CN212395757U - Space orientation cognition and motion training device - Google Patents

Abstract

A spatial orientation cognition and motion training device comprises a table top sand table and a holding handle; the desktop sand table is an interface interactive tool and is arranged in a checkerboard mode in a grid mode; the holding handle is used for a user to carry out space orientation training on a table top sand table and is also used as a hand strength interaction tool; the table top sand table and the holding handle are used together to provide visual and tactile interactive feedback for the patient; the bottom layer is sewn by flexible fabric, and the flexible blanket shape is convenient to carry and use. Grip handle does the utility model relates to an interactive component grips through the patient to carry out interactive training.

Description

Space orientation cognition and motion training device

Technical Field

The utility model relates to the technical field of medical equipment, concretely relates to comprehensive training device of cognition and upper limbs motion

Background

In the current rehabilitation market, upper limb training mainly adopts two types of products, namely a traditional operation therapy prop and an intelligent interaction device.

In the traditional operation therapy, various treatment props are used in a physical mode to simulate actions such as grabbing, moving, rotating and the like in daily life, so that the aim of rehabilitation training is fulfilled. The traditional operation therapy props are various in variety, but have the problems of single function and poor expansibility, and the children toys are often directly used as training props or designed in the shapes of the children toys, so that the children toys are not easy to attract the active participation of old users. As shown in fig. 1.

The FitMi-interactive whole body stroke rehabilitation system is a household nerve rehabilitation device developed by flint rehab company, and one set of device comprises 2 sensors, a signal receiver, a charging seat and a training APP. The product can be connected with a household computer, and the training APP and the sensor are used for realizing multi-sense feedback of vision, hearing and touch. The patient can be by oneself with equipment and computer linked to each other the back, selects the training scheme through APP to instruct the operation inductor according to APP and take exercise, thereby reach rehabilitation training's purpose. Such products necessarily require the patient to be familiar with the software APP as a user patient and to rely on a computer as a display interaction device. As shown in fig. 2.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to make up for the deficiency of prior art, this device fuses cognition and upper limbs motor training based on directional motion, through low-cost intelligent hardware, can match mild cognitive impairment and upper limbs damage patient's demand in a flexible way.

(II) technical scheme

An apparatus for upper limb rehabilitation training comprises a table top sand table and a holding handle; the desktop sand table is an interface interactive tool and is arranged in a checkerboard mode in a grid mode; the holding handle is used for a user to carry out space orientation training on a table top sand table and is also used as a hand strength interaction tool; the table top sand table and the holding handle are used together to provide visual and tactile interactive feedback for the patient;

the desktop sand table comprises an upper surface, a middle layer and a bottom layer, wherein:

the upper surface is provided with a flexible OLED light-emitting patch which is attached to each small lattice of the table top sand table, so that an operator forms a visual space array;

the concave-convex shape design of the texture of the middle layer is consistent with the checkered shape of the upper surface, and a circuit is arranged for supporting the light-emitting working state of the light-emitting patch on the upper surface, so that the light-emitting patch emits light after being touched by the holding handle, and the movement trace is displayed for assisting the training of the space directional cognition;

the bottom layer is sewn by flexible fabric, and the flexible blanket shape is convenient to carry and use.

Grip handle does the utility model relates to an interactive component grips through the patient to carry out interactive training.

(III) advantageous effects

Compared with the prior art, the utility model, its beneficial effect does:

the utility model provides a cognitive and upper limbs comprehensive training device, combine hand eye coordination training, strengthen patient's cognitive and upper limbs motor ability in step, train patient's continuous attention, instantaneous memory, reaction judgement, discernment ability and orientation ability; the directional movement promotes the patient to repeatedly and autonomously complete various upper limb function exercises, induces the active movement of muscles and prevents joint contracture.

Drawings

1. Flexible OLED light-emitting patch

2. Fabric surface

3. Power supply plug

4. Hand-held grab handle

4-1. status display lamp

4-2. Battery Module

4-3 piezoelectric grip strength sensor

6. Power supply module

8. Single-chip processor

9. Fabric substrate

FIG. 1 training prop for traditional homework therapy

FIG. 2 FitMi-Interactive systemic stroke rehabilitation system

FIG. 3 is a schematic view of the product of the present application in an unfolded state

FIG. 4 is a schematic diagram of a product layer structure of the embodiment

FIG. 5 is a schematic view after being rolled and stored

Fig. 6 shows, as an example, various game forms (horizontal path, vertical path, characteristic curve, etc.) that facilitate rehabilitation exercise of the user.

Detailed Description

An apparatus for upper limb rehabilitation training comprises a table top sand table and a holding handle; the desktop sand table is an interface interactive tool and is arranged in a checkerboard mode in a grid mode; the holding handle is used for a user to carry out space orientation training on a table top sand table and is also used as a hand strength interaction tool; the combination of the table top sand table and the gripping handle provides visual and tactile interactive feedback to the patient.

The desktop sand table comprises an upper surface, a middle layer and a bottom layer, wherein:

the upper surface is sewn by fabric, the surface is provided with flexible OLED light-emitting patches which are attached to each small lattice of the table top sand table, and an operator forms a visual spatial array. Luminous paster of flexible OLED utilizes Flexible OLED (FOLED) display technology (use OLED technique preparation display device on flexible plastics or metal film), pastes the fabric surface with small flexible OLED display screen matrix arrangement to reach the function that shows information, kept simultaneously the utility model relates to a holistic flexibility is portable.

The concave-convex shape design of the middle layer is consistent with the checkered shape of the upper surface, and meanwhile, the middle layer is provided with a circuit for supporting the light-emitting working state of the light-emitting patch on the upper surface, so that the light-emitting patch emits light after being touched by the holding handle, and the movement trace is displayed for assisting training of space orientation cognition. The circuit can include a processor, a power supply and necessary connecting wires, the specific selection module is a conventional technology, the technology is not a key technology of the technical scheme, and the circuit connection relationship among the modules is a general technology. (by way of example but not limitation, a single chip microcomputer can be selected, the price is low, and the technology is universal and mature). An example is shown in fig. 4.

The bottom layer is sewn by flexible fabric, and the flexible blanket shape is convenient to carry and use.

Grip handle does the utility model relates to an interactive component grips through the patient to carry out interactive training.

The first method is as follows: the gripping handle adopts ordinary member, and the patient carries out the directional movement exercise in different directions in space according to the horizontal grid and the vertical grid that the grid instructed on the table surface sand table upper surface, simultaneously, when accomplishing space cognitive training, controls the training and exerts different holding power to obtain comprehensive exercise.

The optimization method comprises the following steps: the design of the holding handle adopts a rod piece made of high-density materials, so that certain holding gravity is improved, and the comprehensive training effect is better improved. The specific selection of the weighting material belongs to the conventional technology and is not the key technology of the technical scheme of the application. For example, the metal material, lead block disposed on the grip handle, or inorganic material filled in the lead block may be used.

And in the third optimization mode, a control module, a piezoelectric sensor, a state display lamp and a battery module are arranged in the training device, the piezoelectric sensor is used for acquiring the gripping force applied by an operator, and the built-in state display lamp is used for indicating whether the gripping force of the training action of the patient reaches the training standard. The specific selection control module, the piezoelectric grip sensor, the state display lamp and the battery module junction all belong to conventional technologies, are not key technologies in the technical scheme of the application, and the circuit connection relation among the modules is also a general technology. An example is shown in fig. 4.

The application has the following use cases:

as shown in figure 5, the product of the application is very portable, and can be conveniently carried after being curled.

As shown in figure 6, the product of the application is laid on a table (by way of example and not limitation) when in use, and the handle is held up to perform training of various paths on a sand table, so that the training of directional upper limb actions is completed and the cognitive ability is improved.

Claims (1)

1. A spatial orientation cognition and motion training device comprises a table top sand table and a holding handle; the desktop sand table is an interface interactive tool and is arranged in a checkerboard mode in a grid mode; the holding handle is used for a user to carry out space orientation training on a table top sand table and is also used as a hand strength interaction tool; the table top sand table and the holding handle are used together to provide visual and tactile interactive feedback for the patient;

the desktop sand table comprises an upper surface, a middle layer and a bottom layer, wherein:

the upper surface is provided with a flexible OLED light-emitting patch which is attached to each small lattice of the table top sand table, so that an operator forms a visual space array;

the concave-convex shape design of the texture of the middle layer is consistent with the checkered shape of the upper surface, and a circuit is arranged for supporting the light-emitting working state of the light-emitting patch on the upper surface, so that the light-emitting patch emits light after being touched by the holding handle, and the movement trace is displayed for assisting the training of the space directional cognition;

the bottom layer is sewn by flexible fabric.

Images