KR101907091B1 - An Eye-Hand Coordination Skill Evaluation Device - Google Patents

Abstract

The present invention relates to an eye-hand co-ordination checker, and more particularly, to an eye-hand co-ordination checker for evaluating the ability to combine the visual observation of a common male and female child, The present invention relates to an eye-hand coordination checker which is also configured to be capable of training so as to help develop manipulation ability.
The eye-hand co-ordinator testing device according to the present invention comprises an inspection panel; A panel support frame detachably coupled to an outer periphery of the inspection panel; An obstacle protruding in a labyrinth shape on the surface of the inspection panel; A passage formed between the obstacles; A ball formed to pass through the passage; A tubular container formed to receive the balls therein and allowing the balls to roll and move on the inspection panel, and a wire coupled to the container so as to operate the container vertically and horizontally, Ball manipulator; A wire holder formed at one end of the inspection panel or the panel support frame so that the wire can be mounted thereon; And a start point provided on the inspection panel so that a user can identify a starting point at which the ball starts; And an arrival point on the inspection panel so that the user can identify an end point at which the ball arrives and the inspection is terminated.

Description

An Eye-Hand Coordination Skill Evaluation Device

The present invention relates to an eye-hand co-ordination checker, and more particularly, to an eye-hand co-ordination checker for evaluating the ability to combine the visual observation of a common male and female child, To-eye co-ordinator testing device which is also configured to be able to train and develop coordinated manipulation capabilities.

Coordination refers to the ability to coordinate the movement of muscles, neurons, and organs. In other words, it refers to the physical control ability to move the head, shoulder, mouth, arm, and fingers together with visual exploration. In particular, eye-hand coordination refers to the ability to cooperate with each other by linking the functions of the eye with the functions of the eye in performing hand-operated activities. Eye and hand coordination does not work well in the event of a disability.

In general, when the eye-hand coordination ability is used, the visual information can provide information on the position of the object in the space to provide the shape of the hand for manipulating the object, provide direction information for moving the hand, It is used to control eye-hand coordination and to improve the accuracy of motion.

As such, vision is essential to improve eye-hand coordination abilities in a highly sophisticated and highly accurate manner. Generally, the position information of a target is perceived through vision, and a position sense And the time is used to provide information related to the position, distance, size, and direction of the target from the body.

In order to perform sophisticated and complex activities in daily life activities as well as in performing tasks, eye-hand coordination ability is essential. For this purpose, The purpose of this study is to identify and predict occupational performance such as occupational aptitude, worker characteristics, occupational interest, etc. by using actual tools or tools to perform actual or mock tasks.

To date, various methods have been used at home and abroad to evaluate the ability of eye - hand coordination. For example, it has been widely used to evaluate eye-hand coordination ability, but it has been pointed out that there is a problem in objectivity. Therefore, in future, Respectively.

In order to supplement the above-mentioned method, a copying task test, which is a form in which an adult patient presents a stimulus using a paper and a pencil, is used, or a test subject's eyes are covered and then an object is picked up The velocity of the object, the reaction time after viewing the object, and the total time to the object after viewing the object have been studied.

As a conventional coinfusion testing apparatus, a mark is displayed on a device of a touch-sensitive display in a foreign country, a touch input is received, and a time until the input after the mark is expressed is determined to calculate a score. Technologies have been developed.

However, the above-mentioned inspection method requires a lot of cost in manufacturing the related apparatus or using the inspection method, and also requires a limited experimental environment, making it difficult to apply it universally in clinical practice.

In Korea, in order to evaluate the eye-hand coordination ability, most of them do not use the measurement tool which can evaluate the eye-hand coordination ability, but use the sub-list or upper limb function test tool And is conducting research and measurement on eye - hand coordination ability evaluation.

However, in Korea, the evaluation of eye-hand coordination depends heavily on subjective evaluation tools, and there is a lack of use of specific evaluation indexes. Therefore, a technique such as Korean Patent Registration No. 10-0931275 has been developed in order to supplement this, The main purpose of the technique is to evaluate the occupational ability, so it is difficult to apply it to various people and it is difficult to measure the degree of difficulty and to measure the cooperative ability.

The inventor of the present invention has found that, in measuring the eye-hand coordination of both male and female athletes, it is easy to apply in practical clinical situations because a costly and limited experimental environment is not required as in the conventional foreign technologies, We developed an eye-hand co-ordination evaluation tool that can be applied to various difficulty levels, and developed and completed the present invention in order to secure the reliability of the co-ordination test with reliability and validity of the test.

Korea Patent No. 10-0931275

The eye-hand co-ordinator examiner according to the present invention evaluates the ability to combine the visual observation of the male and female athletes with the motion of the hand and the arm, and can universally utilize the male and female athletes such as children and adults. In addition to measuring coordination, it can be trained to improve the co-ordination of eyes and hands. It can help to develop muscular motor skills and manipulation ability, The main task is to make it easy to distribute to the target.

The eye-hand co-ordinator testing device according to the present invention is characterized in that the eye-hand co- A panel support frame detachably coupled to an outer periphery of the inspection panel; An obstacle protruding in a labyrinth shape on the surface of the inspection panel; A passage formed between the obstacles; A ball formed to pass through the passage; A tubular container formed to receive the balls therein and allowing the balls to roll and move on the inspection panel, and a wire coupled to the container so as to operate the container vertically and horizontally, Ball manipulator; A wire holder formed at one end of the inspection panel or the panel support frame so that the wire can be mounted thereon; And a start point provided on the inspection panel so that a user can identify a starting point at which the ball starts; And an arrival point on the inspection panel so that the user can identify an end point at which the ball arrives and the inspection is terminated.

The support panel may further include a support base coupled to one side of the panel support frame and adapted to adjust the inclination and height of the inspection panel with respect to the ground.

Further, the surface of the obstacle may be formed to include a conductor, and the ball or ball manipulation tool may be formed of a conductive material. The ball or ball manipulation tool may be installed on one side of the inspection panel or the panel support frame, Or a touch counter unit for measuring the number of times the ball manipulation member is touched.

The eye-hand co-ordinator testing device according to the present invention is configured to evaluate the ability of the subject to be examined to cooperate with the visual observation of the examinee and the motion of the hand and arm, but can be used universally regardless of whether the child or the adult , Obstacles and balls can be replaced according to the testee receiving the coaxiality test, and thus the degree of difficulty can be variously adjusted.

In addition, because it is configured to perform various muscular movements during operation, it can be used as a learning or rehabilitation tool to develop exercise skill and manipulation ability as it is training not only to measure cooperativeness but also to improve co- There are advantages.

In addition, since it is constructed in a simple structure and easy to manufacture, it can be easily supplied to a large number of users, and it is easy to use, so that it is not influenced by a user's experience or technology, There are advantages that can be used regardless.

1 is a perspective view of an eye-hand coordination force checker according to an embodiment of the present invention;
2 is an exploded perspective view of an eye-hand coordination force tester according to an embodiment of the present invention.
3 is a view showing a part of the configuration of an eye-hand coordination force checker according to an embodiment of the present invention;
4 is a view showing an example of another shape of an obstacle coupled to an inspection panel of an eye-hand coordination force tester according to an embodiment of the present invention;
5 is a perspective view illustrating a ball manipulation tool of an eye-hand coordination force tester according to an embodiment of the present invention.
6 is a side view showing a part of the configuration of an eye-hand coordination force checker according to an embodiment of the present invention;
7 is a perspective view illustrating an eye-hand coordination force checker according to another embodiment of the present invention.
8 is a block diagram conceptually illustrating a touch counter unit of an eye-hand coordination force tester according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is also to be understood that when an element is referred to as being "comprising" or " comprising " another element in the description of the invention or claim, it is not construed that the term " As will be understood by those skilled in the art.

1 and 2, an eye-hand coordination force tester according to an embodiment of the present invention includes an inspection panel 100; A panel supporting frame 200 for supporting the inspection panel 100; A labyrinthine obstacle 300 protruding from the inspection panel 100; A passage 350 formed between the obstacles 300; A ball 400 configured to pass through passageway 350; A ball manipulation tool 500 configured to manipulate the ball 400 with a container 510 for accommodating the ball 400 and a wire 520 coupled to move the container 520; (700) installed in the inspection panel (100) so as to identify a starting point (600) installed in the inspection panel (100) and an arrival point of the ball (400) so as to identify the starting point of the ball .

Although the inspection panel 100 is formed in a plate shape and in the embodiment of the present invention, it is formed in the shape of a rectangular plate made of synthetic resin such as transparent acrylic, but the material and shape of the inspection panel 100 can be modified.

In addition, the inspection panel 100 may be provided with a background image for inducing the interest of the testee who is tested for co-ordination, in particular, the child testee.

The panel support frame 200 is coupled to an outer periphery of the inspection panel 100 to support the inspection panel 100. In an embodiment of the present invention, the panel support frame 200 is formed of wood or the like, 100 so that the inspection panel 100 can be easily replaced.

3, the panel supporting frame 200 includes a pair of vertical legs and a cross frame connected in a " C " shape so as to surround the outer periphery of the inspection panel 100 And a supporting member (not shown) for supporting the rear surface of the inspection panel 100. The panel supporting frame 200 may include a fixing member 220 rotatably coupled to an end of the vertical support, The shape or configuration may be modified.

As described above, when the panel supporting frame 200 and the inspection panel 100 are detachably coupled, the inspection panel 100 can be easily replaced according to the purpose of inspection, an object to be inspected, and the like, There is an advantage to be able to change.

The obstacle 300 is formed in a labyrinth shape and protruded from the surface of the inspection panel 100. In an embodiment of the present invention, the obstacle 300 includes a ball manipulator 500, The ball 400 can be moved from the starting point 600 to the end point 700 by passing through the obstacle 300 without touching it.

In addition, in the embodiment of the present invention, the obstacle 300 is formed of a straight plate having a thickness of 0.5 cm or more and a height of 1 cm or more, but the thickness and height of the obstacle 300 can be changed according to the difficulty of inspection. The shape of the obstacle may be formed into a different shape such as a circle, a curved line, or the like, or may be modified into a maze in which various shapes are combined, and the number of protruded portions and the like may be changed according to the degree of difficulty.

The passageway 350 is formed between the obstacles 300. In an embodiment of the present invention, the passageway 350 is formed to have a size such that the ball 400 and the ball manipulation tool 500, which will be described later, Depending on the difficulty of the inspection and the shape of the obstacle 300, the passageway 350 can be formed in various sizes.

The ball 400 is manufactured to pass through the passage 350 between the obstacles 300. In an embodiment of the present invention, the ball 400 is formed of a steel ball having a predetermined weight and size, Size, weight, etc. may be deformed. In this case, the ball 400 is formed to have a diameter of 1.5 to 2 cm and the diameter of the ball 400 is decreased as the degree of difficulty of the coercive force test is increased. However, The ball 400 may be deformed according to the shape, arrangement, or the like of the obstacle 300, and the ball 400 having a size and weight suitable for the subject to be tested for co-ordination.

The ball manipulation tool 500 is installed in the inspection panel 100 or the panel support frame 200 so as to be able to move up and down between the passageways 350 by accommodating the balls 400 therein. In other words, in an embodiment of the present invention, the ball manipulation tool 500 may be configured such that a subject to be examined for co-ordination manipulates the ball manipulation tool 500 to move the ball 400 from a starting point 600 to an end point 700, As shown in FIG.

5, in an embodiment of the present invention, the ball manipulation tool 500 is configured to accommodate a ball 400 therein so that the ball 400 can be rolled over the inspection panel 100, And a pair of wires 520 and 520 connected to the container 510 so that the container 510 can be vertically and horizontally manipulated by being made of a synthetic resin or a metal material. And the combined operation handle 530. However, the shape and material of the ball manipulation tool 500 may be deformed.

In this case, if the ball manipulation tool 500 is configured to manipulate the movement of the container 510 through the wire 520 as in the embodiment of the present invention, the subject to be inspected can be manipulated using the ball manipulation tool 500 Since the ball 520 is pushed or pulled to manipulate the movement of the container 510 in various ways when performing an operation for passing the ball 400 between the obstacles 300 without touching the obstacle 300, Compared to screen touch type of coercive force test method, the muscles of both arms are used in various forms. Accordingly, the present invention can be applied not only to the inspection means for measuring the co-ordination of eye-hand but also to the testee as a cooperative learning tool or a rehabilitation tool for enhancing cooperative ability by performing various muscle movements including large muscle and small muscle .

The wire holder 550 is provided at one end of the inspection panel 100 or the panel support frame 200 so that the wires 520 are mounted to prevent the wires 520 of the ball control tool from being detached. The wire holder 550 is formed such that the wire 520 can be inserted therein so that the operation handle 530 of the ball holder can not pass therethrough and the head portion 551 And a support part 552 protruding from the one side of the fixing part 550 to be fixed to the panel supporting frame 200 and supporting the head part 551. The wire fixing part 550 may have a different structure have.

The starting point 600 is a configuration in which the user-preferably a testee undergoing co-ordination testing-is installed in the inspection panel 100 to identify the starting point from which the ball 400 departs and, in one embodiment of the invention, The upper panel 600 is composed of a lower start point 600a provided at a lower portion of the inspection panel 100 and an upper start point 600b provided at an upper portion of the inspection panel 100. However, Display, a protrusion having a touch sensor, or the like.

The end point 700 is used by the test panel 100 to allow the user, preferably a testee undergoing cooperative testing, to identify the end point at which the ball 400 moved by the ball manipulation tool 500 arrives, Respectively. In an embodiment of the present invention, the end point 700 is formed as a hole into which the ball 400 can pass and can be inserted, and includes an upper starting point 700a provided on the upper portion of the inspection panel 100, However, it may be provided only one or more than one according to the purpose of the inspection, or may be formed as an arrow mark, a protrusion with a touch sensor, or the like.

Meanwhile, the eye-hand coordination force tester according to an embodiment of the present invention includes a support table 800 coupled to one side of the panel support frame 200 and configured to adjust the inclination and height of the inspection panel 100 with respect to the ground . By adjusting the height of the support (600) to match the age and physical condition of the examinee who is tested for co-ordination, an examination environment is created so that the testee who is tested for co-ordination does not feel inconvenienced, thereby reducing external variables So that the reliability of the results of the coincidence test can be increased.

Referring to FIG. 6, the inspection panel 100 coupled to the support table 800 via the panel support frame 200 has a predetermined inclination angle and height with respect to the ground by the support table 800, and the inclination angle and height are formed The ball 400 placed on the inspection panel 100 tries to descend in the direction of the paper. The examinee who has been tested for the cooperative force can lift the ball 400 descending toward the ground through the ball control member 500 so that the ball 400 does not touch the obstacle 300, To move from the lower start point 600a to the upper upper end point 700a or to move from the upper upper start point 600b to the lower lower end point 700b. In the process of developing the eye-hand coordination force tester according to an embodiment of the present invention, when the coin-op force test is performed, the ball 400 is moved to the inspection panel 100 The performance in the case of performing the movement from the displayed lower start point 600a to the upper end point 700a is high.

In addition, the support table 800 is provided with a tilt adjusting means 810 using a hinge coupling method or the like or a height adjusting means (not shown) for adjusting the height so that the inclination degree can be adjusted to match the age, When formed in such a structure, it can be folded and stored, which makes it easier to store.

The panel supporting frame 200 is installed on the supporting frame 800 and a separation preventing plate 850 for preventing the other components installed on the inspection panel 100 from being separated when the inspection is performed is provided on the panel supporting frame 200. [ The detachment prevention plate 850 may be formed of an acrylic plate of a transparent material or the like.

7 to 8, the eye-hand coordination force tester according to another embodiment of the present invention is installed at one side of an inspection panel 100 or a panel supporting frame 200 to detect a ball 400 or a ball manipulation 500 And a touch counter unit 900 for measuring the number of times the obstacle 300 touches the obstacle 300.

The touch counter unit 900 may count the number of times the ball 400 or the ball manipulation tool 500 formed of a conductive material touches the obstacle 300 including the conductive material, It can be automatically calculated without visual inspection by an inspector who is formed to detect and change the electrical change due to the contact between the manipulation tool 500 and the obstacle 300 and conduct the cochlearoscopic force test.

The touch counter unit 900 may be connected to the obstacle 300 to supply electricity to the obstacle 300 and may be connected to the connector 910 for receiving the electric signal, And a touch sensor 920 including a touch sensor for sensing an electrical change such as a change in electric charge generated when the manipulation tool 500 touches the touch pad 920. The contact sensing means 920 receives a signal input to the contact sensing means 920, A counter for counting, and a display for displaying a counted number, but other known techniques may also be applied to measure the number of times the ball 400 or the ball control 500 hits the obstacle 300 have.

In this case, the counter may be included in a control unit such as a microprocessor, and the ball 400 may contact the start point 600 or the end point 700 of the inspection panel 100, A start / end detecting means for detecting the passage of the detection signal through the display unit 700, and a timer operated by receiving a signal of the start / end detecting means, so that a signal is outputted to the control unit so that the inspection time is outputted through the display You may. For example, the start / end detection means may include a touch sensor or the like as the contact detection means 920. When the ball 400 touches or passes through the start point 600, And when the ball 400 touches or passes the end point 700, it outputs a termination detection signal to stop the operation of the timer.

When the ball 400 or the ball manipulation tool 500 touches the surface of the obstacle 300, the number of errors is automatically counted by an electrical signal. When the number of times the ball 400 or the ball manipulation tool 500 touches the surface of the obstacle 300 with the naked eye, a measurement error occurs depending on the position where the inspector looks at the cochlearoscopy tester and the reliability of the test result is low It can be prevented.

The operation of the eye-hand coordination force tester according to an embodiment of the present invention will be summarized as follows.

First, a testee who is measured for eye-hand coordination adjusts the distance from the eye-hand co-ordinator to the testee's body condition after sitting on a chair. For example, when a testee sits on a chair, his / her arms are stuck to his / her side, and the elbow angle is adjusted to 45 degrees and the distance is adjusted so that the chair can be positioned at a comfortable distance to hold the operating handle 530 of the ball control member 500 .

At this time, when the ball 400 is in the starting position 600a or 600b, the ball 520, which is a medium for moving the container 510 of the ball manipulation tool 500 accommodated in the ball 400, It is preferable to place it in a state in which it is in an expanded state.

The inspected subject to be inspected moves between the passageways 350 while not touching the obstacle 300 while pushing or pushing the manipulation handle 530 of the left and right (left and right hands) from the start point 600 while moving the ball 400 from side to side To the end point 700.

The inspector examining the cooperative force records the time at which the ball 400 passes the end point 700 at the start point 600 of the test panel 100 with the start signal together with the start signal, The number of times the ball 400 touches the surface of the obstacle 300 while passing through the obstacle 300 is also recorded so that the inspection is completed when the ball 400 passes the end point 700. At this time, if the touch counter unit 900 is included and operated, the number of errors is automatically measured even if the inspector does not measure the number of errors.

When the examination is completed, the testee's cooperative force measurement can be completed based on the preset reference value based on the passing time and the number of errors.

The eye-hand coordination force tester according to the embodiment of the present invention constructed as described above is configured to be able to evaluate the ability to combine the visual observation of the subject to be examined and the motion of the hand and the arm, There is an advantage that it can be universally used irrespective of aged.

In addition, it is possible to easily change the shape of the obstacle 300, the width of the passageway 350, the size of the ball 400, and the like according to the examinee receiving the coaxiality test, and the degree of difficulty can be variously adjusted. It is designed to use both large muscle and small muscle at the same time by moving hands and arms up, down, left, right, front, and back for manipulation to promote user's brain stimulation and cognitive development, This can be used as a tool to develop operational skills.

In addition, since it is constructed in a simple structure and easy to manufacture, it can be easily supplied to a large number of users, and it is easy to use, so that it is not influenced by a user's experience or technology, There are advantages that can be used regardless.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, The present invention is not limited to the embodiments and the accompanying drawings.

100: Inspection panel 200: Panel supporting frame
300: obstacle 350: passage
400: ball 500: ball manipulator
510: vessel 520: wire
530: Operation handle 550: Wire holder
600: Start point 700: End point
800: Support 810: Tilt adjustment means
850: Disengagement prevention plate 900: Touch counter part

Claims (3)

An inspection panel 100;
A panel support frame 200 detachably coupled to an outer periphery of the inspection panel 100;
An obstacle 300 protruding from the surface of the inspection panel 100 in a labyrinth shape;
A passage 350 formed between the obstacles 300;
A ball 400 configured to pass through the passageway 350;
A tubular container 510 accommodating the ball 400 therein and allowing the ball 400 to roll and move on the inspection panel 100; A ball manipulation member 500 formed to be operable by a user with a wire 520 coupled to the container 510;
A wire mount 550 formed at one end of the inspection panel 100 or the panel support frame 200 so that the wire 520 can be mounted thereon; And
A start point 600 provided in the inspection panel 100 so that a user can identify a start point of the ball 400; And
And an arrival point (700) installed on the inspection panel (100) so that the user can identify an end point at which the ball (400) arrives and the inspection is terminated. The method according to claim 1,
Further comprising a support (800) coupled to one side of the panel support frame (200) and configured to adjust the inclination and height of the inspection panel (100) with respect to the ground. 3. The method according to claim 1 or 2,
The surface of the obstacle 300 is formed to include a conductor,
The ball 400 or the ball control 500 is formed of a conductive material,
A touch counter which is provided on one side of the inspection panel 100 or the panel supporting frame 200 and measures the number of times the ball 400 or the ball manipulation tool 500 touches the surface of the obstacle 300 according to the amount of electrical change, (900). ≪ Desc / Clms Page number 24 >

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