CN110367638B

CN110367638B - Bandage structure and head-mounted device

Info

Publication number: CN110367638B
Application number: CN201910567025.2A
Authority: CN
Inventors: 薛原; 姜滨; 迟小羽
Original assignee: Goertek Optical Technology Co Ltd
Current assignee: Goertek Inc
Priority date: 2019-06-27
Filing date: 2019-06-27
Publication date: 2022-10-11
Anticipated expiration: 2039-06-27
Also published as: CN110367638A

Abstract

The invention belongs to the technical field of head wearing, and particularly relates to a bandage structure and head wearing equipment; the binding band structure comprises a band body and a shell which is enclosed into a slideway, one end part of the band body is inserted into the slideway, a telescopic adjusting mechanism is arranged in the slideway, and the telescopic adjusting mechanism comprises a driving device which is arranged at an interval with the end part of the band body, a telescopic mechanism which is arranged between the end part of the band body and an output part of the driving device, and an elastic stretching piece which is used for pulling the band body into the slideway; the head-mounted equipment comprises a host machine and a binding band structure, wherein a shell of the binding band structure is fixedly connected with the side part of the host machine, and a driving device is electrically connected with a PCB (printed circuit board) of the host machine. The driving device drives the telescopic mechanism to stretch and retract so as to drive the belt body to slide outwards the slideway, and the elastic stretching piece can provide the stretching force for the telescopic mechanism to retract.

Description

Bandage structure and head-mounted device

Technical Field

The invention belongs to the technical field of head wearing, and particularly relates to a bandage structure and head wearing equipment.

Background

Increasingly, the appearance of head-mounted equipment in people's daily life, at present, head-mounted equipment mainly is fixed to user's head through head hoop structure or bandage structure, and in order to match different users ' head circumference, head hoop structure or bandage structure can carry out the elasticity and adjust.

The head band structure is locked by a pawl mechanism and the tightness degree is adjusted by a gear and rack transmission mode, and the tightness degree is adjusted by adjusting the sticking position of the magic tape. Both the head band structure and the binding band structure are manually adjusted in tightness degree, and when the length of the head wearing device needs to be adjusted after the head wearing device is worn, the head wearing device needs to be removed from the head and then adjusted, so that the adjustment is very inconvenient.

Disclosure of Invention

The invention aims to provide a binding band structure and head-mounted equipment, which aim to solve the problem that the tightness degree is inconvenient to adjust manually, can automatically adjust the tightness degree according to needs and is very convenient to adjust.

The invention discloses a binding belt structure, which comprises a belt body and a shell, wherein the shell is enclosed into a slideway, one end part of the belt body is inserted into the slideway, and a telescopic adjusting mechanism is arranged in the slideway; the telescopic adjusting mechanism comprises a driving device arranged at intervals with the end part of the belt body, a telescopic mechanism arranged between the end part of the belt body and the output part of the driving device, and an elastic stretching piece used for pulling the belt body into the slideway.

As an improvement, a framework fixedly connected with the belt body is arranged in the slide way in a sliding manner, the driving device is a motor, and a cam is arranged on an output shaft of the motor; telescopic machanism is the expansion bracket, the expansion bracket is close to the first end of cam articulates in the slide, the expansion bracket is kept away from the second end of cam articulates on the skeleton, the cam can drive the expansion bracket is followed the extending direction extension of slide.

As an improvement, an installation shaft is arranged on the telescopic frame, and thrust generated when the motor drives the cam to rotate acts on the installation shaft.

As an improvement, a guide groove is arranged in the slide way corresponding to the telescopic frame, a slide block is arranged in the guide groove in a sliding manner, and the mounting shaft is inserted into the guide groove and is fixedly connected with the slide block; the installation axle cross connect in the articulated department of a set of two articulated body of rod of expansion bracket the installation axle is kept away from be fixed with the mounting cap on the tip of slider, the week side top of cam is in on the mounting cap.

As an improvement, the two expansion brackets are respectively a first expansion bracket arranged close to one side of the cam and a second expansion bracket arranged close to one side of the framework, one end of the first expansion bracket close to the cam is hinged in the slideway, one end of the second expansion bracket far away from the cam is hinged on the framework, one end of the first expansion bracket far away from the cam is hinged on the second expansion bracket, and the length of the rod body of the first expansion bracket is smaller than that of the second expansion bracket; the corresponding be connected with slidable mounting on the first expansion bracket first slider in the slide be connected with slidable mounting on the second expansion bracket second slider in the slide, the motor drives the thrust that produces when the cam rotates is in the installation epaxial of first slider.

As an improvement, a first guide groove and a second guide groove are respectively arranged at positions corresponding to the first slider and the second slider, the first guide groove is arranged at the upper part of the second guide groove, a first fixed column and a second fixed column are respectively arranged at two ends of the first guide groove on the bottom of the second guide groove b, one end of the first telescopic frame close to the cam is hinged on the first fixed column, and one end of the second telescopic frame close to the cam is hinged on the second fixed column.

As an improvement, the framework comprises a cross beam, two connecting arms and a connecting structure, the two connecting arms are fixedly connected to the two end parts of the cross beam respectively and are arranged along the extending direction of the slide way, the connecting structure is arranged on the cross beam, the end parts of the belt body inserted into the slide way are fixedly connected with the two connecting arms respectively, an avoiding notch is formed in the position, corresponding to the guide groove, of the belt body, and the second end of the telescopic frame is hinged to the connecting structure.

As an improvement, a fixed support is arranged in the slide way, the fixed support comprises a supporting plate, two sides of the supporting plate are respectively provided with a side plate, a space is reserved between the surface of the side plate and the surface of the supporting plate, and a step is formed between the side plate and the corresponding side of the supporting plate; the connecting arm is clamped on a step formed by the side plate and the supporting plate, and the guide groove is formed in the plate surface of the supporting plate.

As an improvement, the housing at both end portions of the band body, and the telescopic adjustment mechanism.

The invention discloses a head-mounted device which comprises a host and a binding belt structure, wherein a shell of the binding belt structure is fixedly connected with the side part of the host, and a driving device is electrically connected with a PCB (printed circuit board) of the host.

Due to the adoption of the technical scheme, the binding belt structure comprises a belt body and a shell which is enclosed into a slideway, wherein one end part of the belt body is inserted into the slideway, and a telescopic adjusting mechanism is arranged in the slideway and comprises a driving device, a telescopic mechanism and an elastic stretching piece, wherein the driving device is arranged at a distance from the end part of the belt body, the telescopic mechanism is arranged between the end part of the belt body and an output part of the driving device, and the elastic stretching piece is used for pulling the belt body into the slideway; the head-mounted equipment comprises a host machine and a binding band structure, wherein a shell of the binding band structure is fixedly connected with the side part of the host machine, and a driving device is electrically connected with a PCB (printed circuit board) of the host machine. The telescopic mechanism is arranged between the end part of the belt body and the output part of the driving device, the driving device can drive the telescopic mechanism to stretch and retract so as to drive the belt body to slide outwards of the slideway, so that the telescopic length of the belt body can be adjusted, and because the elastic stretching piece which pulls the belt body inwards of the slideway is arranged in the slideway, the stretching force for retracting the telescopic mechanism can be provided, and the bandage structure can be firmly fixed on the head of a user when the bandage is worn; the bandage structure and the head-mounted equipment solve the problem that the tightness degree is inconvenient to adjust manually when the head-mounted equipment is worn, can automatically adjust the tightness degree according to needs, and are very convenient to adjust.

Drawings

FIG. 1 is a perspective view of a strap configuration according to an embodiment of the present invention;

FIG. 2 is an exploded view of the strap configuration of an embodiment of the present invention;

FIG. 3 is a cross-sectional structural view of a strap structure of an embodiment of the present invention;

the device comprises a belt body 11, a belt body 12, an avoiding notch 21, a shell 22, a driving device 23, a framework 231, a beam 232, a connecting arm 233, a connecting plate 234, a connecting column 24a, a first telescopic frame 24b, a second telescopic frame 25a, a first sliding block 25b, a second sliding block 26, a cam 27a, a first guide groove 27b, a second guide groove 28a, a first fixing column 28b, a second fixing column 29, a fixing support 291, a supporting plate 292, an end plate 293 and a side plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Fig. 1 to 3 are schematic structural views of a strap structure according to an embodiment of the present invention, in which fig. 1 shows a schematic perspective structural view of the strap structure according to the embodiment of the present invention, fig. 2 shows an exploded structural view of the strap structure according to the embodiment of the present invention, and fig. 3 shows a schematic sectional structural view of the strap structure according to the embodiment of the present invention. For the sake of convenience, only the portions related to the embodiments of the present invention are shown in the drawings.

As can be seen from fig. 1, 2 and 3, the binding band structure includes a band body 11 and a casing 21 enclosing a slideway, wherein the end of the band body 11 is inserted into the slideway, and a telescopic adjusting mechanism is arranged in the slideway; the telescopic adjusting mechanism includes a driving device 22 spaced apart from the end of the belt body 11, a telescopic mechanism disposed between the end of the belt body 11 and the output portion of the driving device 22, and an elastic stretching member (not shown) for pulling the belt body 11 into the chute.

A telescopic mechanism is arranged between the end part of the belt body 11 and the output part of the driving device 22, and the driving device 22 can control the telescopic mechanism to extend towards the outer side of the slideway so as to drive the belt body 11 to slide towards the outer side of the slideway and realize loosening adjustment; because the elastic stretching piece which pulls the belt body 11 to the inside of the slideway is arranged in the slideway, when the driving device 22 controls the telescopic mechanism to retract to the inside of the slideway, the belt body 11 is pulled to slide to the inside of the slideway under the action of the tensile force of the elastic stretching piece, so as to realize tightening, and the structure of the binding belt can be firmly fixed on the head of a user when the binding belt is worn; the band structure can realize loosening adjustment by controlling the extension of the telescopic mechanism through the driving device 22, can realize tightening adjustment by controlling the retraction of the telescopic mechanism and the tension action of the elastic stretching piece through the driving device 22, does not need to manually adjust the tightness degree any more, solves the problem that the tightness degree is inconvenient to manually adjust when the head-mounted equipment is worn, can automatically adjust the tightness degree as required, and is very convenient to adjust.

In the embodiment, a framework 23 fixedly connected with the belt body 11 is slidably mounted in the slide way, the driving device 22 is a motor, and a cam 26 is mounted on an output shaft of the motor; the telescopic mechanism is a telescopic frame, a first end of the telescopic frame, close to the cam 26, is hinged in the slideway, a second end of the telescopic frame, far away from the cam 26, is hinged on the framework 23, and the cam 26 can drive the telescopic frame to extend towards the outer side of the slideway. An elastic tension member, which is an elastic cord or a spring, is connected between the skeleton 23 and the first end of the telescopic frame.

In order to facilitate the cam 26 to drive the telescopic frame to extend towards the outer side of the slideway, an installation shaft is arranged on the telescopic frame, and the thrust acted on the installation shaft by the cam 26 pushes the telescopic frame to extend towards the outer side of the slideway. Specifically, a guide groove is formed in the slide way corresponding to the telescopic frame, the guide groove is a T-shaped groove or a dovetail groove, a slide block is slidably mounted in the guide groove, a mounting shaft is inserted into the guide groove and fixedly connected with the slide block, generally, the mounting shaft penetrates through the hinged position of a group of two hinged rod bodies of the telescopic frame, a mounting cap is fixed on the end portion of the mounting shaft far away from the slide block, and the peripheral side of the cam 26 abuts against the mounting cap. A fixed column is arranged at the position of the guide groove close to the cam 26, and the first end of the telescopic frame is hinged on the fixed column.

In order to increase the telescopic adjustment speed and increase the telescopic adjustment range, the two telescopic frames are respectively a first telescopic frame 24a arranged on one side close to the cam 26 and a second telescopic frame 24b arranged on one side close to the framework 23, one end of the first telescopic frame 24a close to the cam 26 is hinged in the slideway, one end of the second telescopic frame 24b far away from the cam 26 is hinged on the framework 23, one end of the first telescopic frame 24a far away from the cam 26 is hinged on the second telescopic frame 24b, and the length of the rod body of the first telescopic frame 24a is smaller than that of the second telescopic frame 24b, as shown in the structure of fig. 2; correspondingly, a first slide block 25a which is slidably mounted in the slide way is connected to the first telescopic frame 24a, a second slide block 25b which is slidably mounted in the slide way is connected to the second telescopic frame 24b, and the cam 26 can drive the first slide block 25a to slide towards the outer side of the slide way.

The first slider 25a and the second slider 25b are respectively slidably mounted in the guide grooves, specifically, the first guide groove 27a and the second guide groove 27b are respectively arranged at the positions corresponding to the first slider 25a and the second slider 25b, because the first expansion bracket 24a and the second expansion bracket 24b are partially arranged in a staggered manner, and the first expansion bracket 24a and the second expansion bracket 24b are arranged on different planes, the first guide groove 27a is arranged at the upper part of the second guide groove 27b, the first fixing column 28a and the second fixing column 28b are respectively arranged at the two ends of the first guide groove 27a on the bottom of the second guide groove 27b, one end of the first expansion bracket 24a close to the cam 26 is hinged on the first fixing column 28a, and one end of the second expansion bracket 24b close to the cam 26 is hinged on the second fixing column 28 b; since the length of the rod body of the first telescopic frame 24a is smaller than that of the rod body of the second telescopic frame 24b, when the telescopic length is adjusted, the sliding distance of the first slider 25a is smaller than that of the second slider 25b, and therefore, the whole length of the corresponding first guide groove 27a is smaller than that of the second guide groove 27 b.

At this time, the elastic stretching member may be further disposed between the first fixing post 28a and the first slider 25a, or between the second fixing post 28b and the second slider 25 b.

In this embodiment, the framework 23 includes a cross beam 231, two connecting arms 232 respectively fixedly connected to two end portions of the cross beam 231 and arranged along the extending direction of the slideway, and a connecting structure arranged on the cross beam 231, the end portion of the belt body 11 inserted into the slideway is respectively fixedly connected with the two connecting arms 232, an avoiding notch 12 is arranged on the belt body 11 corresponding to the guide slot, and the second end of the telescopic frame is hinged on the connecting structure.

Specifically, the end of the second expansion bracket 24b away from the cam 26 is hinged to a connecting structure, the connecting structure comprises a connecting plate 233 fixedly connected to the cross beam 231 and a connecting column 234 fixed to the connecting plate 233, and the hinged position of a set of two hinged rod bodies at the end of the second expansion bracket 24b is sleeved on the connecting column 234.

Usually, the connecting plate 233 is inserted into the guide slot, a fixing plate passing through the slot of the guide slot is connected between the connecting plate 233 and the cross beam 231, and the connecting column 234 passes through the slot of the guide slot. The connecting plate 233 is disposed in the guiding slot to facilitate the framework 23 sliding in the sliding way and to guide the framework 23 sliding.

In order to facilitate processing, production and installation, a fixed support 29 is arranged in the slideway, the fixed support 29 comprises a supporting plate 291, side plates 293 are respectively arranged on two sides of the supporting plate 291, a space is reserved between the surface of the side plate 293 and the surface of the supporting plate 291, a step is formed between the side plate 293 and the corresponding side of the supporting plate 29, and a connecting arm 232 is clamped on the step formed by the side plate 293 and the supporting plate 29; the guide groove is provided on the plate surface of the plate 291. The step formed between the side plate 293 and the support plate 29 can guide and limit the sliding movement of the connecting arm 232.

The end plate 292 is fixedly connected to one end, far away from the framework 23, of the supporting plate 291, the end plate 292 can be clamped in the slide way to fixedly connect the fixing support 29 with the slide way, and the end plate 292 can also be fixedly connected with the shell 21 through screws to fixedly connect the fixing support 29 with the slide way.

Typically, the plate 291, the two side plates 293, the guide grooves, and the end plate 292 are of a unitary construction and are integrally formed by injection molding.

In the present embodiment, the housing 21 and the expansion and contraction adjusting mechanism are respectively provided at both ends of the belt body 11, so that the expansion and contraction lengths at both ends of the belt body 11 can be adjusted at the same time, and the adjustment efficiency can be improved.

The embodiment of the invention also relates to a head-mounted device which comprises a main machine and the bandage structure, wherein the shell 21 of the bandage structure is fixedly connected with the side part of the main machine, the driving device 22 is electrically connected with the PCB of the main machine, and the main machine is provided with a control switch connected with the driving device 22 in series. Specifically, the control switch may be a touch button or a push button.

The control switch is pressed to enable a loop of the driving device 22 to be connected with the mainboard in an electric connection mode, the driving device 22 is powered on to work, the telescopic mechanism is controlled by the driving device 22 to extend towards the outer side of the slideway, and the belt body 11 is driven to slide towards the outer side of the slideway, so that loosening adjustment is achieved; because the elastic stretching piece which pulls the belt body 11 to the inside of the slideway is arranged in the slideway, when the driving device 22 controls the telescopic mechanism to retract to the inside of the slideway, the belt body 11 is pulled to slide to the inside of the slideway under the action of the tensile force of the elastic stretching piece, so as to realize tightening, and the structure of the binding belt can be firmly fixed on the head of a user when the binding belt is worn; the head-mounted equipment can realize loosening adjustment by controlling the extension of the telescopic mechanism through the driving device 22, can realize tightening adjustment by controlling the retraction of the telescopic mechanism and the tension action of the elastic stretching piece through the driving device 22, does not need to manually adjust the tightness degree any more, solves the problem that the tightness degree is inconvenient to manually adjust when the head-mounted equipment is worn, can automatically adjust the tightness degree as required, and is very convenient to adjust.

The above description is only exemplary of the present invention and should not be taken as limiting the invention, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A bandage structure comprises a bandage body and is characterized by further comprising a shell which is enclosed into a slideway, one end of the bandage body is inserted into the slideway, and a telescopic adjusting mechanism is arranged in the slideway; the telescopic adjusting mechanism comprises a driving device arranged at an interval with the end part of the belt body, a telescopic mechanism arranged between the end part of the belt body and the output part of the driving device, and an elastic stretching piece used for pulling the belt body into the slideway;

a framework fixedly connected with the belt body is arranged in the slideway in a sliding manner; the telescopic mechanism is a telescopic frame, a first end, close to the driving device, of the telescopic frame is hinged in the slideway, and a second end, far away from the driving device, of the telescopic frame is hinged on the framework;

the telescopic frame is provided with a mounting shaft, and the mounting shaft is connected at the hinge joint of a group of two hinge rod bodies of the telescopic frame in a penetrating manner; a guide groove is formed in the slide way corresponding to the telescopic frame, a sliding block is arranged in the guide groove in a sliding mode, and the mounting shaft is inserted into the guide groove and is fixedly connected with the sliding block;

the driving device is a motor, a cam is arranged on an output shaft of the motor, and thrust generated when the motor drives the cam to rotate acts on the mounting shaft; the telescopic frame is provided with two, is being close to respectively first telescopic frame that cam one side set up, be close to the second telescopic frame that skeleton one side set up, first telescopic frame is close to the one end of cam articulates in the slide, the second telescopic frame is close to the one end of cam articulates in the slide the second telescopic frame is kept away from the one end of cam articulates on the skeleton, first telescopic frame is kept away from the one end of cam articulates on the second telescopic frame, the body of rod length of first telescopic frame is less than the body of rod length of second telescopic frame, the correspondence be connected with slidable mounting on the first telescopic frame first slider in the slide be connected with slidable mounting on the second telescopic frame second slider in the slide, the motor drives the thrust that produces when the cam rotates is in the installation epaxial of first slider.

2. The strap configuration of claim 1, wherein a mounting cap is secured to an end of said mounting shaft distal from said slide block, a peripheral side edge of said cam bearing against said mounting cap.

3. The strap structure according to claim 1, wherein a first guide groove and a second guide groove are respectively formed at positions corresponding to the first slider and the second slider, the first guide groove is formed at an upper portion of the second guide groove, a first fixing post and a second fixing post are respectively formed at two ends of the first guide groove on a bottom of the second guide groove, one end of the first expansion bracket close to the cam is hinged to the first fixing post, and one end of the second expansion bracket close to the cam is hinged to the second fixing post.

4. The strap structure according to claim 2, wherein the frame includes a cross member, two connecting arms fixedly connected to both end portions of the cross member, respectively, and arranged along an extending direction of the chute, and a connecting structure provided on the cross member, wherein an end portion of the strap inserted into the chute is fixedly connected to the two connecting arms, respectively, an avoidance notch is provided on the strap corresponding to the guide groove, and the second end of the expansion bracket is hinged to the connecting structure.

5. The strap structure according to claim 4, wherein a fixing bracket is provided in the slide, the fixing bracket includes a support plate, side plates are provided on both sides of the support plate, respectively, a space is left between a face of the side plate and a face of the support plate, and a step is formed between the side plate and a corresponding side of the support plate; the connecting arm is clamped on a step formed by the side plate and the supporting plate, and the guide groove is formed in the plate surface of the supporting plate.

6. The band structure according to any one of claims 1 to 5, wherein the case and the expansion and contraction adjusting mechanism are provided at both end portions of the band body, respectively.

7. A head-mounted apparatus comprising a main unit, further comprising a strap structure according to any one of claims 1 to 6, wherein the housing of the strap structure is fixedly connected to a side portion of the main unit, and wherein the driving device is electrically connected to a PCB of the main unit.