CN214048816U - Multifunctional physique tester - Google Patents

Abstract

The utility model discloses a multifunctional physique tester, which comprises a device body, wherein the device body comprises a supporting seat, and two opposite sides of the supporting seat are respectively and vertically provided with a height measuring rod and a distance measuring rod; an electronic weighing scale is arranged on the supporting seat; the height measuring rod is movably provided with a height measuring pressure plate, and the height measuring pressure plate can move up and down along the height measuring rod to realize the measurement of the height of a tester; the distance measuring rod is movably provided with a hand push plate, and a tester bends down to press the hand push plate to enable the hand push plate to slide downwards along the distance measuring rod so as to realize measurement of forward bending of the vertical body of the tester. The utility model provides a multi-functional physique tester can realize the measurement of a plurality of items such as height, weight, the preceding body of standing to the testing process is convenient, swift, has reduced work load, has improved multi-functional physique tester's practicality.

Description

Multifunctional physique tester

Technical Field

The application relates to the technical field of physique test, in particular to a multifunctional physique tester.

Background

Constitutions are the material basis of human life activities and labor, working ability, etc.

The body anteflexion is a physical health test item of the primary and middle schools, and the test aim of the body anteflexion is to measure the possible activity range of joints such as trunk, waist, hip and the like in a static state and mainly reflect the extensibility and elasticity of joints, ligaments and muscles of the parts and the development level of body flexibility.

At present, in the physical fitness test process, one item of traditional physical fitness detection equipment, facilities or instruments is mainly used for targeted detection, so that multiple detection items are required to be equipped for separate tests of the detection equipment, facilities or instruments, and for students, repeated queuing, shoe taking and the like are required during test participation, so that the test time is greatly prolonged; for schools, two test items mean that more hands and more purchasing devices need to be arranged to meet test requirements, so that more manpower, material resources, financial resources and fields need to be invested, test time is prolonged, and the daily, efficient and convenient use is inconvenient.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough among the prior art, this application provides a multi-functional physique tester, can realize the measurement of a plurality of items such as height, weight, position predecessor to the testing process is convenient, swift, has reduced work load, has improved multi-functional physique tester's practicality.

The utility model discloses a following technical scheme realizes: a multifunctional physique tester comprises a device body, wherein the device body comprises a supporting seat, and two opposite sides of the supporting seat are respectively and vertically provided with a height measuring rod and a distance measuring rod; an electronic weighing scale is arranged on the supporting seat; the height measuring rod is movably provided with a height measuring pressure plate, and the height measuring pressure plate can move up and down along the height measuring rod to realize the measurement of the height of a tester; the distance measuring rod is movably provided with a hand push plate, and a tester bends down to press the hand push plate to enable the hand push plate to slide downwards along the distance measuring rod so as to realize measurement of forward bending of the vertical body of the tester.

According to the multifunctional physique tester provided by the application, the measurement of multiple items such as height, weight, front-driving of the vertical body and the like can be realized, the tester comprises a device body, a supporting seat is arranged on the device body, an electronic weighing meter is arranged on the supporting seat, and the measurement of the weight of a tester can be realized through the electronic weighing meter; the two opposite sides of the supporting seat are respectively and vertically provided with a height measuring rod and a distance measuring rod, wherein a height measuring pressure plate is movably arranged on the height measuring rod and can move up and down along the height measuring rod so as to realize the measurement of the height of the tester; the last activity of range finding pole is provided with the hand push pedal, and the tester stoops down and presses the hand push pedal and can make the hand push pedal slide down along the range finding pole to the measurement of realizing the vertical body anteflexion to the tester. Through the multifunctional physique tester provided by the application, height, weight and standing body forward bending test items can be centralized on one tester to be completed, the test process is more convenient and convenient, the workload is reduced, and the practicability of the multifunctional physique tester is also improved. Meanwhile, the body anteflexion test item is set as the standing type measurement, compared with the traditional sitting body anteflexion test, the procedures of taking off shoes, sitting down and the like can be saved, and the time is saved.

In a possible design, the device body further comprises a first controller, a first distance sensor and a second distance sensor, the first distance sensor is used for measuring the moving distance of the height measuring pressing plate, the second distance sensor is used for measuring the moving distance of the hand pushing plate, and the first distance sensor, the second distance sensor and the electronic weighing meter are respectively electrically connected with the first controller.

The height and body front bending measurement data can be directly or indirectly obtained through the distance sensor.

In this application embodiment, first distance sensor can set up on the top or low end position or the height finding clamp plate of height finding pole, and second distance sensor can set up on the top or bottom position or the hand push pedal of range finding pole, and this application does not do the restriction to distance sensor's setting position, type etc..

Here, the electronic weighing machine includes at least one pressure sensor, the first controller is electrically connected to the first distance sensor, the second distance sensor and the electronic weighing machine, and can control the first distance sensor, the second distance sensor and the electronic weighing machine to start measuring height, body flexion and weight data, respectively.

Alternatively, the first controller may be a Micro Controller Unit (MCU).

In a possible design, the device body further comprises a first driving device for driving the height measurement pressing plate to move up and down, a first pressure sensor is arranged on the bottom surface of the height measurement pressing plate, and the first driving device and the first pressure sensor are respectively electrically connected with the first controller.

In this application, first pressure sensor can be used for the response to come from the pressure of tester's head, and this first pressure sensor can set up on the bottom surface of height finding clamp plate, and the bottom surface of height finding clamp plate contacts with tester's top of the head.

Specifically, the first driving device can be used for realizing automatic downward movement of the height measuring pressure plate, and the automatic resetting of the height measuring pressure can be realized by matching the first driving device with the first pressure sensor.

The first driving device may be disposed on the supporting seat, or may be disposed on the height measuring rod, which is not limited in this application.

In a possible design, the device body further comprises a second driving device for driving the hand push plate to reset, a second pressure sensor is arranged on the outer side face of the hand push plate, and the second driving device and the second pressure sensor are respectively electrically connected with the first controller.

In this application, second pressure sensor can be used for the response to come from the power of tester's both hands, and this second pressure sensor can set up on the lateral surface of hand push pedal, when carrying out the body anteflexion test, and this lateral surface is pressed to tester's both hands.

Through the cooperation of second drive arrangement and second pressure sensor, the automatic re-setting of second drive arrangement can be used for driving hand push pedal.

Optionally, the second driving device may be disposed on the supporting seat, and may also be disposed on the distance measuring rod, which is not limited in this application.

In a possible design, the device body further comprises a first wireless communication module electrically connected with the first controller, the tester further comprises a control host, a second controller, a display screen and a second wireless communication module are arranged in the control host, the display screen and the second wireless communication module are electrically connected with the second controller respectively, and the first wireless communication module is in communication connection with the second wireless communication module.

Optionally, the device body further includes a first wireless communication module electrically connected to the first controller, and the first wireless communication module is electrically connected to the first controller located in the device body, so that a wireless communication function can be realized, and the device body can be wirelessly controlled.

Optionally, the tester further comprises a control host, a second controller, a display screen and a second wireless communication module are arranged in the control host, the display screen and the second wireless communication module are electrically connected with the second controller respectively, and the first wireless communication module is in communication connection with the second wireless communication module.

Here, the control host may be any one of smart electronic devices such as a central control unit, a smart watch, a smart bracelet, a smart phone, and a tablet computer, which is not limited in this application.

The first wireless communication module is in communication connection with the second wireless communication module. Through the wireless communication module, the device body can be in communication connection with the control main body.

Optionally, the first wireless communication module and the second wireless communication module may include one or more of bluetooth, ZigBee, Wi-Fi, UWB (ultra wide band), NFC (near field communication), or infrared communication.

Optionally, the second controller may also be a Micro Control Unit (MCU).

In the present application, the display screen may be used to display the test data, including real-time display of weight, height, standing body forward bending data, etc., and may also be used to display operation indication information, etc.

In a possible design, the control host further comprises a card reader for identifying the identity information of the tester, and the card reader is electrically connected with the second controller.

The card reader shown may be used to identify identity information of the tester. The card reader is electrically connected with the second controller, the card reader reads the identity information of the tester in the card and sends the identity information to the second controller for identity verification, and after the verification is successful, the second controller can control the operation of the related components.

In a possible design, the supporting seat is fixedly provided with a protective guard at one side of the hand push plate.

Specifically, when the standing body forward bending test is carried out, finger tips of two hands can exceed the plane of feet, under the condition, the supporting seat is arranged in the tester, a certain measuring interval can be provided for forward bending measurement, meanwhile, because the gravity center of a tester naturally inclines forwards when the tester bends forwards, due to safety considerations, the protective guard is fixedly arranged on one side of the hand pushing plate, the protective guard can be used for preventing the tester from inclining forwards and falling down from the supporting seat, and therefore safety accidents can be avoided to a greater extent.

In a possible design, the protective guard includes a protective part at the upper end and a supporting part at the bottom end, the supporting part is fixedly connected with the supporting seat, and the protective part is telescopically adjustable relative to the supporting part.

Protection part is relative scalable the regulation of supporting part is through possessing the function that the liftable was adjusted for the flexibility of rail guard is higher, can be used for adapting to the tester of different heights, has strengthened the practicality of this application tester greatly.

In a possible design, a first limit baffle and a second limit baffle are respectively and fixedly arranged on the height measuring rod and positioned on the upper side and the lower side of the height measuring pressure plate, and a third limit baffle is fixedly arranged at the top end of the distance measuring rod.

Specifically, the first limit baffle and the second limit baffle which are positioned on the upper side and the lower side of the height measurement pressure plate on the height measurement rod can respectively correspond to the positions of the highest point and the lowest point on the height measurement rod, and the height measurement pressure plate can slide between the first limit baffle and the second limit baffle, so that the height measurement can be prevented from exceeding the measuring range and the height measurement pressure plate can be prevented from exceeding the measuring area.

The third limit baffle that the fixed setting in top of range finding pole, roll-off range finding pole when can be used for preventing the hand push board from reseing also can make the hand push board keep on the top position of hand push board simultaneously.

In one possible design, a first positioning chute is formed in the height measuring rod, and the height measuring pressure plate is connected with the height measuring rod in a sliding mode through the first positioning chute; the range finding pole is last to have seted up the second and to have fixed a position the spout, the hand push pedal passes through the second fixed a position the spout with range finding pole sliding connection.

This application does not do the injecing to height finding clamp plate, hand push plate how slide in first location spout, second location spout.

Drawings

Fig. 1 is a schematic overall structure diagram of a multifunctional physical fitness tester provided in an embodiment of the present application;

fig. 2 is a block diagram of a circuit structure of the multifunctional physical fitness tester provided in the embodiment of the present application.

Reference numerals: 100. a device body; 10. a supporting seat; 20. a height measuring rod; 21. measuring the height and pressing the plate; 22. a first limit baffle; 23. a second limit baffle; 24. a first positioning chute; 30. a distance measuring pole; 31. a hand push plate; 32. a third limit baffle; 33. a second positioning chute; 40. protecting the fence; 41. a protective part; 42. a support portion; 43. a fastener; 50. a base plate; 200. and a control host.

Detailed Description

The technical solution in the present application will be described below with reference to the accompanying drawings. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments.

In the following, the terms "first", "second", "third", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first," "second," "third," etc. may explicitly or implicitly include one or more of the features. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

It should be noted that the same reference numerals are used to denote the same components or parts in the embodiments of the present application, and for the same parts in the embodiments of the present application, only one of the parts or parts may be given the reference numeral, and it should be understood that the reference numerals are also applicable to the other same parts or parts.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In the description of the present application, it is to be understood that the terms "upper", "lower", "side", "inner", "outer", "top", "bottom", and the like, indicate orientations or positional relationships based on installation, are only used for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

In the description of the present application, it should be noted that the term "and/or" is only one kind of association relationship describing an associated object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone.

The application provides a multifunctional physique tester, which can be widely applied to various fields of physique test, such as schools, families, hospitals and other working units; it can also be widely applied to the body tracking determination, training and monitoring of users in various age groups such as children, teenagers, adults, etc. The utility model provides a multi-functional physique tester can realize the integration physique test of a plurality of projects such as height, weight, the predecessor of position body, and save test time that can be great, the testing process is more convenient, convenient simultaneously, has reduced work load, has improved multi-functional physique tester's practicality.

Fig. 1 is a schematic overall structure diagram of the multifunctional physical fitness tester provided in the embodiment of the present application. Fig. 2 is a block diagram of a circuit structure of the multifunctional physical fitness tester provided in the embodiment of the present application.

As shown in fig. 1, the present application provides a multifunctional physique tester, which comprises a device body 100, wherein the device body 100 comprises a supporting seat 10, and two opposite sides of the supporting seat 10 are respectively and vertically provided with a height measuring rod 20 and a distance measuring rod 30.

Here, the supporting seat 10 may be a convex structure and formed in a step shape, which is convenient for a tester to support the supporting seat 10 up and down, and may also be a rectangular or trapezoidal structure, and the shape of the supporting seat 10 is not limited in the present application.

As shown in fig. 2, in order to facilitate the tester to quickly measure the body weight, an electronic weighing scale is disposed on the support base 10.

Specifically, the electronic scale includes at least one pressure sensor, and a test subject can stand on the electronic scale, and the weight of the test subject can be measured by the pressure sensor located in the electronic scale.

In this application embodiment, the electronic weighing scale can be set up in the dead ahead of height measuring pole 20, can make things convenient for the tester to stand when measuring height weight and decide in a position department only to can improve measurement of efficiency.

In other embodiments, the electronic weighing scale may be disposed at other positions on the supporting seat 10, and the position of the electronic weighing scale is not limited in this application.

As shown in fig. 1, the height measuring rod 20 and the distance measuring rod 30 are respectively disposed perpendicular to the support base 10. Wherein the height measuring rod 20 is movably provided with a height measuring pressure plate 21, and the height measuring pressure plate 21 can move up and down along the height measuring rod 20 to realize the height measurement of the tester; the distance measuring rod 30 is movably provided with a hand push plate 31, and a tester bends down to press the hand push plate 31 so that the hand push plate 31 slides downwards along the distance measuring rod 30 to realize the measurement of the vertical body forward bending of the tester.

Optionally, as shown in fig. 1, in order to better realize that the height measurement pressing plate 21 can move up and down along the height measurement rod 20, a first positioning chute 24 may be formed on the height measurement rod 20, the height measurement pressing plate 21 is slidably disposed in the first positioning chute 24, that is, through the first positioning chute 24, the height measurement pressing plate 21 and the height measurement rod 20 can be slidably connected, so that the height measurement pressing plate 21 can move up and down along the height measurement rod 20, and further the height of the tester can be measured.

Meanwhile, in order to facilitate the bending of the tester and press the hand push plate 31 to enable the hand push plate 31 to slide downwards along the distance measuring rod 30, the second positioning sliding groove 33 can be formed in the distance measuring rod 30, the hand push plate 31 is arranged in the second positioning sliding groove 33 in a sliding mode, namely, the second positioning sliding groove 33 is used for realizing the sliding connection of the hand push plate 31 and the distance measuring rod 30, so that the tester bends and presses the hand push plate 31, the hand push plate 31 can slide downwards along the distance measuring rod 30, and the measurement of the vertical body forward bending of the tester is realized.

Here, the first positioning chute 24 and the second positioning chute 33 may include two parallel chutes or only one independent chute, which is not limited in the present application.

The application does not limit how the height-measuring pressure plate 21 and the hand push plate 31 slide in the first positioning chute 24 and the second positioning chute 33. For example, a slider, a pulley, or the like may be provided on each of the connection surfaces of the height measurement pressure plate 21, the hand push plate 31, and the chute, and the slider, the pulley, or the like may be slidably provided in the chute.

In other embodiments, the peripheries of the height measuring rod 20 and the distance measuring rod 30 can be respectively sleeved with a sleeve ring, the height measuring pressing plate 21 and the hand push plate 31 are respectively and fixedly arranged on the sleeve rings, the height measuring pressing plate 21 can move up and down along the height measuring rod 20 through the movement of the sleeve rings, and the hand push plate 31 can slide up and down along the distance measuring rod 30.

The application does not limit how the height-measuring pressure plate 21 is slidably connected with the height-measuring rod 20, and how the hand push plate 31 is slidably connected with the distance-measuring rod 30.

It should be understood that the height-measuring pressure plate 21 can slide up and down along the first positioning sliding groove 24 in a manual mode or an automatic mode, so that the height measurement can be realized, and the application is not limited thereto.

The automatic mode here may be a motor drive or other component drive, etc., and this is not limited in this application.

In the application, a certain friction force can exist between the height measuring pressing plate 21 and the hand push plate 31 and the sliding groove, and under the action of no external force, the height measuring pressing plate 22 and the hand push plate 32 can be respectively kept at a certain position on the height measuring rod 20 and the distance measuring rod 30 without sliding due to the limited weight of the height measuring pressing plate 21 and the hand push plate 31.

Optionally, in order to increase the stability of the height measuring pressing plate 21 and the hand pushing plate 31, the connection surface between the height measuring pressing plate 21 and the first positioning sliding groove 24 and the connection surface between the hand pushing plate 31 and the second positioning sliding groove 33 may be rough surfaces to increase the friction force therebetween, so as to better prevent the height measuring pressing plate 21 and the hand pushing plate 31 from automatically sliding down due to their own gravity.

Through the multifunctional physique tester provided by the application, the height, the weight, the standing body forward bending test and other items can be completed on one tester in a centralized manner, the test process is more convenient and fast, the workload is reduced, and the practicability of the multifunctional physique tester is improved. Meanwhile, the body anteflexion item is set to be a standing type measurement, and compared with the traditional sitting body anteflexion test, the procedures of taking off shoes, sitting down and the like can be omitted, and the time is saved.

For example, when the multifunctional physical fitness tester is applied to schools, for schools, the multifunctional physical fitness tester can test a plurality of projects simultaneously, and the tests of the projects are not required to be performed separately, and a plurality of hands and a plurality of purchased devices are not required to be arranged to meet the test requirements; meanwhile, the intelligent detection of the multifunctional physique tester can improve the whole physique detection frequency of students in schools, meanwhile, schools can master the physique conditions of the students, and systematic physical energy files are established by taking classes, grades and schools as units to find potential health problems of the students and find potential health problems of the students in time, so that early evaluation and prediction are performed, early prevention is performed, physical training is strengthened, and the like; for students, repeated queuing is not needed when the students take part in the test, shoes are not needed to be taken off when the body anteflexion test is carried out, the self body constitution detection frequency of the students can be improved, individual body energy files are built, and the consciousness of the students in strengthening exercise is enhanced.

Optionally, as shown in fig. 2, the device body 100 further includes a first controller, a first distance sensor, and a second distance sensor.

Wherein the first distance sensor is used for measuring the moving distance of the height-measuring pressure plate 21, and the second distance sensor is used for measuring the moving distance of the hand-pushing plate 31.

In the embodiment of the present application, the first distance sensor may be disposed at the top end or the bottom end of the height measuring rod 20 or on the height measuring pressing plate 21, and the second distance sensor may be disposed at the top end or the bottom end of the distance measuring rod 30 or on the hand pushing plate 31, where the present application does not limit the disposed position, type, and the like of the distance sensors.

The height and body front bending measurement data can be directly or indirectly obtained through the distance sensor.

For example, when height measurement is performed, the first distance sensor is disposed at the top end of the height measuring rod 20, and at this time, the first distance sensor can measure the displacement between the height measuring pressure plate 21 and the top end of the height measuring rod 20, and then the height value of the tester can be indirectly measured according to the total height of the height measuring rod 20.

When the first distance sensor is arranged at the bottom end of the height measuring rod 20, the first distance sensor can measure the displacement between the bottom end of the height measuring rod 20 and the height measuring pressing plate 21, and then the height data of the tester can be directly measured.

For the body forward bending test, when the second distance sensor is disposed on the hand push plate 31, after the tester bends down and presses the hand push plate 31 to make the hand push plate 31 slide downwards along the distance measuring rod 30 to reach the final position, the second distance sensor can measure the displacement between the top end or the bottom end of the distance measuring rod 30 and the hand push plate 31, and then the body forward bending test data can be directly or indirectly obtained.

In addition, the height measuring rod 20 and the distance measuring rod 30 can be respectively provided with a scale; by contrast with the scale, the height data and the body anteflexion data can be visually checked according to the sliding positions of the height measuring pressing plate 21 and the hand pushing plate 31.

The first distance sensor, the second distance sensor and the electronic weighing machine are respectively electrically connected with the first controller.

Here, the first controller may control the first distance sensor, the second distance sensor, and the electronic weighing machine to start measuring height, body flexion, and weight data, respectively.

Alternatively, the first controller may be a Micro Control Unit (MCU).

Optionally, as shown in fig. 2, the device body 100 further includes a first driving device for driving the height measurement pressing plate 21 to move up and down, a first pressure sensor is disposed on a bottom surface of the height measurement pressing plate, and the first driving device and the first pressure sensor are respectively electrically connected to the first controller.

In the present application, a first pressure sensor may be used to sense the force from the head of the tester, and this first pressure sensor may be disposed on the bottom surface of the height measurement pressing plate 21, and the bottom surface of the height measurement pressing plate 21 is in contact with the top of the head of the tester.

The first driving device can be used for realizing automatic downward movement of the height measuring pressure plate 21, and the first driving device is matched with the first pressure sensor for use, so that automatic resetting of the height measuring pressure plate 21 can be realized.

The first driving device may be disposed on the supporting seat 10, or may be disposed on the height measuring rod 20, which is not limited in this application.

Specifically, when a height test is performed, after a tester reaches a designated position, the first controller controls the first driving device to work, the height measurement pressing plate 21 is driven to automatically move downwards, when the height measurement pressing plate 21 is in contact with the head of the tester, the first pressure sensor on the bottom surface of the height measurement pressing plate 21 can generate a force signal, the first pressure sensor transmits the generated force signal to the first controller, the first controller controls the first distance sensor to start to measure the height after receiving the force signal, and after the height measurement is completed, the first controller controls the first driving device to drive the height measurement pressing plate 21 to move upwards for resetting.

Here, the first driving device may be a motor device, a magnetic driving device, or the like, and the present application is not limited thereto.

Optionally, as shown in fig. 2, the device body 100 further includes a second driving device for driving the hand push plate 31 to reset, a second pressure sensor is disposed on an outer side surface of the hand push plate 31, and the second driving device and the second pressure sensor are respectively electrically connected to the first controller.

In the application, the second pressure sensor can be used for sensing the force from the two hands of the tester, and the second pressure sensor can be arranged on the outer side surface of the hand push plate 31, so that when the body anteflexion test is carried out, the two hands of the tester press the outer side surface.

The second driving device can be used for driving the automatic reset of the manual push plate 31 through the matching use of the second driving device and the second pressure sensor.

The second driving device may be disposed on the supporting base 10, or may be disposed on the distance measuring rod 20, which is not limited in this application.

In this embodiment, when the standing body forward bending test is not performed, the hand push plate 31 may be held at the tip of the distance measuring bar 30; when the standing body forward bending test is started, two hands of a tester are horizontally placed on the outer side face of the hand push plate 32, the tester bends down to press the hand push plate 31 to slide downwards along the distance measuring rod 30, the two hands of the tester leave the hand push plate 31 after the hand push plate 31 slides downwards and stops, at this moment, a second pressure sensor arranged on the outer side face of the hand push plate 31 generates a force change signal, the second pressure sensor transmits the force change signal to the first controller, the first controller receives the force change signal and then controls the second distance sensor to measure moving distance data, and after the body forward bending test is finished, the first controller controls the second driving device to drive the hand push plate 32 to slide upwards and reset.

Here, the second driving device may be a motor device, a spring device, or the like, and the present application is not limited thereto.

Alternatively, as shown in fig. 1, the support base 10 is fixedly provided with a guard rail 40 at one side of the hand push plate 31.

When the vertical body forward bending test is carried out, a tester stands on the supporting seat 10, the two legs are erected, the two toes are flush with the table edge of the supporting seat 10, then the upper body is slowly bent forwards, the two arms are fully extended and closed, the two hands press the hand push plate 31 to stretch downwards along the distance measuring rod 30, and the test can be completed when the fingers of the two hands are parallel and stop.

Specifically, when the standing body is bent forward, the fingertips of both hands can exceed the plane of the feet, in this case, the supporting seat 10 provided in the tester of the present application can provide a certain measuring interval for the forward bending measurement, and meanwhile, because the gravity center of the tester naturally bends forward when bending forward, for safety, the protective guard 40 provided fixedly on one side of the hand pushing plate 31 can be used to prevent the tester from bending forward and falling off from the supporting seat 10, so that the occurrence of safety accidents can be avoided to a greater extent.

Alternatively, as shown in fig. 1, the guard rail 40 includes a protection part 41 at an upper end and a support part 42 at a lower end, the support part 42 is fixedly connected with the support base 10, and the protection part 41 is telescopically adjustable with respect to the support part 42. Specifically, guard rail 40 may not be designed to effectively protect relatively tall testers if it is too low due to differences in height between testers, while being designed too high may prevent a tester of lower height from maximizing the performance of a standing precursor test. Therefore, in order to protect the body and not influence the measurement of the body anteflexion, the guard rail can be designed into a liftable form, so that the height of the guard rail can be increased or decreased according to the condition of a tester per se, and the test of the standing body precursor can be better assisted.

As shown in fig. 1, the supporting portion 42 is fixedly connected with the supporting seat 10, and the protecting portion 41 and the supporting portion 42 can be fastened by a fastening member 43.

For example, the fastening member 43 may be a snap, a threaded pipe, a bolt, etc., which is not limited in this application.

Protection part 41 is relative scalable the regulation of supporting part 42 is through possessing the function that the liftable was adjusted for rail guard 40's flexibility is higher, can be used for adapting to the tester of different heights, has strengthened the practicality of this application tester greatly.

Optionally, as shown in fig. 1, a first limit baffle 22 and a second limit baffle 23 are respectively fixedly disposed on the height measuring rod 20 at the upper side and the lower side of the height measuring pressure plate 21, and a third limit baffle 32 is fixedly disposed at the top end of the distance measuring rod 30.

In this embodiment, the first limit baffle 22 and the second limit baffle 23 on the height measuring rod 20, which are located on the upper side and the lower side of the height measuring pressure plate 21, may respectively correspond to the highest point and the lowest point on the height measuring rod 20, and the height measuring pressure plate 21 may slide between the first limit baffle 22 and the second limit baffle 23, which may prevent the height measurement from exceeding the measurement range and the height measuring pressure plate 21 from exceeding the measurement area.

The third limit baffle 32 fixedly arranged at the top end of the distance measuring rod 30 can be used for preventing the hand push plate 31 from sliding out of the distance measuring rod 30 when resetting, and meanwhile, the hand push plate 31 can be kept at the top end of the hand push plate 32.

Optionally, as shown in fig. 1, the device body 100 further includes a bottom plate 50, and the supporting base 10, the height measuring bar 20 and the distance measuring bar 30 are fixedly mounted on the bottom plate 50.

Here, the bottom plate 50 may have a better fixing effect on the device body 100, and may also prevent the height measuring rod 20 and the distance measuring rod 30 from tilting, so as to provide a better protection effect on the height measuring rod 20 and the distance measuring rod 30, and may prolong the service life of the tester.

Optionally, as shown in fig. 2, the device body 100 further includes a first wireless communication module electrically connected to the first controller.

The multifunctional physique tester has intelligent performance, the device body 100 further comprises a first wireless communication module, the first wireless communication module is electrically connected with a first controller located in the device body 100, the wireless communication function can be achieved, and then the device body 100 can be wirelessly controlled.

Optionally, as shown in fig. 2, the tester further includes a control host 200, a second controller, a display screen and a second wireless communication module are disposed in the control host 200, the display screen and the second wireless communication module are electrically connected to the second controller, and the first wireless communication module and the second wireless communication module are in communication connection.

Here, the tester and/or the monitor can start the fitness test process, check the fitness test data, test analysis report, and the like through the control host 200.

In this embodiment, the control host 200 may be any one of intelligent electronic devices such as a central control computer, an intelligent watch, an intelligent bracelet, a smart phone, and a tablet computer, which is not limited in this application.

The first wireless communication module is in communication connection with the second wireless communication module. The device body 100 can establish a communication connection with the control main body 200 through the wireless communication module.

Optionally, the first wireless communication module and the second wireless communication module may include one or more of bluetooth, ZigBee, Wi-Fi, UWB (ultra wide band), NFC (near field communication), or infrared communication.

Optionally, the second controller may also be a Micro Control Unit (MCU).

In this embodiment, the display screen may be used to display the test data, including real-time display of weight, height, and standing body forward bending data, and may also be used to display operation instruction information.

For example, the operation of human-computer interaction may be performed on a display screen. For example, personal information or control instructions and the like are input through the display screen.

Alternatively, the display screen may be a Liquid Crystal Display (LCD) display screen or an organic light-emitting diode (OLED) display screen, which is not limited in this application.

Optionally, as shown in fig. 2, the control host 200 further includes a card reader for identifying the identity information of the tester, and the card reader is electrically connected to the second controller.

Here, the card reader may read an IC card (integrated circuit card), an M1 card (nxp failure 1 card), a CPU card (central processing unit), a Radio Frequency Identification (RFID) card, or the like, and the present application is not limited thereto.

The card reader can be used to identify identity information of a tester. For example, the tester can read information embedded in a card such as an IC card, an M1 card, a CPU card, or an RFID card to identify the tester.

Specifically, the identity information of the tester can be entered through the administrator background. The identity information of the tester may include name, gender, age, one-card number, identification number, etc. For a student, the identity information may also include a school number, a year, a class, etc.

The card reader is electrically connected with the second controller. The card reader reads the identity information of the tester in the card and sends the identity information to the second controller for identity verification, and after the verification is successful, the second controller can control the operation of the associated component.

For example, when the physical fitness test is performed, after the tester passes the identification verification, the second controller may control the display screen to display the name and the gender of the tester or the class and the grade of the student.

It should be understood that the above description is only for the purpose of helping those skilled in the art better understand the embodiments of the present application, and is not intended to limit the scope of the embodiments of the present application. Various equivalent modifications or changes, or combinations of any two or more of the above, may be apparent to those skilled in the art in light of the above examples given. Such modifications, variations, or combinations are also within the scope of the embodiments of the present application.

It should also be understood that the foregoing descriptions of the embodiments of the present application focus on highlighting differences between the various embodiments, and that the same or similar elements that are not mentioned may be referred to one another and, for brevity, are not repeated herein.

It should also be understood that the manner, the case, the category, and the division of the embodiments are only for convenience of description and should not be construed as a particular limitation, and features in various manners, the category, the case, and the embodiments may be combined without contradiction.

It is also to be understood that the terminology and/or the description of the various embodiments herein is consistent and mutually inconsistent if no specific statement or logic conflicts exists, and that the technical features of the various embodiments may be combined to form new embodiments based on their inherent logical relationships.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. The multifunctional physique tester is characterized by comprising a device body (100), wherein the device body (100) comprises a supporting seat (10), and two opposite sides of the supporting seat (10) are respectively and vertically provided with a height measuring rod (20) and a distance measuring rod (30);

an electronic weighing scale is arranged on the supporting seat (10);

the height measuring rod (20) is movably provided with a height measuring pressure plate (21), and the height measuring pressure plate (21) can move up and down along the height measuring rod (20) to measure the height of a tester;

the distance measuring rod (30) is movably provided with a hand push plate (31), and a tester bends down to press the hand push plate (31) to enable the hand push plate (31) to slide downwards along the distance measuring rod (30) so as to measure the forward bending of the vertical body of the tester.

2. The tester according to claim 1, wherein the device body (100) further comprises a first controller, a first distance sensor and a second distance sensor, the first distance sensor is used for measuring the moving distance of the height-measuring pressure plate (21), the second distance sensor is used for measuring the moving distance of the hand-pushing plate (31), and the first distance sensor, the second distance sensor and the electronic weighing machine are respectively electrically connected with the first controller.

3. The tester according to claim 2, wherein the device body (100) further comprises a first driving device for driving the height-measuring pressure plate (21) to move up and down, a first pressure sensor is arranged on the bottom surface of the height-measuring pressure plate, and the first driving device and the first pressure sensor are respectively electrically connected with the first controller.

4. The tester according to claim 2, wherein the device body (100) further comprises a second driving device for driving the hand pushing plate (31) to reset, a second pressure sensor is arranged on an outer side surface of the hand pushing plate (31), and the second driving device and the second pressure sensor are respectively electrically connected with the first controller.

5. The tester according to claim 4, wherein the device body (100) further comprises a first wireless communication module electrically connected with the first controller, the tester further comprises a control host (200), a second controller, a display screen and a second wireless communication module are arranged in the control host (200), the display screen and the second wireless communication module are electrically connected with the second controller respectively, and the first wireless communication module and the second wireless communication module are in communication connection.

6. The tester of claim 5, wherein the control host (200) further comprises a card reader for identifying the identity information of the tester, the card reader being electrically connected to the second controller.

7. The tester according to any one of claims 1 to 6, wherein the support base (10) is fixedly provided with a guard rail (40) at one side of the hand push plate (31).

8. The tester of claim 7, wherein the guard rail (40) comprises a guard portion (41) at an upper end and a support portion (42) at a lower end, the support portion (42) being fixedly connected to the support base (10), the guard portion (41) being telescopically adjustable relative to the support portion (42).

9. The tester according to any one of claims 1 to 6, wherein a first limit baffle (22) and a second limit baffle (23) are respectively and fixedly arranged on the height measuring rod (20) at the upper side and the lower side of the height measuring pressure plate (21), and a third limit baffle (32) is fixedly arranged at the top end of the distance measuring rod (30).

10. The tester according to any one of claims 1 to 6, wherein the height measuring rod (20) is provided with a first positioning sliding groove (24), and the height measuring pressure plate (21) is connected with the height measuring rod (20) in a sliding manner through the first positioning sliding groove (24); the range finding pole (30) is provided with a second positioning sliding groove (33), and the hand pushing plate (31) is connected with the range finding pole (30) in a sliding mode through the second positioning sliding groove (33).

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