design of multi signal demand, example Such as many helical pitch electrocardiogram (ECG) datas, body fat, the design of the multi-functional measurement of blood glucose.

Therefore, it is necessary to a kind of new connector be provided, to improve foregoing problem of the prior art.

The content of the invention

It is an object of the invention to propose a kind of ECG scan modules, its multijunction connector, its ECG Scanner and apply its intelligent clothing, above-mentioned problem of the prior art can be improved.

According to one embodiment of the invention, a kind of Multi-contact connector is proposed.Multi-contact connector, suitable for It is placed in a wearable carrier, and suitable for being connected with an ECG scanners.Wearable carrier has several Wire, ECG scanners include multiple second conductive parts, and a first end of each second conductive part is scanned from ECG One outer peripheral edge face of device is protruded.Multi-contact connector includes a pedestal, an auxiliary section and multiple first conductive parts. Pedestal is configured in wearable carrier.Auxiliary section is configured at pedestal, and auxiliary section surrounds out one first holding part. An inner peripheral edge surfaces of this little first conductive part along the first holding part are circumferentially annularly configured, each first conductive part with Corresponding wire is electrically connected with.After ECG scanners are connected with Multi-contact connector, each second conductive part edge Radial load is radially provided, to be electrically connected with corresponding first conductive part.

According to another embodiment of the present invention, a kind of ECG scanners are proposed.ECG scanners are suitable to and more than one Contact connector is connected, and Multi-contact connector includes multiple first conductive parts.ECG scanners include a body And an insert.Insert is configured at body.Insert includes a shell and multiple second conductive parts.Shell With a perimeter wall.This multiple second conductive part has a deformability, and along the circumferential ring-type of perimeter wall of shell Ground is arranged, and the first end of each second conductive part is protruded from the outer peripheral edge face of perimeter wall.ECG scanners with connecing more After point connector connection, each second conductive part radially provides radial load with electrical with corresponding first conductive part Connection.

According to another embodiment of the present invention, a kind of ECG scan modules are proposed.ECG scan modules include one The foregoing ECG scanners of foregoing Multi-contact connector and one.ECG scanners are used to and Multi-contact connector Connection, wherein each second conductive part of ECG scanners is to contact corresponding first conductive part.

According to another embodiment of the present invention, a kind of intelligent clothing is proposed.Intelligent clothing includes a foregoing multiple-contact Connector.Intelligent clothing coats a part for Multi-contact connector, and another part of Multi-contact connector is from intelligence Clothing exposes, and this little first conductive part of Multi-contact connector expose to intelligent clothing.

According to another embodiment of the present invention, a kind of intelligent clothing is proposed.Intelligent clothing includes a foregoing ECG Scan module.Intelligent clothing coats a part for Multi-contact connector, and another part of Multi-contact connector is from intelligence Energy clothing exposes, and this little first conductive part of Multi-contact connector expose to intelligent clothing, and ECG scanners pass through each Second conductive part is contacted with corresponding first conductive part and is electrically connected with Multi-contact connector.

Below in conjunction with the drawings and specific embodiments, the present invention will be described in detail, but not as to the present invention's Limit.

Brief description of the drawings

Fig. 1 illustrates the exploded view of the ECG scan modules according to one embodiment of the invention；

Fig. 2 illustrates the schematic diagram of the Multi-contact connector coated by dress material；

Fig. 3 illustrates the schematic diagram of Fig. 2 opposite side；

Fig. 4 illustrates the exploded view of Fig. 1 Multi-contact connector；

Fig. 5 illustrates the schematic diagram of the intelligent clothing according to one embodiment of the invention；

Fig. 6 illustrates the outside drawing of Fig. 1 ECG scanners；

Fig. 7 illustrates the exploded view of Fig. 6 ECG scanners；

Fig. 8 illustrates the outside drawing of Fig. 7 insert；

Fig. 9 illustrates the exploded view of Fig. 8 insert；

Figure 10 illustrates Fig. 9 shell and the constitutional diagram of the second conductive part；

Figure 11 illustrates the connection of Fig. 1 ECG scanners (not illustrating body) and Fig. 2 Multi-contact connector Procedure chart.

Wherein, reference

10：Dress material

11：Wire

12：Connection pad

20：Intelligent clothing

100：ECG scan modules

110：Multi-contact connector

111：Pedestal

111a：First opening

111r：Groove

111s1：First face

111s2：Second face

112：Flange

112a、1213r：Recess

112r：First holding part

112s：Inner peripheral edge surfaces

113：First conductive part

1131：First subconductivity portion

1132：Second subconductivity portion

114：First location division

115：Link stopper

120：ECG scanners

121：Insert

1211：Shell

1211a：Second opening

1211r：Second holding part

1212：Second conductive part

1212a：First end

1212b：Second end

1212c：Flexible portion

1213：Circuit board

1213a：3rd opening

1213t：Cabling

1214、1221：Connector

1215：Fixture

1216：Block

1217：Projection

1218：Second location division

1219：Perimeter wall

1219w：Outer peripheral edge face

122：Body

1222：Processor

D1：Radially

D2：It is circumferential

D3：Axially

L：Length

r：Radius

R：Rotation direction

S1：External diameter

S2：Internal diameter

Embodiment

The structural principle and operation principle of the present invention are described in detail below in conjunction with the accompanying drawings：

Fig. 1 is refer to, it illustrates the exploded view of the ECG scan modules 100 according to one embodiment of the invention.

The ECG scan modules 100 of the present invention can be answered with being combined with health and motion for the intelligent clothing of demand With it can receive, transmit and analyze multiple acquisitions from human body or the physiological signal of animal body, make health and fortune The management of dynamic training is able to more intelligent.

ECG scan modules 100 include Multi-contact connector 110 and ECG scanners 120.ECG scanners 120 include insert 121 and body 122, wherein insert 121 can be inserted into body 122 and with body 122 It is electrically connected with.

Fig. 2, Fig. 3 and Fig. 4 are refer to, wherein Fig. 2 illustrates the Multi-contact connector 110 coated by dress material Schematic diagram, Fig. 3 illustrates the schematic diagram of Fig. 2 opposite side, and Fig. 4 then illustrates Fig. 1 Multi-contact connector Exploded view.

Multi-contact connector 110 includes pedestal 111, auxiliary section and multiple first conductive parts 113, wherein matching somebody with somebody Conjunction portion is, for example, flange 112.Flange 112 is configured at pedestal 111, and protrudes from the first face of pedestal 111 111s1.Flange 112 surrounds out one first holding part 112r.This little first conductive part 113 is accommodating along first Portion 112r inner peripheral edge surfaces 112s is circumferentially annularly configured.

Pedestal 111 has the multiple first opening 111a, wherein the first opening 111a is through pedestal 111 and connects Logical first holding part 112r.First conductive part 113 is through the first opening 111a and from the first holding part 112r Expose (as shown in Figure 2).In this way, when ECG scanners 120 connect Multi-contact connector 110, insertion First holding part 112r insert 121 can be with the dress material 10 for exposing intelligent clothing Multi-contact connector 110 the first conductive part 113 is electrically connected with.

As shown in figure 4, each first conductive part 113 includes the first subconductivity portion 1131 and second being connected Subconductivity portion 1132.Each first subconductivity portion 1131 holds through the corresponding first opening 111a from first The portion 112r of putting exposes.Second subconductivity portion 1132 is then configured at the second face 111s2 of pedestal 111.Pedestal 111 have more multiple groove 111r, and it extends from the second face 111s2 toward the first face 111s1 direction, but Not through pedestal 111.Each groove 111r can house corresponding second subconductivity portion 1132, lead the second son Electric portion 1132 is embedded in pedestal 11, it is to avoid produce relative displacement with pedestal 111.In another embodiment, It can more be binded between two subconductivity portions 1132 and groove 111r by viscose；Or, the second subconductivity portion 1132 appearance and size is slightly larger than groove 111r appearance and size, makes the second subconductivity portion 1132 and groove Close-fitting or interference fits between 111r.In addition, as shown in figure 4, the first subconductivity portion 1131 and the second son Conductive part 1132 is in tabular or strip.

In the present embodiment, the quantity of the first conductive part 113 is eight, and so the present invention does not limit first and led The quantity in electric portion 113, it can also be fewer of more than eight.Pedestal 111 in the present embodiment has 4 the One opening 111a, each first opening 111a corresponds to two the first conductive parts 113, i.e., each first opening 111a Two the first conductive parts 113 can be allowed to pass through.It should be noted that the embodiment of the present invention is for the first opening 111a quantity and each first opening 111a can allow the first conductive part 113 of many small numbers to pass through and be not added with To limit, the first opening 111a quantity can be connected according to mold design or the difficulty or ease or multiple-contact of manufacture Whether stablize when whether device 110 and ECG scanners 120 are easy to couple or couple and considered.

As shown in figure 3, dress material 10 is, for example, the dress material of intelligent clothing, including several wires 11 and multiple connection pads 12, wherein each wire 11 is electrically connected at corresponding connection pad 12.The material of dress material 10 can be fiber, Weave cotton cloth, adhesive-bonded fabric or other any species can make the material of intelligent clothing.In addition, dress material 10 can more be wrapped Include an at least conductive layer, at least an electrodeposited coating, at least one conductive coating layer and/or at least one conductive bonding coat Deng to constitute the wire 11 in dress material 10.

One end of each wire 11 is connected to corresponding connection pad 12, and the other end may connect to corresponding multiple-contact and connect Connect the first conductive part 113 of device 110.Wherein after human body or animal body put on dress material 10, connection pad 12 connects A part for human body or animal body is touched, to detect the physiological signal of human body or animal body；Then, human body or dynamic The physiological signal of object can be transmitted by wire 11 to the first conductive part 113 of Multi-contact connector 110.

Multi-contact connector 110 is electrically connected at the wire 11 in dress material 10 by the first conductive part 113, By the physiological signal of multiple human bodies detected by connection pad 12 or animal body (electric current, voltage etc.), to transmit To the ECG scanners 120 being electrically connected with Multi-contact connector 110, wherein those physiological signals can pass through Insert 121 is transmitted to body 122.Body 122 can analyze physiological signal to obtain physiologic information, such as arteries and veins Wave velocity (pulse wave velocity, PWV), blood pressure, heart rate (heart rate), body fat (body Fat), blood candy (blood glucose), detecting sphygmus and blood oxygen saturation (pulse oximetry) or any other Physiologic information.

Fig. 5 is refer to, it illustrates the schematic diagram of the intelligent clothing 20 according to one embodiment of the invention.Intelligent clothing 20 include Multi-contact connector 110 and dress material 10, and wherein Multi-contact connector 110 is configured at dress material 10 In.In another embodiment, intelligent clothing 20 can further include ECG scanners 120, and it can connect with multiple-contact Device 110 is connect to connect.The feature of Multi-contact connector 110, dress material 10 and ECG scanners 120 is for example foregoing Or it is aftermentioned, repeated no more in this.

As shown in Fig. 2 Multi-contact connector 110 can be coated by dress material 10, its flange 112 is from dress material 10 expose or prominent, make the insert 121 (being illustrated in Fig. 1) of ECG scanners 120 can be by exposing or dashing forward The flange 112 gone out is connected with the first conductive part 113.

Insert 121 can be connected to Multi-contact connector 110 by the mode of insertion and rotation, make insert 121 are electrically connected with and are locked in Multi-contact connector 110.

Refer to Fig. 6 and Fig. 7, Fig. 6 illustrate Fig. 1 ECG scanners 120 outside drawing, and Fig. 7 is then Illustrate the exploded view of Fig. 6 ECG scanners 120.

Insert 121 configures and is electrically connected at body 122, therefore body 122 can be analyzed and come from insertion The physiological signal of part 121, to obtain physiologic information.For example, as shown in fig. 7, ECG scanners 120 more Including connector 1221 and processor 1222, wherein connector 1221 is configured at body 122 and electrically connected It is connected to processor 1222.When insert 121 is combined with body 122 and is electrically connected with connector 1221, Processor 1222 can analyze the physiological signal that Multi-contact connector 110 is obtained from insert 121, to obtain Obtain physiologic information.

Fig. 8 to Figure 10 is refer to, Fig. 8 illustrates the outside drawing of Fig. 7 insert 121, and Fig. 9 illustrates Fig. 8 Insert 121 exploded view, and Figure 10 then illustrates Fig. 9 conductive part 1212 of shell 1211 and second Constitutional diagram.

Insert 121 includes shell 1211, multiple second conductive parts 1212 (the present embodiment is 8), electricity Road plate 1213, connector 1214 and fixture 1215.

Fixture 1215 is, for example, screw or other retaining elements.Fixture 1215 is to by the second conductive part 1212 and circuit board 1213 be fixed on shell 1211.In the present embodiment, second conductive part 1212 Quantity is equal with the quantity of the first conductive part 113.

Shell 1211 includes the second holding part 1211r, block 1216, multiple second opening 1211a (at this In embodiment, the second opening 1211a quantity with the quantity of corresponding second conductive part 1212 is eight, So the present invention is not defined to the quantity) and projection 1217.Second opening 1211a runs through shell 1211 Perimeter wall 1219, i.e., extend to inner peripheral edge surfaces (not indicating) from the outer peripheral edge face 1219w of perimeter wall 1219, To connect the second holding part 1211r, make each second conductive part 1212 for being located at the second holding part 1211r can Protruded by the corresponding second opening 1211a and from the corresponding second opening 1211a, that is, protrude from perimeter wall 1219 outer peripheral edge face 1219w；In this way, when ECG scanners 120 are connected to Multi-contact connector 110 When, the second conductive part 1212 can contact the first conductive part 113 of the Multi-contact connector 110 shown in Fig. 2.

As shown in Fig. 8 to Figure 10, perimeter wall 1219 of those second conductive parts 1212 along shell 1211 It is circumferential annularly to configure.

As can be seen from figures 8 and 9, each second conductive part 1212 has first end 1212a and the second end 1212b. Second end 1212b of the second conductive part 1212 is pressed on block 1216, and first end 1212a may pass through Corresponding second opening 1211a.First end 1212a can be protruded from the corresponding second opening 1211a, so as to In the first conductive part 113 of contact Multi-contact connector 110.In addition, first end 1212a and the second end 1212b bearing of trend is generally vertical.For example, radially D1 extends first end 1212a, and second Holding 1212b, D3 extends vertically.Due to the second end 1212b, D3 extends vertically, therefore provides an increase Contact area, to be more securely resisted against on block 1216.

Due to first end 1212a, radially D1 extends, and each second conductive part 1212 has pliability.Enter Say to one step, each second conductive part 1212 further includes flexible portion 1212c, its connect first end 1212a with Second end 1212b.Flexible portion 1212c is in a bending, and such as ㄇ fonts so also can be S-type or other curved Bent profile, therefore there is when being acted on by external force deformability, and then the displacements of first end 1212a mono- can be provided Amount and positive contact force.In addition, each second opening 1211a width (circumferentially D2 width) is more than the One end 1212a width (circumferentially D2 width), therefore protruded from the corresponding second opening 1211a Circumferentially D2 is movable by the first end 1212a of each second conductive part 1212.

Circuit board 1213 has a recess 1213r and multiple 3rd openings corresponding to the second conductive part 1212 1213a.As shown in figure 9, the 3rd opening 1213a quantity is, for example, eight, so it can also be more or less than Eight.After circuit board 1213, the second conductive part 1212 are assembled with shell 1211, each second conductive part 1212 The second end 1212b against shell 1211 block 1216, and through corresponding circuit board 1213 3rd opening 1213a.Therefore, the second conductive part 1212 can be limited to the opening of block 1216 and second 1211a Between, also, when circuit board 1213 is combined in shell 1211, projection 1217 is sticked in circuit board 1213 Recess 1213r, make projection 1217 prevent circuit board 1213 rotate, accordingly, make the second conductive part 1212 It can be stably fixed between shell 1211 and circuit board 1213.

Although Fig. 8 is not illustrated, insert 121 can further include multiple solders (not illustrating), wherein each solder connects The the second end 1212b and corresponding cabling 1213t of corresponding second conductive part 1212 are met, makes each second to lead Electric portion 1212 is electrically connected with each cabling 1213t of corresponding circuit board 1213.Cabling 1213t is, for example, Signal wire, it may extend to connector 1214, to be electrically connected with the conductive part 1212 of connector 1214 and second. Consequently, it is possible to which coming from the physiological signal of the second conductive part 1212 can be transmitted by cabling 1213t to connection Device 1214.

As shown in Figures 7 and 8, when insert 121 is combined in body 122, the connector of insert 121 1214 may connect to the connector 1221 of body 122, the processor 1222 located at body 122 is passed through Connector 1221 and 1214 is electrically connected at circuit board 1213.

Connector 1221 is configured at the circuit board (not illustrating) of body 122.In the present embodiment, connector 1221 have a pin end, and connector 1214 has a female joint, makes connector 1221 and connector 1214 can match each other.In another embodiment, connector 1221 has female joint, and connector 1214 With pin end, connector 1221 is set to be matched each other with connector 1214.

Figure 11 illustrates Fig. 1 ECG scanners 120 (not illustrating body 122) and Fig. 2 Multi-contact connector 110 connection procedure figure.

In process 1 (state 1 to 2), the insert 121 of ECG scanners 120 can be conductive by second The recess 112a of the flange 112 of the alignment of portion 1212 Multi-contact connector 110 mode, insertion multiple-contact connects Meet the first holding part 112r of device 110.In process 2 (state 2 to 3), rotated along rotation direction R Insert 121, makes insert 121 lock each other with Multi-contact connector 110.Thus, for example, can be by By the hand-held operating process 1 of body 122 combined with insert 121 and process 2, make ECG scanners 120 Lock each other with the Multi-contact connector 110 on dress material 10.Wherein each second conductive part of insert 121 1212 can be electrically connected at corresponding first conductive part 113 of Multi-contact connector 110.Consequently, it is possible to In operating process (process 1 to 2) once, the second conductive part 1212 of ECG scanners 120 can electrically connect The first conductive part 113 of Multi-contact connector 110 is connected to, ECG scan modules 100 is provided multiple-contact Signal transfer functions.

In addition, in process 2, because multiple first end 1212a of multiple second conductive parts 1212 are surrounded The external diameter S1 for forming a circle surrounds the internal diameter S2 for forming a circle slightly larger than multiple first conductive parts 113, Therefore when rotating insert 121, the second conductive part 1212 is interfered with the first conductive part 113, forces the Radially D1 (being illustrated in Fig. 8) is pressurized and produces deformation two conductive parts 1212.In this way, in the second conductive part After 1212 the first conductive parts 113 of contact (such as state 3), each second conductive part 1212 is provided pair because of deformation The radial direction prestressing of the first conductive part 113 1 answered, makes each second conductive part 1212 consolidate contact each first conductive Portion 113, therefore ECG scanners 120 can be avoided to be easily separated from Multi-contact connector 110, and ECG can be increased Connective stability between scanner 120 and Multi-contact connector 110.In this way, can more avoid traditional copper button Because the problem of impedance produced by electrical suspension joint is unstable.

In addition, in process 2, although the second conductive part 1212 is interfered with the first conductive part 113, so by There is pliability in the second conductive part 1212, make in interventional procedures, the second conductive part 1212 is radially past The center position displacement of insert 121, therefore the first conductive part 113 and the second conductive part 1212 can be reduced Between interference drag, and then ECG scanners 120 and the Multi-contact connector 110 effortlessly company of rotation can be made Connect.

As shown in figure 11, Multi-contact connector 110 further includes multiple first location divisions 114.Such as Fig. 6 institutes Show, insert 121 further includes multiple second location divisions 1218.When the second conductive part 1212 contact first is led During electric portion 113 (such as state 3), multiple first location divisions 114 are sticked in multiple second location divisions 1218, because This can provide the combination feel of user one or engaging feel.Further say, ECG scanners 120 with it is many In the relative rotational motion of contact connector 110, if user feels an engaging feel, represent that second is conductive Portion 1212 has contacted and has been electrically connected with the first conductive part 113.

In the present embodiment, the first location division 114 is, for example, protuberance, and the second location division 1218 is for example It is recess.In another embodiment, the first location division 114 is, for example, recess, and the second location division 1218 E.g. protuberance.

As shown in figure 11, Multi-contact connector 110 further includes multiple link stoppers 115, adjacent two link stopper 115 Between form a recess 112a.Link stopper 115 is configured at flange 112, and extends toward the center of flange 112, And the opening of position alignment first 111a of link stopper 115；Consequently, it is possible to when the contact of the second conductive part 1212 is worn When crossing the first opening 111a the first conductive part 113 (such as state 3), the position correspondence of link stopper 115 is inserted Second conductive part 1212 of part 121, make each second conductive part 1212 can by corresponding link stopper 115 resistance Gear, to avoid insert 121 from easily departing from Multi-contact connector 110 vertically.

In addition, each second conductive part 1212 provides the corresponding radial direction prestressing of first conductive part 113 1, i.e. Second conductive part 1212 and the first conductive part 113 are radially contact with one another, therefore in combination ECG scanners 120 During Multi-contact connector 110, compared to traditional existing ECG scanners and existing connector It is axially contact more laborsaving.Because the ECG scan modules 100 of the embodiment of the present invention are radially contacted with, therefore Can laborsaving about 85% in the process of combination ECG scanners 120 and Multi-contact connector 110.In addition, connecing Point to the quantity of (such as one the second conductive part 1212 with corresponding first conductive part 113 referred to as a pair) the more when, Compared to traditional existing ECG scanners and existing connector shaft to combination, the embodiment of the present invention Labor-saving effect when ECG scanners 120 are combined with both Multi-contact connectors 110 will be more significant.

In addition, as shown in following formula (1), Fa represents that combine traditional ECG scanners connects with traditional multiple-contact The force required for device is connect, n represents the quantity of contact pair, and f represents each contact to being applied required for snapping The positive force (normal force) given.

Fa=nf............................. (1)

For another following formula (2) Suo Shi, Fr is represented needed for combination ECG scanners 120 and Multi-contact connector 110 The force wanted, n represents the quantity of contact pair, and f represents each contact to required positive force, and μ is represented Coefficient of friction between the second conductive part 1212 and the first conductive part 113 of contact, L (is shown in the 6th figure) The partial-length of force arm, e.g. body 122 is represented, and r (being shown in the 6th figure) is represented by the arm of force, The e.g. radius of insert 121, wherein r<L.

Fr=μ nf (r/L) ... ... ... ... ... .. (2)

According to formula (1) and (2), if r/L is approximately equal to 0.5, μ and is approximately equal to 0.3, then Fr/Fa is substantially 0.15.For another example according to formula (1) and (2), if the design load that r/L is approximately equal to 0.5 and f is 60 g Power/contact pair, contact points n=8, then Fa is about 480 g of power and Fr is about 72 g of power.

The above-mentioned institute's illustrative embodiments of the present invention, which are provided, makes ECG scanners 120 and Multi-contact connector 110 The force being combined, it is only necessary to 0.15 times of the force being combined for tradition ECG scanners and connector. Further, since the conductive part of the ECG scanners of the present invention can radially deformation, therefore the embodiment of the present invention The conductive part of the conductive part of ECG scanners and the Multi-contact connector of the present invention, can sell of one's property because of the radial shape Raw radial direction force and it is against each other, the second conductive part is consolidated the conductive part of contact first, therefore can keep away The ECG scanners for exempting from the present invention are easily separated from the Multi-contact connector of the present invention, and can increase ECG scannings Connective stability between device and the Multi-contact connector.Also, scanned compared to traditional existing ECG The conductive part of device is that axially (forward direction) is contacted with the conductive part of existing connector, the embodiment of the present invention The conductive part of ECG scanners and the conductive part of Multi-contact connector is radially contact with, and therefore, of the invention is more The thickness of contact connector can more existing connector to be thin.The Multi-contact connector of the embodiment of the present invention can match somebody with somebody It is placed in wearable carrier, wherein wearable carrier is, for example, the dress material of intelligent clothing.

In summary, although this exposure is disclosed above with preferred embodiment, so it is not limited to this hair It is bright.This exposure those of ordinary skill in the art, in the spirit and scope for not departing from this exposure, When can be used for a variety of modifications and variations.Therefore, the protection domain of this exposure is when regarding appended claims scope Defined person is defined.

Claims (22)

1. a kind of Multi-contact connector, suitable for being configured in a wearable carrier, and is suitable to and an electrocardio Figure scanner is connected, and the wearable carrier has multiple wires, and the ecg scanning device includes multiple second Conductive part, respectively a first end of second conductive part protruded from an outer peripheral edge face of the ecg scanning device, its It is characterised by, the Multi-contact connector includes：

One pedestal, is configured in the wearable carrier；

One auxiliary section, is configured at the pedestal, and the auxiliary section surrounds out one first holding part；And

Multiple first conductive parts, are circumferentially annularly configured along an inner peripheral edge surfaces of first holding part, respectively this One conductive part is electrically connected with the corresponding wire；

Wherein, after the ecg scanning device is connected with the Multi-contact connector, respectively second conductive part is along footpath To radial load is provided, to be electrically connected with corresponding first conductive part.

2. Multi-contact connector according to claim 1, it is characterised in that the pedestal has multiple First opening, those first openings are through the pedestal and connect first holding part, and respectively first conductive part is worn Corresponding first opening is crossed to be configured in the inner peripheral edge surfaces of first holding part, respectively first conductive part And expose from first holding part, to be electrically connected with corresponding second conductive part.

3. Multi-contact connector according to claim 2, it is characterised in that each first conductive part bag The one first subconductivity portion and one second subconductivity portion being connected are included, respectively the first subconductivity portion passes through corresponding First opening is simultaneously exposed from first holding part, and first holding part is located at one first face of the pedestal, and The second subconductivity portion is then configured at one second face of the pedestal, and first face is located at respectively with second face should Opposite two side of pedestal.

4. Multi-contact connector according to claim 3, it is characterised in that the auxiliary section is one prominent For the flange of the pedestal, the Multi-contact connector is further included：

An at least link stopper, is configured on the flange and extends toward the inner side of the flange, the position of an at least link stopper Put relative with corresponding first opening.

5. Multi-contact connector according to claim 3, it is characterised in that each first subconductivity Portion and respectively the second subconductivity portion are tabular, and respectively the first subconductivity portion and respectively the second subconductivity portion is mutual It is perpendicular.

6. Multi-contact connector according to claim 1, it is characterised in that the wearable carrier For an intelligent clothing.

7. a kind of ecg scanning device, suitable for being connected with a Multi-contact connector, the Multi-contact connector bag Include multiple first conductive parts, it is characterised in that the ecg scanning device includes：

One body；And

One insert, is configured at the body, and the insert includes：

One shell, with a perimeter wall；And

Multiple second conductive parts, with deformability, and it is circumferential annularly along the perimeter wall of the shell Arrange, respectively a first end of second conductive part is protruded from the outer peripheral edge face of the perimeter wall；

Wherein, after the ecg scanning device is connected with the Multi-contact connector, respectively second conductive part is along footpath To provide radial load with corresponding first conductive part be electrically connected with.

8. ecg scanning device according to claim 7, it is characterised in that the shell further includes one Block and one second opening, second opening run through the perimeter wall, and respectively second conductive part includes one second end, Respectively second end of second conductive part compresses the block, respectively the first end of second conductive part through this Two openings, first end through respectively second conductive part of second opening is used to first lead with corresponding this Electric portion is electrically connected with.

9. ecg scanning device according to claim 8, it is characterised in that each second conductive part The first end it is vertical with the bearing of trend at second end of respectively second conductive part.

10. ecg scanning device according to claim 7, it is characterised in that second conductive part has There is pliability, the external diameter corresponding to the outer rim of the first end of those the second conductive parts is more more than this is configured at The internal diameter corresponding to those first conductive parts in one inner peripheral edge surfaces of contact connector, with the multiple-contact After connector is connected with the ecg scanning device, a radial direction prestressing is provided by those second conductive parts, so that respectively Second conductive part is electrically connected with corresponding first conductive part.

11. ecg scanning device according to claim 7, it is characterised in that each second conductive part One second end and a flexible portion are further included, the flexible portion connects the first end and second end, and the flexible portion is in One bending is to produce positive contact force.

12. a kind of ecg scanning module, it is characterised in that including：

One Multi-contact connector as claimed in claim 1；And

One ecg scanning device as claimed in claim 7, to be connected with the Multi-contact connector, its In the ecg scanning device respectively second conductive part to contact corresponding first conductive part.

13. ecg scanning module according to claim 12, it is characterised in that the pedestal has Multiple first openings, those first openings are through the pedestal and connect first holding part, respectively first conduction Portion is through corresponding first opening to be configured in the inner peripheral edge surfaces of first holding part, and respectively this first is led Electric portion simultaneously exposes from first holding part, to be electrically connected with corresponding second conductive part.

14. ecg scanning module according to claim 12, it is characterised in that each first is conductive Portion includes the one first subconductivity portion and one second subconductivity portion that are connected, respectively the first subconductivity portion through pair Answer this first be open and expose from first holding part, first holding part be located at the pedestal one first Face, and the second subconductivity portion is then configured at one second face of the pedestal, first face is distinguished with second face Positioned at opposite two side of the pedestal.

15. ecg scanning module according to claim 12, it is characterised in that the multiple-contact connects Device is connect to further include：

An at least link stopper, the link stopper is configured on the auxiliary section and extended toward the inner side of the auxiliary section, and this is extremely The position of a few link stopper is relative with corresponding first opening, to be swept in the Multi-contact connector with the electrocardiogram Retouch after device connection, it is to avoid the ecg scanning device departs from the Multi-contact connector vertically.

16. ecg scanning module according to claim 14, it is characterised in that each first son Conductive part and respectively the second subconductivity portion are tabular, and respectively the first subconductivity portion and respectively second subconductivity Portion is orthogonal.

17. ecg scanning module according to claim 12, it is characterised in that the shell is more wrapped A block and one second opening are included, second opening runs through the perimeter wall, and respectively second conductive part includes one the Two ends, respectively second end of second conductive part compress the block, respectively the first end of second conductive part is worn Second opening is crossed, the first end through respectively second conductive part of second opening is used to be somebody's turn to do with corresponding First conductive part is electrically connected with.

18. ecg scanning module according to claim 17, it is characterised in that respectively this second is led The first end in electric portion is vertical with the bearing of trend at second end of respectively second conductive part.

19. ecg scanning module according to claim 12, it is characterised in that second conduction Portion has pliability, and the external diameter corresponding to the outer rim of the first end of those the second conductive parts, which is more than, to be configured at The internal diameter corresponding to those first conductive parts in one inner peripheral edge surfaces of the Multi-contact connector, with many in this After contact connector is connected with the ecg scanning device, a radial direction prestressing is provided by those second conductive parts, with Make respectively second conductive part be electrically connected with corresponding first conductive part.

20. ecg scanning module according to claim 12, it is characterised in that respectively this second is led Electric portion further includes one second end and a flexible portion, and the flexible portion connects the first end and second end, and this is flexible Portion is in a bending.

21. a kind of intelligent clothing, it is characterised in that including：

Just like the Multi-contact connector described in any one in claim 1 to 5；

Wherein, the intelligent clothing coats a part for the Multi-contact connector, another portion of the Multi-contact connector Divide and expose from the intelligent clothing, those first conductive parts of the Multi-contact connector expose to the intelligent clothing.

22. a kind of intelligent clothing, it is characterised in that including：

Just like the ecg scanning module described in any one in claim 12 to 20；

Wherein, the intelligent clothing coats a part for the Multi-contact connector, another portion of the Multi-contact connector Divide and expose from the intelligent clothing, those first conductive parts of the Multi-contact connector expose to the intelligent clothing, the heart Electrograph scanner is contacted with corresponding first conductive part by respectively second conductive part and connected with the multiple-contact Connect device electric connection.