LED ceiling lamp packaging structure capable of efficiently radiating heat
Technical Field
The invention belongs to the technical field of LED ceiling lamp production and treatment, and particularly relates to an LED ceiling lamp packaging structure capable of efficiently radiating heat.
Background
Along with the development of society and the increasing of living standard of people, more and more illumination products are used by people, especially, the LED lamp with energy conservation and high efficiency is popular with people, and the LED ceiling lamp is the illumination product with the most common use amount for household illumination; the LED ceiling lamp is required to be integrally packaged during production, and meanwhile, when the LED ceiling lamp works, the LED ceiling lamp is required to be effectively subjected to heat removal and cooling, but the existing LED ceiling lamp production device has the following problems:
a: the LED ceiling lamp has the advantages that the radiating effect of part of the LED ceiling lamp is poor, so that after the LED ceiling lamp emits light for a period of time, the temperature of the inner cavity of the lamp shade is increased, heat is not easy to discharge, the luminous efficiency of the LED ceiling lamp is affected, elements are easy to damage, and meanwhile, the cost is wasted;
b: part of LED ceiling lamps need to be manually held and assembled in the production process, so that the instability of a circuit of the LED ceiling lamps can be influenced, and the electric shock hazard and the potential safety hazard of users can be improved;
c: part LED ceiling lamp device seals fixedly through the manual work, but because the manual packaging can exist certain deviation, lead to LED ceiling lamp during operation to lack stability to influence the result of use of LED ceiling lamp.
Disclosure of Invention
Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the LED ceiling lamp packaging structure with high-efficiency heat dissipation, and in order to simplify the structure, reduce the cost and reduce the energy consumption, the invention fully uses the self-service principle, the multipurpose principle, the feedback principle and the inert environment principle, creatively provides the technical effects of automatically working through the device under the cooperation of three mechanisms of the gas control mechanism, the pipe body limiting mechanism and the pipe cover control mechanism, reducing the manual working intensity, reducing the temperature of the inner cavity of the lampshade by using inert gas, and replacing the prior complex mechanical installation step by using gas stamping and magnetic attraction effect, thereby assisting in completing the LED ceiling lamp packaging work, reducing the assembly potential safety hazard and the like; the technical problems that the temperature of the inner cavity of the lampshade rises, heat is not easy to discharge, and electric shock hazard and potential safety hazard of a user exist are effectively solved.
The technical scheme adopted by the invention is as follows: the invention provides a high-efficiency radiating LED ceiling lamp packaging structure, which comprises a fixed support frame, an LED ceiling lamp body, a gas management and control mechanism, a pipe body limiting mechanism and a pipe cover control mechanism, wherein a bottom placement groove is formed in the bottom of an inner cavity of the fixed support frame, a top placement groove is formed in the top of the inner cavity of the fixed support frame, the gas management and control mechanism is arranged at the bottom of the fixed support frame, the pipe body limiting mechanism is arranged at the top of the bottom placement groove, the pipe cover control mechanism is arranged at the bottom of the top placement groove, the LED ceiling lamp body is arranged in the pipe body limiting mechanism, the self-starting gas management and control mechanism of the device supplements argon gas into the pipe body limiting mechanism by utilizing the self-service principle and the feedback principle, the LED ceiling lamp body is radiated and cooled, the service life of the LED ceiling lamp body is prolonged, and the pipe cover is fixedly arranged at the top of a pipe body protecting sleeve by the pipe cover control mechanism, so that packaging work is completed.
Further, gas management and control mechanism includes gas storage tank, supplementary intake pipe, supplementary blast pipe, general type solenoid valve one, general type solenoid valve two, L type auxiliary gas delivery pipe, lateral wall installation fixed plate, circular auxiliary through-hole and general type aspiration pump, the bottom of fixed braced frame is located to the gas storage tank, the gas storage tank top is equipped with L type auxiliary gas delivery pipe, the other end of L type auxiliary gas delivery pipe is equipped with the lateral wall installation fixed plate, circular auxiliary through-hole has been seted up on the surface of lateral wall installation fixed plate, and the inert gas of adoption carries out the heat dissipation cooling effectively to LED ceiling lamp body through the circular auxiliary through-hole on lateral wall installation fixed plate surface, avoids the inside temperature of body protective sheath higher, leads to the phenomenon that the LED ceiling lamp body exploded, reduces the potential safety hazard.
Preferably, the pipe body limiting mechanism comprises a circular limiting bottom plate, a first general electric telescopic rod, a limiting fixing collar, a bottom fixing block, a pipe body protecting sleeve, a first gas conveying through hole, a first ferrite magnetic ring, a first side wall connecting plate and a second gas conveying through hole, wherein the circular limiting bottom plate is arranged at the top of the bottom placing groove, the two sides of the circular limiting bottom plate are respectively provided with a bottom fixing block, the tops of the bottom fixing blocks are respectively provided with a first general electric telescopic rod, the top of the circular limiting bottom plate is provided with the pipe body protecting sleeve, the LED ceiling lamp body is arranged in the pipe body protecting sleeve, the first ferrite magnetic ring is arranged on the top wall of the pipe body protecting sleeve, and the two sides of the outer wall of the pipe body protecting sleeve are respectively provided with a first side wall connecting plate.
As a further preferred mode of the invention, the pipe cover control mechanism comprises a universal electric telescopic rod II, a bottom connecting rod, an inner limiting groove I, a connecting limiting block, an elastic buffer connecting rod, a winding buffer spring, an adsorption type magnetic block I, an adsorption type magnetic block II, a sealing pipe cover, a ferrite magnetic ring II, an inner limiting groove II and a side wall connecting plate II, wherein the universal electric telescopic rod II is arranged at the bottom of the top placing groove, the bottom connecting rod is arranged at the telescopic end of the universal electric telescopic rod II, an inner limiting groove I is formed in an inner cavity of the bottom connecting rod, the sealing pipe cover is arranged in the inner limiting groove I, an inner limiting groove II is formed in the inner cavity of the sealing pipe cover, the ferrite magnetic ring II is arranged on the top wall of the inner limiting groove II, and side wall connecting plates II are arranged on two sides of the outer wall of the sealing pipe cover.
Further, one side of gas bin outer wall is equipped with the auxiliary air intake pipe, the outer wall of auxiliary air intake pipe is equipped with the general type solenoid valve of looks adaptation first, the opposite side of gas bin outer wall is equipped with the auxiliary exhaust pipe, the outer wall of auxiliary exhaust pipe is equipped with the general type solenoid valve of looks adaptation second, the inner chamber of gas bin is equipped with the general type aspiration pump, the inside to general type aspiration pump is worn to establish to the one end of L type auxiliary gas conveyer pipe, starts general type solenoid valve first through the electric control panel, supplements inert gas to the inside of gas bin through auxiliary air intake pipe, and inert gas supplements the completion back, closes general type solenoid valve first, utilizes general type aspiration pump to carry inert gas to one side of lateral wall installation fixed plate through L type auxiliary gas conveyer pipe, and then carries out the scattering effectively to the LED ceiling lamp body, after the cooling heat dissipation work is accomplished, starts general type solenoid valve second through the electric control panel, discharges the inside inert gas of gas bin through auxiliary exhaust pipe, avoids inside surplus gas to cause harm to the human body, inert gas that adopts in this application is argon, carries out the harm to the LED ceiling lamp body through a large amount of argon, obtain effectively simultaneously, and the cost is relatively low, and is relatively easy to the use when the human body is safe to the safety to the use.
Preferably, the telescopic ends of the first universal electric telescopic rods are provided with limiting fixed lantern rings, the limiting fixed lantern rings are arranged on the outer wall of the pipe body protecting sleeve, a plurality of groups of gas conveying through holes I with the same size are formed in the outer wall of the pipe body protecting sleeve, a plurality of groups of gas conveying through holes II with the same size are formed in the outer wall of the limiting fixed lantern rings, the first universal electric telescopic rods are started through an electric control panel, the telescopic ends of the first universal electric telescopic rods drive the limiting fixed lantern rings to lift on the outer wall of the pipe body protecting sleeve until the limiting fixed lantern rings cover the first gas conveying through holes, the first universal electric telescopic rods are closed, inert gas enters the inside of the pipe body protecting sleeve through the first gas conveying through holes and the second gas conveying through holes, the LED ceiling lamp body is well cooled, and the mechanism can automatically start the universal air suction pump to realize automatic operation of the device.
As a further preferred mode of the invention, the two sides of the inner wall of the bottom connecting rod are respectively provided with a connecting limiting block, the two sides of the top wall of the connecting limiting block are respectively provided with an elastic buffer connecting rod, the outer walls of the two elastic buffer connecting rods are respectively provided with a winding type buffer spring which is matched with the two elastic buffer connecting rods, the middle of the outer wall of the sealed pipe cover is provided with an adsorption type magnetic block II which is matched with the adsorption type magnetic block I, the sealed pipe cover is placed in the inner limiting groove I, magnetism is generated between the adsorption type magnetic block II and the adsorption type magnetic block I through an electric control panel, the two magnetic blocks are mutually adsorbed, the elastic buffer connecting rods and the winding type buffer springs are used for buffering the extrusion force generated by the sealed pipe cover, stability is provided for the sealed pipe cover, the universal electric telescopic rod II is started through the electric control panel, the universal electric telescopic rod II drives the sealed pipe cover to descend to the top of the pipe body protecting sleeve, the magnetic ring I and the ferrite magnetic ring II are mutually adsorbed, and therefore the sealed pipe cover is fixedly arranged in the top of the protecting sleeve, and the sealing pipe cover is packaged.
Further, the inside of circular spacing bottom plate is equipped with general type aspiration pump control button, through conducting wire electric connection between general type aspiration pump control button and the general type aspiration pump, two the inside of lateral wall connecting plate one all is equipped with general type magnet control button, general type magnet control button and absorption formula magnet one and absorption formula magnet are respectively through conducting wire electric connection, place in the inside of circular spacing bottom plate when the body lag, the bottom contact general type aspiration pump control button of body lag, alright automatic start general type aspiration pump, the later stage body lag is taken out from the inside of circular spacing bottom plate, alright automatic shutdown general type aspiration pump, the automation of device work is realized, the bottom contact general type magnet control button of lateral wall connecting plate two for absorption formula magnet one and absorption formula magnet two lose adsorptivity, and then make things convenient for sealed tube cap to break away from the inside of inside spacing groove one, supplementary encapsulation work of accomplishing.
Preferably, an electrical control panel is disposed on one side of the surface of the fixed support frame, the first universal electromagnetic valve, the second universal electromagnetic valve, the universal air pump, the first universal electric telescopic rod, the second universal electric telescopic rod, the first adsorption type magnetic block and the second adsorption type magnetic block are electrically connected with the electrical control panel through conductive wires, and the first universal electromagnetic valve, the second universal electromagnetic valve, the universal air pump, the first universal electric telescopic rod, the second universal electric telescopic rod, the first adsorption type magnetic block and the second adsorption type magnetic block are all mature prior art, and the working principles of the first universal electromagnetic valve, the second universal electromagnetic valve, the universal air pump, the first universal electric telescopic rod, the second adsorption type magnetic block and the second adsorption type magnetic block are well known to those skilled in the art and are not described herein.
As a further preferable mode of the invention, bottom fixing support columns are arranged at four corners of the bottom surface of the fixing support frame, rectangular anti-slip pads which are matched with each other are arranged at the bottoms of the four bottom fixing support columns, and anti-slip patterns are arranged at the bottoms of the four rectangular anti-slip pads.
The beneficial effects obtained by the invention by adopting the structure are as follows:
(1) The argon is supplemented to the inside of the gas storage box through the auxiliary air inlet pipe, the first general type electromagnetic valve is closed after the argon supplementation is completed, the general type air pump is started through the electric control panel, the argon is conveyed to one side of the side wall mounting fixing plate through the L-shaped auxiliary gas conveying pipe, the LED ceiling lamp body is effectively cooled through the circular auxiliary through holes on the surface of the side wall mounting fixing plate, the phenomenon that the LED ceiling lamp body explodes due to the fact that the inner temperature of the pipe body protective sleeve is higher is avoided, potential safety hazards are reduced, the LED ceiling lamp body is effectively scattered, inert gas adopted in the application is argon, the LED ceiling lamp body is effectively cooled through a large amount of argon, meanwhile, the argon is relatively easy to obtain, the cost is low, and the LED ceiling lamp body is not directly harmful to human bodies, and is safe and reliable when in use;
(2) The telescopic end of the universal electric telescopic rod I drives the limiting fixed lantern ring to lift on the outer wall of the pipe body protecting sleeve until the limiting fixed lantern ring covers the gas conveying through hole I, argon enters the inside of the pipe body protecting sleeve through the gas conveying through hole I and the gas conveying through hole II, and the LED ceiling lamp body is cooled;
(3) The pipe body limiting mechanism provided by the device not only can well fix the pipe body protecting sleeve and the LED ceiling lamp body, but also can automatically start the work of the universal air pump, so that the automatic work of the device is realized;
(4) The second adsorption type magnetic block and the first adsorption type magnetic block generate magnetism, so that the sealed pipe cover is fixed in the first internal limiting groove, and the elastic buffer connecting rod and the winding type buffer spring buffer extrusion force generated by the sealed pipe cover to provide stability for the sealed pipe cover;
(5) The general electric telescopic rod II drives the sealed pipe cover to descend to the top of the pipe body protecting sleeve, the ferrite magnetic ring I and the ferrite magnetic ring II are mutually adsorbed, and the sealed pipe cover is fixedly arranged on the top of the pipe body protecting sleeve to finish packaging work;
(6) The tube body protecting sleeve is placed in the circular limiting bottom plate, the bottom of the tube body protecting sleeve is contacted with the control button of the universal air pump, so that the universal air pump can be automatically started, the tube body protecting sleeve in the later stage is taken out from the circular limiting bottom plate, and the universal air pump can be automatically closed, and the automation of the device operation is realized;
(7) The bottom of the side wall connecting plate II contacts with the universal magnetic block control button, so that the adsorption type magnetic block I and the adsorption type magnetic block II lose adsorptivity, and further the sealing type pipe cover is convenient to separate from the inside of the inner limiting groove I, and the packaging work is completed in an auxiliary manner.
Drawings
Fig. 1 is a perspective view of an LED ceiling lamp package structure with efficient heat dissipation according to the present invention;
fig. 2 is a front view of an LED ceiling lamp package structure with efficient heat dissipation according to the present invention;
fig. 3 is a side view of an LED ceiling lamp package structure with efficient heat dissipation according to the present invention;
FIG. 4 is a cross-sectional view taken along section line A-A in FIG. 3;
FIG. 5 is a cross-sectional view taken along section line B-B in FIG. 3;
fig. 6 is an exploded view of a package structure of an LED ceiling lamp with efficient heat dissipation according to the present invention;
fig. 7 is a second exploded view of the package structure of the LED ceiling lamp with efficient heat dissipation according to the present invention;
FIG. 8 is an enlarged view of a portion of the portion I of FIG. 4;
FIG. 9 is an enlarged view of a portion of the portion II of FIG. 4;
fig. 10 is an enlarged view of a portion at iii in fig. 4.
Wherein, 1, fixing a supporting frame; 2. a support column is fixed at the bottom; 3. a rectangular anti-slip pad; 4. an electrical control panel; 5. a gas management and control mechanism; 6. a gas storage tank; 7. an auxiliary air inlet pipe; 8. an auxiliary exhaust pipe; 9. a general electromagnetic valve I; 10. a general electromagnetic valve II; 11. an L-shaped auxiliary gas delivery pipe; 12. the side wall is provided with a fixed plate; 13. a circular auxiliary through hole; 14. a general-purpose suction pump; 15. the bottom is provided with a groove; 16. a groove is arranged at the top; 17. a pipe body limiting mechanism; 18. a circular limiting bottom plate; 19. a universal pump control button; 20. a universal electric telescopic rod I; 21. a limit fixing collar; 22. a bottom fixing block; 23. a tube body protecting sleeve; 24. a first gas conveying through hole; 25. an LED ceiling lamp body; 26. a ferrite magnetic ring I; 27. a side wall connecting plate I; 28. a universal magnetic block control button; 29. a tube cap control mechanism; 30. a universal electric telescopic rod II; 31. a bottom connecting rod; 32. an internal limiting groove I; 33. the limiting block is connected; 34. an elastic buffer connecting rod; 35. a wound buffer spring; 36. an adsorption type magnetic block I; 37. an adsorption type magnetic block II; 38. a sealed tube cover; 39. a ferrite magnetic ring II; 40. an internal limiting groove II; 41. a second side wall connecting plate; 42. and a second gas conveying through hole.
The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the invention and simplify the description, 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 invention.
As shown in fig. 1 to 10, the invention provides a high-efficiency heat dissipation LED ceiling lamp packaging structure, which comprises a fixed support frame 1, an LED ceiling lamp body 25, a gas management and control mechanism 5, a pipe body limiting mechanism 17 and a pipe cover control mechanism 29, wherein a bottom placement groove 15 is arranged at the bottom of an inner cavity of the fixed support frame 1, a top placement groove 16 is arranged at the top of the inner cavity of the fixed support frame 1, the gas management and control mechanism 5 is arranged at the bottom of the fixed support frame 1, the pipe body limiting mechanism 17 is arranged at the top of the bottom placement groove 15, the pipe cover control mechanism 29 is arranged at the bottom of the top placement groove 16, the LED ceiling lamp body 25 is arranged in the pipe body limiting mechanism 17, and the self-starting gas management and control mechanism 5 of the device supplements argon gas to the inside of the pipe body limiting mechanism 17 through a self-service principle and a feedback principle, so as to cool the LED ceiling lamp body 25, prolong the service life of the device, and then the pipe cover control mechanism 29 is fixedly arranged at the top of the pipe body protecting sleeve 23 through the pipe cover control mechanism 29 so as to complete packaging work.
The inside of circular spacing bottom plate 18 is equipped with general type aspiration pump control button 19, through conducting wire electric connection between general type aspiration pump control button 19 and the general type aspiration pump 14, the inside of two lateral wall connecting plates 27 all is equipped with general type magnet control button 28, general type magnet control button 28 and absorption formula magnet one 36 and absorption formula magnet two 37 pass through conducting wire electric connection respectively, place in the inside of circular spacing bottom plate 18 when body lag 23, the bottom contact general type aspiration pump control button 19 of body lag 23, alright automatic start general type aspiration pump 14, the inside of follow circular spacing bottom plate 18 of later stage body lag 23 is taken out, alright automatic shutdown general type aspiration pump 14, realize the automation of device work, the bottom contact general type magnet control button 28 of lateral wall connecting plate two 41, make absorption formula magnet one 36 and absorption formula magnet two 37 lose the adsorptivity, and then make things convenient for sealed tube cover 38 to break away from inside of inside spacing groove one 32, the auxiliary completion encapsulation work.
One side of the surface of the fixed support frame 1 is provided with an electrical control panel 4, a first universal electromagnetic valve 9, a second universal electromagnetic valve 10, a universal air pump 14, a first universal electric telescopic rod 20, a second universal electric telescopic rod 30, a first adsorption type magnetic block 36 and a second adsorption type magnetic block 37 are respectively electrically connected with the electrical control panel 4 through conducting wires, the first universal electromagnetic valve 9, the second universal electromagnetic valve 10, the universal air pump 14, the first universal electric telescopic rod 20, the second universal electric telescopic rod 30, the first adsorption type magnetic block 36 and the second adsorption type magnetic block 37 adopted by the fixed support frame are all mature prior art, and the working principles of the first universal electromagnetic valve 9, the second universal electromagnetic valve 10, the universal air pump 14, the first universal electric telescopic rod 20, the second universal electric telescopic rod 30, the first adsorption type magnetic block 36 and the second adsorption type magnetic block 37 are all well known to those skilled in the art, and are not described herein.
The bottom surface four corners of fixed braced frame 1 all is equipped with bottom fixed support column 2, and the bottom of four bottom fixed support columns 2 all is equipped with looks adaptation rectangle slipmat 3, and the bottom of four rectangle slipmats 3 all is equipped with the anti-skidding line.
The gas management and control mechanism 5 comprises a gas storage box 6, an auxiliary gas inlet pipe 7, an auxiliary gas outlet pipe 8, a first universal electromagnetic valve 9, a second universal electromagnetic valve 10, an L-shaped auxiliary gas delivery pipe 11, a side wall mounting fixed plate 12, a circular auxiliary through hole 13 and a universal air pump 14, wherein the gas storage box 6 is arranged at the bottom of the fixed support frame 1, the top of the gas storage box 6 is provided with the L-shaped auxiliary gas delivery pipe 11, the other end of the L-shaped auxiliary gas delivery pipe 11 is provided with a side wall mounting fixed plate 12, the surface of the side wall mounting fixed plate 12 is provided with the circular auxiliary through hole 13, one side of the outer wall of the gas storage box 6 is provided with the auxiliary gas inlet pipe 7, the outer wall of the auxiliary gas inlet pipe 7 is provided with the first universal electromagnetic valve 9 which is matched, the other side of the outer wall of the gas storage box 6 is provided with the auxiliary gas outlet pipe 8, the outer wall of the auxiliary gas outlet pipe 8 is provided with the second universal electromagnetic valve 10 which is matched, the inner cavity of the gas storage box 6 is provided with a universal air pump 14, one end of an L-shaped auxiliary gas conveying pipe 11 is penetrated into the universal air pump 14, a universal electromagnetic valve I9 is started through an electric control panel 4, inert gas is supplemented into the gas storage box 6 through an auxiliary air inlet pipe 7, after the inert gas supplementation is finished, the universal electromagnetic valve I9 is closed, the inert gas is conveyed to one side of a side wall mounting and fixing plate 12 through the L-shaped auxiliary gas conveying pipe 11 by utilizing the universal air pump 14, the LED ceiling lamp body 25 is effectively cooled by a circular auxiliary through hole 13 on the surface of the side wall mounting and fixing plate 12, the phenomenon that the LED ceiling lamp body 25 explodes due to higher temperature in the inner part of a pipe body protective sleeve is avoided, potential safety hazards are reduced, the LED ceiling lamp body 25 is effectively dispersed, and after the cooling and heat dissipation work is finished, the universal electromagnetic valve II 10 is started through the electrical control panel 4, inert gas in the gas storage box 6 is discharged through the auxiliary exhaust pipe 8, the harm to human bodies caused by residual gas remained in the gas storage box 6 is avoided, the inert gas adopted in the application is argon, the LED ceiling lamp body 25 is effectively cooled through a large amount of argon, meanwhile, the argon is relatively easy to obtain, the cost is low, and the air storage box is not directly harmful to human bodies, and is safe and reliable when in use.
The pipe body limiting mechanism 17 comprises a circular limiting bottom plate 18, a first universal electric telescopic rod 20, a limiting fixed sleeve ring 21, a bottom fixing block 22, a pipe body protecting sleeve 23, a first gas conveying through hole 24, a first ferrite magnetic ring 26, a first side wall connecting plate 27 and a second gas conveying through hole 42, wherein the circular limiting bottom plate 18 is arranged at the top of the bottom placing groove 15, the two sides of the circular limiting bottom plate 18 are respectively provided with the bottom fixing blocks 22, the tops of the two bottom fixing blocks 22 are respectively provided with the first universal electric telescopic rod 20, the top of the circular limiting bottom plate 18 is provided with the pipe body protecting sleeve 23, the LED ceiling lamp body 25 is arranged in the pipe body protecting sleeve 23, the first ferrite magnetic ring 26 is arranged on the top wall of the pipe body protecting sleeve 23, the two sides of the outer wall of the pipe body protecting sleeve 23 are respectively provided with the first side wall connecting plate 27, the telescopic ends of the two universal electric telescopic rods 20 are respectively provided with the limiting fixed sleeve ring 21, the limiting fixed lantern ring 21 is arranged on the outer wall of the pipe body protecting sleeve 23, a plurality of groups of first gas conveying through holes 24 with the same size are formed in the outer wall of the pipe body protecting sleeve 23, a plurality of groups of second gas conveying through holes 42 with the same size are formed in the outer wall of the limiting fixed lantern ring, the first universal electric telescopic rods 20 are started through the electric control panel 4, the telescopic ends of the first universal electric telescopic rods 20 drive the limiting fixed lantern ring 21 to lift on the outer wall of the pipe body protecting sleeve 23 until the limiting fixed lantern ring 21 covers the first gas conveying through holes 24, the first universal electric telescopic rods 20 are closed, inert gas enters the inside of the pipe body protecting sleeve 23 through the first gas conveying through holes 24 and the second gas conveying through holes 42, heat dissipation and cooling are carried out on the LED ceiling lamp body 25, the mechanism not only can well fix the pipe body protecting sleeve 23 and the LED ceiling lamp body 25, but also can automatically start the operation of the universal air pump 14, realizing the automatic work of the device.
The tube cover control mechanism 29 comprises a general electric telescopic rod II 30, a bottom connecting rod 31, an inner limit groove I32, a connecting limit block 33, an elastic buffer connecting rod 34, a winding buffer spring 35, an adsorption type magnetic block I36, an adsorption type magnetic block II 37, a sealing type tube cover 38, a ferrite magnetic ring II 39, an inner limit groove II 40 and a side wall connecting plate II 41, wherein the general electric telescopic rod II 30 is arranged at the bottom of the top placing groove 16, the bottom connecting rod 31 is arranged at the telescopic end of the general electric telescopic rod II 30, the inner cavity of the bottom connecting rod 31 is provided with the inner limit groove I32, the sealing type tube cover 38 is arranged in the inner limit groove I32, the inner cavity of the sealing type tube cover 38 is provided with the inner limit groove II 40, the ferrite magnetic ring II 39 is arranged on the top wall of the inner limit groove II 40, both sides of the outer wall of the sealing type tube cover 38 are provided with the side wall connecting plate II 41, the two sides of the inner wall of the bottom connecting rod 31 are respectively provided with a connecting limiting block 33, the two sides of the top wall of the two connecting limiting blocks 33 are respectively provided with an elastic buffer connecting rod 34, the outer walls of the two elastic buffer connecting rods 34 are respectively provided with a winding buffer spring 35 which is matched with each other, the middle of the two elastic buffer connecting rods 34 is provided with an adsorption type magnetic block I36, the two sides of the outer wall of the sealing type pipe cover 38 are respectively provided with an adsorption type magnetic block II 37 which is matched with the adsorption type magnetic block I36, the sealing type pipe cover 38 is placed in the inner limiting groove I32, magnetism is generated between the adsorption type magnetic block II 37 and the adsorption type magnetic block I36 through the electric control panel 4, the two are mutually adsorbed, the sealing type pipe cover 38 is fixed in the inner limiting groove I32, the elastic buffer connecting rods 34 and the winding buffer springs 35 buffer extrusion force generated by the sealing type pipe cover 38, and stability is provided for the sealing type pipe cover 38, the second universal electric telescopic rod 30 is started through the electric control panel 4, the second universal electric telescopic rod 30 drives the sealed pipe cover 38 to descend to the top of the pipe body protecting sleeve 23, the first ferrite magnetic ring 26 and the second ferrite magnetic ring 39 are mutually adsorbed, and therefore the sealed pipe cover 38 can be fixedly installed on the top of the pipe body protecting sleeve 23, and packaging work is completed.
When the device is specifically used, the first general electromagnetic valve 9 is started through the electric control panel 4, argon is supplemented into the gas storage box 6 through the auxiliary air inlet pipe 7, and after the argon supplementation is finished, the first general electromagnetic valve 9 is closed;
the LED ceiling lamp body 25 is arranged in the tube body protecting sleeve 23, so that the tube body protecting sleeve 23 is arranged in the circular limiting bottom plate 18, and the bottom of the tube body protecting sleeve 23 contacts the universal air pump control button 19, so that the universal air pump 14 can be started automatically;
starting the first universal electric telescopic rods 20 through the electric control panel 4, driving the limiting fixed lantern rings 21 to lift on the outer wall of the pipe body protecting sleeve 23 by the telescopic ends of the first universal electric telescopic rods 20 until the limiting fixed lantern rings 21 cover the first gas conveying through holes 24, and closing the first universal electric telescopic rods 20;
argon is conveyed to one side of the side wall mounting fixing plate 12 through the L-shaped auxiliary gas conveying pipe 11, then enters the inside of the pipe body protecting sleeve 23 through the first gas conveying through hole 24 and the second gas conveying through hole 42, and radiates heat and cools the LED ceiling lamp body 25, so that the phenomenon that the LED ceiling lamp body 25 explodes due to the fact that the temperature inside the pipe body protecting sleeve is high is avoided, and potential safety hazards are reduced;
the sealed pipe cover 38 is placed in the first inner limiting groove 32, and magnetism is generated between the second adsorption type magnetic block 37 and the first adsorption type magnetic block 36 through the electric control panel 4, so that the sealed pipe cover 38 is fixed in the first inner limiting groove 32;
the second universal electric telescopic rod 30 is started through the electric control panel 4, the second universal electric telescopic rod 30 drives the sealed pipe cover 38 to descend to the top of the pipe body protecting sleeve 23, and the first ferrite magnetic ring 26 and the second ferrite magnetic ring 39 are mutually adsorbed, so that the sealed pipe cover 38 is fixedly arranged on the top of the pipe body protecting sleeve 23;
the bottom of the side wall connecting plate II 41 contacts the universal magnetic block control button 28, so that the adsorption type magnetic block I36 and the adsorption type magnetic block II 37 lose adsorption, and further the sealing type pipe cover 38 is conveniently separated from the inner part of the inner limiting groove I32, and the packaging work is assisted;
the later-stage pipe body protecting sleeve 23 is taken out from the circular limiting bottom plate 18, the universal air pump 14 can be automatically closed, meanwhile, the universal electromagnetic valve II 10 is started through the electric control panel 4, inert gas in the gas storage box 6 is discharged through the auxiliary exhaust pipe 8, and the harm to a human body caused by residual gas remained in the gas storage box 6 is avoided.
The whole working flow of the invention is just the above, and the step is repeated when the invention is used next time.
It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.