CN220983653U - Ski goggles structure - Google Patents

Abstract

The utility model discloses a skiing goggles structure, which belongs to the technical field of eyeglass structures and comprises a frame assembly, wherein inner sleeve brackets are symmetrically arranged on two sides of the frame assembly, each inner sleeve bracket comprises an upper bracket arm and a lower bracket arm, and the ends of the lower bracket arms are respectively clamped at symmetrical shaft positions close to an upper frame and a lower frame of the frame assembly through buckles. The frame component is a frame main body part of the goggles, the two sides of the frame component are nested with the inner sleeve brackets, so that the integral strength of the goggles frame can be enhanced, the inner sleeve brackets are provided with an upper bracket arm and a lower bracket arm, the upper frame and the lower frame of the frame component extend to the middle position, namely, the inner sleeve brackets occupy most of the annular space of the frame component, and the strength of the goggles frame is greatly enhanced.

Description

Ski goggles structure

Technical Field

The present utility model relates to goggles, and more particularly to a ski goggles structure.

Background

The goggles for skiing usually need to be replaced with a lens component, but the frames of the goggles are generally made of softer materials so as to meet the comfort of wearing of users, and when the lens component is replaced, the frames are easy to deform after being stressed, so that the frames are easy to damage and damage, and the frame strength of the goggles is required to be enhanced under the condition of meeting the comfort of users.

For example: chinese patent publication No. CN109662826B, publication No. 2021, 11/2, entitled goggle and method for removing lens assembly from goggle frame, discloses a goggle structure comprising goggle frame coupled with lens assembly by magnet, which can have various means of disassembly of lens assembly and reduce the difficulty of disassembly, but in which the structural strength of goggle frame is not high, and the goggle frame is easily deformed when receiving a large disassembly force, resulting in damage to goggle frame.

Disclosure of utility model

The utility model solves the problem that the goggle frame is easy to deform when the lens component of the goggle is disassembled, and provides the skiing goggle structure.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a skiing goggles structure, includes the frame subassembly, frame subassembly bilateral symmetry is equipped with the endotheca support, the endotheca support includes upper bracket arm and lower bracket arm, the tip of lower bracket arm and lower bracket arm passes through the buckle and is in the symmetry axis position that is close to frame subassembly upper frame and lower frame respectively. The frame component is a frame main body part of the goggles, the inner sleeve brackets are nested at two sides of the frame component, so that the integral strength of the goggles frame can be enhanced, the inner sleeve brackets are provided with an upper bracket arm and a lower bracket arm, the upper frame and the lower frame of the frame component extend to the middle position, namely, the inner sleeve brackets occupy most of the annular space of the frame component, and the strength of the goggles frame is greatly enhanced.

Preferably, the inner sleeve support is provided with a plug hole corresponding to the side frame of the frame assembly, the inner sleeve support is provided with a locking sliding sheet corresponding to the plug hole, and the locking sliding sheet is provided with a deflector rod which is in sliding connection in the plug hole. The spliced eye sets up in the side frame position and is favorable to the user to dismantle the lens, and the card lock gleitbretter slides in the spliced eye and can lock or loosen the lens subassembly to realize the dismouting of lens subassembly, the driving lever provides the application of force position for the user, makes the dismouting of lens constitution become very simple.

Preferably, one end of the locking sliding sheet is provided with a bayonet corresponding to the plug hole. The bayonet is mainly used for clamping the lens assembly, so that the lens assembly is connected and matched with the frame assembly, and the lens assembly can slide relative to the bayonet, so that the lens assembly can be locked and unlocked on the bayonet.

Preferably, a limiting groove is formed in one end, far away from the bayonet, of the locking sliding sheet, an elastic piece is arranged in the limiting groove, and the elastic piece is connected with the limiting groove and the frame assembly. The elastic component on the spacing groove is compression spring to set up in the position that is close to the frame, when the kayser gleitbretter was in free state, the inside restoring force of compression spring can make the kayser gleitbretter be in locking state all the time, only stir the driving lever, make compression spring after further compression, just can make the kayser gleitbretter open, thereby improved the stability and the joint strength of lens subassembly on the frame subassembly.

Preferably, the lens assembly is matched with the frame assembly, the lens assembly comprises a hard frame, and an outer lens and an inner lens are respectively fixed on two sides of the hard frame. The outer lens on the lens assembly plays a protective role on the inner lens, the hard frame provides an installation position for the inner lens and the outer lens, and the hard frame is not easy to deform, so that the connection strength of the inner lens and the outer lens and the hard frame is higher.

Preferably, a plurality of first magnet grooves are formed in the border of the hard frame, a second magnet groove is formed in the frame assembly at the position corresponding to the first magnet grooves, and magnets are arranged in the first magnet grooves and the second magnet grooves. The hard frame is the structure of lens subassembly, sets up the magnet groove on hard frame and frame subassembly, mainly used installs the magnet, through the magnet effort on two structures, can be with lens subassembly and frame subassembly adhesion to it is also very convenient when dismantling.

Preferably, the inner sleeve bracket is positioned between the frame component and the lens component, and a third magnet groove is arranged at the position of the inner sleeve bracket corresponding to the first magnet groove. The inner sleeve support is embedded in the frame component and also needs to be in contact with the lens component, and the third magnet groove is formed in the inner sleeve support for installing the magnet, so that adsorption force is generated between the inner sleeve support and the lens component, the whole lens component is adsorbed and adhered by the frame component, and the connection stability of the lens component is improved.

Preferably, the hard frame is provided with buckling feet corresponding to the plug-in holes. The hard frame is provided with a buckling pin which can be matched and connected with the plug-in hole on the inner sleeve support and buckled with the inner sleeve support, so that the lens component is fixedly connected with the frame component, and the lens component is prevented from falling off from the frame component.

Preferably, the end part of the buckling foot is conical, and the end part of the buckling foot is also provided with a barb. The end part of the buckling pin is arranged into a cone shape, so that the guiding effect can be achieved for the buckling pin to be inserted into the plug hole, and the barb at the end part of the buckling pin can smoothly enter the plug hole and be matched and locked with the plug hole.

Preferably, the frame assembly further comprises elastic bands, clamping grooves are formed in two sides of the frame assembly, connecting grooves are formed in positions, corresponding to the clamping grooves, of the inner sleeve support, and the elastic bands penetrate through the clamping grooves to be clamped with the connecting grooves in the inner sleeve support. The elastic band is mainly used for fixing the goggles on the head of a user, the size of the elastic band can be adjusted, the elastic band is suitable for various types of users, and the elastic band is connected to the connecting groove of the inner sleeve support so that the tensile force generated by the elastic band is concentrated on the inner sleeve support as much as possible, so that the stress of the frame assembly can be reduced, and the deformation of the frame assembly is prevented.

Compared with the prior art, the utility model has the beneficial effects that: (1) The structural strength of the goggles frame is higher, deformation is not easy to occur, and the replacement of the lens component is facilitated; (2) The lens assembly is provided with a lock catch structure, so that the connection strength of the lens assembly and the frame assembly is improved, and the lens assembly and the frame assembly are not easy to fall off; and (3) the structure is compact, the use is convenient, and the practicability is higher.

Drawings

Fig. 1 is an exploded view of the present utility model.

Fig. 2 is a schematic diagram of the overall structure of the present utility model.

FIG. 3 is a schematic view showing the separation of the latch slide and the latch leg according to the present utility model.

FIG. 4 is a schematic view of the locking slide and the locking foot of the present utility model.

FIG. 5 is a schematic view of an inner housing bracket and lens assembly of the present utility model.

Fig. 6 is an oblique top view of the present utility model.

Fig. 7 is an oblique bottom view of the present utility model.

Fig. 8 is a schematic diagram of embodiment 2 of the present utility model.

FIG. 9 is a schematic view showing the assembly of the latch slide, the inner housing bracket and the lens assembly according to embodiment 2 of the present utility model.

FIG. 10 is a schematic view of the hard frame and frame assembly, inner sleeve mount of FIG. 9 in the direction A-A.

Fig. 11 is a cross-sectional view A-A of fig. 9.

In the figure: 1. the device comprises a frame component, an inner sleeve bracket, an upper bracket arm, a lower bracket arm, a buckle, a plug hole, a locking sliding sheet, a driving rod, a bayonet, a limiting groove, an elastic piece, a lens component, a hard frame, an elastic band, an outer lens and an outer lens, wherein the frame component, the inner sleeve bracket, the upper bracket arm, the lower bracket arm, the buckle, the plug hole, the locking sliding sheet, the driving rod, the bayonet and the limiting groove are respectively arranged in sequence, the limiting groove, the elastic piece, the lens component, the hard frame, the elastic band and the outer lens are respectively arranged in sequence, the elastic band is respectively arranged in sequence, the upper bracket arm and the lower bracket arm, the buckle and the plug hole, the locking sliding sheet are respectively arranged in sequence, the upper bracket arm, the clip and the lower bracket arm, the clip and inner lens 17, first magnet slot 18, second magnet slot 19, magnet 20, third magnet slot 21, foot, 22, barb, 23, slot 24, connecting slot 25, caulking slot 26, adhesive strip 27, perforation 28, chute 29, stopper 30, barb stop.

Detailed Description

The technical scheme of the utility model is further specifically described below through specific embodiments and with reference to the accompanying drawings.

Example 1: the skiing goggles structure shown in fig. 1 to 7 comprises a frame component 1 and a lens component 12, wherein the frame component 1 and the lens component 12 are detachably connected, the frame component 1 is of a symmetrical structure, the top of the frame component 1 is relatively flat, a groove is formed in the lower portion of the frame component, the embedded groove 25 is formed in the frame component 1 corresponding to the nose bridge position of a user, the embedded groove 25 is circumferentially distributed in the frame component 1, two inner sleeve brackets 2 are embedded in the embedded groove 25, the inner sleeve brackets 2 are distributed in the frame component 1 left and right, the inner sleeve brackets 2 comprise an upper bracket arm 3 and a lower bracket arm 4, the upper bracket arm 3 and the lower bracket arm 4 are thickened from end to middle, the overall strength of the middle of the upper bracket arm 3 and the lower bracket arm 4 is higher, the side frame strength of the frame component 1 is higher, a buckle 5 is further arranged in the embedded groove 25 in the middle of the frame component 1, and the end parts of the upper bracket arm 3 and the lower buckle arm 4 are fixed in the frame component 5, so that the whole inner sleeve bracket 2 and the frame component 1 are relatively fixed.

The lens assembly 12 includes an inner lens 15, an outer lens 16 and a hard frame 13, the outer lens 16 is disposed on the convex side of the hard frame 13, the inner lens 15 is disposed on the concave side of the hard frame 13, and the outer lens 16 and the inner lens 15 are adhered to the hard frame 13 through an adhesive tape 26 to improve the connection strength. Three first magnet grooves 17 are uniformly distributed on the top of the hard frame 13, and two first magnet grooves 17 are also arranged in the middle of the bottom of the hard frame 13; a second magnet groove 18 is arranged at the middle position of the top of the corresponding frame assembly 1, and two second magnet grooves 18 are arranged at the middle position of the bottom; a third magnet groove 20 corresponding to the first magnet groove 17 is arranged at the top of the side edge corresponding to the two inner sleeve brackets 2; magnets 19 are arranged in all the first magnet grooves 17, the second magnet grooves 18 and the third magnet grooves 20, so that the magnets 19 in the second magnet grooves 18 and the third magnet grooves 20 are attracted with the magnets 19 in the first magnet grooves 17, and the lens assembly 12 is connected with the frame assembly 1 in a matching way. The magnet 19 is adopted to attract, so that the connection strength between the frame assembly 1 and the lens assembly 12 can be ensured, and the assembly and the disassembly of the lens assembly 12 and the frame assembly 1 are convenient.

A vertical long through hole 27 is arranged on the side frame of the frame assembly 1, a plug hole 6 is arranged on the inner sleeve support 2 corresponding to the long through hole 27, a sliding groove 28 is arranged at the position of the inner sleeve support 2 corresponding to the plug hole 6, a locking sliding sheet 7 is connected in a sliding manner in the sliding groove 28, a deflector rod 8 is arranged on one side of the locking sliding sheet 7 close to the through hole 27, and the deflector rod 8 penetrates through the plug hole 6 and the through hole 27 and slides in the plug hole 6 and the through hole 27; wherein, one end of the locking sliding sheet 7 is provided with a bayonet 9, the deflector rod 8 is arranged at a position close to the bayonet 9, the bayonet 9 is close to the position of the inserting hole 6, the other end of the locking sliding sheet 7 is provided with a limit groove 10, the bottom of the chute 28 is fixedly provided with a limit block 29, the limit block 29 is arranged in the limit groove 10, and when the locking sliding sheet 7 slides, the limit block 29 and the limit groove 10 also slide relatively.

A foot 21 is provided on the hard frame 13 of the lens assembly 12 at a position corresponding to the bayonet 9, the end of the foot 21 is tapered, a barb 22 is provided on the tapered portion, and a barb stop 30 is provided on the bayonet 9 to cooperate with the barb 22. The end of the buckling pin 21 is conical and can play a guiding role for the buckling pin 21 to be inserted into the plug hole 6.

The lens assembly 12 is specifically assembled and disassembled with the frame assembly 1 as follows.

The installation process comprises the following steps: firstly, the lens assembly 12 is aligned with the frame assembly 1, the buckling feet 21 are aligned with the bayonets 9, then the lens assembly 12 is pressed into the frame assembly 1, the buckling feet 21 are pressed into the bayonets 9, as the buckling feet 21 are pressed into the bayonets 9 due to the conical shape of the buckling feet 21, the conical parts of the buckling feet 21 press the barb baffle plates 30 on the bayonets 9, the locking sliding sheets 7 are enabled to move upwards, after the buckling feet 21 are completely inserted into the bayonets 9, the barb baffle plates 30 on the bayonets 9 fall from the back sides of the barbs 22 under the action of gravity due to the fact that the barbs 22 are higher than the buckling feet, the barbs 22 are blocked, and the barbs 22 are prevented from falling out of the bayonets 9, so that the assembly of the lens assembly 12 on the frame assembly 1 is completed, and the assembly process is quite simple and labor-saving.

The disassembly process comprises the following steps: firstly, lifting the deflector rod 8 upwards along the side frame of the frame assembly 1, so that the whole locking slide sheet 7 slides upwards in the sliding groove 28, and when the limiting groove 10 abuts against the limiting block 29, the locking slide sheet 7 is indicated to slide to the limit distance; as the latch slide 7 slides upwards, the barb stop 30 on the bayonet 9 also moves upwards, and when the barb stop 30 is higher than the barb 22, the barb 22 loses the constraint, at this time, the user only needs to push the lens assembly 12 back towards the outer side of the mirror surface, and overcomes the adsorption force between the magnets 19, so that the lens assembly 12 can be detached from the frame assembly 1.

In the scheme, a clamping groove 23 is further formed in the side frame of the frame assembly 1, a connecting groove 24 is further formed in the part, corresponding to the clamping groove 23, of the inner sleeve support 2, and an elastic band 14 is clamped in the connecting groove 24 on the inner sleeve support 2 on two sides of the frame assembly 1; the elastic band 14 can be adjusted in size, and is suitable for various users, and the elastic band 14 is connected to the connecting groove 24 of the inner sleeve bracket 2 so that the tensile force generated by the elastic band 14 is concentrated on the inner sleeve bracket 2 as much as possible, thereby reducing the stress of the frame assembly 1 and preventing the deformation of the frame assembly 1.

Example 2: the skiing goggles structure as shown in fig. 1 to 2 and fig. 6 to 11 comprises a frame assembly 1 and a lens assembly 12, wherein the frame assembly 1 and the lens assembly 12 are detachably connected, the frame assembly 1 is of a symmetrical structure, the top of the frame assembly 1 is relatively flat, a groove is arranged at the lower part of the frame assembly 1, the embedded groove 25 is arranged in the frame assembly 1 corresponding to the nose bridge position of a user, the embedded groove 25 is circumferentially distributed in the frame assembly 1, two inner sleeve brackets 2 are embedded in the embedded groove 25, the inner sleeve brackets 2 are distributed in the frame assembly 1 left and right, the inner sleeve brackets 2 comprise an upper bracket arm 3 and a lower bracket arm 4, the upper bracket arm 3 and the lower bracket arm 4 are thinned from end parts to the middle part, the middle parts of the upper bracket arm 3 and the lower bracket arm 4 are stronger in overall strength, the side frames of the frame assembly 1 are further stronger, a buckle 5 is further arranged in the embedded groove 25 in the middle part of the frame assembly 1, and the end parts of the upper bracket arm 3 and the lower bracket 4 are fixed in the buckle 5, so that the whole inner sleeve bracket 2 and the frame assembly 1 are relatively fixed with the frame assembly 1.

The lens assembly 12 includes an inner lens 15, an outer lens 16 and a hard frame 13, the outer lens 16 is disposed on the convex side of the hard frame 13, the inner lens 15 is disposed on the concave side of the hard frame 13, and the outer lens 16 and the inner lens 15 are adhered to the hard frame 13 through an adhesive tape 26 to improve the connection strength. Three first magnet grooves 17 are uniformly distributed on the top of the hard frame 13, and two first magnet grooves 17 are also arranged in the middle of the bottom of the hard frame 13; a second magnet groove 18 is arranged at the middle position of the top of the corresponding frame assembly 1, and two second magnet grooves 18 are arranged at the middle position of the bottom; a third magnet groove 20 corresponding to the first magnet groove 17 is arranged at the top of the side edge corresponding to the two inner sleeve brackets 2; magnets 19 are arranged in all the first magnet grooves 17, the second magnet grooves 18 and the third magnet grooves 20, so that the magnets 19 in the second magnet grooves 18 and the third magnet grooves 20 are attracted with the magnets 19 in the first magnet grooves 17, and the lens assembly 12 is connected with the frame assembly 1 in a matching way. The magnet 19 is adopted to attract, so that the connection strength between the frame assembly 1 and the lens assembly 12 can be ensured, and the assembly and the disassembly of the lens assembly 12 and the frame assembly 1 are convenient.

A vertical long through hole 27 is arranged on the side frame of the frame assembly 1, a plug hole 6 is arranged on the inner sleeve support 2 corresponding to the long through hole 27, a sliding groove 28 is arranged at the position of the inner sleeve support 2 corresponding to the plug hole 6, a locking sliding sheet 7 is connected in a sliding manner in the sliding groove 28, a deflector rod 8 is arranged on one side of the locking sliding sheet 7 close to the through hole 27, and the deflector rod 8 penetrates through the plug hole 6 and the through hole 27 and slides in the plug hole 6 and the through hole 27; wherein, the one end of kayser gleitbretter 7 is equipped with a bayonet socket 9, the driving lever 8 sets up in the position that is close to bayonet socket 9 is close to spliced eye 6 position, and is equipped with a spacing groove 10 at the other end of kayser gleitbretter 7, fixedly at the tank bottom of spout 28 is equipped with a stopper 29, is equipped with a arch at the one end that spacing groove 10 kept away from stopper 29, is connected with an elastic component 11 between arch and the stopper 29, and elastic component 11 is compression spring, and stopper 29 is inside spacing groove 10, and when kayser gleitbretter 7 slides, stopper 29 and spacing groove 10 also slide relatively. When the locking sliding sheet 7 is in a free state, the restoring force in the compression spring can enable the locking sliding sheet 7 to be in a locking state all the time, and only the deflector rod 8 is poked, so that the locking sliding sheet 7 can be opened after the compression spring is further compressed, and the stability and the connection strength of the lens assembly 12 on the frame assembly 1 are improved.

A foot 21 is provided on the hard frame 13 of the lens assembly 12 at a position corresponding to the bayonet 9, the end of the foot 21 is tapered, a barb 22 is provided on the tapered portion, and a barb stop 30 is provided on the bayonet 9 to cooperate with the barb 22. The end of the buckling pin 21 is conical and can play a guiding role for the buckling pin 21 to be inserted into the plug hole 6.

The lens assembly 12 is specifically assembled and disassembled with the frame assembly 1 as follows.

The installation process comprises the following steps: firstly, the lens component 12 is aligned with the frame component 1, the buckling feet 21 are aligned with the bayonets 9, then the lens component 12 is pressed into the frame component 1, the buckling feet 21 are pressed into the bayonets 9, as the buckling feet 21 are pressed into the bayonets 9 due to the conical shape of the buckling feet 21, the conical parts of the buckling feet 21 press the barb baffle plates 30 on the bayonets 9, the locking sliding sheets 7 are enabled to move upwards, after the buckling feet 21 are completely inserted into the bayonets 9, the barb baffle plates 30 on the bayonets 9 fall from the back sides of the barbs 22 under the action of the restoring force and the gravity of the elastic pieces 11 due to the fact that the barbs 22 are higher than the buckling feet, and the barbs 22 are blocked, so that the barbs 22 are prevented from falling out of the bayonets 9, namely, the assembly of the lens component 12 on the frame component 1 is completed, and the assembly process is quite simple and labor-saving.

The disassembly process comprises the following steps: firstly, lifting the deflector rod 8 upwards along the side frame of the frame assembly 1, so that the whole locking slide sheet 7 slides upwards in the sliding groove 28, and when the limiting groove 10 abuts against the limiting block 29, the locking slide sheet 7 is indicated to slide to the limit distance; as the latch slide 7 slides upwards, the elastic element 11 is compressed, the barb stop 30 on the bayonet 9 also moves upwards, when the barb stop 30 is higher than the barb 22, the barb 22 loses constraint, at this time, the user only needs to push the lens assembly 12 back towards the outer side of the mirror surface, and the lens assembly 12 can be detached from the frame assembly 1 by overcoming the adsorption force between the magnets 19.

In the scheme, a clamping groove 23 is further formed in the side frame of the frame assembly 1, a connecting groove 24 is further formed in the part, corresponding to the clamping groove 23, of the inner sleeve support 2, and an elastic band 14 is clamped in the connecting groove 24 on the inner sleeve support 2 on two sides of the frame assembly 1; the elastic band 14 can be adjusted in size, and is suitable for various users, and the elastic band 14 is connected to the connecting groove 24 of the inner sleeve bracket 2 so that the tensile force generated by the elastic band 14 is concentrated on the inner sleeve bracket 2 as much as possible, thereby reducing the stress of the frame assembly 1 and preventing the deformation of the frame assembly 1.

Claims (10)

1. The skiing goggles structure is characterized by comprising a frame assembly, wherein inner sleeve brackets are symmetrically arranged on two sides of the frame assembly, each inner sleeve bracket comprises an upper bracket arm and a lower bracket arm, and the end parts of the lower bracket arms are respectively clamped at symmetrical shaft positions close to an upper frame and a lower frame of the frame assembly through buckles.

2. The skiing goggles structure according to claim 1, wherein the inner sleeve support is provided with a plug hole corresponding to a side frame of the frame assembly, the inner sleeve support is provided with a locking sliding sheet corresponding to the plug hole, the locking sliding sheet is provided with a deflector rod, and the deflector rod is slidably connected in the plug hole.

3. A ski goggles structure according to claim 2, wherein one end of the locking slide is provided with a bayonet corresponding to the insertion hole.

4. A ski goggles structure according to claim 3, wherein the end of the locking slide away from the bayonet is provided with a limit groove, an elastic member is arranged in the limit groove, and the elastic member connects the limit groove and the frame assembly.

5. A ski goggles structure according to any one of claims 2-4, further comprising a lens assembly that is adapted to the frame assembly, and that includes a rigid frame to each of which an outer lens and an inner lens are secured.

6. The ski goggles structure according to claim 5, wherein a plurality of first magnet grooves are formed in the rim of the hard frame, and a second magnet groove is formed in the frame assembly at a position corresponding to the first magnet grooves, and magnets are arranged in the first magnet groove and the second magnet groove.

7. The ski goggles structure according to claim 6, wherein the inner housing is located between the frame assembly and the lens assembly, and a third magnet slot is provided in the inner housing corresponding to the first magnet slot.

8. A ski goggles structure according to claim 6 or 7, wherein the hard frame is provided with fastening feet corresponding to the insertion holes.

9. The ski goggles structure according to claim 8, wherein the end of the buckle leg is tapered, and the end of the buckle leg is further provided with a barb.

10. A ski goggles structure as claimed in any one of claims 1 to 4, 6, 7 or 9, further comprising elastic bands, wherein the two sides of the frame assembly are provided with clamping grooves, the inner sleeve support is provided with connecting grooves corresponding to the clamping grooves, and the elastic bands pass through the clamping grooves to be clamped with the connecting grooves on the inner sleeve support.