CN115325809A - Operation method of spliced decorative glass drying device - Google Patents

Abstract

The invention discloses an operation method of a drying device for spliced decorative glass, which relates to the field of decorative glass processing, and the drying device comprises a base, wherein a rack is arranged on the base, a driving mechanism, a conveying mechanism, a turnover mechanism and drying mechanisms arranged at two ends of the rack are arranged on the rack, the driving mechanism drives the conveying mechanism to intermittently convey through a first linkage component, the turnover mechanism is intermittently turned over through a second linkage component, and the driving mechanism drives the drying mechanism to horizontally move through a first linkage component and a third linkage component.

Description

Operation method of spliced decorative glass drying device

Technical Field

The invention relates to the field of decorative glass processing, in particular to an operation method of a spliced decorative glass drying device.

Background

In modern decoration design, the application of decorative glass is wide, and some glass pieces with different colors or different surface patterns need to be spliced to meet small-area personalized decoration scenes and then serve as a whole for decoration;

some probably splice at the job site among the prior art, the great influence in concatenation gap is pleasing to the eye like this, and some adopt glue to splice two glass earlier, generally adopt tunnel type oven to dry after the concatenation, but this kind of stoving mode has following problem:

(1) The glass is integrally baked instead of being baked at the gluing part, so that the pertinence is poor, and the quality of the glass can be influenced due to the integral baking because of the problem of glass materials;

(2) According to the characteristics of different glues and products, when needs adjust drying speed, need adjust each part alone, not only to workshop workman knowledge level require higher, and make mistakes easily, reduce efficiency.

Disclosure of Invention

The technical problem to be solved by the invention is to provide an operation method of a spliced decorative glass drying device, so as to solve the defects caused by the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the operation method of the spliced decorative glass drying device comprises a base, wherein a rack is arranged on the base, a driving mechanism, a conveying mechanism, a turnover mechanism and drying mechanisms arranged at two ends of the rack are arranged on the rack, the driving mechanism drives the conveying mechanism to intermittently convey through a first linkage component, drives the turnover mechanism to intermittently turn over through a second linkage component, and the driving mechanism horizontally moves through a first linkage component and a third linkage component which drive the drying mechanisms.

Preferably, the driving mechanism comprises a driving motor and a first belt pulley connected with an output shaft of the driving motor;

the conveying mechanism comprises a conveying roller and a conveying belt, the conveying roller is rotationally arranged on the rack through a central shaft of the conveying roller, and the conveying belt penetrates through the drying mechanism and the turnover mechanism and is wound on the conveying roller;

the first linkage assembly comprises a turntable, a grooved pulley and a second belt pulley, the turntable is rotatably arranged on the rack through a central shaft of the turntable, the grooved pulley is fixedly connected with the central shaft of the conveying roller, a shifting handle is arranged on the turntable, a shifting head is arranged downwards at the end part of the shifting handle and matched with a U-shaped groove in the grooved pulley, the second belt pulley is fixedly arranged at the end part of the central shaft of the turntable, and the second belt pulley is in transmission connection with the first belt pulley through a belt.

Preferably, the turnover mechanism comprises a symmetrical turning plate and a rotating shaft penetrating through the symmetrical turning plate, the turning plate is rotationally connected with the rack through the rotating shaft, slots matched with the circuit board are formed in the two sides of the turning plate, and the bottom surfaces of the slots are consistent with the conveying belt.

Preferably, linkage subassembly two includes gear one, gear two, belt pulley three and belt pulley four, gear one is incomplete gear, gear two and pivot fixed connection, gear one rotates through its center pin and sets up in the frame, and three fixed connection of belt pulley are on the center pin of gear one, belt pulley four is connected with driving motor's output shaft, belt transmission is crossed with belt pulley three to belt pulley four and is connected.

Preferably, the drying mechanism comprises a fixed frame, and an actuating mechanism and a moving mechanism which are arranged on the fixed frame, wherein the lower end of the moving mechanism is provided with a hot air device, the fixed frame is arranged on the rack and is positioned above the conveying belt, and the actuating mechanism drives the moving mechanism to horizontally reciprocate.

Preferably, moving mechanism includes the slide bar, waist type groove and guide arm, the slide bar is with the lateral wall sliding fit of mount, waist type groove is fixed to be set up on the slide bar, and the bottom in waist type groove is equipped with the support plate, hot-blast equipment is fixed on the support plate, the upper end of mount is equipped with the guide way, the upper end setting of guide arm is in the guide way, and the lower extreme is connected with the support plate, actuating mechanism and waist type groove cooperation.

Preferably, the hot-blast apparatus is induction type air heater, the lower extreme of support plate is equipped with the spout, be equipped with the mount pad of I shape on the induction type air heater, the mount pad sets up in the spout to with spout sliding fit, the mount pad passes through set screw with the spout and is connected.

Preferably, the actuating mechanism comprises a first bevel gear and a second bevel gear which are meshed with each other, a fixing shaft which is in running fit with the fixing frame is arranged on the fixing frame, the second bevel gear is fixedly arranged on the fixing shaft, a rotating arm is arranged at the bottom of the fixing shaft, a movable shaft which is matched with the waist-shaped groove is downwards arranged at the end part of the rotating arm, and the first bevel gear is connected with the third linkage assembly.

Preferably, linkage subassembly three includes gear three, gear four, belt pulley five, belt pulley six, belt pulley seven and belt pulley eight, belt pulley five is fixed on the center pin of carousel, gear three and gear four are respectively through connecting axle one and connecting axle two and mount normal running fit, belt pulley six, belt pulley seven are fixed respectively on connecting axle one and connecting axle two, belt pulley five and belt pulley six are connected through belt transmission, belt pulley eight sets up on the fixed axle of other end mount, and is connected with belt pulley seven through the belt.

Preferably, the third linkage assembly further comprises a trigger mechanism, the trigger mechanism comprises a wave-shaped rod, a push rod and a sleeve piece, the push rod and the sleeve piece are arranged on the first connecting shaft in a sliding mode, the push rod is in contact with the sleeve piece, an arc-shaped block matched with the sleeve piece is arranged on the third gear, a cross rod is arranged at the lower end of the push rod, a groove body is arranged on the side wall of the fixing frame, a shaft body is arranged in the middle of the groove body, the wave-shaped rod is rotatably connected with the shaft body, a rotatable contact wheel is arranged at one end of the wave-shaped rod, the other end of the wave-shaped rod is rotatably connected with the cross rod, and a spring is arranged between the lower end of the push rod and the fixing frame.

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

(1) The turnover mechanism is designed to dry the double surfaces of the spliced decorative glass after being glued, so that the spliced decorative glass is uniformly heated and has high drying efficiency;

(2) Aiming at linear moving baking of a gluing part, the method has strong pertinence and uniform drying, and avoids the quality problem of glass damage caused by continuous drying of the whole glass;

(3) The hot air equipment is an induction type hot air blower, is automatically opened when the spliced decorative glass is induced, and is dried by high-temperature hot air, and the installation position on the support plate can be adjusted according to the actual condition, so that the application range is wide;

(4) The driving mechanism drives the conveying mechanism to intermittently convey through the first linkage assembly, drives the turnover mechanism to intermittently turn over through the second linkage assembly, and drives the drying mechanism to horizontally move through the first linkage assembly and the third linkage assembly, so that the connection relation of all parts is tight, the relevance exists, the production cost is saved, and the subsequent adjustment is facilitated;

(5) According to the characteristics of different glues and products, when the drying speed needs to be adjusted, only the rotating speed of a driving motor in the driving mechanism needs to be adjusted, the operation of workers in a workshop is facilitated, the requirement on the knowledge level of the workers in the workshop is not high, mistakes are not easy to occur, and the working efficiency is improved.

Drawings

FIG. 1, FIG. 2 and FIG. 3 are schematic views of the present invention from different angles;

FIG. 4 is a partial schematic view of the first conveyor and linkage assembly of the present invention;

FIG. 5 is a schematic view of a partial structure of the driving mechanism, the turnover mechanism and the linkage assembly II of the present invention;

FIG. 6 is a partial structural view of a third linkage assembly of the present invention;

FIG. 7 is a schematic view of the drying mechanism of the present invention;

FIG. 8 is a schematic view of the trigger mechanism of the present invention;

fig. 9 is a schematic structural view of the hot air device of the present invention mounted on a carrier plate.

Wherein, 1-a base, 2-a frame, 3-a driving mechanism, 31-a driving motor, 32-a belt pulley I, 4-a linkage component I, 41-a turntable, 42-a sheave, 43-a belt pulley II, 44-a shifting handle, 45-a shifting head, 5-a conveying mechanism, 51-a conveying roller, 52-a conveying belt, 6-a linkage component II, 61-a gear I, 62-a gear II, 63-a belt pulley III, 64-a belt pulley IV, 7-a turnover mechanism, 71-a turnover plate, 72-a rotating shaft, 73-a slot, 8-a linkage component III, 81-a gear III, 82-a gear IV, 83-a belt pulley V, 84-a belt pulley VI, 85-a belt pulley VII, 86-a belt pulley VIII, 87-connecting shaft I, 88-connecting shaft II, 89-trigger mechanism, 891-wave rod, 892-push rod, 893-external member, 894-arc block, 895-cross rod, 896-groove body, 897-shaft body, 898-contact wheel, 899-spring, 9-drying mechanism, 91-fixed frame, 911-guide groove, 92-moving mechanism, 921-sliding rod, 922-waist-shaped groove, 923-guide rod, 924-carrier plate, 93-actuating mechanism, 931-bevel gear I, 932-bevel gear II, 933-fixed shaft, 934-rotating arm, 935-movable shaft, 10-hot air device, 11-mounting seat, 12-positioning screw and 13-sliding groove.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Fig. 1-9 show embodiments of the present invention: the operating method of the spliced decorative glass drying device comprises a base 1, wherein a rack 2 is arranged on the base 1, a driving mechanism 3, a conveying mechanism 5, a turnover mechanism 7 and drying mechanisms 9 arranged at two ends of the rack 2 are arranged on the rack 2, the driving mechanism 3 drives the conveying mechanism 5 to intermittently convey through a first linkage component 4, drives the turnover mechanism 7 to intermittently overturn through a second linkage component 6, and the driving mechanism 3 drives the drying mechanisms 9 to horizontally move through a first linkage component 4 and a third linkage component 8.

In this embodiment, the driving mechanism 3 includes a driving motor 31, and a first belt pulley 32 connected to an output shaft of the driving motor 31;

the conveying mechanism 5 comprises a conveying roller 51 and a conveying belt 52, the conveying roller 51 is rotatably arranged on the frame 2 through a central shaft of the conveying roller 51, and the conveying belt 52 penetrates through the drying mechanism 9 and the turnover mechanism 7 and is wound on the conveying roller 51;

the first linkage assembly 4 comprises a rotary table 41, a grooved wheel 42 and a second belt pulley 43, the rotary table 41 is rotatably arranged on the frame 2 through a central shaft of the rotary table, the grooved wheel 42 is fixedly connected with the central shaft of the conveying roller 51, a shifting handle 44 is arranged on the rotary table 41, a shifting head 45 is arranged at the end part of the shifting handle 44 downwards, the shifting head 45 is matched with a U-shaped groove in the grooved wheel 42, the second belt pulley 43 is fixedly arranged at the end part of the central shaft of the rotary table 41, and the second belt pulley 43 is in transmission connection with the first belt pulley 32 through a belt.

In this embodiment, the turnover mechanism 7 includes a symmetrical turning plate 71 and a rotating shaft 72 penetrating through the symmetrical turning plate 71, the turning plate 71 is rotatably connected to the frame 2 through the rotating shaft 72, slots 73 adapted to the circuit board are respectively disposed on both sides of the turning plate 71, and bottom surfaces of the slots 73 are consistent with the conveying belt 52.

In this embodiment, the second linkage assembly 6 includes a first gear 61, a second gear 62, a third belt pulley 63 and a fourth belt pulley 64, the first gear 61 is an incomplete gear, the second gear 62 is fixedly connected with the rotating shaft 72, the first gear 61 is rotatably arranged on the rack 2 through the central shaft thereof, the third belt pulley 63 is fixedly connected to the central shaft of the first gear 61, the fourth belt pulley 64 is connected to the output shaft of the driving motor 31, and the fourth belt pulley 64 is connected to the third belt pulley 63 through a belt transmission.

In this embodiment, the drying mechanism 9 includes a fixing frame 91, and an actuating mechanism 93 and a moving mechanism 92 which are arranged on the fixing frame 91, the lower end of the moving mechanism 92 is provided with the hot air device 10, the fixing frame 91 is arranged on the rack 2 and is located above the conveying belt 52, and the actuating mechanism 93 drives the moving mechanism 92 to horizontally reciprocate.

In this embodiment, moving mechanism 92 includes slide bar 921, waist type groove 922 and guide arm 923, the lateral wall sliding fit of slide bar 921 and mount 91, waist type groove 922 is fixed to be set up on slide bar 921, and the bottom in waist type groove 922 is equipped with support plate 924, hot-blast apparatus 10 is fixed on support plate 924, the upper end of mount 91 is equipped with guide way 911, the upper end of guide arm 923 sets up in guide way 911, and the lower extreme is connected with support plate 924, actuating mechanism 93 cooperates with waist type groove 922.

In this embodiment, hot air apparatus 10 is an induction type fan heater, the lower end of support plate 924 is equipped with spout 13, be equipped with the mount pad 11 of i-shaped on the induction type fan heater, mount pad 11 sets up in spout 13 to with spout 13 sliding fit, mount pad 11 passes through set screw 12 with spout 13 and is connected, convenient regulation, and application scope is wide.

In this embodiment, the actuating mechanism 93 includes a first bevel gear 931 and a second bevel gear 932 that are engaged with each other, a fixed shaft 933 rotationally matched with the fixed frame 91 is arranged on the fixed frame 91, the second bevel gear 932 is fixedly arranged on the fixed shaft 933, a rotating arm 934 is arranged at the bottom of the fixed shaft 933, a movable shaft 935 matched with the waist-shaped groove 922 is downwards arranged at the end of the rotating arm 934, and the first bevel gear 931 is connected with a third linkage component 8.

In this embodiment, the third linkage assembly 8 includes a third gear 81, a fourth gear 82, a fifth pulley 83, a sixth pulley 84, a seventh pulley 85 and an eighth pulley 86, the fifth pulley 83 is fixed on the central shaft of the turntable 41, the third gear 81 and the fourth gear 82 are respectively in running fit with the fixing frame 91 through a first connecting shaft 87 and a second connecting shaft 88, the sixth pulley 84 and the seventh pulley 85 are respectively fixed on the first connecting shaft and the second connecting shaft 88, the fifth pulley 83 and the sixth pulley 84 are connected through a belt, the eighth pulley 86 is arranged on the fixing shaft 933 of the fixing frame 91 at the other end and is connected with the seventh pulley 85 through a belt, and the first bevel gear 931 is fixedly connected with the second connecting shaft 88.

In this embodiment, the third linkage assembly 8 further includes a triggering mechanism 89, the triggering mechanism 89 includes a wave-shaped rod 891, a push rod 892 and a sleeve 893 slidably disposed on the first connecting shaft 87, the push rod 892 contacts with the sleeve 893, an arc block 894 matched with the sleeve 893 is disposed on the third gear 81, a cross bar 895 is disposed at the lower end of the push rod 892, a groove 896 is disposed on a side wall of the fixing frame 91, a shaft 897 is disposed in the middle of the groove 896, the wave-shaped rod 891 is rotatably connected with the shaft 897, a rotatable contact wheel 898 is disposed at one end of the wave-shaped rod 891, the other end of the wave-shaped rod 891 is rotatably connected with the cross bar 895, and a spring 899 is disposed between the lower end of the push rod 892 and the fixing frame 91.

The working principle and the process of the invention are as follows:

the device is matched with the glass gluing in the previous process for use, and the spliced decorative glass is conveyed through the previous process;

the driving motor 31 is started, the driving motor 31 drives the first belt pulley 32 to rotate, the second belt pulley 43 is further driven to rotate, the turntable 41 rotates, the grooved pulley 42 is further driven to intermittently rotate, the central shaft of one conveying roller 51 is connected with the grooved pulley 42, the intermittent rotation of the conveying roller 51 is further realized, and the intermittent conveying of the conveying belt 52 is further realized;

when the spliced decorative glass is positioned on the conveying belt 52 of the device and is conveyed to the position right below the fixing frame 91, the conveying belt 52 just stops moving, at the moment, the air outlet of the hot air device 10 is just positioned at the gluing position of the spliced decorative glass, meanwhile, the side wall of the spliced decorative glass is abutted against the contact wheel 898, the wave-shaped rod 891 is further pushed outwards, the other end of the wave-shaped rod 891 is rotatably connected with the push rod 892 through the cross rod 895, and the push rod 892 is further pulled forwards, so that the sleeve 893 is matched with the arc-shaped block 894 on the gear III 81;

the belt pulley six 84 is driven to rotate through the rotation of the belt pulley five 83, the gear three 81 is further driven to rotate, the gear three 81 is meshed with the gear four 82, the gear four 82 is further driven to rotate, the gear four 82 rotates, the gear one 931 rotates, the gear two 932 rotates, the fixing shaft 933 is further driven to rotate, the rotating arm 934 connected with the fixing shaft 933 is further driven to rotate, the end portion of the rotating arm 934 is downwards connected with a movable shaft 935 matched with the waist-shaped groove 922, the sliding rod 921 is further driven to horizontally reciprocate, and the hot air device 10 is used for linearly reciprocating and drying the gluing position of the splicing decorative glass;

when the gear four 82 rotates to drive the bevel gear one 931 to rotate, the belt pulley seven 85 is also driven to rotate, the belt pulley seven 85 drives the belt pulley eight 86 to rotate through a belt, so that the rotation of the belt pulley eight 86 is synchronously realized on the fixing frame 91 at the tail end, the bevel gear one 931 connected with the belt pulley eight 86 rotates to drive the bevel gear two 932 to rotate, so as to drive the fixing shaft 933 to rotate, so as to drive the rotating arm 934 connected with the fixing shaft 933 to rotate, the end part of the rotating arm 934 is downwards connected with the movable shaft 935 matched with the waist-shaped groove 922, so as to drive the sliding rod 921 to horizontally reciprocate, and thus the hot air device 10 can perform linear reciprocating drying on the glued part of the turned spliced decorative glass;

when the spliced decorative glass is conveyed out from the fixing frame 91 at the front end and is separated from the contact wheel 898, the wavy rod 891 and the push rod 892 are respectively reset under the action of the spring 899, the sleeve 893 is separated from the arc-shaped block 894 on the gear three 81, the gear three 81 stops rotating, the gear four 82 stops rotating, and the whole moving mechanism 92 stops operating until the next spliced decorative glass is conveyed.

The turnover mechanism 7 is installed between the drying mechanisms 9 at the front end and the rear end, when the spliced decorative glass is conveyed out from the fixing frame 91 at the front end, the spliced decorative glass is conveyed forwards continuously, when the spliced decorative glass is conveyed into the slot 73, the conveying belt 52 stops conveying, meanwhile, under the driving of the driving motor 31, the belt pulley four 64 rotates, the belt pulley three 63 is further driven to rotate, the gear one 61 is an incomplete gear, the gear one 61 rotates, the gear two 62 rotates intermittently, the spliced decorative glass is turned over, then the conveying belt 52 continues to convey forwards again under the driving of the driving motor 31, when the spliced decorative glass is conveyed to the position right below the fixing frame 91 at the tail end, the conveying belt 52 just stops moving, at the moment, the air outlet of the hot air device 10 is just located at the gluing position of the spliced decorative glass, the hot air device 10 performs linear reciprocating drying on the gluing position of the turned spliced decorative glass, and the front end and the drying mechanisms 9 at the rear end perform linear reciprocating drying processing on the gluing position of the spliced decorative glass synchronously.

Hot-blast apparatus 10 is induction type air heater, when sensing concatenation decorative glass, opens automatically, dries through high-temperature hot-blast, and the mounted position on support plate 924 can be adjusted according to actual conditions, specifically can unscrew set screw 12, and in spout 13, the position of the mount pad 11 of mobile hot-blast apparatus 10 makes its air outlet just be located concatenation decorative glass's rubber coating department, then locks set screw 12 once more and fixes a position, and application scope is wide.

Whole production rhythm relies on a driving motor 31 control, when according to product and glue characteristic, when the production rhythm need be adjusted, only need adjust driving motor 31 the rotational speed can, make things convenient for workshop workman to operate, the stoving that is more fit for the concatenation of small batch volume multiple variety and decorates glass.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the inventive concept of the present invention, and these changes and modifications are all within the scope of the present invention.

Claims (4)

1. The utility model provides an operation method of concatenation decoration glass drying device, drying device includes base (1), its characterized in that: the automatic drying machine is characterized in that a machine frame (2) is arranged on the base (1), a driving mechanism (3), a conveying mechanism (5), a turnover mechanism (7) and drying mechanisms (9) arranged at two ends of the machine frame (2) are arranged on the machine frame (2), the driving mechanism (3) drives the conveying mechanism (5) to intermittently convey through a first linkage component (4), the turnover mechanism (7) is driven to intermittently turn over through a second linkage component (6), and the driving mechanism (3) drives the drying mechanisms (9) to horizontally move through the first linkage component (4) and a third linkage component (8);

the driving mechanism (3) comprises a driving motor (31) and a first belt pulley (32) connected with an output shaft of the driving motor (31);

the conveying mechanism (5) comprises a conveying roller (51) and a conveying belt (52), the conveying roller (51) is rotatably arranged on the rack (2) through a central shaft of the conveying roller, and the conveying belt (52) penetrates through the drying mechanism (9) and the turnover mechanism (7) and is wound on the conveying roller (51);

the linkage assembly I (4) comprises a turntable (41), a grooved pulley (42) and a belt pulley II (43), the turntable (41) is rotatably arranged on the rack (2) through a central shaft of the turntable, the grooved pulley (42) is fixedly connected with the central shaft of the conveying roller (51), a shifting handle (44) is arranged on the turntable (41), a shifting head (45) is arranged at the end part of the shifting handle (44) downwards, the shifting head (45) is matched with a U-shaped groove in the grooved pulley (42), the belt pulley II (43) is fixedly arranged at the end part of the central shaft of the turntable (41), and the belt pulley II (43) is in transmission connection with the belt pulley I (32) through a belt;

the turnover mechanism (7) comprises symmetrical turnover plates (71) and rotating shafts (72) penetrating through the symmetrical turnover plates (71), the turnover plates (71) are rotatably connected with the rack (2) through the rotating shafts (72), slots (73) matched with spliced decorative glass are formed in the two sides of each turnover plate (71), and the bottom surfaces of the slots (73) are consistent with the conveying belt (52);

the linkage assembly II (6) comprises a gear I (61), a gear II (62), a belt pulley III (63) and a belt pulley IV (64), the gear I (61) is an incomplete gear, the gear II (62) is fixedly connected with a rotating shaft (72), the gear I (61) is rotatably arranged on the rack (2) through a central shaft of the gear I, the belt pulley III (63) is fixedly connected onto the central shaft of the gear I (61), the belt pulley IV (64) is connected with an output shaft of the driving motor (31), and the belt pulley IV (64) is in transmission connection with the belt pulley III (63);

the drying mechanism (9) comprises a fixed frame (91), an actuating mechanism (93) and a moving mechanism (92), wherein the actuating mechanism (93) and the moving mechanism (92) are arranged on the fixed frame (91), hot air equipment (10) is arranged at the lower end of the moving mechanism (92), the fixed frame (91) is arranged on the rack (2) and is positioned above the conveying belt (52), and the actuating mechanism (93) drives the moving mechanism (92) to horizontally reciprocate;

the third linkage assembly (8) comprises a third gear (81), a fourth gear (82), a fifth belt pulley (83), a sixth belt pulley (84), a seventh belt pulley (85) and an eighth belt pulley (86), the fifth belt pulley (83) is fixed on a central shaft of the turntable (41), the third gear (81) and the fourth gear (82) are respectively in running fit with the fixed frame (91) through a first connecting shaft (87) and a second connecting shaft (88), the sixth belt pulley (84), the seventh belt pulley (85) is respectively fixed on the first connecting shaft and the second connecting shaft (88), the fifth belt pulley (83) and the sixth belt pulley (84) are in transmission connection through a belt, and the eighth belt pulley (86) is arranged on a fixed shaft (933) of the fixed frame (91) at the other end and is connected with the seventh belt (85) through the belt;

the linkage assembly III (8) further comprises a trigger mechanism (89), the trigger mechanism (89) comprises a wave-shaped rod (891), a push rod (892) and a sleeve piece (893) which are arranged on the connecting shaft I (87) in a sliding mode, the push rod (892) is in contact with the sleeve piece (893), an arc-shaped block (894) matched with the sleeve piece (893) is arranged on the gear III (81), a cross rod (895) is arranged at the lower end of the push rod (892), a groove body (896) is arranged on the side wall of the fixing frame (91), a shaft body (897) is arranged in the middle of the groove body (896), the wave-shaped rod (891) is rotatably connected with the shaft body (897), a rotatable contact wheel (898) is arranged at one end of the wave-shaped rod (891), the other end of the wave-shaped rod is rotatably connected with the cross rod (895), and a spring (899) is arranged between the lower end of the push rod (892) and the fixing frame (91);

the operation method of the drying device comprises the following steps:

starting a driving motor (31), wherein the driving motor (31) drives a first belt pulley (32) to rotate, a second belt pulley (43) rotates to drive a turntable (41) to rotate, the turntable (41) rotates to drive a grooved pulley (42) to intermittently rotate, a conveying roller (51) intermittently rotates, and a conveying belt (52) intermittently conveys;

splicing decorative glass is positioned on the conveying belt (52), when the splicing decorative glass is conveyed to a position right below the fixed frame (91), the conveying belt (52) just stops moving, an air outlet of the hot air device (10) is positioned at a gluing position of the splicing decorative glass, meanwhile, the side wall of the splicing decorative glass is abutted against the contact wheel (898) to push the corrugated rod (891) outwards, the corrugated rod (891) pulls the push rod (892) forwards through the cross rod (895), and the sleeve piece (893) is matched with the arc-shaped block (894) on the gear III (81);

the belt pulley five (83) rotates to drive the belt pulley six (84) and the belt pulley seven (85) to rotate, the gear three (81) drives the gear four (82) to rotate, the gear four (82) rotates to drive the bevel gear two (932) to rotate through the bevel gear one (931), the fixed shaft (933) and the rotating arm (934) rotate, and the sliding rod (921) horizontally reciprocates to drive the hot air device (10) to linearly reciprocate and dry the gluing position of the spliced decorative glass;

the spliced decorative glass is conveyed out of a fixing frame (91) at the front end and separated from a contact wheel (898), a corrugated rod (891) and a push rod (892) reset under the action of a spring (899), a sleeve piece (893) is separated from an arc-shaped block (894) on a gear three (81), the gear three (81) and a gear four (82) stop rotating, and a moving mechanism (92) stops running until the next spliced decorative glass is conveyed;

the spliced decorative glass is continuously conveyed forwards, when the spliced decorative glass is sent into the slot (73), the driving motor (31) drives the belt pulley four (64) to rotate, the gear one (61) rotates to drive the gear two (62) to rotate intermittently, the turnover of the spliced decorative glass is completed, the forward conveying is continuously carried out again through the conveying belt (52), when the spliced decorative glass is conveyed to the position right below the tail end fixing frame (91), the conveying belt (52) stops moving, the air outlet of the hot air equipment (10) is just located at the gluing position of the spliced decorative glass, and the gluing position of the spliced decorative glass after turnover is dried in a linear reciprocating mode.

2. The operation method of the spliced decorative glass drying device according to claim 1, characterized in that: moving mechanism (92) include slide bar (921), waist type groove (922) and guide arm (923), the lateral wall sliding fit of slide bar (921) and mount (91), waist type groove (922) is fixed to be set up on slide bar (921), and the bottom in waist type groove (922) is equipped with support plate (924), hot-blast apparatus (10) are fixed on support plate (924), the upper end of mount (91) is equipped with guide way (911), the upper end setting of guide arm (923) is in guide way (911), and the lower extreme is connected with support plate (924), actuating mechanism (93) cooperate with waist type groove (922).

3. The operation method of the drying device for the spliced decorative glass as claimed in claim 2, wherein: hot-blast apparatus (10) are induction type air heater, the lower extreme of support plate (924) is equipped with spout (13), be equipped with mount pad (11) of I shape on the induction type air heater, mount pad (11) set up in spout (13) to with spout (13) sliding fit, mount pad (11) are connected through set screw (12) with spout (13).

4. The operation method of the spliced decorative glass drying device according to claim 3, characterized in that: actuating mechanism (93) include intermeshing's bevel gear (931) and bevel gear two (932), be equipped with on mount (91) with mount (91) normal running fit's fixed axle (933), bevel gear two (932) are fixed to be set up on fixed axle (933), the bottom of fixed axle (933) is equipped with swinging boom (934), the tip of swinging boom (934) is equipped with downwards with waist type groove (922) complex loose axle (935), bevel gear one (931) are connected with linkage subassembly three (8).

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