CN117547409A

CN117547409A - Postoperative goggles for multi-scene switching

Info

Publication number: CN117547409A
Application number: CN202410024523.3A
Authority: CN
Inventors: 张士玺; 王宗刚; 赵志国; 高仕栋; 苗英彬; 唐坤
Original assignee: Dezhou Aier Eye Hospital Co Ltd
Current assignee: Dezhou Aier Eye Hospital Co Ltd
Priority date: 2024-01-08
Filing date: 2024-01-08
Publication date: 2024-02-13
Anticipated expiration: 2044-01-08
Also published as: CN117547409B

Abstract

The invention relates to the technical field of goggles, in particular to a postoperative goggles for multi-scene switching, which comprises a goggles contact frame body and a lens frame body, wherein a flexible connecting belt is fixedly connected between the goggles contact frame body and the lens frame body, replaceable lenses are movably inserted into the lens frame body, binding belts are fixedly connected to two sides of the goggles contact frame body, sealing components are arranged on the goggles contact frame body and the lens frame body and used for improving the sealing performance between the replaceable lenses and the lens frame body, different lenses can be replaced according to requirements by arranging the replaceable lenses, the sealing effect provided by the replaceable lenses can be manually increased after the lenses are replaced, the contact between the hollow capsules and the face is further improved through gas transmission, the sealing performance is further improved, meanwhile, the lens frame body can be pulled back and forth when the lenses are in fogging on the replaceable lenses, the gas in the goggles can be rapidly exchanged on the premise that the sealing performance is not affected, and the fogging is reduced.

Description

Postoperative goggles for multi-scene switching

Technical Field

The invention relates to the technical field of goggles, in particular to a postoperative goggle capable of achieving multi-scene switching.

Background

Goggles are a large class of glasses for protecting eyes, and postoperative goggles are protective glasses used after eye operations, such as cataract operations or myopia operations, and the like, and the postoperative eyes are very fragile and cannot contact water, smoke and the like, so that special postoperative goggles are needed.

The present chinese patent with publication number CN215689019U discloses a goggles after laser surgery, comprising: the glasses frame comprises two frame parts and a movable nose bridge part transversely connected with the two frame parts, and a sealing protection pad is arranged on the inner side of the outer edge part of the frame parts; an open-close type lens capable of opening or closing the frame portion and including a colorless lens and a sunglass lens which are replaceably mounted; the elastic sleeve belt is connected to the transverse outer end of the frame part; the one-way airflow valve is arranged through the frame part and can form a one-way airflow passage for airflow to circulate from inside to outside.

The purpose of the main protection of postoperative goggles is in order to prevent that outside article from contacting the eyeball, reach the purpose of protection eyeball through sealed mode promptly, above-mentioned patent application has required the eye drops to put forward the improvement when using to the goggles, fixed lens of articulated mode has been used, it has made things convenient for the use of eye drops, but undoubtedly, articulated mode has promoted sealed degree of difficulty, the required cost of sealed improvement, simultaneously the postoperative goggles is because structural integrity is stronger, difficult switching lens, it can't be used in multiple scene, consequently, need adopt for example the goggles of bathing, the goggles of work usefulness or be the goggles under the outdoor highlight.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a multi-scene switching postoperative goggles, which can effectively solve the problem of how to ensure the tightness when the multi-scene is switchable in the prior art.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention provides a multi-scene switching postoperative goggles, which comprises a goggles contact frame body and a lens frame body, wherein a flexible connecting belt is fixedly connected between the goggles contact frame body and the lens frame body, replaceable lenses are movably inserted into the lens frame body, binding belts are fixedly connected to two sides of the goggles contact frame body, sealing assemblies are arranged on the goggles contact frame body and the lens frame body, and the sealing assemblies are used for improving the sealing performance between the replaceable lenses and the lens frame body;

the goggles contact frame body comprises a goggles frame serving as a main body, the lens frame body comprises an inserting frame serving as the main body, the sealing assembly comprises two air outlet grooves formed in the goggles frame, a pulling air outlet block is slidably mounted in each air outlet groove, the end part of the pulling air outlet block is installed on the inserting frame in a penetrating manner, and a communicating pipe is fixedly installed on the bottom wall of each air outlet groove in a penetrating manner;

the replaceable lens comprises a lens main body and a sealing bag body fixedly mounted at the edge of the lens main body, a vacancy corresponding to the position of the pulling air outlet block is formed in the sealing bag body, the end part of the pulling air outlet block, which is far away from the inserting frame, is provided with a piston plate for compressed gas, ventilation grooves are formed in the position, which is close to the piston plate, of the bottom of the pulling air outlet block and in the position, which is close to the inserting frame, of the pulling air outlet block, and when the lens main body and the sealing bag body are inserted into the inserting frame, the pulling air outlet block is communicated with the sealing bag body.

Further, the goggles contact frame body comprises a hollow bag body fixedly connected to the side wall of the goggles frame, the hollow bag body is used for being in contact with a human body and providing tightness, the sealing assembly further comprises two air guide grooves formed in the goggles frame, the air guide grooves are communicated with the hollow bag body, a pressing air inlet block is slidably mounted in the air guide grooves, the end part of the pressing air inlet block is fixedly mounted on the side wall of the insertion frame, and the pressing air inlet block is communicated with the air guide grooves and is communicated with a cavity formed by the goggles contact frame body, the flexible connecting belt and the lens frame body when the pressing air inlet block extends out of the air guide grooves.

Further, a plurality of first attracting magnets are fixedly installed on the eye protection frame in an embedded mode, and a plurality of second attracting magnets which attract the first attracting magnets in a magnetic mode are fixedly installed on the inserting frame in an embedded mode.

Further, the end part of the sealing bag body, which faces the pulling air outlet block, is fixedly connected with an elastic supporting block, and one side of the elastic supporting block is fixedly connected with an adsorption magnet which generates magnetic attraction to the pulling air outlet block.

Further, ventilation components are arranged on two sides of the eye protection lens frame and used for changing the airtight or opening state of the cavity formed by the eye protection lens contact frame body, the flexible connecting belt and the lens frame body.

Further, the ventilation assembly comprises ventilation sliding grooves formed in two sides of the goggles frame, a ventilation grid plate is slidably mounted in the ventilation sliding grooves, the ventilation sliding grooves are provided with groove positions and ventilation grooves for the ventilation grid plate to slide, and a deflector rod is fixedly mounted on the ventilation grid plate.

Further, one side fixed mounting of ventilative grid board has the frame of stirring, stir the frame and be in the eye protection mirror holder, the bottom plate of air duct rotates and installs the baffle, the bottom fixedly connected with atress revolving plate of baffle, the roof fixed mounting of air duct has spacing closing plate, and spacing closing plate is used for restricting the rotation angle of baffle and seals the air duct completely when contacting with the baffle.

Further, the toggle frame is provided with two toggle plates, and the stressed rotating plate is rotatably provided with an auxiliary rotating plate.

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

according to the invention, different lenses can be replaced according to requirements by arranging the replaceable lenses, the sealing effect provided by the replaceable lenses can be manually increased after the lenses are replaced, the contact between the hollow capsule body and the face is further improved through gas transmission, the sealing performance is further improved, meanwhile, when the lenses are in fog on the replaceable lenses, the lens frame body can be pulled back and forth, and on the premise of not affecting the sealing performance, the gas in the goggles is rapidly exchanged, and the fog is reduced.

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 evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of an axial side separation structure of the present invention;

FIG. 3 is a schematic view of a lens frame and interchangeable lens separation structure according to the present invention;

FIG. 4 is an enlarged view of FIG. 3A in accordance with the present invention;

FIG. 5 is a schematic view of a vent assembly of the present invention;

FIG. 6 is a schematic drawing of a pull air block and a semi-cutaway thereof according to the present invention;

FIG. 7 is a schematic view of a pressure air intake block according to the present invention;

FIG. 8 is a schematic view of the structure of the goggle frame of the present invention;

FIG. 9 is an enlarged view of FIG. 8B in accordance with the present invention;

FIG. 10 is an enlarged view of FIG. 8C in accordance with the present invention;

FIG. 11 is a schematic view of the rear portion structure of the present invention;

fig. 12 is an enlarged view of fig. 11 at D in accordance with the present invention.

Reference numerals in the drawings represent respectively: 1. the goggles contact the frame; 101. an eye protection frame; 102. a first attracting magnet; 103. a hollow balloon; 2. a flexible connecting band; 3. a lens frame; 301. inserting a frame; 302. a second attracting magnet; 4. a replaceable lens; 401. a lens body; 402. sealing the capsule; 403. an elastic support block; 404. a magnet is adsorbed; 5. a strap; 6. a seal assembly; 601. an air guide groove; 602. pressing the air inlet block; 603. an air outlet groove; 604. pulling the air outlet block; 605. a communicating pipe; 606. a baffle; 607. a stress rotating plate; 608. an auxiliary rotating plate; 609. limit sealing plates; 7. a vent assembly; 701. a ventilation chute; 702. a ventilation grid plate; 703. a deflector rod; 704. the toggle frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Examples: referring to fig. 1 to 12, a multi-scene switching postoperative goggle comprises a goggle contact frame body 1 and a lens frame body 3, wherein a flexible connecting band 2 is fixedly connected between the goggle contact frame body 1 and the lens frame body 3, a replaceable lens 4 is movably inserted into the lens frame body 3, binding bands 5 are fixedly connected to two sides of the goggle contact frame body 1, a sealing component 6 is arranged on the goggle contact frame body 1 and the lens frame body 3, and the sealing component 6 is used for improving the tightness between the replaceable lens 4 and the lens frame body 3;

the goggles contact frame 1 comprises a goggle frame 101 as a main body, the lens frame 3 comprises an inserting frame 301 as a main body, the sealing assembly 6 comprises two air outlet grooves 603 arranged in the goggle frame 101, a pulling air outlet block 604 is slidably arranged in each of the two air outlet grooves 603, the end part of the pulling air outlet block 604 is penetratingly arranged on the inserting frame 301, and a communicating pipe 605 is penetratingly and fixedly arranged at the bottom wall of the air outlet groove 603;

the replaceable lens 4 comprises a lens main body 401 and a sealing bag body 402 fixedly installed at the edge of the lens main body 401, a vacancy corresponding to the position of a pulling air outlet block 604 is formed in the sealing bag body 402, the end portion, far away from the inserting frame 301, of the pulling air outlet block 604 is provided with a piston plate for compressed air, ventilation grooves are formed in the position, close to the piston plate, of the bottom of the pulling air outlet block 604 and in the positions, close to the two sides of the inserting frame 301, of the pulling air outlet block 604, and when the lens main body 401 and the sealing bag body 402 are inserted into the inserting frame 301, the pulling air outlet block 604 is communicated with the sealing bag body 402.

Further, referring to fig. 8 and 10, the goggle contact frame 1 includes a hollow bladder 103 fixedly connected to a side wall of the goggle frame 101, the hollow bladder 103 is used for contacting a human body and providing tightness, the sealing assembly 6 further includes two air guide grooves 601 opened on the goggle frame 101, the air guide grooves 601 are communicated with the hollow bladder 103, a pressure air inlet block 602 is slidably mounted in the air guide grooves 601, an end portion of the pressure air inlet block 602 is fixedly mounted on the side wall of the insertion frame 301, and the pressure air inlet block 602 is communicated with the air guide grooves 601 and is communicated with a cavity formed by the goggle contact frame 1, the flexible connection belt 2 and the lens frame 3 when the pressure air inlet block 602 extends out of the air guide grooves 601.

When the pair of glasses is worn, the goggles frame 101 is covered towards eyes, the two binding bands 5 are connected at the positions of the rear brain spoon, so that the hollow capsule body 103 is tightly attached to the face, at the moment, the flexible connecting band 2 is in a wrinkled state, after the goggles frame 101 is worn, the inserting frame 301 is pinched by fingers, the inserting frame 301 is pulled outwards, the pressure air inlet block 602 is forced to slide out of the air guide groove 601, the air outlet block 604 is pulled to slide out of the air outlet groove 603, when the air outlet block 604 is pulled to slide out of the air outlet groove 603, a piston plate on the air outlet block 604 can lead gas in the air outlet groove 603 into the sealing capsule body 402 through the air outlet block 604, the gas pressure in the sealing capsule body 402 is increased, the contact area between the sealing capsule body 402 and the lens frame 3 is increased, and the sealing property between the sealing capsule body 402 and the lens frame 3 is improved, and as the sealing capsule body 402 is slidably inserted in the lens frame 3, different lens bodies 401 can be replaced according to the scene requirements, for example, the lens bodies with blue light preventing bodies can be replaced, the effect of the lens bodies can be better, the sealing capsule bodies 401 can be kept in the same as the sealing capsule body 401, the sealing capsule body can be used for the sealing capsule body 401, the sealing capsule body can be more effectively used, and the sealing capsule body 402 can be better has the effect of the sealing capsule body 402 can be kept, and the sealing effect can be better, and the sealing capsule can be better used and the sealing body 402 can be used.

When the pressure air inlet block 602 and the pull air outlet block 604 are pulled out, the pressure air inlet block 602 at this time is communicated with the air guide groove 601, meanwhile, the pressure air inlet block 602 is also communicated with a cavity formed by the goggles contact frame body 1, the flexible connection belt 2 and the lens frame body 3, after the pressure air inlet block 602 and the pull air outlet block 604 are completely pulled out, the sealing bag body 402 is completely clung to the inserting frame 301, the inserting frame 301 is reset, at this time, air in the goggles contact frame body 1, the flexible connection belt 2 and the lens frame body 3 cannot escape from a gap between the sealing bag body 402 and the inserting frame 301, most of air can enter the air guide groove 601 through the pressure air inlet block 602 and enter the hollow bag body 103, the hollow bag body 103 is forced to expand, and the contact between the hollow bag body 103 and the face is increased.

Specifically, referring to fig. 2, 3 and 8, the eye protection frame 101 is fixedly mounted with a plurality of first attracting magnets 102, and the inserting frame 301 is fixedly mounted with a plurality of second attracting magnets 302 magnetically attracted to the first attracting magnets 102.

When the eye protection frame 101 is worn, the first attracting magnet 102 and the second attracting magnet 302 are attracted to each other by magnetism and attached together, when the insertion frame 301 is pulled apart, the first attracting magnet 102 and the second attracting magnet 302 are separated, and after the insertion frame 301 is reset, the first attracting magnet 102 and the second attracting magnet 302 are attached together again.

Specifically, referring to fig. 4, an end of the sealing bladder 402 facing the pulling air-out block 604 is fixedly connected with an elastic supporting block 403, and one side of the elastic supporting block 403 is fixedly connected with an adsorption magnet 404 that generates magnetic attraction to the pulling air-out block 604.

One end of the pulling air outlet block 604 is always fixed on the inserting frame 301, when a different lens main body 401 or a new lens main body 401 is replaced, the lens main body 401 is inserted into the inserting frame 301 from top to bottom, and gaps on the sealing bag body 402 are inserted into the positions of two sides of the pulling air outlet block 604, two sides of the pulling air outlet block 604 are communicated with the sealing bag body 402, the adsorption magnet 404 is rapidly adsorbed on the pulling air outlet block 604, and the elastic support block 403 provides support for contact between the adsorption magnet 404 and the pulling air outlet block 604, so that gas in the pulling air outlet block 604 can stably enter the sealing bag body 402.

Further, referring to fig. 5, 11 and 12, the two sides of the eye protection frame 101 are provided with ventilation components 7 for changing the airtight or open state of the cavity formed by the eye protection contact frame 1, the flexible connection belt 2 and the lens frame 3, the ventilation components 7 comprise ventilation sliding grooves 701 formed on the two sides of the eye protection frame 101, ventilation grid plates 702 are slidably installed in the ventilation sliding grooves 701, the ventilation sliding grooves 701 are provided with grooves and ventilation grooves for sliding the ventilation grid plates 702, a deflector 703 is fixedly installed on the ventilation grid plates 702, a stirring frame 704 is fixedly installed on one side of the ventilation grid plates 702, the stirring frame 704 is positioned in the eye protection frame 101, a baffle 606 is rotatably installed on a bottom plate of the air guide groove 601, a force-bearing turning plate 607 is fixedly connected to the bottom of the baffle 606, a limit sealing plate 609 is fixedly installed on the top wall of the air guide groove 601, the limit sealing plate 609 is used for limiting the rotation angle of the baffle 606 and completely seals the air guide groove 601 when the baffle 606 is in contact with the baffle 606, the stirring frame 704 is provided with two stirring plates 607, and the force-bearing turning plate 608 is rotatably installed on the auxiliary turning plate 608.

When the water mist is generated in the lens main body 401, a user can toggle the deflector 703, the grooves of the ventilation grid plate 702 are coincided with the ventilation grooves of the ventilation sliding grooves 701, the two sides of the goggles frame 101 are opened, the air circulation is realized, the water mist in the lens main body 401 is eliminated, simultaneously, in the moving process of the ventilation grid plate 702, the toggle frame 704 which moves together can toggle the forced rotating plate 607, the forced rotating plate 607 and the baffle 606 are driven to rotate together, the baffle 606 is forced to be converted into a vertical state from the horizontal state and cling to the limit sealing plate 609, the forced rotating plate 607 is converted into a horizontal state from the vertical state, at this time, the user can continuously pull the inserting frame 301 back and forth, the goggles are enabled to contact with the frame body 1, the cavities in the flexible connecting belt 2 and the lens frame body 3 to form stable air flow, the air flow in the cavities formed by the goggles contacting the frame body 1, the flexible connecting belt 2 and the lens frame body 3 is accelerated, and the air flow on the lens main body 401 is eliminated, simultaneously, the baffle 606 and the forced rotating plate 606 is blocked by the forced rotating plate 607, the forced air inlet block 602 is forced to be converted into a vertical state, and the air guide block 606 is tightly pulled outwards, the air guide block 602 is converted into a vertical state, and is tightly attached to the limit sealing plate 609, the hollow air block 103 is pulled out of the hollow body 103, and the hollow air mist is further enabled to be pulled out of the hollow body 402, and the air mist is further reduced, and the air mist can be effectively removed by the hollow air bag 402 and can be normally and the air mist is normally and effectively reduced by the air sealing device.

When the force rotating plate 607 is shifted to the horizontal state, one shifting plate of the shifting frame 704 completely passes below the force rotating plate 607, meanwhile, the auxiliary rotating plate 608 on the force rotating plate 607 naturally rotates downwards in the horizontal state of the force rotating plate 607 and is in the vertical state, when the shifting frame 704 is reset, one shifting plate of the shifting frame 704 contacts the vertical auxiliary rotating plate 608 first and forces the auxiliary rotating plate 608 to cling to a rotating groove of the auxiliary rotating plate 608, so that the force rotating plate 607 rotates to the original position, when the shifting plate of the shifting frame 704 loses contact with the auxiliary rotating plate 608, the force rotating plate 607 is shifted out by a certain angle, then the other shifting plate of the shifting frame 704 contacts with the force rotating plate 607, the force rotating plate 607 is shifted to the full vertical state, and at the moment, the baffle 606 returns to the horizontal state, namely, when the air-permeable grid plate 702 is fully reset, the force rotating plate 607 is shifted back to the vertical state, and the fitting state between the force rotating plate 607 and the force rotating plate 607 is maintained, and then the horizontal state of the baffle 606 is ensured.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; these modifications or substitutions do not depart from the essence of the corresponding technical solutions from the protection scope of the technical solutions of the embodiments of the present invention.

Claims

1. The postoperative goggles for multi-scene switching comprises a goggles contact frame body (1) and a lens frame body (3), wherein a flexible connecting belt (2) is fixedly connected between the goggles contact frame body (1) and the lens frame body (3), and the postoperative goggles are characterized in that a replaceable lens (4) is movably inserted into the lens frame body (3), binding belts (5) are fixedly connected to two sides of the goggles contact frame body (1), sealing components (6) are arranged on the goggles contact frame body (1) and the lens frame body (3), and the sealing components (6) are used for improving the sealing performance between the replaceable lens (4) and the lens frame body (3);

the goggles contact frame body (1) comprises a goggles frame (101) serving as a main body, the lens frame body (3) comprises an insertion frame (301) serving as the main body, the sealing assembly (6) comprises two air outlet grooves (603) formed in the goggles frame (101), pulling air outlet blocks (604) are slidably arranged in the two air outlet grooves (603), the end parts of the pulling air outlet blocks (604) are installed on the insertion frame (301) in a penetrating mode, and communicating pipes (605) are fixedly installed on the bottom walls of the air outlet grooves (603) in a penetrating mode;

the replaceable lens (4) comprises a lens main body (401) and a sealing bag body (402) fixedly mounted at the edge of the lens main body (401), a vacancy corresponding to the position of a pulling air outlet block (604) is formed in the sealing bag body (402), the end portion, far away from the inserting frame (301), of the pulling air outlet block (604) is provided with a piston plate for compressed air, the bottom of the pulling air outlet block (604) is close to the piston plate, ventilation grooves are formed in the two sides, close to the inserting frame (301), of the pulling air outlet block (604), and when the lens main body (401) and the sealing bag body (402) are inserted into the inserting frame (301), the pulling air outlet block (604) is communicated with the sealing bag body (402).

2. The multi-scene-cut postoperative goggles according to claim 1, wherein the goggles contact frame (1) comprises a hollow sac body (103) fixedly connected to the side wall of the goggles frame (101), the hollow sac body (103) is used for being in contact with a human body and providing tightness, the sealing assembly (6) further comprises two air guide grooves (601) formed in the goggles frame (101), the air guide grooves (601) are communicated with the hollow sac body (103), a pressure air inlet block (602) is slidably mounted in the air guide grooves (601), the end portion of the pressure air inlet block (602) is fixedly mounted on the side wall of the insertion frame (301), and the pressure air inlet block (602) is communicated with the air guide grooves (601) and is communicated with a cavity formed by the goggles contact frame (1), the flexible connecting belt (2) and the lens frame (3) when the pressure air inlet block (602) extends out of the air guide grooves (601).

3. The multi-scene-cut postoperative goggles according to claim 2, wherein a plurality of first attracting magnets (102) are fixedly embedded on the goggles frame (101), and a plurality of second attracting magnets (302) magnetically attracted with the first attracting magnets (102) are fixedly embedded on the insertion frame (301).

4. A multi-scene-cut postoperative goggles according to claim 3, characterized in that the end of the sealing capsule body (402) facing the pulling air outlet block (604) is fixedly connected with an elastic supporting block (403), and one side of the elastic supporting block (403) is fixedly connected with an adsorption magnet (404) generating magnetic attraction to the pulling air outlet block (604).

5. The multi-scene cut postoperative goggles according to claim 4, wherein the two sides of the goggles frame (101) are provided with ventilation components (7) for changing the airtight or open state of the cavities formed by the goggles contact frame (1), the flexible connection belt (2) and the lens frame (3).

6. The multi-scene-cut postoperative goggles according to claim 5, wherein the ventilation assembly (7) comprises ventilation sliding grooves (701) formed in two sides of the goggles frame (101), ventilation grid plates (702) are slidably mounted in the ventilation sliding grooves (701), the ventilation sliding grooves (701) are provided with grooves and ventilation grooves for sliding the ventilation grid plates (702), and a deflector rod (703) is fixedly mounted on the ventilation grid plates (702).

7. The postoperative goggles for multi-scene switching according to claim 6, characterized in that one side of the ventilation grid plate (702) is fixedly provided with a poking frame (704), the poking frame (704) is positioned in the goggles frame (101), a baffle plate (606) is rotatably installed on a bottom plate of the air guide groove (601), a force rotating plate (607) is fixedly connected to the bottom of the baffle plate (606), a limit sealing plate (609) is fixedly installed on the top wall of the air guide groove (601), and the limit sealing plate (609) is used for limiting the rotation angle of the baffle plate (606) and completely sealing the air guide groove (601) when contacting with the baffle plate (606).

8. The multi-scene cut postoperative goggles according to claim 7, wherein the toggle frame (704) has two toggle plates, and the force-receiving swivel plate (607) is rotatably provided with an auxiliary swivel plate (608).