CN105559776A - Mobile electrocardio acquisition device - Google Patents

Abstract

The invention discloses a mobile electrocardio acquisition device. The mobile electrocardio acquisition device comprises a base, an electrocardio acquisition box and a fixing assembly. The base is provided with a containing cavity for containing the electrocardio acquisition box. The containing cavity comprises a first charging connecting face with a convex charging end, two inner side faces adjacent to the first charging connecting face, and an inner bottom face arranged between the two inner side faces. The electrocardio acquisition box comprises a second charging connecting face which is provided with a charging jack and corresponds to the first charging connecting face, two terminal side faces adjacent to the second charging connecting face, and a terminal bottom face which is arranged between the two terminal side faces and corresponds to the inner bottom face. The fixing assembly is used for fixedly arranging the electrocardio acquisition box on the base when the electrocardio acquisition box is placed on the base. The electrocardio acquisition box is contained in the containing cavity, and the second charging connecting face is correspondingly connected with the first charging connecting face of the base. According to the mobile electrocardio acquisition device, the electrocardio acquisition box and the base are fixedly arranged through the fixing assembly, and therefore reliable fixation of the electrocardio acquisition box and the base is guaranteed.

Description

A kind of mobile ECG collection device

Technical field

The present invention relates to a kind of electrocardiogram acquisition technology, particularly relate to a kind of mobile ECG collection device.

Background technology

At present, when utilizing portable cardiac collecting cassette to carry out electrocardiogram acquisition, electrocardiogram acquisition box generally understands convenient operation, and person's hand-held operates, the signal of electrocardiogram acquisition transmits through electrocardiogram acquisition box, generally when electrocardiogram acquisition box adopts dry cell power supply, if when battery electric quantity is not enough in testing process, operator changes battery after need closing electrocardiogram acquisition box, while inconvenient, also affect the experience sense of user.When electrocardiogram acquisition box employing rechargeable battery provides power supply, charging can be connected with the mains to proceed electrocardiogram acquisition when electric quantity of rechargeable battery is not enough.

But; owing to generally can not charge by hand-held electrocardiogram acquisition box in charging process; can place when charging and charge; but the collection port of electrocardiogram acquisition box can connect larger and long conducting wire usually; human body to be measured moves health or has other moving by a small margin; easily can cause the movement of electrocardiogram acquisition box, thus affect electrocardiogram acquisition box charging or in charging process the seriality of signals collecting and stability, cause inconvenient operation.

Summary of the invention

The object of the invention is for above-mentioned deficiency, provide a kind of signals collecting to stablize and easy to operate mobile ECG collection device.

For reaching above-mentioned technical purpose, the invention provides a kind of electrocardiogram acquisition box and move ECG collection device, it is for gathering the electrocardiosignal of human body, described mobile ECG collection device comprises a base, an electrocardiogram acquisition box and a fixation kit, and described base is provided with one for accommodating the host cavity of described electrocardiogram acquisition box; Described host cavity comprises the first charging joint face of the charging termination being provided with protrusion; To charge adjacent two medial surface of joint face with described first; Be arranged on the inner bottom surface between described two medial surface; Described electrocardiogram acquisition box comprises and is provided with charging inlet and charges corresponding second the charging joint face of joint face with first; To charge the adjacent two terminal sides of joint face with described second; Be arranged on terminal bottom surface between described two terminal sides and corresponding with described inner bottom surface; Described fixation kit is for being fixed on described base when described electrocardiogram acquisition box is placed on described base by described electrocardiogram acquisition box, and described electrocardiogram acquisition box collecting is to the interior corresponding connection of joint face and second of described electrocardiogram acquisition box the charging joint face and first of described base charge of host cavity of described base.

Preferably, described fixation kit comprises one for described electrocardiogram acquisition box being adsorbed on the magnetic-adsorption assembly on described base, described magnetic-adsorption assembly comprises the magnetic force bindiny mechanism being separately positioned on described first charging joint face and the second charging joint face, and be separately positioned on the magnetic force pull down mechanism of described inner bottom surface and described terminal bottom surface, described magnetic force bindiny mechanism comprises the first magnetic part being arranged on described first charging joint face, and be oppositely arranged on the described second the second magnetic part charging joint face with described first magnetic part, described first magnetic part and the mutual magnetic-adsorption of the second magnetic part.

Preferably, described magnetic force pull down mechanism comprises the 3rd magnetic part being arranged at described inner bottom surface, and be arranged at the 4th magnetic part of described terminal bottom surface, 3rd magnetic part described in when described electrocardiogram acquisition box is placed on described base and described 4th magnetic part shift to install along the placement direction of described electrocardiogram acquisition box, and the axle center of described 4th magnetic part and the described second distance of charging between joint face are more than or equal to axle center and described second distance of charging between joint face of described 3rd magnetic part.

Preferably, described charging connected system also comprises one and described electrocardiogram acquisition box is lock onto mechanical interlocking assembly on described base, described mechanical interlocking assembly comprises the latching device relatively protruding from described medial surface and arrange, and correspondence is arranged at the snap close aperture of described terminal side, described snap close aperture and described latching device male-female engagement form mechanical interlocking assembly.

Preferably, the keying of described latching device is controlled by a Control Component; Described Control Component comprises leverage and pressing mechanism, and the drive end of described leverage is connected with pressing mechanism, and the driven end of described leverage is connected with latching device.

Preferably, described pressing mechanism comprises,

One is arranged on the pressing key in the middle part of described pressing mechanism;

Centered by pressing key, the control end that is symmetrical set;

One extend in the middle part of described pressing mechanism and be opened in described first charge the through hole of joint face corresponding support out end; And

Be arranged on the first back-moving spring between described control end and described base body, for making pressing mechanism be returned to initial position.

Preferably, the drive end of described leverage comprises a warped inclined-plane and a vertical, and the control end of described pressing mechanism abuts with the drive end activity of described leverage.

Preferably, described latching device comprises

One sliding sleeve be fixedly installed with described base body, have an accommodating inner chamber in described sliding sleeve, the port of described accommodating inner chamber is provided with sliding sleeve lid;

One is built in the locking bullet pin in the accommodating inner chamber of described sliding sleeve, and the first termination of described locking bullet pin is passed described sliding sleeve lid, is connected with the driven end of described leverage, and the second termination is through the also outstanding described medial surface setting of described sliding sleeve;

One is sleeved on the second back-moving spring on described locking bullet pin;

Wherein, described locking plays pin and is provided with an outer eaves near the side of described second termination, and one end of described back-moving spring is connected to described outer eaves, and the other end is connected to described sliding sleeve lid.

Preferably, be provided with charging circuit in described base, described charging circuit be connected with a charging display LED, described charging display LED is arranged around described pressing key.

Preferably, the both sides, charging termination of described first charging joint face are respectively adjacent to and are provided with lead, and the both sides of the charging inlet of described second charging joint face are also respectively adjacent to the pilot hole being provided with and matching with described lead.

Mobile ECG collection device of the present invention, it makes to set up between described electrocardiogram acquisition box and base to be mutually fixedly set by magnetic-adsorption assembly or mechanical interlocking assembly, thus the fixed placement enabling electrocardiogram acquisition box stable is on base, slight drag motions is avoided to cause electrocardiogram acquisition box signals collecting unstable, ensure that electrocardiogram acquisition box and the reliable of base are fixed, while easy to operate, ensure that stability and the seriality of signals collecting.

Accompanying drawing explanation

Fig. 1 is the structural representation that electrocardiogram acquisition box of the present invention is placed on base;

Fig. 2 is the Split type structure schematic diagram of electrocardiogram acquisition box of the present invention and base;

Fig. 3 is the structural representation of base of the present invention;

Fig. 4 is the sectional view of Fig. 1 along Y-Y;

Fig. 5 is another Split type structure schematic diagram of electrocardiogram acquisition box of the present invention and base;

Fig. 6 is the internal structure schematic diagram of base of the present invention;

Fig. 7 is the structural representation of leverage of the present invention;

Fig. 8 is the structural representation that pressing mechanism of the present invention coordinates with leverage;

Fig. 9 is the structural representation of latching device of the present invention;

Figure 10 is the phantom that electrocardiogram acquisition box of the present invention is placed on base;

Figure 11 is the enlarged drawing in A portion in Figure 10;

Detailed description of the invention

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

As shown in Figure 1, The embodiment provides a kind of mobile ECG collection device 100, it is for gathering the electrocardiosignal of human body by external conducting wire and showing electrocardiographic wave, described mobile ECG collection device 100 comprises a base 10, electrocardiogram acquisition box 20 and a fixation kit, and described electrocardiogram acquisition box 20 is fixedly installed on described base 10 by described fixation kit.

As shown in Figure 3, base 10 is provided with one for retracing the host cavity 101 of electrocardiogram acquisition box 20; Described host cavity 101 comprises the first charging joint face 11 of the charging termination being provided with protrusion; To charge adjacent two medial surface 12 of joint face 11 with described first; Be arranged on the inner bottom surface 13 between described two medial surface 12.

As shown in Figure 2, electrocardiogram acquisition box 20 comprises and is provided with charging inlet and charges corresponding second the charging joint face 21 of joint face 11 with first; To charge the adjacent two terminal sides 22 of joint face 21 with described second; Be arranged on terminal bottom surface 23 between described two terminal sides 22 and corresponding with inner bottom surface 13.

Described fixation kit is used for, when electrocardiogram acquisition box 20 is placed on base 10, electrocardiogram acquisition box 20 is fixedly installed on 10 bases, and electrocardiogram acquisition box 20 to be accommodated to the host cavity 101 of base 10 corresponding the contact with charging port by termination of charging of the joint face 11 and second of electrocardiogram acquisition box 20 the charging joint face 21 and first of base 10 charge and connected.

In the present embodiment, fixation kit comprises one for electrocardiogram acquisition box 20 being adsorbed on the magnetic-adsorption assembly 30 on base 10, described magnetic-adsorption assembly 30 comprises the magnetic force bindiny mechanism 31 being separately positioned on the first charging joint face 11 and the second charging joint face 21, and is separately positioned on the magnetic force pull down mechanism 32 of inner bottom surface 13 and terminal bottom surface 23.

Described magnetic force bindiny mechanism 31 comprises the first magnetic part 312 being arranged on the first charging joint face 11, and be oppositely arranged on the second magnetic part 311, first magnetic part 312 and the second magnetic part 311 magnetic-adsorption mutually of the second charging joint face 21 with the first magnetic part 312.Wherein, one is had at least for Magnet in first magnetic part 312 and the second magnetic part 311, concrete, first magnetic part 312 and the second magnetic part 311 are Magnet, or first magnetic part 312 be Magnet, second magnetic part 311 is iron plate, or the first magnetic part 312 is iron plate, and the second magnetic part 311 is Magnet.

When electrocardio collecting cassette 20 inserts placement host cavity 101, magnetic force bindiny mechanism 31 produces the magnetic force of absorption mutually, make second of electrocardiogram acquisition box 20 the charging joint face 21 close from the first charging joint face 11 of trend base 10, and electrocardiogram acquisition box 20 is adsorbed on base 10 the most at last.

As shown in Figure 2, magnetic force pull down mechanism 32 comprises the 3rd magnetic part 322 being arranged at inner bottom surface 13, and be arranged at the 4th magnetic part 321 of terminal bottom surface 23, as shown in Figure 4, described 3rd magnetic part 322 shifts to install with described 4th magnetic part about 321, and also namely when electrocardiogram acquisition box 20 is placed on base 10, the 3rd magnetic part 322 and the 4th magnetic part 321 shift to install along the placement direction of electrocardiogram acquisition box 20.For ensureing that the 3rd magnetic part 322 and the 4th magnetic part 321 are carried out electrocardiogram acquisition box 10 when magnetic absorption coordinates and connected to make the charging termination of the first charging joint face 11 match to contact with the second charging inlet charging joint face 21 by Magnetic force tracting along the collecting direction of accommodating to host cavity 101, the distance that the axle center O2 and second that axle center O1 and second distance of charging between joint face 21 of the 4th magnetic part 321 is more than or equal to the 3rd magnetic part 322 charges between joint face 21.Wherein, one is had at least for Magnet in 3rd magnetic part 322 and the 4th magnetic part 321, concrete, 3rd magnetic part 322 and the 4th magnetic part 321 are Magnet, or the 3rd magnetic part 322 be Magnet, 4th magnetic part 321 is iron plate, or the 3rd magnetic part 322 is iron plate, and the 4th magnetic part 321 is Magnet.

Therefore, when electrocardio collecting cassette 20 is positioned over host cavity 101, the 4th magnetic part 321 being arranged on the 3rd magnetic part 322 pairs of terminal bottom surfaces 23 of inner bottom surface 13 produces drop-down magnetic force, electrocardiogram acquisition box 20 is pulled down in host cavity 101, and terminal bottom surface 23 inner bottom surface 13 that is automatic and base 10 is fitted, until be adsorbed on base 10 by electrocardiogram acquisition box 20.

Automatically to slide more easily when being placed on base 10 location for making electrocardiogram acquisition box 20, as shown in Figure 3, be respectively adjacent in the both sides, charging termination of the first charging joint face 11 and be provided with lead 14, the both sides of the charging inlet of the second charging joint face 21 are also respectively adjacent to the pilot hole 24 being provided with and matching with lead 14, when electrocardio collecting cassette 20 automatically slips into base 10 under the absorption of magnetic force bindiny mechanism 31, by coordinating between lead 14 with pilot hole 24, charging port is guided to insert in charging inlet, realize the automatic aligning between electrocardiogram acquisition box 20 and base 10.

Slip in base 10 smoothly to make electrocardiogram acquisition box 20 further, a few guiding draw runner 15 protruded is respectively provided at inner bottom surface 13 and medial surface 12, in present embodiment, inner bottom surface 13 be symmetrical arranged two guiding draw runner 15, two medial surface 12 respectively correspondence one wire draw runner 15 is set.The bearing of trend of guiding draw runner 15 is consistent with the direction that electrocardiogram acquisition box 20 slips into base 10, by arranging guiding draw runner 15, make between electrocardiogram acquisition box 20 with base 10, to form line face to contact, the frictional force of the relatively original plane-plane contact of frictional force that the contact of line face produces is less, thus electrocardiogram acquisition box 20 can slip in base 10 smoothly.

When being adsorbed onto on base 10 for preventing electrocardiogram acquisition box 20, first charging joint face 11 and second joint face 21 that charges occurs clash into and produce noise, at the first charging joint face 11, cushion pad 16 is set, not only eliminate the noise that collision produces, also avoid the problem that the first charging joint face 11 and the second hard contact charged between joint face 21 easily cause product to scratch.

By above-mentioned magnetic force bindiny mechanism 31 and magnetic force pull down mechanism 32, make to set up mutual adsorption magnetic force between electrocardiogram acquisition box 20 and base 10, thus make that electrocardiogram acquisition box 20 can be stable be placed on base 10, avoid slight drag motions cause electrocardiogram acquisition box 20 from base 10 come off and cause charging or the problem of data-transmission interruptions, ensure that electrocardiogram acquisition box 20 is fixed on and base 10 can stablize and carry out uninterruptedly charging or data transmission.Simultaneously, by arranging lead 14 and guiding draw runner 15, make electrocardiogram acquisition box 20 when base 10 chute upper end, electrocardiogram acquisition box 20 under magneticaction, automatically can slip into base 10 and automatic aligning is fixed, while easy to operate, also there is good user operation and experience.

Better be fixed to further on base 10 for making electrocardiogram acquisition box 20, fixation kit also comprises a mechanical interlocking assembly 40, as shown in Fig. 5 to Figure 11, described mechanical interlocking assembly 40 comprises two latching devices 41 relatively protruding from each medial surface 12 respectively and arrange, and two corresponding snap close apertures 25 be arranged on each terminal side 22 respectively, each snap close aperture 25 forms mechanical locking mechanism with the concavo-convex corresponding matching of each latching device 41.

The keying of latching device 41 is controlled by a Control Component, and as shown in Figure 6 and Figure 7, described Control Component comprises leverage 42 and pressing mechanism 43; Incorporated by reference to Fig. 8, the drive end 421 of described leverage 42 is connected with pressing mechanism 43, the driven end 422 of leverage 42 is connected with latching device 41, wherein, leverage 42 is symmetricly set in base 10 arranged on left and right sides, be provided with balance pivot 423 between its drive end 421 and driven end 422, described balance pivot 423 fixed cover is located on the body of base 10.

Pressing mechanism 43 is mechanically connected with the drive end 421 of leverage 42, and as shown in Figure 8, pressing mechanism 43 comprises one and is arranged on pressing key 431 in the middle part of pressing mechanism 43; Centered by pressing key 431, the control end 432 that is symmetrical set; Extend in the middle part of one self-pressing mechanism 43 and corresponding with the through hole 18 being opened in the first charging joint face 11 support out end 433; And the first back-moving spring 434 be arranged between control end 432 and base 10 body, for making pressing mechanism 43 be returned to initial position.Power transmission between each parts of pressing mechanism 43 has concordance, in the present embodiment, and pressing key 431, control end 432 and to support out end 433 one-body molded.

As shown in Figures 9 to 11, latching device 41 comprises a sliding sleeve 411 be fixedly installed with base 10 body, and have an accommodating inner chamber in sliding sleeve 411, the port of described accommodating inner chamber is provided with sliding sleeve lid 412; One is built in the locking bullet pin 413 in the accommodating inner chamber of described sliding sleeve 411, and one is sleeved on second back-moving spring 414 of locking and playing on pin 413.The first termination 413a that described locking plays pin 413 is connected with the driven end 422 of leverage 42 through the second back-moving spring 414 and sliding sleeve lid 412 successively, and the second termination 413b passes sliding sleeve 411 and outstanding medial surface 12 is arranged; Wherein, locking plays pin 413 and is provided with an outer eaves 413c near the side of the second termination 413b, one end of described back-moving spring is connected to described outer eaves 413c, the other end is connected to sliding sleeve lid 412, return to initial position for described locking is played pin 413, the driven end 422 of described leverage 42 drives locking to play the relative sliding sleeve 411 of pin 413 by described first termination 413a and does stretching motion.

Wherein, as shown in Figure 7, the drive end 421 of leverage 42 comprises an a warped inclined-plane 421a and vertical 421b, the control end 432 of pressing mechanism 43 abuts with drive end 421 activity of leverage 42, when control end 432 slides at the abutting that described warped inclined-plane 421a is vertically face 421b, left and right control end 432 promotes left and right drive end 421 and does relatively close motion, when control end 432 abutting slides into vertical 421b, support out end 433 and stretch out from the first charging joint face 11 along described through hole 18.

When user presses described pressing key 431 downwards, the abutting that described pressing key 431 drives control end 432 to be vertically face 421b at the warped inclined-plane 421a of drive end 421 slides, left, right control end 432 promotes a left side, right drive end 421 does relatively close motion, after fulcrum 423 transition, drive left, right driven end 422 do relatively away from motion, and then described driven end 422 drives described locking bullet pin 413 inwardly to shrink, exit the snap close aperture 25 of described electrocardiogram acquisition box 20, latching device 41 is opened, the object reaching opening lock catch function or remove electrocardiogram acquisition box 20 snap close.Further, when user continues to press described pressing key 431 downwards, described control end 432 abuts from warped inclined-plane 421a and slides into vertical 421b, described drive end 421 is not subjected to displacement, now, latching device 41 is held open state, supports out end 433 and stretches out the first charging joint face 11 along described through hole 18, electrocardiogram acquisition box 20 is released, described electrocardiogram acquisition box 20 is initiatively separated with described base 10.

When user unclamps the pressing to pressing key 431, described pressing key 431 returns to initial position under the back stretch of the first back-moving spring 434, thus drive described drive end 421 to abut slip from described vertical 421b to described warped inclined-plane 421a, the described end 433 that supports out inwardly shrinks in described through hole 18, simultaneously, the drive end 421 of described leverage 42 loses control force, described locking plays pin 413 under the drive of the second back-moving spring 414, returns to the position of protruding with described medial surface 12, reinsert the snap close aperture 25 of described electrocardiogram acquisition box 20, latching device 41 closes, thus by described electrocardiogram acquisition box 20 mechanical interlocking on described base 10.

Further, be provided with charging circuit in base 10, for described in reminding user, electrocardiogram acquisition box 20 is in charged state, charging circuit is connected with a charging display LED, described charging display LED is arranged around described pressing key 431.When the charging termination of described electrocardiogram acquisition box 20 is by establishing electric connection between the charging inlet of base 10 and charging circuit, and when guiding electrocardiogram acquisition box 20 to enter charged state, described charging display LED connected by described charging circuit, make it light, form LED light ring, not only achieve charging and function is provided, also improve the overall aesthetics of base 10.

Pin 413 is played by arranging telescopic locking at the medial surface 12 of base 10, its snap close aperture 25 of arranging corresponding to described terminal side 22 is matched, and charging port both sides shaping-orientation post 14 and the cooperation of the pilot hole 24 that arrange corresponding to described lead 14 on electrocardiogram acquisition box 20, realize the mechanical interlocking function to electrocardiogram acquisition box 20.Meanwhile, in conjunction with inclined-plane and the vertical 421b of setting unique on leverage 42, make user just by during to pressing key 431, described control end 432 slides on warped inclined-plane 421a, locking bullet pin 413 is inwardly shunk, is unlocked by electrocardiogram acquisition box 20.When continuing to press pressing key 431, described control end 432 slides on vertical 421b, described support out end 433 withstand electrocardiogram acquisition box 20 second charging joint face 21, electrocardiogram acquisition box 20 is ejected, facilitates user to take out electrocardiogram acquisition box 20.

Electrocardiogram acquisition box device 100 of the present invention, it makes to set up mutual adsorption magnetic force between electrocardiogram acquisition box 20 and base 10 by magnetic-adsorption assembly 30, thus being arranged on base 10 of making that electrocardiogram acquisition box 20 can be stable, the problem avoiding slight drag motions to cause electrocardiogram acquisition box 20 coming off from base 10.Again by setting up mechanical interlocking assembly 40, make electrocardiogram acquisition box 20 in charging process, in any case drop, electrocardiogram acquisition box 20 all can not be made to get loose from base 10, to take out electrocardiogram acquisition box 20, the locking button on base 10 must be pressed, electrocardiogram acquisition box 20 just can be made to get loose from base 10, ensure that electrocardiogram acquisition box 20 is fixed with the reliable of base 10, thus ensure that operator is without the need to adopting hand-held mode to gather when operating always, when electrocardio collecting cassette 20 needs charging, fixed placement still can proceed signals collecting on base 10, the stability of signals collecting can not be affected because of slightly dropping of person to be measured, and user by being fixed on when wireless signal instability base 10 carries out limited connection by the network interface end access server of base or PC carrying out Signal transmissions, improve the motility of mobile collection application of installation mode, easy to operate.

The above the specific embodiment of the present invention, does not form limiting the scope of the present invention.Various other that any technical conceive according to the present invention is made change and distortion accordingly, all should be included in the protection domain of the claims in the present invention.

Claims (10)

1. a mobile ECG collection device, it is for gathering the electrocardiosignal of human body, and described mobile ECG collection device comprises:

A base, it is provided with one for accommodating the host cavity of described electrocardiogram acquisition box; Described host cavity comprises the first charging joint face of the charging termination being provided with protrusion; To charge adjacent two medial surface of joint face with described first; Be arranged on the inner bottom surface between described two medial surface;

An electrocardiogram acquisition box, it comprises and is provided with charging inlet and charges corresponding second the charging joint face of joint face with first; To charge the adjacent two terminal sides of joint face with described second; Be arranged on terminal bottom surface between described two terminal sides and corresponding with described inner bottom surface; And

A fixation kit, it is for being fixed on described base when described electrocardiogram acquisition box is placed on described base by described electrocardiogram acquisition box, the corresponding connection of joint face and second of described electrocardiogram acquisition box the charging joint face and first of described base charge in described electrocardiogram acquisition box collecting to the host cavity of described base.

2. move ECG collection device according to claim 1, it is characterized in that, described fixation kit comprises one for described electrocardiogram acquisition box being adsorbed on the magnetic-adsorption assembly on described base, described magnetic-adsorption assembly comprises the magnetic force bindiny mechanism being separately positioned on described first charging joint face and the second charging joint face, and be separately positioned on the magnetic force pull down mechanism of described inner bottom surface and described terminal bottom surface, described magnetic force bindiny mechanism comprises the first magnetic part being arranged on described first charging joint face, and be oppositely arranged on the described second the second magnetic part charging joint face with described first magnetic part, described first magnetic part and the mutual magnetic-adsorption of the second magnetic part.

3. move ECG collection device according to claim 2, it is characterized in that, described magnetic force pull down mechanism comprises the 3rd magnetic part being arranged at described inner bottom surface, and be arranged at the 4th magnetic part of described terminal bottom surface, 3rd magnetic part described in when described electrocardiogram acquisition box is placed on described base and described 4th magnetic part shift to install along the placement direction of described electrocardiogram acquisition box, and the axle center of described 4th magnetic part and the described second distance of charging between joint face are more than or equal to axle center and described second distance of charging between joint face of described 3rd magnetic part.

4. move ECG collection device according to claim 1, it is characterized in that, described fixation kit comprises one and described electrocardiogram acquisition box is lock onto mechanical interlocking assembly on described base, described mechanical interlocking assembly comprises the latching device relatively protruding from described medial surface and arrange, and correspondence is arranged at the snap close aperture of described terminal side, described snap close aperture and described latching device male-female engagement form mechanical interlocking assembly.

5. move ECG collection device according to claim 4, it is characterized in that, described fixation kit also comprises the Control Component of the keying of the described latching device of a control; Described Control Component comprises leverage and pressing mechanism, and the drive end of described leverage is connected with described pressing mechanism, and the driven end of described leverage is connected with described latching device.

6. move ECG collection device according to claim 5, it is characterized in that, described pressing mechanism comprises,

One is arranged on the pressing key in the middle part of described pressing mechanism;

Centered by pressing key, the control end that is symmetrical set;

One extend in the middle part of described pressing mechanism and be opened in described first charge the through hole of joint face corresponding support out end; And

Be arranged on the first back-moving spring between described control end and described base body, for making pressing mechanism be returned to initial position.

7. move ECG collection device according to claim 6, it is characterized in that, the drive end of described leverage comprises a warped inclined-plane and a vertical, and the control end of described pressing mechanism abuts with the drive end activity of described leverage.

8. move ECG collection device according to claim 7, it is characterized in that, described latching device comprises

One sliding sleeve be fixedly installed with described base body, have an accommodating inner chamber in described sliding sleeve, the port of described accommodating inner chamber is provided with sliding sleeve lid;

One is built in the locking bullet pin in the accommodating inner chamber of described sliding sleeve, and the first termination of described locking bullet pin is passed described sliding sleeve lid, is connected with the driven end of described leverage, and the second termination is through the also outstanding described medial surface setting of described sliding sleeve;

One is sleeved on the second back-moving spring on described locking bullet pin;

Wherein, described locking plays pin and is provided with an outer eaves near the side of described second termination, and one end of described back-moving spring is connected to described outer eaves, and the other end is connected to described sliding sleeve lid.

9. move ECG collection device according to claim 4, it is characterized in that, be provided with charging circuit in described base, described charging circuit connects a charging display LED, described charging display LED is arranged around described pressing key.

10. move ECG collection device according to claim 4, it is characterized in that, the both sides, charging termination of described first charging joint face are respectively adjacent to and are provided with lead, and the both sides of the charging inlet of described second charging joint face are also respectively adjacent to the pilot hole being provided with and matching with described lead.