CN112178480A

CN112178480A - Touch crystal desk lamp and manufacturing method thereof

Info

Publication number: CN112178480A
Application number: CN202011008852.7A
Authority: CN
Inventors: 黄海斌
Original assignee: Zhejiang Angel Road Trade Co ltd
Current assignee: Zhejiang Angel Road Trade Co ltd
Priority date: 2020-09-23
Filing date: 2020-09-23
Publication date: 2021-01-05

Abstract

The touch switch of the touch lamp in the technology adopts the touch switch provided by a touch technology manufacturer, the shape and the touch area of the touch switch cannot be changed automatically, and the touch crystal desk lamp and the manufacturing method thereof belong to the technical field of lamps. The invention breaks through the limitation of the size and the shape of the touch area of the touch switch by manufacturing the touch switch into a part of the desk lamp.

Description

Touch crystal desk lamp and manufacturing method thereof

Technical Field

The invention belongs to the technical field of lamps, and particularly relates to a touch crystal desk lamp and a manufacturing method thereof.

Background

Touch technologies include three categories, resistive membrane switches, piezoelectric switches, and capacitive-based touch controls. With the development of touch technology, the touch switch has the advantages of no mechanical parts, no abrasion and long service life, and is widely used in various fields of production and life. In the field of lamps, touch lamps are also diversified, for example, patent publication No. CN202281115U, entitled LED touch desk lamp, which comprises a lamp body, a lamp cap, an LED light source, a touch panel, a driving power supply, and a control circuit. The existing touch desk lamp adopts a touch switch provided by a touch technology manufacturer to be embedded in a lamp to realize the on-off control of the lamp, regardless of adopting a resistive film switch technology, a piezoelectric technology or a capacitive touch control technology. The lamp is limited by the limitation of the shape and the shape of a touch switch of a manufacturer, a lamp manufacturer needs to design a lamp by combining the appearance of the touch switch, the existing touch switch is small, the lamp can only be installed on the lamp to achieve the same operation experience as a key switch, and the arrangement angle of the lamp is limited.

Disclosure of Invention

The invention provides a touch crystal desk lamp and a manufacturing method thereof, aiming at the problem that the touch switches of touch lamps in the prior art are all standard touch switches provided by touch technology manufacturers and the shape and the touch area of the touch switches cannot be changed by self.

The invention aims to be realized by the following technical scheme: the utility model provides a quartzy desk lamp of touch-control, includes base, touch-control pedestal, lighting fixture and lamp shade, be equipped with the control circuit board of control desk lamp in the base, touch-control pedestal, the coaxial setting of lighting fixture three, the center of touch-control pedestal is equipped with the through-hole, the contact surface of touch-control pedestal and base is equipped with one deck metal coating, be connected with elastic metal wire between control circuit board and the metal coating, the inside mounting hole that link up lower extreme on the lighting fixture that is equipped with of lighting fixture, the center of mounting hole and the center of through-hole are on same straight line, the upper end of lighting fixture is equipped with the lamp pearl, still.

In the above scheme, the crystal of the invention is an artificial crystal, the artificial crystal is glass containing lead oxide, and the glass is a good insulating material. A layer of metal coating is plated on the contact surface of the touch pedestal and the base, the metal coating can be regarded as a conductive electrode, when any part on a human body touches the touch pedestal, the human body and the metal coating form two conductors which are close to each other, and the middle touch pedestal is a non-conductive insulating medium, so that a capacitor is formed. When power is supplied to the metal coating end, the capacitor stores charges, and a determination signal that the touch pedestal is touched is determined by detecting the change of the capacitance value of the capacitor through the control circuit board. The control circuit board judges the on-off operation of the desk lamp through the touch signal. The touch body is a part of the desk lamp, and the touch area and the touch shape can be designed and manufactured by manufacturers, thereby breaking through the limitation of the size and the shape of the touch switch contact area of the standard touch switch. The elastic metal wire can always abut against the metal coating film without welding the metal wire and the metal coating film, and the connection between the control circuit board and the metal coating film cannot be influenced even if the touch control pedestal and the base rotate relatively.

Preferably, the metal plating film is a metal aluminum plating film. The color of the aluminum element is silvery white, light can be reflected well, the crystal is made of transparent materials, and the influence of silvery white coating on the appearance, appearance and quality of the crystal table lamp is minimal. The conductivity of the metal aluminum is second to silver, copper and gold, but the content of the metal aluminum in the earth crust is second to oxygen and silicon, and the metal aluminum is third, low in price and good in technical economy.

Preferably, a charging port for charging the desk lamp is further arranged on the base.

Preferably, a connecting hole for communicating the control circuit board and the through hole is further formed in the base. The control line of conveniently controlling lamp pearl is worn from control circuit board.

Preferably, the control pedestal includes a support base for supporting the lamp holder and an insulating touch layer for touch control.

Preferably, the thickness of the insulating touch layer is not more than 10 mm. According to a calculation formula of the capacitance, the closer the distance between two polar plates of the capacitance is, the larger the capacitance is, and the higher the sensitivity of touch is. However, the thinner the thickness of the insulating touch layer is, the more difficult the production process is, the higher the required production is, and therefore, the thickness of the insulating touch layer is determined by considering the economic and technical benefits.

Preferably, the guide pipe is a circular ring-shaped guide pipe, and the diameter of the guide pipe is equal to that of the mounting hole.

A manufacturing method of a touch crystal desk lamp comprises the following steps:

the method comprises the following steps: respectively manufacturing a base, a touch pedestal, a lamp holder and a lampshade according to design requirements;

step two: cleaning the surface of the touch pedestal, wrapping a layer of isolation layer on the surface of the touch pedestal and exposing the contact surfaces of the touch pedestal and the base;

step three: putting the touch pedestal into an ion plating machine for plating;

step four: transferring the touch control pedestal after film coating out of the ion film coating machine, and removing the isolation layer;

step five; respectively installing the control circuit board and the guide pipe into the base and the lamp holder;

step six: welding a metal wire and a power line for supplying power to a lamp bead of the desk lamp at corresponding positions on the control circuit board;

step seven: mounting a touch pedestal on the base, and enabling the other end of the metal wire connected with the control circuit board to abut against the metal coating;

step eight: install lighting fixture, lamp pearl and lamp shade on the touch-control pedestal in proper order to with lamp pearl and control circuit board electric connection.

Compared with the prior art, the invention has the following beneficial effects: part of the desk lamp is the touch switch, an additional touch switch is not needed, and the metal coating and the human body are used as two poles of a capacitor, so that the limitation of the standard touch switch on the size and the shape of the contact area of the touch switch can be broken through, and the more convenient and attractive touch desk lamp can be developed. The elastic metal wire can always abut against the metal coating film without welding the metal wire and the metal coating film, and the connection between the control circuit board and the metal coating film cannot be influenced even if the touch control pedestal and the base rotate relatively.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a structural cross-sectional view of the present invention;

fig. 3 is a schematic structural diagram of the touch pedestal.

The labels in the figure are: 1. a base; 2. a touch pedestal; 3. a lamp holder; 4. a lamp shade; 5. a charging port; 6. a control circuit board; 7. mounting holes; 8. a through hole; 9. coating a metal film; 10. a support table; 11. an insulating touch layer; 12. and connecting the connecting holes.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings to which:

example 1

As shown in fig. 1, 2 and 3, the touch crystal desk lamp comprises a base 1, a touch pedestal 2, a lamp holder 3 and a lampshade 4, wherein the base 1 is further provided with a charging port 5 for charging the desk lamp. The base 1 is internally provided with a control circuit board 6 for controlling the desk lamp, the base 1, the touch pedestal 2 and the lamp holder 3 are coaxially arranged, and the touch pedestal 2 comprises a supporting table 10 for supporting the lamp holder 3 and an insulating touch layer 11 for touch control. The thickness of the insulating touch layer 11 is not more than 10 mm. And a silvery white metal coating film 9 is arranged on the contact surface of the touch pedestal 2 and the base 1. When any part of a human body touches the insulating touch layer 11, the metal plated film 9 and the human body form two conductors close to each other, the insulating touch layer 11 between the human body and the metal plated film 9 is an insulating medium, and the metal plated film 9, the human body and the insulating touch layer 11 form a capacitor. The metal plating film 9 is a metal aluminum plating film. The color of the aluminum element is silvery white, light can be reflected well, the crystal is made of transparent materials, and the influence of silvery white coating on the appearance, appearance and quality of the crystal table lamp is minimal. The conductivity of the metal aluminum is second to silver, copper and gold, but the content of the metal aluminum in the earth crust is second to oxygen and silicon, and the metal aluminum is third, low in price and good in technical economy. The metal spring is connected between the control circuit board 6 and the metal coating 9, the metal spring can always abut against the metal coating 9 without welding the metal spring and the metal coating 9, and the connection between the control circuit board 6 and the metal coating 9 cannot be influenced even if the touch pedestal 2 and the base 1 rotate relatively. The center of touch-control pedestal 2 is equipped with still through-hole 8, still is equipped with the connecting hole 12 that supplies control circuit board 6 and through-hole 8 intercommunication in the base 1. The lamp holder 3 is internally provided with a mounting hole 7 penetrating through the upper end and the lower end of the lamp holder, the center of the mounting hole 7 and the center of the through hole 8 are on the same straight line, the upper end of the lamp holder is provided with a lamp bead, and a silvery white guide pipe is further arranged in the mounting hole. The guide pipe is a circular ring-shaped guide pipe, and the diameter of the guide pipe is equal to that of the mounting hole 7.

the method comprises the following steps: respectively manufacturing a base 1, a touch pedestal 2, a lamp holder 3 and a lampshade 4 according to design requirements;

step two: the surface of the touch pedestal 2 is cleaned, and an isolation layer is wrapped on the surface of the touch pedestal 2 and exposes the contact surfaces of the touch pedestal 2 and the base 1;

step three: putting the touch pedestal 2 into an ion plating machine for plating;

step four: transferring the touch pedestal 2 after film coating out of the ion film coating machine, and removing the isolation layer;

step five; the control circuit board and the guide pipe are respectively arranged in the base 1 and the lamp holder 3;

step six: welding a metal wire and a power line for supplying power to a lamp bead of the desk lamp at corresponding positions on the control circuit board 6;

step seven: installing a touch pedestal 2 on the base 1, and enabling the other end of the metal lead connected with the control circuit board 6 to abut against the metal coating film 9;

step eight: install lighting fixture 3, lamp pearl and lamp shade 4 on touch-control pedestal 2 in proper order to with lamp pearl and 6 electric connection of control circuit board.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims

1. The utility model provides a touch-control crystal desk lamp, its characterized in that, includes base (1), touch pedestal (2), lighting fixture (3) and lamp shade (4), be equipped with control circuit board (6) of control desk lamp in base (1), touch pedestal (2), lighting fixture (3) three coaxial setting, the center of touch pedestal (2) is equipped with through-hole (8), the contact surface of touch pedestal (2) and base (1) is equipped with one deck metal coating (9), be connected with elastic metal wire between control circuit board (6) and metal coating (9), inside mounting hole (7) that link up lower extreme on the lighting fixture that are equipped with of lighting fixture (3), the center of mounting hole (7) and the center of through-hole (8) are on same straight line, the upper end of lighting fixture is equipped with the lamp pearl, still be equipped with the pipe in the mounting hole.

2. The touch-control crystal desk lamp of claim 1, wherein the metal coating (9) is a metal aluminum coating.

3. The touch crystal desk lamp of claim 1, wherein the base (1) is further provided with a charging port (5) for charging the desk lamp.

4. The touch crystal desk lamp according to claim 1, wherein the base (1) is further provided with a connecting hole (12) for communicating the control circuit board (6) with the through hole (8).

5. Touch-control crystal desk lamp according to claim 1, characterized in that the touch-control pedestal (2) comprises a support (10) for supporting the lamp holder (3) and a touch-control insulating touch layer (11).

6. Touch-control crystal desk lamp according to claim 5, characterized in that the thickness of the insulating touch layer (11) is not more than 10 mm.

7. The touch-control crystal desk lamp of claim 1, wherein the conduit is a circular conduit, and the diameter of the conduit is equal to the diameter of the mounting hole (7).

8. A manufacturing method of a touch crystal desk lamp is characterized by comprising the following steps:

the method comprises the following steps: respectively manufacturing a base (1), a touch pedestal (2), a lamp holder (3) and a lampshade (4) according to design requirements;

step two: the surface of the touch pedestal (2) is cleaned, and an isolation layer is wrapped on the surface of the touch pedestal (2) and exposes the contact surfaces of the touch pedestal (2) and the base (1);

step three: putting the touch pedestal (2) into an ion plating machine for plating a film;

step four: transferring the touch control pedestal (2) with the coated film out of the ion coating machine, and removing the isolation layer;

step five; the control circuit board and the guide pipe are respectively installed in the base (1) and the lamp holder (3);

step six: welding a metal wire and a power line for supplying power to a lamp bead of the desk lamp at corresponding positions on the control circuit board (6);

step seven: mounting a touch pedestal (2) on the base (1), and enabling the other end of the metal wire connected with the control circuit board (6) to abut against the metal coating (9);

step eight: install lighting fixture (3), lamp pearl and lamp shade (4) on touch-control pedestal (2) in proper order to with lamp pearl and control circuit board (6) electric connection.