CN216446116U - Toilet bowl - Google Patents

Abstract

The utility model relates to the technical field of intelligent toilets, and discloses a toilet, which is used for solving the problem that the health condition of the heart cannot be monitored when people use the toilet in the prior art. This closestool includes closestool body, toilet seat circle, first electrocardio acquisition sensor, second electrocardio acquisition sensor, third electrocardio acquisition sensor, processing module, transmission module, wherein: the first electrocardio acquisition sensor is arranged on the closestool body or the closestool seat ring, the second electrocardio acquisition sensor is arranged on the closestool body or the closestool seat ring, and the third electrocardio acquisition sensor is arranged on the closestool seat ring; when a human body sits on the toilet seat, the first electrocardio acquisition sensor is configured to be in contact with the left upper limb of the human body and acquire electrocardiosignals of the human body; the second electrocardio acquisition sensor is configured to be in contact with the right upper limb of the human body and acquire electrocardiosignals of the human body; the third electrocardio-acquisition sensor is configured to be in contact with the left lower limb of the human body and acquire electrocardiosignals of the human body.

Description

Toilet bowl

Technical Field

The utility model relates to the technical field of smart homes, in particular to a closestool.

Background

The closestool is as the bathroom accessory that people are essential in the life, and traditional closestool only has like the lavatory function, and along with the development of science and technology, people's living standard has also shown to improve, and the single function of closestool has been can't satisfy people's needs that improve the life quality.

With the continuous improvement of health consciousness of people, more and more toilets start to support a health monitoring function, and aim to find early symptoms of diseases through monitoring of body indexes, so that people are reminded to pay attention to body health. The heart is one of the most important organs of the human body, the main function is to provide power for blood flow and convey blood to each part of the body, and the existing closestool cannot monitor the health condition of the heart during use, so that the existing health problems are easily ignored.

SUMMERY OF THE UTILITY MODEL

The utility model provides a closestool, which is used for solving the problem that the health condition of the heart cannot be monitored when people use the closestool in the prior art.

The embodiment of the utility model provides a closestool which comprises a closestool body, a closestool seat ring, a first electrocardio acquisition sensor, a second electrocardio acquisition sensor, a third electrocardio acquisition sensor, a processing module and a transmission module, wherein the first electrocardio acquisition sensor is connected with the second electrocardio acquisition sensor;

the first electrocardio acquisition sensor is arranged on the closestool body or the closestool seat ring, the second electrocardio acquisition sensor is arranged on the closestool body or the closestool seat ring, and the third electrocardio acquisition sensor is arranged on the closestool seat ring;

when a human body sits on the toilet seat, the first electrocardio-acquisition sensor is configured to be in contact with the left upper limb of the human body and acquire electrocardio signals of the human body; the second electrocardio-acquisition sensor is configured to be in contact with the right upper limb of the human body and acquire electrocardiosignals of the human body; the third electrocardio-acquisition sensor is configured to be in contact with the left lower limb of the human body and acquire electrocardiosignals of the human body;

the processing module is configured to process the electrocardiosignals acquired by the first electrocardio acquisition sensor, the second electrocardio acquisition sensor and the third electrocardio acquisition sensor and send the processed electrocardiosignals to the transmission module;

the transmission module is configured to transmit the processed electrocardiosignal to a server or a terminal device.

In the above embodiment, when a human body sits on the toilet seat, the left upper limb of the human body is in contact with the first electrocardiographic acquisition sensor, the right upper limb of the human body is in contact with the second electrocardiographic acquisition sensor, and the left lower limb of the human body is in contact with the third electrocardiographic acquisition sensor, so that the electrical activity of the heart can be monitored, a more standard electrocardiographic waveform is output, and the toilet seat has a higher reference value; in addition, when the human body sits on the toilet seat, the left upper limb and the right upper limb move freely and can be in contact with the toilet seat and the toilet body, therefore, the first electrocardio acquisition sensor and the second electrocardio acquisition sensor can be arranged on the surface of the toilet seat or the surface of the toilet body, and the thigh and the hip of the left lower limb are in contact with the toilet seat, therefore, the third electrocardio acquisition sensor can be arranged on the surface of the toilet seat, namely, the three electrocardio acquisition sensors can be integrated in the existing structure of the toilet, the occupied space of the toilet cannot be additionally increased, in addition, the basic posture of the body of people keeping when the toilet is used is met, the electrocardio detection can be very conveniently carried out in the process of using the toilet, and the self health condition can be known.

Optionally, the toilet seat comprises a top surface, a bottom surface and a side surface, the first and second electrocardiographic acquisition sensors being provided on the side surface and the third electrocardiographic acquisition sensor being provided on the top surface.

In the above optional embodiment, the first electrocardiographic acquisition sensor and the second electrocardiographic acquisition sensor are arranged on the side surface of the toilet seat, so that the hand or the arm of the human body can be conveniently contacted with the acquisition end of the electrocardiographic acquisition sensor.

Optionally, the toilet further includes a cover plate, the cover plate has a rim portion bent toward one side of the toilet seat, and when the cover plate covers the toilet seat, the first electrocardiograph acquisition sensor and the second electrocardiograph acquisition sensor are located inside the rim portion.

In the above alternative embodiment, when the cover plate is covered on the toilet seat, the edge of the cover plate may protect the first electrocardiographic sensor and the second electrocardiographic sensor.

Optionally, the first electrocardiographic acquisition sensor and the second electrocardiographic acquisition sensor are arranged at two symmetrical positions of the toilet seat.

Optionally, the surface of the toilet body is provided with a first avoidance hole and a second avoidance hole, the first electrocardio acquisition sensor is arranged in the first avoidance hole, and the second electrocardio acquisition sensor is arranged in the second avoidance hole.

Optionally, the first electrocardiograph acquisition sensor and the second electrocardiograph acquisition sensor are arranged at two symmetrical positions of the toilet body.

Optionally, the toilet seat includes a first housing and a second housing, and a sealed cavity is formed between the first housing and the second housing.

In the optional embodiment, the wire harness connected with the electrocardio acquisition sensor can be arranged in the sealing cavity, so that the wire harness can be prevented from being affected with damp or being polluted by splashed excrement in the flushing process.

Optionally, the first housing and the second housing are detachably connected.

In the above alternative embodiment, the first housing and the second housing may be connected by a snap or a screw, so that when the wiring harness or other components hidden inside fail, the maintenance may be performed.

Optionally, the toilet further comprises an electrocardio sensor, and the electrocardio sensor is arranged on the toilet seat;

the electrocardiograph sensor is configured to be in contact with a right lower limb of a human body when the human body is seated on the toilet seat.

In the above optional embodiment, the electrocardiograph sensor has an effect of suppressing common-mode interference, so that noise can be reduced, and the quality of the acquired electrocardiograph signal can be improved.

Drawings

FIG. 1 is a schematic structural diagram of a toilet according to an embodiment of the present invention;

FIG. 2 is a right side schematic view of the toilet shown in FIG. 1;

FIG. 3 is a left side schematic view of the toilet shown in FIG. 1;

FIG. 4 is a reference view of the toilet shown in FIG. 1 in use;

FIG. 5 is a schematic view of another toilet according to an embodiment of the present invention;

FIG. 6 is a right side schematic view of the toilet shown in FIG. 5;

FIG. 7 is a left side schematic view of the toilet shown in FIG. 5;

fig. 8 is an exploded view of a toilet seat according to an embodiment of the present invention.

Reference numerals:

10-a toilet body;

20-toilet seat; 201-top surface; 202-side surface; 21-a first housing; 22-a second housing;

30-a cover plate; 301-edge portion; 40-a first electrocardiographic acquisition sensor; 50-a second electrocardiographic acquisition sensor; 60-a third electrocardiographic acquisition sensor; 70-electrocardio sensor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model provides a closestool, which is used for solving the problem that the health condition of the heart cannot be monitored when people use the closestool in the prior art.

Referring to fig. 1 to 3 and 5 to 7 together, the toilet includes a toilet body 10, a toilet seat 20, a first electrocardiographic sensor 40, a second electrocardiographic sensor 50, a third electrocardiographic sensor 60, a processing module, and a transmission module, wherein:

the first electrocardio acquisition sensor 40 is arranged on the closestool body 10 or the closestool seat ring 20, the second electrocardio acquisition sensor 50 is arranged on the closestool body 10 or the closestool seat ring 20, and the third electrocardio acquisition sensor 60 is arranged on the closestool seat ring 20;

when a human body sits on the toilet seat 20, the first electrocardiographic acquisition sensor 40 is configured to contact the left upper limb of the human body and acquire electrocardiographic signals of the human body; the second electrocardiographic acquisition sensor 50 is configured to be in contact with the right upper limb of the human body and acquire electrocardiographic signals of the human body; the third electrocardiographic acquisition sensor 60 is configured to contact the left lower limb of the human body and acquire electrocardiographic signals of the human body;

the processing module is configured to process the electrocardiosignals acquired by the first electrocardio acquisition sensor 40, the second electrocardio acquisition sensor 50 and the third electrocardio acquisition sensor 60 and send the processed electrocardiosignals to the transmission module;

the transmission module is configured to transmit the processed electrocardiosignals to a server or a terminal device.

Specifically, the first electrocardiograph acquiring sensor 40 may be provided in a region of the toilet bowl surface which can be brought into contact with the left upper limb of the human body, the second electrocardiograph acquiring sensor 50 may be provided in a region of the toilet bowl surface which can be brought into contact with the right upper limb of the human body, and the third electrocardiograph acquiring sensor 60 may be provided in a region of the toilet bowl surface which can be brought into contact with the left lower limb of the human body, so that, when the toilet bowl is used, the left upper limb of the user can be brought into contact with the first electrocardiograph acquiring sensor 40, the user can specifically touch the surface of the first electrocardiograph acquiring sensor 40 with the left hand or the arm region near the left hand, the right upper limb of the user can be brought into contact with the second electrocardiograph acquiring sensor 50, the user can specifically touch the surface of the second electrocardiograph acquiring sensor 50 with the right hand or the arm region near the right hand, and, at the same time, since the user sits on the toilet seat 20, the third electrocardiograph acquiring sensor 60 is specifically provided on the surface of the toilet seat 20, therefore, the left thigh or hip area of the user can be contacted with the third ecg sensor 60, so that the left upper limb, the right upper limb and the left lower limb of the user can be conveniently contacted with the corresponding ecg sensor during the use of the toilet, thereby monitoring the electrical activity of the heart.

Further, in the use of closestool, human left upper limbs and right upper limbs can keep in the both sides of health to be in straightening state or crooked state, at this moment, left upper limbs and right upper limbs can contact with closestool body 10, also can contact with toilet seat 20, and during specific setting, first electrocardio acquisition sensor 40 can locate closestool body 10 surface or toilet seat 20 surface, and second electrocardio acquisition sensor 50 can locate closestool body 10 or toilet seat 20 surface.

In this closestool, through with first electrocardio acquisition sensor 40, second electrocardio acquisition sensor 50, the current structure of third electrocardio acquisition sensor 60 integrated to the closestool, thereby can not lead to the shared space increase of closestool, and, first electrocardio acquisition sensor 40, second electrocardio acquisition sensor 50, the basic posture that people's health kept when using the closestool is accorded with to the position that sets up of third electrocardio acquisition sensor 60, the electrical activity of heart can very conveniently be monitored at the in-process that uses the closestool, thereby know self health status.

In addition, because the first electrocardiographic acquisition sensor 40, the second electrocardiographic acquisition sensor 50 and the third electrocardiographic acquisition sensor 60 monitor the electrical activity of the heart at the left upper limb, the right upper limb and the left lower limb of the human body respectively, 6 leads (lead I, lead II, lead III, lead AVR, lead AVL and lead AVF) can be formed, more standard electrocardiographic waveforms can be output after the processing module, the reference value is higher, the transmission module can transmit the electrocardiographic waveforms output by the processing module to a server for storage, or transmit the electrocardiographic waveforms to terminal equipment such as a mobile phone and a computer for a user to check.

In order to provide a more clear understanding of the toilet provided by the embodiments of the present invention, the structure of the toilet will now be described in detail.

For the first and second ecg sensors 40, 50, the first and/or second ecg sensors 40, 50 may be disposed on the toilet seat 20, for example, as shown in fig. 1, 2, 3, the toilet seat 20 includes a top surface 201, a bottom surface (not shown), and a side surface 202, the first and second ecg sensors 40, 50 are disposed on the side surface 202 of the toilet seat 20, and the third ecg sensor 60 is disposed on the top surface 201 of the toilet seat 20.

If the toilet seat 10 is taken as a reference, the top surface 201 of the toilet seat 20 is a surface away from the toilet seat 10, the bottom surface is a surface facing the toilet seat 10, and the side surface 202 is an outermost ring of the toilet seat 20 and is a surface formed in the thickness direction, as shown in fig. 4, when a human body sits on the toilet seat 20, the hand or the arm of the human body can be very conveniently contacted with the side surface 202 of the toilet seat 20 at both sides of the body, and therefore, the first and second ecg sensors 40 and 50 can be arranged on the side surface 202 of the toilet seat 20, so that the hand or the arm of the user can easily touch the collecting ends of the first and second ecg sensors 40 and 50 when using the toilet.

The first electrocardiograph acquisition sensor 40 and the second electrocardiograph acquisition sensor 50 can slightly protrude out of the surface of the toilet seat 20 or slightly recess in the surface of the toilet seat 20, so that when a human body tries to contact with the electrocardiograph acquisition sensors, the electrocardiograph acquisition sensors can be obviously distinguished from the toilet seat 20, and therefore the electrocardiograph acquisition sensors are effectively contacted with the acquisition ends of the electrocardiograph acquisition sensors, and the reliability of data is guaranteed.

On the basis that the toilet seat 20 comprises a top surface 201, a bottom surface and a side surface 202, the third electrocardiographic acquisition sensor 60 is arranged on the top surface 201 of the toilet seat 20 and is specifically positioned in a region, which is in contact with the thigh of the left lower limb or the hip of the human body, of the top surface 201, so that when the human body sits on the toilet seat 20, the thigh of the left lower limb or the hip of the human body can be in contact with the acquisition end of the third electrocardiographic acquisition sensor 60, and the electrocardiographic signals of the user can be acquired by the third electrocardiographic acquisition sensor 60.

In addition, when all setting up first electrocardio acquisition sensor 40, second electrocardio acquisition sensor 50, third electrocardio acquisition sensor 60 at toilet seat 20, toilet seat 20's integrated level is higher, at this moment, need not to carry out structural improvement with the adaptation electrocardio acquisition sensor to toilet body 10 to, the installation of these three electrocardio acquisition sensors all can go on in toilet seat 20's production process, and production efficiency is higher.

The toilet further includes a cover 30, in addition to the toilet body 10 and the toilet seat 20, on the basis that the first electrocardiographic sensor 40 and the second electrocardiographic sensor 50 are both disposed on the side surface 202 of the toilet seat 20, the structure of the cover 30 may be adaptively improved, so that when the cover 30 is covered on the toilet seat 20, the cover 30 may cover the first electrocardiographic sensor 40 and the second electrocardiographic sensor 50, as shown in fig. 1, for example, the cover 30 has a rim 301 bent toward one side of the toilet seat 20, when the cover 30 is covered on the toilet seat 20, the first electrocardiographic sensor 40 and the second electrocardiographic sensor 50 are located inside the rim 301, and the rim 301 may prevent the first electrocardiographic sensor 40 and the second electrocardiographic sensor 50 from being damaged by collision of foreign objects and damaging the first electrocardiographic sensor 40 and the second electrocardiographic sensor 50, The second electrocardiograph acquisition sensor 50 plays a role in protection, and service lives of the two are prolonged.

Further, the edge 301 has a certain gap with the edge of the toilet seat 20, so that the cover 30 does not scratch the first and second ecg sensors 40 and 50 when being lifted or closed.

It will be appreciated that since the third ecg sensor 60 is provided on the top surface 201 of the toilet seat 20, the cover 30 can also cover the third ecg sensor 60 when the cover 30 is fitted over the toilet seat 20.

Specifically, as shown in fig. 2 and 3, the first electrocardiographic sensor 40 and the second electrocardiographic sensor 50 are disposed at two symmetrical positions of the toilet seat 20.

The toilet seat 20 has a symmetrical structure, has the same symmetrical characteristics as a human body, and is bilaterally symmetrical, and the first electrocardio acquisition sensor 40 and the second electrocardio acquisition sensor 50 are arranged at two symmetrical positions of the toilet seat 20, so that when the human body sits on the toilet seat 20, the left upper limb and the right upper limb can contact with the two electrocardio acquisition sensors in the same posture, and the human body can be kept in a natural and relaxed state in the detection process.

The first electrocardiograph collection sensor 40 and/or the second electrocardiograph collection sensor 50 may also be disposed in the toilet body 10, for example, as shown in fig. 5, 6, and 7, a first avoiding hole and a second avoiding hole are disposed on the surface of the toilet body 10, the first electrocardiograph collection sensor 40 is disposed in the first avoiding hole, and the second electrocardiograph collection sensor 50 is disposed in the second avoiding hole.

The first avoidance hole and the second avoidance hole can respectively accommodate the first electrocardiograph acquisition sensor 40 and the second electrocardiograph acquisition sensor 50, and can also play a role in positioning. The first electrocardiograph acquisition sensor 40 and the second electrocardiograph acquisition sensor 50 can slightly protrude out of the surface of the toilet body 10 or slightly recess in the surface of the toilet body 10, so that when a human body tries to contact with the electrocardiograph acquisition sensors, the electrocardiograph acquisition sensors can be obviously distinguished from the toilet body 10, and therefore the electrocardiograph acquisition sensors can effectively contact with the acquisition ends of the electrocardiograph acquisition sensors, and reliability of data is guaranteed.

When the first electrocardiograph acquisition sensor 40 and the second electrocardiograph acquisition sensor 50 are arranged on the toilet body 10, the wiring harnesses connected with the first electrocardiograph acquisition sensor 40 and the second electrocardiograph acquisition sensor can be hidden in the cavity inside the toilet body 10, one end of the wiring harnesses is connected with the electrocardiograph acquisition sensor through the avoiding hole, and the other end of the wiring harnesses is connected with the processing module.

The toilet body 10 is also of a symmetrical structure, has the same symmetrical characteristics as a human body, and is bilaterally symmetrical, and when the toilet is specifically arranged, as shown in fig. 6 and 7, the first electrocardiograph acquisition sensor 40 and the second electrocardiograph acquisition sensor 50 are arranged at two symmetrical positions of the toilet body 10, so that when the human body sits on the toilet seat 20, the left upper limb and the right upper limb can be in contact with the two electrocardiograph acquisition sensors in the same posture, and the human body can be kept in a natural and relaxed state.

For the toilet seat 20, the third ecg sensor 60 is disposed on the toilet seat 20, and the first ecg sensor 40 and the second ecg sensor 50 can also be disposed on the toilet seat 20, for example, as shown in fig. 8, the toilet seat 20 includes a first housing 21 and a second housing 22, and a sealed cavity is formed between the first housing 21 and the second housing 22.

The third ecg collection sensor 60 or any one of the ecg collection sensors can be embedded in the surface of the first housing 21, and the wire harness or other components connected to the corresponding ecg collection sensor can be disposed in the sealed cavity, thereby preventing the components from being contaminated by moisture or spilled excreta during the flushing process.

As an example, the first housing 21 and the second housing 22 are detachably connected. The first housing 21 and the second housing 22 may be connected by a snap or a screw, so that maintenance may be performed when a wire harness or other components hidden inside fail.

On the closestool, the first electrocardio acquisition sensor 40, the second electrocardio acquisition sensor 50 and the third electrocardio acquisition sensor 60 are arranged, so that the electrical activity of the heart can be monitored on the left upper limb, the right upper limb and the left lower limb of a human body, and 6 leads (lead I, lead II, lead III, lead AVR, lead AVL and lead AVF) are formed, so that more standard electrocardio waveforms are output, and the closestool has higher reference value; the electrocardiograph sensor 70 is configured to be in contact with the right lower limb of the human body when the human body is seated on the toilet seat 20.

On the basis that the toilet seat 20 comprises a top surface 201, a bottom surface and a side surface 202, the electrocardiograph sensor 70 is arranged on the top surface 201 of the toilet seat 20, and is specifically positioned in a region on the top surface 201, which is in contact with the thigh or the hip of the right lower limb of the human body, so that when the human body sits on the toilet seat 20, the thigh or the hip of the right lower limb of the human body can be in contact with the electrocardiograph sensor 70, as shown in fig. 1 and 5, the electrocardiograph sensor 70 and the third electrocardiograph collecting sensor 60 are respectively arranged at two symmetrical positions of the toilet seat 20.

In the using process, the first electrocardiograph acquisition sensor 40 to the third electrocardiograph acquisition sensor 60 can simultaneously acquire electrocardiograph signals of a human body, and the electrocardiograph sensor 70 has the function of inhibiting common-mode interference, so that noise can be reduced, and the quality of the acquired electrocardiograph signals can be improved.

As can be seen from the above description, in the toilet provided by the embodiment of the present invention, by utilizing the existing structure of the toilet, three electrocardiographic acquisition sensors are integrated on the toilet, and the electrical activity of the heart is monitored on the left upper limb, the right upper limb, and the left lower limb of the human body, so that 6 leads can be formed, and a more standard electrocardiographic waveform can be output, which has a greater reference value; meanwhile, the occupied space of the whole closestool is not increased, and the arrangement positions of the three electrocardio acquisition sensors also accord with the basic posture kept by the body of people when the closestool is used, so that the electrocardio detection can be conveniently carried out in the process of using the closestool, and the health condition of the people can be known.

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

Claims (9)

1. A closestool is characterized by comprising a closestool body, a closestool seat ring, a first electrocardio acquisition sensor, a second electrocardio acquisition sensor, a third electrocardio acquisition sensor, a processing module and a transmission module;

the first electrocardio acquisition sensor is arranged on the closestool body or the closestool seat ring, the second electrocardio acquisition sensor is arranged on the closestool body or the closestool seat ring, and the third electrocardio acquisition sensor is arranged on the closestool seat ring;

when a human body sits on the toilet seat, the first electrocardio-acquisition sensor is configured to be in contact with the left upper limb of the human body and acquire electrocardio signals of the human body; the second electrocardio-acquisition sensor is configured to be in contact with the right upper limb of the human body and acquire electrocardiosignals of the human body; the third electrocardio-acquisition sensor is configured to be in contact with the left lower limb of the human body and acquire electrocardiosignals of the human body;

the processing module is configured to process the electrocardiosignals acquired by the first electrocardio acquisition sensor, the second electrocardio acquisition sensor and the third electrocardio acquisition sensor and send the processed electrocardiosignals to the transmission module;

the transmission module is configured to transmit the processed electrocardiosignal to a server or a terminal device.

2. The toilet of claim 1, wherein the toilet seat comprises a top surface, a bottom surface, and a side surface, the first ECG sensor, the second ECG sensor being located on the side surface, and the third ECG sensor being located on the top surface.

3. The toilet of claim 2, further comprising a cover having a rim folded toward a side of the toilet seat, wherein the first and second ecg sensors are located inside the rim when the cover is closed on the toilet seat.

4. The toilet of claim 2, wherein the first ECG sensor and the second ECG sensor are located at two symmetrical positions of the toilet seat.

5. The toilet bowl according to claim 1, wherein a first avoidance hole and a second avoidance hole are formed in the surface of the toilet bowl body, the first electrocardiograph collection sensor is arranged in the first avoidance hole, and the second electrocardiograph collection sensor is arranged in the second avoidance hole.

6. The toilet of claim 5, wherein the first ECG collection sensor and the second ECG collection sensor are disposed at two symmetrical positions of the toilet body.

7. A toilet according to any of claims 1 to 6, wherein the toilet seat comprises a first housing and a second housing, the first housing and the second housing forming a sealed chamber therebetween.

8. The toilet of claim 7, wherein the first housing and the second housing are removably connected.

9. The toilet according to any one of claims 1 to 6, wherein the toilet further comprises an electrocardiograph sensor, the electrocardiograph sensor being provided on the toilet seat;

the electrocardiograph sensor is configured to be in contact with a right lower limb of a human body when the human body is seated on the toilet seat.

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