CN210844075U - Gloves subassembly and hand rehabilitation device - Google Patents

Abstract

The application relates to the technical field of rehabilitation equipment, in particular to a glove assembly and hand rehabilitation equipment. This glove component can last passive activity appearance cooperation installation with hand joint, and this glove component includes: the arm structure can enable the arm to be arranged on the arm part of the hand joint continuous passive activity instrument; the palm structure is connected with the arm structure and can enable a palm to be arranged on the palm part of the hand joint continuous passive activity instrument; the finger structure comprises a plurality of mutually independent finger structures, each finger structure comprises a mutually independent finger patch and a finger fixing piece, the root part of each finger patch is connected with the palm structure, and the two opposite sides of each finger patch are provided with elastic clamping bulges; the elastic clamping protrusion can be clamped with a clamping hole on a knuckle part of the hand joint continuous passive activity instrument, so that the finger patch is arranged on the knuckle part; the finger fixing piece can be matched with the finger joint part so as to fix the finger on the finger sticker. This scheme can improve the atress homogeneity of hand.

Description

Gloves subassembly and hand rehabilitation device

Technical Field

The application relates to the technical field of rehabilitation equipment, in particular to a glove assembly and hand rehabilitation equipment.

Background

When the hand rehabilitation equipment on the market treats hands, the hand rehabilitation equipment is generally connected with fingertips and then drives the fingers to move under the stress of the fingertips; or clamping the front and back sides of the finger and then driving the finger to bend and extend; however, the combination of the rehabilitation device and the hand is not perfect, so that the stress of the hand is not uniform enough, the rehabilitation effect is poor, and in addition, the experience of the patient in the rehabilitation training process is poor.

It should be noted that the information of the utility model in the above background section is only used for enhancing the understanding of the background of the present application, and therefore, may include information that does not constitute prior art known to those of ordinary skill in the art.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a gloves subassembly and hand rehabilitation equipment, can improve the atress homogeneity of hand to can improve the experience of recovered effect and patient in treatment process and feel.

This application first aspect provides a glove assembly, can last passive activity appearance cooperation installation with hand joint, this glove assembly includes:

the arm structure can enable an arm to be installed on the arm part of the hand joint continuous passive activity instrument;

the palm structure is connected with the arm structure and can enable a palm to be installed on the palm part of the hand joint continuous passive activity instrument;

the finger structure comprises a plurality of mutually independent finger structures, each finger structure comprises a mutually independent finger patch and a finger fixing piece, the root part of each finger patch is connected with the palm structure, and elastic clamping bulges are arranged on two opposite sides of each finger patch; wherein the content of the first and second substances,

the elastic clamping protrusion can be clamped with a clamping hole on a knuckle part of the hand joint continuous passive activity instrument, so that the finger patch is installed on the knuckle part;

the finger fixing piece can be matched with the knuckle part, so that a finger is fixed on the finger sticker.

In one exemplary embodiment of the present application,

the finger fixing piece is an elastic bandage, one end of the elastic bandage is provided with a boss, and the elastic bandage is provided with a plurality of through holes which are arranged at intervals in the length direction of the elastic bandage;

the elastic bandage can pass through the through hole on the knuckle part to be installed on the knuckle part, and the boss is clamped with any through hole so that a finger is fixed on the finger patch.

In one exemplary embodiment of the present application,

the finger fixing piece is a finger cover, and a matching hole is formed in the finger cover;

the matching hole can be clamped with the convex part on the knuckle part, so that fingers can be fixed on the finger patch.

In one exemplary embodiment of the present application,

the arm structure comprises an arm patch, a first arm bandage and a second arm bandage, and the arm patch can be detachably connected with the arm part; the first arm bandage and the second arm bandage are respectively arranged on two opposite sides of the arm patch, hook-face magic tapes are respectively arranged on the first arm bandage and the second arm bandage, and the hook-face magic tape of the first arm bandage and the hook-face magic tape of the second arm bandage are connected together through double-hair-face magic tapes; and/or

The palm structure comprises a palm patch, a first palm bandage and a second palm bandage, and the palm patch can be detachably connected with the palm part; the first palm bandage with set up respectively on the second palm bandage the relative both sides of palm paster, first palm bandage with all be provided with the hook face magic subsides on the second palm bandage, the hook face magic subsides of first palm bandage with the hook face magic subsides of second palm bandage link together through two matte magic subsides.

In one exemplary embodiment of the present application,

the palm paster have with the first binding face of palm laminating and with the first back that first binding face is relative, the region that corresponds with the palm joint on the first binding face is formed with the blind hole, along first binding face extremely in the direction of first back, the aperture of blind hole crescent.

In one exemplary embodiment of the present application,

the first binding surface is also provided with a first avoiding groove, and the side wall surface of the first avoiding groove is an arc surface protruding inwards the groove.

In one exemplary embodiment of the present application,

the palm structure further comprises a first jaw bandage and a second jaw bandage which are arranged on two opposite sides of the palm patch respectively, and the first jaw bandage comprises a first connecting belt, a second connecting belt, a third connecting belt and a fourth connecting belt;

two opposite ends of the first connecting belt are respectively connected with one side of the fourth connecting belt and the palm patch, and the first connecting belt is provided with a plurality of thumb structures in the finger structures;

one end of the second connecting belt is connected with the other side of the fourth connecting belt, and the other end of the second connecting belt is provided with a bulge;

the third connecting belt is arranged at intervals with the first connecting belt and connected with the palm patch, a plurality of connecting holes which are distributed at intervals are formed in the third connecting belt in the length direction of the third connecting belt, and any connecting hole is clamped with the bulge so that the third connecting belt is connected with the second connecting belt;

the fourth connecting band with all be provided with the hook face magic subsides on the second tiger's mouth bandage, the hook face magic of fourth connecting band paste with the hook face magic of second tiger's mouth bandage is pasted and is linked together through two matte magic.

In one exemplary embodiment of the present application,

the arm paster has the second binding face with the arm laminating and with the second back that the second binding face is relative, the region relative with the wrist joint on the second binding face is formed with the second and dodges the groove, the side wall face in groove is for the protruding arcwall face in the inward facing groove is dodged to the second.

In one exemplary embodiment of the present application,

the arm structure the palm structure reaches the finger paster is the silica gel structure that has elasticity, just the arm structure the palm structure reaches the finger paster formula as an organic whole is connected.

The present application provides in a second aspect a hand rehabilitation device comprising:

a glove component as described in any of the preceding;

the hand joint continuous passive activity appearance, it is including the arm portion, palm portion and a plurality of knuckle portion that are connected, the arm portion with arm structural connection, palm portion with palm structural connection, just be provided with on the knuckle portion with the card hole of the protruding looks block of elasticity card, just knuckle portion with the finger mounting cooperatees.

The technical scheme provided by the application can achieve the following beneficial effects:

the utility model provides a gloves subassembly and hand rehabilitation equipment, it includes the arm structure, palm structure and a plurality of finger structure, this arm structure can assemble on the arm, the palm structure can assemble on the palm, and a plurality of finger structure can assemble respectively on each finger, can make each part correspondence of patient's hand install each structural at the hand joint lasts passive activity appearance through this gloves subassembly, hand joint can be perfect like this and the combination of passive activity appearance and hand lasts, thereby can guarantee that the hand atress is even everywhere in the treatment process, the experience of recovered effect and patient in the treatment process has been improved and has been experienced.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application. It is obvious that the drawings in the following description are only some embodiments of the application, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a schematic view of a glove assembly according to an embodiment of the present application, from a perspective;

FIG. 2 is a schematic view of a glove assembly according to an embodiment of the present application, shown from another perspective;

FIG. 3 is a schematic view of the assembled finger structure, fingers and knuckles of a glove assembly according to an embodiment of the present application;

FIG. 4 is a schematic view of the assembled finger structure, fingers and knuckles of another embodiment of the glove assembly of the present application;

FIG. 5 is a schematic view of the construction of the elastic strap in the glove assembly according to an embodiment of the present application;

FIG. 6 is a schematic view of a portion of a glove assembly according to an embodiment of the present application;

FIG. 7 is a schematic view of a finger cover of the glove assembly according to an embodiment of the present application;

FIG. 8 is a schematic view of a structure of a knuckle of a hand joint continuous passive activity apparatus according to an embodiment of the present application;

FIG. 9 is a schematic view of an assembled structure of a glove assembly and a continuous passive motion device for hand joints according to an embodiment of the present application;

fig. 10 is a schematic view of an assembly structure of the glove assembly and the continuous passive motion device for hand joints according to an embodiment of the present application from another view angle.

Reference numerals:

10a, a thumb configuration, 10b, an index finger configuration; 10c, middle finger structure; 10d, ring finger structure; 10e, a tail finger structure; 100. finger pasting; 101. elastic clamping protrusions; 11. an elastic band; 110. a boss; 111. a through hole; 12. a finger cover; 120. a mating hole; 13. arm pasting; 130. a second bonding surface; 131. a second back surface; 132. a second avoidance slot; 14. a first arm strap; 15. a second arm strap; 16. a palm patch 160, a first attachment surface; 161. a first back surface; 162. blind holes; 163. a first avoidance slot; 17. a first palm strap; 18. a second palm strap; 19. a first connecting belt; 20. a second connecting band; 201. a protrusion; 21. a third connecting band; 210. connecting holes; 22. a fourth connecting band; 23. a second web; 24. hook face magic tape; 25. a knuckle portion; 251. a convex portion; 252. a clamping hole; 253. perforating; 30, a finger; 31 hand joint continuous passive motion instrument.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the examples set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art. The same reference numerals in the drawings denote the same or similar structures, and thus their detailed description will be omitted.

Although relative terms, such as "upper" and "lower," may be used in this specification to describe one element of an icon relative to another, these terms are used in this specification for convenience only, e.g., in accordance with the orientation of the examples described in the figures. It will be appreciated that if the device of the icon were turned upside down, the element described as "upper" would become the element "lower". Other relative terms, such as "high," "low," "top," "bottom," "left," "right," and the like are also intended to have similar meanings. When a structure is "on" another structure, it may mean that the structure is integrally formed with the other structure, or that the structure is "directly" disposed on the other structure, or that the structure is "indirectly" disposed on the other structure via another structure.

The terms "a," "an," "the," and the like are used to denote the presence of one or more elements/components/parts; the terms "comprising" and "having" are intended to be inclusive and mean that there may be additional elements/components/etc. other than the listed elements/components/etc.

The data of the authoritative department show that the number of stroke patients in China is more than 1200 million, the morbidity of the stroke patients is increased at a speed of 10%, and the number of stroke deaths per year is 200 million, which accounts for 22% of the total death population. Generally, with the continuous improvement of medical level, about 60-75% of stroke patients can survive, but most of the surviving patients have defects in the motor function of the upper limbs or the lower limbs and even hemiplegia. The hand is a relatively fine mechanism of a human body, nerve vessels in a tiny space are criss-cross, and small muscles are spread over the whole hand, so that the treatment difficulty of hand injury is high, the requirement is high, the recovery period after treatment is long, and the recovery of fingers is generally used as a key problem of upper limb recovery.

According to scientific demonstration, the central nervous system of the brain has plasticity, and a scientific and efficient movement mode is beneficial to stimulating the recovery of the central nervous system of the brain, thereby bringing theoretical basis for the movement rehabilitation therapy. At present, the exercise rehabilitation therapy is mainly to help a patient to recover the exercise function by using acupuncture, massage and other methods or by some simple medical instruments by a rehabilitation therapist.

Firstly, the requirements of rehabilitation training on manpower and material resources are high, and the expensive medical cost causes heavy economic burden on patients; secondly, the rehabilitation effect mainly depends on the experience and subjective judgment of a medical doctor, and objective and quantitative evaluation is lacked; finally, in the rehabilitation training process, a comfortable support structure is lacked, so that the hemiplegic limb is easy to cause secondary injury in the training process.

Currently, some hand rehabilitation devices are on the market, for example: the hand joints are continuously passive motion instruments and the like, but when the hand rehabilitation equipment treats hands, the hand rehabilitation equipment is generally connected with fingertips and then drives the fingers to move under the stress of the fingertips; or clamping the front and back sides of the finger and then driving the finger to bend and extend; however, the hand rehabilitation device and the hand are not perfectly combined, so that the hand is not uniformly stressed, the rehabilitation effect is poor, and in addition, the experience of the patient in the rehabilitation training process is poor.

In order to solve the aforementioned technical problems, the present embodiment provides a glove assembly, which can be installed in cooperation with a hand joint continuous passive activity apparatus 31, as shown in fig. 9 and 10, and together serve as a hand rehabilitation device for rehabilitation training of the hand of a patient.

In this embodiment, the glove assembly may include an arm structure, a palm structure, and a plurality of mutually independent finger structures, wherein:

the shape and size of the arm structure are similar to those of the human arm, the arm structure can be installed in cooperation with the arm part of the hand joint continuous passive activity instrument 31, and the human arm can be assembled on the arm structure, namely, the arm structure can enable the arm to be installed on the arm part of the hand joint continuous passive activity instrument 31, and the arm part of the hand joint continuous passive activity instrument 31 can drive the arm structure to move, so that the arm motion of the human can be driven, and the rehabilitation training of the arm is realized.

Since the hands of the patient are stiff, the arm structure in this embodiment may be an open design in order to allow the arms of the patient to be quickly and smoothly mounted on the arm structure. In detail, as shown in fig. 1 and 2, the arm structure may include an arm patch 13, a first arm strap 14, and a second arm strap 15. The arm patch 13 can be detachably connected to the arm, for example, the arm patch 13 can be connected to the arm by screws or bolts, so as to avoid the difficulty in detachment caused by using adhesives such as glue, but not limited thereto, and other detachable connection methods such as clamping can also be adopted. The first arm bandage 14 and the second arm bandage 15 can be respectively arranged on two opposite sides of the arm patch 13, hook-and-loop magic tapes 24 are arranged on the first arm bandage 14 and the second arm bandage 15, and when the arm of the patient is attached to the arm patch 13, the hook-and-loop magic tapes 24 of the first arm bandage 14 and the hook-and-loop magic tapes 24 of the second arm bandage 15 can be connected together through double-hair-surface magic tapes (not shown in the figure) so as to fix the arm of the patient on the arm patch 13 and then perform rehabilitation training. After the rehabilitation training is finished, the hook surface magic tape 24 of the first arm bandage 14 and/or the hook surface magic tape 24 of the second arm bandage 15 can be torn away from the double-hair-surface magic tape, and then the arm of the patient is taken down from the arm structure.

Because the magic tape is repeatedly adhered and torn, after the magic tape is used for a period of time, the adhesive force can be reduced, so that the connection is not firm, the double-hair-surface magic tape is used as the middle consumption layer, and when the adhesive force between the double-hair-surface magic tape and the hook-surface magic tape 24 of the first arm bandage 14 or the hook-surface magic tape 24 of the second arm bandage 15 does not meet the use requirement, the middle double-hair-surface magic tape only needs to be replaced. In addition, by connecting the first arm band 14 and the second arm band 15 in this way, the connecting position of the first arm band 14 and the second arm band 15 can be adjusted according to arms of different thicknesses, and the versatility of the glove assembly is improved.

The connection method of the first arm strap 14 and the second arm strap 15 is not limited to the hook and loop fastener connection method, and may be other connection methods, for example: snap fit, etc.

Palm structure and arm structural connection, the shape size of this palm structure is similar with the shape size of people's palm, this palm structure can last the palm portion cooperation installation of passive activity appearance 31 with the hand joint, and people's palm can assemble on this palm is structural, that is to say, this palm structure can make the palm install on the palm portion that the hand joint lasts passive activity appearance 31, the palm portion that the hand joint lasts passive activity appearance 31 can drive the motion of palm structure, thereby can drive people's palm motion, the realization is to the rehabilitation training of palm.

Similarly, because the patient's hand is relatively stiff, consequently, in order to make patient's palm install on the palm structure fast smoothly, the palm structure in this embodiment can be the open design. In detail, the palm structure may include a palm patch 16, a first palm strap 17, and a second palm strap 18. The palm patch 16 can be detachably connected to the palm portion, for example, the palm patch 16 can be connected to the palm portion by screws or bolts, which avoids the difficulty in detachment caused by using adhesives such as glue, but is not limited thereto, and other detachable connection methods such as clamping connection can also be adopted. And first palm bandage 17 and second palm bandage 18 can set up respectively in the relative both sides of palm paster 16, all be provided with hook face magic subsides 24 on this first palm bandage 17 and the second palm bandage 18, when patient's palm laminating is on palm paster 16, hook face magic subsides 24 of first palm bandage 17 and hook face magic subsides 24 accessible double-hair side magic subsides of second palm bandage 18 link together to fix patient's palm on palm paster 16, then carry out rehabilitation training. After the rehabilitation training is finished, the hook surface magic tape 24 of the first palm bandage 17 and/or the hook surface magic tape 24 of the second palm bandage 18 can be torn away from the double-hair surface magic tape, and then the palm of the patient is taken down from the palm structure.

Because the magic tapes are repeatedly adhered and torn, after the magic tapes are used for a period of time, the adhesive force can be reduced, so that the connection is not firm, the double-hair-surface magic tapes are used as the middle consumption layer, and when the adhesive force between the double-hair-surface magic tapes and the hook-surface magic tapes 24 of the first palm bandage 17 or the hook-surface magic tapes 24 of the second palm bandage 18 does not meet the use requirement, the middle double-hair-surface magic tapes only need to be replaced. In addition, by connecting first palm strap 17 and second palm strap 18 in this manner, the connecting position of first palm strap 17 and second palm strap 18 can be adjusted according to the palms of different sizes, improving the versatility of the glove assembly.

The connection method of the first palm strap 17 and the second palm strap 18 is not limited to the hook and loop fastener connection method, and may be other connection methods, for example: snap fit, etc.

Whereas the number of finger structures in the glove assembly is typically five, as shown in figures 1 and 2, a thumb structure 10a, an index finger structure 10b, a middle finger structure 10c, a ring finger structure 10d and a tail finger structure 10e, the five finger structures are similar to the five fingers of the human body in shape and size, can be respectively matched with the corresponding knuckle parts 25 on the hand joint continuous passive activity instrument 31, as shown in fig. 3 and 4, and five fingers of a person may be fitted to the five finger structures, respectively, that is, the finger structure enables the fingers of a person to be arranged on the corresponding knuckle parts 25 on the hand joint continuous passive activity instrument 31, the knuckle part 25 of the hand joint continuous passive activity instrument 31 can move to drive the corresponding finger structure to move, so that the finger of a person can be driven to move, and the rehabilitation training of the finger is realized.

Similarly, since the hand of the patient is relatively stiff, the finger structures of the present embodiment can be open-type in order to allow the fingers of the patient to be quickly and smoothly mounted on the finger structures. In particular, each finger structure may include a finger patch 100 and a finger mount that are independent of each other. As shown in fig. 1 to 4, the root of the finger patch 100 is connected to the palm structure, and the two opposite sides of the finger patch 100 are provided with elastic locking protrusions 101, the elastic locking protrusions 101 can be engaged with locking holes 252 (shown in fig. 8) on the knuckle 25 of the hand joint continuous passive activity instrument 31, that is, the finger patch 100 can be detachably connected to the knuckle 25, so that the finger patch 100 is mounted on the knuckle 25, which can avoid the difficulty in detachment caused by using adhesives such as glue; and the finger fasteners can cooperate with the knuckles 25 to secure the finger 30 to the finger patch 100.

It should be noted that, the human fingers have two knuckles except for the thumb, and the other fingers have three knuckles, that is, one hand (left hand or right hand) of the human should have fourteen knuckles, so that, in order to perfect the combination of the glove assembly with each finger, the joint continuous passive activity apparatus 31 may include fourteen knuckles 25 corresponding to the fourteen knuckles of the hand, and the finger structure of the glove assembly includes two pairs of elastic fastening projections 101 except for the thumb structure 10a, and three pairs of elastic fastening projections 101, each pair of elastic fastening projections 101 corresponding to one knuckle 25 of the joint continuous passive activity apparatus 31. It should be understood that the resilient tabs 101 disposed on opposite sides of the finger patch 100 are a pair of resilient tabs 101.

Based on the foregoing, this embodiment can make each part of patient's hand correspond to install on each structure of the hand joint lasts passive activity appearance 31 through setting up the gloves subassembly, can perfect the hand joint like this and last passive activity appearance 31 and the combination of hand to can guarantee that the stress is even everywhere at the hand in treatment process, improve recovered effect and patient's experience of treatment in-process and feel.

In addition, the arm structure, the palm structure and each finger structure are detachably connected with the arm part, the palm part and the knuckle part 25 of the continuous passive activity instrument 31 of the hand joint respectively, so that the glove assembly is convenient to replace.

For example, the arm structure, the palm structure and the finger patch 100 mentioned above may be all silicone structures with elasticity, which can improve the wearing comfort of the glove assembly. And arm structure, palm structure and finger paster 100 formula are connected as an organic whole, have reduced the processing degree of difficulty of gloves subassembly, and have improved the structural stability of gloves subassembly. It should be noted that the arm structure and the palm structure mentioned herein do not include the hook surface magic tape 24 and the double-hair surface magic tape.

In an alternative embodiment, as shown in fig. 3, the aforementioned finger fixing member may be an elastic band 11, and the finger fixing member may be made of silicone. In detail, one end of the elastic band 11 may be provided with a boss 110, and the elastic band 11 may be provided with a through hole 111; wherein, the elastic strap 11 can pass through the perforation 253 (as shown in fig. 8) on the knuckle 25 to be mounted on the knuckle 25, that is, when the finger fixing member is the elastic strap 11, the knuckle 25 should be provided with the perforation 253 for passing through the elastic strap 11, and the perforation 253 can be a waist-shaped hole, but is not limited thereto; while the boss 110 may engage the through-hole 111 to secure the finger 30 to the finger patch 100, it should be understood that the boss 110 and the through-hole 111 should be located on both sides of the through-hole 253 when the boss 110 and the through-hole 111 are not engaged, so that the finger 30 can be secured to the finger patch 100 and the knuckle portion 25 when the boss 110 and the through-hole 111 are engaged.

Preferably, as shown in fig. 3 and 5, the through hole 111 may be provided in plurality and arranged at intervals in the length direction of the elastic band 11; that is, in the length direction of the elastic band 11, a plurality of through holes 111 arranged at intervals may be provided on the elastic band 11, and the boss 110 may be engaged with any one of the through holes 111 to match fingers of different thicknesses, thereby improving the versatility of the glove assembly.

In an alternative embodiment, as shown in fig. 4, the finger holder may be a finger cover 12, and the finger cover 12 may be made of, but not limited to, 3D printed high-toughness photosensitive resin (SLA) material. Specifically, as shown in fig. 7, the finger cover 12 may be provided with a fitting hole 120, and the fitting hole 120 may be engaged with a projection 251 of the knuckle portion 25 so that a finger can be fixed to the finger patch 100, that is, when the finger fixing member is the finger cover 12, the knuckle portion 25 may be provided with a projection 251 to be engaged with the fitting hole 120 of the finger cover 12.

It should be understood that a projection 251 may be provided on the finger cover 12, and the knuckle 25 may be provided with a fitting hole 120 to be engaged with the projection 251.

Wherein, because the length and thickness of each knuckle of the patient have certain difference, the finger cover 12 can be adjusted according to the difference of fingers of different patients.

In an embodiment, as shown in fig. 1, 2 and 6, the palm patch 16 has a first attaching surface 160 attached to the palm (i.e., the palm of the patient) and a first back surface 161 opposite to the first attaching surface 160, and since the palm joints have a certain protrusion when the hand is bent, in order to avoid the palm patch 16 from pressing the palm joints, a blind hole 162 may be formed in a region of the first attaching surface 160 corresponding to the palm joints, and the blind hole 162 avoids the palm joints to improve the wearing comfort and ensure the structural strength of the palm patch 16.

As shown in fig. 6, the diameter of the blind hole 162 gradually increases along the direction from the first attaching surface 160 to the first back surface 161, so as to increase the elasticity around the blind hole 162, thereby ensuring that the palm patch 16 is stably attached to the palm of the patient.

The region of the palm patch 16 corresponding to the palm joint is not limited to the blind hole 162, and may be a through hole penetrating the first attachment surface 160 and the first back surface 161.

In addition, in order to avoid the pressing of the palm patch 16 against the palm, as shown in fig. 6, a first avoiding groove 163 is further formed on the first attaching surface 160 of the palm patch 16, and a side wall surface of the first avoiding groove 163 is an arc-shaped surface protruding inward from the groove, so as to improve wearing comfort.

As shown in fig. 1, 2 and 6, the arm patch 13 has a second attachment surface 130 attached to the arm and a second back surface 131 opposite to the second attachment surface 130, wherein in order to avoid the arm patch 13 from pressing the wrist joint, a second avoiding groove 132 is formed in a region of the second attachment surface 130 opposite to the wrist joint, and a side wall surface of the second avoiding groove 132 is an arc surface protruding inward from the groove, so as to improve wearing comfort.

In an embodiment, as shown in fig. 1 and 2, in order to ensure the fitting effect of the portion of the palm structure close to the finger structure and the hand, the palm structure may further include a first web and a second web 23 respectively disposed at opposite sides of the palm patch 16, wherein the first web includes a first connecting band 19, a second connecting band 20, a third connecting band 21, and a fourth connecting band 22.

In detail, opposite ends of the first connecting band 19 are connected to one side of the fourth connecting band 22 and the palm patch 16, respectively, and the first connecting band 19 is provided with a plurality of thumb structures 10a among finger structures. One end of second connecting band 20 is connected to the other side of fourth connecting band 22, and the other end is provided with a protrusion 201. The third connecting belt 21 and the first connecting belt 19 are arranged at intervals and connected with the palm patch 16, a plurality of connecting holes 210 which are arranged at intervals are formed in the third connecting belt 21 in the length direction of the third connecting belt 21, any connecting hole 210 can be clamped with the bulge 201, so that the third connecting belt 21 is connected with the second connecting belt 20, and the palm patch can adapt to palms with different sizes by arranging the plurality of connecting holes 210; all be provided with hook face magic subsides 24 on fourth connecting band 22 and the second tiger's mouth bandage 23, hook face magic subsides 24 of fourth connecting band 22 and hook face magic subsides 24 of second tiger's mouth bandage 23 link together through two hair side magic subsides.

The embodiment of the application also provides a hand rehabilitation device, which comprises the glove assembly and the hand joint continuous passive activity instrument 31 described in any one of the previous embodiments, wherein the hand joint continuous passive activity instrument 31 can comprise an arm part, a palm part and a plurality of finger joints 25 which are connected, the arm part is connected with an arm structure, the palm part is connected with a palm structure, the finger joints 25 are provided with clamping holes 252 which are clamped with the elastic clamping protrusions 101, and the finger joints 25 are matched with the finger fixing pieces. The connection between each part of the hand joint continuous passive activity instrument 31 and each structure on the glove assembly can refer to any of the aforementioned embodiments, and will not be described in detail herein.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the application being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (10)

1. The utility model provides a glove assembly, can last passive activity appearance cooperation installation with hand joint, its characterized in that includes:

the arm structure can enable an arm to be installed on the arm part of the hand joint continuous passive activity instrument;

the palm structure is connected with the arm structure and can enable a palm to be installed on the palm part of the hand joint continuous passive activity instrument;

the finger structure comprises a plurality of mutually independent finger structures, each finger structure comprises a mutually independent finger patch and a finger fixing piece, the root part of each finger patch is connected with the palm structure, and elastic clamping bulges are arranged on two opposite sides of each finger patch; wherein the content of the first and second substances,

the elastic clamping protrusion can be clamped with a clamping hole on a knuckle part of the hand joint continuous passive activity instrument, so that the finger patch is installed on the knuckle part;

the finger fixing piece can be matched with the knuckle part, so that a finger is fixed on the finger sticker.

2. The glove assembly according to claim 1,

the finger fixing piece is an elastic bandage, one end of the elastic bandage is provided with a boss, and the elastic bandage is provided with a plurality of through holes which are arranged at intervals in the length direction of the elastic bandage;

the elastic bandage can pass through the through hole on the knuckle part to be installed on the knuckle part, and the boss is clamped with any through hole so that a finger is fixed on the finger patch.

3. The glove assembly according to claim 1,

the finger fixing piece is a finger cover, and a matching hole is formed in the finger cover;

the matching hole can be clamped with the convex part on the knuckle part, so that fingers can be fixed on the finger patch.

4. The glove assembly according to claim 1,

the arm structure comprises an arm patch, a first arm bandage and a second arm bandage, and the arm patch can be detachably connected with the arm part; the first arm bandage and the second arm bandage are respectively arranged on two opposite sides of the arm patch, hook-face magic tapes are respectively arranged on the first arm bandage and the second arm bandage, and the hook-face magic tape of the first arm bandage and the hook-face magic tape of the second arm bandage are connected together through double-hair-face magic tapes; and/or

The palm structure comprises a palm patch, a first palm bandage and a second palm bandage, and the palm patch can be detachably connected with the palm part; the first palm bandage with set up respectively on the second palm bandage the relative both sides of palm paster, first palm bandage with all be provided with the hook face magic subsides on the second palm bandage, the hook face magic subsides of first palm bandage with the hook face magic subsides of second palm bandage link together through two matte magic subsides.

5. The glove assembly according to claim 4, wherein the palm patch has a first attaching surface attached to the palm and a first back surface opposite to the first attaching surface, and a blind hole is formed in a region of the first attaching surface corresponding to the palm joint, and the aperture of the blind hole increases gradually along a direction from the first attaching surface to the first back surface.

6. The glove assembly according to claim 5 wherein the first engaging surface further defines a first escape slot therein, the sidewall surface of the first escape slot being arcuate projecting inwardly of the slot.

7. The glove assembly according to claim 4, wherein the palm structure further comprises a first web strap and a second web strap disposed on opposite sides of the palm patch, respectively, the first web strap comprising a first connecting strap, a second connecting strap, a third connecting strap, and a fourth connecting strap;

two opposite ends of the first connecting belt are respectively connected with one side of the fourth connecting belt and the palm patch, and the first connecting belt is provided with a plurality of thumb structures in the finger structures;

one end of the second connecting belt is connected with the other side of the fourth connecting belt, and the other end of the second connecting belt is provided with a bulge;

the third connecting belt is arranged at intervals with the first connecting belt and connected with the palm patch, a plurality of connecting holes which are distributed at intervals are formed in the third connecting belt in the length direction of the third connecting belt, and any connecting hole is clamped with the bulge so that the third connecting belt is connected with the second connecting belt;

the fourth connecting band with all be provided with the hook face magic subsides on the second tiger's mouth bandage, the hook face magic of fourth connecting band paste with the hook face magic of second tiger's mouth bandage is pasted and is linked together through two matte magic.

8. The glove assembly according to claim 4 wherein the arm patch has a second attachment surface for attachment to an arm and a second back surface opposite the second attachment surface, wherein a second avoiding groove is formed in an area of the second attachment surface opposite the wrist joint, and a sidewall surface of the second avoiding groove is an arc surface protruding inward from the groove.

9. The glove assembly according to claim 1, wherein the arm structure, the palm structure and the finger patch are all silicone structures having elasticity, and the arm structure, the palm structure and the finger patch are integrally connected.

10. A hand rehabilitation device, comprising:

the glove component of any of claims 1 to 9;

the hand joint continuous passive activity appearance, it is including the arm portion, palm portion and a plurality of knuckle portion that are connected, the arm portion with arm structural connection, palm portion with palm structural connection, just be provided with on the knuckle portion with the card hole of the protruding looks block of elasticity card, just knuckle portion with the finger mounting cooperatees.

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