The utility model relates to a lamp, in particular to a lamp with intuitive operation.

Background technique:

A lamp is an object that emits bright light for human activities. It is mainly used for lighting, and other functions include decoration and entertainment. Lamps are indispensable in people's daily life, and therefore, all kinds of lamps and lanterns are also innovated with the change of people's needs.

Technical implementation elements:

The purpose of the present invention is to provide a lamp with intuitive operation.

The lamp of the utility model comprises a base unit and a lampshade unit. The base unit includes a casing with an opening, a circuit board arranged inside the casing, a push switch arranged on the circuit board, a rotary switch arranged on the circuit board and aligned with the opening, and a connecting piece connected to the rotary switch at one end and extending toward the opening direction. The lampshade unit is slidably disposed on the base unit, and the lampshade unit includes a lampshade body connected to the other end of the connecting piece and slidable along the connecting piece, a lampshade body disposed in the lampshade body and electrically connected to the rotary The switch and the light source group of the push switch, and a connector extending from the lampshade body and entering the inside of the casing through the opening and aligned with the push switch. Wherein, the lampshade unit can move between a light-on position and a light-off position along the connecting piece relative to the housing of the base unit, and when the lampshade unit is in the light-on position, the connecting piece is not pressed against The push switch enables the light source group to turn on and emit light, and the controlled rotation of the lampshade body enables the connecting piece to link the rotary switch to modulate the luminous brightness of the light source group; when the lampshade unit is in the light-off position When the connector is pressed against the push switch, the push switch is disconnected and the light source group is turned off.

The lamp of the present invention further comprises a power supply unit disposed inside the casing, and the power supply unit includes a battery electrically connected to the push switch and the rotary switch.

According to the lamp of the utility model, the power supply unit further comprises a charging port installed on the casing, and the charging port is suitable for being electrically connected with an external power source to supply power to the battery.

According to the lamp of the utility model, the casing defines a central axis, the center of gravity of the battery is located on the central axis, the battery is located on the bottom side of the circuit board, and the bottom of the casing of the base unit is arc-shaped.

In the lamp of the utility model, the lampshade body has an inner cover layer and an outer cover layer which covers the inner cover layer and is spaced from the inner cover layer.

According to the lamp of the utility model, the housing has an inner edge portion located at the edge of the opening and extending toward the central axis; the connecting piece has a stepped portion that interferes with the inner edge portion, wherein when the lampshade unit is located at the center axis In the light-on position, the inner edge portion is locked on the stepped portion; when the lampshade unit is in the light-off position, the inner edge portion is away from the stepped portion and locked with the lampshade body.

According to the lamp of the utility model, the light source group has a sub-circuit board and an LED bulb arranged on the sub-circuit board.

According to the lamp of the utility model, the light source group has a sub-circuit board and a plurality of LED bulbs arranged on the sub-circuit board.

According to the lamp of the utility model, the light source group is a light bulb.

According to the lamp of the utility model, the housing has an inner edge portion located at the edge of the opening and extending toward the central axis; the connecting piece has a stepped portion that interferes with the inner edge portion, wherein when the lampshade unit is located at the center axis In the light-on position, the inner edge portion is locked on the stepped portion; when the lampshade unit is in the light-off position, the inner edge portion is away from the stepped portion and locked with the lampshade body.

The beneficial effect of the present invention is that: by moving the lampshade unit between the light-on position and the light-off position, the light source group is turned on or off, and the controlled rotation of the lampshade body enables the connecting piece to connect The luminous intensity of the light source group can be adjusted by moving the rotary switch, which can achieve an intuitive operation process.

Description of drawings

FIG. 1 is a front view of an embodiment of the lamp of the present invention, illustrating a state of a lampshade unit in a light-off position;

FIG. 2 is a cross-sectional view of the embodiment, illustrating the state of the lampshade unit when the lampshade unit is in the light-off position;

3 is a front view of the embodiment, illustrating the state of the lampshade unit when it is in a light-on position;

FIG. 4 is a cross-sectional view of the embodiment, illustrating the state of the lampshade unit in the light-on position; and

Figure 5 is an exploded perspective view of the embodiment illustrating the detailed components of the light fixture.

Detailed ways

The present utility model will be described in detail below with reference to the accompanying drawings and embodiments.

1 and 2 , the lamp of the present invention includes a base unit 1 , a lampshade unit 2 slidably disposed on the base unit 1 , and a power supply unit 3 disposed in the base unit 1 .

1 , 2 and 5 , the base unit 1 includes a casing 11 , a circuit board 12 , a push switch 13 , a rotary switch 14 , a connecting piece 15 , and a supporting piece 16 .

The casing 11 defines a central axis L1 and has, for example, an opening 111 facing upward. In this embodiment, the casing 11 is divided into an upper casing 11a and a lower casing 11b. The upper casing 11a and a lower casing 11b After the casing 11b is assembled, it is a bottle shape with a slightly arc-shaped bottom, but it is not limited to this. In other embodiments, the casing 11 can also be designed in other shapes according to requirements. It is worth noting that the housing 11 also has an inner edge portion 112 located at the edge of the opening 111 and extending toward the central axis L1 , the function of which will be described in detail later.

The circuit board 12 is disposed inside the casing 11 and below the opening 111 .

The push switch 13 is disposed on the circuit board 12 . In this embodiment, the push switch 13 is a push plate switch, but it is not limited to this. In other embodiments, other kinds of push switches may also be used. switch.

The rotary switch 14 is disposed on the circuit board 12 and aligned with the opening 111 and the central axis L1. In this embodiment, the rotary switch 14 is a rotary switch, but it is not limited to this, and in other embodiments In this case, other types of rotary switches may also be used.

One end of the connecting piece 15 is fixed to the rotary switch 14 and extends toward the opening 111 . When the connecting piece 15 rotates, it will drive the rotary switch 14 to rotate.

The supporting member 16 is sleeved on the connecting member 15 and fixed on the circuit board 12 to stabilize the position of the connecting member 15 so that the lampshade unit 2 can smoothly slide relative to the base unit 1 .

Referring to FIGS. 2 , 4 and 5 , the lampshade unit 2 includes a lampshade body 21 , a light source group 22 , and a connecting member 23 .

The lampshade body 21 is connected to the other end of the connecting piece 15 and can slide along the connecting piece 15 . The lampshade body 21 has an inner cover layer 211 in the shape of a dome, an outer cover layer 212 in the shape of a dome covering the inner cover layer 211 and spaced from the inner cover layer 211 , and an outer cover layer 212 connected to the inner cover layer 211 The bottom edge and the bottom edge of the outer cover layer 212 and the bottom layer 213 recessed in the center, through the double-layer lampshade design of the inner cover layer 211 and the outer cover layer 212, can utilize multiple reflection and refraction to make the light emitted by the lamp softer.

The light source group 22 is disposed in the lampshade body 21 and is electrically connected to the rotary switch 14 and the push switch 13 . In this embodiment, the light source group 22 has a sub-circuit board 221 and a plurality of LED bulbs 222 disposed on the sub-circuit board 221, but it is not limited to this. In other embodiments, the light source group 22 may also have a secondary circuit board 221 and an LED bulb 222 disposed on the secondary circuit board 221, or at least one incandescent bulb.

The connecting piece 23 extends from the recess of the bottom layer 213 of the lampshade body 21 , enters the interior of the housing 11 through the opening 111 , and is aligned with the push switch 13 . The connecting member 23 has a stepped portion 231 that interferes with the inner edge portion 112 , the function of which will be described in detail later.

The power supply unit 3 is disposed inside the casing 11 and includes a battery 31 electrically connected to the push switch 13 and the rotary switch 14 , and a charging port 32 installed in the casing 11 .

The battery 31 is located on the bottom side of the circuit board 12, and the center of gravity of the battery 31 is located on the central axis L1. In this embodiment, the battery 31 is a rechargeable lithium battery, but not limited thereto. It is worth noting that, since the center of gravity of the battery 31 is located on the central axis L1, and the casing 11 is a bottle shape with a slightly arc-shaped bottom, when the lamp is touched and pushed by an external force, it will produce a back and forth similar to a tumbler. Shaking effect.

The charging port 32 is suitable for being electrically connected to an external power source to supply power to the battery 31 . In this embodiment, the charging port 32 is a USB port, but not limited thereto.

Referring to FIGS. 2 , 3 and 4 , the following example describes the operation process of the lamp: the lampshade unit 2 can move along the connecting piece 15 relative to the housing 11 of the base unit 1 to a light-on position and a light-off position between locations.

Specifically, when the lampshade unit 2 moves from the light-off position to the light-on position, it moves along a first direction D1, and the inner edge 112 of the housing 11 approaches and locks with the connecting member The stepped portion 231 of 23, at this time, the connecting member 23 is not pressed against the push switch 13, so that the light source group 22 is turned on and emits light, and the controlled rotation of the lampshade body 21 can enable the connecting member 15 to link the rotation. The mode switch 14 is used to modulate the luminous intensity of the light source group 22 . In detail, when the lampshade body 21 is controlled to rotate along a first rotation direction R1, the rotary switch 14 is linked and its resistance increases, so that the luminous brightness of the light source group 22 becomes dim. When the lampshade body 21 is controlled to rotate along a second rotation direction R2, the rotary switch 14 is linked and its resistance becomes smaller, so that the light source group 22 has a brighter luminance.

When the lampshade unit 2 moves from the light-on position to the light-off position, it moves along a second direction D2, and the inner edge portion 112 of the housing 11 is away from the stepped portion 231 of the connecting member 23 and Locked on the bottom layer 213 of the lampshade body 21 , at this time, the connector 23 presses against the push switch 13 to disconnect the push switch 13 and turn off the light source group 22 .

To sum up, the lamp of the present invention makes the light source group 22 light on or off by moving the lampshade unit 2 between the light-on position and the light-off position, and the controlled rotation of the lampshade body 21 can enable the light source group 22 to be turned on or off. The connecting piece 15 is linked with the rotary switch 14 to modulate the luminous intensity of the light source group 22 , which can achieve an intuitive operation process. In addition, through the double-layer lampshade design of the inner cover layer 211 and the outer cover layer 212, multiple reflections and refractions can be used to make the light emitted by the lamp softer. In addition, by utilizing the design of the power supply unit 3, the external power is supplied from the charging port 32 to the battery 31 to achieve the effect of charging and reusing, so the purpose of the present invention can be achieved.

Only the above are only examples of the present invention, and should not limit the scope of the present invention. Any simple equivalent changes and modifications made according to the claims of the present invention and the contents of the description are all It still falls within the scope covered by this utility model patent.

1. A lamp, characterized in that the lamp comprises:

A base unit includes a casing with an opening, a circuit board disposed inside the casing, a push switch disposed on the circuit board, and a rotary switch disposed on the circuit board and aligned with the opening , and a connecting piece connected to the rotary switch at one end and extending in the direction of the opening; and

A lampshade unit is slidably disposed on the base unit, and the lampshade unit includes a lampshade body connected to the other end of the connecting piece and slidable along the connecting piece, a lampshade body disposed in the lampshade body and electrically connected to the rotation type switch and the light source group of the push type switch, and a connector extending from the lampshade body and entering the inside of the housing through the opening and aligned with the push type switch;

Wherein, the lampshade unit can move between a light-on position and a light-off position along the connecting piece relative to the housing of the base unit, and when the lampshade unit is in the light-on position, the connecting piece is not pressed against The push switch enables the light source group to turn on and emit light, and the controlled rotation of the lampshade body enables the connecting piece to link the rotary switch to modulate the luminous brightness of the light source group; when the lampshade unit is in the light-off position When the connector is pressed against the push switch, the push switch is disconnected and the light source group is turned off.

2 . The lamp of claim 1 , wherein the lamp further comprises a power supply unit disposed inside the housing, the power supply unit comprising a battery electrically connected to the push switch and the rotary switch. 3 . .

3 . The lamp of claim 2 , wherein the power supply unit further comprises a charging port installed in the housing, the charging port is suitable for being electrically connected to an external power source to supply power to the battery. 4 .

4. The lamp according to claim 2 or 3, wherein the housing defines a central axis, the center of gravity of the battery is located on the central axis, and the battery is located on the bottom side of the circuit board, the base unit The bottom of the shell is arc-shaped.

5 . The lamp of claim 4 , wherein the lampshade body has an inner cover layer and an outer cover layer covering the inner cover layer and spaced from the inner cover layer. 6 .

6. The lamp as claimed in any one of claims 1 to 3, wherein the housing defines a central axis, and the housing has an inner edge portion located at the edge of the opening and extending toward the central axis; The connecting piece has a stepped portion interfering with the inner edge portion, wherein when the lampshade unit is in the light-on position, the inner edge portion is locked at the stepped portion; when the lampshade unit is in the light-off position , the inner edge part is away from the stepped part and is locked on the lampshade body.

7 . The lamp according to claim 1 , wherein the light source group has a sub-circuit board and an LED bulb disposed on the sub-circuit board. 8 .

8 . The lamp according to claim 1 , wherein the light source group has a sub-circuit board and a plurality of LED bulbs disposed on the sub-circuit board. 9 .

9 . The lamp according to claim 1 , wherein the light source group is a light bulb. 10 .

10 . The lamp of claim 4 , wherein the housing has an inner edge portion located at the edge of the opening and extending toward the central axis; the connecting member has a stepped portion that interferes with the inner edge portion. 11 . , wherein, when the lampshade unit is in the light-on position, the inner edge is locked at the step; when the lampshade unit is in the light-off position, the inner edge is away from the step and locked in the lampshade ontology.

A lamp with intuitive operation includes a base unit and a lampshade unit slidably arranged on the base unit. The base unit includes a casing, a push switch and a rotary switch arranged in the casing. The lampshade unit includes a lampshade body, a light source group disposed in the lampshade body and electrically connected to the switch, and a connector extending from the lampshade body and entering the interior of the housing and aligned with the push switch, The lampshade unit can be moved relative to the base unit between a light-on position and a light-off position. When the lampshade unit is in the light-on position, the connecting member is not pressed against the push switch so that the light source assembly is guided When the lampshade unit is in the off position, the connecting member presses against the pressing On the switch, the push switch is turned off and the light source group is turned off.