CN216934641U - Sucker type protection pad - Google Patents

Abstract

The application provides a sucker type protective pad, which is assembled on a frame body of swimming goggles and comprises a connecting part with an inner peripheral surface and an outer peripheral surface, and a veneer part which is provided with an outer annular surface and an inner annular surface and is connected with the connecting part into a whole, wherein the inner annular surface of the veneer part is in a wave shape along the depth and height outline of the outer periphery of an eye socket; and a plurality of independent buffer bodies are arranged between the peripheral surface of the connection part and the outer ring surface of the veneering part, each buffer body consists of a first support part, a second support part and a joint, the veneering part has different buffer resilience forces to different contact positions of the periphery of the eye socket through the independent action of each buffer body, namely, the first support part, the second support part and the joint of each buffer body absorb the force of extrusion deformation of different stress positions of the inner ring surface of the veneering part, so that the oppression feeling of the periphery of the eye socket can be reduced, and the wearing comfort is provided without worrying about the water seepage effect.

Description

Sucker type protection pad

Technical Field

The present invention relates to a protective pad, and more particularly, to a suction cup type protective pad for swimming goggles, which can conform to the contour of the outer circumference of an eye socket when worn, and can absorb different compressive forces when worn, thereby providing comfort and preventing water leakage.

Background

The function of swimming goggles is mainly to protect the eyes during swimming, so that it is an extremely important consideration to design the goggles. The protective pad on the swimming goggles is attached to the eye sockets to achieve the effect of water seepage prevention. Referring to fig. 1, a suction cup type protective pad 5 of the prior art has a connection portion 50 and a face-attaching portion 51, wherein the connection portion 50 has an inner circumferential surface 501 and an outer circumferential surface 502, the inner circumferential surface 501 is provided with a receiving groove 503 for being connected with a frame body (not shown) of a swimming goggle, and the face-attaching portion 51 has an outer circumferential surface 511 and an inner circumferential surface 512, and when worn, the face-attaching portion 51 is deformed by being pressed, so that a suction force is generated between one side of the inner circumferential surface 512 and a space of the frame body and is absorbed around an eye socket. However, since the compression deformation of the face-contacting portion 51 is directly applied to the outer circumference of the eye socket, the compression feeling to the outer circumference of the eye socket is directly obvious, especially, the outer circumference of the eye socket has a deep and shallow contour and a high and low contour, and the face-contacting portion 51 is installed in a flat arc, so that the headband of the swimming goggles must be tightly attached to the contour of the outer circumference of the eye socket with a large tightening force when worn, otherwise, the face-contacting portion 51 cannot fit the contour of the eye socket and water may leak.

SUMMERY OF THE UTILITY MODEL

The technical problem that this application will be solved provides a sucking disc formula protection pad, and this sucking disc formula protection pad is assembled in the framework of goggles, can provide when the goggles is dressed there is different buffering resilience to the different contact departments of periphery outside the eye socket to different extrusion adsorption affinity when the outer periphery profile of compliance eye socket absorbs the dress, reduces the sense of compression of periphery profile outside the eye socket, and can provide comparatively comfortable and not worry about the effect of infiltration.

In order to achieve the above purpose, the sucker-type protective pad of the present application comprises a connecting part and a facing part, wherein the connecting part has an inner circumferential surface and an outer circumferential surface, and the inner circumferential surface is provided with a receiving groove for being assembled with a frame body of swimming goggles; the veneering part is provided with an outer ring surface and an inner ring surface, the outer ring surface of the veneering part is connected with the outer peripheral surface of the connecting part into a whole, the inner ring surface of the veneering part is used for contacting with the outer periphery of the eye socket,

the inner ring surface of the attaching face part is in a wave shape along the depth and height outline of the periphery of the eye socket, namely, the inner ring surface is a first wave peak corresponding to the eyebrow center; the corresponding zygomatic bone is the second peak; and the corresponding canthus is a first trough; the corresponding nose bridge is the second wave trough, so that a high-low inclined plane and a wave shape are formed along the first wave crest of the eyebrow, the first wave trough of the canthus, the second wave crest of the cheekbone and the second wave trough of the nose bridge.

A plurality of independent buffer bodies are arranged between the outer peripheral surface of the connection part and the outer annular surface of the facing part, each buffer body consists of a first supporting piece, a second supporting piece and a joint positioned at the joint of the first supporting piece and the second supporting piece, the facing part has different buffer resilience forces at different contact positions on the outer periphery of the eye socket through the independent action of each buffer body, namely, the first supporting piece, the second supporting piece and the joint of each buffer body absorb the force of the different stress positions of the inner annular surface of the facing part, so as to conform to the outer periphery contour of the eye socket, absorb different extrusion adsorption forces during wearing, reduce the compression feeling on the outer periphery contour of the eye socket and provide the effects of comfortable wearing and no water seepage.

According to the above, the first supporting member, the second supporting member and the joint together form a buffering body whose side is regarded as V-shaped, two sides of the V-shaped buffering body are respectively the first supporting member and the second supporting member, the joint is the joint, and the first supporting member and the second supporting member of the V-shaped buffering body are respectively connected with the outer circumferential surface of the connecting portion and the outer circumferential surface of the facing portion into a whole.

According to the above, the first supporting member and the second supporting member of the V-shaped cushion body are arranged in a non-uniform length in accordance with the wave shape of the depth and height profile of the outer circumference of the socket, that is, one side of the V-shaped cushion body near the outer circumference of the connecting portion is shorter and steeper than one side of the V-shaped cushion body near the outer circumference of the facing portion, and is thicker, for example, so as to be able to follow the outer circumference profile of the socket to absorb different compression absorption forces during wearing.

According to the above, the opening of the V-shaped buffer body faces, and the connection between the brow heart and the cheek bone near the center is used as an axis, and the V-shaped buffer body is respectively arranged towards two sides of the axis.

According to the above, the first supporting member, the second supporting member and the joints together form a buffering body whose side is regarded as a hexagon, each three sides of the hexagonal buffering body constitute a supporting member together, the hexagonal buffering body has the first supporting member and the second supporting member and forms a plurality of joints, and any vertex of the hexagonal buffering body and another corresponding vertex are respectively connected with the outer peripheral surface of the connecting portion and the outer annular surface of the facing portion.

Further details of the present application will be described with reference to the drawings.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a perspective view of a prior art suction cup pad;

FIGS. 2A-2C are perspective, top and bottom views of a first embodiment of the suction pad of the present application;

figures 3 to 6 are front, side, top and bottom views of a first embodiment of a suction pad of the present application assembled to a frame of swimming goggles;

fig. 7 to 11 are a perspective view, a front view, a side view, a top view and a bottom view of a second embodiment of the suction pad of the present application assembled to a frame body of swimming goggles.

Description of the symbols

1,1': suction pad 11, 11': joining part

12, 12': facing portions 111, 111': inner peripheral surface

112, 112': outer peripheral surfaces 113, 113': containing groove

121, 121': outer annular surfaces 122, 122': inner ring surface

3,3': buffer 31, 31': first support

32, 32': second support 33, 33': joint

34',34": vertex m1, m 2: thickness of

Detailed Description

The positional relationship described in the following embodiments includes: the top, bottom, left and right, unless otherwise indicated, are based on the orientation of the elements in the drawings.

Referring to fig. 2A to 2C, a perspective view, a top view and a bottom view of a first embodiment of the suction pad of the present application are shown, as shown in fig. 2A, a suction pad 1 of the present application includes a connecting portion 11 and a facing portion 12, the connecting portion 11 and the facing portion 12 are made of Thermoplastic Rubber (TPR) or Silicone, and the connecting portion 11 is made of a material harder than the facing portion 12. The joining portion 11 has an inner peripheral surface 111 and an outer peripheral surface 112, and the inner peripheral surface 111 is provided with a receiving groove 113 for coupling with the frame 4 (see fig. 3 to 6) of the swimming goggles. The facing portion 12 has an outer annular surface 121 and an inner annular surface 122, the outer annular surface 121 is integrally connected to the outer peripheral surface 112 of the connecting portion 11, the inner annular surface 122 is used for contacting with the periphery of the eye socket, and is in a wave shape along the depth and height contour of the periphery of the eye socket, that is, as shown in fig. 2B, the inner annular surface 122 is a first peak R1 corresponding to the eyebrow; the corresponding zygomatic bone is a second peak R2; and the corresponding canthus is first trough T1; the corresponding nose bridge is the second wave trough T2, so along the first crest R1 of the eyebrow, the first wave trough T1 of the canthus, the second crest R2 of the cheekbone to the second wave trough T2 of the nose bridge form high-low inclined plane and wave shape, can provide with the natural laminating contact of surrounding outside the eye socket.

Referring to fig. 2B and 2C, a plurality of independent buffer bodies 3 are disposed between the outer peripheral surface 112 of the connecting portion 11 and the outer annular surface 121 of the facing portion 12, each buffer body 3 includes a first supporting member 31, a second supporting member 32, and a joint 33, in the present embodiment, the first supporting member 31, the second supporting member 32, and the joint 33 together form the buffer body 3 whose side is regarded as V-shaped, and the opening of the V-shaped buffer body 3 faces the two sides of the axis Y-Y, respectively, with the connection of the brow center and the near center of the cheekbone as the axis Y-Y. The two sides of the V-shaped buffer body 3 are the first supporting member 31 and the second supporting member 32, respectively, and the joint 33 is the joint, when manufacturing and forming, the first supporting member 31 and the second supporting member 32 of the V-shaped buffer body 3 are respectively formed integrally with the outer peripheral surface 112 of the connecting portion 11 and the outer annular surface 121 of the facing portion 12, and the joint 33 is designed to be gradually thinner toward the first supporting member 31 and the second supporting member 32, respectively, and the joint 33 is the thickest. The first supporting member 31 and the second supporting member 32 of the V-shaped cushion body 3 are disposed in a wave shape with a shallow depth and a high-low contour around the socket, and have different lengths, that is, the first supporting member 31 on one side of the V-shaped cushion body near the outer peripheral surface 112 of the connecting portion 11 is shorter and steeper than the second supporting member 32 on one side of the V-shaped cushion body near the outer peripheral surface 121 of the facing portion 12, and is thicker, for example, so as to be able to conform to the contour of the outer periphery of the socket and absorb different compression absorption forces during wearing.

As shown in fig. 3, 5 and 6, the front view, the top view and the bottom view of the suction cup pad 1 assembled on the swimming goggle frame 4 of the present invention are the front view, the top view and the bottom view, wherein the inner ring surface 122 is designed in a wave shape as shown in fig. 5, the thickness m1 of the outer ring surface 121 is in a more protruding position relative to the vicinity of the eyebrow when worn on the face, and the thickness m2 of the outer ring surface 121 is in a more recessed position relative to the vicinity of the pouch when worn on the face, so that the thickness m2 is larger than m1, and the whole inner ring surface 122 is formed in a wave shape with the contour of the pouch, thereby providing a natural and smooth fit on the periphery of the pouch when worn, reducing the tightening force when the headband of the swimming goggle is worn, and making the wearing comfortable.

As shown in fig. 2A, a plurality of independent cushion bodies 3 are disposed between the outer peripheral surface 112 of the connecting portion 11 and the outer annular surface 121 of the attaching portion 12, each cushion body 3 includes a first supporting member 31, a second supporting member 32, and a joint 33, the first supporting member 31 and the second supporting member 32 on both sides of the V-shaped cushion body 3 are matched with the wave shape of the depth and the height profile of the outer periphery of the eye socket, so as to correspond to the eyebrow of the eye socket and the first supporting member 31 of the V-shaped cushion body 3 at the eye corner, and compared with the second supporting member 32 of the V-shaped cushion body 3 corresponding to the cheekbone and the nose bridge of the eye socket, the V-shaped cushion body is short and steep, and thick, for example, it can conform to the outer periphery profile of the eye socket to absorb different compression adsorption forces during wearing.

With the above-described structure, when the suction cup protector 1 is assembled to the frame of the swimming goggles, the inner circumferential surface 122 is in wave-like contact with the outer circumference of the eye socket after wearing, and the first support 31, the second support 32, and the joint 33 of each cushion body 3 conform to the outer circumference of the eye socket to absorb different squeezing forces during wearing, thereby providing effects of reducing pressure on the outer circumference of the eye socket and preventing water leakage during wearing.

Referring to fig. 7, a perspective view of a second embodiment of the suction cup pad of the present invention is shown, wherein the suction cup pad 1 ' of the present embodiment also includes a connection portion 11 ' and a facing portion 12 ', the connection portion 11 ' has an inner circumferential surface 111 ' and an outer circumferential surface 112 ', the facing portion 12 ' has an outer circumferential surface 121 ' and an inner circumferential surface 122 ', and the difference between the present embodiment and the first embodiment lies in the design shape of the buffer body 3 ', as shown in fig. 8, 10 and 11, each buffer body 3 ' assembled to the frame of the swimming goggles is formed by a first support 31 ' and a second support 32 ', and a plurality of joints 33 ' to form the buffer body 3 ' having a hexagonal side view, each three sides of the hexagonal buffer body 3 ' are formed as a support, the hexagonal buffer body has a first support 31 ' and a second support 32 ', and forms a plurality of joints 33 ', one apex 34 'and the corresponding other apex 34 ″ of the hexagonal cushion body 3' are integrally formed with the outer peripheral surface 112 'of the joining portion 11' and the outer annular surface 121 'of the facing portion 12', respectively, at the time of molding.

The above-mentioned structure can also absorb the compressive suction force at different positions when wearing by the first supporting member 31 ', the second supporting member 32' and the plurality of joints 33 'of each cushion body 3' following the outer peripheral contour of the eye socket, thereby providing the effects of reducing the pressure feeling on the outer peripheral contour of the eye socket and providing comfortable wearing without worrying about water leakage.

The above-described embodiments and/or implementations are only illustrative of the preferred embodiments and/or implementations for implementing the technology of the present application, and are not intended to limit the implementations of the technology of the present application in any way, and those skilled in the art can make many changes and modifications to the other equivalent embodiments without departing from the scope of the technology disclosed in the present disclosure, but should be regarded as the technology and implementations substantially the same as the present application.

Claims (9)

1. A sucker type protection pad is assembled on a frame body of swimming goggles, and comprises a connecting part and a veneering part, wherein the connecting part is provided with an inner peripheral surface and an outer peripheral surface, and the inner peripheral surface is provided with a containing groove for being assembled with the frame body of the swimming goggles; this wainscot portion has outer anchor ring and interior anchor ring, and the outer anchor ring of this wainscot portion is connected integratively with the outer peripheral face of this linking portion, and the interior anchor ring of this wainscot portion is used for contacting its characterized in that around the eye socket:

a plurality of independent buffer bodies are arranged between the outer peripheral surface of the connection part and the outer annular surface of the facing part, each buffer body consists of a first supporting piece, a second supporting piece and a joint positioned at the joint of the first supporting piece and the second supporting piece, the facing part has different buffer resilience forces at different contact positions on the outer periphery of the eye socket through the independent action of each buffer body, namely, the first supporting piece, the second supporting piece and the joint of each buffer body absorb the force of the different stress positions of the inner annular surface of the facing part, so as to conform to the outer periphery contour of the eye socket, absorb different extrusion adsorption forces during wearing, reduce the compression feeling on the outer periphery contour of the eye socket and provide the effects of comfortable wearing and no water seepage.

2. The sucker-type pad according to claim 1, wherein the inner surface of the facing portion is wavy along the contour of the outer circumference of the eye socket, i.e. the inner surface corresponding to the eyebrow center is the first peak; the corresponding zygomatic bone is the second peak; and the corresponding canthus is a first trough; the corresponding nose bridge is the second wave trough, so that a high-low inclined plane and a wave shape are formed along the first wave crest of the eyebrow, the first wave trough of the canthus, the second wave crest of the cheekbone and the second wave trough of the nose bridge.

3. The suction cup type protective pad according to claim 1, wherein the first supporting member, the second supporting member and the joint together form a buffering body with a V-shaped side, the first supporting member and the second supporting member are respectively disposed on two sides of the V-shaped buffering body, the joint is defined as the joint, and the first supporting member and the second supporting member of the V-shaped buffering body are respectively connected with the outer peripheral surface of the connecting portion and the outer annular surface of the facing portion.

4. The suction cup type protector pad as claimed in claim 3, wherein the first and second supporting members of the V-shaped cushion body are arranged in a non-uniform length in accordance with the wave shape of the depth and height of the outer peripheral surface of the socket, i.e., one side of the V-shaped cushion body near the outer peripheral surface of the engaging portion is shorter than one side of the V-shaped cushion body near the outer peripheral surface of the facing portion, so as to be able to absorb different squeezing forces when worn in accordance with the outer peripheral profile of the socket.

5. A suction pad according to claim 4, wherein the slope of the shorter side of the V-shaped cushioning body is steeper and thicker than the longer side.

6. The suction pad of claim 4, wherein each V-shaped buffer body is designed to be thinner from the joint toward the first and second supports, respectively, and is thickest at the joint.

7. The sucker-type protector as defined in claim 3 wherein the V-shaped cushioning body has its mouth facing toward the lateral side of the axis defined by the connection between the brow portion and the cheek bone.

8. The suction cup type protective pad of claim 1, wherein the first support, the second support and the joint together form a buffer body with a hexagonal shape, each three sides of the hexagonal buffer body constitute a support, the hexagonal buffer body comprises the first support and the second support and forms a plurality of joints, and any vertex of the hexagonal buffer body and the corresponding other vertex are respectively connected with the outer peripheral surface of the connecting portion and the outer peripheral surface of the facing portion.

9. The sucker-type pad of claim 1, wherein the connecting portion and the facing portion of the sucker-type pad are made of thermoplastic rubber or silicone, and the connecting portion is harder than the facing portion.

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