CN108980721B - Ceiling lamp - Google Patents

Abstract

The invention discloses a ceiling lamp, which structurally comprises a lighting lamp dust cover, an anti-penetration layer, an adsorption and sticking layer and a cooling control operation device; the cooling control operation device is arranged above the dust cover of the illuminating lamp; the cooling control operation device comprises a temperature control lifting control device, a protective shell, a cooling control device, electric box equipment to be triggered, a pulling clamping control device, extruding and pushing equipment, a magnetic field pushing device, a gear transmission set and a sliding triggering device; the ceiling lamp can sense heat energy generated by the ceiling lamp in the operation process, so that an internal structure is triggered by the sensed heat energy to operate, the ceiling lamp can be timely processed, and unnecessary troubles are avoided.

Description

Ceiling lamp

Technical Field

The invention relates to a ceiling lamp, and belongs to the field of ceiling lamps.

Background

The ceiling lamp is one of lamps, and is called as the ceiling lamp as the name suggests that the upper part of the lamp is flat, and the bottom of the lamp is completely attached to the roof when the lamp is installed, a light source comprises a common white bulb, a fluorescent lamp, a high-intensity gas discharge lamp, a halogen tungsten lamp, an LED and the like, the most popular ceiling lamp in the market at present is the LED ceiling lamp, and the ceiling lamp is a lamp frequently selected in various places such as families, offices, entertainment places and the like.

However, for the existing ceiling lamp, because the operation process is easy to generate heat, the existing ceiling lamp is easy to cause fire if installed on flammable materials, and is easy to cause unnecessary danger.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a ceiling lamp to solve the problems that the existing ceiling lamp is easy to generate heat in the operation process, and equipment is easy to cause fire if installed on flammable materials, so that unnecessary danger is easy to cause.

In order to achieve the purpose, the invention is realized by the following technical scheme: a ceiling lamp structurally comprises a lighting lamp dust cover, an anti-penetration layer, an adsorption and sticking layer and a cooling control operation device;

the outer surface of the top of the illuminating lamp dust cover is attached to the outer surface of the bottom of the adsorption and adhesion layer, the anti-penetration layer is nested with the adsorption and adhesion layer, the cooling control operation device is embedded and installed inside the adsorption and adhesion layer and is positioned on the same axis, and the cooling control operation device is installed above the illuminating lamp dust cover;

the cooling control operation device comprises a temperature control lifting control device, a protective shell, a cooling control device, electric box equipment to be triggered, a pulling clamping control device, an extrusion pushing device, a magnetic field pushing device, a gear transmission set and a sliding triggering device;

the temperature control lifting control device is embedded and installed inside the protective shell, the cooling control device is installed inside the protective shell, the electronic box equipment to be triggered is connected with the cooling control device, the pulling clamping control device is installed on the outer surface of the extrusion pushing device, the magnetic field pushing device is connected with the gear transmission set, the sliding triggering device is arranged on the side of the gear transmission set, and the extrusion pushing device is connected with the magnetic field pushing device.

Further, control by temperature change lift control device includes linking contact pole, profile of tooth strip, transmission half gear, links up and removes the square frame, links up the carriage release lever, atress sliding block, auxiliary layer, mercury lift slide rail, linking contact pole is installed in linking up and is removed the square frame surface, the profile of tooth strip welding is in linking up and removes the square frame internal surface, transmission half gear is connected with profile of tooth strip profile of tooth, it welds in linking up and removes square frame top surface to link up the carriage release lever, it is connected with the atress sliding block through linking the carriage release lever to link up the carriage release lever, atress sliding block embedding is installed inside mercury lift slide rail, the auxiliary layer laminating is in atress sliding block surface.

Further, the gear transmission set comprises a transmission gear, a transmission worm, a transmission belt, a central rotating shaft, a special track rotating body and a stressed sliding rod, the transmission gear is connected with the tooth pattern of the transmission worm, the transmission worm is connected with the central rotating shaft through the transmission belt, the central rotating shaft is embedded and installed inside the special track rotating body, the stressed sliding rod is connected with the special track rotating body, the transmission gear is connected with the tooth pattern of the magnetic field pushing device, the extrusion pushing equipment comprises a stressed extrusion body, a linking pushing block, a pushing rod, a telescopic bracket, a sliding rail, an auxiliary rotating shaft and a linking stress frame, the telescopic bracket is hinged with the stressed extrusion body, the linking pushing block is welded on the outer surface of the telescopic bracket, the linking pushing block is embedded and installed inside the pushing rod, the pushing rod is connected with the sliding rail, and the telescopic bracket is installed, the holding force frame is connected with the pushing rod and welded with the magnetic field pushing device.

Further, the cooling control device comprises a wheel slide rail, a pulley, a sensing layer, an embedded conductor, a conductor and a cooling body, wherein the pulley is embedded in the wheel slide rail, the conductor is installed in the sensing layer, the embedded conductor is embedded in the cooling body, the pulley is welded on the outer surface of the cooling body, the cooling body is electrically connected with the electronic box equipment to be triggered, the pulling clamping control device comprises a positioning block, a pulling block, a limiting slide groove, a stress support, a clamping block, a stress pulling block and a stress pull rod, the stress pulling block is installed on the outer surface of the positioning block, the pulling block is connected with the limiting slide groove, the clamping block is attached to the outer surface of the stress support, the stress support is embedded in the stress pulling block, and the limiting slide groove is connected with the stress pulling block through the stress pull rod.

Further, magnetic field thrust unit includes the slope slider, promotes runner, reset spring, removes positive terminal, fixed negative pole end, straight slide rail, magnetic field removal ball, removal insection strip, return spring, the slope slider is installed in promoting the runner top, it is connected with fixed negative pole end through reset spring to remove the positive terminal, the embedding of magnetic field removal ball is installed inside straight slide rail, return spring is connected with magnetic field removal ball, magnetic field removal ball is installed in removing insection strip bottom surface, drive gear is connected with removal insection strip insection, it welds in slope slider top surface to link up the atress frame.

Further, the slip trigger device includes atress carriage release lever, extrusion spring, telescopic link, spout, wheel, atress promotion pivot, removal auxiliary slide bar, triggers the body, atress promotion pivot embedding is installed inside the atress carriage release lever, the extrusion spring is installed in atress promotion pivot surface, atress promotion pivot embedding is installed inside the telescopic link, atress promotion pivot is connected with the spout, atress promotion pivot welds in removal auxiliary slide bar bottom surface, it is connected with removal auxiliary slide bar to trigger the body.

Further, treat that trigger electronic box equipment includes driving belt, positive terminal, negative pole end, wire, pulling runner, stay cord, rotates long body, transmission pivot, conductor, links up the body, driving belt is connected with the transmission pivot, positive terminal and negative pole end are installed on the coplanar, the wire is connected with the negative pole end, the stay cord is installed in pulling runner surface, the embedding of pulling runner is installed in rotating long internal portion, the pulling runner is connected with the transmission pivot through rotating long body, it installs in the positive terminal below to link up the body, the conductor is located and is rotated long body below, the cooling body is connected with the wire electricity.

Advantageous effects

The invention relates to a ceiling lamp, if internal equipment generates heat energy, the heat energy is guided into a mercury lifting slide rail through a sensing layer, so that mercury in the mercury is heated through the heat temperature, a stress sliding block of the mercury is pushed upwards along the mercury lifting slide rail, a rack bar and a connecting contact rod move along with the mercury lifting slide rail, when the rack bar moves, a transmission half gear is pushed to rotate through the rack bar, the rotation force of the transmission half gear is transmitted to a transmission rotating shaft through a transmission belt to touch a stress extrusion body, the stress extrusion body is extruded downwards, a telescopic bracket pushes an auxiliary rotating shaft of the telescopic bracket to one side, a connecting pushing block pushes a pushing rod to slide along the slide rail, the pushing rotating wheel is touched in the moving process, the pushing rotating wheel is pushed downwards, the moving positive electrode end of the telescopic bracket is extruded downwards until the fixed negative electrode end is touched, a magnetic field is generated when the two contact, the magnetic field moving ball is elastically conveyed along the straight slide rail by the repulsive force of the magnetic fields, the transmission gear is pushed by the insection connection to start rotating, the transmission worm is pushed to rotate, the transmission worm transmits the rotating force of the transmission worm to the central rotating shaft by the transmission belt, when the stressed sliding rod moves downwards, the stressed moving rod is pushed to push the rotating shaft to move downwards along with the stress, the extrusion spring is extruded, the trigger body is contacted with the linking contact rod, the auxiliary sliding rod is moved to the position below the negative end, the electric box is started, the electric energy of the auxiliary sliding rod is led into the cooling body by a lead, the electric energy of the auxiliary sliding rod is led into the cooling body by a pulley to move upwards along the pulley slide rail, the embedded conductor is inserted into the conductor, and the cooled temperature of the cooling body is led into the sensing layer by the conductor, so that the cooling body obtains the effect of cooling;

according to the ceiling lamp, the heat energy generated by the ceiling lamp can be sensed in the operation process, so that the internal structure is triggered through the sensed heat energy to operate, the ceiling lamp can be processed in time, and unnecessary troubles are avoided.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view of a ceiling lamp according to the present invention;

FIG. 2 is a schematic diagram of an internal structure of a cooling control operation device according to the present invention;

FIG. 3 is a schematic diagram of an internal structure of a cooling control operation device according to the present invention;

FIG. 4 is a schematic view of the internal structure of the cooling control operation device according to the present invention;

fig. 5 is a schematic diagram of an internal structure of the electric box device to be triggered according to the present invention.

In the figure: the device comprises a lighting lamp dust cover-1, a penetration-proof layer-2, an adsorption and adhesion layer-3, a cooling control operation device-4, a temperature control lifting control device-41, a protective shell-42, a cooling control device-43, an electric box device-44 to be triggered, a pulling and clamping control device-45, a squeezing and pushing device-46, a magnetic field pushing device-47, a gear transmission set-48, a sliding trigger device-49, a connecting contact rod-411, a toothed strip-412, a transmission half gear-413, a connecting moving frame-414, a connecting moving rod-415, a stressed sliding block-416, an auxiliary layer-417, a mercury lifting sliding rail-418, a transmission gear-481, a transmission worm-482, a transmission belt-483, a central rotating shaft-484, a special track rotating body-485, A stressed sliding rod-486, a stressed extrusion body-461, an engagement pushing block-462, a pushing rod-463, a telescopic bracket-464, a sliding rail-465, an auxiliary rotating shaft-466, an engagement stressed frame-467, a wheel sliding rail-431, a pulley-432, a sensing layer-433, an embedded conductor-434, a conductor-435, a cooling body-436, a positioning block-451, a pulling block-452, a limit sliding groove-453, a stressed bracket-454, a clamping block-455, a stressed pulling block-456, a stressed pulling rod-457, a tilting sliding block-471, a pushing rotating wheel-472, a reset spring-473, a moving positive end-474, a fixed negative end-475, a straight sliding rail-476, a magnetic field moving ball-477, a moving toothed strip-478, a, The device comprises a return spring-479, a force moving rod-491, an extrusion spring-492, a telescopic rod-493, a sliding groove-494, a wheel-495, a force pushing rotating shaft-496, a moving auxiliary sliding rod-497, a trigger body-498, a transmission belt-441, a positive pole end-442, a negative pole end-443, a conducting wire-444, a pulling rotating wheel-445, a pull rope-446, a rotating long body-447, a transmission rotating shaft-448, a conductor-449 and an adaptor-4410.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, and fig. 5, the present invention provides a ceiling lamp, which has a technical solution: the structure of the device comprises a lighting lamp dust cover 1, a penetration-proof layer 2, an adsorption and sticking layer 3 and a cooling control operation device 4;

the outer surface of the top of the illuminating lamp dust cover 1 is attached to the outer surface of the bottom of the adsorption and adhesion layer 3, the anti-penetration layer 2 is nested with the adsorption and adhesion layer 3, the cooling control operation device 4 is embedded and installed inside the adsorption and adhesion layer 3 and is positioned on the same axis, and the cooling control operation device 4 is installed above the illuminating lamp dust cover 1;

the cooling control operation device 4 comprises a temperature control lifting control device 41, a protective shell 42, a cooling control device 43, electric box equipment to be triggered 44, a pulling clamping control device 45, an extrusion pushing device 46, a magnetic field pushing device 47, a gear transmission set 48 and a sliding triggering device 49;

control by temperature change lifting control device 41 embedding is installed inside protective housing 42, cooling controlling means 43 is installed inside protective housing 42, treat that trigger electronic box equipment 44 is connected with cooling controlling means 43, pulling clamping control device 45 installs in extrusion propelling movement equipment 46 surface, magnetic field thrust unit 47 is connected with gear drive group 48, sliding trigger device 49 locates gear drive group 48 side, extrusion propelling movement equipment 46 is connected with magnetic field thrust unit 47.

The temperature control lifting control device 41 comprises an engaging contact rod 411, a toothed strip 412, a transmission half gear 413, an engaging moving frame 414, an engaging moving rod 415, a stress sliding block 416, an auxiliary layer 417 and a mercury lifting slide rail 418, wherein the engaging contact rod 411 is installed on the outer surface of the engaging moving frame 414, the toothed strip 412 is welded on the inner surface of the engaging moving frame 414, the transmission half gear 413 is connected with the toothed strip 412 in a toothed manner, the engaging moving rod 415 is welded on the outer surface of the top of the engaging moving frame 414, the engaging moving frame 414 is connected with the stress sliding block 416 through the engaging moving rod 415, the stress sliding block 416 is embedded and installed inside the mercury lifting slide rail 418, and the auxiliary layer 417 is attached to the outer surface of the stress sliding block 416.

The gear transmission set 48 comprises a transmission gear 481, a transmission worm 482, a transmission belt 483, a central rotating shaft 484, a special track rotating body 485 and a stressed sliding rod 486, the transmission gear 481 is connected with the transmission worm 482 in a toothed manner, the transmission worm 482 is connected with the central rotating shaft 484 through the transmission belt 483, the central rotating shaft 484 is embedded and installed inside the special track rotating body 485, the stressed sliding rod 486 is connected with the special track rotating body 485, the transmission gear 481 is connected with a magnetic field pushing device 47 in a toothed manner, the extrusion pushing device 46 comprises a stressed extrusion body 461, an engagement pushing block 462, a pushing rod 463, an expansion bracket 464, a sliding rail 465, an auxiliary rotating shaft 466 and an engagement stressed frame 467, the expansion bracket 464 is hinged with the stressed extrusion body 461, the engagement pushing block 462 is welded on the outer surface of the expansion bracket 464, and the engagement pushing block 462 is embedded and installed inside the pushing rod, the pushing rod 463 is connected with a sliding rail 465, the telescopic bracket 464 is arranged inside the auxiliary rotating shaft 466, the connecting force receiving frame 467 is connected with the pushing rod 463, and the connecting force receiving frame 467 is welded with the magnetic field pushing device 47.

The cooling control device 43 comprises a wheel slide rail 431, a pulley 432, a sensing layer 433, an embedded conductor 434, a conductor 435 and a cooling body 436, wherein the pulley 432 is embedded inside the wheel slide rail 431, the conductor 435 is installed inside the sensing layer 433, the embedded conductor 434 is embedded inside the cooling body 436, the pulley 432 is welded on the outer surface of the cooling body 436, the cooling body 436 is electrically connected with the electronic box equipment 44 to be triggered, the pulling and clamping control device 45 comprises a positioning block 451, a pulling block 452, a limiting slide groove 453, a stress bracket 454, a clamping block 455, a stress pulling block 456 and a stress pull rod 457, the stress pulling block 456 is installed on the outer surface of the positioning block 451, the pulling block 452 is connected with the limiting slide groove 453, the clamping block 455 is attached to the outer surface of the stress bracket 454, and the stress bracket 454 is embedded inside the stress pulling block 456, the limiting slide groove 453 is connected with the force pulling block 456 through a force pulling rod 457.

The magnetic field pushing device 47 includes a tilting slider 471, a pushing roller 472, a return spring 473, a moving positive terminal 474, a fixed negative terminal 475, a straight rail 476, a magnetic field moving ball 477, a moving toothed strip 478, and a return spring 479, the tilting slider 471 is installed above the pushing roller 472, the moving positive terminal 474 is connected with the fixed negative terminal 475 through the return spring 473, the magnetic field moving ball 477 is embedded inside the straight rail 476, the return spring 479 is connected with the magnetic field moving ball 477, the magnetic field moving ball 477 is installed on the outer surface of the bottom of the moving toothed strip 478, the transmission gear 481 is in toothed connection with the moving toothed strip 478, and the engagement force receiving rack 467 is welded on the outer surface of the top of the tilting slider 471.

The sliding trigger device 49 includes a stressed moving rod 491, an extrusion spring 492, a telescopic rod 493, a sliding groove 494, a wheel 495, a stressed pushing rotating shaft 496, a movable auxiliary sliding rod 497, and a trigger body 498, wherein the stressed pushing rotating shaft 496 is embedded and installed inside the stressed moving rod 491, the extrusion spring 492 is installed on the outer surface of the stressed pushing rotating shaft 496, the stressed pushing rotating shaft 496 is embedded and installed inside the telescopic rod 493, the stressed pushing rotating shaft 496 is connected with the sliding groove 494, the stressed pushing rotating shaft 496 is welded on the outer surface of the bottom of the movable auxiliary sliding rod 497, and the trigger body 498 is connected with the movable auxiliary sliding rod 497.

The electric box device to be triggered 44 comprises a driving belt 441, a positive electrode end 442, a negative electrode end 443, a conducting wire 444, a pulling rotary wheel 445, a pulling rope 446, a rotating long body 447, a driving rotary shaft 448, a conductor 449 and a connecting body 4410, wherein the driving belt 441 is connected with the driving rotary shaft 448, the positive electrode end 442 and the negative electrode end 443 are installed on the same plane, the conducting wire 444 is connected with the negative electrode end 443, the pulling rope 446 is installed on the outer surface of the pulling rotary wheel 445, the pulling rotary wheel 445 is embedded and installed inside the rotating long body 447, the pulling rotary wheel 445 is connected with the driving rotary shaft 448 through the rotating long body 447, the connecting body 4410 is installed below the positive electrode end 442, the conductor 449 is installed below the rotating long body 447, and the cooling body 436 is electrically connected with the conducting wire.

The return spring 473 is a mechanical part that works by using elasticity, and a part made of an elastic material deforms under the action of external force and recovers to the original shape after the external force is removed, and is also used as a "spring", which is generally made of spring steel, and the types of the springs are complex and various, and mainly comprise a coil spring, a volute spring, a plate spring, a special-shaped spring and the like according to the shape, the slide rail 465 is also called a guide rail and a slide way, and is a hardware connecting component which is fixed on a cabinet body of furniture and used for the in-and-out movement of a drawer or a cabinet plate of the furniture, and the slide rail is suitable for the connection of wood of cabinets such as cabinets, furniture, official document cabinets, bathroom cabinets and the like.

When the mercury heating device is used, if internal equipment generates heat energy, the heat energy is guided into the mercury lifting slide rail 418 through the sensing layer 433 of the mercury heating device, so that mercury in the mercury heating device rises through the heat temperature, the stress slide block 416 of the mercury heating device is pushed upwards along the mercury lifting slide rail 418, the connecting moving rod 415 arranged on the outer surface of the stress slide block 416 moves along with the mercury heating slide rail, the connecting moving frame 414 is driven to move together, the rack 412 and the connecting contact rod 411 also move along with the mercury heating slide rail, when the rack 412 moves, the transmission half gear 413 is pushed to rotate through the rack, the rotating force is transmitted to the transmission rotating shaft 448 through the transmission belt 441, the transmission rotating shaft 448 drives the rotating long body 447 to rotate, in the rotating process, the pull rope 446 is pulled, the pulling block 452 is pulled to move along the limiting slide groove 453, and when the stress pull rod 457 is pulled to one side, thereby driving the force-bearing support 454 and the clamping block 455 to clamp downwards, so that in the clamping process, the force-bearing extrusion body 461 is touched, the force-bearing extrusion body 461 is extruded downwards, the telescopic support 464 pushes the auxiliary rotating shaft 466 to one side, the connecting pushing block 462 pushes the pushing rod 463 to slide along the sliding rail 465, in the sliding process, the connecting force-bearing support 467 is pushed out together, the inclined sliding block 471 arranged on the outer surface of the connecting force-bearing support 467 is driven to move together, in the moving process, the pushing rotating wheel 472 is touched, so that the pushing downwards is carried out, the moving positive end 474 of the moving positive end is extruded downwards until the fixed negative end 475 is touched, in the contact between the two, a magnetic field is generated, so that the magnetic field moving ball 477 is elastically conveyed along the straight sliding rail 476 by the repulsive force of the magnetic field, the return spring 479 is extruded, when the magnetic field moving ball 477 moves, the moving insection bar 478 installed on the outer surface will move together with it, and in the moving process, the driving gear 481 will be pushed through insection connection to start rotating, so as to push the driving worm 482 to rotate, so that the driving worm 482 will transmit its rotating force to the central rotating shaft 484 via the driving belt 483, and drive the special rail rotating body 485 to rotate together, so that the force-bearing sliding rod 486 will move down along its rail via the rotation of the special rail rotating body 485, when the force-bearing sliding rod 486 moves down, the force-bearing moving rod 491 will be pushed to move down along with the force-bearing rotating shaft 496, so as to squeeze the squeezing spring 492, so that the telescopic rod 493 will push the rotating shaft 496 to one side under force, thereby pushing the moving auxiliary sliding rod 497 to assist the moving auxiliary sliding rod 497 to slide along with the sliding groove 494 of the wheel 495, so that the trigger body 498 is contacted with the contact rod 411, the auxiliary sliding rod 497 is moved to the position below the negative electrode 443, so that the electric box is started, electric energy of the auxiliary sliding rod 497 is guided into the cooling body 436 through the conducting wire 444, the auxiliary sliding rod 497 moves upwards along the wheel sliding rail 431 through the pulley 432, the embedded conductor 434 penetrates into the conductor 435, and the cooling body 436 guides the cooled temperature into the sensing layer 433 through the conductor 435, so that the effect of cooling is achieved.

The invention solves the problems that the existing ceiling lamp is easy to generate heat in the operation process, and equipment is easy to cause fire if being arranged on flammable materials, so that unnecessary dangers are easy to cause.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides a ceiling lamp, its structure includes light dust cover (1), anti-penetration layer (2), adsorbs pastes layer (3), cooling control operating means (4), its characterized in that:

the outer surface of the top of the illuminating lamp dust cover (1) is attached to the outer surface of the bottom of the adsorption and adhesion layer (3), the anti-penetration layer (2) is nested with the adsorption and adhesion layer (3), the cooling control operation device (4) is embedded and installed inside the adsorption and adhesion layer (3) and is positioned on the same axis, and the cooling control operation device (4) is installed above the illuminating lamp dust cover (1);

the cooling control operation device (4) comprises a temperature control lifting control device (41), a protective shell (42), a cooling control device (43), electric box equipment (44) to be triggered, a pulling clamping control device (45), extruding and pushing equipment (46), a magnetic field pushing device (47), a gear transmission set (48) and a sliding triggering device (49);

the temperature control lifting control device (41) is embedded in the protective shell (42), the cooling control device (43) is installed in the protective shell (42), the electric box equipment (44) to be triggered is connected with the cooling control device (43), the pulling clamping control device (45) is installed on the outer surface of the extruding pushing equipment (46), the magnetic field pushing device (47) is connected with the gear transmission set (48), the sliding triggering device (49) is arranged on the side of the gear transmission set (48), and the extruding pushing equipment (46) is connected with the magnetic field pushing device (47);

the temperature control lifting control device (41) comprises a joint contact rod (411), a insection strip (412), a transmission half gear (413), a joint moving frame (414), a joint moving rod (415), a stress sliding block (416), an auxiliary layer (417) and a mercury lifting slide rail (418), the engaging contact rod (411) is mounted on the outer surface of the engaging moving frame (414), the rack (412) is welded on the inner surface of the joint moving frame (414), the transmission half gear (413) is connected with the rack (412) in a gear way, the engagement moving bar (415) is welded to the top outer surface of the engagement moving block (414), the connecting moving block (414) is connected with a stressed sliding block (416) through a connecting moving rod (415), the stress sliding block (416) is embedded in the mercury lifting sliding rail (418), and the auxiliary layer (417) is attached to the outer surface of the stress sliding block (416);

the gear transmission set (48) comprises a transmission gear (481), a transmission worm (482), a transmission belt (483), a central rotating shaft (484), a special track rotating body (485) and a stressed sliding rod (486), wherein the transmission gear (481) is in toothed connection with the transmission worm (482), the transmission worm (482) is connected with the central rotating shaft (484) through the transmission belt (483), the central rotating shaft (484) is embedded and installed inside the special track rotating body (485), the stressed sliding rod (486) is connected with the special track rotating body (485), and the transmission gear (481) is in toothed connection with a magnetic field pushing device (47);

the extrusion pushing equipment (46) comprises a stressed extrusion body (461), a linking pushing block (462), a pushing rod (463), a telescopic support (464), a sliding rail (465), an auxiliary rotating shaft (466) and a linking stressed frame (467), wherein the telescopic support (464) is hinged with the stressed extrusion body (461), the linking pushing block (462) is welded on the outer surface of the telescopic support (464), the linking pushing block (462) is embedded in the pushing rod (463), the pushing rod (463) is connected with the sliding rail (465), the telescopic support (464) is installed in the auxiliary rotating shaft (466), the linking force receiving frame (467) is connected with the pushing rod (463), and the linking force receiving frame (467) is welded with the magnetic field pushing device (47);

the cooling control device (43) comprises a wheel sliding rail (431), a pulley (432), a sensing layer (433), an embedded conductor (434), a conductor (435) and a cooling body (436), wherein the pulley (432) is embedded in the wheel sliding rail (431), the conductor (435) is installed in the sensing layer (433), the embedded conductor (434) is embedded in the cooling body (436), the pulley (432) is welded on the outer surface of the cooling body (436), and the cooling body (436) is electrically connected with the to-be-triggered electric box device (44);

the pulling and clamping control device (45) comprises a positioning block (451), a pulling block (452), a limiting sliding groove (453), a stress bracket (454), a clamping block (455), a stress pulling block (456) and a stress pull rod (457), wherein the stress pulling block (456) is installed on the outer surface of the positioning block (451), the pulling block (452) is connected with the limiting sliding groove (453), the clamping block (455) is attached to the outer surface of the stress bracket (454), the stress bracket (454) is embedded into the stress pulling block (456), and the limiting sliding groove (453) is connected with the stress pulling block (456) through the stress pull rod (457);

the magnetic field pushing device (47) comprises an inclined sliding block (471), a pushing rotating wheel (472), a return spring (473), a moving positive terminal (474), a fixed negative terminal (475), a straight sliding rail (476), a magnetic field moving ball (477), a moving toothed strip (478) and a return spring (479), the inclined slide block (471) is arranged above the pushing rotating wheel (472), the moving positive terminal (474) is connected with the fixed negative terminal (475) through a return spring (473), the magnetic field moving ball (477) is embedded and installed inside the straight slide rail (476), the return spring (479) is connected with the magnetic field moving ball (477), the magnetic field moving ball (477) is arranged on the outer surface of the bottom of the moving rack (478), the transmission gear (481) is connected with the moving rack (478) in a toothed manner, and the engagement force frame (467) is welded on the outer surface of the top of the inclined sliding block (471);

the sliding trigger device (49) comprises a stressed moving rod (491), an extrusion spring (492), a telescopic rod (493), a sliding groove (494), a wheel (495), a stressed pushing rotating shaft (496), a movable auxiliary sliding rod (497) and a trigger body (498), wherein the stressed pushing rotating shaft (496) is embedded and installed inside the stressed moving rod (491), the extrusion spring (492) is installed on the outer surface of the stressed pushing rotating shaft (496), the stressed pushing rotating shaft (496) is embedded and installed inside the telescopic rod (493), the stressed pushing rotating shaft (496) is connected with the sliding groove (494), the stressed pushing rotating shaft (496) is welded on the outer surface of the bottom of the movable auxiliary sliding rod (497), and the trigger body (498) is connected with the movable auxiliary sliding rod (497);

the electric box device to be triggered (44) comprises a transmission belt (441), a positive electrode end (442), a negative electrode end (443), a lead wire (444), a pulling rotating wheel (445), a pulling rope (446), a rotating long body (447), a transmission rotating shaft (448), a conductor (449) and a connecting body (4410), wherein the transmission belt (441) is connected with the transmission rotating shaft (448), the positive electrode end (442) and the negative electrode end (443) are installed on the same plane, the lead wire (444) is connected with the negative electrode end (443), the pulling rope (446) is installed on the outer surface of the pulling rotating wheel (445), the pulling rotating wheel (445) is embedded and installed inside the rotating long body (448), the pulling rotating wheel (445) is connected with the transmission rotating shaft (448) through the rotating long body (447), the connecting body (4410) is installed below the positive electrode end (442), and the conductor (449) is arranged below the rotating long body (447), the cooling body (436) is electrically connected to the lead (444).

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