CN116734205A - High-light-efficiency electricity-saving lighting lamp - Google Patents

Abstract

The invention relates to the technical field of lighting lamps and discloses a high-light-efficiency electricity-saving lighting lamp, which comprises a shell component, wherein a heat dissipation component is arranged on the inner wall of the bottom of the shell component, a fixed frame is arranged on the inner wall of the bottom of the shell component, a thread groove is formed in the outer edge of the fixed frame, and a grating component is arranged at the top of the fixed frame. The LED tube assembly is pushed and pulled by the arranged insulating pull seat through a square groove formed in the outer wall of one side, far away from the quick plug assembly, of the shell main body, so that the electrode connecting hole, the first electrode column and the second electrode column are spliced, the LED tube assembly is guided through the sliding frame, and meanwhile, the LED tube assembly can be supported and fixed after being installed; by changing the number of the LED tube assemblies, the electric energy loss of the equipment is changed, so that the energy-saving effect is simplified; the heat dissipation assembly and the grating assembly are used for dissipating heat of the equipment, so that when the equipment runs, a large amount of heat energy cannot be accumulated in the inner cavity of the equipment, and the loss of electric energy of the equipment is reduced.

Description

High-light-efficiency electricity-saving lighting lamp

Technical Field

The invention relates to the technical field of lighting lamps, in particular to a high-light-efficiency electricity-saving lighting lamp.

Background

The lamps are the general name of lighting tools and are divided into ceiling lamps, desk lamps, wall lamps, floor lamps and the like. Means capable of transmitting light, distributing and changing the light distribution of the light source, including all the parts necessary for fixing and protecting the light source, except the light source, and the necessary wiring accessories for connection to the power source.

Factories are a large industrial building for producing goods, and most factories have a production line composed of large machines or equipment.

In factory environment, the use of the lighting lamp is indispensable, so that in the use of a large number of lighting lamps, how to realize high-light-efficiency electricity saving is one of the problems to be considered, and in the purchase of a large number of lighting lamps, installation and maintenance are also one of important factors to be considered, and in the use of the lighting lamps, the low-heat lighting lamp can increase the use time in factory environment, and in the long-time use, the ageing of damaged equipment is accelerated due to the overlarge heat of the lighting lamp, and the lighting performance of the lighting lamp is reduced, so that the use of electric energy is increased;

meanwhile, in the factory environment, equipment is generally hung and installed through steel wires, static electricity generated by material movement, personnel movement and equipment operation is conducted to the equipment through the steel wires, and then the equipment is damaged, so that the high-light-efficiency electricity-saving lighting lamp is provided.

Disclosure of Invention

The invention provides a high-light-efficiency electricity-saving lighting lamp, which solves the problems of the background technology.

The invention provides the following technical scheme: the utility model provides a high light efficiency electricity-saving lighting lamp, includes the shell subassembly, the bottom inner wall of shell subassembly is provided with the radiating element, the bottom inner wall of shell subassembly is provided with fixed frame, the screw thread groove has been seted up at the outer edge of fixed frame, the top of fixed frame is provided with the grating subassembly, the top of grating subassembly is provided with the baffle, the outer edge of the top of grating subassembly is fixedly equipped with alloy pipe, the one end that the grating subassembly was kept away from to alloy pipe is fixedly equipped with turbofan, the top of baffle is provided with fixed subassembly, LED pipe assembly has been placed at the top of fixed subassembly, one side that the LED pipe assembly was kept away from at fixed subassembly top is equipped with quick plug subassembly, the top of LED pipe assembly is provided with the radiating element, the top of shell subassembly is provided with slide rail assembly, the one side outer wall that alloy pipe was kept away from to turbofan is fixedly equipped with the network controller;

the shell assembly comprises a shell main body, the top fixed assembly of shell main body is equipped with the mount, threaded hole has been seted up to the bottom outer wall of shell main body, the sliding surface has been seted up to the top outer wall of mount, the both sides middle part outer wall of mount all fixedly assembled with support square seat, two sets of the bottom of support square seat all fixedly assembled with support magnet, the travel slot has been seted up to the top outer wall of mount, the mount is close to the top outer wall of sliding surface one side and is inlayed and have the resistance groove, the top fixed assembly of mount has the steady piece, the resistance seat has been cup jointed in the outer wall top slip of mount, the bottom fixed assembly of resistance seat has the magnet, one side outer wall fixed assembly that the resistance seat is close to the resistance groove has the resistance pole.

Preferably, a square groove is formed in the outer wall of one side, far away from the rapid plug-in assembly, of the shell main body, and the position of the square groove corresponds to the position of the LED tube assembly;

the resistor pole is electrically connected with the resistor groove, and permanent magnets I are embedded in the outer walls of the two sides of the supporting square seat and the stabilizing block.

Preferably, the heat dissipation assembly consists of a plurality of groups of tesla valve flow channels, parallel pipes are fixedly assembled on two sides of the tesla valve flow channels, connecting pipes are fixedly assembled on outer walls of the parallel pipes on one side far away from the rapid plug assembly, and the heat dissipation assembly is communicated with the grating assembly through the connecting pipes.

Preferably, the fixing assembly comprises a fixing plate, an LED hole is formed in the top of the fixing plate, and a plurality of sliding frames are fixedly arranged on the top of the fixing plate.

Preferably, the LED tube assembly comprises LED tubes, one ends of the two groups of LED tubes, which are far away from the quick plug assembly, are connected through a connecting bent tube, an insulating pull seat is fixedly assembled on the outer wall of one side, which is far away from the LED tubes, of the connecting bent tube, the LED lamp bodies are fixedly assembled on the outer edges of the bottoms of the two groups of LED tubes, round corners are formed on the outer edges of the one ends, which are far away from the insulating pull seat, of the two groups of LED tubes, and electrode connecting holes are formed on the outer walls of the one ends, which are far away from the insulating pull seat, of the LED tubes.

Preferably, the quick plug subassembly is including the base main part, the base main part is kept away from one side outer wall of LED tube subassembly and is inlayed the electrode link, the semicircle groove has been seted up at the top of base main part, the arc spout has been seted up at the top of base main part, the fixed splint that is equipped with in top of base main part, the inner wall sliding sleeve of arc spout has fixed splint, fixed splint's both ends are fixed respectively and are equipped with first electrode post and second electrode post, fixed splint's top is fixed and is equipped with the transmission post, the one end fixed mounting that the fixed splint was kept away from to the transmission post has toggle switch, the fixed baffle that is equipped with in one side outer wall fixed mounting that the LED tube subassembly was kept away from to the base main part.

Preferably, the fixed clamping frame is located between the fixed clamping plate and the base main body, the fixed clamping plate and the base main body are fixedly assembled through bolts, the positions of the first electrode column and the second electrode column correspond to the positions of the semicircular grooves, the toggle switch is fixedly assembled with the top of the fixed clamping plate, the electrode connecting end is electrically connected with the fixed clamping frame, and the electrode connecting end is electrically connected with the second electrode column through the toggle switch.

Preferably, the grating component is identical to the heat dissipation component in structure, and the difference is that: the grating assembly is not provided with a connecting pipe structure, the circulation directions of the heat dissipation assembly and the grating assembly are opposite, the air outlet end of the grating assembly is communicated with the air inlet end of the heat dissipation assembly through a connecting pipe, the air inlet end of the grating assembly is connected with the turbofan through an alloy conduit, the grating assembly is prepared by using acrylic plastics, and white thin plastic cloth is arranged at the outer wall of the grating assembly.

Preferably, the partition plate comprises a light plate, the top of the light plate is provided with an LED lamp hole, and the bottom of the light plate is fixedly provided with a soft light block;

the baffle sets up in the top of grating subassembly, and soft light piece sets up in the inner wall department of grating subassembly, and its LED lamp hole's position corresponds with the position of LED lamp main part.

Preferably, the sliding rail assembly comprises a sliding rail main body, wherein a first sliding groove, a second sliding groove, a third sliding groove, a fourth sliding groove and a fifth sliding groove are respectively formed in an inner cavity of the sliding rail main body, an electromagnetic block is fixedly assembled at the inner wall of the bottom of the second sliding groove, and a magnet is fixedly assembled at the inner wall of the bottom of the fifth sliding groove;

permanent magnets II are embedded in the inner walls of the two sides of the first chute and the fourth chute, the magnetic force direction of the permanent magnets II and the magnetic force direction of the permanent magnets I repel each other, the magnets repel each other with the magnetic force direction of the supporting magnets, the electromagnetic blocks and the magnets, the electromagnetic blocks are arranged on the inner walls of the bottom of the two sides of the second chute in a straight line, and the input ends of the electromagnetic blocks are electrically connected with the input ends of the network controller.

The invention has the following beneficial effects:

1. this high light efficiency economize on electricity illumination lamps and lanterns, the square groove of seting up through the one side outer wall of quick plug subassembly is kept away from to the shell main part, utilize the insulating seat of drawing of setting to carry out the push-and-pull to the LED tube subassembly, make realize pegging graft between electrode connecting hole and first electrode post and the second electrode post, through setting up the balladeur train, make LED tube subassembly accessible balladeur train slide and fixed, and then make the LED tube subassembly install and when changing through square groove department, can lead with the help of the balladeur train, make the LED tube subassembly can realize supporting fixedly after installing simultaneously, simultaneously through its quick structure of installing, make the equipment can realize the operation of changing LED tube subassembly quantity by oneself, thereby realize reducing the use consumption of its equipment, make the effect that the quantity of equipment accessible change LED tube subassembly was suitable for different environment uses, further, drive fixed holder in spout inner wall department through first electrode post and second electrode post through the frictional force accessible, and fixed holder drive the toggle switch, make the electric power control between quick plug subassembly and the LED tube subassembly through the transmission post, can realize the effect through the energy-saving equipment, and change the equipment is suitable for the realization of the equipment, and can change the scene is used.

2. This high luminous efficiency economize on electricity illumination lamps and lanterns utilizes alloy pipe to carry out the water conservancy diversion with turbofan moving wind through setting up radiator unit and grating subassembly, make air circulate to the one end that grating subassembly is close to alloy pipe, pass through the inner chamber of connecting pipe transmission to radiator unit behind the grating subassembly, last exit end to radiator unit discharges, through setting up the LED lamp main part in the inner wall department of grating subassembly, make the heat accessible grating unit of LED lamp main part moving dispel the heat, and realize the heat dissipation through the heat when radiator unit makes LED pipe subassembly and quick plug subassembly move, simultaneously through setting up radiator unit's the end of giving vent to anger in quick plug subassembly department, make radiator unit exhaust air can keep quick plug subassembly in dry state, simultaneously set up in the bottom of baffle through the grating subassembly, make grating subassembly still can consolidate the baffle when realizing light flexibility avoid its deformation, when making equipment operation through radiator unit and grating subassembly, and when making equipment operation, its equipment inner chamber can not gather a large amount of heat, and then reduce the loss of equipment electric energy.

3. According to the high-light-efficiency electricity-saving lighting lamp, the shell component is suspended in the inner cavity of the sliding rail component through the magnetic force of the mutual repulsion of the magnetic force directions of the magnet and the supporting magnet, the electromagnetic block and the magnet, and the shell component can be kept balanced in the inner cavity of the sliding rail component through the mutual repulsion of the magnetic force direction of the second permanent magnet and the magnetic force direction of the first permanent magnet, so that the problem that the traditional equipment is damaged due to the fact that static electricity is conducted to the equipment when the traditional equipment is used is solved;

when the shell component moves to a region with larger magnetic force of the electromagnetic block, the magnetic force of the electromagnetic block can push the resistor seat to move up and down through the magnet, the resistor seat drives the resistor pole to change the contact position with the resistor groove, and the circuit resistance of the LED tube component is changed by changing the contact position of the resistor pole and the resistor groove, so that the brightness of the LED tube component is changed, the equipment service environment is changed, and the brightness of the light source is changed.

Drawings

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

FIG. 2 is a schematic view of the expanded structure of the present invention;

FIG. 3 is a schematic view of a turbofan according to the present invention;

FIG. 4 is a schematic view of a fixing assembly according to the present invention;

FIG. 5 is a schematic view of an LED tube assembly of the present invention;

FIG. 6 is a schematic diagram of a quick connect and disconnect assembly according to the present invention;

FIG. 7 is a schematic diagram of a heat dissipating assembly according to the present invention;

FIG. 8 is a schematic diagram of a Tesla valve flow channel structure of the present invention;

FIG. 9 is a schematic view of a slide rail assembly according to the present invention;

FIG. 10 is a schematic view of the housing assembly of the present invention;

FIG. 11 is a schematic view of the electromagnetic block structure of the present invention.

In the figure: 1. a housing assembly; 2. a heat dissipation assembly; 3. a fixing assembly; 4. an LED tube assembly; 5. a quick plug assembly; 6. a grating assembly; 7. an alloy conduit; 8. a turbo fan; 9. a partition plate; 10. a fixed frame; 11. a thread groove; 12. a slide rail assembly; 13. a network controller;

101. a housing main body; 102. a fixing frame; 103. a threaded hole; 104. a resistor groove; 105. a stabilizing block; 106. a moving groove; 107. a resistor seat; 108. a magnet; 109. a resistor electrode; 110. a supporting square seat; 111. a support magnet; 112. a slip surface;

201. a tesla valve flow passage; 202. juxtaposing pipes; 203. a connecting pipe;

301. a fixing plate; 302. an LED hole; 303. a carriage;

401. an LED lamp tube; 402. an insulating pull seat; 403. a connecting bent pipe; 404. an LED lamp body; 405. round corners; 406. an electrode connection hole;

501. a base body; 502. an electrode connection end; 503. a semicircular groove; 504. an arc chute;

505. a fixed clamping plate; 506. fixing the clamping frame; 507. a first electrode column; 508. a second electrode column;

509. a transfer column; 510. a toggle switch; 511. a baffle;

901. a light plate; 902. an LED lamp hole; 903. a soft light block;

1201. a slide rail main body; 1202. a first chute; 1203. a second chute; 1204. a third chute; 1205. a fourth chute; 1206. a fifth chute; 1207. an electromagnetic block; 1208. a magnet.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

Referring to fig. 1-11, a high-light-efficiency electricity-saving lighting lamp comprises a housing assembly 1, wherein a heat dissipation assembly 2 is arranged on the inner wall of the bottom of the housing assembly 1, a fixing frame 10 is arranged on the inner wall of the bottom of the housing assembly 1, a threaded groove 11 is formed in the outer edge of the fixing frame 10, a grating assembly 6 is arranged at the top of the grating assembly 6, a partition 9 is arranged at the top of the grating assembly 6, an alloy conduit 7 is fixedly assembled at the outer edge of the top of the grating assembly 6, a turbofan 8 is fixedly assembled at one end of the alloy conduit 7 far from the grating assembly 6, a fixing assembly 3 is arranged at the top of the partition 9, an LED tube assembly 4 is arranged at the top of the fixing assembly 3, a quick plugging assembly 5 is fixedly assembled at one side of the top of the fixing assembly 3 far from the LED tube assembly 4, the heat dissipation assembly 2 is arranged at the top of the LED tube assembly 4, a slide rail assembly 12 is arranged at the top of the housing assembly 1, and a network controller 13 is fixedly assembled at one side of the outer wall of the turbofan 8 far from the alloy conduit 7;

the shell assembly 1 comprises a shell main body 101, a fixing frame 102 is fixedly assembled at the top of the shell main body 101, threaded holes 103 are formed in the outer wall of the bottom of the shell main body 101, a sliding surface 112 is formed in the outer wall of the top of the fixing frame 102, supporting square seats 110 are fixedly assembled on the outer walls of the middle parts of two sides of the fixing frame 102, supporting magnets 111 are fixedly assembled at the bottoms of the two groups of supporting square seats 110, a movable groove 106 is formed in the outer wall of the top of the fixing frame 102, a resistor groove 104 is inlaid in the outer wall of the top of the fixing frame 102, a stabilizing block 105 is fixedly assembled at the top of the fixing frame 102, a resistor seat 107 is sleeved at the top of the outer wall of the fixing frame 102 in a sliding mode, a magnet 108 is fixedly assembled at the bottom of the resistor seat 107, and a resistor pole 109 is fixedly assembled on the outer wall of one side of the resistor seat 107, which is close to the resistor groove 104.

Wherein, a square groove is arranged on the outer wall of one side of the shell main body 101 far away from the quick plug-in assembly 5, and the position of the square groove corresponds to the position of the LED tube assembly 4;

the resistor 109 is electrically connected with the resistor slot 104, and permanent magnets are embedded in the outer walls of the two sides of the supporting square seat 110 and the stabilizing block 105

The position of the square groove corresponds to the position of the LED tube assembly 4, so that the LED tube assembly 4 can be directly mounted and replaced by the square groove.

The heat dissipation assembly 2 is composed of a plurality of tesla valve flow channels 201, parallel pipes 202 are fixedly assembled on two sides of the tesla valve flow channels 201, connecting pipes 203 are fixedly assembled on outer walls of the parallel pipes 202 far away from one side of the rapid plug assembly 5, and the heat dissipation assembly 2 is communicated with the grating assembly 6 through the connecting pipes 203.

It should be noted that, the heat dissipation assembly 2 is formed by the plurality of groups of tesla valve flow channels 201, so that the amount of air flowing into the inner cavity of the heat dissipation assembly 2 is increased, and further, the heat of the inner cavity of the device can be rapidly extracted through the heat dissipation assembly 2.

The fixing assembly 3 comprises a fixing plate 301, an LED hole 302 is formed in the top of the fixing plate 301, and a plurality of carriages 303 are fixedly arranged on the top of the fixing plate 301.

By providing the carriage 303, the LED tube assembly 4 can be slid and fixed by the carriage 303, and when the LED tube assembly 4 is mounted and replaced by the square groove, the LED tube assembly 4 can be guided by the carriage 303, and the LED tube assembly 4 can be supported and fixed after being mounted.

The LED tube assembly 4 includes LED tubes 401, one ends of the two groups of LED tubes 401, which are far away from the quick plugging assembly 5, are connected through a connecting bent tube 403, an insulating pull seat 402 is fixedly assembled on an outer wall of one side of the connecting bent tube 403, which is far away from the LED tubes 401, an LED tube main body 404 is fixedly assembled on outer edges of bottoms of the two groups of LED tubes 401, rounded corners 405 are formed on outer edges of one ends of the two groups of LED tubes 401, which are far away from the insulating pull seat 402, and electrode connecting holes 406 are formed on outer walls of one ends of the two groups of LED tubes 401, which are far away from the insulating pull seat 402.

It should be noted that, through the electrode connection hole 406, the LED tube assembly 4 and the quick plug assembly 5 can be quickly and electrically connected through the electrode connection hole 406.

The quick plug assembly 5 comprises a base body 501, an electrode connecting end 502 is inlaid on the outer wall of one side, far away from the LED tube assembly 4, of the base body 501, a semicircular groove 503 is formed in the top of the base body 501, an arc-shaped sliding groove 504 is formed in the top of the base body 501, a fixed clamping plate 505 is fixedly assembled on the top of the base body 501, a fixed clamping frame 506 is sleeved on the inner wall of the arc-shaped sliding groove 504 in a sliding manner, a first electrode column 507 and a second electrode column 508 are fixedly assembled on the two ends of the fixed clamping frame 506 respectively, a transmission column 509 is fixedly assembled on the top of the fixed clamping frame 506, a toggle switch 510 is fixedly assembled on one end, far away from the fixed clamping frame 506, of the transmission column 509, and a baffle 511 is fixedly assembled on the outer wall of one side, far away from the LED tube assembly 4, of the base body 501.

Wherein, the fixed clamping frame 506 is located between the fixed clamping plate 505 and the base main body 501, the fixed clamping plate 505 and the base main body 501 are fixedly assembled through bolts, the positions of the first electrode column 507 and the second electrode column 508 correspond to the positions of the semicircular grooves 503, the toggle switch 510 is fixedly assembled with the top of the fixed clamping plate 505, the electrode connecting end 502 is electrically connected with the fixed clamping frame 506, and the electrode connecting end 502 is electrically connected with the second electrode column 508 through the toggle switch 510.

It should be noted that, the fixing clamping plate 505 is fixedly assembled with the base body 501 through bolts, the fixing clamping frame 506 is located between the fixing clamping plate 505 and the base body 501, when the LED tube assembly 4 is assembled and disassembled, the friction force between the electrode connecting hole 406 and the first electrode column 507 and the second electrode column 508 can drive the fixing clamping frame 506 to slide at the inner wall of the arc chute 504 through the first electrode column 507 and the second electrode column 508, and the fixing clamping frame 506 drives the toggle switch 510 through the transmission column 509, so that the electric power on-off between the quick plug assembly 5 and the LED tube assembly 4 can be controlled through the toggle switch 510.

Wherein, the grating component 6 is identical to the heat dissipation component 2 in structure, and the difference is that: the grating component 6 is not provided with a connecting pipe 203 structure, the circulation directions of the heat dissipation component 2 and the grating component 6 are opposite, the air outlet end of the grating component 6 is communicated with the air inlet end of the heat dissipation component 2 through the connecting pipe 203, the air inlet end of the grating component 6 is connected with the turbofan 8 through the alloy conduit 7, the grating component 6 is prepared by using acrylic plastics, and the outer wall of the grating component 6 is provided with white thin plastic cloth.

It should be noted that, through the above-mentioned structure, the grating component 6 and the heat dissipation component 2 can both realize the heat dissipation effect, and the light source of the LED tube component 4 can be halated through the grating component 6, so that the light source of the LED tube component 4 is soft, and is more suitable for practical use.

Wherein, the baffle 9 comprises a light plate 901, the top of the light plate 901 is provided with an LED lamp hole 902, and the bottom of the light plate 901 is fixedly provided with a soft light block 903;

the partition 9 is disposed on top of the grating assembly 6, and the soft light block 903 is disposed on the inner wall of the grating assembly 6, and the position of the LED lamp hole 902 corresponds to the position of the LED lamp body 404.

By providing the soft light block 903, the light source of the LED tube assembly 4 can be made to vignette.

The sliding rail assembly 12 comprises a sliding rail main body 1201, wherein a first sliding groove 1202, a second sliding groove 1203, a third sliding groove 1204, a fourth sliding groove 1205 and a fifth sliding groove 1206 are respectively formed in an inner cavity of the sliding rail main body 1201, an electromagnetic block 1207 is fixedly assembled at the bottom inner wall of the second sliding groove 1203, and a magnet 1208 is fixedly assembled at the bottom inner wall of the fifth sliding groove 1206;

permanent magnets II are embedded in the inner walls of the two sides of the first sliding groove 1202 and the fourth sliding groove 1205, the magnetic force direction of the permanent magnets II and the magnetic force direction of the permanent magnets I repel each other, the magnets 1208 repel each other, the supporting magnets 111, the electromagnetic blocks 1207 and the magnets 108 repel each other, the electromagnetic blocks 1207 are arranged on the inner walls of the bottom of the two sides of the second sliding groove 1203 in a straight line, and the input end of the electromagnetic blocks 1207 is electrically connected with the input end of the network controller 13.

It should be noted that, the housing assembly 1 is electrically connected with the LED tube assembly 4 through the quick plug assembly 5, and the brightness of the LED tube assembly 4 is controlled by the contact position of the resistor 109 and the resistor slot 104;

it should be noted that, through the above-mentioned structure, when the shell subassembly 1 is located the inner chamber of slide rail subassembly 12, through utilizing the magnetic force that the magnetic force direction of magnetite 1208 and support magnet 111, electromagnetism piece 1207 and magnet 108 is repulsed each other, make the shell subassembly 1 suspend in the inner chamber of slide rail subassembly 12, and through the magnetic force direction of second permanent magnet and the magnetic force direction of first permanent magnet are repulsed each other, can make the shell subassembly 1 can keep balanced in the inner chamber of slide rail subassembly 12, and then solve traditional equipment and install through the steel wire suspension, lead to static to the equipment through the steel wire conduction, lead to the problem that equipment is damaged, make equipment suspend through magnetic force can make equipment realize moving through slide rail subassembly 12 simultaneously, and then make equipment can be applicable to different work scenes, and when the magnetic force size through electromagnetism piece 1207 is controlled by network controller 13, make shell subassembly 1 move to the region that electromagnetism piece 1207 magnetic force is great, the magnetic force of its electromagnetism piece 1207 can promote the resistance seat 107 through magnet 108 and realize reciprocating, and then drive resistance seat 107 through resistance seat 107 and change the contact position with resistance groove 104, and change the resistance 4 through changing resistance seat 109, and change the contact position with resistance 4, and change LED 4, realize the change of brightness, and further realize the change of LED light source.

When the equipment is used, the proper number of LED tube assemblies 4 are selected to be installed through actual needs, so that the size of a light source is adjusted, the use power consumption of the equipment can be reduced through a method for changing the number of the LED tube assemblies 4, the equipment can realize the functions applicable to different environments through changing the number of the LED tube assemblies 4, when the LED tube assemblies 4 are installed or replaced, the LED tube assemblies 4 are pushed and pulled through the square grooves formed in the outer wall of one side of the shell main body 101 far away from the quick plug assembly 5, the electrode connecting holes 406 are connected with the first electrode columns 507 and the second electrode columns 508 in an inserting mode through the arranged insulating pull seats 402, the LED tube assemblies 4 can slide and be fixed through the sliding frames 303 through the arrangement of the sliding frames 303, and when the LED tube assemblies 4 are installed and replaced through the square grooves, the sliding frames 303 can be used for guiding, and meanwhile, the LED tube assemblies 4 can be supported and fixed after being installed;

meanwhile, friction force between the electrode connecting hole 406 and the first electrode column 507 and the second electrode column 508 can drive the fixed clamping frame 506 to slide at the inner wall of the arc chute 504 through the first electrode column 507 and the second electrode column 508, the fixed clamping frame 506 drives the toggle switch 510 through the transmission column 509, so that the electric power on-off between the quick plug assembly 5 and the LED tube assembly 4 can be controlled through the toggle switch 510, the air operated by the turbofan 8 is guided by the alloy conduit 7 through the heat dissipation assembly 2 and the grating assembly 6, so that the air flows to one end of the grating assembly 6 close to the alloy conduit 7, is transmitted to the inner cavity of the heat dissipation assembly 2 through the connecting tube 203 after passing through the grating assembly 6, and finally is discharged to the outlet end of the heat dissipation assembly 2, the heat operated by the LED lamp main body 404 can be dissipated through the grating assembly 6, the heat generated when the LED tube assembly 4 and the quick plug assembly 5 are operated through the heat dissipation assembly 2, and the air can be kept in a quick plug assembly 5 state by arranging the air outlet end of the heat dissipation assembly 2 at the quick plug assembly 5;

the shell component 1 and the sliding rail component 12 are mutually repulsed by the magnetic force of the magnet 1208 and the magnetic force direction of the supporting magnet 111, the electromagnetic block 1207 and the magnetic force of the magnet 108, so that the shell component 1 is suspended in the inner cavity of the sliding rail component 12, the inner cavity of the sliding rail component 12 can be kept balanced by the mutual repulsed of the magnetic force direction of the permanent magnet II and the magnetic force direction of the permanent magnet I, the intensity of the magnetic force of the electromagnetic block 1207 is controlled by the network controller 13, when the shell component 1 moves to a region with larger magnetic force of the electromagnetic block 1207, the magnetic force of the electromagnetic block 1207 can push the resistor seat 107 to move up and down by the magnet 108, the contact position of the resistor 109 and the resistor groove 104 is further changed by changing the contact position of the resistor seat 107, the circuit resistance of the LED tube component 4 is further changed, the brightness of the LED tube component 4 is further changed, and the use environment of the device is changed, and the brightness of the light source is changed.

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.

Claims (10)

1. The utility model provides a high light efficiency electricity-saving lighting lamp, includes shell subassembly (1), its characterized in that: the LED lamp comprises a shell assembly (1), wherein a heat dissipation assembly (2) is arranged on the inner bottom wall of the shell assembly (1), a fixing frame (10) is arranged on the inner bottom wall of the shell assembly (1), a threaded groove (11) is formed in the outer edge of the fixing frame (10), a grating assembly (6) is arranged at the top of the fixing frame (10), a partition plate (9) is arranged at the top of the grating assembly (6), an alloy guide pipe (7) is fixedly assembled at the outer edge of the top of the grating assembly (6), a turbofan (8) is fixedly assembled at one end, far away from the grating assembly (6), a fixing assembly (3) is arranged at the top of the partition plate (9), an LED tube assembly (4) is arranged at the top of the fixing assembly (3), a quick plug assembly (5) is fixedly assembled at one side, far away from the LED tube assembly (4), a heat dissipation assembly (2) is arranged at the top of the grating assembly (6), a slide rail assembly (12) is arranged at the top of the shell assembly (1), and a network controller (13) is fixedly assembled at one side, far away from the alloy guide pipe (7);

the shell assembly (1) comprises a shell main body (101), mount (102) are fixedly assembled at the top of shell main body (101), threaded hole (103) are seted up at the bottom outer wall of shell main body (101), slide (112) are seted up at the top outer wall of mount (102), support square seat (110) are all fixedly assembled at the middle part outer wall of both sides of mount (102), two sets of support square seat (110) are all fixedly assembled with support magnet (111), movable groove (106) have been seted up at the top outer wall of mount (102), resistive groove (104) are inlayed at the top outer wall that mount (102) are close to slide (112) one side, stabilizator (105) are fixedly assembled at the top of mount (102), resistance seat (107) are slidingly sleeved at the outer wall top of mount (102), magnet (108) are fixedly assembled at the bottom of resistance seat (107), resistance pole (109) are fixedly assembled at one side outer wall that resistance seat (107) is close to resistive groove (104).

2. The high-efficiency, power-saving lighting fixture of claim 1, wherein: the outer wall of one side of the shell main body (101) far away from the quick plug-in assembly (5) is provided with a square groove, and the position of the square groove corresponds to the position of the LED tube assembly (4);

the resistor pole (109) is electrically connected with the resistor groove (104), and permanent magnets I are embedded in the outer walls of the two sides of the supporting square seat (110) and the stabilizing block (105).

3. The high-efficiency, power-saving lighting fixture of claim 1, wherein: the heat dissipation assembly (2) consists of a plurality of groups of Tesla valve flow channels (201), parallel pipes (202) are fixedly assembled on two sides of each Tesla valve flow channel (201), connecting pipes (203) are fixedly assembled on the outer walls of the parallel pipes (202) on one side far away from the rapid plug assembly (5), and the heat dissipation assembly (2) is communicated with the grating assembly (6) through the connecting pipes (203).

4. The high-efficiency, power-saving lighting fixture of claim 1, wherein: the fixing assembly (3) comprises a fixing plate (301), an LED hole (302) is formed in the top of the fixing plate (301), and a plurality of sliding frames (303) are fixedly arranged on the top of the fixing plate (301).

5. The high-efficiency, power-saving lighting fixture of claim 1, wherein: the LED lamp assembly (4) comprises LED lamp tubes (401), two groups of LED lamp tubes (401) are connected through a connecting bent tube (403) at one end, far away from the quick plug assembly (5), of each LED lamp tube (401), an insulating pull seat (402) is fixedly assembled on the outer wall of one side, far away from the LED lamp tubes (401), of each connecting bent tube (403), an LED lamp body (404) is fixedly assembled on the outer edge of the bottom of each LED lamp tube (401), round corners (405) are formed in the outer edge of one end, far away from the insulating pull seat (402), of each LED lamp tube (401), and electrode connecting holes (406) are formed in the outer wall of one end, far away from the insulating pull seat (402).

6. The high-efficiency, power-saving lighting fixture of claim 1, wherein: quick plug subassembly (5) is including base main part (501), one side outer wall that LED pipe assembly (4) was kept away from to base main part (501) is inlayed and is had electrode link (502), semicircle groove (503) have been seted up at the top of base main part (501), arc spout (504) have been seted up at the top of base main part (501), fixed splint (505) are equipped with at the top of base main part (501), fixed holder (506) have been cup jointed in the inner wall slip of arc spout (504), fixed first electrode post (507) and second electrode post (508) are equipped with respectively to the both ends of fixed holder (506), the fixed transmission post (509) that is equipped with in top of fixed holder (506), one end fixed mounting that fixed holder (506) were kept away from to transmission post (509) has toggle switch (510), fixed mounting baffle (511) are kept away from one side outer wall of LED pipe assembly (4) to base main part (501).

7. The high-efficiency, power-saving lighting fixture of claim 6, wherein: the fixed clamp holder (506) is located between the fixed clamp plate (505) and the base main body (501), the fixed clamp plate (505) and the base main body (501) are fixedly assembled through bolts, the positions of the first electrode column (507) and the second electrode column (508) correspond to the positions of the semicircular grooves (503), the toggle switch (510) is fixedly assembled with the top of the fixed clamp plate (505), the electrode connecting end (502) is electrically connected with the fixed clamp holder (506), and the electrode connecting end (502) is electrically connected with the second electrode column (508) through the toggle switch (510).

8. The high-efficiency, power-saving lighting fixture of claim 1, wherein: the grating component (6) is consistent with the heat dissipation component (2) in structure, and is different in that: the grating assembly (6) is not provided with a connecting pipe (203) structure, the circulation directions of the heat dissipation assembly (2) and the grating assembly (6) are opposite, the air outlet end of the grating assembly (6) is communicated with the air inlet end of the heat dissipation assembly (2) through the connecting pipe (203), the air inlet end of the grating assembly (6) is connected with the turbofan (8) through the alloy conduit (7), the grating assembly (6) is prepared by using acrylic plastics, and white thin plastic cloth is arranged at the outer wall of the grating assembly (6).

9. The high-efficiency, power-saving lighting fixture of claim 1, wherein: the partition board (9) comprises a light board (901), an LED lamp hole (902) is formed in the top of the light board (901), and a soft light block (903) is fixedly arranged at the bottom of the light board (901);

the baffle (9) is arranged at the top of the grating component (6), the soft light block (903) is arranged at the inner wall of the grating component (6), and the position of the LED lamp hole (902) corresponds to the position of the LED lamp main body (404).

10. The high-efficiency, power-saving lighting fixture of claim 1, wherein: the sliding rail assembly (12) comprises a sliding rail main body (1201), wherein a first sliding groove (1202), a second sliding groove (1203), a third sliding groove (1204), a fourth sliding groove (1205) and a fifth sliding groove (1206) are respectively formed in an inner cavity of the sliding rail main body (1201), an electromagnetic block (1207) is fixedly assembled at the inner wall of the bottom of the second sliding groove (1203), and a magnet (1208) is fixedly assembled at the inner wall of the bottom of the fifth sliding groove (1206);

permanent magnets II are inlaid at the inner walls of the two sides of the first sliding groove (1202) and the fourth sliding groove (1205), the magnetic force direction of the permanent magnets II and the magnetic force direction of the permanent magnets I repel each other, the magnetic force direction of the magnets (1208), the magnetic force direction of the supporting magnets (111), the magnetic blocks (1207) and the magnetic force direction of the magnets (108) repel each other, a plurality of the magnetic blocks (1207) are linearly arranged on the inner walls of the bottom of the two sides of the second sliding groove (1203), and the input end of the magnetic blocks (1207) is electrically connected with the input end of the network controller (13).