CN210130770U - Cushion and electrocardio detecting system - Google Patents

Abstract

The utility model provides a cushion and electrocardio detecting system, this cushion includes: a channel is arranged in the cushion and used for arranging circuits; the cushion is provided with at least two first electrocardio-electrodes which are used for contacting with the lower limbs of a user, and the at least two first electrocardio-electrodes are mutually spaced; still be equipped with first opening and first interface on the cushion, first interface is located in the first opening, at least two first electrocardio electrodes respectively through corresponding first wire with first interface links to each other, first wire is located in the inside passageway of cushion. In the technical scheme, the first electrocardio electrode is arranged on the cushion, so that the user can conveniently contact with the cushion when sitting on the cushion, and the detection is further facilitated.

Description

Cushion and electrocardio detecting system

Technical Field

The utility model relates to healthy technical field especially involves a cushion and electrocardio detecting system.

Background

At present, people suffering from cardiovascular diseases in China are numerous, and electrocardiogram is an important means for detecting the cardiovascular diseases. The electrocardiogram records the activity rule of the heart by collecting bioelectricity signals through electrodes covered on the surface of a human body. The 12 lead electrocardiograph used in hospital adopts Wilson lead system, and calculates twelve lead electrocardiographic waveform by collecting potential change of ten points of human body. The lead is composed of ten leads and ten electrodes, wherein the ten electrodes are respectively positioned at 6 contact positions (positions 1-6) of a left upper Limb (LA), a right upper limb (RA), a left Lower Limb (LL), a right lower limb (RL) and a chest, in the generated twelve leads, the leads I, II and III are standard leads, the leads avR, avL and avF are pressurized unipolar limb leads, and the leads V1, V2, V3, V4, V5 and V6 are unipolar leads. Because the range of covering the human body is wider, the positions of contact points are more complicated, and more wires are needed, the detection can be completed only by professional people, and the detection cannot be applied to home detection.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cushion and electrocardio detecting system for improve the convenience degree that detects.

The utility model provides a cushion, this cushion includes: a channel is arranged in the cushion and used for arranging circuits; the cushion is provided with at least two first electrocardio-electrodes which are used for contacting with the lower limbs of a user, and the at least two first electrocardio-electrodes are mutually spaced; still be equipped with first opening and first interface on the cushion, first interface is located in the first opening, at least two first electrocardio electrodes respectively through corresponding first wire with first interface links to each other, first wire is located in the inside passageway of cushion.

In the technical scheme, the first electrocardio electrode is arranged on the cushion, so that the user can conveniently contact with the cushion when sitting on the cushion, and the detection is further facilitated.

When the first electrocardio-electrodes are installed, at least one first electrocardio-electrode is movably installed on the cushion. Therefore, the position of the first electrocardio-electrode can be adjusted to be suitable for different users, and the applicability of the cushion is further improved.

When the movable connection is realized, a sliding groove is arranged on the cushion, and the at least one first electrocardio electrode is assembled in the sliding groove in a sliding mode. By slidably fitting the first electrocardio-electrode on the sliding groove, the position of the first electrocardio-electrode can be adjusted by sliding to adapt to different users.

In a specific embodiment, the seat cushion is provided with a plurality of sliding chutes, and each first electrocardio-electrode corresponds to one sliding chute; each first electrocardio-electrode is slidably fitted in its corresponding slide slot. Adopt the mode of one-to-one to can adjust the position of every first electrocardio electrode as required, improved the suitability of cushion.

When the sliding groove is specifically arranged, the sliding groove can be in different shapes, such as a cross shape, a linear shape or an arc shape. By adopting the chutes with different shapes, the adjusting range of the first electrocardio-electrode can be improved.

In a specific embodiment, at least two second electrocardiographic electrodes are arranged on the seat cushion and are used for being in contact with the upper limb of the user, and the at least two second electrocardiographic electrodes are spaced from each other; the cushion is provided with a first interface, the first electrocardio-electrodes are connected with the first interface through a first lead, the first lead is arranged in a channel inside the cushion, and the second electrocardio-electrodes are connected with the second interface through a second lead. The second electrocardio-electrode is arranged to be convenient to contact with the upper limb of the user.

In a specific aspect, the first interface and the second interface are integrated. Namely, the first conducting wire and the second conducting wire are penetrated through by one interface.

In a specific scheme, a sitting sensor and a third interface are arranged on the seat cushion, the sitting sensor is connected with the third interface through a third conducting wire, and the third conducting wire is positioned in a channel inside the seat cushion; or

The seat cushion is provided with a seat sensor and a third interface, a control circuit is arranged inside the seat cushion, the seat sensor is connected with the control circuit through a first part third wire, the control circuit is connected with the third interface through a second part third wire, and the first part third wire and the second part third wire are located in the seat cushion body. Whether a user sits on the seat cushion is detected by a seating sensor.

In a particular embodiment, the seat cushion is a seat ring.

In one embodiment, the seat ring is provided with a snap structure to be mounted on a toilet seat in a toilet; or the seat ring is a toilet seat sleeve and is sleeved on the toilet seat; or the seat ring is a toilet seat.

In a particular embodiment, the at least two first electrocardioelectrodes are electrode pads, either attached to the seat ring or embedded in the seat ring. I.e. the first electrocardioelectrode may be arranged in the raceway in different ways.

In a specific embodiment, the seat cushion is a seat ring, and the at least two second electrocardio-electrodes are electrode pads;

the at least two second electrocardio electrodes are attached to the lower surface of the seat ring or embedded in the lower half part of the seat ring; alternatively, the at least two second electrocardiograph electrodes are attached to or embedded in the race circumferential side portion. Thereby fixing the second electrocardioelectrode in a different manner.

When the first electrocardiographic electrode and the second electrocardiographic electrode are specifically provided, the surface area of the contact surface of each first electrocardiographic electrode or each second electrocardiographic electrode with the user is 0.5mm²To 16mm². Thereby ensuring that the first electrocardio-electrode and the second electrocardio-electrode are contacted with the upper limbs and the lower limbs of the user.

The utility model also provides an electrocardio detecting system, this electrocardio detecting system include any of the aforesaid cushion and electrocardio box, be equipped with the fourth interface on the electrocardio box, first interface on fourth interface and the cushion is connected through the fourth wire of the first part.

In the technical scheme, the first electrocardio electrode is arranged on the cushion, so that the user can conveniently contact with the cushion when sitting on the cushion, and the detection is further facilitated.

In a specific embodiment, the fourth interface on the electrocardiograph box and the second interface on the seat cushion are connected through a second part of fourth wires;

the electrocardiogram box comprises a signal acquisition unit, and the signal acquisition unit is used for acquiring electrocardiogram signals of a user through at least two first electrocardiogram electrodes and at least two second electrocardiogram electrodes on the seat cushion; or

The electrocardiogram box comprises a signal acquisition unit and a processing unit, wherein the signal acquisition unit is used for acquiring electrocardiogram signals of a user through at least two first electrocardiogram electrodes and at least two second electrocardiogram electrodes on the cushion, and the processing unit is in signal connection with the signal acquisition unit and used for analyzing the electrocardiogram signals output by the signal acquisition unit to obtain electrocardiogram health information of the user.

In a specific embodiment, the fourth interface on the electrocardiograph box and the third interface on the seat cushion are connected through a third part of fourth wires, and the seating sensor on the seat cushion is used for triggering the electrocardiograph box to work after detecting that the user is seated.

Drawings

Fig. 1 is a schematic structural view of a seat cushion provided in an embodiment of the present invention;

fig. 2 is a schematic structural view of a seat cushion provided in an embodiment of the present invention;

fig. 3 is a schematic structural view of a seat cushion according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a seat cushion provided in an embodiment of the present invention;

fig. 5 is a block diagram of an electrocardiograph detection system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

For conveniently understanding the embodiment of the utility model provides a cushion 1 explains its application scene at first, and this cushion 1 is used on the closestool is local to be applied to the electrocardio detecting system of detectable user electrocardio information, when the user goes to the lavatory, can detect user's electrocardio information through this cushion 1, detect user's electrocardio information.

As shown in fig. 1, the embodiment of the present invention provides a seat cushion 1, wherein a channel is arranged inside the seat cushion 1, and the channel is used for arranging a circuit; and at least two first electrocardio-electrodes 2 are arranged on the seat cushion 1, the first electrocardio-electrodes 2 are used for contacting with the lower limbs of a user, and the at least two first electrocardio-electrodes 2 are reusable electrodes. In specific use, a first part of the at least two first electrocardio-electrodes 2 is used for contacting with the left lower limb of the user, and a second part of the at least two first electrocardio-electrodes 2 is used for contacting with the right lower limb of the user; or at least two first electrocardio-electrodes 2 are intended to be in contact with the left lower limb of the user, while no electrode is in contact with the right lower limb of the user; or at least two first electrocardio-electrodes 2 are intended to be in contact with the right lower limb of the user, while no electrodes are in contact with the left lower limb of the user. No matter which mode is adopted to set up first electrocardio electrode 2, at least two first electrocardio electrodes 2 are spaced from each other to guarantee to gather the signal of different positions. Typically, as shown in fig. 1, two first electrocardio-electrodes 2 are provided on the seat cushion.

When the first electrocardio-electrodes 2 are arranged, the cushion 1 is also provided with a first opening and a first interface 3, wherein the first interface 3 is positioned in the first opening, and at least two first electrocardio-electrodes 2 arranged on the cushion 1 are respectively connected with the first interface 3 through corresponding first leads 4; when the seat cushion is specifically corresponding to the seat cushion, each first electrocardio-electrode 2 is correspondingly connected with one first lead 4, the first leads 4 penetrate through a channel inside the seat cushion 1, one end of each first lead is connected with the first electrocardio-electrode 2, and the other end of each first lead is connected with the first interface 3. The first interface 3 is used for being connected with an electrocardiogram box of an electrocardiogram detection system, and electrocardiosignals collected by the first electrocardiogram electrode 2 are transmitted to the electrocardiogram box through the first interface 3 and are processed through the electrocardiogram box to obtain the electrocardio information of a user.

When the first electrocardiograph electrode 2 is specifically arranged, the first electrocardiograph electrode 2 may be fixed on the seat cushion 1, or may be movably mounted on the seat cushion 1, and the above movable connection means that the first electrocardiograph electrode 2 can move relative to the seat cushion 1 when arranged on the seat cushion 1, such as sliding, rotating, and other different movement modes, so as to adjust the position of the first electrocardiograph electrode 2 on the seat cushion 1. Thereby can be applicable to the user of different heights, when guaranteeing that the user sits on cushion 1, first electrocardio electrode 2 can contact with user's low limbs.

When the movable connection is realized, the sliding groove 8 is arranged on the seat cushion 1, and the at least one first electrocardio-electrode 2 is assembled in the sliding groove 8 in a sliding manner, so that the first electrocardio-electrode 2 is assembled on the sliding groove 8 in a sliding manner, and the position of the first electrocardio-electrode 2 is adjusted in a sliding manner to adapt to different users. During specific assembly, one first electrocardio-electrode 2 can be assembled in one sliding groove 8 in a sliding mode, and a plurality of first electrocardio-electrodes 2 can also be assembled in one sliding groove 8 in a sliding mode. When the device is specifically arranged, a plurality of sliding grooves 8 are formed in the seat cushion 1, and each first electrocardio-electrode 2 corresponds to one sliding groove 8; therefore, the position of each first electrocardio-electrode 2 can be adjusted according to needs, and the applicability of the seat cushion 1 is improved.

When the sliding groove 8 is specifically arranged, the sliding groove 8 can be in different shapes, such as a cross shape, a linear shape or an arc shape, so that the sliding groove 8 in different shapes is adopted, and the adjustment range of the first electrocardio-electrode 2 can be enlarged. Specifically, refer to fig. 3 and 4, wherein the seat cushion 1 is provided with a sliding groove 8 corresponding to each first electrocardio-electrode 2 one to one, and each first electrocardio-electrode 2 is slidably assembled in the sliding groove 8, so that the position of the first electrocardio-electrode 2 in the sliding groove 8 is adjusted to ensure that the seat cushion can be respectively contacted with the left lower limb and the right lower limb of the user when the user uses the seat cushion. When the sliding groove 8 is specifically arranged, the arrangement may be different, specifically, refer to fig. 3 and 4, where fig. 3 and 4 show two specifically different sliding grooves 8. First, as shown in fig. 3, the sliding groove 8 is a cross-shaped sliding groove 8, and when the first electrocardio-electrode 2 is slidably assembled in the sliding groove 8, when the distance between the two first electrocardio-electrodes 2 needs to be adjusted, the positions of the two first electrocardio-electrodes 2 can be adjusted in the transverse direction, and when the distance needs to be adjusted in the longitudinal direction, the positions of the two first electrocardio-electrodes 2 can also be adjusted in the longitudinal direction, so that the relative positions of the two first electrocardio-electrodes 2 can be adjusted according to the condition of a user. Of course, only two first electrocardio-electrodes 2 are shown in fig. 3, and when three or more first electrocardio-electrodes 2 are required, the same number of slide grooves 8 may be provided. Besides the slide groove 8 shown in fig. 3, a slide groove 8 shown in fig. 4 may be adopted, and in the slide groove 8 shown in fig. 4, the slide groove 8 is a linear slide groove 8, and the slide groove 8 is provided obliquely with respect to the center line of the seat cushion 1. As can be seen from the sliding grooves 8 shown in fig. 4, the sliding grooves 8 on both sides of the urinal are the sliding grooves 8 inclined relatively, and form a splayed arrangement, when the first electrocardio-electrode 2 is slidably assembled in the sliding groove 8, the relative position between the two first electrocardio-electrodes 2 can be adjusted by sliding the first electrocardio-electrode 2, so as to be suitable for the user.

Furthermore, it should be understood that only one specific implementation of the first electrocardio-electrode 2 is shown in fig. 3, in the embodiment of the present application, the number of the first electrocardio-electrodes 2 may be multiple, for example, the number of the first electrocardio-electrodes 2 located at two sides of the urinal may be two, three, etc. different numbers, or the number of the first electrocardio-electrodes 2 located at two sides of the urinal may be the same or different numbers. That is, it is only necessary to ensure that a part of the at least two first electrocardio-electrodes 2 is located on one side of the urinal and the other part of the first electrocardio-electrodes 2 is located on the other side of the urinal. As for the first electrocardio-electrodes 2 positioned at the two sides of the urinal, the symmetrical or asymmetrical mode is adopted. And when the first electrocardio-electrodes 2 are specifically arranged, at least two first electrocardio-electrodes 2 can be electrode plates and are attached to or embedded in the seat ring. I.e. the first electrocardioelectrode 2 can be arranged in the raceway in different ways. The shape of the first electrocardio-electrode 2 can be round, square, ellipse and other different shapes, and in addition, when the first electrocardio-electrode 2 is specifically arranged, the area of the upper surface of each first electrocardio-electrode 2 is not less than 0.5mm²More specifically, the area of the upper surface of each first electrocardio-electrode 2 is 0.5mm²To 16mm². E.g. 0.5mm²、0.7mm²、0.8mm²、1mm²、5mm²、 mm²、13mm²、16mm²And the like to ensure adequate contact with the user.

In addition, in order to detect the health of the user conveniently, in one embodiment, at least two second electrocardiograph electrodes 6 are further disposed on the seat cushion 1, the second electrocardiograph electrodes 6 are used for contacting with the upper limbs of the user, specifically, a first part of the at least two second electrocardiograph electrodes 6 is used for contacting with the left upper limb of the user, and a second part of the at least two second electrocardiograph electrodes 6 is used for contacting with the right upper limb of the user. In a specific arrangement, the at least two second electrocardiographic electrodes 6 are spaced from each other, for example, the at least two second electrocardiographic electrodes 6 are respectively arranged on two sides of the seat cushion 1, or the at least two second electrocardiographic electrodes 6 are located on the same side of the seat cushion 1. In addition, the seat cushion 1 is further provided with a second interface, at least two second electrocardio electrodes 6 are respectively connected with the second interface through corresponding second leads 5, and the second interface is connected with the electrocardio box so as to transmit the electrocardiosignals collected by the second electrocardio electrodes 6 to the electrocardio box. When the second wire 5 is specifically provided, the second wire 5 is located in a passage inside the seat cushion 1. The second electrocardio-electrode 6 is arranged to be convenient to contact with the upper limb of the user.

In addition, when the seat cushion 1 has the first interface 3 and the second interface, the first interface 3 and the second interface may be integrated together, and at this time, the first conducting wire 4 and the second conducting wire 5 are respectively connected through one interface, and the first conducting wire 4 and the second conducting wire 5 are both located in the channel. The first lead 4 and the second lead 5 can be connected with the electrocardiogram box through the interface.

When the second electrocardio-electrodes 6 are arranged by adopting the scheme, at least two second electrocardio-electrodes 6 can be electrode plates; at least two second electrocardio electrodes 6 are attached to the lower surface of the seat cushion 1 or embedded in the lower half part of the seat cushion 1; alternatively, at least two second electrocardiograph electrodes 6 are attached to the periphery of the seat cushion 1 or embedded in the periphery of the seat cushion 1. At this time, when the user goes to the toilet, the upper limbs of the user droop and fit on the seat cushion 1 to be connected to the second electrocardiograph electrode 6. When the second electrocardiographic electrode 6 is specifically provided, the shape of the second electrocardiographic electrode 6 may be circular, square, oval or the likeIn the same shape, in addition, when the second electrocardio-electrodes 6 are specifically arranged, the area of the upper surface of each second electrocardio-electrode 6 is not less than 0.5mm²More specifically, the area of the upper surface of each second electrocardio-electrode 6 is 0.5mm²To 16mm². E.g. 0.5mm²、0.7mm²、 0.8mm²、1mm²、5mm²、mm²、13mm²、16mm²And the like to ensure adequate contact with the user.

In addition, in order to improve convenience in use, the seat cushion 1 is provided with a seating sensor 7 for detecting whether or not a user sits on the seat cushion 1, and in a specific arrangement, the seating sensor 7 may be a different sensor such as a pressure sensor, a resistance sensor, a light sensor, or a distance sensor. In a specific installation, the seating sensor 7 may be connected to an electrocardiograph cassette. Specifically, the seat cushion 1 is provided with a third port, the seating sensor 7 is connected to the third port through a third wire, and when the third wire is provided, the third wire is positioned in a channel inside the seat cushion 1; alternatively, the seat cushion 1 may be provided with a control circuit inside, and the seating sensor 7 may be connected to the control circuit through a first part of third wires, and the control circuit may be connected to a third interface through a second part of third wires, in which case the first part of third wires and the second part of third wires are located inside the seat cushion 1. In use, the seating sensor can transmit a detected signal to the electrocardiograph cartridge, thereby causing the electrocardiograph cartridge to be in an awake state or a sleep state. If the sitting sensor does not detect that the user sits on the seat cushion 1, the electrocardio-box is in a dormant state. If the sitting sensor detects that the user sits on the seat cushion 1, the electrocardio box starts to be awakened to be in a working state.

The seat cushion 1 provided in the embodiment of the present application may have different structures as the carriers of the first electrocardiograph electrode 2 and the second electrocardiograph electrode 6. As in one particular embodiment, the seat cushion 1 is a seat ring as shown in fig. 1. And the seat may be fitted to the toilet seat of a toilet. When the toilet seat is used, the seat ring is provided with the buckling structure, and when the seat ring is stacked with the toilet seat ring, the buckling structure is buckled on the toilet seat ring, so that the seat ring is fixed on the toilet seat ring. Or the cushion 1 can also adopt a sleeve body structure, at the moment, the cushion 1 is a toilet cover which can be sleeved on the toilet seat and is wrapped on the outer edge of the toilet seat when being sleeved.

Besides the above structure, the seat cushion 1 can be a toilet seat. In this case, the first electrocardiograph electrode 2, the second electrocardiograph electrode 6, and the seating sensor 7 are all provided on the toilet seat.

It can be seen from the above description that when a user sits on the seat cushion 1, the first electrocardiograph electrode 2 and the second electrocardiograph electrode 6 arranged on the seat cushion 1 can detect the user, so that the electrocardiograph information of the user can be monitored conveniently.

Furthermore, the embodiment of the utility model provides a still provide an electrocardio detecting system, this electrocardio detecting system include 1 and the electrocardio box of above-mentioned arbitrary cushion, wherein, are equipped with the fourth interface on this electrocardio box, and first interface 3 on fourth interface and the cushion 1 is connected through the first part fourth wire.

When the second electrocardio-electrode 6 is included, a fourth interface on the electrocardio-box is connected with a second interface on the cushion 1 through a fourth wire of the second part; when the sitting sensor 7 is included, a fourth interface on the electrocardiograph box is connected with a third interface on the seat cushion 1 through a fourth wire of the third part, and the sitting sensor 7 on the seat cushion 1 is used for triggering the electrocardiograph box to work after detecting that the user is sitting. Of course, when the first interface 3 and the second interface are integrated into one interface, or the first interface 3, the second interface and the third interface are integrated into one interface, the fourth interface only needs to be connected with the integrated interface.

As shown in fig. 5, when the electrocardiograph box is specifically arranged, the electrocardiograph box includes a signal acquisition unit 9, and the signal acquisition unit 9 is configured to acquire electrocardiograph signals of a user through at least two first electrocardiograph electrodes 2 and at least two second electrocardiograph electrodes 6 on a seat cushion 1; or the electrocardiogram box can also be adopted to comprise a signal acquisition unit 9 and a processing unit 10, wherein the signal acquisition unit 9 is used for acquiring the electrocardiogram signals of the user through at least two first electrocardiogram electrodes 2 and at least two second electrocardiogram electrodes 6 on the cushion 1, and the processing unit 10 is connected with the signal acquisition unit 9 in a signal mode and used for analyzing the electrocardiogram signals output by the signal acquisition unit 9 to obtain the electrocardiogram health information of the user.

Specifically, the signal collecting unit 9 is configured to collect an initial electrocardiographic signal of the user through at least two first electrocardiographic electrodes 2 and at least two second electrocardiographic electrodes 6. Further, the signal acquisition unit 9 may also perform preprocessing to obtain an effective signal, where the preprocessing includes filtering, signal amplification, and the like; specifically, the signal acquisition unit 9 is a signal acquisition circuit. In another embodiment, the ecg box further includes a processing unit 10, and the processing unit 10 is in signal connection with the signal acquisition unit 9, and is configured to analyze the ecg signal (the initial ecg signal or the pre-processed valid signal) output by the signal acquisition unit 9 to obtain the ecg health information of the user. The detailed analysis of the electrocardiosignals is already the prior art, and the electrocardiosignals can be analyzed by an electrocardiograph used in a hospital. Therefore, it is not described herein in detail. After the ecg box has been operated, data is collected and analyzed for a period of time, for example, at least 5-30 seconds, or the test is performed until the user leaves or actively disconnects the test.

More specifically, the signal acquisition unit 9 is located locally to the toilet; the processing unit 10 may include one or more processors, and is located locally in the toilet or in the cloud or in the mobile terminal of the user, and the signal acquisition unit 9 and the processing unit 10 perform communication or data transmission in a wired or wireless manner. Wherein a toilet locally refers to being located within the toilet, or a location near the toilet, which refers to being located within the same toilet. Such as the processor and other circuitry such as the signal acquisition unit 9, are integrated in a housing which can be mounted as an accessory on the toilet bowl or hung on a toilet wall adjacent the toilet bowl. The specific setting can be set according to specific conditions.

As can be seen from the above description, the electrocardio-cassette can be used for conveniently carrying out electrocardio detection on a user.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (16)

1. A cushion is characterized in that a channel is arranged in the cushion and used for arranging circuits; the cushion is provided with at least two first electrocardio-electrodes which are used for contacting with the lower limbs of a user, and the at least two first electrocardio-electrodes are mutually spaced; still be equipped with first opening and first interface on the cushion, first interface is located in the first opening, at least two first electrocardio electrodes respectively through corresponding first wire with first interface links to each other, first wire is located in the inside passageway of cushion.

2. A seat cushion according to claim 1, wherein at least one first electrocardiographic electrode is movably mounted on the seat cushion.

3. A seat cushion according to claim 2, wherein a slide slot is provided in said seat cushion, the at least one first electrocardio-electrode being slidably fitted within said slide slot.

4. The cushion according to claim 2, wherein the cushion is provided with a plurality of sliding grooves, and each first electrocardio-electrode corresponds to one sliding groove; each first electrocardio-electrode is slidably fitted in its corresponding slide slot.

5. A seat as defined in claim 3, wherein said slot is cross-shaped, linear or arcuate.

6. The cushion according to claim 1, wherein said cushion is provided with at least two second electrocardiographic electrodes for contacting the upper limb of the user, said at least two second electrocardiographic electrodes being spaced apart from each other; the cushion is provided with a first interface, the first electrocardio-electrodes are connected with the first interface through a first lead, the first lead is arranged in a channel inside the cushion, and the second electrocardio-electrodes are connected with the second interface through a second lead.

7. The seat cushion according to claim 6, wherein said first and second interfaces are integrated.

8. The seat cushion of claim 1, wherein said seat cushion has a seat sensor and a third port, said seat sensor connected to said third port by a third wire, said third wire positioned in a channel within said seat cushion; or

The seat cushion is provided with a seat sensor and a third interface, a control circuit is arranged in the seat cushion, the seat sensor is connected with the control circuit through a first part third wire, the control circuit is connected with the third interface through a second part third wire, and the first part third wire and the second part third wire are located in a channel in the seat cushion.

9. A seat cushion according to claim 1, wherein said seat cushion is a seat ring.

10. A seat as defined in claim 9, wherein said seat is provided with a snap-fit arrangement for mounting on a toilet seat in a toilet bowl; or the seat ring is a toilet seat sleeve and is sleeved on the toilet seat; or the seat ring is a toilet seat.

11. A seat cushion according to claim 9, wherein said at least two first electrocardio-electrodes are electrode pads, either attached to or embedded in said seat ring.

12. The seat cushion according to claim 6, wherein the seat cushion is a seat ring, and the at least two second electrocardio-electrodes are electrode pads;

the at least two second electrocardio electrodes are attached to the lower surface of the seat ring or embedded in the lower half part of the seat ring; alternatively, the at least two second electrocardiograph electrodes are attached to or embedded in the race circumferential side portion.

13. A seat cushion according to claim 6, wherein the surface area of the user contacting surface of each first or second electrocardio-electrode is 0.5mm²To 16mm²。

14. An electrocardiogram detection system, which comprises the cushion and the electrocardiogram box of any one of claims 1 to 13, wherein the electrocardiogram box is provided with a fourth interface, and the fourth interface is connected with the first interface on the cushion through a first part of fourth wires.

15. The electrocardiograph detection system according to claim 14, wherein a fourth port on the electrocardiograph cartridge is connected to a second port on the seat cushion via a second portion of fourth wires;

the electrocardiogram box comprises a signal acquisition unit, and the signal acquisition unit is used for acquiring electrocardiogram signals of a user through at least two first electrocardiogram electrodes and at least two second electrocardiogram electrodes on the seat cushion; or

The electrocardiogram box comprises a signal acquisition unit and a processing unit, wherein the signal acquisition unit is used for acquiring electrocardiogram signals of a user through at least two first electrocardiogram electrodes and at least two second electrocardiogram electrodes on the cushion, and the processing unit is in signal connection with the signal acquisition unit and used for analyzing the electrocardiogram signals output by the signal acquisition unit to obtain electrocardiogram health information of the user.

16. The electrocardiographic detection system according to claim 14 wherein a fourth interface on said electrocardiographic cartridge and a third interface on said seat cushion are connected by a third portion of fourth conductors, a seating sensor on said seat cushion being adapted to trigger operation of said electrocardiographic cartridge upon detection of a user being seated.

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