CN219579666U - Wearable sleeping instrument - Google Patents

Abstract

The utility model relates to a wearable sleeping instrument, which comprises a functional host and a deformation wearing part, wherein the deformation wearing part can be integrally and automatically curled and worn on limbs by actively bending a local position; the deformation wearing belt is provided with an electrode part, the functional host comprises an electric pulse generator for generating electric pulse waves, and the electric pulse generator is electrically connected with the electrode part; the electrode assembly is in contact with the limb when the variant wear curl is worn on the limb. The wearable sleeping instrument is convenient and quick to wear, and reliable and stable performance of the sleeping instrument is guaranteed.

Description

Wearable sleeping instrument

Technical Field

The utility model relates to a sleeping instrument, in particular to a wearable sleeping instrument.

Background

The sleeping instrument is a physiotherapy instrument for helping human sleep; it uses electromagnetic stimulation bionic wave technique to help people sleep. When the traditional sleeping instrument is used, a user needs to hold the sleeping instrument in a hand to ensure that a human body is contacted with the electrode plate on the sleeping instrument, but when the user enters a sleeping state, the sleeping instrument is easy to loose or fall off from the hand, so that the electrode plate is in poor contact with the human body, and the effectiveness of the sleeping instrument is further affected. For example, chinese patent document CN215083886U discloses a palm sleep aid instrument, and specifically discloses: the circuit board assembly is arranged in the shell, a knob switch is arranged on the circuit board assembly in an electric connection mode, an adjusting end of the knob switch extends out of the shell and is fixedly connected with a knob switch cap, a first electrode piece and a second electrode piece are arranged on the same side of the outer wall surface of the shell, and the first electrode piece and the second electrode piece are arranged in an insulating separation mode and are electrically connected with the circuit board assembly; working principle: the first electrode part and the second electrode part face the palm center, the palm holds the sleep assisting instrument to form a micro-current loop, and the low-frequency pulse current passes through the palm Laogong acupoint to transfer current, so that the aim of promoting sleep is fulfilled. However, such a sleep aid has no effective wearing structure, and the sleep aid is easily loosened or fallen off to cause failure when a user sleeps. Therefore, there is a need for further improvements to existing sleep instruments.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides a wearable sleeping instrument which is convenient and quick to wear and ensures reliable and stable performance.

The purpose of the utility model is realized in the following way:

a wearable sleeping instrument comprises a functional host and a deformation wearing part, wherein the deformation wearing part can be integrally and automatically curled and worn on a limb by actively bending a local position, and the functional host is arranged on the deformation wearing part; the deformation wearing belt is provided with an electrode part, the functional host comprises an electric pulse generator for generating electric pulse waves, and the electric pulse generator is electrically connected with the electrode part; the electrode assembly is in contact with the limb when the variant wear curl is worn on the limb.

As a specific scheme, the section of the deformed wear is arc-shaped, the functional host is arranged on the inner side of the arc of the deformed wear, and the electrode part is at least partially exposed on the outer side of the arc of the deformed wear.

As a further specific scheme, the deformation wear comprises a strip-shaped deformation metal body, and the section of the deformation metal body is arc-shaped; the surface of the deformed metal body is coated with a soft and insulating layer so that the deformed wear and the electrode parts are respectively in insulating fit with each other.

As a further specific scheme, the functional host comprises a conductive component and a first fastening unit; the electric pulse generator is electrically connected with one end of the conductive part, and the other end of the conductive part is in fastening electrical connection with the electrode part through the first fastening unit.

As a further specific scheme, the functional host also comprises a host shell, wherein the host shell is provided with a connecting sleeve, and the deformed wearing belt is provided with a connecting hole; the electrode part passes through the connecting hole and then is spliced with the connecting sleeve, and the electrode part is fixedly connected with the first fastening unit.

As a further specific scheme, the first fastening unit is provided with a pressing head and a stud, the electrode part is provided with a contact head and a connecting column, and the conductive part is provided with a conductive ring; the deformation wear is clamped between the host shell and the contact; the screw bolt is in conductive threaded connection with the screw hole on the connecting column; the conducting ring is clamped between the pressing head and the connecting column; when the sleep instrument is worn on a limb, the contact head is in contact with the limb.

As a further specific scheme, the functional host further comprises a control circuit board and a power supply module, wherein the electric pulse generator and the power supply module are respectively and electrically connected with the control circuit board, and the power supply module supplies electric energy for the electric pulse generator.

As a further specific scheme, a control key and an indication module are arranged on the control circuit board, a control area and an indication area are arranged on the functional host, the control key corresponds to the control area, and the indication module corresponds to the indication area.

As a further specific scheme, a charging connector is arranged on the control circuit board, the charging connector is exposed out of the functional host, and the power supply module is electrically connected with an external power supply through the charging connector.

As a further embodiment, the deformation is worn as a snap ring.

The beneficial effects of the utility model are as follows:

the functional host can be quickly worn on limbs (including wrists, ankles and the like) through deformation wearing, and in the wearing state, the electrode component is in stable contact with the limbs, so that electric pulse waves generated by the electric pulse generator are ensured to effectively act on the limbs, a guiding effect is generated on respiration and brain waves of a user before sleeping, and the respiration frequency and the brain wave frequency before sleeping are gradually guided to the respiration frequency and the brain wave frequency during slow wave sleeping, thereby achieving the purpose of inducing sleeping; the deformation wear in the instrument has the characteristic that the whole body can be automatically curled and worn by actively bending the local position, so that the wear is very convenient, the wear stability is good, the deformation wear can automatically adapt to the size of limbs, the use experience of a user is improved, and the effective operation of the sleeping instrument is ensured.

Drawings

Fig. 1 and fig. 2 are schematic views of different orientations of a sleep device in a non-wearing state according to an embodiment of the present utility model.

Fig. 3 is a side view of a sleep monitor according to an embodiment of the present utility model.

Fig. 4 is a sectional view in the direction H-H of fig. 3.

Fig. 5 is a cross-sectional view of a sleep monitor in accordance with an embodiment of the present utility model.

Fig. 6 is an enlarged view of the K portion in fig. 4.

Fig. 7 is a perspective view showing a wearing state of the sleep apparatus according to an embodiment of the present utility model.

Fig. 8 is a side view of a sleep apparatus in a worn state according to an embodiment of the present utility model.

Fig. 9 is a schematic diagram of a sleep apparatus according to an embodiment of the present utility model.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1-9, the sleeping instrument according to the present embodiment includes a functional host a and a deformation wearing 10 capable of being integrally and automatically curled and worn on a limb B (including a wrist, an ankle, etc.) by actively bending a local position, wherein the functional host a is fixedly arranged at the top of the deformation wearing 10; the bottom of the variant wear 10 is fixedly provided with an electrode component, and the functional host A comprises an electric pulse generator (not shown in the figure) for generating electric pulse waves, and the electric pulse generator is electrically connected with the electrode component; when the variant wear 10 is crimped over the limb B, the electrode member is in contact with the limb B. In the sleeping instrument, the functional host A can be quickly worn on the limb B through the deformation of the wearing 10, and in the wearing state, the electrode component is in stable contact with the limb B, so that the electric pulse wave generated by the electric pulse generator can effectively act on the limb B, the respiration and the brain wave of a user before sleeping can be guided, and the respiration frequency and the brain wave frequency before sleeping can be gradually guided to the respiration frequency and the brain wave frequency during slow wave sleeping, thereby achieving the purpose of inducing sleeping; the deformation wearing 10 in the sleeping instrument has the characteristic that the sleeping instrument can be automatically curled and worn integrally by actively bending the local position, so that the sleeping instrument is very convenient to wear and has good wearing stability, the deformation wearing 10 can be automatically adapted to the size of limbs, the use experience of a user is improved, and the sleeping instrument is ensured to work effectively.

Further, referring to fig. 3, the variant wear 10 is arcuate in cross-section; the functional host A is arranged on the arc-shaped inner side of the deformation wear 10, namely the concave side of the deformation wear 10; the electrode part is at least partially exposed out of the arc-shaped outer side of the deformation wear 10, namely the outer convex side of the deformation wear 10; when the deformation wear 10 is curled, the section of the deformation wear 10 is changed from an arc shape to a straight shape, and as the deformation wear 10 is elastically curled, the deformation wear can effectively adapt to the size of limbs B of different users, has good adaptability and is more convenient to wear.

Further, the variant wear 10 includes a strip-shaped variant metal body 1001, the cross section of the variant metal body 1001 is arc-shaped, the variant metal body 1001 is a support body of the variant wear 10, and an automatic curling effect is achieved; the surface of the deformed metal body 1001 is coated with a soft and insulating layer 1002 to make the deformed wear 10 and the electrode member fit with each other in an insulating manner; the insulating layer 1002 in this embodiment is preferably a skin-friendly material, which has a good hand feeling on the one hand and does not hurt hands on the other hand.

Further, the functional host a includes a conductive member 6 and a first fastening unit 5; the electric pulse generator is electrically connected to one end of the conductive member 6, and the other end of the conductive member 6 is fixedly and electrically connected to the electrode member through the first fastening unit 5. Specifically, the first fastening unit 5 is screwed with the electrode part, so that the function main body a and the variant wear 10 are mounted and connected with each other; the conductive part 6 is clamped between the first fastening unit 5 and the electrode part, so that the other end of the conductive part 6 is electrically connected with the electrode part; the electrode parts in the present embodiment include a first electrode part 11 and a second electrode part 13, the conductive parts 6 are provided in two and respectively correspond to the first electrode part 11 and the second electrode part 13 one by one, and the conductive parts 6 are electrically connected to the corresponding electrode parts.

Further, the functional host a further comprises a host shell, the host shell is provided with a connecting sleeve 701, the deformation wear 10 is provided with a connecting hole 1003, and the connecting hole 1003 and the connecting sleeve 701 are respectively provided with two electrode parts in one-to-one correspondence; the electrode part is inserted into the connecting sleeve 701 after passing through the connecting hole 1003, and is fastened and connected with the first fastening unit 5.

Further, the first fastening unit 5 is provided with a pressing head 501 and a stud 502, and the pressing head 501 is arranged at the top end of the stud 502; the first fastening unit 5 and the electrode parts are respectively made of conductive metal materials, the first electrode part 11 is provided with a contact 1101 and a connecting column 1102 (the first electrode part 11 and the second electrode part 13 are basically identical in structure, so the second electrode part 13 is also provided with the contact 1101 and the connecting column 1102, the first electrode part 11 is taken as an example for illustration in the embodiment), the contact 1101 is arranged at the bottom end of the connecting column 1102, and the contact 1101 is provided with an arc surface which is contacted with the limb B to ensure comfort; the other end of the conductive part 6 is provided with a conductive ring 601; the variant wear 10 is clamped between the bottom of the main body shell and the contact 1101, so that the functional main body A is firmly connected with the variant wear 10; the stud 502 passes through a central hole on the conductive ring 601, and the stud 502 is in conductive threaded connection with a screw hole on the inner side of the connecting column 1102; the conductive ring 601 is clamped between the pressing head 501 and the connecting column 1102, so that the conductive component 6 is electrically connected with the electrode component; when the sleeping apparatus is worn on the limb B, the arc surface on the contact 1101 is contacted with the limb B; the first fastening unit 5 in this embodiment is preferably a screw.

Further, the functional host a further comprises a control circuit board 4 and a power supply module 8, the electric pulse generator and the power supply module 8 are respectively and electrically connected with the control circuit board 4, and the power supply module 8 supplies electric energy for the electric pulse generator; the control circuit board 4 and the power supply module 8 are respectively and fixedly arranged in the main machine shell, and the electric pulse generator is integrated on the control circuit board 4.

Further, a control key 3 and an indication module 2 are arranged on the control circuit board 4, a control area 102 and an indication area 101 are arranged on the functional host A (the top surface of the host shell), the control key 3 corresponds to the control area 102, and the indication module 2 corresponds to the indication area 101; the indication module 2 can emit lights with different colors and/or frequencies to reflect different working states of the sleeping instrument.

Further, a charging connector 12 is arranged on the control circuit board 4, the charging connector 12 is exposed out of the functional host A (the side part of the host shell), and the power supply module 8 is electrically connected with an external power supply through the charging connector 12; specifically, the user can connect charging wire one end through the charging connector 12, and the charging wire other end is connected with external power sources such as city electricity or treasured that charges, and then can charge power module 8, guarantees sleep appearance sustainable use.

Further, the main body case includes a first case 1 and a second case 7 fitted to each other, the first case 1 and the second case 7 are fastened to each other by a second fastening unit 9, the second fastening unit 9 preferably being a screw; a containing cavity is formed between the first shell 1 and the second shell 7, and a control circuit board 4, a conductive part 6, a power supply module 8 and various electrical components (an electric pulse generator, a control key 3, an indication module 2 and the like) on the control circuit board 4 are respectively arranged in the containing cavity; the connecting sleeve 701 is integrally formed on the second housing 7; the control area 102 and the indication area 101 are respectively integrally formed on the first shell 1; the charging connector 12 is exposed to the second housing 7.

Further, the variant wear 10 is a snap ring.

The foregoing is a preferred embodiment of the utility model showing and describing the general principles, features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, which have been described in the foregoing description merely illustrates the principles of the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. A wearable sleep meter, characterized by: the device comprises a functional host machine (A) and a deformation belt (10) which can be automatically curled and worn on a limb (B) integrally at a local position of active bending, wherein the functional host machine (A) is arranged on the deformation belt (10); the deformation wear (10) is provided with an electrode component, and the functional host machine (A) comprises an electric pulse generator for generating electric pulse waves, and the electric pulse generator is electrically connected with the electrode component; the electrode member is in contact with the limb (B) when the variant wear (10) is worn in a curled condition on the limb (B).

2. The wearable sleep device of claim 1, wherein: the section of the deformation wear (10) is arc-shaped, the functional host machine (A) is arranged on the arc-shaped inner side of the deformation wear (10), and the electrode part is at least partially exposed out of the arc-shaped outer side of the deformation wear (10).

3. The wearable sleep device of claim 2, wherein: the deformation wear (10) comprises a strip-shaped deformation metal body (1001), and the section of the deformation metal body (1001) is arc-shaped; the surface of the deformed metal body (1001) is coated with a soft and insulating layer (1002) so that the deformed wear (10) and the electrode member are respectively in insulating fit with each other.

4. The wearable sleep device of claim 1, wherein: the functional host (A) comprises a conductive component (6) and a first fastening unit (5); the electric pulse generator is electrically connected with one end of the conductive component (6), and the other end of the conductive component (6) is in fastening electrical connection with the electrode component through the first fastening unit (5).

5. The wearable sleep device of claim 4, wherein: the functional host machine (A) further comprises a host machine shell, a connecting sleeve (701) is arranged on the host machine shell, and a connecting hole (1003) is arranged on the deformation belt (10); the electrode part passes through the connecting hole (1003) and then is spliced with the connecting sleeve (701), and the electrode part is fixedly connected with the first fastening unit (5).

6. The wearable sleep device of claim 5, wherein: the first fastening unit (5) is provided with a pressing head (501) and a stud (502), the electrode part is provided with a contact head (1101) and a connecting column (1102), and the conductive part (6) is provided with a conductive ring (601); the deformation wear (10) is clamped between the host shell and the contact head (1101); the stud (502) is in conductive threaded connection with a screw hole on the connecting column (1102); the conductive ring (601) is clamped between the pressing head (501) and the connecting column (1102); the contact head (1101) is in contact with the limb (B) when the sleep apparatus is worn on the limb (B).

7. The wearable sleep device of claim 1, wherein: the functional host (A) further comprises a control circuit board (4) and a power supply module (8), wherein the electric pulse generator and the power supply module (8) are respectively and electrically connected with the control circuit board (4), and the power supply module (8) supplies electric energy for the electric pulse generator.

8. The wearable sleep device of claim 7, wherein: control circuit board (4) is last to be provided with control key (3) and instruction module (2), be provided with control district (102) and instruction district (101) on function host computer (A), control key (3) with control district (102) correspond, instruction module (2) with instruction district (101) correspond.

9. The wearable sleep device of claim 7, wherein: the control circuit board (4) is provided with a charging connector (12), the charging connector (12) is exposed out of the functional host (A), and the power supply module (8) is electrically connected with an external power supply through the charging connector (12).

10. The wearable sleep device of any one of claims 1-9, wherein: the deformation belt (10) is a snap ring.