CN114195406A - Radiation protection type toughened glass drying equipment used after cooling - Google Patents

Abstract

The invention relates to a drying technology, which is used for solving the problems of residual stains on the surface of the dried toughened glass, more heat loss in the drying process and easy slipping, falling and damage in the transmission process caused by incomplete surface moisture wiping in the drying operation process of the toughened glass, in particular to a drying device for the toughened glass after being toughened and cooled; according to the invention, the cleaning roller and the dirt scraping plate are used for sequentially cleaning residual moisture on the toughened glass, the cleaned sewage can rapidly slide from the upper part of the toughened glass under the action of the dirt discharging fan, the internal heat is prevented from dissipating through the door curtains and the sliding plates respectively arranged on the two sides of the drying box, so that the dissipation of the heat for drying the toughened glass is less, the air in the cavity in the driving roller is absorbed through the reciprocating motion of the telescopic hose, the toughened glass can be adsorbed at the butt joint position of the rubber tube and the toughened glass due to negative pressure, and the toughened glass is prevented from slipping.

Description

Radiation protection type toughened glass drying equipment used after cooling

Technical Field

The invention relates to a drying technology, in particular to a drying device for radiation-proof toughened glass after tempering and cooling.

Background

Drying refers to a process of removing a solvent and retaining solid content in a certain mode, generally refers to a process of introducing hot air to evaporate and take away water in materials, and adopts three heat propagation modes of heat conduction, heat convection and heat radiation.

In the prior art, moisture on the surface of toughened glass after toughening treatment is mostly removed by manually wiping, the manual wiping wastes time and labor, when a machine is used for wiping, a wiping wheel becomes wet in the process of long-time work, so that more moisture still exists on the surface of the toughened glass after wiping, the wiping wheel is more easily contacted with external dust and impurities after wetting to become dirty, so that the surface of the toughened glass after wiping remains dirty water stains, and when the scraper is directly used for wiping off the moisture on the surface of the toughened glass, the mutual extrusion friction between the scraper and the impurities on the surface of the toughened glass easily damages the surface of the toughened glass; when the moisture on the surface of the toughened glass is dried, a hot air drying mode is mostly adopted, the hot air blows the toughened glass, partial heat dries the residual moisture on the surface of the toughened glass, the rest heat is dissipated in the external environment, the toughened glass is conveyed to a hot air position to be directly dried, and when the toughened glass is in a low-temperature environment, the toughened glass is damaged easily due to sudden heating; the in-process that toughened glass carried out the transmission on transmission equipment, for preventing that toughened glass from taking place the condition of skidding in transmission process, be connected with a plurality of evenly distributed's rubber pad on the driving roller lateral wall more, frictional force between increase toughened glass and the driving roller, the rubber pad is easy in long-time use in the surface because of the wearing and tearing that greasy dirt and friction caused make the rubber pad reduce toughened glass's limiting action, toughened glass easily drops the condition that takes place to crash because of skidding.

In view of the above technical problem, the present application proposes a solution.

Disclosure of Invention

The invention aims to clean the residual moisture on the toughened glass in sequence through the cleaning roller and the dirt scraping plate, and the cleaned sewage can quickly slide off from the upper part of the toughened glass under the action of the dirt discharging fan, the door curtain and the sliding plate which are respectively arranged at the two sides of the drying box are used for preventing the dissipation of the internal heat, so that the dissipation of the heat for drying the toughened glass is less, the reciprocating motion of the flexible hose is used for absorbing air in the cavity inside the driving roller, so that the toughened glass can be absorbed at the joint position of the rubber tube and the toughened glass due to negative pressure, the toughened glass is prevented from slipping, the problems that stains are left on the surface of the tempered glass after drying, heat loss is more in the drying process and slipping, falling and falling are easy to occur in the transmission process due to incomplete wiping of surface moisture in the tempered glass drying operation process are solved, and the radiation-proof drying equipment for tempering and cooling the tempered glass is provided.

The purpose of the invention can be realized by the following technical scheme:

the drying equipment for the radiation-proof toughened and cooled toughened glass comprises a transmission frame and transmission rollers, wherein the inner side wall of the transmission frame is connected with a plurality of transmission rollers which are uniformly distributed, and a cleaning mechanism is arranged on one side of the inner side wall of the transmission frame;

the cleaning mechanism comprises a cleaning roller, adjusting blocks are arranged at two ends of the cleaning roller close to the upper part of the transmission frame, the other side of the inner side wall of the transmission frame is connected with a dirt scraping plate, transmission grooves are arranged at two sides of the outer side wall of the cleaning roller, the position of the outer side wall of the cleaning roller close to the transmission grooves is connected with a water scraping plate through a connecting frame, two sides of the upper surface of the water scraping plate are connected with transmission boxes, the upper surface of the water scraping plate is connected with a first transmission rotating wheel through transmission of a transmission belt corresponding to the position of the transmission grooves, the upper surface of the water scraping plate is connected with a second transmission rotating wheel corresponding to the position of the first transmission rotating wheel, a sewage discharge fan is connected at the middle position of the upper surface of the water scraping plate, a connecting gear is rotatably connected at the middle position of the upper surface of the sewage discharge fan, and a third transmission rotating wheel is rotatably connected at one side of the upper surface of the sewage discharge fan corresponding to the position of the connecting gear through a rotating shaft, a fourth transmission rotating wheel is rotatably connected to the position, close to the sewage discharge fan, of the upper surface of the water scraping plate through a rotating shaft;

cleaning roller one end is connected with the cleaning roller runner, the transmission frame lateral wall corresponds last cleaning roller runner position department rotates and is connected with down the cleaning roller gear, the transmission frame lateral wall corresponds driving roller position department rotates and is connected with the driving roller runner, the transmission frame lateral wall corresponds lower cleaning roller gear with driving roller runner intermediate position department is connected with electric putter, the electric putter lower extreme is connected with the regulation runner.

As a preferred embodiment of the invention, a drying mechanism is arranged on the inner side wall of the conveying frame at a position close to the dirt scraping plate;

the drying mechanism comprises a drying box, feed inlets are arranged on two sides of the outer side wall of the drying box, a heating box body is connected to the lower surface of the transmission frame corresponding to the position of the drying box, the outer side wall of the heating box body is rotatably connected with a heating box rotating wheel corresponding to the position of the transmission roller rotating wheel, a door curtain is connected at one side of the outer side wall of the drying box corresponding to the position of the feed port, a slide rail is connected at the other side of the outer side wall of the drying box corresponding to the position of the feed port, the inner side wall of the slide rail is connected with a slide plate in a sliding way, one end of the slide plate is integrally formed with a guide plate, two sides of the outer side wall of the slide rail are connected with supporting frames, the outer side wall of the guide plate is connected with a limiting rod corresponding to the position of the support frame, the outer side wall of the limiting rod is sleeved with a telescopic spring, heating rotors are rotatably connected to two sides in the heating box body, and heating wires are connected to the middle position in the heating box body;

the utility model discloses a fan heating device, including heating box, fan frame, fan runner, heating box lower surface intermediate position department has seted up the hot-blast hole, the heating box upper surface corresponds hot-blast hole position department is connected with connects flexible pipe, the heating box lower surface corresponds hot-blast hole position department is connected with fan frame, fan frame upper surface intermediate position department rotates through the pivot and is connected with heating fan, fan frame lower surface corresponds heating fan position department rotates and is connected with the fan runner, the heating box lateral wall corresponds heating box runner position department is connected with the heating gear, the heating box lower surface corresponds heating gear position department rotates and is connected with fifth drive gear, fifth drive gear connects and is connected with fifth transmission runner with the pivot lateral wall.

As a preferred embodiment of the invention, an anti-skid mechanism is arranged on the inner side wall of the transmission frame at a position corresponding to the transmission roller;

the antiskid mechanism comprises a supporting plate, one side of the outer side wall of the supporting plate is rotatably connected with a reciprocating screw rod rotating wheel corresponding to the position of the driving roller rotating wheel, the other side of the outer side wall of the supporting plate is connected with a reciprocating screw corresponding to the position of the reciprocating screw rotating wheel, the outer side wall of the reciprocating screw is connected with a reciprocating plate in a sliding way, one side of the outer side wall of the reciprocating plate is connected with a flexible hose, a limiting plate is connected to the other side of the outer side wall of the supporting plate close to the upper part of the reciprocating screw, an air suction pipe is connected to one side of the outer side wall of the reciprocating plate far away from the telescopic hose, the outer side wall of the transmission roller is connected with a connecting ring, the inner side wall of the transmission frame is connected with an annular frame at a position corresponding to the connecting ring, the upper surface of the connecting ring is connected with a plurality of uniformly distributed rubber tubes, a cavity is formed in the middle position of the two ends of the driving roller, and an exhaust tube is connected to the position, corresponding to the cavity, of the outer side wall of the transmission frame.

As a preferred embodiment of the invention, the outer side wall of the transmission belt is provided with a plurality of tooth grooves which are uniformly distributed, the shape and the size of each tooth groove are the same as those of the convex teeth on the outer side of the lower cleaning roller gear, the position, corresponding to the adjusting block, of the inner side wall of the transmission frame is connected with an adjusting frame, and the upper surface of the adjusting frame is rotatably connected with an adjusting screw rod.

As a preferred embodiment of the present invention, a roller is rotatably connected to one side of the guide plate away from the slide plate, and a connecting seat is detachably connected to a position of the lower surface of the heating box body corresponding to the fan frame through a buckle.

As a preferred embodiment of the present invention, two ends of the flexible hose are both connected with one-way valves, holes are respectively formed in the outer side wall of the reciprocating plate at positions corresponding to the reciprocating screw and the limiting plate, and a sliding member is connected to the inner side of the hole at the position corresponding to the reciprocating screw.

As a preferred embodiment of the invention, the use method of the drying equipment for the radiation-proof toughened glass after being tempered and cooled comprises the following steps:

the method comprises the following steps: when a worker dries the toughened glass through transmission equipment consisting of the transmission frame and the transmission rollers, the worker can adjust the distance between the two cleaning rollers on the frame by adjusting the position of the adjusting block in the adjusting frame through the adjusting screw according to the thickness of the toughened glass, and adjust the distance between the upper and lower dirt scraping plates which are rotatably connected to the inner side wall of the transmission frame;

step two: during the process of conveying toughened glass under the action of the transmission roller, the reciprocating lead screw rotating wheels connected to the outer side wall of the support plate are in transmission connection with the transmission roller rotating wheels through the transmission belt, and the three reciprocating lead screw rotating wheels connected to the outer side wall of the support plate are in transmission connection with each other through the transmission belt, during the process that the reciprocating lead screw rotating wheels drive the reciprocating lead screws to rotate, the reciprocating plates slide on the outer side walls of the reciprocating lead screws through the sliding parts on the inner sides to reciprocate, the flexible hose is extruded, contracted and stretched during the reciprocating motion, the flexible hose is limited by the one-way valves connected at two ends during the stretching process, so that the flexible hose can only absorb air inside the transmission roller through the exhaust pipe connected with the cavity, during the contraction process of the flexible hose, only the air inside the flexible hose can be discharged to the external environment, and during the rotation process of the transmission roller, the connecting ring connected to the outer side wall of the transmission roller is driven to rotate, the rubber tube connected to the outer side wall of the connecting ring penetrates through the annular frame in the rotating process, air in the cavity needs to be supplemented from the outside after being sucked under the action of the telescopic hose, one end of the rubber tube located in the annular frame is blocked by the inner wall of the annular frame, air is difficult to be sucked quickly, external air can be sucked only from the rubber tube located right above the connecting ring, the lower surface of the toughened glass is in contact with the rubber tube in the transporting process, the rubber tube is blocked, and negative pressure generated in the cavity has an adsorption acting force on the toughened glass;

step three: when the toughened glass is transmitted to the position of the cleaning roller under the action of the transmission roller, the toughened glass is clamped by an upper cleaning roller and a lower cleaning roller, the transmission roller rotating wheel connected with the transmission roller is connected with the upper cleaning roller rotating wheel and the adjusting rotating wheel through a transmission belt for transmission, the outer side wall of the transmission belt is in close contact with the lower cleaning roller gear, the lower cleaning roller gear is driven to rotate through mutual embedding of a tooth socket on the outer side wall and the lower cleaning roller gear, the upper cleaning roller rotating wheel connected with the upper cleaning roller and the lower cleaning roller gear connected with the lower cleaning roller rotate to the position of the toughened glass, water drops remained on the upper surface and the lower surface of the toughened glass transmitted to the position are cleaned, and the cleaned toughened glass is transmitted to the position of the dirt scraping plate for scraping off the water remained on the upper surface and the lower surface again;

step four: the positions of the adjusting frame corresponding to the upper cleaning roller and the lower cleaning roller are both connected with a water scraping plate through a connecting frame, so that the water scraping plate can extrude and discharge water adsorbed in the cleaning process of the two cleaning rollers, a first transmission rotating wheel connected with the upper surface of the upper water scraping plate is in transmission connection with the cleaning rollers through a transmission belt, a second transmission rotating wheel and the first transmission rotating wheel are perpendicular to each other, are mutually embedded and drive to rotate, the second transmission rotating wheel is in transmission connection with a fourth transmission rotating wheel through a transmission belt, the fourth transmission rotating wheel is in transmission connection with a third transmission rotating wheel through a transmission belt, the third transmission rotating wheel and a connecting gear are perpendicular to each other, are mutually embedded and drive to rotate, so that the cleaning rollers drive an inclined pollution discharge fan to rotate, and sewage extruded by the water scraping plate is blown to two sides by wind power generated in the quick rotation process of the pollution discharge fan, so that the sewage quickly falls down to the interior of sewage collection equipment below the surface of toughened glass;

step five: after the upper surface and the lower surface of the heating box are scraped by the dirt scraping plate, toughened glass is transmitted to the position of the drying box under the action of the transmission roller, one end of the toughened glass is contacted with the inclined guide plate and extrudes the guide plate to enable the guide plate to slide towards two sides under the support of the slide rail, an expansion spring sleeved on the outer side wall of the limiting rod is extruded and contracted in the sliding process, a slide plate integrally formed with the guide plate slides towards two sides and then enters the inside of the drying box from the position of a feed inlet, the rotating wheel of the heating box is in transmission connection with the rotating wheel of the transmission roller through a transmission belt, a heating rotor coaxial with the rotating wheel of the heating box rotates in the heating box, heat-conducting liquid in the heating box is stirred to form vortex between the heating rotor and a stator on the inner wall of the heating box, the temperature of the heat-conducting liquid is gradually increased, and a heating gear connected to the outer side wall of the rotating wheel of the heating box is mutually vertical to and mutually embedded with a fifth transmission gear to drive to rotate, and a fifth transmission rotating wheel coaxial with the fifth transmission gear is in transmission connection with the fan rotating wheel through a transmission belt, so that the heating fan connected to the inner side of the fan frame is rapidly rotated, and heat on the surface of the heating wire at the inner side of the hot air hole is generated along with the flow of air flow, and is transmitted to the inside of the drying box from the inside of the connecting telescopic pipe to dry the toughened glass.

Compared with the prior art, the invention has the beneficial effects that:

1. during the process of cleaning the toughened glass, the residual moisture on the toughened glass is sequentially cleaned through the cleaning roller and the dirt scraping plate respectively, the residual moisture on the surface of the toughened glass is only a small amount of residual water stain after the cleaning roller is cleaned, the toughened glass cannot be damaged due to mutual extrusion friction between impurities and the dirt scraping plate, and the absorbed moisture in the cleaning process of the cleaning roller can be scraped out under the action of the water scraping plate and quickly slides from the upper part of the toughened glass under the action of a sewage discharge fan, so that sewage is prevented from accumulating on the surface of the toughened glass to wet the cleaning roller on the contact surface of the toughened glass, and the cleaning effect of the cleaning roller on the toughened glass is influenced;

2. during the process of drying the toughened glass at the position of the drying box, the heat generated by hot air is positioned in the drying box, one side of the drying box prevents the dissipation of the internal heat through a door curtain, the other side of the drying box prevents the dissipation of the heat through two sliding plates, so that the dissipation of the heat generated by drying the toughened glass is less, the width of the feed inlet is greater than the thickness of the toughened glass, after the sliding plates are opened, the heat in the drying box can leak out from a gap between the inner wall of the feed inlet and the toughened glass, the leaked heat can preheat the toughened glass which is about to enter the drying box, the damage of sudden heating of the toughened glass is prevented, and the heat is generated by the driving rotation of a driving roller in the process of generating the hot air, so that redundant power resources are not consumed;

3. toughened glass carries out the in-process of transmission on transmission equipment, and accessible expansion hose reciprocating motion carries out the absorption of the inside cavity of driving roller intracavity air, makes rubber tube and toughened glass butt joint position department can adsorb toughened glass because of the negative pressure, prevents that toughened glass from taking place the condition of skidding, can not cause the wearing and tearing of rubber tube because of the friction between toughened glass and the rubber tube, and life obtains the extension.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a main body structure view of the present invention;

FIG. 2 is a block diagram of the cleaning mechanism of the present invention;

FIG. 3 is a view showing the structure of a wiper blade according to the present invention;

FIG. 4 is a block diagram of the adjustment wheel of the present invention;

FIG. 5 is a view of the drying mechanism of the present invention;

FIG. 6 is a view of the construction of the drying box of the present invention;

FIG. 7 is an enlarged view of portion A of FIG. 6 according to the present invention;

FIG. 8 is a view showing the internal structure of the heating chamber of the present invention;

FIG. 9 is a view showing the construction of the anti-skid mechanism of the present invention;

FIG. 10 is a view of the ring frame structure of the present invention;

FIG. 11 is a view of the reciprocating lead screw of the present invention;

fig. 12 is an internal structural view of the ring frame of the present invention.

In the figure: 1. a transport frame; 2. a cleaning mechanism; 21. a cleaning roller; 22. an adjusting block; 23. a dirt scraping plate; 24. a wiper blade; 25. a transmission case; 26. an electric push rod; 27. a transmission groove; 28. a connecting frame; 29. a first drive pulley; 210. a second drive pulley; 211. a sewage discharge fan; 212. a connecting gear; 213. a third drive pulley; 214. a fourth drive pulley; 215. an upper cleaning roller wheel; 216. a lower cleaning roller gear; 217. adjusting the rotating wheel; 218. a drive roller runner; 219. a transmission belt; 3. a drying mechanism; 31. a drying box; 32. a heating box rotating wheel; 33. heating the box body; 34. a feed inlet; 35. a slide plate; 36. heating the gear; 37. a slide rail; 38. connecting the telescopic pipe; 39. a support frame; 310. a limiting rod; 311. a heating fan; 312. a connecting seat; 313. a fan frame; 314. a fan wheel; 315. hot air holes; 316. a fifth transmission runner; 317. a fifth transmission gear; 318. a guide plate; 319. a roller; 320. a tension spring; 321. a door curtain; 322. a heat generating rotor; 323. heating wires; 4. an anti-slip mechanism; 41. a support plate; 42. a flexible hose; 43. an air intake duct; 44. a reciprocating plate; 45. an annular frame; 46. an air exhaust pipe; 47. a reciprocating screw runner; 48. a reciprocating screw; 49. a limiting plate; 410. a cavity; 411. a connecting ring; 412. a rubber tube; 5. and (5) driving rollers.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

referring to fig. 1-4, the drying equipment for the radiation-proof toughened and cooled toughened steel glass comprises a transmission frame 1 and transmission rollers 5, wherein the inner side wall of the transmission frame 1 is connected with a plurality of transmission rollers 5 which are uniformly distributed;

one side of the inner side wall of the transmission frame 1 is provided with a cleaning mechanism 2, the cleaning mechanism 2 comprises a cleaning roller 21, two ends of the cleaning roller 21 are provided with adjusting blocks 22 near the upper part of the transmission frame 1, the position of the inner side wall of the transmission frame 1 corresponding to the adjusting blocks 22 is connected with an adjusting frame, the upper surface of the adjusting frame is rotatably connected with an adjusting screw, the upper cleaning roller 21 is connected with the adjusting blocks 22, the lower cleaning roller 21 is connected with the adjusting frame, the other side of the inner side wall of the transmission frame 1 is connected with two dirt scraping plates 23, the two dirt scraping plates 23 are rotatably connected with the inner side of the transmission frame 1 through rotating shafts, transmission grooves 27 are arranged on two sides of the outer side wall of the cleaning roller 21, the position of the outer side wall of the cleaning roller 21 near the transmission grooves 27 is connected with a water scraping plate 24 through a connecting frame 28, two sides of the upper surface of the water scraping plate 24 are connected with transmission boxes 25, the position of the upper surface of the water scraping plate 24 corresponding to the transmission grooves 27 is connected with a first transmission runner 29 through a transmission belt 219, the upper surface of the water scraping plate 24 is connected with a second transmission rotating wheel 210 corresponding to the position of the first transmission rotating wheel 29, the first transmission rotating wheel 29 and the second transmission rotating wheel 210 are perpendicular to each other and are mutually embedded and driven to rotate, the middle position of the upper surface of the water scraping plate 24 is connected with a sewage discharge fan 211, the middle position of the upper surface of the sewage discharge fan 211 is connected with a connecting gear 212 in a rotating way, one side of the upper surface of the sewage discharge fan 211 is connected with a third transmission rotating wheel 213 through a rotating shaft in a rotating way corresponding to the position of the connecting gear 212, the position of the upper surface of the water scraping plate 24, which is close to the position of the sewage discharge fan 211, is connected with a fourth transmission rotating wheel 214 through a rotating shaft in a rotating way, and the second transmission rotating wheel 210 is in transmission connection with the fourth transmission rotating wheel 214 through a transmission belt 219;

one end of the cleaning roller 21 is connected with an upper cleaning roller rotating wheel 215, the outer side wall of the transmission frame 1 is rotatably connected with a lower cleaning roller gear 216 at a position corresponding to the upper cleaning roller rotating wheel 215, the outer side wall of the transmission belt 219 is provided with a plurality of uniformly distributed tooth grooves, the shapes and the sizes of the tooth grooves are the same as those of convex teeth at the outer side of the lower cleaning roller gear 216, the outer side wall of the transmission frame 1 is rotatably connected with a transmission roller rotating wheel 218 at a position corresponding to the transmission roller 5, the middle position of the outer side wall of the transmission frame 1, corresponding to the lower cleaning roller gear 216 and the transmission roller rotating wheel 218, is connected with an electric push rod 26, the lower end of the electric push rod 26 is connected with an adjusting rotating wheel 217, the transmission belt 219 is sleeved on the outer sides of the upper cleaning roller rotating wheel 215, the transmission roller rotating wheel 218 and the adjusting rotating wheel 217, and is driven to rotate by the mutual embedding between the tooth grooves at the outer side of the tightened transmission belt 219 and the lower cleaning roller gear 216, the upper cleaning roller 21 and the lower cleaning roller 21 are rotated reversely, and after the position of the upper cleaning roller 21 is adjusted by the adjusting block 22, the position of the adjusting runner 217 can be adjusted by the electric push rod 26, so that the transmission belt 219 is continuously kept in a tightened state for transmission;

in the prior art, moisture on the surface of toughened glass after toughening treatment is mostly removed by manually wiping, the manual wiping wastes time and labor, when a machine is used for wiping, a wiping wheel becomes wet in the process of long-time work, so that more moisture still exists on the surface of the toughened glass after wiping, the wiping wheel is more easily contacted with external dust and impurities after wetting to become dirty, so that the surface of the toughened glass after wiping remains dirty water stains, and when the scraper is directly used for wiping off the moisture on the surface of the toughened glass, the mutual extrusion friction between the scraper and the impurities on the surface of the toughened glass easily damages the surface of the toughened glass;

when the toughened glass is conveyed to the position of the cleaning roller 21 under the action of the transmission roller 5, the toughened glass is clamped by the upper and the lower cleaning rollers 21, the transmission roller rotating wheel 218 connected with the transmission roller 5 is connected with the upper cleaning roller rotating wheel 215 and the adjusting rotating wheel 217 through the transmission belt 219 for transmission, the outer side wall of the transmission belt 219 is in close contact with the lower cleaning roller gear 216, the lower cleaning roller gear 216 is driven to rotate by mutual embedding of a tooth groove on the outer side wall and the lower cleaning roller gear 216, the upper cleaning roller rotating wheel 215 connected with the upper cleaning roller 21 and the lower cleaning roller gear 216 connected with the lower cleaning roller 21 are both driven to rotate to the position of the toughened glass, water beads conveyed to the position of the upper surface and the lower surface of the toughened glass are cleaned, dust impurities attached to the toughened glass are easily removed under the action of the cleaning roller 21 after being wetted under the action of the water beads, the cleaned toughened glass is conveyed to the position of the scraping plate 23 for scraping off the residual water on the upper surface and the lower surface again, the positions of the adjusting frame corresponding to the upper and lower cleaning rollers 21 are connected with a water scraping plate 24 through a connecting frame 28, so that the water scraping plate 24 can extrude and discharge water absorbed in the cleaning process of the two cleaning rollers 21, a first transmission rotating wheel 29 connected with the upper surface of the water scraping plate 24 positioned above is in transmission connection with the cleaning rollers 21 through a transmission belt 219, a second transmission rotating wheel 210 is perpendicular to and mutually embedded with the first transmission rotating wheel 29 and drives the first transmission rotating wheel to rotate, the second transmission rotating wheel 210 is in transmission connection with a fourth transmission rotating wheel 214 through the transmission belt 219, the fourth transmission rotating wheel 214 is in transmission connection with a third transmission rotating wheel 213 through the transmission belt 219, the third transmission rotating wheel 213 is perpendicular to and mutually embedded with a connecting gear 212 and drives the third transmission rotating wheel to rotate, so that the cleaning rollers 21 drive the inclined pollution discharge fan 211 to rotate, and sewage extruded by the water scraping plate 24 is blown to both sides by wind power generated in the rapid rotation process of the pollution discharge fan 211, so that the sewage can quickly fall into the sewage collecting device below from the surface of the toughened glass, the sewage scraped by the lower water scraping plate 24 can directly fall into the sewage collecting device below, during the process of cleaning the toughened glass, the residual moisture on the toughened glass is sequentially cleaned through the cleaning roller 21 and the dirt scraping plate 23 respectively, the residual water on the surface of the toughened glass after being cleaned by the cleaning roller 21 is only a small amount of residual water stains, the toughened glass is not damaged due to mutual extrusion friction between impurities and the dirt scraping plate 23, and the moisture absorbed during the cleaning of the cleaning roller 21 can be scraped off by the wiper blade 24, and the sewage quickly slides from the upper part of the toughened glass under the action of the sewage discharge fan 211, so that the sewage is prevented from accumulating on the surface of the toughened glass to wet the cleaning roller 21 on the contact surface of the toughened glass, and the cleaning effect of the cleaning roller 21 on the toughened glass is influenced.

Example 2:

referring to fig. 5-8, a drying mechanism 3 is disposed on the inner side wall of the transmission frame 1 near the dirt scraping plate 23, the drying mechanism 3 includes a drying box 31, feed inlets 34 are disposed on both sides of the outer side wall of the drying box 31, a heating box 33 is connected to the lower surface of the transmission frame 1 at a position corresponding to the drying box 31, a heating box rotating wheel 32 is rotatably connected to the outer side wall of the heating box 33 at a position corresponding to the driving roller rotating wheel 218, a door curtain 321 is connected to one side of the outer side wall of the drying box 31 at a position corresponding to the feed inlet 34, a slide rail 37 is connected to the other side of the outer side wall of the drying box 31 at a position corresponding to the feed inlet 34, a slide plate 35 is slidably connected to the inner side wall of the slide rail 37, a guide plate 318 is integrally formed at one end of the slide plate 35, a support frame 39 is connected to both sides of the outer side wall of the slide rail 37, a stop lever 310 is connected to the outer side wall of the support frame 39, a telescopic spring 320 is sleeved on the stop lever 310, when the expansion spring 320 is in a normal state, one ends of the two sliding plates 35 are in contact with each other to seal the feed inlet 34 on one side of the drying box 31, the heating rotors 322 are rotatably connected to two sides inside the heating box 33, a heating wire 323 is connected to the middle position inside the heating box 33, when the heating rotors 322 rotate inside the heating box 33, heat-conducting liquid inside the heating box 33 is stirred, so that eddy current is formed between the heating rotors 322 and the heating stator on the inner wall of the heating box 33, the flowing water continuously rubs and collides with the blades of the heating rotors 322, the blades of the heating stator, the inner wall of the barrel and water flow particles, heat is generated to gradually raise the temperature of the heat-conducting liquid, the heat of the internal heat-conducting liquid can be transmitted to the surface of the heating wire 323, the air flow blown by the heating fan 311 is formed into hot air after passing through the air flow, and a hot air hole 315 is formed at the middle position on the lower surface of the heating box 33, a connecting telescopic pipe 38 is connected to the position, corresponding to the hot air hole 315, of the upper surface of the heating box body 33, a fan frame 313 is connected to the position, corresponding to the hot air hole 315, of the lower surface of the heating box body 33, a heating fan 311 is rotatably connected to the middle position of the upper surface of the fan frame 313 through a rotating shaft, a fan rotating wheel 314 is rotatably connected to the position, corresponding to the heating fan 311, of the lower surface of the fan frame 313, a heating gear 36 is connected to the position, corresponding to the heating box rotating wheel 32, of the outer side wall of the heating box body 33, a fifth transmission gear 317 is rotatably connected to the position, corresponding to the heating gear 36, of the lower surface of the heating box body 33, a fifth transmission rotating wheel 316 is connected to the outer side of the rotating shaft for connection of the fifth transmission gear 317, a roller 319 is rotatably connected to one side, away from the sliding plates 35, the roller 319 enables friction between the toughened glass clamped between the two sliding plates 35 and the sliding plates 35 to be reduced in the transmission process, and a connecting seat 312 is detachably connected to the position, corresponding to the fan frame 313, on the lower surface of the heating box body 33, through a buckle;

in the prior art, hot air is mostly adopted for drying when moisture on the surface of toughened glass is dried, the hot air blows on the toughened glass, partial heat is used for drying residual moisture on the surface of the toughened glass, the rest heat is dissipated in the external environment, the toughened glass is conveyed to a hot air position to be directly dried, and when the toughened glass is in an environment with lower temperature, the toughened glass is suddenly heated and easily damaged;

after the moisture on the upper and lower surfaces of the heating box body is scraped by the scraping plate 23, the toughened glass is transmitted to the position of the drying box 31 under the action of the driving roller 5, one end of the toughened glass is contacted with the inclined guide plate 318, the guide plate 318 is extruded to enable the guide plate 318 to slide towards two sides under the support of the sliding rail 37, the telescopic spring 320 sleeved on the outer side wall of the limiting rod 310 is extruded and contracted in the sliding process, the sliding plate 35 integrally formed with the guide plate 318 slides towards two sides and opens towards the two sides, and then enters the inside of the drying box body 31 from the position of the feed inlet 34, the sliding plate 35 keeps a state of being tightly attached to two sides of the toughened glass under the reset acting force of the telescopic spring 320 after contraction, the heating box rotating wheel 32 is in transmission connection with the driving roller rotating wheel 218 through the transmission belt 219, the heating rotor 322 coaxial with the heating box rotating wheel 32 rotates inside the heating box body 33, and heat conducting liquid in the heating box body 33 is stirred to form a vortex between the heating rotor 322 and a stator on the inner wall of the heating box body 33 The temperature of the heat-conducting liquid is gradually raised, the heating gear 36 connected to the outer side wall of the heating box rotating wheel 32 is perpendicular to and embedded with the fifth transmission gear 317 to drive the heating gear and the fifth transmission gear 317 to rotate, the fifth transmission rotating wheel 316 coaxial with the fifth transmission gear 317 is in transmission connection with the fan rotating wheel 314 through the transmission belt 219, so that the heating fan 311 connected to the inner side of the fan frame 313 rotates rapidly, the heat on the surface of the heating wire 323 inside the hot air hole 315 is generated along with the flowing of the air flow, the hot air is transmitted from the inside of the connecting telescopic pipe 38 to the inside of the drying box 31 to dry the toughened glass, during the drying process of the toughened glass at the position of the drying box 31, the heat generated by the hot air is all located inside the drying box 31, the internal heat is prevented from being dissipated through the door curtain 321 on one side of the drying box 31, and the heat is prevented from being dissipated through the two sliding plates 35 on the other side, so that the heat for drying the toughened glass is less dissipated, the width of feed inlet 34 is greater than toughened glass's thickness, makes opening of slide 35 the back, and the inside heat of stoving case 31 can leak from the gap department between feed inlet 34 inner wall and the toughened glass, and the heat that spills can carry out preheating operation to the toughened glass who is about to get into stoving case 31, prevents that toughened glass from taking place the damage suddenly hot, and the hot-blast in-process that produces rotates through the drive of driving roller 5 and produces heat, does not consume unnecessary power resource.

Example 3:

referring to fig. 9-12, an anti-slip mechanism 4 is disposed at a position of an inner sidewall of the transmission frame 1 corresponding to the transmission roller 5, the anti-slip mechanism 4 includes a supporting plate 41, a reciprocating lead screw wheel 47 is rotatably connected at a position of one side of an outer sidewall of the supporting plate 41 corresponding to the transmission roller wheel 218, a reciprocating lead screw 48 is connected at a position of the other side of the outer sidewall of the supporting plate 41 corresponding to the reciprocating lead screw wheel 47, a reciprocating plate 44 is slidably connected at an outer sidewall of the reciprocating lead screw 48, holes are respectively formed at positions of the outer sidewall of the reciprocating plate 44 corresponding to the reciprocating lead screw 48 and the limiting plate 49, a slider is connected at an inner side of the hole corresponding to the position of the reciprocating lead screw 48, a flexible hose 42 is connected at one side of the outer sidewall of the reciprocating plate 44, check valves are connected at two ends of the flexible hose 42, the limiting plate 49 is connected at another side of the outer sidewall of the supporting plate 41 adjacent to the reciprocating lead screw 48, so that the reciprocating plate 44 can perform stable horizontal sliding under the limitation of the limiting plate 49 and the reciprocating lead screw 48, the side, far away from the telescopic hose 42, of the outer side wall of the reciprocating plate 44 is connected with an air suction pipe 43, the outer side wall of the transmission roller 5 is connected with a connecting ring 411, the position, corresponding to the connecting ring 411, of the inner side wall of the transmission frame 1 is connected with an annular frame 45, the upper surface of the connecting ring 411 is connected with a plurality of uniformly distributed rubber pipes 412, the middle positions of two ends of the transmission roller 5 are provided with cavities 410, the rubber pipes 412 are communicated with the cavities 410, the position, corresponding to the cavities 410, of the outer side wall of the transmission frame 1 is connected with an air suction pipe 46, and the air suction pipe 43 is connected with the air suction pipe 46;

in the prior art, in the process of conveying toughened glass on conveying equipment, in order to prevent the toughened glass from slipping in the conveying process, a plurality of uniformly distributed rubber pads are connected to the outer side wall of the transmission roller 5, so that the friction force between the toughened glass and the transmission roller 5 is increased, the surface of each rubber pad is easy to abrade due to oil stains and friction in the long-time use process, the limiting effect of the rubber pad on the toughened glass is reduced, and the toughened glass is easy to fall down due to slipping;

in the process of conveying toughened glass under the action of the driving roller 5, the reciprocating lead screw rotating wheel 47 connected to the outer side wall of the supporting plate 41 is in transmission connection with the driving roller rotating wheel 218 through a transmission belt 219, three reciprocating lead screw rotating wheels 47 connected to the outer side wall of the supporting plate 41 are in transmission connection with each other through the transmission belt 219, in the process that the reciprocating lead screw rotating wheel 47 drives the reciprocating lead screw 48 to rotate, the reciprocating plate 44 slides on the outer side wall of the reciprocating lead screw 48 through an inner side sliding part to perform reciprocating motion, the telescopic hose 42 is extruded, contracted and stretched in the reciprocating motion process, the telescopic hose 42 is limited by connecting one-way valves at two ends in the stretching process, so that the telescopic hose 42 can only absorb air inside the driving roller 5 through the air suction pipe 46 connected with the cavity 410, and the telescopic hose 42 can only discharge the air inside the telescopic hose 42 to the external environment in the shrinking process, the transmission roller 5 drives the connecting ring 411 connected to the outer side wall of the transmission roller 5 to rotate in the rotating process, so that the rubber tube 412 connected to the outer side wall of the connecting ring 411 passes through the inside of the annular frame 45 in the rotating process, air inside the cavity 410 needs to be supplemented with air from the outside after being absorbed under the action of the telescopic hose 42, one end of the rubber tube 412 inside the annular frame 45 is blocked by the inner wall of the annular frame 45, air absorption is difficult to be performed quickly, external air absorption can only be performed from the rubber tube 412 at the position right above the connecting ring 411, the lower surface of the toughened glass is in contact with the rubber tube 412 in the transportation process, the rubber tube 412 is blocked, negative pressure generated inside the cavity 410 has an adsorption acting force on the toughened glass, and the air in the cavity 410 inside the transmission roller 5 can be absorbed through the reciprocating motion of the telescopic hose 42 in the transmission process of the toughened glass on the transmission equipment, make rubber tube 412 and toughened glass butt joint position department can adsorb toughened glass because of the negative pressure, prevent that toughened glass from taking place the condition of skidding, can not cause the wearing and tearing of rubber tube 412 because of the friction between toughened glass and the rubber tube 412, life obtains the extension.

When the cleaning device is used, when toughened glass is conveyed to the position of the cleaning roller 21 under the action of the transmission roller 5, the toughened glass is clamped by the upper cleaning roller 21 and the lower cleaning roller 21, the transmission roller rotating wheel 218 connected with the transmission roller 5 is connected and transmitted with the upper cleaning roller rotating wheel 215 and the adjusting rotating wheel 217 through the transmission belt 219, the outer side wall of the transmission belt 219 is tightly contacted with the lower cleaning roller gear 216, the lower cleaning roller gear 216 is driven to rotate through mutual embedding of a tooth groove on the outer side wall and the lower cleaning roller gear 216, the upper cleaning roller rotating wheel 215 connected with the upper cleaning roller 21 and the lower cleaning roller gear 216 connected with the lower cleaning roller 21 both rotate to the position of the toughened glass, water beads conveyed to the position on the upper surface and the lower surface of the toughened glass are cleaned, dust and impurities attached to the toughened glass are easily removed under the action of the cleaning roller 21 after being wetted under the action of the water beads, and the cleaned toughened glass is conveyed to the position of the dirt scraping plate 23 to scrape off the residual water on the upper surface and the lower surface again The positions of the adjusting frame corresponding to the upper and lower cleaning rollers 21 are connected with a water scraping plate 24 through a connecting frame 28, so that the water scraping plate 24 can extrude and discharge water absorbed in the cleaning process of the two cleaning rollers 21, a first transmission rotating wheel 29 connected with the upper surface of the water scraping plate 24 above is in transmission connection with the cleaning rollers 21 through a transmission belt 219, a second transmission rotating wheel 210 is perpendicular to and mutually embedded with the first transmission rotating wheel 29 and drives the first transmission rotating wheel to rotate, the second transmission rotating wheel 210 is in transmission connection with a fourth transmission rotating wheel 214 through the transmission belt 219, the fourth transmission rotating wheel 214 is in transmission connection with a third transmission rotating wheel 213 through the transmission belt 219, the third transmission rotating wheel 213 is perpendicular to and mutually embedded with a connecting gear 212 and drives the third transmission rotating wheel to rotate, so that the cleaning rollers 21 drive the inclined pollution discharge fan 211 to rotate, and sewage extruded by the water scraping plate 24 is blown to both sides by wind power generated in the rapid rotation process of the pollution discharge fan 211, the sewage can quickly fall into the sewage collecting equipment below from the surface of the toughened glass, and the sewage scraped by the lower water scraping plate 24 can directly fall into the sewage collecting equipment below;

after the moisture on the upper and lower surfaces of the heating box body is scraped by the scraping plate 23, the toughened glass is transmitted to the position of the drying box 31 under the action of the driving roller 5, one end of the toughened glass is contacted with the inclined guide plate 318, the guide plate 318 is extruded to enable the guide plate 318 to slide towards two sides under the support of the sliding rail 37, the telescopic spring 320 sleeved on the outer side wall of the limiting rod 310 is extruded and contracted in the sliding process, the sliding plate 35 integrally formed with the guide plate 318 slides towards two sides and opens towards the two sides, and then enters the inside of the drying box body 31 from the position of the feed inlet 34, the sliding plate 35 keeps a state of being tightly attached to two sides of the toughened glass under the reset acting force of the telescopic spring 320 after contraction, the heating box rotating wheel 32 is in transmission connection with the driving roller rotating wheel 218 through the transmission belt 219, the heating rotor 322 coaxial with the heating box rotating wheel 32 rotates inside the heating box body 33, and heat conducting liquid in the heating box body 33 is stirred to form a vortex between the heating rotor 322 and a stator on the inner wall of the heating box body 33 The temperature of the heat-conducting liquid is gradually raised, the heating gear 36 connected to the outer side wall of the heating box rotating wheel 32 and the fifth transmission gear 317 are mutually perpendicular and are mutually embedded and driven to rotate, the fifth transmission rotating wheel 316 coaxial with the fifth transmission gear 317 is in transmission connection with the fan rotating wheel 314 through a transmission belt 219, so that the heating fan 311 connected to the inner side of the fan frame 313 is rapidly rotated, and the heat on the surface of the heating wire 323 at the inner side of the hot air hole 315 is generated along with the flowing of the air flow to generate hot air which is transmitted from the inside of the connecting telescopic pipe 38 to the inside of the drying box 31 to dry the toughened glass;

in the process of conveying toughened glass under the action of the driving roller 5, the reciprocating lead screw rotating wheel 47 connected to the outer side wall of the supporting plate 41 is in transmission connection with the driving roller rotating wheel 218 through a transmission belt 219, three reciprocating lead screw rotating wheels 47 connected to the outer side wall of the supporting plate 41 are in transmission connection with each other through the transmission belt 219, in the process that the reciprocating lead screw rotating wheel 47 drives the reciprocating lead screw 48 to rotate, the reciprocating plate 44 slides on the outer side wall of the reciprocating lead screw 48 through an inner side sliding part to perform reciprocating motion, the telescopic hose 42 is extruded, contracted and stretched in the reciprocating motion process, the telescopic hose 42 is limited by connecting one-way valves at two ends in the stretching process, so that the telescopic hose 42 can only absorb air inside the driving roller 5 through the air suction pipe 46 connected with the cavity 410, and the telescopic hose 42 can only discharge the air inside the telescopic hose 42 to the external environment in the shrinking process, drive roller 5 rotates the in-process and drives the go-between 411 of connecting on the drive roller 5 lateral wall and rotate, the rubber tube 412 that makes to connect on the go-between 411 lateral wall passes from ring frame 45 inside at the rotation in-process, cavity 410 inside air need carry out the air supply from the external world after being absorbed under the effect of bellows 42, the rubber tube 412 one end that is located ring frame 45 inside receives the hindrance of ring frame 45 inner wall, be difficult to carry out the absorption of air fast, only can carry out the absorption of outside air from the rubber tube 412 that is located go on directly over the go-between 411 position department, toughened glass is in transportation lower surface and rubber tube 412 contact, block up rubber tube 412, make the inside negative pressure that produces of cavity 410 have absorbent effort to toughened glass, prevent that toughened glass from taking place the condition of skidding.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (7)

1. The drying equipment for the radiation-proof toughened and cooled toughened steel-type toughened glass comprises a transmission frame (1) and transmission rollers (5), wherein the inner side wall of the transmission frame (1) is connected with a plurality of transmission rollers (5) which are uniformly distributed, and is characterized in that one side of the inner side wall of the transmission frame (1) is provided with a cleaning mechanism (2);

the cleaning mechanism (2) comprises a cleaning roller (21), two ends of the cleaning roller (21) are close to the upper part of the transmission frame (1) and are provided with adjusting blocks (22), the other side of the inner side wall of the transmission frame (1) is connected with a dirt scraping plate (23), transmission grooves (27) are formed in two sides of the outer side wall of the cleaning roller (21), the outer side wall of the cleaning roller (21) is close to the positions of the transmission grooves (27) and is connected with a water scraping plate (24) through a connecting frame (28), two sides of the upper surface of the water scraping plate (24) are connected with a transmission box (25), the upper surface of the water scraping plate (24) corresponds to the positions of the transmission grooves (27) and is connected with a first transmission rotating wheel (29) through a transmission belt (219), the upper surface of the water scraping plate (24) corresponds to the positions of the first transmission rotating wheel (29) and is connected with a second transmission rotating wheel (210), and the middle position of the upper surface of the water scraping plate (24) is connected with a dirt discharging fan (211), a connecting gear (212) is rotatably connected to the middle position of the upper surface of the sewage discharging fan (211), a third transmission rotating wheel (213) is rotatably connected to one side of the upper surface of the sewage discharging fan (211) corresponding to the connecting gear (212) through a rotating shaft, and a fourth transmission rotating wheel (214) is rotatably connected to the position, close to the sewage discharging fan (211), of the upper surface of the water scraping plate (24);

cleaning roller (21) one end is connected with cleaning roller runner (215), transmission frame (1) lateral wall corresponds cleaning roller runner (215) position department rotates and is connected with down cleaning roller gear (216), transmission frame (1) lateral wall corresponds driving roller (5) position department rotates and is connected with driving roller runner (218), transmission frame (1) lateral wall corresponds cleaning roller gear (216) down with driving roller runner (218) intermediate position department is connected with electric putter (26), electric putter (26) lower extreme is connected with regulation runner (217).

2. The drying equipment for the tempered and cooled anti-radiation type toughened glass of claim 1 is characterized in that a drying mechanism (3) is arranged on the inner side wall of the transmission frame (1) close to the dirt scraping plate (23);

the drying mechanism (3) comprises a drying box (31), a feeding hole (34) is formed in two sides of the outer side wall of the drying box (31), the lower surface of the transmission frame (1) corresponds to the position of the drying box (31) and is connected with a heating box body (33), the outer side wall of the heating box body (33) corresponds to the position of the transmission roller rotating wheel (218) and is rotatably connected with a heating box rotating wheel (32), one side of the outer side wall of the drying box (31) corresponds to the position of the feeding hole (34) and is connected with a door curtain (321), the other side of the outer side wall of the drying box (31) corresponds to the position of the feeding hole (34) and is connected with a sliding rail (37), the inner side wall of the sliding rail (37) is slidably connected with a sliding plate (35), a guide plate (318) is integrally formed at one end of the sliding plate (35), two sides of the outer side wall of the sliding rail (37) are connected with a supporting frame (39), the outer side wall of the guide plate (318) corresponds to the position of the supporting frame (39) and is connected with a limiting rod (310), the outer side wall of the limiting rod (310) is sleeved with a telescopic spring (320), two sides of the interior of the heating box body (33) are rotatably connected with heating rotors (322), and the middle position of the interior of the heating box body (33) is connected with a heating wire (323);

a hot air hole (315) is arranged in the middle of the lower surface of the heating box body (33), a connecting telescopic pipe (38) is connected to the position of the upper surface of the heating box body (33) corresponding to the hot air hole (315), a fan frame (313) is connected to the position of the lower surface of the heating box body (33) corresponding to the hot air hole (315), the middle position of the upper surface of the fan frame (313) is rotationally connected with a heating fan (311) through a rotating shaft, a fan rotating wheel (314) is rotatably connected to the lower surface of the fan frame (313) at a position corresponding to the heating fan (311), the outer side wall of the heating box body (33) is connected with a heating gear (36) at the position corresponding to the heating box rotating wheel (32), a fifth transmission gear (317) is rotationally connected to the lower surface of the heating box body (33) at a position corresponding to the heating gear (36), the fifth transmission gear (317) is connected with a fifth transmission rotating wheel (316) through the outer side wall of the rotating shaft.

3. The drying equipment for the tempered and cooled anti-radiation type toughened glass of claim 1 is characterized in that an anti-skid mechanism (4) is arranged on the inner side wall of the transmission frame (1) at a position corresponding to the transmission roller (5);

the antiskid mechanism (4) comprises a supporting plate (41), one side of the outer side wall of the supporting plate (41) corresponds to the position of the transmission roller rotating wheel (218) and is rotatably connected with a reciprocating lead screw rotating wheel (47), the other side of the outer side wall of the supporting plate (41) corresponds to the position of the reciprocating lead screw rotating wheel (47) and is connected with a reciprocating lead screw (48), the outer side wall of the reciprocating lead screw (48) is slidably connected with a reciprocating plate (44), one side of the outer side wall of the reciprocating plate (44) is connected with a telescopic hose (42), the other side of the outer side wall of the supporting plate (41) is close to the upper part of the reciprocating lead screw (48) and is connected with a limiting plate (49), one side of the outer side wall of the reciprocating plate (44) far away from the telescopic hose (42) is connected with an air suction pipe (43), the outer side wall of the transmission roller (5) is connected with a connecting ring (411), the inner side wall of the transmission frame (1) corresponds to the connecting ring (411) and is connected with an annular frame (45), the upper surface of the connecting ring (411) is connected with a plurality of uniformly distributed rubber tubes (412), cavities (410) are formed in the middle positions of the two ends of the transmission roller (5), and the outer side wall of the transmission frame (1) is connected with an air suction tube (46) corresponding to the cavities (410).

4. The drying equipment used after the radiation protection type toughened glass is cooled according to claim 1, characterized in that a plurality of tooth grooves which are uniformly distributed are formed in the outer side wall of the transmission belt (219), the shape and the size of each tooth groove are the same as those of convex teeth on the outer side of the lower cleaning roller gear (216), an adjusting frame is connected to the position, corresponding to the adjusting block (22), of the inner side wall of the transmission frame (1), and an adjusting screw rod is rotatably connected to the upper surface of the adjusting frame.

5. The drying equipment for the tempered and cooled radiation-proof toughened glass of steel as claimed in claim 2, wherein the side of the guide plate (318) far away from the sliding plate (35) is rotatably connected with a roller (319), and the lower surface of the heating box body (33) is detachably connected with the connecting seat (312) through a buckle at a position corresponding to the fan frame (313).

6. The drying equipment is used after cooling of a radiation protection type toughened glass of claim 3, characterized in that, bellows (42) both ends all are connected with the check valve, reciprocating plate (44) lateral wall corresponds reciprocating screw (48) with limiting plate (49) position department all has seted up the hole, and corresponds the hole inboard of reciprocating screw (48) position department is connected with the slider.

7. The drying equipment for the radiation-proof toughened and cooled toughened glass of claim 1 is characterized in that the use method of the drying equipment for the radiation-proof toughened and cooled glass comprises the following steps:

the method comprises the following steps: when a worker dries toughened glass through transmission equipment consisting of the transmission frame (1) and the transmission roller (5), the worker can adjust the distance between two cleaning rollers (21) on the frame by adjusting the position of an adjusting block (22) in the adjusting frame through an adjusting screw according to the thickness of the toughened glass, and adjust the distance between an upper dirt scraping plate (23) and a lower dirt scraping plate (23) which are rotatably connected to the inner side wall of the transmission frame (1);

step two: in the process of conveying toughened glass under the action of the transmission roller (5), the reciprocating lead screw rotating wheel (47) connected to the outer side wall of the supporting plate (41) is in transmission connection with the transmission roller rotating wheel (218) through a transmission belt (219), three reciprocating lead screw rotating wheels (47) connected to the outer side wall of the supporting plate (41) are in transmission connection with each other through the transmission belt (219), in the process that the reciprocating lead screw rotating wheel (47) drives the reciprocating lead screw (48) to rotate, the reciprocating plate (44) slides on the outer side wall of the reciprocating lead screw (48) through the sliding piece on the inner side to perform reciprocating motion, the telescopic hose (42) is extruded, contracted and stretched in the reciprocating motion process, the telescopic hose (42) is stretched in the stretching process through the limitation that the two ends are connected with the one-way valve, so that the telescopic hose (42) can only suck air in the transmission roller (5) through the air suction pipe (46) connected with the cavity (410), the air inside the telescopic hose (42) can only be discharged to the external environment in the contraction process of the telescopic hose (42), the transmission roller (5) drives the connecting ring (411) connected to the outer side wall of the transmission roller (5) to rotate in the rotation process, so that the rubber pipe (412) connected to the outer side wall of the connecting ring (411) passes through the annular frame (45) in the rotation process, the air inside the cavity (410) needs to be supplemented with the air from the outside after being absorbed under the action of the telescopic hose (42), one end of the rubber pipe (412) inside the annular frame (45) is blocked by the inner wall of the annular frame (45), the air is difficult to be rapidly absorbed, the external air can only be absorbed from the rubber pipe (412) positioned right above the connecting ring (411), the lower surface of the toughened glass is in contact with the rubber pipe (412) in the transportation process, and the rubber pipe (412) is blocked, negative pressure generated in the cavity (410) has an adsorption acting force on the toughened glass;

step three: when the toughened glass is conveyed to the position of the cleaning roller (21) under the action of the driving roller (5), the toughened glass is clamped by the upper and the lower cleaning rollers (21), a driving roller rotating wheel (218) connected with the driving roller (5) is connected and driven with an upper cleaning roller rotating wheel (215) and an adjusting rotating wheel (217) through a driving belt (219), the outer side wall of the driving belt (219) is tightly contacted with a lower cleaning roller gear (216), the lower cleaning roller gear (216) is driven to rotate by the mutual embedding of the tooth grooves on the outer side wall and the lower cleaning roller gear (216), so that the upper cleaning roller rotating wheel (215) connected with the upper cleaning roller (21) and the lower cleaning roller gear (216) connected with the lower cleaning roller (21) both rotate towards the position of toughened glass, cleaning the residual water drops on the upper and lower surfaces of the toughened glass transmitted to the position, and transmitting the cleaned toughened glass to the position of the dirt scraping plate (23) to scrape the residual water on the upper and lower surfaces again;

step four: the positions of the adjusting frame corresponding to the upper cleaning roller (21) and the lower cleaning roller (21) are respectively connected with a water scraping plate (24) through a connecting frame (28), so that the water scraping plate (24) can extrude and discharge water absorbed in the cleaning process of the two cleaning rollers (21), a first transmission rotating wheel (29) connected with the upper surface of the water scraping plate (24) above is in transmission connection with the cleaning rollers (21) through a transmission belt (219), a second transmission rotating wheel (210) is perpendicular to and mutually embedded with the first transmission rotating wheel (29) and drives the first transmission rotating wheel to rotate, the second transmission rotating wheel (210) is in transmission connection with a fourth transmission rotating wheel (214) through the transmission belt (219), the fourth transmission rotating wheel (214) is in transmission connection with a third transmission rotating wheel (213) through the transmission belt (219), the third transmission rotating wheel (213) is perpendicular to and mutually embedded with a connecting gear (212) and drives the fourth transmission rotating wheel to rotate, so that the cleaning rollers (21) drive an inclined pollution discharge fan (211) to rotate, the wind power generated in the rapid rotation process of the sewage discharge fan (211) blows the sewage extruded by the water scraping plate (24) to two sides, so that the sewage rapidly falls from the surface of the toughened glass to the interior of the sewage collecting equipment below;

step five: after moisture on the upper surface and the lower surface of the heating box body is scraped by a dirt scraping plate (23), toughened glass is transmitted to the position of a drying box (31) under the action of a driving roller (5), one end of the toughened glass is in contact with an inclined guide plate (318) and extrudes the guide plate (318) to enable the guide plate (318) to slide towards two sides under the support of a sliding rail (37), an expansion spring (320) sleeved on the outer side wall of a limiting rod (310) is extruded and contracted in the sliding process, a sliding plate (35) integrally formed with the guide plate (318) slides towards two sides and then enters the inside of the drying box body (31) from the position of a feeding port (34), a heating box rotating wheel (32) is in transmission connection with the driving roller rotating wheel (218) through a driving belt (219), a heating rotor (322) coaxial with the heating box rotating wheel (32) rotates inside the heating box body (33), and heat conducting liquid inside the heating box body (33) is stirred The heating gear (36) and the fifth transmission gear (317) which are connected to the outer side wall of the heating box rotating wheel (32) are perpendicular to each other and are mutually embedded and driven to rotate, the fifth transmission rotating wheel (316) which is coaxial with the fifth transmission gear (317) is in transmission connection with the fan rotating wheel (314) through a transmission belt (219), so that the heating fan (311) connected to the inner side of the fan frame (313) is rapidly rotated, and heat on the surface of the heating wire (323) on the inner side of the hot air hole (315) generates hot air along with the flowing of air flow and is transmitted to the interior of the drying box (31) from the interior of the connecting telescopic pipe (38) to dry the toughened glass.

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