CN219036421U - Multifunctional linear lamp - Google Patents

Abstract

The application discloses multi-functional linear lamp, including lamp body, lamp plate subassembly, lens, power and control assembly, the lamp plate subassembly embedded in the lamp body, the lens cover is located on the lamp plate subassembly, the power with control assembly all install in the lamp body, just control assembly with the power is connected, the power with the lamp plate subassembly electricity is connected, the lens includes the lens of at least three kinds of different luminous angles, three kinds of different luminous angles the lens set up respectively in on the lamp plate subassembly, and then with the lamp plate subassembly is cut apart into five luminous regions that are the line character, any the luminous angle of lens that sets up on the luminous region is unanimous, the control assembly steerable is arbitrary the luminous region corresponds the lamp plate subassembly is luminous alone. The linear lamp provided by the application can cover all application scenes, and cost is effectively saved.

Description

Multifunctional linear lamp

Technical Field

The application relates to the technical field of linear lamps, in particular to a multifunctional linear lamp.

Background

At present, the effective utilization requirement of light is higher and higher, light is not irradiated to unnecessary places, different light emitting angles are needed to correspond to various application scenes, and reasonable brightness is provided by different lamp powers.

Most of the linear lamps in the existing market are single-function lamps, and the lamps are partially added with microwave induction or infrared induction intelligent control, but still cannot meet various application scenes. In addition, if the user needs to realize the application of each scene, the user needs to purchase lamps with different powers and lamps with different lighting angles, so that the problem that the user needs to prepare a warehouse is also caused, and the fund cost and the warehouse cost are extremely occupied, so that the fund circulation is not facilitated.

Disclosure of Invention

The aim of the embodiment of the application is that: the multifunctional linear lamp can solve the problems in the prior art, can cover all application scenes and effectively saves cost.

In order to achieve the above purpose, the present application adopts the following technical scheme:

in one aspect, a multi-functional linear lamp is provided, comprising: the LED lamp comprises a lamp body, a lamp panel assembly, lenses, a power supply and a control assembly, wherein the lamp panel assembly is embedded in the lamp body, the lenses are covered on the lamp panel assembly, the power supply and the control assembly are both installed in the lamp body and are connected with the power supply, the power supply is electrically connected with the lamp panel assembly, the lenses comprise at least three lenses with different light-emitting angles, the lenses with the three different light-emitting angles are respectively arranged on the lamp panel assembly, the lamp panel assembly is further divided into five light-emitting areas with linear characters, the light-emitting angles of the lenses arranged on any light-emitting area are consistent, and the control assembly can control the lamp panel assembly corresponding to any light-emitting area to independently emit light;

the multi-function linear lamp is configured to: and when the light-emitting areas emit light simultaneously, the light-emitting areas are intersected to form a light-emitting angle different from that of the lenses.

In some embodiments, any end of the lamp body is provided with a gear component, the gear component is electrically connected with the control component, and a control instruction is sent to the control component by rotating the gear component, so that the lamp panel component corresponding to the light-emitting area is controlled to emit light.

In some embodiments, the gear assembly includes a first end cover, a knob assembly, a first mounting seat and a knob cover, the knob assembly is fixed on the first end cover through the first mounting seat, the knob assembly is connected with the control assembly, the knob cover is covered on the knob assembly and can drive the knob assembly to rotate to any gear, and the first end cover is mounted on one end of the lamp body.

In some embodiments, the gear assembly further comprises a dial dimmer body mounted within the first end cap, a dial dimmer module mounted within the dial dimmer body, and an upper cover detachably covering the dial dimmer body.

In some embodiments, either end of the lamp body is provided with an inductor assembly, the inductor assembly being electrically connected with the control assembly, the inductor assembly being capable of detecting the illumination intensity of the current environment;

the multi-function linear lamp is configured to: when the illumination intensity detected by the sensor component reaches a set light intensity threshold, the sensor component sends a corresponding control instruction to the control component, so that the lamp panel component corresponding to the light emitting area is controlled to emit light.

In some embodiments, the sensor assembly includes a second end cap mounted to an end of the lamp body, a sensor mounted to the second end cap, and a base mounted to the base.

In some embodiments, the lamp panel assembly includes five light emitting chips corresponding to the five light emitting areas respectively, the control assembly includes a conducting block, and at least three light emitting chips are controlled to be communicated with the power supply through the communication position of the conducting block, so that the lamp panel assembly corresponding to the at least three light emitting areas emits light at the same time.

In some embodiments, the lamp panel assembly further comprises a heat sink, wherein the heat sink is fixed above the lamp panel assembly by screws.

In some embodiments, the cross-section of the lamp body is circular, or oval, or rectangular.

In some embodiments, the lamp body further comprises slings which are respectively locked on two sides of the top of the lamp body.

The beneficial effects of this application are: the lamp panel is divided by the lenses with different light-emitting angles to form different light-emitting areas, and then the controller is used for controlling the light-emitting areas to emit light to form new light-emitting angles, so that the lamp panel is applicable to most application scenes, and users do not need to pile up lamps with different specifications, so that the inventory cost of the users is effectively reduced; the switching of the light emitting angles does not need the steps of disassembly and the like, and only the controller is used for controlling the light emitting of the lamp panel components corresponding to different light emitting areas, so that the operation is simple and convenient; in addition, the intelligent light-emitting device has the functions of adjusting power and automatically adjusting light through the sensor assembly, and is strong in functionality and more humanized and intelligent.

Drawings

The present application is described in further detail below with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of a multifunctional linear lamp according to an embodiment of the present application;

FIG. 2 is an exploded view of a multifunctional linear lamp according to an embodiment of the present application;

FIG. 3 is a schematic cross-sectional view of a gear assembly according to an embodiment of the present application;

FIG. 4 is a schematic cross-sectional view of an inductor assembly according to an embodiment of the present application;

FIG. 5 is a schematic diagram illustrating a distribution of light emitting regions according to an embodiment of the present disclosure;

fig. 6 is a schematic diagram of a control circuit according to an embodiment of the present application.

In the figure: 1. a lamp body; 2. a lamp panel assembly; 3. a lens; 4. a power supply; 5. waterproof rubber rings; 6. a gear assembly; 601. a first end cap; 602. a knob assembly; 603. a first mount; 604. a knob cover; 605. a dial dimmer body; 606. a dial-up dimming module; 607. an upper cover; 7. an inductor assembly; 701. a second end cap; 702. a sensor; 703. a base; 8. a power supply fixing plate; 9. a sling; 110. a first light emitting region; 120. a second light emitting region; 130. a third light emitting region; 140. a fourth light emitting region; 150. a fifth light emitting region; 160. and a sixth light emitting region.

Detailed Description

In order to make the technical problems solved, the technical solutions adopted and the technical effects achieved by the present application more clear, the technical solutions of the embodiments of the present application are described in further detail below, and it is obvious that the described embodiments are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

In the description of the present application, unless explicitly stated and limited otherwise, the terms "connected," "secured" and "fixed" are to be construed broadly, as for example, they may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

In this application, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, and may also include the first and second features not being in direct contact but being in contact with each other by way of additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

The present embodiment provides a multifunctional linear lamp, as shown in fig. 1 to 6, including: the LED lamp comprises a lamp body 1, a lamp panel assembly 2, a lens 3, a power supply 4 and a control assembly, wherein the lamp panel assembly 2 is embedded in the lamp body 1, the lens 3 is covered on the lamp panel assembly 2, the power supply 4 and the control assembly are both installed in the lamp body 1, the control assembly is connected with the power supply 4, the power supply 4 is electrically connected with the lamp panel assembly 2, the lens 3 comprises at least three lenses 3 with different light-emitting angles, the lenses 3 with three different light-emitting angles are respectively arranged on the lamp panel assembly 2, the lamp panel assembly 2 is further divided into five light-emitting areas with linear shapes, the light-emitting angles of the lenses 3 arranged on any light-emitting area are consistent, and the control assembly can control the lamp panel assembly 2 corresponding to any light-emitting area to emit light independently; the multi-function linear lamp is configured to: the lamp panel assemblies 2 corresponding to at least three light emitting areas emit light together, and when the light emitting areas emit light simultaneously, the light emitting areas are intersected to form a light emitting angle different from that of the lenses 3.

Based on the above scheme, through the lens 3 that disposes at least three kinds of different luminous angles on lamp plate subassembly 2, cut apart lamp plate subassembly 2 into different luminous regions, the rethread control assembly regulates and control the luminous condition of lamp plate subassembly 2, can realize the combination luminous of different luminous regions, and the combination is luminous can form different luminous angles. In addition, the control component can also independently control the light-emitting of the lamp panel component 2 corresponding to any light-emitting area, that is to say, the light-emitting angle is newly formed on the existing basis, so that the application range of the lamp can be covered is wider. The light emission angles of the three lenses 3 include, but are not limited to, 30×70 °,60×110 °, and 120 °.

Optionally, the lamp further comprises a power supply fixing plate 8, the power supply 4 is arranged on the power supply fixing plate 8, the power supply fixing plate 8 is fixed in the lamp body 1, and the power supply fixing plate 8 plays a role in fixing the power supply 4.

In some embodiments, a gear assembly 6 is disposed at any end of the lamp body 1, the gear assembly 6 is electrically connected with the control assembly, and a control command is sent to the control assembly by rotating the gear assembly 6, so as to control the lamp panel assembly 2 corresponding to the light emitting area to emit light.

The gear assembly 6 comprises a first end cover 601, a knob assembly 602, a first mounting seat 603 and a knob cover 604, the knob assembly 602 is fixed on the first end cover 601 through the first mounting seat 603, the knob assembly 602 is connected with the control assembly, the knob cover 604 is covered on the knob assembly 602 and can drive the knob assembly 602 to rotate to any gear, and the first end cover 601 is mounted at one end part of the lamp body. The knob assembly 602 is provided with at least five gears, which are OFF, first gear, second gear, third gear and fourth gear, respectively, and adjusts the light emitting angle by rotating to different gears.

The gear assembly 6 further comprises a dial dimmer body 605, a dial dimmer module 606 and an upper cover 607, wherein the dial dimmer body 605 is mounted inside the first end cover 601, the dial dimmer module 606 is mounted inside the dial dimmer body 605, and the upper cover 607 is detachably covered on the dial dimmer body 605. The light emitting power of the lamp can be adjusted by matching the dial dimmer body 605 and the dial dimming module 606, so that light rays with different color temperatures can be emitted.

An inductor assembly 7 is arranged at any end part of the lamp body 1, the inductor assembly 7 is electrically connected with the control assembly, and the inductor assembly 7 can detect the illumination intensity of the current environment; the multi-function linear lamp is configured to: when the illumination intensity detected by the sensor assembly 7 reaches the set light intensity threshold, the sensor assembly 7 sends a corresponding control instruction to the control assembly, so as to control the lamp panel assembly 2 corresponding to the light emitting area to emit light.

The sensor assembly 7 includes a second end cap 701, a sensor 702, and a base 703, wherein the second end cap 702 is mounted on one end of the lamp body 1, the base 703 is mounted on the second end cap 701, and the sensor 702 is mounted on the base 703.

The lamp panel assembly 2 comprises five light emitting chips respectively corresponding to five light emitting areas, the control assembly comprises a conducting block, and at least three light emitting chips are controlled to be communicated with the power supply through the communication position of the conducting block, so that the lamp panel assembly 2 corresponding to at least three light emitting areas emits light at the same time.

In some embodiments, the lamp panel assembly further comprises a radiator and slings 9, wherein the radiator is fixed above the lamp panel assembly 2 through screws, and the slings 9 are respectively locked on two sides of the top of the lamp body 1. A waterproof rubber ring 5 is also arranged between the radiator and the lamp panel assembly 2.

In some embodiments, the cross section of the lamp body 1 is circular, or elliptical, or rectangular.

The light-emitting control method based on the multifunctional linear lamp comprises the following steps of:

s1, dividing the lamp panel assembly 2 into at least five light-emitting areas with linear characters;

s2, arranging lenses 3 with different light emitting angles on the five light emitting areas respectively, wherein the light emitting angles of the lenses 3 arranged in the same light emitting area are consistent;

and s3, controlling the lamp panel assemblies 2 corresponding to at least three light emitting areas to emit light simultaneously through the control assembly, and converging the light rays emitted by the lenses 3 with three different light emitting angles to form a new light emitting angle different from any lens 3.

The five light emitting areas are uniformly spaced up and down and are sequentially a first light emitting area 110, a second light emitting area 120, a third light emitting area 130, a fourth light emitting area 140 and a fifth light emitting area 150, respectively.

A lens forming sixth light emitting region 160 is vertically provided at the middle and either end of the five light emitting regions in the horizontal direction; alternatively, the lens forming sixth light emitting region 160 is vertically provided at both ends and the middle of the five light emitting regions in the horizontal direction.

The light emission angles of the lenses 3 are set to be 30×70°,60×110° and 120 °, respectively.

The light emission angle of the lens 3 provided in the first light emission region 110 is 30×70 °, the light emission angle of the lens 3 provided in the second light emission region 120 is 60×110 °, the light emission angle of the lens 3 provided in the third light emission region 130 is 120 °, the light emission angle of the lens 3 provided in the fourth light emission region 140 is 60×110 °, the light emission angle of the lens 3 provided in the fifth light emission region 150 is 30×70 °, and the light emission angle of the lens 3 provided in the sixth light emission region 160 is 120 °.

The lamp panel assemblies 2 corresponding to the first, fourth and fifth light emitting regions 110, 140 and 150 are controlled by the control assembly to emit light simultaneously to form a new light emitting angle N, the lamp panel assemblies 2 corresponding to the first, second, third, fourth and fifth light emitting regions 110, 120, 130, 140 and 150 emit light simultaneously to form a new light emitting angle M, the lamp panel assemblies 2 corresponding to the second, third and fourth light emitting regions 120, 130 and 140 emit light simultaneously to form a new light emitting angle W, and the lamp panel assemblies 2 corresponding to the third, fifth and sixth light emitting regions 130, 150 and 160 emit light simultaneously to form a new light emitting angle V, wherein the new light emitting angle N is 35 x 85 °, the new light emitting angle M is 50 x 100 °, the new light emitting angle W is 65 x 110 °, and the new light emitting angle V is 95 x 115 °.

In the above scheme, three lenses 3 with different light emitting angles are involved, the lenses 3 with the same light emitting angle are linearly arranged on the lamp panel assembly 2 to form a light emitting area, the lamp panel assembly 2 corresponding to a single light emitting area can be independently controlled to emit light and be turned off by the control assembly, and after light rays emitted by the three light emitting areas are converged, new light emitting angles different from the light emitting angles of all the lenses 3 can be formed, so that the purpose of combining different light emitting angles is achieved. Specifically, it can be understood that: the lamp panel assemblies 2 corresponding to the first, fourth and fifth light-emitting regions 110, 140 and 150 emit light simultaneously to form a new light-emitting angle n= (30×70 °) + (60×110 °) + (30×70 °) =35×85°; the lamp panel assemblies 2 corresponding to the first, second, third, fourth and fifth light-emitting regions 110, 120, 130, 140 and 150 emit light simultaneously to form a new light-emitting angle m= (30×70 °) + (60×110 °) + (120 °) + (60×110 °) + (30×70 °) = 50×100 °; the lamp panel assemblies 2 corresponding to the second light-emitting region 120, the third light-emitting region 130 and the fourth light-emitting region 140 emit light simultaneously to form a new light-emitting angle w= (60×110 °) + (120 °) + (60×110 °) =65×110 °; the lamp panel assemblies 2 corresponding to the third, fifth and sixth light emitting regions 130, 150 and 160 respectively emit light at the same time to form a new light emitting angle v= (120 °) + (120 °) + (60×110 °) =95×115°. The purpose of combining and configuring the lamp into a new light-emitting angle is to fully apply the light energy emitted by the lamp to the place to be irradiated, improve the utilization rate and avoid wasting the light in the place where the light is not needed.

To further explain the control manner, as shown in fig. 6, based on the scheme of forming four new light emitting angles, five gears can be set to control the light emitting angles, the OFF gears are closed, the knob is turned to first gear, second gear, third gear and fourth gear to realize different light emitting angles, the new light emitting angle corresponding to the first gear is N, the new light emitting angle corresponding to the second gear is M, the new light emitting angle corresponding to the third gear is W, and the new light emitting angle corresponding to the fourth gear is V.

In addition, a specific customized proportion can be set to adjust the power, for example, the power corresponding to the first gear is 25% of the total power, and the light emission of the first, fourth and fifth light emitting areas is correspondingly controlled; the power corresponding to the second gear is 50% of the total power, and the first, second, third, fourth and fifth light-emitting areas are correspondingly controlled to emit light; the power corresponding to the third gear is 75% of the total power, and the second, third and fourth light-emitting areas are correspondingly controlled to emit light; the corresponding power of the fourth gear is 100% of the total power, and the third, fifth and sixth light-emitting areas are correspondingly controlled to emit light.

In addition, still can detect the adjustment through sensor 702, detect current environment light intensity condition through sensor 702 to according to the data adjustment luminous angle of detection in order to adapt to current environment, can cover the application scene as far as possible, this control scheme is intelligent stronger, does not need manual control, and degree of automation is high, and accommodation can be wider.

The light emitting angles combined in the above scheme are only specific conditions, including but not limited to the above conditions, the specific combination forms are more various, 120 combination conditions can be generated by three-three combinations of six light emitting areas, the light emitting angles of the lens 3 are not limited to the three light emitting angles, and the combination can be adaptively adjusted according to specific application of the specific conditions, so as to achieve the purpose of adapting to illumination requirements.

In summary, the linear lamp provided by the application can not only adjust power, but also adjust the light emitting angle, at least three basic light emitting angles and four new light emitting angles are selectable, and the linear lamp can cover more application scenes, thereby solving the problem of stock pressure of users and reducing stock cost; in addition, the luminous angle can be automatically and intelligently adjusted through the sensor, and the user experience is better.

In the description herein, it should be understood that the terms "upper," "lower," "left," "right," and the like are merely for convenience of description and to simplify the operation, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the application. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for providing a special meaning.

In the description of the present specification, reference to the terms "one embodiment," "example," and the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in the foregoing embodiments, and that the embodiments described in the foregoing embodiments may be combined appropriately to form other embodiments that will be understood by those skilled in the art.

The technical principles of the present application are described above in connection with specific embodiments. These descriptions are provided only for the purpose of illustrating the principles of the present application and should not be construed as limiting the scope of the present application in any way. Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification without undue burden from the present disclosure.

Claims (10)

1. A multi-functional linear lamp, comprising: the LED lamp comprises a lamp body, a lamp panel assembly, lenses, a power supply and a control assembly, wherein the lamp panel assembly is embedded in the lamp body, the lenses are covered on the lamp panel assembly, the power supply and the control assembly are both installed in the lamp body and are connected with the power supply, the power supply is electrically connected with the lamp panel assembly, the lenses comprise at least three lenses with different light-emitting angles, the lenses with the three different light-emitting angles are respectively arranged on the lamp panel assembly, the lamp panel assembly is further divided into five light-emitting areas with linear characters, the light-emitting angles of the lenses arranged on any light-emitting area are consistent, and the control assembly can control the lamp panel assembly corresponding to any light-emitting area to independently emit light;

the multi-function linear lamp is configured to: and when the light-emitting areas emit light simultaneously, the light-emitting areas are intersected to form a light-emitting angle different from that of the lenses.

2. The multifunctional linear lamp according to claim 1, wherein a gear component is arranged at any end of the lamp body, the gear component is electrically connected with the control component, and the control component is rotated to send a control instruction to the control component, so that the lamp panel component corresponding to the light-emitting area is controlled to emit light.

3. The multifunctional linear lamp of claim 2, wherein the gear assembly comprises a first end cover, a knob assembly, a first mounting seat and a knob cover, the knob assembly is fixed on the first end cover through the first mounting seat, the knob assembly is connected with the control assembly, the knob cover is covered on the knob assembly and can drive the knob assembly to rotate to any gear, and the first end cover is mounted on one end of the lamp body.

4. A multi-function linear lamp as recited in claim 3, wherein the gear assembly further comprises a dial dimmer body mounted within the first end cap, a dial dimmer module mounted within the dial dimmer body, and an upper cover removably covering the dial dimmer body.

5. The multifunctional linear lamp of claim 1, wherein either end of the lamp body is provided with an inductor assembly, the inductor assembly being electrically connected to the control assembly, the inductor assembly being capable of detecting the intensity of illumination of the current environment;

the multi-function linear lamp is configured to: when the illumination intensity detected by the sensor component reaches a set light intensity threshold, the sensor component sends a corresponding control instruction to the control component, so that the lamp panel component corresponding to the light emitting area is controlled to emit light.

6. The multi-function linear lamp of claim 5, wherein the sensor assembly comprises a second end cap mounted to an end of the lamp body, a sensor mounted to the second end cap, and a base mounted to the base.

7. The multifunctional linear lamp of claim 1, wherein the lamp panel assembly comprises five light emitting chips corresponding to five light emitting areas respectively, the control assembly comprises a conducting block, and at least three light emitting chips are controlled to be communicated with the power supply through the communication position of the conducting block, so that the lamp panel assembly corresponding to at least three light emitting areas emits light at the same time.

8. The multifunctional linear lamp of claim 1, further comprising a heat sink secured above the lamp panel assembly by screws.

9. A multifunctional linear lamp according to claim 1, characterized in that the cross section of the lamp body is circular, or oval, or rectangular.

10. The multifunctional linear lamp of claim 1, further comprising slings, wherein the slings are locked to two sides of the top of the lamp body, respectively.

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