Semiconductor luminous plate
1. The utility model provides a semiconductor light-emitting board, its structure is equipped with board shell (1), the luminescent plate body (2), switch knob (3), the luminescent plate body (2) is embedded solid and is installed in board shell (1), switch knob (3) and board shell (1) structure as an organic whole just are located its outside end position, its characterized in that:
the light-emitting plate body (2) is provided with a circuit board (21) and a light-emitting device (22), the circuit board (21) is located below the light-emitting device (22) and matched with the light-emitting device, and the light-emitting device (22) is installed on the top of the light-emitting plate body (2).
2. The semiconductor light emitting panel of claim 1, wherein: light emitting device (22) are equipped with light-passing board (221), cover plate device (222), diaphragm (223), half pipe (224), cover plate device (222) swing joint is on diaphragm (223), light-passing board (221) are located cover plate device (222) top, half pipe (224) are passed through cover plate device (222) middle end and clearance fit.
3. A semiconductor light emitting panel as claimed in claim 2, wherein: the cover plate device (222) is provided with a driving body (a 1) and a movable plate (a 2), wherein the driving body (a 1) is movably connected to two side ends of the movable plate (a 2) and movably matched with the movable plate.
4. A semiconductor light emitting panel as claimed in claim 3, wherein: the driving body (a 1) is provided with a heat expansion block (a 11), side end heads (a 12), an ejecting device (a 13) and an inner cavity (a 14), wherein the side end heads (a 12) are fixedly connected to two side ends of the driving body (a 1), the heat expansion block (a 11) is movably matched with the lateral end of the ejecting device (a 13), and the inner cavity (a 14) is positioned on the inner side of the ejecting device (a 13).
5. The semiconductor light emitting panel of claim 4, wherein: the jacking device (a 13) is provided with a variable block (q 1), a movable groove (q 2), a connecting block (q 3) and a rolling ball (q 4), the movable groove (q 2) and the variable block (q 1) are of an integrated structure and are located inside the movable groove (q 3), the connecting block (q 3) is connected between the variable block (q 1), and the rolling ball (q 4) is embedded and moved in the movable groove (q 2).
6. The semiconductor light emitting panel of claim 4, wherein: inner chamber (a 14) is equipped with embedding piece (w 1), connecting rod (w 2), magnetic ball (w 3), connecting rod (w 2) embedding is connected inside inner chamber (a 14), magnetic ball (w 3) are connected and clearance fit with connecting rod (w 2), one side end at connecting rod (w 2) is connected to embedding piece (w 1).
7. A semiconductor light emitting panel as claimed in claim 3, wherein: the movable plate (a 2) is provided with a solid plate (a 21), a hinge shaft (a 22), a through hole plate (a 23) and a wiping block (a 24), the hinge shaft (a 22) is movably connected between the solid plate (a 21) and the through hole plate (a 23), the wiping block (a 24) is installed at the top end of the through hole plate (a 23), and the through hole plate (a 23) and the solid plate (a 21) are of an integrated structure and are located at the upper end position of the integrated structure.
8. The semiconductor light emitting panel of claim 7, wherein: the eraser block (a 24) is provided with an arc block (e 1), an elastic block (e 2) and a supporting block (e 3), two sides of the arc block (e 1) are connected with two side ends of the elastic block (e 2), and the supporting block (e 3) is embedded and connected between the arc block (e 1) and the elastic block (e 2) and is movably matched with the arc block (e 1).
Background
The semiconductor light-emitting plate is a plate-shaped object which is composed of semiconductor diode devices capable of emitting light and can be used for lighting, and the conductivity of the semiconductor can be controlled, so that the semiconductor light-emitting plate is used for controlling lighting and is widely applied by people.
Based on the above findings, the present inventors found that the conventional semiconductor light emitting panel had the following disadvantages:
when the semiconductor light-emitting plate is used in an outdoor cold environment, because the semiconductor emits light, current runs to generate heat, hot air flows slowly to flow above the semiconductor, and after the inside of the light-emitting plate is permeated by cold gas, heat energy meets cold air, so that a fog surface phenomenon easily occurs in the light-emitting plate, the light source is diffused to be influenced by the fog surface, and the condition of light-emitting fuzziness is caused.
It is therefore desirable to provide a semiconductor light emitting panel.
Disclosure of Invention
In view of the disadvantages of the prior art, the present invention provides a semiconductor light emitting panel to solve the problems of the prior art.
In order to achieve the purpose, the invention is realized by the following technical scheme: the semiconductor luminous plate is structurally provided with a plate shell, a luminous plate body and a switch button, wherein the luminous plate body is fixedly installed in the plate shell, and the switch button and the plate shell are of an integrated structure and are positioned at the outer end position of the switch button.
The light-emitting plate body is provided with a circuit board and a light-emitting device, the circuit board is located below the light-emitting device and matched with the light-emitting device, and the light-emitting device is installed on the top of the light-emitting plate body.
As a further improvement of the invention, the light-emitting device is provided with a light-transmitting plate, a cover plate device, a transverse plate and a half guide pipe, the cover plate device is movably connected to the transverse plate, the light-transmitting plate is positioned above the cover plate device, the half guide pipe penetrates through the middle end of the cover plate device and is movably matched with the middle end of the cover plate device, the lower part of the light-transmitting plate is in a hollow groove state, the cover plate device and the half guide pipe are matched in a group, and the middle end of the transverse plate is of a hollow structure.
As a further improvement of the invention, the cover plate device is provided with a driving body and a movable plate, the driving body is movably connected to two side ends of the movable plate and movably matched with the movable plate, the driving body can be deformed by being heated to generate displacement movement, and the movable plate can be swung and folded left and right by taking the middle end as a fulcrum.
As a further improvement of the invention, the driving body is provided with two heat expansion blocks, two side ends, a jacking device and an inner cavity, the side ends are fixedly embedded at two side ends of the driving body, the heat expansion blocks are movably matched with the side ends of the jacking device, the inner cavity is positioned at the inner side of the jacking device, the heat expansion blocks are blocks which can be expanded by heat, the jacking devices are symmetrically distributed about the heat expansion blocks, and one side end of the jacking device can perform stretching and swinging movement at a certain angle to control the size of the inner cavity.
As a further improvement of the invention, the pushing device is provided with a variable block, a movable groove, a connecting block and a rolling ball, wherein the movable groove and the variable block are of an integrated structure and are positioned in the movable groove, the connecting block is connected between the variable blocks, the rolling ball is embedded in the movable groove in a movable mode, the variable block has certain heat resistance and is a block with toughness, the rolling ball is a ball with magnetism, and the connecting block has excellent shrinkage, folding and pulling elasticity.
As a further improvement of the invention, the inner cavity is provided with an embedded block, a connecting rod and a magnetic ball, the connecting rod is embedded and connected in the inner cavity, the magnetic ball is connected with and movably matched with the connecting rod, the embedded block is connected with one side end of the connecting rod, the connecting rod has elastic force of extension and contraction, and the magnetic ball is a magnetic ball body.
As a further improvement of the invention, the movable plate is provided with a solid plate, an articulated shaft, a through hole plate and a wiping block, the articulated shaft is movably connected between the solid plate and the through hole plate, the wiping block is arranged at the top end of the through hole plate, the through hole plate and the solid plate are of an integrated structure and are positioned at the upper end position of the through hole plate, the through hole plate is provided with a through hole which is communicated from left to right, and the wiping block is of a hemispherical structure and has flexibility and deformation force.
As a further improvement of the invention, the wiping block is provided with an arc block, an elastic block and a supporting block, two sides of the arc block are connected with two side ends of the elastic block, the supporting block is embedded between the arc block and the elastic block and is movably matched with the arc block, the elastic block is of an arc arch structure and has flexibility, the elastic block is made of an elastic plastic body and is of a bulged petal-shaped structure and has excellent elastic force, and the supporting block is made of soft silica gel and has certain toughness supporting force.
Compared with the prior art, the invention has the following beneficial effects:
1. the heat expansion block is subjected to heat expansion, the lateral displacement of the end head of the side is facilitated, the movable plate is used for supporting point type swing folding movement, certain folding deformation can be generated under the matching of the connecting block while the movement of the movable plate is changed, the movable grooves roll relatively and are drawn close, the magnetic field force is enhanced, the repulsive magnetic force drives the magnetic ball to be away from the embedded block end, the elastic force of the connecting rod is used for generating reaction return pull force, the magnetic ball can perform transverse reciprocating displacement under the magnetic force action of the rolling ball and the elastic action of the connecting rod, a driving body is used for pushing and drawing the movable plate circularly, the movable plate is facilitated to be used for continuously swinging and folding, and the hot airflow in the light-passing plate is further dispersed and the flow speed of the hot airflow in the light-passing plate is accelerated.
2. Through the hemisphere structure of the wiping block, the arc-shaped structure moves along with the swing and the folding of the solid plate, the arched arc-shaped structure of the arc block is beneficial to the contact of the arc-shaped structure on the inner side end face of the light-transmitting plate, when the elastic auxiliary arc block of the elastic block is pressed by the upper end, the arc block sinks to form a buffering elastic force, the toughness of the supporting block provides elastic supporting force for the arc block, the elastic supporting force is convenient to buffer the abutting force, meanwhile, the shape of the supporting block is timely reset, the arc block can generate a better wiping effect on the inner side end face of the light-transmitting plate, and the fog face is timely wiped dry.
Drawings
Fig. 1 is a schematic structural diagram of a semiconductor light emitting panel according to the present invention.
Fig. 2 is a schematic view of an internal side view structure of a light emitting plate body according to the present invention.
Fig. 3 is a schematic internal side view of a light-emitting device according to the present invention.
Fig. 4 is a schematic diagram of an internal side view of a mask device according to the present invention.
Fig. 5 is a schematic view of a side view of the driving body according to the present invention.
FIG. 6 is a schematic diagram of an internal side view of a jacking device according to the present invention.
FIG. 7 is a schematic diagram of an internal side view of an inner chamber according to the present invention.
Fig. 8 is a schematic view of the internal side view of a movable plate according to the present invention.
FIG. 9 is a schematic view of the side view of the inside of the eraser block according to the present invention.
In the figure: the plate comprises a plate shell-1, a light-emitting plate body-2, a switch button-3, a circuit board-21, a light-emitting device-22, a light-transmitting plate-221, a cover plate device-222, a transverse plate-223, a semi-conduit-224, a driving body-a 1, a movable plate-a 2, a thermal expansion block-a 11, a side end-a 12, a jacking device-a 13, an inner cavity-a 14, a variable block-q 1, a movable groove-q 2, a connecting block-q 3, a rolling ball-q 4, an embedded block-w 1, a connecting rod-w 2, a magnetic ball-w 3, a solid plate-a 21, a hinge shaft-a 22, a through port plate-a 23, a wiping block-a 24, an arc block-e 1, an elastic block-e 2 and a supporting block-e 3.
Detailed Description
The invention is further described below with reference to the accompanying drawings:
example 1:
as shown in figures 1 to 7:
the invention provides a semiconductor light-emitting plate which is structurally provided with a plate shell 1, a light-emitting plate body 2 and a switch knob 3, wherein the light-emitting plate body 2 is fixedly embedded in the plate shell 1, and the switch knob 3 and the plate shell 1 are of an integrated structure and are positioned at the outer end position of the integrated structure.
The light-emitting board body 2 is provided with a circuit board 21 and a light-emitting device 22, the circuit board 21 is located below the light-emitting device 22 and matched with the light-emitting device 22, and the light-emitting device 22 is installed at the position, deviated from the top, of the light-emitting board body 2.
Wherein, illuminator 22 is equipped with light-passing board 221, cover plate device 222, diaphragm 223, half pipe 224, cover plate device 222 swing joint is on diaphragm 223, light-passing board 221 is located cover plate device 222 top, half pipe 224 crosses cover plate device 222 middle end and clearance fit, light-passing board 221 below is the dead slot state, cover plate device 222 and half pipe 224 are a set of cooperation of doing, the end is hollow structure in the middle of the diaphragm 223, cover plate device 222 produces the vitality along with the condition of being heated, does the pendulum and rolls over the activity, does the air current activity.
The cover plate device 222 is provided with a driving body a1 and a movable plate a2, the driving body a1 is movably connected to two side ends of the movable plate a2 and is movably matched with the movable plate a2, the driving body a1 can be deformed when being heated so as to generate displacement movement, the movable plate a2 is folded left and right by taking the middle end as a fulcrum, the driving body a1 is moved to provide driving force for the folding of the movable plate a2, and therefore the driving body is convenient for folding, changing the flow velocity and the flow direction of air flow, and facilitating the diffusion of hot air.
The driving body a1 is provided with a thermal expansion block a11, side end heads a12, a jacking device a13 and an inner cavity a14, the side end heads a12 are fixedly connected to two side ends of the driving body a1 in an embedded manner, the thermal expansion block a11 is movably matched with the side end of the jacking device a13, the inner cavity a14 is located inside the jacking device a13, the thermal expansion block a11 is a thermally expandable block, the jacking device a13 is provided with two blocks which are symmetrically distributed with respect to the thermal expansion block a11, one side end of the jacking device a13 can perform stretching and swinging movement at a certain angle, the size of the inner cavity a14 is controlled, the thermal expansion block a11 drives the jacking device a13 to be deformed under pressure and displaced towards the two side ends, and the resetting and displacement are performed under the cooperation of the inner cavity a14, so that the driving body a1 integrally has side reciprocating movement.
The jacking device a13 is provided with a variable block q1, a movable groove q2, a connecting block q3 and a rolling ball q4, the movable groove q2 and the variable block q1 are of an integrated structure and are located in the movable groove q 3983, the connecting block q3 is connected between the variable blocks q1, the rolling ball q4 is embedded into the movable groove q2, the variable block q1 has certain heat resistance and is a block with toughness, the rolling ball q4 is a magnetic ball, the connecting block q3 has excellent shrinkage, folding and pulling elasticity, the variable block q1 is elastically deformed when moving along with pressure, so that the movable groove q2 is in rolling displacement, the change has an external magnetic force effect, and the change is favorable for resetting and moving of the variable block q 1.
Wherein, inner chamber a14 is equipped with and inlays piece w1, connecting rod w2, magnetic ball w3, connecting rod w2 embedding is connected inside inner chamber a14, magnetic ball w3 is connected and clearance fit with connecting rod w2, it connects at one side end of connecting rod w2 to inlay piece w1, connecting rod w2 has flexible elastic force, magnetic ball w3 is the spheroid that has magnetism, magnetic ball w3 receives displacement under the magnetic force effect, and it makes a round trip to displace by connecting rod w 2's flexible elasticity assistance, produces side direction top power of colliding and the back tension force.
The specific use mode and function of the embodiment are as follows: by controlling the switch knob 3, the circuit board 21 is in a power-on state and acts on the light-emitting device 22, so that the half conduit 224 emits light, and the transparent plate 221 acts on the outside, so that the light-emitting plate body 2 is in a light-emitting state, when the switch knob is powered on, the current generates heat, and a certain heat source is generated in the light-emitting state of the half conduit 224, so that the heat expansion block a11 is heated and gradually expanded, the jacking device a13 connected with the heat expansion block a is pushed laterally, so as to facilitate lateral displacement of the side end a12, the lower end of the movable plate a2 is pushed, the middle end of the movable plate a2 is hinged with the transverse plate 223 to perform fulcrum type swing and folding movement, and due to the toughness of the variable block q1, the displacement thereof can generate a certain folding and deformation under the cooperation of the connecting block q3, so that the connecting block q3 rolls towards the inner end of the movable groove q2 under the action of gravity, and rolls towards the inner end, so that the magnetic field force is enhanced, and then acts on the magnetic ball w3, the repulsive magnetic force drives the magnetic ball w3 to be far away from the end of the embedded block w1, the magnetic ball w3 can perform transverse reciprocating displacement under the magnetic action of the rolling ball q4 and the elastic action of the connecting rod w2 by the telescopic elasticity of the connecting rod w2 in cooperation with the displacement movement and generate a reaction pull-back force on the magnetic ball w2, the thermal expansion block a11 and the jacking device a13 are both acted with acting forces, the jacking device a13 can perform reset displacement movement under the cooperation of the magnetic ball w3, and the driving body a1 can circularly generate ejection and traction on the movable plate a2, so that the movable plate a2 continuously performs swinging movement, the hot air flow in the light-transmitting plate 221 is further dispersed and accelerated, and the situation that the air above the half-guide pipe 224 is overheated and is easily in a fog face after contacting with the external cold air is avoided.
Example 2:
as shown in fig. 8 to 9:
the movable plate a2 is provided with a solid plate a21, an articulated shaft a22, a port plate a23 and a wiping block a24, the articulated shaft a22 is movably connected between the solid plate a21 and the port plate a23, the wiping block a24 is installed at the top end of the port plate a23, the port plate a23 and the solid plate a21 are of an integrated structure and are located at the upper end position of the integrated structure, the port plate a23 is provided with a left through port and a right through port, the wiping block a24 is of a hemispherical structure and has softness and deformation force, the port on the port plate a23 is favorable for further dispersing air flow and accelerating flow distribution, and the wiping block a24 performs left and right reciprocating displacement along with the swing of the solid plate a21, so as to be favorable for wiping activity above the wiping block a.
Wherein, it is equipped with arc piece e1, bullet piece e2, kicker e3 to wipe piece a24, arc piece e1 both sides are connected with bullet piece e2 both sides end, kicker e3 embedding is connected between arc piece e1 and bullet piece e2 and just clearance fit, bullet piece e2 is the arc arch structure, has the pliability, bullet piece e2 is the elastic plastic body material, is the lobe structure of bulging, has good elastic force, kicker e3 is soft silica gel material, has certain toughness holding power, arc piece e1 is along with under the soft cooperation of bullet piece e2, kicker e3, when offseting rather than the top foreign object, can carry out nimble deformation, do benefit to better slip and wipe the operation.
The specific use mode and function of the embodiment are as follows: the through-hole plate a23 is driven along with the swing of the solid plate a21, the through-hole structure of the through-hole plate a23 is beneficial to the swing and folding movement of the through-hole plate, gas is further divided and driven to be in scattered circulation, the semi-spherical structure of the wiping block a24 moves along with the swing and folding of the solid plate a21, the arched arc-shaped structure of the arc-shaped block e1 is beneficial to the contact of the arched arc-shaped structure on the inner side end surface of the light-transmitting plate 221, when the elastic auxiliary arc-shaped block e1 of the elastic block e2 is pressed by the upper end, the elastic force is buffered due to sinking, the toughness of the supporting block e3 provides elastic supporting force for the arc-shaped block e1, the abutting force is buffered, the shape of the elastic block e2 is timely reset, the arc-shaped block e1 can generate a better wiping effect on the inner side end surface of the light-transmitting plate 221, the fog surface is wiped timely, and the fuzzy illumination is avoided.
The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.
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