CN118221340B

CN118221340B - Tempering process and energy-saving tempering equipment

Info

Publication number: CN118221340B
Application number: CN202410641656.5A
Authority: CN
Inventors: 李稳; 靳成龙; 徐海东; 杨励潮; 韩尉
Original assignee: Futeng Hebei Energy Conservation Technology Co ltd
Current assignee: Futeng Hebei Energy Conservation Technology Co ltd
Priority date: 2024-05-23
Filing date: 2024-05-23
Publication date: 2024-07-26
Anticipated expiration: 2044-05-23
Also published as: CN118221340A

Abstract

The invention discloses tempering equipment for improving a tempering process and improving energy saving, which relates to the technical field of glass manufacturing and comprises a bottom plate, wherein a water pool is arranged at one side position of the top end of the bottom plate, a conveying frame is connected at the other side position of the top end of the bottom plate through bolts, a heating furnace is connected at one side position of the top end of the conveying frame through bolts, a convection channel is connected at one side position of the top end of the conveying frame corresponding to the heating furnace through bolts, and lifting rods are symmetrically and equidistantly rotated at the top end of the convection channel.

Description

Tempering process and energy-saving tempering equipment

Technical Field

The invention relates to the technical field of glass manufacturing, in particular to toughening equipment for improving a toughening process and improving energy conservation.

Background

Glass is an amorphous inorganic nonmetallic material, is generally prepared from a plurality of inorganic minerals serving as main raw materials and a small amount of auxiliary raw materials, and is widely used in the fields of construction, daily use, art, medical treatment, chemistry, electronics, instruments and the like;

However, when the existing glass is manufactured, the used blowing device has two defects that the power of a blower is larger and the shape of wind pressure acting on the glass is strip-shaped, and the quality of glass manufacturing is affected, so that in order to avoid the technical problems, it is necessary to provide a toughening device for improving the toughening process and improving the energy conservation so as to overcome the defects in the prior art.

Disclosure of Invention

The invention provides toughening equipment for improving a toughening process and improving energy conservation, which can effectively solve the problems that the blower device used in the background technology has two defects of larger blower power and strip shape of wind pressure acting on glass and influences the quality of glass manufacturing.

In order to achieve the above purpose, the present invention provides the following technical solutions: the tempering equipment for improving the tempering process and improving the energy saving comprises a bottom plate, wherein a water tank is arranged at one side position of the top end of the bottom plate, a conveying frame is connected with the other side position of the top end of the bottom plate through bolts, a heating furnace is connected with the position of one side of the top end of the conveying frame through bolts, a conveying deviation prevention and high-efficiency air outlet mechanism is arranged at the top end of the conveying frame, and the conveying deviation prevention and high-efficiency air outlet mechanism comprises a convection channel;

The top end of the conveying frame is connected with a convection channel corresponding to one side of the heating furnace through bolts, the top end of the convection channel is symmetrically and equidistantly rotated and connected with a lifting rod, the outer side of the lifting rod is sleeved with the lifting frame through threads, the bottom end of the lifting frame is equidistantly connected with a Laval structure air grid through bolts, and the middle position of the top end of the Laval structure air grid is equidistantly clamped with an air inlet pipe;

The top end of the convection channel is correspondingly connected with a fixing frame through bolts, air supply pipelines are clamped inside the corresponding two fixing frames, connecting pipes are clamped at positions from the bottom end of the air supply pipeline to the inner positions corresponding to the air inlet pipes, air pipes are clamped at the positions of the bottoms of the inner walls of the Laval structure air grids, nozzles are clamped at the positions of the outer sides of the air pipes corresponding to the inner positions of the Laval structure air grids at equal intervals, and baffles are fixedly sleeved at the positions of the outer sides of the air pipes corresponding to the outer sides of the convection channel;

The conveying frame is internally and symmetrically connected with a rotating shaft in a rotating way, the outer side of the rotating shaft is sleeved with a conveying grating, one end of the conveying frame is connected with a conveying motor through a bolt at a position corresponding to one side of the rotating shaft, the conveying motor is powered by an external power supply, two ends of the conveying frame are rotatably connected with ejector rods at equal intervals at a position corresponding to the bottom of a convection channel, and two ends of the ejector rods at the same side are rotatably connected with an anti-deflection plate at a position corresponding to the top of the conveying grating;

The conveying motor is utilized to drive the rotating shaft and the conveying grid to rotate, the processed glass is conveyed, the deviation of the glass is prevented by the deviation preventing plate, the subsequent processing effect is guaranteed, hot air is fed through the air supply pipeline, and the hot air enters the Laval structure air grid through the connecting pipe and the air inlet pipe to carry out secondary speed increasing and pressurization.

According to the technical scheme, the overturning and limiting mechanisms are arranged at the positions, corresponding to the two sides of the pool, of the top end of the bottom plate, and each overturning and limiting mechanism comprises a sliding rail;

The positions of the top end of the bottom plate, which correspond to the two sides of the pool, are respectively connected with a sliding rail through bolts, the interiors of the two sliding rails are respectively connected with a screw rod in a rotating manner, the positions of the top end of the bottom plate, which correspond to one side of the screw rods, are respectively connected with a driving motor through bolts, the exteriors of the two screw rods, which correspond to the interiors of the sliding rails, are respectively connected with a movable plate through threads, and the tops of the two movable plates are respectively connected with a vertical plate through bolts;

Lifting sliding frames are movably sleeved on the outer sides of the two vertical plates, connecting rods are clamped at the top positions of adjacent ends of the two lifting sliding frames, a turnover frame is rotatably connected between the two connecting rods, two bidirectional screws are symmetrically and rotatably connected in the turnover frame, the outer sides of the two bidirectional screws are connected with a width limiting plate through threads, clamping grooves are formed in the adjacent ends of the two width limiting plates, and rubber backing plates are movably connected to the top ends and the bottom ends of the inner parts of the two clamping grooves;

The opposite ends of the two rubber backing plates positioned in the same clamping groove are respectively and equidistantly clamped with a supporting spring;

The two ends of the turnover frame are respectively connected with a positioning rod in a clamping manner, and the two ends of the sliding rail are respectively connected with a touch switch through bolts;

the two width limiting plates are pushed to move by the rotating bidirectional screw, glass with different widths is clamped, meanwhile, the two rubber backing plates are pushed to move by the supporting springs, glass with different thicknesses is fixed, stability of the glass between the width limiting plates is guaranteed, the driving motor is used for driving the screw rod to rotate, the movable plate is pushed to move along the sliding rail, and the turnover frame is enabled to rotate 180 degrees by taking the positioning rod as an axis through cooperation of the vertical plate, the lifting sliding frame, the positioning rod and the positioning plate, so that orientation of the glass is changed.

According to the technical scheme, two equal joint in the opposite one end top position department of lift sliding frame has the frame, two the inside top of frame all is connected with electric telescopic handle through bolt symmetry, is located two electric telescopic handle bottom corresponds the equal joint in the inside position department of frame with one side and has the traction block, traction block one end symmetry rotates and is connected with the arm-tie, two equal joint in the two opposite one end positions department of connecting rod both sides of lift sliding frame one end corresponds the horizontal frame, is located two equal rotation in the inside position department of horizontal frame of arm-tie one end corresponds and is connected with the movable block, two equal joint in the opposite one end of movable block has the picture peg, the opposite one end of upset frame both ends correspond picture peg outside position department all have the concatenation frame through bolted connection.

According to the technical scheme, driving motor passes through external power source and supplies power, and driving motor's output shaft runs through slide rail and lead screw one end fixed connection, two-way screw both ends all run through upset frame both ends, and two-way screw both ends correspond the equal joint of upset frame outside position department and have the knob, two the anti-skidding line has evenly been seted up to the adjacent one end of rubber backing plate.

According to the technical scheme, the traction block both ends all run through the frame both ends, movable block outside and the inside sliding connection of horizontal frame, picture peg one end runs through horizontal frame one end, locating lever one end and locating plate one end rotate to be connected, electric telescopic handle and touch switch all supply power through external power source, and touch switch signal output part is connected with electric telescopic handle and driving motor's input respectively.

According to the technical scheme, the top end of the bottom plate is provided with the efficient cleaning and water circulating mechanism, and the efficient cleaning and water circulating mechanism comprises a chute;

The bottom plate top is symmetrically provided with sliding grooves, the bottom plate top is slidably connected with movable seats through the sliding grooves, the two movable seats are connected with a portal frame through bolts, the portal frame top is symmetrically slidably connected with a circulating slide plate, the middle positions of the bottom ends of the two circulating slide plates are respectively connected with a transverse plate through bolts, the middle positions of the top ends of the portal frame are respectively connected with a rotating motor through threads, the bottom ends of the output ends of the rotating motors are connected with a rotary table in a clamping mode, and the bottom ends of the rotary table are rotationally connected with convex rods;

the two circulating slide tops are all connected with a hydraulic cylinder at equal intervals through bolts, the bottom end of the hydraulic cylinder is movably connected with a piston rod, the bottom end of the piston rod is connected with a mounting frame through bolts, the inner wall of the mounting frame is connected with a cleaning box through bolts, the top end of the cleaning box is fixedly connected with a water storage box at equal intervals, the top end of the cleaning box is provided with a communicating groove corresponding to the bottom position of the water storage box, the top position of the inner wall of the communicating groove is fixedly connected with an inner frame, the inner wall of the communicating groove is fixedly connected with a fixed plate corresponding to the bottom position of the inner frame, the inner wall of the fixed plate is movably connected with a movable rod at equal intervals, the top end of the movable rod is fixedly connected with a sealing plate corresponding to the top position of the inner frame, the bottom end of the movable rod is fixedly connected with a brush frame corresponding to the inner position of the cleaning box, and reset springs are fixedly connected between the brush frame and the fixed plate at the outer position of the movable rod;

the water storage box is characterized in that one end of the water storage box is connected with a water inlet pipe in a clamping mode, the other end of the water inlet pipe is connected with a transverse pipe in a clamping mode, the other end of the transverse pipe is fixedly connected with a hose, a water pump is connected to one side position of the top end of the bottom plate through a bolt, and one end of the water pump is connected with a water suction pipe in a clamping mode;

The portal frame is pushed to move to the position right above glass, then the hydraulic cylinder is started to push the piston rod, the mounting frame and the cleaning box to descend, the brush frame is enabled to be in contact with the surface of the polished glass, meanwhile, the movable rod and the sealing plate are enabled to ascend, the sealing of the communicating groove is relieved, water in the water storage box is conveniently discharged through the communicating groove, the rotating motor is used for driving the rotary table to rotate, and the transverse plate, the circulating sliding plate and the brush frame are driven to slide back and forth through the cooperation of the protruding rod.

According to the technical scheme, the equal distance rotation in movable seat both ends is connected with the gyro wheel, the rotating electrical machines is supplied power through external power source, rectangular channel has been seted up to the diaphragm inside, protruding pole bottom embedding rectangular channel is inside, movable seat top is connected with the bolt through the screw thread symmetry, the bottom plate top corresponds the equal distance of pond both sides position department and has seted up the jack.

According to the technical scheme, the length and the width of the sealing plate are larger than those of the inner frame, the hydraulic valve is embedded and installed inside the water inlet pipe, the other end of the hose is fixedly connected with the other end of the water pump, the other end of the water suction pipe is connected with one end of the water tank, and the water pump is powered by an external power supply.

According to the technical scheme, the uniform polishing mechanism is arranged in the water tank and comprises a supporting plate;

the water tank is characterized in that one end of the water tank is provided with a groove, a filter screen plate is connected to the position of one side of the inner wall of the water tank, which corresponds to the groove, support plates are symmetrically clamped at the position of the inner wall of the water tank, which corresponds to the top of the filter screen plate, bottom frames are clamped at the top ends of the two support plates, adjusting rods are rotatably connected in the bottom frames at equal intervals, cross rods are clamped between the two opposite adjusting rods in the two bottom frames, and supporting frames are sleeved on the outer sides of the two adjusting rods in the same bottom frame through threads;

The bottom frame inner wall corresponds support frame bottom position department through bolt symmetry is connected with the balladeur train, two the equal swing joint of balladeur train is inside has the stroke slider, two the equal swing joint of stroke slider is inside has the lift slide bar, two the equal joint in lift slide bar top has concave template, and the equal joint in the outside position department of corresponding lift slide bar between concave template and the stroke slider has tensioning spring, concave template top rotates and is connected with the polishing roller, and concave template one end corresponds polishing roller one side position department through bolted connection has micro motor, two have the headstock through bolted connection between the balladeur train, the inside joint of headstock has the biax motor, the equal joint in biax motor output shaft both ends has the push rod, two the stroke slider bottom all has the push pedal through bolted connection, the equal joint in concave template bottom middle part position department has the baffle, the baffle both ends all have the travel switch through bolted connection;

The rotating cross rod drives the adjusting rod to rotate, the supporting frame is pushed to move, glass with different widths is supported conveniently, meanwhile, the tensioning spring pushes the concave plate and the lifting sliding rod to ascend, the top end of the polishing roller is tightly attached to the bottom end of the glass, the micro motor drives the polishing roller to rotate conveniently, the bottom end of the glass is polished, and meanwhile, the double-shaft motor pushes the pushing plate, the stroke sliding block and the polishing roller to polish left and right between the two supporting frames through the pushing rod.

According to the technical scheme, the mesh has evenly been seted up to the layer board inside, the rubber pad has been pasted on the support frame top, the fixed knob that has cup jointed in the cross pole outside, two the screw thread rotation direction in the inside regulation pole outside of underframe is opposite, micro motor's output shaft runs through concave template and polishing roller one end fixed connection, micro motor, biax motor and travel switch all supply power through external power source, and travel switch's signal output part is connected with biax motor's input, push rod one end runs through the push pedal, and the push rod outside passes through threaded connection with the push pedal inner wall.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. The device is provided with a conveying anti-deflection and efficient air outlet mechanism, a rotating shaft and a conveying grid are driven to rotate through a conveying motor, meanwhile, an anti-deflection plate is utilized to limit glass, deflection is prevented, subsequent processing effects are guaranteed, an ejector rod is rotated to push the anti-deflection plate to move, the distance between the two anti-deflection plates is adjusted according to the width of the glass, applicability is improved, hot air is fed through an air supply pipeline, the hot air enters the Laval structure air grid through a connecting pipe and an air inlet pipe, secondary acceleration and pressurization are carried out, the power of a fan is conveniently reduced, energy is saved, in addition, air is matched with air pipes and nozzles, compressed air is fed to be mixed with air inside the Laval structure air grid, the air temperature is reduced, then the air is blown out, a lifting rod is rotated, the lifting frame and the Laval structure air grid are driven to move, the distance between the Laval structure air grid and the glass is changed as required, and the contact area of the air and the glass is adjusted.

2. The turnover and limiting mechanism is arranged, the two width limiting plates are pushed to move relatively in the turnover frame by rotating the bidirectional screw rod, and the two rubber backing plates are pushed to move relatively in the clamping groove by stretching the supporting spring, so that glasses with different widths and thicknesses are clamped and fixed conveniently, the stability of the glass is ensured, and therefore, shaking of the glass is slowed down and the treatment effect is improved during subsequent glass surface treatment;

the traction block is pushed by the electric telescopic rod to slide downwards, the pulling plate is utilized to drive the movable block to slide in the transverse frame, the inserting plate moves out of the splicing frame, the limit on the turnover frame is relieved, then the driving motor drives the screw rod to rotate, the movable plate is pushed to move along the sliding rail, the turnover frame is positioned by matching the vertical plate, the lifting sliding frame, the positioning rod and the positioning plate, the turnover frame is enabled to rotate 180 degrees by taking the positioning rod as an axis, the glass is turned over, the surface of the other end of the glass is cleaned conveniently, and convenience is improved;

through fly leaf and touch switch contact, close driving motor to start electric telescopic handle shrink, drive the traction block and rise to reset, promote the movable block through the arm-tie simultaneously and slide the reset in horizontal frame inside, make the picture peg imbed splice frame inside again, it is spacing to overturn the frame, prevent overturn frame rotation, further improved overturn frame's stability.

3. The efficient cleaning and water circulation mechanism is arranged, the position of the portal frame is conveniently adjusted through the matching of the sliding groove and the movable seat, the portal frame is prevented from influencing the rotation of the turnover frame, after the rotation of the turnover frame is completed, the portal frame is pushed to correspond to the position of glass, the movable seat and the portal frame are positioned through the bolts and the jacks, then the piston rod, the mounting frame and the cleaning box are pushed to descend by the hydraulic cylinder, the brush frame is tightly attached to the polished surface of the glass, the movable rod and the sealing plate are pushed to ascend, the sealing of the communication groove is relieved, and water in the water storage box is conveniently discharged through the communication groove to flush the glass;

The rotary table is driven to rotate through the rotating motor, and through the cooperation of the protruding rod, the transverse plate and the circulating slide plate are driven to slide back and forth on the top end of the portal frame, and then the piston rod drives the mounting frame, the cleaning box and the brush frame to move back and forth together, the glass surface is brushed, the cleaning effect is improved, the water inside the water tank is fed into the transverse pipe through the cooperation of the water suction pipe, the water pump and the hose, the water is evenly fed into the water storage box through the water inlet pipe to be supplemented, the flushing effect is guaranteed, the flushed water falls into the water tank to be recycled, the recycling is convenient, and the utilization rate of resources is increased.

4. Set up even polishing mechanism, it is rotatory to drive the regulation pole through rotating the cross bar, the position of two support frames has been adjusted according to glass's width, be convenient for support glass of different width, utilize the tensioning spring to stretch out and draw back concave plate and lift slide bar simultaneously and slide along stroke slider inner wall and rise, make polishing roller top and glass bottom closely laminate, then utilize micro motor drive polishing roller rotatory, polish glass's bottom, biax motor drives the push rod rotatory simultaneously, push pedal and stroke slider, concave plate slide along the balladeur train, and pass through the cooperation of travel switch on the baffle, make biax motor drive push rod forward, the anti-rotation, push stroke slider and polishing roller come and go between two support frames, the homogeneity of polishing has been improved, filter through the filter screen plate in addition, keep apart impurity, and conveniently take out the filter screen plate through the recess, clear up, guarantee filterable effect.

Synthesize the upset is through upset and stop gear, high-efficient washing and hydrologic cycle mechanism and even polishing mechanism mutually support, drives different width, different thickness glass and overturns, adjusts glass's orientation, and then conveniently polishes and clear up glass top surface and bottom surface, has improved the convenience to glass surface treatment's effect has been increased.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of the structure of the delivery anti-deviation and efficient air outlet mechanism of the present invention;

FIG. 3 is a schematic view of the mounting structure of the mobile seat of the present invention;

FIG. 4 is a schematic view of the mounting structure of the movable plate of the present invention;

FIG. 5 is a schematic view of the structure of the flipping and limiting mechanism of the present invention;

FIG. 6 is a schematic view of the mounting structure of the rubber mat of the present invention;

FIG. 7 is a schematic view of the mounting structure of the circulation slider of the present invention;

FIG. 8 is a schematic view of the structure of the area A of FIG. 7 in accordance with the present invention;

FIG. 9 is a schematic diagram of the structure of the high efficiency cleaning and water circulation mechanism of the present invention;

FIG. 10 is a schematic view of the mounting structure of the pallet of the present invention;

FIG. 11 is a schematic structural view of the uniform polishing mechanism of the present invention.

Reference numerals in the drawings: 1. a bottom plate; 2. a pool;

3. A turnover and limit mechanism; 301. a slide rail; 302. a screw rod; 303. a driving motor; 304. a movable plate; 305. a riser; 306. lifting the sliding frame; 307. a connecting rod; 308. a turnover frame; 309. a bidirectional screw; 310. a width limiting plate; 311. a clamping groove; 312. a rubber backing plate; 313. a support spring; 314. a frame; 315. an electric telescopic rod; 316. a traction block; 317. pulling a plate; 318. a transverse frame; 319. a movable block; 320. inserting plate; 321. splicing frames; 322. a positioning plate; 323. a positioning rod; 324. a touch switch;

4. The high-efficiency cleaning and water circulating mechanism; 401. a chute; 402. a movable seat; 403. a portal frame; 404. a circulating slide plate; 405. a cross plate; 406. a rotating electric machine; 407. a turntable; 408. a protruding rod; 409. a hydraulic cylinder; 410. a piston rod; 411. a mounting frame; 412. a cleaning box; 413. a water storage box; 414. a communication groove; 415. an inner frame; 416. a fixing plate; 417. a movable rod; 418. a sealing plate; 419. a brush holder; 420. a return spring; 421. a water inlet pipe; 422. a transverse tube; 423. a hose; 424. a water pump; 425. a water pumping pipe;

5. A uniform polishing mechanism; 501. a supporting plate; 502. a bottom frame; 503. an adjusting rod; 504. a cross bar; 505. a support frame; 506. a carriage; 507. a travel slide block; 508. lifting the slide bar; 509. a concave plate; 510. tensioning a spring; 511. polishing rollers; 512. a micro motor; 513. a power box; 514. a biaxial motor; 515. a push rod; 516. a push plate; 517. a partition plate; 518. a travel switch; 519. a groove; 520. a filter screen plate;

6. a carriage; 7. a heating furnace;

8. conveying an anti-deviation and efficient air outlet mechanism; 801. a convection channel; 802. a lifting rod; 803. a lifting frame; 804. a Laval structure air grid; 805. an air inlet pipe; 806. a fixing frame; 807. an air supply pipeline; 808. a connecting pipe; 809. an air pipe; 810. a nozzle; 811. a baffle; 812. a rotating shaft; 813. a conveying grille; 814. a conveying motor; 815. a push rod; 816. an anti-deflection plate.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: as shown in fig. 1-11, the invention provides a technical scheme, a tempering device for improving tempering technology and improving energy conservation, which comprises a bottom plate 1, wherein a water tank 2 is arranged at one side position of the top end of the bottom plate 1, a conveying frame 6 is connected at the other side position of the top end of the bottom plate 1 through bolts, a heating furnace 7 is connected at one side position of the top end of the conveying frame 6 through bolts, a conveying anti-deflection and efficient air outlet mechanism 8 is arranged at the top end of the conveying frame 6, a conveying motor 814 is used for driving a rotating shaft 812 and a conveying grid 813 to rotate, processed glass is conveyed, and glass deflection is prevented by an anti-deflection plate 816, so that the subsequent processing effect is ensured, hot air is fed through an air supply pipeline 807, and enters the interior of a Laval structure air grid 804 through a connecting pipe 808 and an air inlet pipe 805, and is subjected to secondary speed acceleration and pressurization, so that the power of a fan is conveniently reduced, and energy is saved;

The turnover and limiting mechanisms 3 are arranged at positions, corresponding to two sides of the pool 2, at the top end of the bottom plate 1, of the two sides of the pool 2, the two width limiting plates 310 are pushed to move by the rotating bidirectional screw 309 to clamp glass with different widths, meanwhile, the two rubber backing plates 312 are pushed to move by the supporting springs 313 to fix glass with different thicknesses, stability of the glass between the width limiting plates 310 is guaranteed, the screw 302 is driven to rotate by the driving motor 303 to push the movable plate 304 to move along the sliding rail 301, and the turnover frame 308 rotates 180 degrees by taking the positioning rod 323 as an axis through the cooperation of the vertical plate 305, the lifting sliding frame 306, the positioning rod 323 and the positioning plate 322, so that the orientation of the glass is changed;

The top end of the bottom plate 1 is provided with a high-efficiency cleaning and water circulating mechanism 4, the portal frame 403 is pushed to move right above glass, then the hydraulic cylinder 409 is started to push the piston rod 410, the mounting frame 411 and the cleaning box 412 to descend, the brush frame 419 is enabled to be in contact with the polished surface of the glass, meanwhile, the movable rod 417 and the sealing plate 418 are enabled to ascend, the sealing of the communication groove 414 is relieved, water in the water storage box 413 is conveniently discharged through the communication groove 414, in addition, the rotary motor 406 is utilized to drive the rotary table 407 to rotate, and the transverse plate 405, the circulating sliding plate 404 and the brush frame 419 are driven to slide back and forth through the cooperation of the protruding rod 408;

The uniform polishing mechanism 5 is arranged in the water tank 2, the rotating cross rod 504 drives the adjusting rod 503 to rotate, the supporting frame 505 is pushed to move, glass with different widths is supported conveniently, meanwhile, the tensioning spring 510 pushes the concave plate 509 and the lifting slide rod 508 to ascend, the top end of the polishing roller 511 is tightly attached to the bottom end of the glass, the micro motor 512 is convenient for driving the polishing roller 511 to rotate, the bottom end of the glass is polished, and meanwhile, the double-shaft motor 514 pushes the push plate 516, the stroke slide block 507 and the polishing roller 511 to polish left and right between the two supporting frames 505 through the push rod 515;

The conveying deviation-preventing and efficient air outlet mechanism 8 comprises a convection channel 801, a lifting rod 802, a lifting frame 803, a Laval structure air grid 804, an air inlet pipe 805, a fixing frame 806, an air supply pipeline 807, a connecting pipe 808, an air pipe 809, a nozzle 810, a baffle 811, a rotating shaft 812, a conveying grid 813, a conveying motor 814, a push rod 815 and a deviation-preventing plate 816;

The top end of the conveying frame 6 is correspondingly connected with a convection channel 801 through bolts at one side position of the heating furnace 7, the top end of the convection channel 801 is symmetrically and equidistantly connected with a lifting rod 802, the outer side of the lifting rod 802 is sleeved with a lifting frame 803 through threads, the bottom end of the lifting frame 803 is equidistantly connected with a Laval structure air grid 804 through bolts, the middle position of the top end of the Laval structure air grid 804 is equidistantly clamped with an air inlet pipe 805, the top end of the convection channel 801 is correspondingly connected with a fixing frame 806 through bolts between every two adjacent Laval structure air grids 804, air supply pipelines 807 are respectively clamped inside the corresponding two fixing frames 806, the bottom end of the air supply pipeline 807 is correspondingly clamped with a connecting pipe 808 from the air inlet pipe 805 to the inner position, the bottom position of the inner wall of the Laval structure air grid 804 is clamped with an air pipe 809, the outer side of the air pipe 809 is correspondingly clamped with a nozzle 810 at the inner position of the Laval structure air grid 804, and the outer side of the air pipe 809 is fixedly sleeved with a baffle 811;

The inside of the conveying frame 6 is symmetrically and rotationally connected with a rotating shaft 812, the outer side of the rotating shaft 812 is sleeved with a conveying grating 813, one end of the conveying frame 6 is connected with a conveying motor 814 through a bolt at a position corresponding to one side of the rotating shaft 812, the conveying motor 814 is powered by an external power supply, two ends of the conveying frame 6 are rotationally connected with ejector rods 815 at equal intervals at a position corresponding to the bottom of the convection channel 801, and one end of each of the two ejector rods 815 at the same side is rotationally connected with an anti-deflection plate 816 at a position corresponding to the top of the conveying grating 813;

The turning and limiting mechanism 3 comprises a slide rail 301, a screw rod 302, a driving motor 303, a movable plate 304, a vertical plate 305, a lifting sliding frame 306, a connecting rod 307, a turning frame 308, a bidirectional screw 309, a width limiting plate 310, a clamping groove 311, a rubber backing plate 312, a supporting spring 313, a frame 314, an electric telescopic rod 315, a traction block 316, a pulling plate 317, a transverse frame 318, a movable block 319, a plugboard 320, a splicing frame 321, a positioning plate 322, a positioning rod 323 and a touch switch 324;

The positions of the top end of the bottom plate 1 corresponding to the two sides of the pool 2 are connected with sliding rails 301 through bolts, screw rods 302 are respectively and rotatably connected in the two sliding rails 301, a driving motor 303 is respectively and rotatably connected in the position of the top end of the bottom plate 1 corresponding to one side of the screw rods 302, movable plates 304 are respectively and rotatably connected in the positions of the two screw rods 302 corresponding to the inner sides of the sliding rails 301 through threads, vertical plates 305 are respectively and rotatably connected in the tops of the two movable plates 304, lifting sliding frames 306 are respectively and movably sleeved in the outer sides of the two vertical plates 305, connecting rods 307 are respectively and rotatably connected in the positions of the tops of the adjacent ends of the two lifting sliding frames 306, turning frames 308 are respectively and rotatably connected in the positions of the two connecting rods 307, the outsides of the two bidirectional screw rods 309 are connected with the width limiting plates 310 through threads, the adjacent ends of the two width limiting plates 310 are provided with clamping grooves 311, the top ends and the bottom ends inside the two clamping grooves 311 are movably connected with rubber backing plates 312, opposite ends of the two rubber backing plates 312 inside the same clamping groove 311 are uniformly clamped with supporting springs 313, in order to facilitate clamping and fixing of glass, the driving motor 303 supplies power through an external power supply, an output shaft of the driving motor 303 penetrates through the sliding rail 301 and one end of the screw rod 302 to be fixedly connected, the two ends of the bidirectional screw rods 309 penetrate through the two ends of the turnover frame 308, the positions, corresponding to the outer sides of the turnover frame 308, of the two ends of the bidirectional screw rods 309 are clamped with knobs, and the adjacent ends of the two rubber backing plates 312 are uniformly provided with anti-skid patterns;

The top positions of opposite ends of the two lifting sliding frames 306 are respectively clamped with a frame 314, the inner top ends of the two frames 314 are respectively and symmetrically connected with an electric telescopic rod 315 through bolts, the positions, corresponding to the inner positions of the frames 314, of the bottom ends of the two electric telescopic rods 315 on the same side are respectively and symmetrically clamped with a traction block 316, one end of each traction block 316 is symmetrically and rotatably connected with a pulling plate 317, the positions, corresponding to the two sides of the connecting rod 307, of one end of each lifting sliding frame 306 are respectively and rotatably connected with a transverse frame 318, the positions, corresponding to the inner positions of the transverse frames 318, of one end of each pulling plate 317 on the same side are respectively and rotatably connected with a movable block 319, the opposite ends of each movable block 319 are respectively and fixedly connected with a plugboard 320, and the positions, corresponding to the outer sides of the plugboard 320, of each turnover frame 308 are respectively and rotatably connected with a splicing frame 321 through bolts;

The top end of the bottom plate 1 is clamped with positioning plates 322 corresponding to the middle positions of two sides of the pool 2, the two ends of the turnover frame 308 are clamped with positioning rods 323 corresponding to the top positions of the two positioning plates 322, the two ends of the inside of the sliding rail 301 are connected with touch switches 324 through bolts, in order to conveniently limit the turnover frame 308, the two ends of the traction block 316 penetrate through the two ends of the frame 314, the outer side of the movable block 319 is in sliding connection with the inside of the transverse frame 318, one end of the plugboard 320 penetrates through one end of the transverse frame 318, one end of the positioning rod 323 is rotationally connected with one end of the positioning plate 322, the electric telescopic rod 315 and the touch switches 324 are powered by an external power supply, and the signal output ends of the touch switches 324 are respectively connected with the electric telescopic rod 315 and the input ends of the driving motor 303;

The efficient cleaning and water circulating mechanism 4 comprises a sliding chute 401, a movable seat 402, a portal frame 403, a circulating sliding plate 404, a transverse plate 405, a rotating motor 406, a turntable 407, a protruding rod 408, a hydraulic cylinder 409, a piston rod 410, a mounting rack 411, a cleaning tank 412, a water storage box 413, a communicating groove 414, an inner frame 415, a fixed plate 416, a movable rod 417, a sealing plate 418, a brush frame 419, a return spring 420, a water inlet pipe 421, a transverse pipe 422, a flexible pipe 423, a water pump 424 and a water pumping pipe 425;

The top end of the bottom plate 1 is symmetrically provided with a chute 401, the top end of the bottom plate 1 is connected with a movable seat 402 in a sliding way through the chute 401, the top ends of the two movable seats 402 are connected with a portal frame 403 through bolts, the top ends of the portal frames 403 are symmetrically connected with a circulating sliding plate 404 in a sliding way, the middle positions of the bottom ends of the two circulating sliding plates 404 are connected with a diaphragm 405 through bolts, the middle positions of the top ends of the portal frames 403 are connected with a rotating motor 406 through threads, the bottom ends of the output ends of the rotating motor 406 are clamped with a rotary table 407, the bottom ends of the rotary table 407 are rotationally connected with a convex rod 408, for conveniently driving the diaphragm 405 to reciprocate, the two ends of the movable seat 402 are rotationally connected with rollers at equal intervals, the rotating motor 406 is powered by an external power supply, a rectangular groove is formed in the interior of the diaphragm 405, the bottom ends of the convex rod 408 are embedded into the rectangular groove, the top ends of the movable seat 402 are symmetrically connected with bolts through threads, and the positions of the bottom plate 1 corresponding to the two sides of the pool 2 are equally spaced;

The top ends of the two circulating sliding plates 404 are all connected with a hydraulic cylinder 409 at equal intervals through bolts, the bottom end of the hydraulic cylinder 409 is movably connected with a piston rod 410, the bottom end of the piston rod 410 is connected with a mounting frame 411 through bolts, the inner wall of the mounting frame 411 is connected with a cleaning box 412 through bolts, the top end of the cleaning box 412 is fixedly connected with a water storage box 413 at equal intervals, a communicating groove 414 is formed in the position, corresponding to the bottom of the water storage box 413, of the top end of the cleaning box 412, an inner frame 415 is fixedly connected with a fixing plate 416 in the position, corresponding to the bottom of the inner frame 415, of the communicating groove 414, a movable rod 417 is movably connected with a sealing plate 418 in the position, corresponding to the top of the inner frame 415, of the bottom end of the movable rod 417 is fixedly connected with a brush frame 419, and a reset spring 420 is fixedly connected with the position, corresponding to the outer side of the movable rod 417, between the brush frame 419 and the fixing plate 416;

One end of the water storage box 413 is clamped with a water inlet pipe 421, the other end of the water inlet pipe 421 is clamped with a transverse pipe 422, the other end of the transverse pipe 422 is fixedly connected with a hose 423, a water pump 424 is connected to one side position of the top end of the bottom plate 1 through bolts, one end of the water pump 424 is clamped with a water suction pipe 425, in order to facilitate sealing of the communication groove 414, the length and the width of the sealing plate 418 are larger than those of the inner frame 415, a hydraulic valve is embedded and installed in the water inlet pipe 421, the other end of the hose 423 is fixedly connected with the other end of the water pump 424, the other end of the water suction pipe 425 is connected with one end of the water tank 2, and the water pump 424 is powered through an external power supply;

The uniform polishing mechanism 5 comprises a supporting plate 501, a bottom frame 502, an adjusting rod 503, a cross rod 504, a supporting frame 505, a sliding frame 506, a travel sliding block 507, a lifting sliding rod 508, a concave plate 509, a tensioning spring 510, a polishing roller 511, a micro motor 512, a power box 513, a double-shaft motor 514, a push rod 515, a push plate 516, a partition 517, a travel switch 518, a groove 519 and a filter screen plate 520;

A groove 519 is formed in one end of the water tank 2, a filter screen plate 520 is slidably connected to the position of the inner wall of the water tank 2 corresponding to one side of the groove 519, supporting plates 501 are symmetrically clamped at the position of the inner wall of the water tank 2 corresponding to the top of the filter screen plate 520, bottom frames 502 are clamped at the top ends of the two supporting plates 501, adjusting rods 503 are connected in an equidistant rotation mode inside the two bottom frames 502, cross rods 504 are clamped between the two opposite adjusting rods 503 inside the two bottom frames 502, and supporting frames 505 are sleeved on the outer sides of the two adjusting rods 503 inside the same bottom frame 502 through threads;

The inner wall of the bottom frame 502 is symmetrically connected with a carriage 506 through bolts at the position corresponding to the bottom of the supporting frame 505, stroke sliding blocks 507 are movably connected inside the two carriages 506, lifting sliding rods 508 are movably connected inside the two stroke sliding blocks 507, concave plates 509 are clamped at the top ends of the two lifting sliding rods 508, tension springs 510 are clamped at the positions corresponding to the outer sides of the lifting sliding rods 508 between the concave plates 509 and the stroke sliding blocks 507, polishing rollers 511 are rotatably connected at the top ends of the concave plates 509, a miniature motor 512 is connected at one end of each concave plate 509 corresponding to one side of each polishing roller 511 through bolts, a power box 513 is connected between the two bottom frames 502 through bolts, a double-shaft motor 514 is clamped inside the power box 513, push rods 515 are clamped at the two ends of the output shafts of the double-shaft motor 514, push plates 516 are connected at the bottom ends of the two stroke sliding blocks 507 through bolts, the middle part department joint in concave board 509 bottom has baffle 517, baffle 517 both ends all have travel switch 518 through bolted connection, in order to conveniently support, polish glass's surface, the mesh has evenly been seted up to layer board 501 inside, the rubber pad has been pasted on the support frame 505 top, the fixed knob that has cup jointed in the cross rod 504 outside, the screw thread rotation direction in the inside regulation pole 503 outside of two underframes 502 is opposite, the output shaft of micro motor 512 runs through concave board 509 and polishing roller 511 one end fixed connection, micro motor 512, biax motor 514 and travel switch 518 all supply power through external power source, and travel switch 518's signal output part is connected with biax motor 514's input, push pedal 516 is run through to push rod 515 one end, and push rod 515 outside and push pedal 516 inner wall pass through threaded connection.

The working principle and the using flow of the invention are as follows: firstly, the conveying motor 814 drives the rotating shaft 812 and the conveying grids 813 to rotate, the processed glass is conveyed, meanwhile, the anti-deflection plates 816 are utilized to limit the glass, deflection of the glass in the conveying process is prevented, the subsequent processing effect is guaranteed, in addition, the rotating ejector rods 815 push the anti-deflection plates 816 to move, the distance between the two anti-deflection plates 816 is changed according to the requirement, the glass with different widths is conveniently limited, applicability is improved, hot air is fed through the air supply pipeline 807, and enters the interior of the Laval structure air grid 804 through the connecting pipe 808 and the air inlet pipe 805 to carry out secondary speed acceleration and pressurization, so that the power of a fan is conveniently reduced, energy is saved, compressed air is fed through the air pipes 809, the compressed air is evenly sprayed out through the nozzles 810, the compressed air is mixed with the air in the interior of the Laval structure air grid 804, the air temperature is reduced, the temperature of the glass is reduced, in addition, the lifting rods 802 are rotated, the lifting frames 803 and the Laval structure air grid 804 are driven to move, and the distance between the Laval structure air grid 804 and the glass is changed according to the requirement.

Then, the bidirectional screw 309 is rotated to push the two width limiting plates 310 to relatively move in the overturning frame 308, so that the distance between the two width limiting plates 310 is adjusted according to the width of glass, the glass is convenient to clamp, two ends of the glass are embedded into the clamping grooves 311, meanwhile, the two rubber backing plates 312 are pushed to relatively move in the clamping grooves 311 through the telescopic characteristic of the supporting springs 313, the glass is clamped and fixed according to the characteristics of the supporting springs 313, the stability of the glass between the width limiting plates 310 is ensured, and further, when the surface of the glass is treated subsequently, the shaking of the glass is slowed down, and the treatment effect is improved;

Then, the cross rod 504 is rotated to drive the adjusting rods 503 to rotate, thereby pushing the supporting frames 505 to slide in the bottom frame 502, adjusting the positions of the two supporting frames 505 according to the width of glass, being convenient for supporting the glass, simultaneously utilizing the telescopic characteristic of the tensioning springs 510, pushing the concave plates 509 and the lifting sliding rods 508 to slide upwards along the inner wall of the stroke sliding blocks 507, forcing the top ends of the polishing rollers 511 to be tightly attached to the bottom ends of the glass, then starting the micro motors 512, enabling the micro motors 512 to drive the polishing rollers 511 to rotate, polishing the bottom ends of the glass, simultaneously synchronously starting the double-shaft motors 514, further driving the pushing rods 515 to rotate, pushing the pushing plates 516, the stroke sliding blocks 507 and the concave plates 509 to slide along the sliding frames 506, enabling the concave plates 509 to move along with one ends of the supporting frames 505, enabling the double-shaft motors 514 to drive the pushing rods 515 to rotate reversely, pulling the stroke sliding blocks 507 and the polishing rollers 511 to reversely move, then contacting with one end of the other supporting frames 505, changing the rotation direction of the double-shaft motors 514 again, enabling the polishing rollers 511 to reciprocate between the two supporting frames 505, and evenly polishing the glass;

then, after polishing one surface of the glass, the electric telescopic rod 315 is extended, the traction block 316 is pushed to slide and descend in the frame 314, the movable block 319 is pulled to slide in the transverse frame 318 through the pulling plate 317, the plugboard 320 is moved out of the splicing frame 321, the limit on the turnover frame 308 is released, then the driving motor 303 is used for driving the screw rod 302 to rotate, the movable plate 304 is pushed to move along the sliding rail 301, meanwhile, the movable plate 304 drives the vertical plate 305 and the lifting sliding frame 306 to move together, the lifting sliding frame 306 is slid and ascended, the turnover frame 308 is pushed to rotate, then the positioning rod 323 and the positioning plate 322 are matched, the turnover frame 308 rotates 180 degrees by taking the positioning rod 323 as an axis, the direction of the glass is changed, the surface of the other end of the glass is attached to the other pair of supporting frames 505, and cleaning of the surface of the other end of the glass is facilitated;

Then, when the turnover frame 308 rotates 180 degrees, the movable plate 304 also moves to the other end of the sliding rail 301, and meanwhile, one end of the movable plate 304 contacts with the touch switch 324, so that the driving motor 303 is closed, the electric telescopic rod 315 is started to shrink, the traction block 316 is driven to ascend and reset, meanwhile, the movable block 319 is pushed to slide and reset in the transverse frame 318 by the pulling plate 317, the plugboard 320 is embedded into the splicing frame 321 again, the turnover frame 308 is limited, the turnover frame 308 is prevented from rotating, and the stability of the turnover frame 308 is further improved;

Then, after the turnover frame 308 is turned over, the portal frame 403 is pushed, the portal frame 403 slides along the chute 401 with the movable seat 402, the portal frame 403 moves to the position right above the glass, the movable seat 402 and the portal frame 403 are positioned by matching the bolts and the jacks, then the hydraulic cylinder 409 is started, the piston rod 410, the mounting frame 411 and the cleaning box 412 are pushed to descend, the brush frame 419 is forced to contact the polished surface of the glass, meanwhile, the movable rod 417 and the sealing plate 418 are pushed to ascend along with the descending of the cleaning box 412, the sealing plate 418 is separated from the inner frame 415, the sealing of the communicating groove 414 is released, the water in the water storage box 413 is conveniently discharged through the communicating groove 414, the glass is cleaned, in addition, the rotating motor 406 is used for driving the turntable 407 to rotate, the transverse plate 405 and the circulating slide plate 404 to slide left and right at the top end of the portal frame 403 by matching the protruding rod 408, the piston rod 410 is further driven to drive the mounting frame 411, the cleaning box 412 and the brush frame 419 to brush the surface of the glass reciprocally, and the cleaning effect is improved;

Finally, through the cooperation of drinking-water pipe 425, water pump 424 and hose 423, the inside water of pond 2 is sent into violently managing 422 inside to through the cooperation of inlet tube 421, evenly send into water storage box 413 inside with water and supply, guarantee the effect of washing, and the water after the washing then falls into pond 2 inside, filter through filter screen plate 520, the convenience is recycled, prevent that the water resource has been extravagant, in addition after wasing a surface of glass, drive portal frame 403 through moving seat 402 and slide, shift out the top of pond 2, prevent to influence the rotation of upset frame 308, the adaptability has been improved.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an improve tempering technology and promote energy-conserving tempering equipment, includes bottom plate (1), its characterized in that: the automatic feeding device is characterized in that a pool (2) is arranged at one side of the top end of the bottom plate (1), a conveying frame (6) is connected to the other side of the top end of the bottom plate (1) through bolts, a heating furnace (7) is connected to one side of the top end of the conveying frame (6) through bolts, a conveying deviation-preventing and efficient air outlet mechanism (8) is arranged at the top end of the conveying frame (6), and the conveying deviation-preventing and efficient air outlet mechanism (8) comprises a convection channel (801);

The top end of the conveying frame (6) is connected with a convection channel (801) through bolts at a position corresponding to one side of the heating furnace (7), lifting rods (802) are symmetrically and rotationally connected to the top end of the convection channel (801) at equal intervals, lifting frames (803) are sleeved outside the lifting rods (802) through threads, laval structure air grids (804) are connected to the bottom end of the lifting frames (803) at equal intervals through bolts, and air inlet pipes (805) are clamped at the middle position of the top end of the Laval structure air grids (804) at equal intervals;

The air supply pipeline is characterized in that fixing frames (806) are connected between every two adjacent Laval structure air grids (804) corresponding to the top end of the convection channel (801) through bolts, air supply pipelines (807) are clamped inside the two corresponding fixing frames (806), connecting pipes (808) are clamped from the bottom end of each air supply pipeline (807) to the inner position corresponding to an air inlet pipe (805), air pipes (809) are clamped at the bottom position of the inner wall of each Laval structure air grid (804), nozzles (810) are clamped at the outer side of each air pipe (809) at equal intervals corresponding to the inner position of each Laval structure air grid (804), and baffles (811) are fixedly sleeved at the outer side of each air pipe (809) corresponding to the outer side of each convection channel (801);

The conveying device is characterized in that a rotating shaft (812) is symmetrically and rotatably connected inside the conveying frame (6), a conveying grid (813) is sleeved outside the rotating shaft (812), a conveying motor (814) is connected to one end of the conveying frame (6) corresponding to one side of the rotating shaft (812) through bolts, the conveying motor (814) is powered by an external power supply, ejector rods (815) are rotatably connected to the two ends of the conveying frame (6) corresponding to the bottom of the convection channel (801) at equal intervals, and an anti-deflection plate (816) is rotatably connected to the two ends of the ejector rods (815) located on the same side corresponding to the top of the conveying grid (813);

The conveying motor (814) is used for driving the rotating shaft (812) and the conveying grid (813) to rotate, processed glass is conveyed, the deviation of the glass is prevented by the deviation prevention plate (816), the subsequent processing effect is guaranteed, hot air is fed through the air supply pipeline (807), and the hot air enters the Laval structure air grid (804) through the connecting pipe (808) and the air inlet pipe (805), and is secondarily accelerated and pressurized.

2. The tempering apparatus for improving a tempering process and improving energy saving according to claim 1, wherein: the turnover and limiting mechanisms (3) are arranged at positions, corresponding to two sides of the pool (2), of the top end of the bottom plate (1), and the turnover and limiting mechanisms (3) comprise sliding rails (301);

Slide rails (301) are connected to positions, corresponding to two sides of a pool (2), of the top end of the bottom plate (1) through bolts, screw rods (302) are connected to the two slide rails (301) in a rotating mode, driving motors (303) are connected to positions, corresponding to one side of the screw rods (302), of the top end of the bottom plate (1) through bolts, movable plates (304) are connected to positions, corresponding to the inner sides of the slide rails (301), of the two screw rods (302) through threads, and vertical plates (305) are connected to the top ends of the two movable plates (304) through bolts;

lifting sliding frames (306) are movably sleeved on the outer sides of the vertical plates (305), connecting rods (307) are clamped at the top positions of adjacent ends of the two lifting sliding frames (306), turning frames (308) are rotatably connected between the two connecting rods (307), bidirectional screws (309) are symmetrically and rotatably connected inside the turning frames (308), limited width plates (310) are connected on the outer sides of the two bidirectional screws (309) through threads, clamping grooves (311) are formed in the adjacent ends of the two limited width plates (310), and rubber base plates (312) are movably connected to the top ends and the bottom ends inside the clamping grooves (311);

The opposite ends of the two rubber backing plates (312) positioned in the same clamping groove (311) are respectively and equidistantly clamped with a supporting spring (313);

The two ends of the sliding rail (301) are connected with touch switches (324) through bolts;

The two-way screw rod (309) is rotated to push two width limiting plates (310) to move, glass with different widths is clamped, meanwhile, the two rubber backing plates (312) are pushed to move through the supporting springs (313), glass with different thicknesses is fixed, stability of the glass between the width limiting plates (310) is guaranteed, the driving motor (303) is used for driving the screw rod (302) to rotate, the movable plate (304) is pushed to move along the sliding rail (301), and the turnover frame (308) is enabled to rotate 180 degrees by taking the positioning rod (323) as an axis through the cooperation of the vertical plate (305), the lifting sliding frame (306), the positioning rod (323) and the positioning plate (322), so that the orientation of the glass is changed.

3. The tempering apparatus for improving a tempering process and improving energy saving according to claim 2, wherein: two equal joint in opposite one end top positions of lift sliding frame (306) has frame (314), two inside top of frame (314) is all connected with electric telescopic handle (315) through the bolt symmetry, is located two electric telescopic handle (315) bottom corresponds frame (314) inside position department and all the joint has traction block (316), traction block (316) one end symmetry rotation is connected with arm-tie (317), two lift sliding frame (306) one end corresponds connecting rod (307) both sides position department all the joint has horizontal frame (318), is located two arm-tie (317) one end corresponds horizontal frame (318) inside position department all the rotation and is connected with movable block (319), two opposite one end of movable block (319) all the joint has picture peg (320), upset frame (308) both ends correspond picture peg (320) outside position department all have splice frame (321) through the bolted connection.

4. The tempering apparatus for improving a tempering process and improving energy saving according to claim 2, wherein: the driving motor (303) is powered by an external power supply, an output shaft of the driving motor (303) penetrates through the sliding rail (301) and is fixedly connected with one end of the screw rod (302), two ends of the bidirectional screw rod (309) penetrate through two ends of the turnover frame (308), knobs are clamped at positions, corresponding to the outer sides of the turnover frame (308), of the two ends of the bidirectional screw rod (309), and anti-skid patterns are uniformly formed at two adjacent ends of the rubber backing plate (312).

5. A tempering apparatus for improving a tempering process and enhancing energy saving according to claim 3, wherein: traction block (316) both ends all run through frame (314) both ends, movable block (319) outside and horizontal frame (318) inside sliding connection, picture peg (320) one end runs through horizontal frame (318) one end, locating lever (323) one end is rotated with locating plate (322) one end and is connected, electric telescopic handle (315) and touch switch (324) all supply power through external power source, and touch switch (324) signal output part is connected with electric telescopic handle (315) and driving motor (303) input respectively.

6. The tempering apparatus for improving a tempering process and improving energy saving according to claim 1, wherein: the top end of the bottom plate (1) is provided with an efficient cleaning and water circulating mechanism (4), and the efficient cleaning and water circulating mechanism (4) comprises a chute (401);

The automatic lifting device is characterized in that sliding grooves (401) are symmetrically formed in the top end of the bottom plate (1), the top ends of the bottom plate (1) are slidably connected with movable seats (402) through the sliding grooves (401), the top ends of the two movable seats (402) are connected with a portal frame (403) through bolts, circulating sliding plates (404) are symmetrically slidably connected with the top ends of the portal frame (403), transverse plates (405) are connected with the middle positions of the bottom ends of the two circulating sliding plates (404) through bolts, a rotating motor (406) is connected with the middle positions of the top ends of the portal frame (403) through threads, a rotary table (407) is clamped at the bottom end of an output end of the rotating motor (406), and a protruding rod (408) is rotatably connected with the bottom ends of the rotary table (407);

The two circulating slide plates (404) are all connected with a hydraulic cylinder (409) at the top through bolts at equal intervals, a piston rod (410) is movably connected with the bottom of the hydraulic cylinder (409), a mounting rack (411) is connected with the bottom of the piston rod (410) through bolts, a cleaning box (412) is connected with the inner wall of the mounting rack (411) through bolts, a water storage box (413) is fixedly clamped at the top of the cleaning box (412), a communicating groove (414) is formed in the top of the cleaning box (412) at the bottom of the cleaning box (412), an inner frame (415) is clamped at the top of the inner wall of the communicating groove (414), a fixed plate (416) is clamped at the bottom of the inner frame (415), a movable rod (417) is movably connected with the inner wall of the fixed plate (416), a sealing plate (418) is clamped at the top of the inner frame (415), a brush holder (419) is clamped at the bottom of the inner position of the movable rod (417) at the inner position of the cleaning box (412), and a hair holder (419) is clamped at the outer side of the brush holder (419) at the position of the movable rod (416) at the same time.

One end of the water storage box (413) is clamped with a water inlet pipe (421), the other end of the water inlet pipe (421) is clamped with a transverse pipe (422), the other end of the transverse pipe (422) is fixedly connected with a hose (423), one side position of the top end of the bottom plate (1) is connected with a water pump (424) through a bolt, and one end of the water pump (424) is clamped with a water suction pipe (425);

The portal frame (403) is pushed to move to the position right above the glass, then the hydraulic cylinder (409) is started to push the piston rod (410), the mounting frame (411) and the cleaning box (412) to descend, the brush frame (419) is enabled to be in contact with the surface of the polished glass, meanwhile, the movable rod (417) and the sealing plate (418) are enabled to ascend, the sealing of the communicating groove (414) is relieved, water in the water storage box (413) is conveniently discharged through the communicating groove (414), the rotary motor (406) is used for driving the rotary table (407) to rotate in addition, and the transverse plate (405), the circulating sliding plate (404) and the brush frame (419) are driven to slide back and forth through the cooperation of the protruding rod (408).

7. The tempering apparatus for improving a tempering process and improving energy saving according to claim 6, wherein: the two ends of the movable seat (402) are rotatably connected with rollers at equal intervals, the rotating motor (406) is powered by an external power supply, a rectangular groove is formed in the transverse plate (405), the bottom end of the protruding rod (408) is embedded into the rectangular groove, the top end of the movable seat (402) is symmetrically connected with bolts through threads, and jacks are formed in the top end of the bottom plate (1) corresponding to the positions of two sides of the pool (2) at equal distances.

8. The tempering apparatus for improving a tempering process and improving energy saving according to claim 6, wherein: the length and the width of closing plate (418) are all greater than the length and the width of inside casing (415), the inside hydraulic valve that all embeds of inlet tube (421) is installed, hose (423) other end and water pump (424) other end fixed connection, the drinking-water pipe (425) other end is connected with pond (2) one end, water pump (424) are supplied power through external power source.

9. The tempering apparatus for improving a tempering process and improving energy saving according to claim 1, wherein: a uniform polishing mechanism (5) is arranged in the water tank (2), and the uniform polishing mechanism (5) comprises a supporting plate (501);

The water tank is characterized in that one end of the water tank (2) is provided with a groove (519), one side position of the inner wall of the water tank (2) corresponding to the groove (519) is slidably connected with a filter screen plate (520), the positions of the inner wall of the water tank (2) corresponding to the tops of the filter screen plate (520) are symmetrically clamped with supporting plates (501), the tops of the two supporting plates (501) are respectively clamped with a bottom frame (502), the two bottom frames (502) are internally and uniformly rotated at a certain distance to be connected with adjusting rods (503), cross rods (504) are respectively clamped between the two opposite adjusting rods (503) in the two bottom frames (502), and the outer sides of the two adjusting rods (503) in the same bottom frame (502) are respectively sleeved with a supporting frame (505) through threads;

The bottom frame (502) inner wall corresponds to the bottom position of the support frame (505) and is symmetrically connected with a sliding frame (506) through bolts, two sliding frames (506) are internally and movably connected with a travel sliding block (507), two travel sliding blocks (507) are internally and movably connected with a lifting sliding rod (508), two top ends of the lifting sliding rods (508) are respectively connected with a concave plate (509) in a clamping mode, tension springs (510) are respectively connected between the concave plate (509) and the travel sliding block (507) at the positions corresponding to the outer sides of the lifting sliding rods (508), the top ends of the concave plates (509) are rotationally connected with polishing rollers (511), one end of each concave plate (509) is correspondingly connected with a miniature motor (512) through bolts, two bottom frames (502) are respectively connected with a power box (513) through bolts, two ends of an output shaft of the double-shaft motor (514) are respectively connected with a push rod (516) through bolts, the bottom ends of each travel sliding block (507) are respectively connected with a push plate (516), and the bottom ends of each concave plate (509) are respectively connected with a travel switch (517) through bolts;

The cross rod (504) is rotated to drive the adjusting rod (503) to rotate, the supporting frame (505) is pushed to move, glass with different widths is supported conveniently, meanwhile, the tensioning spring (510) is pushed to push the concave plate (509) and the lifting slide rod (508) to ascend, the top end of the polishing roller (511) is tightly attached to the bottom end of the glass, the micro motor (512) is conveniently used for driving the polishing roller (511) to rotate, the bottom end of the glass is polished, and meanwhile, the double-shaft motor (514) is pushed to push the push plate (516), the travel sliding block (507) and the polishing roller (511) to polish left and right between the two supporting frames (505) through the push rod (515).

10. The tempering apparatus for improving a tempering process and improving energy saving according to claim 9, wherein: mesh has evenly been seted up to layer board (501), the rubber pad has been pasted on support frame (505) top, the fixed knob that has cup jointed in cross pole (504) outside, two the screw thread rotation direction in the inside regulation pole (503) outside of underframe (502) is opposite, the output shaft of micro-motor (512) runs through concave plate (509) and polishes roller (511) one end fixed connection, micro-motor (512), biax motor (514) and travel switch (518) all supply power through external power source, and the signal output part of travel switch (518) is connected with the input of biax motor (514), push rod (515) one end runs through push pedal (516), and push rod (515) outside and push pedal (516) inner wall pass through threaded connection.