CN110657337B - Connecting assembly and wearable device with same - Google Patents

Abstract

The invention discloses a connecting assembly, comprising: the base comprises at least two splicing blocks, and the clamping holes are formed after all the splicing blocks are connected; the clamping piece is provided with a boss for clamping the clamping hole, and the boss is provided with a first connecting part; the first connecting portion are detachably connected to the second connecting portion, the second connecting portion and the first connecting portion can move synchronously after being connected, two ends of the second connecting portion are connected with the two adjacent splicing blocks respectively, and when the first connecting portion and the second connecting portion are connected and rotate the clamping piece, the two adjacent splicing blocks are close to each other until being connected. The invention also discloses a wearable device comprising the connecting component. Above-mentioned coupling assembling can conveniently realize the installation and the dismantlement of base and fastener, and the position that the fastener compares in the base after the installation is fixed reliably.

Description

Connecting assembly and wearable device with same

Technical Field

The invention relates to the technical field of wearable equipment, in particular to a connecting assembly and wearable equipment with the connecting assembly.

Background

With the continuous progress of the technology level, more and more wearing devices are developed towards modularization and integration.

The wearable device generally comprises a base and a clamping piece, wherein the clamping piece is detachably arranged on the base, in the case of an intelligent bracelet, the base is usually arranged on a wearable body such as a wrist strap, the clamping piece is arranged on the functional main body, and after the clamping piece is arranged on the base, the functional main body and the wearable body are connected; wherein, the wearing body is used for wearing on wrist or arm, functional subject can possess such as measuring the rhythm of the heart, monitor blood pressure and display function such as body temperature, because functional subject's function is highly concentrated, functional subject still can install on other wearing bodies such as electrocardio clothing after pulling down from the wrist strap, in order to satisfy the user demand under different occasions, also realize different functions, can see out, functional subject often needs and the frequent installation of different wearing bodies and dismantlement, this has just provided higher requirement to the connection of dismantling of base and fastener.

Based on this, how to provide a wearable device which facilitates the installation and the disassembly of the base and the clamping piece is a technical problem to be solved by the technical personnel in the field.

Disclosure of Invention

The invention aims to provide a connecting component and wearing equipment with the same, which can conveniently realize the installation and the disassembly of a base and a clamping piece, and the clamping piece is reliably fixed in position relative to the base after the installation.

To achieve the above object, the present invention provides a connecting assembly comprising:

the base comprises at least two splicing blocks, and clamping holes are formed after all the splicing blocks are connected;

the clamping piece is provided with a boss for clamping the clamping hole, and the boss is provided with a first connecting part;

the first connecting portion is detachably connected to the second connecting portion, the second connecting portion and the first connecting portion can move synchronously after being connected, two ends of the second connecting portion are respectively connected with the two adjacent splicing blocks, and when the first connecting portion and the second connecting portion are connected and rotate the clamping piece, the two adjacent splicing blocks are close to each other until the two splicing blocks are connected.

Optionally, the inner side walls of any two adjacent splicing blocks are respectively provided with a fixed groove and a sliding groove, the first end of the second connecting part is fixedly connected with the fixed groove, and the second end of the second connecting part is slidably connected with the sliding groove; any two adjacent inner side walls of the splicing blocks are also provided with holding grooves, and the holding grooves hold the first connecting parts when the clamping holes clamp the bosses.

Optionally, a first end of the second connecting portion is fixed to the bottom of one of the tiles, and a second end of the second connecting portion is slidably connected to the bottom of the other tile.

Optionally, the second end of the second connecting portion is detachably connected to the splice.

Optionally, any two adjacent splicing blocks are respectively provided with a first limiting body and a second limiting body, and the first limiting body and the second limiting body are matched to form the clamping hole.

Optionally, the number of the splicing blocks and the number of the second connecting portions are two, and one second connecting portion is arranged at any connecting position between the two splicing blocks.

Optionally, the first connecting portion is specifically a tooth, and the second connecting portion is specifically a rack.

Optionally, the two racks are arranged in parallel.

The invention also provides a wearable device which comprises the connecting assembly, a wearable body and a functional main body, wherein the wearable body is provided with the base, and the functional main body is provided with the clamping piece.

Optionally, the wearable device is specifically a bracelet, a watch, an electrocardio-coat or an electrocardio-patch.

Optionally, the side wall of the boss is further provided with a first contact, and the splicing block is provided with a second contact, so that when the boss is clamped by the clamping hole, the first contact and the second contact are in contact to realize data transmission.

Compared with the background art, the connecting assembly provided by the invention comprises a base, a clamping piece and a second connecting part, wherein the base comprises at least two splicing blocks, a clamping hole is formed after all the splicing blocks are connected, and two ends of the second connecting part are respectively arranged on two adjacent splicing blocks; the clamping piece is provided with a boss, the clamping hole can clamp the boss so as to fix the positions of the base and the clamping piece, the boss is provided with a first connecting part, the first connecting part and the second connecting part are detachably connected, and when the first connecting part and the second connecting part are connected, the first connecting part and the second connecting part can synchronously move; when the clamping piece needs to be installed on the base, the first connecting portion and the second connecting portion are connected firstly, then the clamping piece is rotated, namely the first connecting portion rotates, at the moment, the first connecting portion drives the second connecting portion to move synchronously, the second connecting portion is connected with the two adjacent splicing blocks, so that the two adjacent splicing blocks are close to each other to gradually form a clamping hole, after all the splicing blocks are attached, the clamping hole clamps the boss, namely the clamping piece is locked by the base, at the moment, the first connecting portion and the second connecting portion are static, and the installation of the clamping piece and the base is completed; it can be seen that, in the process of installing the fastener on the base, only need be connected first connecting portion and second connecting portion after rotatory first connecting portion can, until first connecting portion can't continue to rotate, show that the centre gripping hole has formed this moment, and the centre gripping hole has already held the boss, realize the connection of fastener and base. When the clamping piece needs to be detached from the base, only the first connecting portion needs to be rotated, the boss cannot be clamped after the clamping hole is decomposed, and the clamping piece is separated from the base to achieve detachment. So set up, the installation and the dismantlement of fastener and base are simple, and operation process is convenient, can greatly promote installation and dismantlement efficiency.

The invention further provides a wearable device comprising the connecting component, which has the beneficial effects, and the description is omitted here.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings 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 embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic diagram of a functional body with a fastener according to an embodiment of the present invention;

FIG. 2 is a bottom schematic view of FIG. 1;

FIG. 3 is a structural diagram of a first wearable body with a base according to an embodiment of the present invention;

FIG. 4 is a top view of FIG. 3;

FIG. 5 is a left side view of the right splice of FIG. 3;

fig. 6 is a schematic view of the functional main body according to the embodiment of the present invention mounted on the wearing body;

FIG. 7 is a schematic view of the first and second coupling portions of FIG. 6 during a rotational mating process;

FIG. 8 is a schematic view of the first and second coupling portions of FIG. 6 after rotational engagement;

fig. 9 is a schematic view of the functional main body and the wearing body in fig. 6 when the installation is completed;

FIG. 10 is a structural view of a second wearable body with a base according to an embodiment of the present invention;

fig. 11 is a schematic view of the functional main body of fig. 1 and the wearing body of fig. 10 in a rotation fitting process;

FIG. 12 is a schematic view of the functional body and the wearing body of FIG. 11 after being rotatably engaged;

fig. 13 is a schematic view of different types of wearable devices provided in an embodiment of the present invention.

Wherein:

a base 1, an engaging piece 2, a second connecting part 3, a wrist band 4, a wearing body 100, a functional body 200, a fixing member, and a fixing member,

A splicing block 10, a clamping hole 11, a fixed groove 12, a sliding groove 13, a containing groove 14, a first limiting body 15, a second limiting body 16, a second contact 17,

Boss 21, first connection portion 22, first contact 23.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order that those skilled in the art will better understand the disclosure, the invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The connecting assembly provided by the embodiment of the invention is shown in the attached drawings 1-8 in the specification, and comprises a base 1, a clamping piece 2 and a second connecting part 3, wherein the base 1 is of a split structure and comprises at least two splicing blocks 10, and clamping holes 11 are formed after all the splicing blocks 10 are connected.

The base 1 can be configured in a disc shape, each of the tiles 10 should be a part of the base 1, and when all the tiles 10 are connected, a clamping hole 11 can be formed, and obviously, the clamping hole 11 can be located in the middle of the base 1.

Fig. 3 to 8 in the specification show the two splicing blocks 10, and the two splicing blocks 10 may have the same shape and size, and of course, according to actual needs, the number of the splicing blocks 10 may also be three, and the shape and size of the splicing blocks 10 may also be other, as long as the clamping holes 11 can be formed after all the splicing blocks 10 are connected.

As shown in fig. 1 and fig. 2 of the specification, the engaging member 2 may be a disk shape, and a boss 21 is provided at the bottom of the engaging member, and the boss 21 is provided with a first connecting portion 22; the two ends of the second connecting portion 3 are respectively connected with the two adjacent splicing blocks 10, the first connecting portion 22 is detachably connected with the second connecting portion 3, and after the first connecting portion 22 and the second connecting portion 3 are connected, the first connecting portion 22 and the second connecting portion 3 can move synchronously.

Two ends of the second connecting part 3 are respectively connected with two adjacent splicing blocks 10, taking the base 1 comprising the two splicing blocks 10 as an example, referring to the orientation shown in the attached drawing 3 of the specification, the left end of the second connecting part 3 is connected with the splicing block 10 positioned on the left side, and the right end of the second connecting part 3 is connected with the splicing block 10 positioned on the right side, so that in the case that the base 1 comprises the two splicing blocks 10, the number of the second connecting parts 3 is at least one, and can be a plurality; if the base 1 includes three tiles 10, the number of the second connection portions 3 is at least two, and different second connection portions 3 are respectively connected to two adjacent tiles 10.

When the first connecting part 22 and the second connecting part 3 are connected and the clamping piece 2 is rotated, the two adjacent splicing blocks 10 are close to each other and form a clamping hole 11, so that the clamping hole 11 clamps the boss 21; obviously, the rotation motion of the first connection portion 22 can be converted into the horizontal motion of the splicing block 10, and both the first connection portion 22 and the second connection portion 3 can be configured as a rack and pinion structure, a synchronous belt structure, a lead screw structure, etc.

Taking a rack and pinion structure as an example, the first connecting portion 22 may specifically be teeth, the second connecting portion 3 may specifically be a rack, refer to fig. 6 to fig. 8 in the specification, when the fastener 2 needs to be installed on the base 1, first, the teeth and the rack are matched, then, the teeth can be rotated clockwise, that is, the fastener 2 is rotated, at this time, because the rack is connected to two adjacent splicing blocks 10, the rotational motion of the teeth can be converted into the horizontal motion of two adjacent splicing blocks 10, the two adjacent splicing blocks 10 gradually get close to each other until the clamping hole 11 is formed, at this time, the fastener 2 cannot continue to rotate, the boss 21 is clamped by the clamping hole 11, and the connection between the base 1 and the fastener 2 is completed.

Similarly, when the engaging piece 2 needs to be detached from the base 1, the tooth (the engaging piece 2) is rotated counterclockwise to separate two adjacent splicing blocks 10, and the clamping hole 11 is disassembled, so that the boss 21 cannot be clamped, and the base 1 and the engaging piece 2 are separated.

Referring to the attached drawings 4 to 8 in the specification, the inner side walls of two adjacent splicing blocks 10 are respectively provided with a fixing groove 12 and a sliding groove 13, taking the number of the splicing blocks 10 as an example, taking the orientation shown in the attached drawing 4 in the specification as an example, the splicing block 10 positioned on the left side is provided with the fixing groove 12, the splicing block 10 positioned on the right side is provided with the sliding groove 13, the left end of the second connecting part 3 positioned above is fixedly connected with the fixing groove 12, the right end of the second connecting part 3 positioned above is slidably connected with the sliding groove 13, and the inner side walls of the two splicing blocks 10 are also provided with accommodating grooves 14, so that when the clamping hole 11 clamps the boss 21, the accommodating grooves 14 accommodate the first connecting part 22, as shown in the attached drawing 8 in the.

It can be said that, since the second connecting portion 3 is disposed in the thickness direction of the splicing block 10, the position of the first connecting portion 22 should match with the second connecting portion 3, the first connecting portion 22 is located at the top position of the sidewall of the boss 21, as shown in fig. 2 of the specification, and meanwhile, the two splicing blocks 10 necessarily need to accommodate the first connecting portion 22 by disposing the accommodating groove 14 to clamp the boss 21 through the clamping hole 11. Meanwhile, in order to avoid the second connecting portion 3 from affecting the clamping hole 11 to clamp the boss 21, different positions of the second connecting portion 3 are respectively accommodated by the fixing groove 12 and the sliding groove 13, so that the clamping of the boss 21 by the clamping hole 11 is ensured to be reliable.

Of course, the second connecting portion 3 is not limited to be disposed in the thickness direction of the tiles 10, but may be disposed at the bottom of the tiles 10, that is, the first end of the second connecting portion 3 is fixed at the bottom of one tile 10, and the second end of the second connecting portion 3 is slidably connected to the bottom of another tile 10. Obviously, the first connecting portion 22 should be disposed at the bottom of the boss 21, and since the second connecting portion 3 and the first connecting portion 22 are both located at the outer side of the base 1, the above-mentioned fixing groove 12, sliding groove 13 and receiving groove 14 are not required to be disposed to achieve the corresponding technical effect.

No matter how the position of the second connecting part 3 is arranged, both ends of the second connecting part 3 can be detachably connected relative to the splicing block 10, so that the splicing block 10 and other parts can be conveniently replaced and maintained.

In order to further ensure reliable connection between the plurality of splicing blocks 10, the inner side walls of two adjacent splicing blocks 10 are respectively provided with a first limiting body 15 and a second limiting body 16, specifically, the first limiting body 15 can be specifically a clamping tenon, and the second limiting body 16 can be specifically a clamping groove.

Taking the position shown in the attached drawing 4 of the specification as an example, the clamping falcon is arranged above the left splicing block 10, the clamping groove is arranged below the left splicing block 10, the clamping groove is arranged above the right splicing block 10, and the clamping falcon is arranged below the right splicing block 10, so that the clamping falcon and the clamping groove are embedded after the two splicing blocks 10 are connected, and the clamping falcon and the clamping groove are embedded, so as to ensure that the structure of the base 1 is stable, so that the clamping hole 11 tightly clamps the boss 21. Certainly, the clamping falcon can have certain elasticity, for example, the clamping falcon is made of rubber, and when the clamping falcon extends into and separates from the clamping groove, certain elastic deformation is generated, so that the clamping falcon can be smoothly clamped and embedded in the clamping groove, and when two adjacent splicing blocks 10 are pulled, the clamping falcon is elastically deformed and can separate from the clamping groove; of course, the specific arrangement of the first position-limiting body 15 and the second position-limiting body 16 may be other, and will not be described herein.

The description of the drawings 3 to 8 shows the case of two splicing blocks 10, the number of the second connecting parts 3 is two, and one second connecting part 3 is arranged at any connecting position between the two splicing blocks 10; obviously, since the two splicing blocks 10 need to form the clamping hole 11 after being connected, the two splicing blocks 10 must have two connecting positions, which can also be considered as being on different sides of the clamping hole 11; taking the orientation shown in fig. 4 of the specification as an example, two connecting positions are respectively above and below, and two second connecting portions 3 should also be arranged above and below. So set up, can guarantee to operate steadily reliably at the in-process that two splice blocks 10 are close to each other, avoid two splice blocks 10's motion deviation great, promote coupling assembling's use reliability.

Description figures 3 to 8 show the case where the first connecting portion 22 is embodied as a tooth and the second connecting portion 3 is embodied as a rack, it is obvious that in order to realize that the two blocks 10 are close to each other while rotating the engaging member 2 (tooth), each block 10 should be provided with the fixing groove 12 and the sliding groove 13.

Taking the orientation shown in fig. 4 of the specification as an example, a fixing groove 12 is arranged above the left-side splicing block 10, a sliding groove 13 (not shown in the figure) is arranged above the left-side splicing block 10, a sliding groove 13 is arranged above the right-side splicing block 10, and a fixing groove 12 (not shown in the figure) is arranged below the right-side splicing block 10, so that when the clamping piece 2 (tooth) is rotated clockwise, the two splicing blocks 10 can approach each other under the action of the two racks, and finally a clamping hole 11 is formed; of course, a similar arrangement may be adopted for the case where the first connecting portion 22 and the second connecting portion 3 are both of a synchronous belt structure or a lead screw structure, so as to achieve the same technical effect.

The two racks are arranged in parallel, and when the clamping piece 2 (teeth) is rotated, the two racks are stressed identically, so that the stress of the upper side and the lower side of the two splicing blocks 10 is ensured to be identical, and the motion stability is improved. Of course, the second connecting portion 3 can be adaptively adjusted in position for three or other numbers of the tiles 10 to ensure that the plurality of tiles 10 are equally stressed during the movement.

The application also provides wearing equipment, including foretell coupling assembling. Wherein, wearing equipment can specifically be bracelet, wrist-watch, electrocardio clothing or electrocardio subsides etc..

As shown in fig. 1 to 8, the wearable device includes a wearable body 100 and a functional main body 200, a base 1 is disposed on the wearable body 100, and a fastener 2 is disposed on the functional main body 200; wherein, the wearing body 100 can be specifically set as different parts for different types of wearing devices; for example: for the smart bracelet, the wearing body 100 can comprise a wrist strap 4, the base 1 and the wrist strap 4 can be integrally arranged, and the functional main body 200 can be arranged into a component with the functions of measuring heart rate, monitoring blood pressure, displaying body temperature and the like; when the base 1 and the engaging member 2 are completely mounted, the wearing body 100 and the functional main body 200 are completely mounted.

As shown in fig. 9, at this time, in the X-axis and Y-axis directions, the clamping holes 11 clamp the bosses 21, the functional main body 200 cannot rotate along the X-axis and Y-axis with respect to the wearing body 100, and the functional main body 200 cannot be separated from the wearing body 100 along the Z-axis direction, that is, the wearing body 100 and the functional main body 200 are mounted in place.

Further, as shown in the accompanying drawings 10 to 12 in the specification, the side wall of the boss 21 is further provided with a first contact 23, the inner side wall of the splice block 10 is provided with a second contact 17, and when the boss 21 is clamped by the clamping hole 11, the first contact 23 and the second contact 17 are contacted to realize data transmission. It can be seen that when the clamping holes 11 clamp the bosses 21, indicating that the wearing body 100 and the functional main body 200 are completely installed, data transmission in the wearing body 100 and the functional main body 200 can be realized through the contact of the first contacts 23 and the second contacts 17, so as to achieve corresponding functions.

Fig. 13 in the specification sequentially shows schematic diagrams of wearable devices, specifically, a watch, an electrocardiogram patch, and an electrocardiogram wear from left to right, where the wearable body 100 and the functional main body 200 are installed in the manner as described above, and will not be described herein again.

It is noted that, in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

The connecting component and the wearing device with the connecting component are described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (10)

1. A connection assembly, comprising:

the base (1), the base (1) includes at least two splice blocks (10), all splice blocks (10) form the grip hole (11) after connecting;

the clamping piece (2) is provided with a boss (21) for clamping the clamping hole (11), and the boss (21) is provided with a first connecting part (22);

the first connecting part (22) is detachably connected to the second connecting part (3), the second connecting part (3) and the first connecting part (22) can move synchronously after being connected, two ends of the second connecting part (3) are respectively connected with two adjacent splicing blocks (10), the first connecting part (22) and the second connecting part (3) are connected, and the clamping piece (2) is rotated, so that the two adjacent splicing blocks (10) are close to each other until being connected; wherein the content of the first and second substances,

the inner side walls of any two adjacent splicing blocks (10) are respectively provided with a fixed groove (12) and a sliding groove (13), the first end of the second connecting part (3) is fixedly connected with the fixed groove (12), and the second end of the second connecting part (3) is slidably connected with the sliding groove (13); the inner side walls of any two adjacent splicing blocks (10) are also provided with accommodating grooves (14), and when the clamping holes (11) clamp the bosses (21), the accommodating grooves (14) accommodate the first connecting parts (22).

2. A connecting assembly according to claim 1, characterized in that a first end of the second connecting portion (3) is fixed to the bottom of one of the tiles (10), and a second end of the second connecting portion (3) is slidably connected to the bottom of the other tile (10).

3. A connecting assembly according to claim 1 or 2, characterized in that the second end of the second connecting portion (3) is detachably connected to the splice block (10).

4. A connecting assembly according to claim 1 or 2, wherein any two adjacent splice blocks (10) are respectively provided with a first limiting body (15) and a second limiting body (16), and the first limiting body (15) and the second limiting body (16) are matched to form the clamping hole (11).

5. A connecting assembly according to claim 1 or 2, characterized in that the number of the tiles (10) and the number of the second connecting portions (3) are both two, and one second connecting portion (3) is provided at any connecting position between two tiles (10).

6. A connecting assembly according to claim 5, characterized in that the first connecting portion (22) is embodied as a tooth and the second connecting portion (3) is embodied as a toothed rack.

7. The link assembly as set forth in claim 6 wherein said two racks are disposed in parallel.

8. Wearing equipment, characterized in that, includes the connecting component of any one of the above claims 1-7, and further includes a wearing body (100) and a functional main body (200), the wearing body (100) is provided with the base (1), and the functional main body (200) is provided with the engaging piece (2).

9. The wearing device according to claim 8, wherein the wearing device is a bracelet, a watch, an electrocardio-coat or an electrocardio-patch.

10. Wearing device according to claim 9, wherein the side wall of the boss (21) is further provided with a first contact (23), and the splice (10) is provided with a second contact (17), so that when the boss (21) is clamped by the clamping hole (11), the first contact (23) and the second contact (17) are in contact to realize data transmission.

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