CN212647415U - Separated data glove - Google Patents

Abstract

The utility model discloses a disconnect-type data gloves is applied to wearing formula equipment field, include: the glove comprises a glove body, wherein each finger sleeve is provided with a first mounting seat, one end of each finger sleeve, which is close to a palm part, is provided with a wire binding device, and the palm part is provided with a second mounting seat; the second mounting seats are positioned on the outer side of the palm rest of the palm part, and all the first mounting seats, all the wire bunchers and the second mounting seats are positioned on the same side of the glove body; the electronic assembly comprises a sensor detachably matched with the first mounting seat and a data acquisition device connected with the sensor; the data acquisition device is detachably matched with the second mounting seat; the sensor is connected with the data acquisition device through an electric wire, and the wire bundling device is used for restraining the electric wire of the sensor which is positioned on the same finger sleeve with the wire bundling device. The utility model discloses the dismouting of being convenient for does not restrict user's hand action, and is more durable simultaneously.

Description

Separated data glove

Technical Field

The utility model relates to a wearing formula equipment, especially a disconnect-type data gloves.

Background

Motion capture refers to techniques that use optics, acoustics, inertia, etc. to record and process human or other object motion.

Compared with mechanical, electromagnetic, optical and acoustic motion capture technologies, the inertial motion capture technology has the advantages of strong portability, simplicity in operation, unlimited performance space, no fear of motion shielding and the like.

In addition to being used in the virtual reality field, the data glove is also commonly applied in the motion capture field for collecting gesture information.

At present, the mainstream inertial moving catching sleeve in the market is divided into a hollow structure and a wrapping structure.

The hollow gloves enable a user to wear fixing devices in various forms such as a silica gel ring on fingers, and then put sensors in the fixing devices in a binding, implanting, assembling and other methods, wherein each inertial sensor corresponds to one finger monitoring point.

The wrapping glove, as the name suggests, is like a common glove and has an outer skin structure wrapping the whole hand. The person only needs to put the handle in and start the power supply to use. However, such gloves have disadvantages in that the position of the glove cannot be adjusted because internal components such as sensors, processors, and power supplies are fixed in advance, and thus, when users with different hand sizes wear the gloves, the gesture recognition effect may vary. If the whole-body data gloves with different sizes and models are designed, the development cost is increased.

The wrapping type glove is improved in the related art, the sensor and the flexible printed circuit are pasted on the back of the glove in the mode of magic tape, the scheme is convenient, the glove needs to be bent in the using process, the flexible printed circuit is easy to break, and meanwhile hand actions of a user can be limited.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model aims to provide a: the utility model provides a disconnect-type data gloves, extension gloves electronic component's life-span when realizing convenient dismouting avoids electronic component to retrain user's hand action simultaneously.

The utility model adopts the technical proposal that:

a split data glove, comprising:

the glove comprises a glove body, wherein the glove body comprises a palm part and five finger sleeves connected with the palm part, each finger sleeve is provided with a first mounting seat, one end of each finger sleeve, which is close to the palm part, is provided with a wire binding device, and the palm part is provided with a second mounting seat; the second mounting seats are positioned on the outer side of the palm part backrest, and the first mounting seats, the wire bunchers and the second mounting seats are positioned on the same side of the glove body;

the electronic assembly comprises sensors detachably matched with the first mounting seats and a data acquisition device connected with the sensors; the data acquisition device is detachably matched with the second mounting seat;

the sensor is connected with the data acquisition device through an electric wire, and the wire bundling device is used for restraining the electric wire of the sensor which is positioned on the same finger sleeve with the wire bundling device.

In some embodiments, the thread bundling device comprises a base and a split ring arranged on the base, and the base is fixedly installed with the glove body through glue or sewing.

In some embodiments, the data acquisition device includes a signal conditioning circuit connected to each of the sensors and a wireless communication module connected to the signal conditioning circuit.

In some embodiments, the sensor includes a sensor housing and a sensor body disposed within the sensor housing.

In some embodiments, the sensor body is a three-axis inertial sensor.

In some embodiments, the first mounting seat is fixed to the sensor housing in a clamping manner.

In some embodiments, the finger sleeve is provided with an opening at an end remote from the palm portion.

In some embodiments, the palm portion has a wrist opening, and the edge of the wrist opening is provided with a hook and loop fastener for adjusting the tightness of the wrist opening.

In some embodiments, the magic tape is further provided with a Chinese character 'kou' button.

In some embodiments, the first and second mounting seats are both silicone mounting seats.

The utility model has the advantages that: sensor and data acquisition device pass through the connection of electric wires to set up first mount pad on the gloves body and install sensor, second mount pad and install data acquisition device, the dismouting of can being convenient for on the one hand like this, on the other hand the electric wire need not to hug closely the gloves body, and the electric wire can adapt automatically when the user uses gloves, reduces the condition of losing, simultaneously, installs the buncher between first mount pad and second mount pad, can roughly keep the position of electric wire, avoids the electric wire winding.

Drawings

Fig. 1 is a schematic structural diagram of a back surface of a detachable data glove according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a front side of a detachable data glove according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a wire harness device according to an embodiment of the present invention;

fig. 4 is a schematic view of an installation structure of a first installation seat and a sensor of a split-type data glove according to an embodiment of the present invention.

Detailed Description

The invention is further described with reference to the drawings and the specific embodiments.

Referring to fig. 1 and 2, a split data glove, in this embodiment the glove is a left hand, wherein fig. 1 shows the back side (dorsal side) of the glove and fig. 2 shows the front side (ventral side) of the glove, the glove of this embodiment comprising:

the glove comprises a glove body 100, wherein the glove body comprises a palm part and five finger sleeves connected with the palm part, a first mounting seat 102 is arranged on each finger sleeve, a wire binding device 103 is arranged at one end, close to the palm part, of each finger sleeve, and a second mounting seat 104 is arranged on the palm part; the second mounting seat 104 is located at the outer side of the palm part backrest, and each of the first mounting seats 102, each of the wire binders 103 and the second mounting seat 104 are located at the same side of the glove body, that is, at the back side of the glove.

An electronic assembly, which comprises a sensor 101 detachably fitted with each first mounting seat 102 and a data acquisition device 105 connected with the sensor 101; the data acquisition device 105 is detachably installed in a matching way with the second installation seat 104;

the sensor 101 and the data acquisition device 105 are connected through an electric wire 106, and the wire buncher 103 is used for restraining the electric wire 106 of the sensor 101 which is positioned on the same finger sleeve as the wire buncher 103. In the present embodiment, the electric wire 106 and the glove body 100 are not attached to each other, so that the electric wire 106 may be slightly longer than the minimum length from the sensor to the data acquisition device when the user makes a fist. Of course, the minimum length referred to herein needs to take into account the effect of the wire harness 103 on the electrical wires 106.

The utility model has the advantages that: sensor and data acquisition device pass through the connection of electric lines to set up first mount pad and install the sensor, the data acquisition device is installed to the second mount pad on receiving, the dismouting of can being convenient for on the one hand like this, the gloves body need not hugged closely to the on the other hand electric wire, electric wire can automatic adaptation when the user uses gloves, thereby can reduce the condition of rolling over the damage, simultaneously, installation buncher between first mount pad and second mount pad, can roughly keep the position of electric wire, avoid the electric wire winding. In addition, for users with different hand shapes and sizes, only the gloves need to be replaced, and the detached gloves can be cleaned.

Referring to fig. 3, in some embodiments, the cable harness 103 includes a base 1031 and a split ring 1033 disposed on the base 1031, and the base 1031 is fixedly mounted to the glove body 100 by means of glue or sewing.

It should be understood that in the present embodiment, the wire harness is used to limit the position of the electric wire, the wire harness is not detachable, and when the electronic component is disassembled, the electric wire can be pressed into the split ring 1033 to be installed, or the split ring 1033 can be pulled out to be detached.

In some embodiments, the data acquisition device includes a signal conditioning circuit connected to each of the sensors and a wireless communication module connected to the signal conditioning circuit.

In this embodiment, adopt wireless communication module, can reduce the wire rod of data acquisition gloves, the user of being convenient for uses gloves. And the signal conditioning circuit is used for conditioning the signals of the data acquired by the sensor, and the signal conditioning circuit comprises at least one of amplification, filtering, analog-to-digital conversion and the like. The wireless communication module may be a wireless communication module such as bluetooth or WIFI.

In some embodiments, the data acquisition device also comprises a sensor for acquiring the motion of the palm. In some embodiments, the system further comprises a storage module for storing the data collected by the sensor. The memory module may be formed of a memory card read/write circuit and a memory card.

In some embodiments, the sensor includes a sensor housing and a sensor body disposed within the sensor housing. Through the sensor housing, various connection structures can be provided for the sensor to facilitate mounting on the glove. The wire penetrates through the through hole on the sensor shell and is connected with the sensor body.

In some embodiments, the sensor body is a three-axis inertial sensor. In this embodiment, the sensor mainly includes an IMU (inertial measurement unit), and the IMU includes a 3-axis accelerometer, a 3-axis gyroscope for collecting acceleration and rotation angle data of the finger, and a 3-axis magnetometer for eliminating errors of the accelerometer and the gyroscope.

Referring to fig. 4, in some embodiments, the first mounting seat 102 is fixed to the housing of the sensor 101 in a snap-fit manner.

Wherein, first mount pad 102 adopts the silica gel material, and is comparatively soft and wear-resisting, wherein is provided with ring groove 1021, and sensor 101's shell below is provided with the annular arch 1011 of installing with ring groove 1021 cooperation. The housing of the sensor 101 may be made of a hard plastic, and a soft-to-hard fit allows for easier installation and removal. For the magic subsides, this scheme is more durable.

Referring to fig. 1, in some embodiments, the finger sleeve is provided with an opening at an end remote from the palm portion.

Gloves in this embodiment are dew finger formula gloves, for full parcel formula gloves more add the not equidimension hand of easy adaptation, simultaneously more ventilative, avoid hand sweat to soak the gloves body and produce the bacterium or harm electronic component.

Referring to fig. 1, in some embodiments, the palm portion has a wrist opening, and the edge of the wrist opening is provided with a hook and loop fastener 107 for adjusting the tightness of the wrist opening.

The magic tape can be provided with a hook surface on one side and a suede surface on the other side, so that the magic tape is pasted around the opening circle of the wrist, and the effect of adjusting the tightness of the opening of the wrist is achieved.

In some embodiments, the magic tape is further provided with a button 108. This mouth word is detained 108 and is fixed on gloves body 100, and the magic is pasted and is set up matte and hook face respectively in the both sides of one side, passes mouth word with the magic subsides and detain, then pastes the folding with the magic for matte and hook face paste together, also can play the effect of adjustment wrist opening elasticity.

In some embodiments, the first and second mounting seats are both silicone mounting seats. As for the structures of the data acquisition device and the second mount, the same structure as the sensor and the first mount may be employed.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims (10)

1. A split data glove, comprising:

the glove comprises a glove body, wherein the glove body comprises a palm part and five finger sleeves connected with the palm part, each finger sleeve is provided with a first mounting seat, one end of each finger sleeve, which is close to the palm part, is provided with a wire binding device, and the palm part is provided with a second mounting seat; the second mounting seats are positioned on the outer side of the palm part backrest, and the first mounting seats, the wire harnesses and the second mounting seats are positioned on the same side of the glove body;

the electronic assembly comprises sensors detachably matched with the first mounting seats and a data acquisition device connected with the sensors; the data acquisition device is detachably matched with the second mounting seat;

the sensor is connected with the data acquisition device through an electric wire, and the wire bundling device is used for restraining the electric wire of the sensor which is positioned on the same finger sleeve with the wire bundling device.

2. A split data glove according to claim 1, wherein: the wire harness comprises a base and a split ring arranged on the base, and the base is fixedly installed with the glove body in a glue or sewing mode.

3. A split data glove according to claim 1, wherein: the data acquisition device comprises a signal conditioning circuit and a wireless communication module connected with the signal conditioning circuit, and the signal conditioning circuit is connected with each sensor.

4. A split data glove according to claim 1, wherein: the sensor comprises a sensor shell and a sensor body, wherein the sensor body is arranged in the sensor shell.

5. The split data glove of claim 4, wherein: the sensor body is a three-axis inertial sensor.

6. The split data glove of claim 4, wherein: the first mounting seat is fixed with the sensor shell in a clamping connection mode.

7. A split data glove according to claim 1, wherein: the finger sleeve is provided with an opening at one end far away from the palm part.

8. A split data glove according to claim 1, wherein: the palm part is equipped with the wrist opening, wrist opening edge is provided with the magic subsides for adjust wrist open-ended elasticity degree.

9. A split data glove according to claim 8, wherein: the magic tape is also provided with a Chinese character kou button.

10. A split data glove according to claim 1, wherein: the first mounting seat and the second mounting seat are silica gel mounting seats.

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