CN217586255U - Intelligent wearable product heart rate function testing device - Google Patents

Abstract

The utility model relates to a heart rate function testing device of an intelligent wearable product, which comprises a testing body and a compression structure; the test body is provided with a shading module and an ash card module positioned on one side of the shading module, the test body is provided with a first placing position for placing a product to be tested, the first placing position is positioned right above the shading module, the compression structure is positioned right above the first placing position and can move towards the direction close to or far away from the first placing position, and the test body is used for abutting the product to be tested against the shading module so as to test the brightness of the heart rate function of the product to be tested placed at the first placing position; the second that has the product that is used for placing the awaiting measuring on the test body places the position, and the second is placed the position and is located grey card module directly over, and grey card module is used for placing the product rhythm of the heart function of awaiting measuring that places the position at the second and carries out the light leak test, when producing the line and carrying out the test of the same race, can save half tool and occupation space, has also saved cost of labor and test time to a certain extent, and work efficiency is high.

Description

Intelligent wearable product heart rate function testing device

Technical Field

The utility model relates to a test fixture technical field especially relates to a product rhythm of heart function test device is dressed to intelligence.

Background

Products are dressed to intelligence for example wrist-watch, bracelet etc. all have rhythm of the heart and detect function promptly rhythm of the heart function, and at the in-process of production, need apply special tool to test its rhythm of the heart function for example rhythm of the heart detection sensor, ensure that product rhythm of the heart function is normal is dressed to intelligence.

However, in the prior art, the brightness test and the light leakage test of the heart rate function need to use different jigs respectively, that is, need to put the same intelligent wearable product into two different jigs for testing, and jig cost and labor cost are high, and test time is long, and work efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve above-mentioned technical problem or solve above-mentioned technical problem at least partially, this disclosure provides an intelligence wearing product heart rate function test device.

The utility model provides a heart rate function testing device of an intelligent wearable product, which comprises a testing body and a compression structure arranged on the testing body;

the test body is provided with a shading module and a gray card module, and the gray card module is positioned on one side of the shading module;

the test body is provided with a first placing position for placing a product to be tested and a second placing position located on one side of the first placing position, the first placing position is located right above the shading module, the compressing structure is located right above the first placing position and can move towards the direction close to or far away from the first placing position, the compressing structure is used for abutting the product to be tested on the shading module, and the shading module is used for testing the brightness of the heart rate function of the product to be tested placed on the first placing position;

the second is placed the position and is located directly over the grey card module, grey card module is used for placing the second is placed the product heart rate function that awaits measuring of position and is carried out the light leak test.

Optionally, the test body includes a support plate and a carrier for carrying the product to be tested;

the shading module with the grey card module all sets up in the backup pad, the carrier is located the top of backup pad to have and be used for revealing the shading module with the first hole of dodging of grey card module.

Optionally, the support plate comprises a first sub-support plate and a second sub-support plate located above the first sub-support plate;

the shading module with the ash card module all sets up in the first subbackup pad, the carrier sets up in the second subbackup pad, just it is used for showing to have in the second subbackup pad the shading module with the hole is dodged to the second of ash card module, the second dodge the hole with it is coaxial first dodge the hole.

Optionally, one of the carrier and the second sub-support plate is provided with a slide rail, and the other of the carrier and the second sub-support plate is provided with a slide groove into which the slide rail can extend, so that the carrier can slide between the first placement position and the second placement position relative to the second sub-support plate.

Optionally, a first driving structure is arranged on the test body, and the first driving structure is used for driving the carrier to slide relative to the second sub-supporting plate.

Optionally, a second driving structure is arranged on the test body, and the second driving structure is used for driving the first sub-support plate to move towards a direction close to or far away from the second sub-support plate.

Optionally, the number of the carriers is two, and both the carriers are fixed relative to the second sub-supporting plate;

one of the carriers corresponds to the shading module, and the other carrier corresponds to the ash card module.

Optionally, the carrier includes a connecting plate and a fixing seat disposed on the connecting plate;

the connecting plate is arranged on the supporting plate, the fixing seat is arranged on one surface, far away from the supporting plate, of the connecting plate, and the fixing seat is provided with a containing groove used for containing the product to be detected.

Optionally, the compressing structure comprises a compressing member and a driving member;

the pressing piece is arranged on the test body and located right above the first placement position, and the driving piece is used for driving the pressing piece to move towards the direction close to or far away from the first placement position.

Optionally, one surface of the pressing piece, which is close to the first placement position, is provided with an anti-slip structure.

Compared with the prior art, the technical scheme provided by the embodiment of the disclosure has the following advantages:

the utility model provides a product rhythm of heart function test device is dressed to intelligence is through setting up the test body and be provided with compact structure on the test body, has shading module and grey card module on the test body, and the grey card module is located one side of shading module. The test body is also provided with a first placing position and a second placing position for placing a product to be tested, wherein the first placing position is positioned right above the shading module, the compaction structure is positioned right above the first placing position, the compaction structure can move towards the direction close to or far away from the first placing position, and the product to be tested placed at the first placing position can be abutted against the shading module so as to test the heart rate function of the product to be tested; the second is placed the position and is located grey card module directly over, grey card module is used for placing the product rhythm of the heart function that awaits measuring that the position was placed to the second and carries out the light leak test, like this when using, product rhythm of the heart function testing arrangement is dressed to the intelligence that this disclosure provides, both can dress the rhythm of the heart function of product to the intelligence and carry out the luminance test, can also carry out the light leak test to it, so, when producing line needs test scheme of the same race, half tool and place occupation space can be saved, and simultaneously, cost of labor and test time have also been saved to a certain extent, and the work efficiency is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present disclosure, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is an isometric view of a heart rate function testing device of a smart wearable product according to an embodiment of the disclosure;

fig. 2 is a front view of a heart rate function testing device of the intelligent wearable product according to the embodiment of the disclosure;

fig. 3 is a top view of a heart rate function testing device of an intelligent wearable product according to an embodiment of the disclosure;

FIG. 4 is a schematic view of the structure of FIG. 3 with the compression structure removed;

fig. 5 is an internal structure diagram of the heart rate function testing device of the intelligent wearable product according to the embodiment of the disclosure.

Wherein, 1, testing the body; 11. a support plate; 111. a first sub-supporting plate; 112. a second sub-supporting plate; 1121. a second avoidance hole; 12. a carrier; 121. a connecting plate; 122. a fixed seat; 1221. a first avoidance hole; 1222. a containing groove; 2. a compression structure; 21. a compression member; 22. a drive member; 3. a shading module; 4. a gray card module; 51. a slide rail; 52. a chute; 61. a first drive structure; 62. a second drive configuration.

Detailed Description

In order that the above objects, features and advantages of the present disclosure may be more clearly understood, aspects of the present disclosure will be further described below. It should be noted that the embodiments and features of the embodiments of the present disclosure may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced otherwise than as described herein; it is to be understood that the embodiments disclosed in the specification are only a few embodiments of the present disclosure, and not all embodiments.

Referring to fig. 1 to 5 in show, this embodiment provides a product heart rate function test device is dressed to intelligence (hereinafter referred to as testing arrangement), including test body 1 and the compact structure 2 of setting on test body 1, be provided with shading module 3 and grey card module 4 on the test body 1, grey card module 4 is located one side of shading module 3.

In the present embodiment, the light-shielding module 3 includes light-shielding foam, and the gray card module 4 includes a standard 18% gray card (hereinafter referred to as gray card). The shading bubble is cotton can be used to carry out the light leak test to the rhythm of the heart function of intelligence wearing product, and the grey card can be used to carry out the luminance test to the rhythm of the heart function of intelligence wearing product. Shading bubble is cotton and grey card all sets up on test body 1, and wherein, the grey card is located shading bubble cotton one side, so the testing arrangement that this embodiment provided can carry out light leak test and luminance test to the rhythm of the heart function of same intelligence wearing product, promptly, same intelligence is worn the product and can be carried out light leak test and luminance test in putting into the testing arrangement that this embodiment provided, has saved tool cost and artifical old book, has saved test time simultaneously, has improved efficiency of software testing. Meanwhile, the occupied space of the jig on a production line is saved.

The first position and the second of placing that are used for placing the product that awaits measuring are placed to have on the test body 1 and are placed the position, the second is placed the position and is located the first one side of placing the position, the first position of placing corresponds with the shading module, the second is placed the position and is corresponded with the ash card module, it is specific, the first position of placing is located shading module 3 directly over, compact structure 2 is located the first position of placing directly over, namely, compact structure 2 sets up directly over the first position of placing, the shading bubble is cotton to be set up directly under the first position of placing. The compacting structure 2 can move towards the direction close to or far away from the first placing position and is used for abutting the product to be tested on the shading module 3, so that the shading module 3 can test the heart rate function of the product to be tested placed on the first placing position; the second is placed the position and is located grey card module 4 directly over, and grey card module 4 is used for placing the product heart rate function that awaits measuring of placing the position at the second and carries out the light leak test.

What need explain here is, when wearing product rhythm of the heart function to intelligence and carrying out luminance test and light leak test, the product is worn for electrified detection to intelligence, and the rhythm of the heart sensor of the product is worn to intelligence promptly is electrified operating condition. When placing the intelligence wearing product that awaits measuring in first place the position and the second place the position, the heart rate window of product is dressed to intelligence is towards shading bubble face and grey card respectively.

The heart rate viewing window of the smart wearable product can be, for example, a light-transmitting area of a heart rate sensor.

When carrying out light leakage detection, place the product that awaits measuring at first place the position earlier, then remove compact structure 2 orientation near the first direction of placing the position, the product that awaits measuring supports the top on shading bubble cotton through compact structure 2, at this moment, the heart rate window of heart rate sensor of the product that awaits measuring supports the top on shading bubble cotton, first place the position and shading bubble cotton is sealed to heart rate window complete shading, outside environment light can not enter into the first sealed environment of placing formation between position and the shading bubble cotton promptly.

During utensil check, because the product is dressed to intelligence is electrified to be detected, so the heart rate sensor can outwards give out light through heart rate sight window. Because first place the position and the shading bubble is cotton has sealed the heart rate window of heart rate sensor, so the light of external environment can not enter into the photic zone of heart rate window, promptly, the photic component of heart rate sensor can not accept the reflection light who comes from the external environment, and like this, the photic component of heart rate sensor can only receive the light that comes from between first place the position and the shading bubble is cotton. So, if heart rate sensor's light receiving element detects light, explain that the outside light that sends of heart rate sensor has entered into inside intelligent wearing product again, then judge this intelligence wearing product light leak. If the photic element of heart rate sensor does not detect light, it says that the light that the heart rate sensor outwards sent can't enter into inside the product is dressed to intelligence, then judges that this product is dressed to intelligence is light-tight.

When carrying out luminance detection, place the position at the second with the product that awaits measuring, and the heart rate of the heart rate sensor of the product that awaits measuring looks the window and the ash card has preset distance, for example the size between heart rate looks window and the ash card is 5mm-20mm, and simultaneously, the position is placed to the second and the ash card is sealed heart rate looks the window, and outside environment light can not enter into the sealed environment that forms between position and the ash card is placed to the second promptly.

During utensil check, because the product is dressed to intelligence is electrified to be detected, so the heart rate sensor can outwards give out light through heart rate sight window. Because the heart rate window of heart rate sensor has been sealed with grey card to the second place position, so the light of external environment can not enter into the photic zone of heart rate window, promptly, the photic component of heart rate sensor can not accept the reflection light from the external environment, and like this, the photic component of heart rate sensor can only receive the light from placing between position and the grey card from the second. So, the product is dressed for intelligence to the photorefraction that grey card sent heart rate sensor through heart rate sight window returns, and the product is dressed to intelligence's light sensing element detects the luminance data of light, and whether the luminance of this product is dressed to intelligence is judged qualified according to the luminance data that light sensing element detected light.

The intelligence wearing product rhythm of heart function test device that this embodiment provided is last to be provided with communication interface, for example USB communication mouth, detects the time, can carry out the communication with the industrial computer through communication interface and be connected.

Through the technical scheme, the testing device provided by the embodiment is provided with the light shading module 3 and the ash card module 4 on the testing body 1 by arranging the testing body 1 and arranging the pressing structure 2 on the testing body 1, and the ash card module 4 is positioned on one side of the light shading module 3. The test body 1 is also provided with a first placing position and a second placing position for placing a product to be tested, wherein the first placing position is positioned right above the shading module 3, the compression structure 2 is positioned right above the first placing position, the compression structure 2 can move towards the direction close to or far away from the first placing position, and the product to be tested placed at the first placing position can be abutted against the shading module 3 so as to test the heart rate function of the product to be tested; the second is placed the position and is located grey card module 4 directly over, grey card module 4 is used for placing the second and is placed the product rhythm of the heart function of awaiting measuring of position and carry out the light leak test, like this when using, the testing arrangement that this embodiment provided, both can dress the rhythm of the heart function of product to intelligence and carry out the luminance test, can also carry out the light leak test to it, so, when producing line needs test scheme of the same race, can save half tool and place occupation space, and simultaneously, cost of labor and test time have also been saved to a certain extent, and the work efficiency is improved.

In some embodiments, referring to fig. 1 and 2, the test body 1 includes a supporting plate 11 and a carrier 12 for carrying a product to be tested, the light shielding module 3 and the ash card module 4 are both disposed on the supporting plate 11, the carrier 12 is located above the supporting plate 11, that is, the carrier 12 is located above the light shielding module 3 and the ash card module 4, and meanwhile, the carrier 12 has a first avoiding hole 1221 for exposing the light shielding module 3 and the ash card module 4.

Because the carrier 12 has the first avoiding hole 1221 for exposing the shading module 3 and the ash card module 4, the heart rate window of the product to be tested placed on the carrier 12 can be directly opposite to the shading foam or the ash card, so that the corresponding test can be conveniently carried out.

In some embodiments, referring to fig. 1 and 2, the supporting plate 11 includes a first sub supporting plate 111 and a second sub supporting plate 112 located above the first sub supporting plate 111, the light shielding module 3 and the ash card module 4 are both disposed on the first sub supporting plate 111, the carrier 12 is disposed on the second sub supporting plate 112, and the second sub supporting plate 112 has a second avoiding hole 1121 for exposing the light shielding module 3 and the ash card module 4, and the second avoiding hole 1121 is coaxial with the first avoiding hole 1221.

During specific use, a product to be tested is placed on the carrier 12, the heart rate window of the product to be tested faces the first avoidance hole 1221, and the second avoidance hole 1121 coaxial with the first avoidance hole 1221 is formed in the second sub-support plate 112 bearing the carrier 12, so that the heart rate window of the product to be tested placed on the carrier 12 can be just opposite to the shading foam or the ash card through the first avoidance hole 1221 and the second avoidance hole 1121, that is, the shading module 3 and the ash card module 4 can be exposed through the first avoidance hole 1221 and the second avoidance hole 1121 to be just opposite to the heart rate window of the product to be tested, and accordingly corresponding testing is convenient to conduct.

As an alternative embodiment, the light-shielding foam and the gray card may also be inserted into the second avoiding hole 1121, exposed in the second avoiding hole 1121 or exposed above the second sub-support plate 112, but both are located below the carrier 12.

In some embodiments, referring to fig. 1, 3 and 4, one of the carrier 12 and the second sub-support plate 112 is provided with a slide rail 51, and the other of the carrier 12 and the second sub-support plate 112 is provided with a slide groove 52 into which the slide rail 51 can extend, so that the carrier 12 can slide between a first placement position and a second placement position relative to the second sub-support plate 112.

Exemplarily, the top surface of the second sub-supporting plate 112 is provided with a slide rail 51, and the bottom surface of the carrier 12 is provided with a slide groove 52 into which the slide rail 51 can extend, so that the carrier 12 can slide between the first placing position and the second placing position relative to the second sub-supporting plate 112 through the cooperation of the slide rail 51 and the slide groove 52, and the structure is simple and the use is convenient.

Exemplarily, the bottom surface of the carrier 12 is provided with a slide rail 51, and the top surface of the second sub-support plate 112 is provided with a slide groove 52 into which the slide rail 51 can extend, so that the carrier 12 can slide between the first placing position and the second placing position relative to the second sub-support plate 112 through the cooperation of the slide rail 51 and the slide groove 52, and the structure is simple and the use is convenient.

At this time, only one carrier 12 needs to be arranged on the second supporting plate 11, the carrier 12 can slide between the first placing position and the second placing position, when the carrier 12 is located at the first placing position, brightness test can be performed on a product to be tested, and when the carrier 12 is located at the second placing position, light leakage test can be performed on the product to be tested, so that the product to be tested is placed at the preset position of the carrier 12, the carrier 12 is moved to the first placing position, and brightness test can be performed on the product to be tested; after the brightness test is finished, the carrier 12 is moved to the second preset placing position, light leakage test can be carried out on the carrier, the structure is simple, the use is convenient, the brightness test and the light leakage test are integrated into the testing device provided by the embodiment, the times of taking and placing products by testers in the test can be reduced, the gouges and the test errors caused by taking and placing the products are reduced, the safety is good, and the accuracy and the reliability of the test are improved.

In some embodiments, referring to fig. 5, the first driving structure 61 is disposed on the testing body 1, the first driving structure 61 can be disposed in the testing body 1, and the first driving structure 61 is used to drive the carrier 12 to slide relative to the second sub-supporting plate 112, so that the testing body is attractive and has high space utilization.

The first driving structure 61 may be, for example, an air cylinder.

In other embodiments, the carrier 12 may also be moved manually.

In some embodiments, referring to fig. 5, in order to avoid the light shielding foam and the gray card from interfering the horizontal movement of the carrier 12, a second driving structure 62 is disposed on the test body 1, the second driving structure 62 is located inside the test body 1, the aesthetic property is good, and the space utilization rate is high, the second driving structure 62 is used for driving the first sub-support plate 111 to move towards a direction close to or away from the second sub-support plate 112, that is, the second driving structure 62 is used for driving the first sub-support plate 111 to move up and down along the vertical direction.

In the specific implementation, before the test, the second driving structure 62 drives the first sub-support plate 111 to move downward, so that the shading foam or the gray card is located in the second avoiding hole 1121 or below the second sub-support plate 112, and then the carrier 12 is moved to the preset position, that is, the first placing position or the second placing position, so that the shading foam and the gray card do not interfere with the movement of the carrier 12, and the movement is smooth and convenient. After the carrier 12 moves to the preset position, the second driving structure 62 drives the first sub-supporting plate 111 to move upwards, so that the light shielding foam or the gray card and the first avoidance hole 1221 on the carrier 12 form a sealed environment, and a corresponding test is performed.

In some embodiments, there are two carriers 12, and both the carriers 12 are fixed to the second sub-supporting plate 112, one of the carriers 12 corresponds to the shading module 3, that is, one of the carriers 12 is disposed at the first placement position, and the first avoiding hole 1221 on the carrier 12 and the shading module 3 form a sealed environment for detection; the other carrier 12 corresponds to the ash card module 4, that is, the other carrier 12 is disposed at the second placement position, and the first avoidance hole 1221 on the carrier 12 and the ash card module 4 form a sealed environment for detection.

During testing, when a worker places a product to be tested on the carrier 12 at the first placement position, the heart rate function of the product can be subjected to brightness testing; when the staff will await measuring the product and place on carrier 12 of position department is placed to the second, can carry out the light leak test to its rhythm of the heart function, simple structure, convenient to use.

In some embodiments, referring to fig. 1, 3 and 4, the carrier 12 includes a connecting plate 121 and a fixing seat 122 disposed on the connecting plate 121, the connecting plate 121 is disposed on the supporting plate 11, the fixing seat 122 is disposed on a surface of the connecting plate 121 away from the supporting plate 11 and is fixed opposite to the connecting plate 121, the fixing seat 122 has a receiving slot 1222 for receiving a product to be tested, a notch of the receiving slot 1222 is disposed on a side of the fixing seat 122 away from the connecting plate 121, and a first avoiding hole 1221 is disposed at a bottom of the receiving slot 1222.

When two carriers 12 are disposed on the second sub-support plate 112, the connecting plate 121 of each carrier 12 is fixed to the second sub-support plate 112.

When a carrier 12 is disposed on the second sub-support plate 112, the connecting plate 121 of the carrier 12 is slidably connected to the top surface of the second support plate 11.

In some embodiments, referring to fig. 1, 3 and 5, the pressing structure 2 includes a pressing member 21 and a driving member 22, the pressing member 21 is disposed on the test body 1 and located right above the first placement position, and the driving member 22 is configured to drive the pressing member 21 to move toward or away from the first placement position.

Wherein, the one side that is close to first place the position of compressing tightly 21 the bottom surface that compresses tightly 21 promptly is the same with the shape of the one side that deviates from heart rate viewing window of awaiting measuring product, so, when compressing tightly 21 and awaiting measuring the product contact, can avoid stress concentration's phenomenon to take place to a certain extent, avoids compressing tightly 21 and crushes the product that awaits measuring.

In addition, the driver 22 may be a cylinder or the like.

In addition, the test body 1 includes the apron, and the apron setting is in the top of backup pad 11, and compact structure 2 wears to establish on the apron to compress tightly one side that 21 is located the first position of placing that is close to of apron.

In further exemplary embodiments, the support structure of the test body 1 is arranged on both sides of the support plate 11, and the holding-down structure 2 is arranged directly above the first placement position by means of the support structure.

In some embodiments, the pressing member 21 has an anti-slip structure, such as an anti-slip pad, an anti-slip sheath, on a surface close to the first placement position, so that the pressing member 21 can be further prevented from pressing and damaging the product to be tested when abutting against the product to be tested, and the use safety is improved.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element.

The foregoing are merely exemplary embodiments of the present disclosure, which enable those skilled in the art to understand or practice the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The heart rate function testing device of the intelligent wearable product is characterized by comprising a testing body (1) and a pressing structure (2) arranged on the testing body (1);

the test body (1) is provided with a shading module (3) and a dust card module (4), and the dust card module (4) is positioned on one side of the shading module (3);

the test body (1) is provided with a first placing position for placing a product to be tested and a second placing position located on one side of the first placing position, the first placing position is located right above the shading module (3), the compression structure (2) is located right above the first placing position and can move towards the direction close to or far away from the first placing position, the compression structure is used for abutting the product to be tested against the shading module (3), and therefore the shading module (3) can test the brightness of the heart rate function of the product to be tested placed on the first placing position;

the second is placed the position and is located directly over grey card module (4), grey card module (4) are used for placing the second is placed the product heart rate function that awaits measuring of position and is carried out the light leak test.

2. The heart rate function testing device of the intelligent wearable product according to claim 1, characterized in that the testing body (1) comprises a supporting plate (11) and a carrier (12) for carrying the product to be tested;

shading module (3) with ash card module (4) all set up on backup pad (11), carrier (12) are located the top of backup pad (11) to have and be used for revealing shading module (3) with first dodging hole (1221) of ash card module (4).

3. The heart rate function testing device of the intelligent wearable product of claim 2, wherein the support plate (11) comprises a first sub-support plate (111) and a second sub-support plate (112) located above the first sub-support plate (111);

shading module (3) with grey card module (4) all set up on first subbackup pad (111), carrier (12) set up on second subbackup pad (112), just have on second subbackup pad (112) and be used for revealing shading module (3) with hole (1121) is dodged to the second of grey card module (4), hole (1121) is dodged to the second with first hole (1221) of dodging is coaxial.

4. The heart rate function testing device of the intelligent wearable product according to claim 3, wherein one of the carrier (12) and the second sub-supporting plate (112) is provided with a sliding rail (51), and the other of the carrier (12) and the second sub-supporting plate (112) is provided with a sliding groove (52) into which the sliding rail (51) can extend, so that the carrier (12) can slide between the first placement position and the second placement position relative to the second sub-supporting plate (112).

5. The heart rate function testing device of the intelligent wearable product according to claim 4, wherein a first driving structure (61) is arranged on the testing body (1), and the first driving structure (61) is used for driving the carrier (12) to slide relative to the second sub-supporting plate (112).

6. The heart rate function testing device of the intelligent wearable product according to claim 5, wherein a second driving structure (62) is arranged on the testing body (1), and the second driving structure (62) is used for driving the first sub-supporting plate (111) to move towards a direction close to or away from the second sub-supporting plate (112).

7. The heart rate function testing device of the intelligent wearable product as claimed in claim 3, wherein the number of the carriers (12) is two, and the two carriers (12) are fixed relative to the second sub-supporting plate (112);

one carrier (12) corresponds to the shading module (3), and the other carrier (12) corresponds to the ash card module (4).

8. The heart rate function testing device of the intelligent wearable product according to any one of claims 2 to 7, wherein the carrier (12) comprises a connecting plate (121) and a fixed seat (122) arranged on the connecting plate (121);

the connecting plate (121) is arranged on the supporting plate (11), and the fixing seat (122) is arranged on one surface, far away from the supporting plate (11), of the connecting plate (121) and is provided with a containing groove (1222) used for containing the product to be measured.

9. The heart rate function testing device of the intelligent wearable product according to any one of claims 1 to 7, characterized in that the compression structure (2) comprises a compression piece (21) and a driving piece (22);

the pressing piece (21) is arranged on the test body (1) and located right above the first placement position, and the driving piece (22) is used for driving the pressing piece (21) to move towards the direction close to or far away from the first placement position.

10. The heart rate function testing device of the intelligent wearable product as claimed in claim 9, wherein one side of the pressing piece (21) close to the first placement position is provided with an anti-slip structure.

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