CN210379544U - Switch socket panel made of stone - Google Patents
Switch socket panel made of stone Download PDFInfo
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- CN210379544U CN210379544U CN201921798543.7U CN201921798543U CN210379544U CN 210379544 U CN210379544 U CN 210379544U CN 201921798543 U CN201921798543 U CN 201921798543U CN 210379544 U CN210379544 U CN 210379544U
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Abstract
The utility model relates to a switch and socket technical field, in particular to switch socket panel of stone material preparation, switch socket are fixed switch or socket, and the subregion of switch socket's apron or the regional fixedly connected with composite sheet of whole, and the composite sheet is at least including the stone material sheet metal of mutual complex and back of the body covering material layer, the utility model discloses can adopt thinner stone material as switch socket surface, and with the back of the body covering material layer combination for the intensity of sheet metal stone material especially ultra-thin plate (thickness is at 0.1 ~ 6mm) is promoted by a wide margin, and the fragility problem of sheet metal stone material is solved.
Description
Technical Field
The utility model relates to a switch and socket technical field, in particular to switch socket panel of stone material preparation.
Background
1. The switch socket is a fixed switch or socket. Switch sockets are typically comprised of a faceplate and a base. The panel can be provided with a switch socket hole; a circuit wiring is arranged in the base and is connected with a wall body or a mounting box through screws or other fixing modes. The panel is connected with the base through a screw or non-screw connection (usually, a non-screw connection).
2. As used herein, a deck refers to a structural support member for a panel, which is connected to a base, and is assembled with other panel members, such as facings, to form a panel.
3. The socket is a plug sleeve for being plugged with the plug pin of the plug and is provided with an electric appliance accessory for connecting the terminal of the flexible cable. The socket is generally divided into a strong current socket and a weak current socket, and the socket in the invention comprises the strong current socket and the weak current socket;
4. the existing switch socket panel is mainly made of plastic, and then is made of glass, acrylic, metal and the like.
The plastic panel has a single appearance surface, is easy to change color, and cannot meet the pursuit of people for high-quality life.
The glass or acrylic panel is easy to cause environmental pollution because the plastid is transparent and the processing procedures such as spraying or silk-screen printing are needed.
The metal panel has the conductive characteristic, so that the problems of short circuit of the electric wire and the like are easily caused when the metal panel is used for a socket;
the jade surface socket provided in the Chinese patent publication CN201038436Y does not solve the problem that jade is fragile after being processed into a thin stone plate, and needs pins and pin holes, so that the processing difficulty is high, and the popularization and the use are not facilitated.
SUMMERY OF THE UTILITY MODEL
In order to solve the problem that the jade processing thin plate that prior art exists is difficult, the utility model provides a can use thin plate stone material, facilitate promotion's switch socket's panel.
The utility model provides a technical scheme that its technical problem adopted is:
the utility model provides a switch socket panel of stone material preparation, switch socket be fixed switch or socket, the partial region of the apron of switch socket or whole regional fixedly connected with composite sheet, the composite sheet at least include the stone material sheet metal and back cover material layer of compounding each other.
Furthermore, the composite board comprises a stone thin plate and a back-coating material layer, the stone thin plate and the back-coating material layer are fixedly adhered, and the back-coating material layer and the cover plate are fixed through an adhesive, a screw or a buckle.
Furthermore, the back-cover material layer is fixed with the cover plate through a buckle, the buckle comprises a cover plate clamping groove arranged on the cover plate of the switch or the socket, the back-cover material layer is adhered with the stone thin plate, the outer edge size of the back-cover material layer is larger than that of the stone thin plate, and the back-cover material layer exceeds the outer edge of the stone thin plate and is inserted into the cover plate clamping groove.
As another embodiment of the present invention, the composite board includes two layers of stone sheets, the inner stone sheet is fixed to the cover plate, and a back-cover material layer is fixed between the two layers of stone sheets.
Furthermore, the thickness of the stone sheet is 0.1-6 mm.
Furthermore, the material of the back coating material layer is a non-metal sheet, a fiber net or a fabric.
Furthermore, the stone thin plate is made of natural stone or artificial stone.
Furthermore, the composite board is fixed on the front surface, the outer frame, the button or the periphery of the switch socket cover plate.
Furthermore, the plate surface and/or the side surface of the composite plate are/is provided with a protective layer.
Has the advantages that:
(1) the utility model can adopt thin stone as the surface of the switch socket and is combined with the back coating material layer, so that the strength of the thin stone, especially ultra-thin plate (with the thickness of 0.1-6 mm) is greatly improved, and the problem of fragility of the thin stone is solved;
(2) the composite board formed by bonding the stone and the back coating material keeps beautiful texture of the stone;
(3) the decoration field of applying the stone to the switch socket panel is expanded;
(4) the utility model discloses a switch socket panel can guarantee its high temperature resistant, not discolour, insulating nature and fire resistance characteristics such as strong.
(5) The protective layer is applied on the surface layer of the composite board, so that the waterproof, oil-proof, antifouling and other aspects can be effectively improved.
Drawings
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
Fig. 1 is an exploded view of the structure of a panel embodiment 1 of a switching socket;
fig. 2 is an exploded view of the structure of panel embodiment 2 of the switch socket;
FIG. 3 is a block diagram of panel embodiment 3 of the switch socket;
FIG. 4 is an exploded view of the structure of panel embodiment 4 of the switch socket;
FIG. 5 is a block diagram of example 1 of the product;
FIG. 6 is a structural view of example 2 of the product;
FIG. 7 is a structural view of example 3 of the product;
fig. 8 is a structural view of product example 4.
The novel stone thin plate comprises a stone thin plate body 1, a stone thin plate body 2, an adhesive layer 3, a back covering material layer 4, a cover plate 5, a cover plate prying opening 6, a socket hole 7, a button type switch button 8, a contact type switch button 9, a cover plate clamping groove 10, a composite plate 11, a nut 12 and a protective layer.
Detailed Description
A switch socket panel made of stone is characterized in that a switch socket is a fixed switch or socket, a composite board 10 is fixedly connected to partial or all areas of a cover plate 4 of the switch socket, and the composite board 10 at least comprises a stone thin plate 1 and a back coating material layer 3 which are mutually compounded.
The thickness of the stone thin plate 1 can reach 0.1-6 mm.
The material of the back coating material layer 3 is non-metal thin plate, fiber net or fabric.
The stone sheet 1 is made of natural stone or artificial stone. Natural stone includes, but is not limited to, sedimentary, metamorphic and volcanic rocks such as marble, granite, etc. having decorative effects or colors; the artificial stone is an artificial synthetic stone including, but not limited to, cement type, resin type, composite type, sintered type, such as terrazzo, microlite, acryl stone, artificial marble, artificial quartz, etc.
The composite panel 10 may be used on different portions of a panel, such as the front, outer frame, buttons, the periphery, etc.; the utility model discloses a panel of switch socket can be used as panels such as socket panel, flush mounting plate of switch, blank panel, optic fibre socket panel, USB interface panel, stereo set socket panel, special switch (touch time delay etc.).
Combining the stone thin plate 1 with the back coating material layer 3, and processing the composite plate 10 of the stone thin plate 1 and the back coating material layer 3 into a part with required shape, surface roughness and modeling, wherein the shape is generally thin plate-shaped; manufacturing the processed parts into panels of fixed switch sockets with different purposes; the back coating material layer 3 is a material with certain thickness and strength, such as a non-metal sheet, a fiber net, a fabric and the like;
the face and/or sides of the composite panel 10 have protective layers 12. The protective layer 12 may be a coating layer, a coating film or a sheet. The coating is a thin layer obtained by coating on the surface of the composite board, for example, the material of the coating can be polyester coating or protective wax, etc.; the film or sheet is a soft film or hard sheet material, usually transparent or translucent, bonded to the composite panel, for example, the film or sheet material may be a PET film, a PVC film or a toughened glass sheet.
The composite board 10 can be processed in the following two schemes;
scheme A: the stone thin plate 1 is adhered to the single surface of the back coating material layer 3 through the adhesive to prepare the composite plate 10, the specific texture and color of the stone are kept on the front surface, and meanwhile, the strength of the stone is improved.
Scheme B: the composite board 10 is made by respectively bonding the stone thin plates 1 on the two sides of the back coating material layer 3 through the bonding agent, the special texture and color of the stone are kept on the front side and the back side, and the strength of the stone is improved.
The composite board 10 of the two schemes can be manufactured into components with different sizes and shapes, and is connected with the cover plate 4 to manufacture a panel of a fixed switch socket. The face and/or sides of the component made from the composite panel 10 may be coated with a protective layer 12.
The specific embodiment of the combination of the composite panel 10 with a switch or socket panel is as follows:
example 1:
referring to fig. 1, the composite plate 10 includes a thin stone plate 1 and a back coating material layer 3, the thin stone plate 1 and the back coating material layer 3 are fixed by an adhesive layer 2, and the back coating material layer 3 and a cover plate 4 are fixed by an adhesive.
The method comprises the following specific steps:
1) bonding the stone thin plate 1 and the back coating material 3 by using a bonding agent 2 to prepare a composite plate 10;
2) processing the composite board 10 of the step 1 on the edge, surface and inside to obtain the parts with required size and shape;
3) bonding the parts processed in the step 2 with the corresponding cover plates 4;
example 2:
referring to fig. 2, the composite plate 10 includes a protective layer 12, a thin stone plate 1 and a back coating material layer 3, the thin stone plate 1 and the back coating material layer 3 are fixed by an adhesive layer 2, and the back coating material layer 3 and the cover plate 4 are fixed by a buckle.
The cover plate 4 of the switch socket is provided with a cover plate clamping groove 9, the back coating material layer 3 is adhered with the stone thin plate 1, the outer edge size of the back coating material layer 3 is larger than that of the stone thin plate 1, and the back coating material layer 3 exceeds the outer edge of the stone thin plate 1 and is inserted into the cover plate clamping groove 9.
The method comprises the following specific steps:
1) the stone thin plate 1 and the back coating material 3 are bonded by the adhesive 2 to form the composite plate 10.
2) Processing the edge, surface and inside of the composite board 10 obtained in the step 1 to obtain a component with a required size and shape, and applying a protective layer 12 to the board surface and/or the side surface of the component made of the composite board 10;
3) the cover plate 4 is provided with a cover plate clamping groove 9, when the back coating material layer 3 is trimmed, a part of 3 edges is reserved, and the reserved part is inserted into the cover plate clamping groove 9 to be tightly attached; or the stone and the back-cover material can be processed to a preset size together and inserted into the clamping groove of the cover plate to be tightly attached;
example 3:
referring to fig. 3, the composite plate 10 includes a thin stone plate 1 and a back-coating material layer 3, the thin stone plate 1 and the back-coating material layer 3 are fixed by an adhesive layer 2, and the back-coating material layer 3 and the cover plate 4 are fixed by screws.
The method comprises the following specific steps:
1) bonding the stone thin plate 1 and the back coating material 3 by the adhesive 2 to prepare
Forming the composite board 10;
2) the composite board 10 of step 1 is subjected to edge, surface and interior finishing treatments,
to achieve the required size and shape of the component, and to notch and embed in the corresponding position
A nut 11, the nut 11 embedded in the stone sheet 1, the nut 11 and the back coating material
3, the part is flush with the outside and can be partially exposed outside;
the parts processed in step 2 are connected to the corresponding cover plates 4 by screws, which are screwed from the inside of the cover plates 4 and connected to nuts, and finally the cover plates are connected to the composite panel 10.
Example 4:
as shown in fig. 4, the composite plate 10 includes two thin stone plates 1, and the inner thin stone plate 1 is adhered and fixed to the cover plate 4, or the fixing manner of embodiment 3 may be adopted, and a back material layer 3 is fixed between the two thin stone plates 1 through an adhesive layer 2.
The method comprises the following specific steps:
1) bonding two layers of stone thin plates 1 and a back coating material 3 by using a bonding agent 2 to prepare a composite plate 10;
2) processing the edge, surface and inside of the composite board 10 manufactured in the step 1 to obtain a part with required size and shape;
3) the parts processed in step 2 are bonded to the respective cover plates 4.
The components made of the composite sheet 10 described in the above embodiments may be provided with a protective layer 12 on the face and/or side of the component.
Example of the processed product:
product example 1: referring to fig. 5, the socket cover 4 has a cover prying opening 5, and the composite board 10 has a socket hole 6.
Product example 2: as shown in fig. 6, a socket cover plate 4 is provided with a cover plate prying opening 5, a socket hole 6 is processed on a composite plate 10, a button switch button 7 is provided on the socket cover plate 4, and the button switch button 7 can also be covered with the composite plate 10.
Product example 3:
referring to fig. 7, the switch cover plate 4 is provided with a cover prying opening 5, the switch cover plate 4 is provided with a contact switch button 8, and the contact switch button 8 can be covered with a composite plate 10.
Product example 4:
in fig. 8, the switch cover plate 4 is provided with a cover plate prying opening 5, the switch cover plate 4 is provided with a key switch button 7, and the key switch button 7 can be covered with a composite plate 10.
It should be understood that the above description of the specific embodiments is only for the purpose of explanation and not for the purpose of limitation. Obvious changes or variations caused by the spirit of the present invention are within the scope of the present invention.
Claims (9)
1. A switch socket panel made of stone is characterized in that the switch socket is a fixed switch or socket, a composite board (10) is fixedly connected to partial or all areas of a cover plate (4) of the switch or socket, and the composite board (10) at least comprises a stone thin plate (1) and a back coating material layer (3) which are mutually compounded.
2. The switch socket panel made of stone according to claim 1, wherein: the composite board (10) comprises a stone thin plate (1) and a back-coating material layer (3), the stone thin plate (1) and the back-coating material layer (3) are fixedly adhered, and the back-coating material layer (3) and the cover plate (4) are fixed through an adhesive, a screw or a buckle.
3. The switch socket panel made of stone according to claim 2, wherein: the back cover material layer (3) and the cover plate (4) are fixed through the buckle, the buckle comprises a cover plate clamping groove (9) formed in the cover plate (4) of the switch or the socket, the back cover material layer (3) is adhered with the stone thin plate (1), the outer edge size of the back cover material layer (3) is larger than the stone thin plate (1), and the outer edge of the back cover material layer (3) exceeding the stone thin plate (1) is inserted into the cover plate clamping groove (9).
4. The switch socket panel made of stone according to claim 1, wherein: the composite plate (10) comprises two layers of stone thin plates (1), the stone thin plates (1) which are arranged in the inner side are fixed with the cover plate (4), and a back coating material layer (3) is fixed between the two layers of stone thin plates (1).
5. The switch socket panel made of stone according to claim 1, wherein: the thickness of the stone thin plate (1) is 0.1-6 mm.
6. The switch socket panel made of stone according to claim 1, wherein: the back coating material layer (3) is made of a non-metal sheet, a fiber net or a fabric.
7. The switch socket panel made of stone according to claim 1, wherein: the stone thin plate (1) is made of natural stone or artificial stone.
8. The switch socket panel made of stone according to claim 1, wherein: the composite board (10) is fixed on the front surface, the outer frame, the buttons or the periphery of the cover plate (4).
9. The switch socket panel made of stone according to claim 1, wherein: the plate surface and/or the side surface of the composite plate (10) is/are provided with a protective layer (12).
Priority Applications (1)
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CN201921798543.7U CN210379544U (en) | 2019-10-24 | 2019-10-24 | Switch socket panel made of stone |
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CN201921798543.7U CN210379544U (en) | 2019-10-24 | 2019-10-24 | Switch socket panel made of stone |
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CN210379544U true CN210379544U (en) | 2020-04-21 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113582721A (en) * | 2021-08-03 | 2021-11-02 | 童晓斐 | Control panel and manufacturing process thereof |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113582721A (en) * | 2021-08-03 | 2021-11-02 | 童晓斐 | Control panel and manufacturing process thereof |
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