CN209790826U - Gloves for archery - Google Patents

Abstract

The utility model discloses a gloves for archery, gloves for archery include: the glove base body is sleeved on a human hand; the first pressure sensors are arranged on the glove base body and correspond to the finger joints; the second pressure sensor is arranged at a position, corresponding to a wrist pulse measuring position, on the glove base body; the data processor is arranged on the glove base body and corresponds to the palm of a hand or the back of the hand; and the first pressure sensor and the second pressure sensor are electrically connected with the data processor through the connecting wires. The technical scheme of the utility model have and instruct or archer self-training provides reference information for the coach, be favorable to archer to carry out the advantage of pulling force adjustment and mental state adjustment.

Description

Gloves for archery

Technical Field

The utility model discloses auxiliary exercise equipment technical field, in particular to gloves for archery.

Background

Shooting archery and other items have a long history and are also traditional items of Olympic games. This category of events has a wide range of enthusiasts worldwide, whether competitive or mass sports. With the gradual development of science and technology, the traditional training mode cannot well meet the auxiliary guidance function of competitive sports, and the difficulty is increased for relevant crowd sports enthusiasts to obtain further improved scores. In the projects, athletes in competitive sports are mostly guided by professional guide teachers, and professional auxiliary training equipment is high in price. For most amateurs, the price factor of the auxiliary training equipment is sensitive. In the prior art, the gloves for archery have single function, only can protect hands of athletes, and cannot provide any beneficial help on training guidance for archery athletes or enthusiasts.

SUMMERY OF THE UTILITY MODEL

the utility model mainly aims at providing a gloves for archery, aim at solving prior art and archery with the problem of gloves function singleness.

In order to achieve the above object, the utility model provides a gloves for archery, gloves for archery includes: the glove base body is sleeved on a human hand; the first pressure sensors are arranged on the glove base body and correspond to the finger joints; the second pressure sensor is arranged at a position, corresponding to a wrist pulse measuring position, on the glove base body; the data processor is arranged on the glove base body and corresponds to the palm of a hand or the back of the hand; and the first pressure sensor and the second pressure sensor are electrically connected with the data processor through the connecting wires.

Preferably, the glove substrate comprises: the first pressure sensor is arranged on the finger sleeves at the position corresponding to the finger joints; the wrist part is annularly arranged on the human wrist, and the second pressure sensor is arranged on the wrist part at a position corresponding to the pulse measurement position of the human wrist; the palm part is connected with the finger sleeves and the wrist part; the back of the hand, the back of the hand is connected a plurality of the dactylotheca reaches the wrist portion, data processor set up in on the back of the hand.

Preferably, the first pressure sensor is arranged on the finger sleeve at a position corresponding to the finger joint and on the palm surface of the glove base body, and a connecting line connected with the first pressure sensor passes through the finger sleeve and is connected to the data processor.

Preferably, the finger sleeves at least comprise an index finger sleeve, a middle finger sleeve and a ring finger sleeve, and the first pressure sensors are arranged at the positions of the index finger sleeve, the middle finger sleeve and the ring finger corresponding to the finger joints.

preferably, the first pressure sensor is a fabric pressure sensor.

Preferably, the first pressure sensor is in an elongated shape, and the first pressure sensor on each finger extends to a position corresponding to a different finger joint.

Preferably, the second pressure sensor is in an elongated shape, and the second pressure sensor extends to positions of different arteries of the wrist.

Preferably, the archery glove further comprises a nine-axis attitude sensor, and the nine-axis attitude sensor is arranged at a position on the glove base body, which is different from the data processor, on the back of the hand.

preferably, the archery gloves further comprise a power supply unit, a charging unit and a communication unit, the power supply unit, the charging unit and the communication unit are all arranged on the back of the hand on the glove base body, and the charging unit, the communication unit and the data processor are all electrically connected with the power supply unit.

Preferably, the communication unit may be a wireless communication module or a wired communication module.

in the technical scheme of the utility model, the glove base body is sleeved on the hand of the archer to protect the hand of the archer, the plurality of first pressure sensors are arranged at the positions on the glove base body corresponding to the finger joints, and when the hand of the archer pulls strings, the pressure data of the strings received by the fingers are collected; the second pressure sensor is arranged at a position, corresponding to a wrist pulse measuring position, on the glove base body, and is used for collecting pulse data of a rocket shooter in real time. The data processor is arranged on the glove base body and corresponds to the palm position or the back position of the hand, and after receiving the pressure data and the pulse data of the string, the data processor outputs the pressure data and the pulse data, so that reference information is provided for coaching or self-training of an archer, and the pull force adjustment and the mental state adjustment of the archer are facilitated.

drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of an archery glove of the present invention;

FIG. 2 is a schematic structural view of another embodiment of an archery glove of the present invention;

Fig. 3 is a schematic connection diagram of the charging unit, the power supply unit, the communication unit and the data processor of the present invention.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

in addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides an archery glove 100, the archery glove 100 includes: the glove comprises a glove base body 10, wherein the glove base body 10 is sleeved on a human hand; a plurality of first pressure sensors 20, wherein the first pressure sensors 20 are arranged on the glove base body 10 at positions corresponding to finger joints; the second pressure sensor 30 is arranged on the glove substrate 10 at a position corresponding to the wrist pulse measurement position; a data processor 40 (see fig. 2), wherein the data processor 40 is arranged on the glove base body 10 and corresponds to the palm of a human hand or the back of the human hand; and the first pressure sensor 20 and the second pressure sensor 30 are electrically connected with the data processor 40 through a plurality of connecting wires 50.

In this embodiment, the glove base 10 is sleeved on the hand of the archer to protect the hand of the archer, and the plurality of first pressure sensors 20 are disposed at positions on the glove base 10 corresponding to finger joints to collect pressure data of strings received by fingers when the hands of the archer pull the strings; the second pressure sensor 30 is arranged at a position on the glove base body 10 corresponding to a wrist pulse measurement position, and is used for collecting pulse data of an archer in real time, and since the first pressure sensor 20 and the second pressure sensor 30 are electrically connected with the data processor 40 through the plurality of connecting wires 50, the first pressure sensor 20 and the second pressure sensor 30 respectively send the collected pressure data and pulse data to the data processor 40. The data processor 40 is arranged on the glove base body 10 and corresponds to the palm of a hand or the back of the hand, preferably, the data processor 40 is arranged on the glove base body 10 and corresponds to the back of the hand, and the data processor 40 is prevented from being hurt by the bullet when the arrow strings contract. The data processor 40 receives the pressure data and the pulse data of the string, processes and outputs the pressure data and the pulse data, thereby providing reference information for coach guidance or archer self-training and being beneficial to the archer to carry out tension adjustment and mental state adjustment.

Preferably, the glove base 10 comprises: a plurality of finger stalls 11, the first pressure sensor 20 being provided at a position on the finger stall 11 corresponding to a finger joint; the wrist part 12 is annularly arranged on the wrist of the person, and the second pressure sensor 30 is arranged on the wrist part 12 at a position corresponding to the pulse measurement position of the wrist of the person; a palm portion 13, wherein the palm portion 13 is connected with a plurality of finger sleeves 11 and the wrist portion 12; a back part 14 (see fig. 2), the back part 14 being connected to the plurality of finger sleeves 11 and the wrist part 12, and the data processor 40 being disposed on the back part 14.

In this embodiment, since an archer generally uses a plurality of fingers to pull strings, the archery glove 100 includes a plurality of finger stalls 11, and the first pressure sensor 20 is disposed on the finger stall 11 at a position corresponding to a finger joint for collecting pressure data of the strings on different fingers. Meanwhile, the wrist part 12 is annularly arranged on the wrist of the user, the second pressure sensor 30 is arranged at the position, corresponding to the wrist pulse measuring position, of the wrist part 12, and the user accurately collects pulse data of the wrist pulse measuring position. The palm portion 13 connects the plurality of finger sleeves 11 and the wrist portion 12, connects the plurality of finger sleeves 11 and the wrist portion 12 on the palm side, and protects the palm of the archery person. The back part 14 is connected with the plurality of finger sleeves 11 and the wrist part 12, the plurality of finger sleeves 11 and the wrist part 12 are connected together at the back side of the hand to protect the back of the archer, and the data processor 40 is arranged on the back part 14 to prevent the data processor 40 from being flicked when the archer string is contracted.

Preferably, as shown in fig. 1-2, the first pressure sensor 20 is disposed on the finger stall 11 at a position corresponding to a finger joint and on the palm surface of the glove base 10, and a connection line 50 connected to the first pressure sensor 20 is connected to the data processor 40 through the finger stall 11. In this embodiment, the first pressure sensor 20 is disposed on the finger stall 11 at a position corresponding to a finger joint and on the palm surface of the glove base 10, and the mounting position of the first pressure sensor 20 is just located at a position where the finger is pressed, so as to collect the pressure data. A connecting wire 50 passes through the finger cuff 11 to electrically connect the first pressure sensor 20 and the data processor 40, so as to transmit pressure data.

Preferably, the plurality of finger sleeves 11 at least include an index finger sleeve 11A, a middle finger sleeve 11B and a ring finger sleeve 11C, and the first pressure sensor 20 is disposed at a position of the index finger sleeve 11A, the middle finger sleeve 11B and the ring finger sleeve 11C corresponding to a finger joint. In the present embodiment, the archer generally draws strings with the index finger, the middle finger, and the ring finger at the same time, so the archer glove 100 includes the index finger cuff 11A, the middle finger cuff 11B, and the ring finger cuff 11C, and the first pressure sensors 20 are disposed at positions of the index finger cuff 11A, the middle finger cuff 11B, and the ring finger corresponding to the finger joints, thereby collecting pressure data of the index finger, the middle finger, and the ring finger. That is, the glove 100 for archery of the present invention is a three-finger glove, and it can be understood that the number of finger sleeves of the glove 100D for archery of the present invention can be adjusted between 1 to 5 according to the habit of archery.

Preferably, the first pressure sensor 20 is a fabric pressure sensor. In this embodiment, the first pressure sensor 20 is a fabric pressure sensor, and the fabric pressure sensor has the characteristics of being bendable and foldable, and can deform at the finger joint position along with the stringed finger without affecting the normal detection of the finger joint position by the fabric pressure sensor.

Preferably, the first pressure sensor 20 is in an elongated shape, and the first pressure sensor 20 on each finger extends to a position corresponding to a different finger joint. In this embodiment, when the finger pulls the string, the arrow string falls into the finger joint position under the action of the pulling force, and the arrow string falls into the finger joint position and just presses the first pressure sensor 20 by extending the first pressure sensor 20 on each finger to the position corresponding to different finger joints, so that the normal detection of the pressure data is realized.

Preferably, the second pressure sensor 30 is elongated, and the second pressure sensor 30 extends to a position of a different artery of the wrist. In this embodiment, since there are two arteries (radial artery and ulnar artery) on the wrist of the human body, the second pressure sensor 30 extends to the positions of the different arteries of the wrist, so that the pulse data of the different arteries can be sensed at the same time, and the accuracy of pulse data sensing is improved.

Preferably, the archery glove 100 further includes a nine-axis posture sensor (not shown) disposed on the glove base 10 at a position of the back portion 14 different from the data processor 40. In the embodiment, the nine-axis posture sensor is used for sensing posture data of hands of an archer during the process of drawing a bow and shooting an arrow, so that correction guidance is provided for the hand posture during later training.

Preferably, the archery glove 100 further comprises a charging unit 60, a power supply unit 70 and a communication unit 80, the power supply unit 70, the charging unit 60 and the communication unit 80 are all arranged on the hand back portion 14 of the glove base body 10, and the charging unit 60, the communication unit 80 and the data processor 40 are all electrically connected with the power supply unit 70. In this embodiment, the charging unit 60, the communication unit 80 and the data processor 40 are electrically connected to the power supply unit 70, the power supply unit 70 supplies power to the data processor 40 to implement normal data processing of the data processor 40, for example, noise reduction processing is performed on the pulse data transmitted from the second pressure sensor 30, and the power supply unit 70 supplies power to the communication unit 80 to implement that the communication unit 80 outputs the pressure data and the pulse data processed by the data processor 40, for example, the pressure data and the pulse data are transmitted to a mobile terminal such as a mobile phone for being viewed by an archer.

Preferably, the communication unit 80 may be a wireless communication module or a wired communication module.

In this embodiment, the wireless communication module may be a bluetooth module, a WiFi module, or the like, and the wireless communication module may be used to break away from the constraint of the data line, so as to conveniently output the pressure data and the pulse data. When the communication unit 80 is a wired communication module, various data transmission interfaces, such as a USB transmission interface, a Type-C transmission interface, etc., may be collectively disposed on the glove.

The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (10)

1. An archery glove, comprising:

The glove base body is sleeved on a human hand;

The first pressure sensors are arranged on the glove base body and correspond to the finger joints;

The second pressure sensor is arranged at a position, corresponding to a wrist pulse measuring position, on the glove base body;

The data processor is arranged on the glove base body and corresponds to the palm of a hand or the back of the hand;

And the first pressure sensor and the second pressure sensor are electrically connected with the data processor through the connecting wires.

2. The archery glove of claim 1 wherein said glove base comprises:

the first pressure sensor is arranged on the finger sleeves at the position corresponding to the finger joints;

The wrist part is annularly arranged on the human wrist, and the second pressure sensor is arranged on the wrist part at a position corresponding to the pulse measurement position of the human wrist;

The palm part is connected with the finger sleeves and the wrist part;

The back of the hand, the back of the hand is connected a plurality of the dactylotheca reaches the wrist portion, data processor set up in on the back of the hand.

3. the archery glove of claim 2, wherein the first pressure sensor is disposed on the glove at a position corresponding to a finger joint and on the palm surface of the glove base body, and a connection line connected to the first pressure sensor is connected to the data processor through an inter-cuff pass-through.

4. The archery glove of claim 2, wherein the plurality of finger stalls includes at least an index finger stall, a middle finger stall, and a ring finger stall, and the first pressure sensor is disposed at a position corresponding to a finger joint of each of the index finger stall, the middle finger stall, and the ring finger stall.

5. The archery glove of claim 2 wherein said first pressure sensor is a fabric pressure sensor.

6. The archery glove of claim 5 wherein said first pressure sensor is elongated, said first pressure sensor on each finger extending to a location corresponding to a different finger joint.

7. the archery glove of claim 2 wherein said second pressure sensor is elongated, said second pressure sensor extending to a location of a different artery of the wrist.

8. The archery glove of claim 2 further comprising a nine-axis attitude sensor disposed on the glove base at a location on the back of the hand different from the data processor.

9. The archery glove of claim 2 further comprising a power supply unit, a charging unit, and a communication unit, wherein the power supply unit, the charging unit, and the communication unit are disposed on the upper back portion of the glove substrate, and the charging unit, the communication unit, and the data processor are electrically connected to the power supply unit.

10. the archery glove of claim 9 wherein the communication unit can be a wireless communication module or a wired communication module.