CN215954075U - Wooden clock capable of preventing charging and skidding - Google Patents

Abstract

The utility model discloses a charging skidproof wood clock, which comprises: the wireless charging device comprises a shell, wherein a clock display module and a wireless charging module are arranged in the shell; the upper end face of the shell is provided with a light slot hole in a position corresponding to the wireless charging module, a light source is arranged on the lower portion of the light slot hole, light-transmitting anti-skidding silica gel is filled above the light source in the light slot hole, and the anti-skidding silica gel is used for placing equipment to be charged. According to the utility model, the anti-skid silica gel is more firmly arranged and is not easy to fall off through the structure, and the anti-skid silica gel has a lighting function.

Description

Wooden clock capable of preventing charging and skidding

Technical Field

The utility model relates to the field of electronic clocks, in particular to a charging anti-skid wood clock.

Background

The clock is used as a timer and is commonly used for recording life in daily life of people. People can know the time accurately through the clock to ensure that some transactions are not missed or missed. With the development of technology, clocks are no longer used only for recording time, and clocks with more functions, such as temperature measurement, humidity measurement and the like, appear.

Wooden clocks with wireless charging are now on the market, and some mobile devices can be charged by arranging a wireless charging module in the clock. Mobile devices are often placed on the top of wood clocks, so many wood clocks require anti-slip components on the top to prevent the mobile device from slipping off. The existing anti-skid component is generally directly arranged or stuck on the top surface of a wood clock, is not firm enough, is easy to fall off after being used for a long time, has single function and can not provide illumination only by having an anti-skid function.

SUMMERY OF THE UTILITY MODEL

In view of the disadvantages of the prior art, the technical problem to be solved by the present invention is to provide a charging anti-slip wood clock, which aims to make the anti-slip component of the wood clock more firm and not easy to fall off, and has an illumination function.

In order to achieve the above object, the present invention provides a charging anti-slip wood clock, comprising: the wireless charging device comprises a shell, wherein a clock display module and a wireless charging module are arranged in the shell; the up end of casing with the corresponding position of wireless module of charging is provided with the light slotted hole, be provided with light source and non-light tight anti-skidding silica gel in the light slotted hole, anti-skidding silica gel is located the light source top, anti-skidding silica gel is used for placing and treats the battery charging outfit.

Optionally, the light slot is formed by cutting laser, the depth of the light slot is the focus point of the laser, and the shape of the light slot is cut according to a required pattern.

Optionally, the bottom surface of the anti-slip silica gel is frosted through laser processing, the frosted roughness of each position of the bottom surface of the anti-slip silica gel is determined according to the gray scale of the required pattern at the position, and the bottom surface of the anti-slip silica gel faces towards one surface of the lamp source.

Optionally, the bottom surface coating of anti-skidding silica gel has the printing opacity coating, each position of the bottom surface of anti-skidding silica gel the printing opacity coating thickness is confirmed at the grey scale of this position according to the demand pattern, the printing opacity coating thickness is inversely proportional with the luminousness, the bottom surface of anti-skidding silica gel is for the orientation the one side of lamp source.

Optionally, the thickness of the light-transmitting coating is changed by burning with laser, and the thickness of different positions of the light-transmitting coating is changed according to different burning degrees of the laser.

Optionally, the bottom surface coating of anti-skidding silica gel has the printing opacity coating, be provided with the light trap on the printing opacity coating, each position of bottom surface of anti-skidding silica gel light trap density is confirmed according to the grey scale of demand pattern in this position, light trap density is directly proportional with the luminousness, the bottom surface of anti-skidding silica gel is for the orientation the one side of lamp source.

Optionally, the light hole is formed by laser processing.

Optionally, the top surface of antiskid silica gel is the dull polish form, dull polish form top surface is used for increasing antiskid silica gel with treat frictional force between the battery charging outfit and will the light in lamp source is dispersed, antiskid silica gel's top surface does antiskid silica gel dorsad the one side in lamp source.

The utility model has the beneficial effects that: 1. the utility model is characterized in that a light slot is arranged at the position, corresponding to the wireless charging module, of the upper end surface of the wood clock shell, a light source is arranged at the lower part of the light slot, and light-transmitting anti-skidding silica gel is filled above the light source in the light slot. Has the following advantages: firstly, adopt recess packing anti-skidding silica gel for silica gel is inseparabler firm with the laminating of wood clock, and sets up the anti-skidding silica gel in the recess and be difficult for receiving external disturbance and drop. And secondly, the lamp source penetrates through the light-transmitting anti-slip silica gel to play a role in illumination, and the silica gel can disperse the light of the lamp source so as to make the light softer and more uniform. And thirdly, the grooves are filled with anti-slip silica gel, so that the upper end surface of the shell is not provided with the bulges of the anti-slip component, and the shell is more attractive. 2. The lamp light groove hole is formed by cutting laser, the depth of the lamp light groove hole is a laser focusing point, and the shape of the lamp light groove hole is cut according to a required pattern. Laser cutting makes the tangent plane more level and smooth, and is more accurate moreover. The groove shape can be cut according to user's demand, makes anti-skidding silica gel present the light-emitting piece of different shapes under the effect of lamp source, and is more pleasing to the eye. 3. The bottom surface of the anti-skid silica gel is frosted through laser processing, and the frosted roughness of each position of the bottom surface of the anti-skid silica gel is determined according to the gray level of a required pattern at the position; or the bottom surface of the anti-skid silica gel is coated with the light-transmitting coating, and the thickness of the light-transmitting coating at each position of the bottom surface of the anti-skid silica gel is determined according to the gray scale of the required pattern at the position; or the bottom surface of the anti-slip silica gel is coated with a light-transmitting coating, light-transmitting holes are formed in the light-transmitting coating, and the density of the light-transmitting holes in each position of the bottom surface of the anti-slip silica gel is determined according to the gray scale of the required pattern in the position. According to the utility model, the gray level of each position of the anti-skid silica gel is realized to emit light according to the preset gray level through one or more of the three structures, so that the anti-skid silica gel is more layered and more beautiful in light emission. 4. The top surface of the anti-skid silica gel is frosted, and the frosted top surface is used for increasing the friction force between the anti-skid silica gel and the equipment to be charged and dispersing the light of the light source. The charging equipment is more difficult to slide down by increasing friction; the light of the lamp source is dispersed, so that the light is softer and more uniform. In conclusion, the anti-slip silica gel is filled in the light slot hole provided with the light source, so that the anti-slip silica gel is firmer in arrangement and is not easy to fall off, and the anti-slip silica gel has a lighting function.

Drawings

FIG. 1 is a schematic structural view of a rechargeable anti-slip wood clock according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a lighting slot pattern of a rechargeable slip-resistant wood clock according to a first embodiment of the present invention;

FIG. 3 is a schematic diagram of a lighting slot pattern of a rechargeable slip-resistant wood clock according to a second embodiment of the present invention;

FIG. 4 is a schematic side view of an anti-slip silica gel according to a third embodiment of the present invention;

FIG. 5 is a schematic side view of a non-slip silica gel and light transmissive coating in a fourth embodiment of the present invention;

fig. 6 is a schematic top view of a light-transmissive coating according to a fifth embodiment of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the patent.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

The applicant researches and discovers that: the prior art provides the wood clock of taking wireless function of charging, and the mobile device antiskid measure of adoption generally pastes or sets up on wood clock top surface for anti-skidding mechanism, and such design receives to pieces and rubs the drop through external for a long time very easily, and is firm inadequately, and the function singleness is only used for the antiskid.

Therefore, an embodiment of the present invention provides a rechargeable skidproof wood clock, as shown in fig. 1 to 6, comprising: the wireless charging device comprises a shell 1, wherein a clock display module 2 and a wireless charging module 3 are arranged in the shell 1; a light slot hole 4 is arranged at the position of the upper end surface of the shell 1 corresponding to the wireless charging module 3,

the lower part of the light slot hole 4 is provided with a light source 5, a transparent anti-slip silica gel 6 is filled above the light source 5 in the light slot hole 4, and the anti-slip silica gel 6 is used for placing a device to be charged. In fig. 1, the lamp slot hole 4 is a cuboid groove.

It should be noted that the light slot 4 and the wireless charging module 3 are correspondingly arranged to accelerate the wireless charging efficiency and avoid energy waste.

Adopt light slotted hole 4 to fill anti-skidding silica gel 6 for anti-skidding silica gel 6 is inseparabler firm with the laminating of wood clock, and sets up anti-skidding silica gel 6 in light slotted hole 4 and be difficult for receiving external disturbance and drop. The lamp source 5 can play a role in illumination through the light-transmitting anti-slip silica gel 6, and the silica gel can disperse the light of the lamp source 5 to make the light softer and more uniform. The light slotted hole 4 is filled with the anti-skid silica gel 6, so that the upper end surface of the shell 1 is not provided with the bulges arranged by the anti-skid components, and the appearance is more attractive.

Optionally, the light slot 4 is formed by cutting with laser, the depth of the light slot 4 is the focus point of the laser, and the shape of the light slot 4 is cut according to the required pattern. The laser cutting is adopted, so that the cut is smooth, and the efficiency is higher.

In the first embodiment, as shown in fig. 2, the light slots 4 are only two rectangular grooves. The design structure is simple, the antiskid effect is good, and the materials are saved.

In the second embodiment, the light slot holes 4 can be cut into various shapes according to the user's needs. Specifically, as shown in fig. 3, fig. 3 is a star-shaped groove.

In the third embodiment, the bottom surface of the anti-slip silicone rubber 6 is frosted by laser processing, the frosted roughness of each position of the bottom surface of the anti-slip silicone rubber 6 is determined according to the gray scale of the required pattern at the position, and the bottom surface of the anti-slip silicone rubber 6 is the surface facing the light source 5. The side view structure of the anti-slip silica gel 6 can be as shown in fig. 4. The density of the wavy lines in fig. 4 represents the sanding roughness, and denser represents rougher.

The bottom surface of the anti-slip silicone rubber 6 is frosted, and the frosting roughness of each position of the bottom surface of the anti-slip silicone rubber 6 is determined according to the gray scale of the required pattern at the position. The gray scale change is realized by directly adopting the anti-skid silica gel 6, other materials are not needed, the material consumption is reduced, and the cost is saved.

In the fourth specific embodiment, the bottom surface of the anti-slip silica gel 6 is coated with the light-transmitting coating 7, the thickness of the light-transmitting coating 7 at each position of the bottom surface of the anti-slip silica gel 6 is determined according to the gray scale of the required pattern at the position, the thickness of the light-transmitting coating 7 is inversely proportional to the light transmittance, and the bottom surface of the anti-slip silica gel 6 is the surface facing the light source 5. The structures of the anti-slip silica gel 6 and the light-transmitting coating 7 can be as shown in fig. 5.

Further, the thickness of the transparent coating 7 is changed by burning with laser, and the thickness of different positions of the transparent coating 7 is changed according to different burning degrees of the laser.

It should be noted that the gray scale is changed by the difference in thickness of the light-transmitting coating 7, and the anti-slip silica gel 6 does not need to be subjected to excessive processing, so that better light-transmitting performance can be maintained.

In the fifth embodiment, the bottom surface of the anti-slip silica gel 6 is coated with the light-transmitting coating 7, the light-transmitting coating 7 is provided with light-transmitting holes, the density of the light-transmitting holes at each position of the bottom surface of the anti-slip silica gel 6 is determined according to the gray scale of the required pattern at the position, the density of the light-transmitting holes is in direct proportion to the light transmittance, and the bottom surface of the anti-slip silica gel 6 faces the light source 5. The light-transmitting coating 7 can be formed as shown in fig. 6, and the light-transmitting holes in the dense part of fig. 6 form a pattern similar to a human face, so that a brighter human face image can be emitted under the action of the light source 5.

Further, the light hole is formed by laser processing.

It should be noted that the gray scale change is realized by the different densities of the upper light holes of the light-transmitting coating 7, and the realization is simpler than the thickness processing.

Optionally, the top surface of anti-skidding silica gel 6 is the dull polish form, and dull polish form top surface is used for increasing the frictional force between anti-skidding silica gel 6 and the equipment of waiting to charge and disperses the light of light source 5, and the top surface of anti-skidding silica gel 6 is the one side of anti-skidding silica gel 6 back to light source 5.

The frosted top surface I can increase the friction force between the anti-skid silica gel 6 and the equipment to be charged, so as to prevent the equipment to be charged from sliding off; secondly, the light of the light source 5 can be diffused, so that the light is more uniform and softer.

Optionally, this wood clock still includes: and a temperature display module. The temperature display module is used for displaying the temperature of the environment of the wood clock.

Optionally, this wood clock still includes: and a humidity display module. The humidity display module is used for displaying the humidity of the environment of the wood clock.

In the embodiment of the utility model, the upper end surface of the wood clock shell 1 is provided with a light slot 4 corresponding to the wireless charging module 3, the lower part of the light slot 4 is provided with a light source 5, and the upper part of the light source 5 in the light slot 4 is filled with transparent anti-skid silica gel 6. Has the following advantages: firstly, adopt recess packing anti-skidding silica gel 6 for silica gel is inseparabler firm with the laminating of wood clock, and sets up anti-skidding silica gel 6 in the recess and be difficult for receiving external disturbance and drop. Second, light source 5 sees through non-slip silica gel 6 of printing opacity and can play the illumination effect, and silica gel can disperse the light of light source 5 so that light is more soft even. And thirdly, the groove is filled with the anti-slip silica gel 6, so that the upper end surface of the shell 1 is not provided with the bulge formed by the anti-slip component, and the shell is more attractive. In the embodiment of the utility model, the light slot hole 4 is formed by cutting laser, the depth of the light slot hole 4 is the focus point of the laser, and the shape of the light slot hole 4 is cut according to a required pattern. Laser cutting makes the tangent plane more level and smooth, and is more accurate moreover. The groove shape can be cut according to user's demand, makes anti-skidding silica gel 6 present the luminous piece of different shapes under the effect of lamp source 5, and is more pleasing to the eye. The bottom surface of the anti-skid silica gel 6 is frosted through laser processing, and the frosted roughness of each position of the bottom surface of the anti-skid silica gel 6 is determined according to the gray level of a required pattern at the position; or the bottom surface of the anti-skid silica gel 6 is coated with the light-transmitting coating 7, and the thickness of the light-transmitting coating 7 at each position of the bottom surface of the anti-skid silica gel 6 is determined according to the gray scale of the required pattern at the position; or the bottom surface of the anti-slip silica gel 6 is coated with the light-transmitting coating 7, the light-transmitting coating 7 is provided with light-transmitting holes, and the density of the light-transmitting holes at each position of the bottom surface of the anti-slip silica gel 6 is determined according to the gray scale of the required pattern at the position. According to the embodiment of the utility model, the gray level of each position of the anti-skid silica gel 6 is realized to emit light according to the preset gray level through one or more of the three structures, so that the anti-skid silica gel 6 is more layered and more beautiful in light emission. The top surface of the anti-skid silica gel 6 is frosted, and the frosted top surface is used for increasing the friction force between the anti-skid silica gel 6 and the equipment to be charged and dispersing the light of the light source 5. The charging equipment is more difficult to slide down by increasing friction; dispersing the light of the light source 5 can make the light softer and more uniform. In summary, the embodiment of the utility model fills the anti-slip silica gel 6 in the light slot 4 provided with the light source, so that the anti-slip silica gel 6 is more firmly arranged and is not easy to fall off, and has an illumination function.

The foregoing detailed description of the preferred embodiments of the utility model has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (8)

1. The utility model provides a wood clock of antiskid charges which characterized in that, wood clock includes: the wireless charging device comprises a shell, wherein a clock display module and a wireless charging module are arranged in the shell; the up end of casing with the corresponding position of wireless module of charging is provided with the light slotted hole, be provided with light source and non-light tight anti-skidding silica gel in the light slotted hole, anti-skidding silica gel is located the light source top, anti-skidding silica gel is used for placing and treats the battery charging outfit.

2. The wood clock according to claim 1, characterized in that the light slot is cut by laser, the depth of the light slot is the focus point of the laser, and the shape of the light slot is cut according to the required pattern.

3. The wood clock according to claim 1, wherein the bottom surface of the non-slip silicone rubber is frosted by laser processing, the frosted roughness of each position of the bottom surface of the non-slip silicone rubber is determined according to the gray scale of the required pattern at the position, and the bottom surface of the non-slip silicone rubber is the surface facing the light source.

4. The wood clock according to claim 1, characterized in that the bottom surface of the non-slip silica gel is coated with a light-transmitting coating, the thickness of the light-transmitting coating at each position of the bottom surface of the non-slip silica gel is determined according to the gray scale of the required pattern at the position, the thickness of the light-transmitting coating is inversely proportional to the light transmittance, and the bottom surface of the non-slip silica gel is the surface facing the light source.

5. The wood clock according to claim 4, wherein said light transparent coating is burned by laser to change thickness, and the thickness of said light transparent coating at different positions is changed according to the degree of the laser burning.

6. The wood clock according to claim 1, characterized in that the bottom surface of the non-slip silica gel is coated with a light-transmitting coating, the light-transmitting coating is provided with light-transmitting holes, the density of the light-transmitting holes at each position of the bottom surface of the non-slip silica gel is determined according to the gray scale of the required pattern at the position, the density of the light-transmitting holes is in direct proportion to the light transmittance, and the bottom surface of the non-slip silica gel is the surface facing the light source.

7. The wood clock according to claim 6, wherein said light-transmitting holes are formed by laser machining.

8. The wood clock according to claim 1, characterized in that, anti-skidding silica gel's top surface is dull polish form, dull polish form top surface be used for increasing anti-skidding silica gel with treat the frictional force between the battery charging outfit and with the light of light source is dispersed, anti-skidding silica gel's top surface is that anti-skidding silica gel is dorsad the one side of light source.

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