CN118619531B - Glass tempering furnace feeding device with guiding function and feeding process thereof - Google Patents

Abstract

The present application discloses a glass tempering furnace feeding device with a guiding function and a feeding process thereof, and belongs to the technical field of glass tempering furnace feeding. It includes a support frame, a first conveying mechanism, a first limiting mechanism, and a second conveying mechanism; the first limiting mechanism includes: a fixed guide roller, which is rotatably arranged on one side of the support frame; a movable guide roller, which is arranged corresponding to the fixed guide roller, and the movable guide roller is driven to move along the direction of the first conveying roller to guide the glass sheet at the first conveying mechanism; a limiting roller, after the direction of the glass sheet is adjusted, the limiting roller rotates, so that the second conveying mechanism conveys the glass sheet to the tempering furnace. Since the present application adopts a row of fixed guide rollers, a row of first guide rollers, several groups of second guide rollers and several groups of limiting rollers, the placed glass sheets can be arranged, and the glass sheets can be transported by the first conveying roller and the second conveying roller, which solves the problem of low feeding efficiency, and thus achieves the technical effect of improving the feeding efficiency of the tempering furnace.

Description

Glass tempering furnace feeding device with guiding function and feeding process thereof

Technical Field

The present application relates to the technical field of glass tempering furnace feeding, and more specifically, to a glass tempering furnace feeding device with a guiding function and a feeding process thereof.

Background Art

Glass tempering furnace is a kind of equipment used to produce tempered glass. It processes glass by physical or chemical methods to improve the strength and safety of glass. This equipment usually includes heating section and cooling section. Through the process of heating and then rapid cooling, compressive stress is formed on the surface of glass and tensile stress is formed inside, so as to enhance the impact resistance and heat resistance of glass.

In the related art, in order to facilitate the feeding of the glass sheet to be processed into the tempering furnace, for example, the patent with the prior art publication number CN220034339U provides an automatic loading device for the tempering furnace, which drives the glass sheet through an upper sheet conveyor belt located below the glass sheet, and the pressure roller is located above the glass sheet, which is used to press the glass sheet on the upper sheet conveyor belt, and the limiting conveyor belt is located on both sides of the glass sheet, which is used to adjust and limit the position of the glass sheet on the upper sheet conveyor belt, so as to achieve an all-round limiting effect; and the distance between the guide rollers on both sides of the frame is greater than the distance between the limiting rollers on both sides of the frame, the glass sheet can enter between the limiting rollers on both sides of the frame under the guidance of the limiting belt on the guide roller, and enter the tempering furnace under the positioning of the limiting belt on the limiting roller, thereby facilitating the adjustment and positioning of the position of the glass sheet on the upper sheet conveyor belt.

Although the above-mentioned prior art solution can adjust the position of the glass sheet and guide the loading effect through the cooperation between the upper conveyor belt and the side guide rollers, when loading the tempered furnace, a plurality of glass sheets are often distributed on the loading rollers at the same time, and then the arrayed glass sheets are simultaneously fed into the tempered furnace; and the existing automatic loading device can only guide and transport the glass sheets through the guide rollers on both sides, which is not convenient for arranging the glass sheets on the top of the loading rollers, thereby reducing the loading efficiency of the tempered furnace.

In view of this, we propose a glass tempering furnace feeding device with a guiding function and a feeding process thereof.

Summary of the invention

The purpose of the present application is to provide a glass tempering furnace feeding device with a guiding function and a feeding process thereof, so as to solve the technical problem of low feeding efficiency and achieve the technical effect of improving the feeding efficiency of the tempering furnace.

One aspect of the present application provides a glass tempering furnace feeding device with a guiding function, comprising:

Support frame;

A first conveying mechanism, disposed on the inner side of the support frame, the first conveying mechanism comprising a plurality of first conveying rollers rotatably disposed on the inner side of the support frame, the first conveying rollers being used to convey the glass sheet to be tempered;

A first limiting mechanism, which is arranged on the inner side of the support frame corresponding to the first conveying mechanism and is used to adjust the conveying direction of the glass sheet;

A second conveying mechanism is arranged on the inner side of the support frame, and the second conveying mechanism is arranged on one side of the first conveying mechanism, and the second conveying mechanism is used to convey the glass sheet after the conveying direction is adjusted to the feeding port of the tempering furnace;

Wherein, the first limiting mechanism comprises:

A fixed guide roller, rotatably arranged on one side of the support frame;

A movable guide roller is arranged corresponding to the fixed guide roller, and the movable guide roller is driven to move along the direction of the first conveying roller to guide the glass sheet at the first conveying mechanism;

The limiting roller is arranged between the first conveying mechanism and the second conveying mechanism. When the movable guide roller guides the glass sheet, the limiting roller limits the glass sheet on the first conveying mechanism. When the direction of the glass sheet is adjusted, the limiting roller rotates so that the second conveying mechanism conveys the glass sheet to the tempering furnace.

As an optional solution of the technical solution of this application document, the movable guide roller includes a first guide roller and a second guide roller;

Wherein, the first guide roller and the fixed guide roller are correspondingly arranged on the other side of the support frame;

The second guide rollers are provided in multiple groups, and the multiple groups of the second guide rollers are all rotatably arranged between the fixed guide roller and the first guide roller;

A guide channel for the glass sheet is formed between the second guide roller and the fixed guide roller, between two adjacent groups of second guide rollers, and between the first guide roller and the second guide roller;

The limiting roller is arranged corresponding to the guide channel.

As an optional solution of the technical solution of this application document, the first limiting mechanism also includes:

A first linear module is arranged on one side of the support frame, and the first linear module is used to drive the first guide roller to move laterally along the support frame;

The second linear module is arranged on one side of the support frame. The second linear module is provided with a plurality of second guide rollers corresponding to the second linear module. The second linear module can drive the corresponding group of second guide rollers to move laterally along the support frame.

As an optional solution of the technical solution of the present application document, each group of the second guide rollers includes two rows arranged along the longitudinal direction of the support frame;

Each row of the second guide rollers is arranged on the same fixed plate;

An adjusting screw is arranged between the two fixing plates to adjust the lateral spacing between the two rows of second guide rollers in the same group.

As an optional solution of the technical solution of this application document, the first limiting mechanism also includes:

A plurality of rotating rods are provided, and the plurality of rotating rods are all rotatably provided on the inner side of the supporting frame;

A first connecting ring is disposed at the bottom end of the corresponding fixed guide roller and the movable guide roller, and the first connecting ring is rotatably sleeved on the outer side of the corresponding rotating rod;

The second connecting ring is arranged at the bottom end of the corresponding limiting roller, and the second connecting ring is fixedly sleeved on the outer side of the corresponding rotating rod, so that when the rotating rod rotates, the corresponding limiting roller can be driven to rotate to release the limiting of the glass sheet.

As an optional solution of the technical solution of this application document, a driving gear is configured on one side of the rotating rod;

A tooth plate is provided on one side of the driving gear, and the tooth plate is slidably arranged on one side of the support frame. The tooth plate is driven to drive the rotating rod through the driving gear, so that the limiting roller rotates.

As an optional solution of the technical solution of this application document, a plurality of tooth plates are arranged on the same driving rod;

A limit pin is vertically arranged at the bottom end of the support frame, the driving rod is slidably arranged on the limit pin, and the driving rod is driven by a driving motor to move along the limit pin to drive the multiple tooth plates to move.

As an optional solution of the technical solution of this application document, it also includes a clutch mechanism, which is driven by the driving motor to realize/disconnect the synchronous conveying of the first conveying mechanism and the second conveying mechanism;

Wherein, the first conveying mechanism comprises a first gear box for driving the first conveying roller to transmit, and the first gear box is driven by a transmission motor;

The second conveying mechanism includes a plurality of second conveying rollers rotatably disposed in the support frame, and a second gear box is disposed on one side of the second conveying rollers;

The clutch mechanism is used to realize transmission and disconnection between the first gear box and the second gear box.

As an optional solution of the technical solution of this application document, the clutch mechanism includes:

There are two frosted sleeves, which are respectively arranged at an output end of the first gear box and an input end of the second gear box;

A protection box is slidably disposed on one side of the support frame, and the protection box is driven by a driving motor to move toward the first gear box side;

A friction disc is arranged on one side of the protection box, and two friction discs are arranged. The two friction discs are respectively arranged corresponding to the two frosting sleeves, and the two friction discs are transmission connected.

As an optional solution of the technical solution of this application document, a limit rod is provided on one side of the first gear box and the second gear box;

The protection box is slidably arranged outside the limiting rod.

As an optional solution of the technical solution of the present application document, it also includes a second limiting mechanism, which is arranged on one side of the second conveying mechanism and is used to limit the glass sheet during the conveying process of the second conveying mechanism;

The second limiting mechanism comprises:

A connecting rod is rotatably arranged on one side of the supporting frame, and the connecting rod is transmission-arranged on one side of the second conveying roller;

The roller is arranged on the outer side of the connecting rod. In the working state, the roller can contact one side of the glass sheet located at the top end of the second conveying mechanism.

Another aspect of the present application further discloses a feeding process of the aforementioned glass tempering furnace feeding device with a guiding function, comprising:

Placing the glass sheet to be tempered on one side of the first conveying mechanism, and the first conveying mechanism conveys the glass sheet;

During the process of the first conveying mechanism conveying the glass sheet, the movable guide roller is driven to move laterally along the support frame to adjust the conveying direction of the glass sheet conveyed by the first conveying mechanism;

The movable guide roller moves laterally along the support frame for multiple times until the last glass sheet is placed, at which time the first glass sheet on the first conveying mechanism abuts against the limiting roller;

The limiting roller rotates to release the restriction on the adjusted glass sheet;

The glass sheet after the direction is adjusted is conveyed from the first conveying mechanism to the second conveying mechanism;

The second conveying mechanism conveys the glass sheet after the direction is adjusted to the feeding port of the tempering furnace.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

(1) The present application adopts a fixed guide roller, a movable guide roller and a plurality of groups of limit rollers, so that the placed glass sheets can be arranged and the glass sheets can be transported by the first conveyor roller and the second conveyor roller, thereby solving the problem of low loading efficiency and achieving the technical effect of improving the loading efficiency of the tempering furnace.

(2) The present application provides a first conveying roller and a second conveying roller in the first conveying mechanism and the second conveying mechanism, so as to transport the glass sheets, ensure the feeding effect of the tempering furnace, and ensure the basic use function of the equipment.

(3) The present application provides a first limiting mechanism on the first conveying mechanism, thereby being able to guide and arrange the glass sheets, thereby improving the use effect of the equipment, and being able to limit the glass sheets to prevent them from shifting.

(4) The present application sets a second limiting mechanism on the second conveying mechanism to limit the glass sheet and prevent the glass sheet from shifting on the second conveying mechanism, thereby improving the use effect of the equipment and ensuring the stability of the equipment's loading function.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of the overall structure of a glass tempering furnace feeding device with a guiding function disclosed in a preferred embodiment of the present application;

FIG2 is a schematic structural diagram of a support frame in a glass tempering furnace feeding device with a guiding function disclosed in a preferred embodiment of the present application;

FIG3 is a schematic structural diagram of a first conveying mechanism in a glass tempering furnace feeding device with a guiding function disclosed in a preferred embodiment of the present application;

FIG4 is a schematic structural diagram of a second conveying mechanism in a glass tempering furnace feeding device with a guiding function disclosed in a preferred embodiment of the present application;

FIG5 is a schematic diagram of the assembly structure of the first conveying mechanism and the second conveying mechanism in the glass tempering furnace feeding device with a guiding function disclosed in a preferred embodiment of the present application;

FIG6 is a schematic structural diagram of a first limiting mechanism in a glass tempering furnace feeding device with a guiding function disclosed in a preferred embodiment of the present application;

FIG7 is a schematic structural diagram of a second guide roller in a glass tempering furnace feeding device with a guide function disclosed in a preferred embodiment of the present application;

FIG8 is a schematic structural diagram of an adjusting screw in a glass tempering furnace feeding device with a guiding function disclosed in a preferred embodiment of the present application;

FIG9 is a schematic structural diagram of a driving motor in a glass tempering furnace feeding device with a guiding function disclosed in a preferred embodiment of the present application;

FIG10 is a schematic structural diagram of a limiting roller in a glass tempering furnace feeding device with a guiding function disclosed in a preferred embodiment of the present application;

FIG11 is a schematic structural diagram of a clutch mechanism in a glass tempering furnace feeding device with a guiding function disclosed in a preferred embodiment of the present application;

FIG. 12 is a schematic structural diagram of a second limiting mechanism in a glass tempering furnace feeding device with a guiding function disclosed in a preferred embodiment of the present application.

Description of the numbers in the figure:

100. Glass pieces;

1. Support frame; 11. Display controller; 12. Limit pin;

2. First conveying mechanism; 21. First conveying roller; 22. Transmission motor; 23. First gear box;

3. Second conveying mechanism; 31. Second conveying roller; 32. Second gear box; 33. Gear 1;

4. First limiting mechanism; 41. Fixed guide roller; 42. First guide roller; 43. Second guide roller; 44. Limiting roller; 45. Second linear module; 46. First linear module; 47. Fixed plate; 48. First connecting ring; 49. Rotating rod; 410. Connecting block; 411. Adjusting screw; 412. Connecting sleeve; 413. First connecting plate; 414. Second connecting plate; 415. Second connecting ring;

5. Drive motor; 51. Pulley; 52. Belt; 53. Gear 2; 54. Gear 3; 55. Connecting rod 1; 56. Connecting rod 2; 57. Connecting rod 3; 58. Drive rod; 59. Tooth plate; 591. Limit plate; 510. Drive gear;

6. Clutch mechanism; 61. Frosted sleeve; 62. Friction plate; 63. Gear 4; 64. Protective box; 65. Limit rod;

7. Second limiting mechanism; 71. Gear five; 72. Connecting rod; 73. Roller.

DETAILED DESCRIPTION

In order to make the purpose, technical scheme and advantages of the embodiments of the present application clearer, the technical scheme in the embodiments of the present application will be clearly and completely described below in conjunction with the drawings in the embodiments of the present application. Obviously, the described embodiments are part of the embodiments of the present application, not all of the embodiments. Based on the embodiments in the present application, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of this application.

It should be noted that in the technical solution of the present application, in order to facilitate the explanation of the technical solution, the directions indicated by the arrows in Figure 1 are defined as horizontal, longitudinal and vertical directions respectively; the above definitions are only for the convenience of explaining the technical solution and do not make any substantial limitations.

The glass tempering furnace feeding device with a guiding function and its working principle recorded in the embodiment of the present application are described below with reference to Figures 1 to 12.

1 to 7 , the present application discloses a glass tempering furnace feeding device with a guiding function, including a support frame 1, a display controller 11 is arranged on the outer side of the support frame 1, a first conveying mechanism 2 is rotatably arranged on the inner side of the support frame 1, the first conveying mechanism 2 includes a plurality of first conveying rollers 21, a second conveying mechanism 3 is also rotatably arranged on the inner side of the support frame 1, the second conveying mechanism 3 is arranged close to the feeding port of the tempering furnace, the second conveying mechanism 3 includes a plurality of second conveying rollers 31, the first conveying mechanism 2 and the second conveying mechanism 3 are used to convey the glass sheet 100, and a first limiting mechanism 4 is also arranged on the inner side of the support frame 1, the first limiting mechanism 4 includes a row of fixed guide rollers 41 and The movable guide rollers include a row of first guide rollers 42 and a plurality of groups of second guide rollers 43; the first limiting mechanism 4 also includes a plurality of groups of limiting rollers 44 for arranging and limiting the glass sheets 100; the first limiting mechanism 4 also includes a plurality of second linear modules 45 for driving the plurality of groups of second guide rollers 43 to move; the first limiting mechanism 4 also includes a first linear module 46 for driving a row of first guide rollers 42 to move; a clutch mechanism 6 is provided on the outer side of the support frame 1; a driving motor 5 is provided at the bottom of the clutch mechanism 6 for driving the clutch mechanism 6 to link the first conveying mechanism 2 and the second conveying mechanism 3, and can drive the limiting rollers 44 to rotate.

The glass sheet 100 is placed on the first conveying roller 21 on one side, and then the second linear module 45 is started to drive one group of second guide rollers 43 to move, so that the fixed guide roller 41 and the group of second guide rollers 43 limit the glass sheet 100. This action is repeated until the last glass sheet 100 is placed, and the first linear module 46 is started to drive a row of first guide rollers 42 to move, so that the front group of second guide rollers 43 and a row of first guide rollers 42 limit the last glass sheet 100, so that the equipment automatically arranges the glass sheets 100. While placing the glass sheet 100, the first conveying mechanism 2 is started, and multiple The first conveying roller 21 drives the glass sheet 100 to move to the corresponding limiting roller 44. Each group of limiting rollers 44 can block the corresponding glass sheet 100. When a row of glass sheets 100 is placed, the driving motor 5 is started to drive several groups of limiting rollers 44 to rotate and open, so that the glass sheet 100 can continue to move. At the same time, the driving motor 5 drives the clutch mechanism 6 to link the first conveying mechanism 2 and the second conveying mechanism 3. The second conveying mechanism 3 operates to convey the glass sheet 100 to the entrance of the tempering furnace, completing the transportation effect of the equipment. The equipment can arrange the glass sheets 100 and convey the glass sheets 100, thereby increasing the loading efficiency of the tempering furnace.

1 , 3 and 5 , the first conveying mechanism 2 further includes a transmission motor 22 , which is fixedly disposed on the outer side of the support frame 1 , and a first gear box 23 is fixedly disposed on the output end of the transmission motor 22 , and several output ends of the first gear box 23 are respectively fixedly disposed with corresponding first conveying rollers 21 .

The first gear box 23 is driven to operate by the transmission motor 22 , and a plurality of output ends of the first gear box 23 drive the corresponding first conveying rollers 21 to rotate, thereby achieving the effect of transporting the glass sheet 100 .

1 , 4 and 5 , the second conveying mechanism 3 further includes a second gear box 32 , which is fixedly disposed on the outer side of the support frame 1 , and several output ends of the second gear box 32 are fixedly disposed with corresponding second conveying rollers 31 .

The second gear box 32 drives the plurality of second conveying rollers 31 to rotate, thereby transporting the glass sheet 100 .

6 and 7, the first limiting mechanism 4 further includes a plurality of fixed plates 47, which can fix each row of fixed guide rollers 41, the first guide rollers 42, and the second guide rollers 43 on the inner side of the support frame 1. A row of fixed guide rollers 41, a row of first guide rollers 42, and a plurality of groups of second guide rollers 43 are all fixedly provided with first connecting rings 48 at the bottom, and each row of first connecting rings 48 is rotatably provided with a rotating rod 49, and a plurality of rotating rods 49 are rotatably provided on the inner side of the support frame 1, and one end of the rotating rods 49 corresponding to the plurality of groups of second guide rollers 43 is fixedly provided with Connecting block 410, the inner sides of every two adjacent connecting blocks 410 are meshed together with adjusting screws 411, the outer sides of several adjusting screws 411 are fixedly provided with connecting sleeves 412, the bottoms of several connecting sleeves 412 are fixedly provided with first connecting plates 413, one side of several first connecting plates 413 are respectively fixedly provided with the output ends of the corresponding second linear modules 45, a second connecting plate 414 is fixedly provided at one end of the rotating rod 49 corresponding to a row of first guide rollers 42, and one side of the second connecting plate 414 is fixedly provided with the output end of the first linear module 46.

After the glass sheet 100 is placed on the first conveying roller 21, the second linear module 45 is started to drive the first connecting plate 413 to move, thereby driving the connecting sleeve 412 to move, so that the connecting sleeve 412 drives the adjusting screw 411 to move, and the adjusting screw 411 drives the connecting block 410 and the rotating rod 49 connected thereto to move, and the rotating rod 49 drives the corresponding first connecting ring 48 to move, and the first connecting ring 48 drives the corresponding group of second guide rollers 43 to move, so that the fixed guide roller 41 and the group of second guide rollers 43 limit the glass sheet 100, and this action is repeated until the last glass sheet 100 is placed, and the first linear module 46 is started to drive the second connecting plate 414 to move, Thereby, the rotating rod 49 connected thereto is driven to move, and the rotating rod 49 drives the corresponding first connecting ring 48 to move, and the first connecting ring 48 drives a row of first guide rollers 42 to move, so that the front group of second guide rollers 43 and a row of first guide rollers 42 limit the last glass sheet 100, and the equipment automatically arranges the glass sheets 100, wherein the fixed plate 47 can limit a row of fixed guide rollers 41, a row of first guide rollers 42 and a plurality of groups of second guide rollers 43 to prevent them from rotating, and by rotating the adjusting screw 411, the adjusting screw 411 drives the two corresponding connecting blocks 410 to move, so as to adjust the distance between two rows of second guide rollers 43 in a group of second guide rollers 43.

7, 9 and 10, a second connecting ring 415 is fixedly provided at the bottom of several groups of limiting rollers 44, a group of pulleys 51 is provided on one side of the driving motor 5, the inner side of one of the pulleys 51 is fixedly provided with the output end of the driving motor 5, a belt 52 is meshed together on the outer side of one group of pulleys 51, a gear 2 53 is fixedly provided on one side of another pulley 51, a gear 3 54 is meshed and connected on the outer side of the gear 2 53, a connecting rod 1 55 is fixedly provided on one side of the pulley 51 connected to the output end of the driving motor 5, a connecting rod 2 56 is fixedly provided on one side of the connecting rod 1 55, a connecting rod 3 57 is fixedly provided on one side of the gear 3 54, and the connecting rod 2 56 and the connecting rod 3 57 are fixedly provided on one side of the gear 3 54. A driving rod 58 is provided at the bottom of the three 57 for common rotation, and a plurality of tooth plates 59 are fixedly provided at the top of the driving rod 58 corresponding to a row of fixed guide rollers 41, a row of first guide rollers 42 and a plurality of groups of second guide rollers 43. Limit plates 591 are slidably provided on one side of the plurality of tooth plates 59, and the plurality of limit plates 591 are fixedly provided with the corresponding fixed plates 47. A driving gear 510 is meshedly provided on one side of the plurality of tooth plates 59, and the inner sides of the plurality of driving gears 510 are respectively fixedly provided with the outer sides of the corresponding first connecting rings 48. Two limit pins 12 are symmetrically fixedly provided on the inner side of the support frame 1, and the two ends of the driving rod 58 are respectively slidably provided with the corresponding limit pins 12.

By starting the motor 5, the connecting rod 1 55 and the connecting rod 2 56 are driven to rotate, and at the same time, a pulley 51 is driven to rotate, which drives the belt 52 to rotate, thereby driving another pulley 51 to rotate, and this pulley 51 drives the gear 2 53 to rotate, thereby driving the gear 3 54 to rotate, and the gear 3 54 drives the connecting rod 3 57 to rotate, so that the connecting rod 2 56 and the connecting rod 3 57 simultaneously drive the driving rod 58 to rotate, and under the limiting effect of the limiting pin 12 and the limiting plate 591, the tooth plate 59 is driven to move, thereby driving the driving gear 510 to rotate, and the driving gear 510 drives the first connecting ring 48 to rotate, thereby driving a plurality of groups of limiting rollers 44 to open through the second connecting ring 415, so that the glass sheet 100 passes through.

Referring to Figures 3, 4, 5, 11 and 12, the clutch mechanism 6 includes a frosted sleeve 61, and the two frosted sleeves 61 are respectively fixed to an output end of the first gear box 23 and an input end of the second gear box 32, and friction plates 62 are slidably arranged on the outer sides of the two frosted sleeves 61. The two friction plates 62 are linked through three gear fours 63, and a protective box 64 is arranged on the outer sides of the three gear fours 63. One side of the protective box 64 is rotatably arranged with the top of the connecting rod 55, and limiting rods 65 are slidably arranged at the four corners of the protective box 64, and the four limiting rods 65 are respectively fixed on one side of the first gear box 23 and the second gear box 32.

By rotating the connecting rod 55, under the limit of four limit rods 65, the protection box 64 is driven to move, and the protection box 64 drives the gear four 63 and the friction plate 62 to move, so that the friction plate 62 is docked with the frosted sleeve 61, and the inner side of the frosted sleeve 61 and one side of the friction plate 62 are both frosted surfaces. The frosted sleeve 61 connected to the first gear box 23 rotates, and the corresponding friction plate 62 is driven to rotate. The friction plate 62 is driven by the transmission of the three gear four 63 to drive another friction plate 62 to rotate, thereby driving the frosted sleeve 61 connected to the second gear box 32 to rotate, and then driving the second gear box 32 to operate.

12 , the second limiting mechanism 7 includes a plurality of gear fives 71 , a connecting rod 72 is fixedly provided on one side of the plurality of gear fives 71 , a plurality of rollers 73 are fixedly provided on the outer sides of the plurality of connecting rods 72 , a plurality of second conveying rollers 31 corresponding to the gear fives 71 are fixedly provided with a gear one 33 at one end, and the plurality of gear one 33 are meshed with the corresponding gear five 71 .

The plurality of second conveying rollers 31 rotate to drive the plurality of gears 1 33 to rotate, thereby driving the plurality of gears 5 71 to rotate, and the plurality of gears 5 71 drive the plurality of connecting rods 72 to rotate, thereby driving the plurality of rollers 73 to rotate, thereby squeezing and limiting the glass sheet 100 on the top of the second conveying mechanism 3 to prevent the glass sheet 100 from deflecting.

In summary, when the glass tempering furnace feeding device with a guiding function disclosed in the embodiment of the present application is used, the glass sheet 100 is placed on the first conveying roller 21 on one side, and then the second linear module 45 is started to drive the first connecting plate 413 to move, thereby driving the connecting sleeve 412 to move, so that the connecting sleeve 412 drives the adjusting screw 411 to move, and the adjusting screw 411 drives the connecting block 410 and the rotating rod 49 connected thereto to move, and the rotating rod 49 drives the corresponding first connecting ring 48 to move, and the first connecting ring 48 drives the corresponding group of second guide rollers 43 to move, so that the fixed guide roller 41 and the group of second guide rollers 43 limit the glass sheet 100, and this action is repeated until the last glass sheet 100 is placed;

Start the first linear module 46 to drive the second connecting plate 414 to move, thereby driving the rotating rod 49 connected thereto to move, the rotating rod 49 drives the corresponding first connecting ring 48 to move, the first connecting ring 48 drives a row of first guide rollers 42 to move, so that the front group of second guide rollers 43 and a row of first guide rollers 42 limit the last glass sheet 100, thereby completing the function of the equipment automatically arranging the glass sheets 100.

When the glass sheets 100 are placed, the transmission motor 22 is started, and the first gear box 23 is driven to operate by the transmission motor 22. Several output ends of the first gear box 23 drive the corresponding first conveying rollers 21 to rotate, and multiple first conveying rollers 21 drive the glass sheets 100 to move and move to the corresponding limiting rollers 44. Each group of limiting rollers 44 can block the corresponding glass sheets 100. When a row of glass sheets 100 is placed, the driving motor 5 is started to drive the second connecting rod 56 to rotate, and at the same time drive a pulley 51 to rotate, drive the belt 52 to rotate, thereby driving another pulley 51 to rotate, this pulley 51 drives the second gear 53 to rotate, thereby driving the third gear 54 to rotate, and the third gear 54 drives the third connecting rod 57 to rotate, so that the second connecting rod 56 and the third connecting rod 57 simultaneously drive the driving rod 58 to rotate, and under the limiting effect of the limiting pin 12, the toothed plate 59 is driven to move, thereby driving the driving gear 510 to rotate, and the driving gear 510 drives the first connecting ring 48 to rotate, thereby The second connecting ring 415 drives several groups of limiting rollers 44 to open, so that the glass sheet 100 can continue to move, and at the same time drives the motor 5 to drive the connecting rod 1 55 to rotate. Under the limit of the four limiting rods 65, the protective box 64 is driven to move, and the protective box 64 drives the gear 4 63 and the friction plate 62 to move, so that the friction plate 62 is docked with the frosted sleeve 61. The inner side of the frosted sleeve 61 and one side of the friction plate 62 are both frosted surfaces. The frosted sleeve 61 connected to the first gear box 23 rotates, and the corresponding friction plate 62 is driven to rotate. The friction plate 62 drives another friction plate 62 to rotate through the transmission of the three gears 4 63, thereby driving the frosted sleeve 61 connected to the second gear box 32 to rotate, and then drives the second gear box 32 to operate. The operation of the second gear box 32 drives several second conveying rollers 31 to rotate, and conveys the glass sheet 100 to the entrance of the tempering furnace, completing the transportation effect of the equipment. The equipment can arrange the glass sheets 100 and convey the glass sheets 100, thereby increasing the feeding efficiency of the tempering furnace.

In this application, unless otherwise clearly specified and defined, the terms "installed", "connected", "connected", "fixed" and the like should be understood in a broad sense, for example, it can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection, an electrical connection, or can communicate with each other; it can be a direct connection, or an indirect connection through an intermediate medium, it can be the internal connection of two elements or the interaction relationship between two elements. For ordinary technicians in this field, the specific meanings of the above terms in this application can be understood according to specific circumstances.

Although the preferred embodiments of the present application have been described, those skilled in the art may make other changes and modifications to these embodiments once they have learned the basic creative concept. Therefore, the appended claims are intended to be interpreted as including the preferred embodiments and all changes and modifications falling within the scope of the present application.

Obviously, those skilled in the art can make various changes and modifications to the present application without departing from the spirit and scope of the present application. Thus, if these modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is also intended to include these modifications and variations.

Claims (11)

1. A glass tempering furnace feeding device with a guiding function, characterized in that it comprises: Support frame (1); A first conveying mechanism (2) is arranged on the inner side of the support frame (1), the first conveying mechanism (2) comprising a plurality of first conveying rollers (21) rotatably arranged on the inner side of the support frame (1), the first conveying rollers (21) being used to convey the glass sheet (100) to be tempered; A first limiting mechanism (4) is arranged on the inner side of the support frame (1) corresponding to the first conveying mechanism (2) and is used to adjust the conveying direction of the glass sheet (100); A second conveying mechanism (3) is arranged on the inner side of the support frame (1), and the second conveying mechanism (3) is arranged on one side of the first conveying mechanism (2), and the second conveying mechanism (3) is used to convey the glass sheet (100) after the conveying direction is adjusted to the feeding port of the tempering furnace; Wherein, the first limiting mechanism (4) comprises: A fixed guide roller (41) rotatably arranged on one side of the support frame (1); a movable guide roller, arranged corresponding to the fixed guide roller (41), and the movable guide roller is driven to move in the direction of the first conveying roller (21) to guide the glass sheet (100) at the first conveying mechanism (2); a limiting roller (44) disposed between the first conveying mechanism (2) and the second conveying mechanism (3); when the movable guide roller guides the glass sheet (100), the limiting roller (44) limits the glass sheet (100) on the first conveying mechanism (2); when the direction of the glass sheet (100) is adjusted, the limiting roller (44) rotates so that the second conveying mechanism (3) conveys the glass sheet (100) to the tempering furnace; A plurality of rotating rods (49) are provided, and the plurality of rotating rods (49) are all rotatably arranged on the inner side of the support frame (1); A first connecting ring (48) is arranged at the bottom end of the corresponding fixed guide roller (41) and the movable guide roller, and the first connecting ring (48) is rotatably sleeved on the outer side of the corresponding rotating rod (49); The second connection ring (415) is arranged at the bottom end of the corresponding limiting roller (44), and the second connection ring (415) is fixedly sleeved on the outer side of the corresponding rotating rod (49), so that when the rotating rod (49) rotates, it can drive the corresponding limiting roller (44) to rotate to release the limiting of the glass sheet (100). 2. The glass tempering furnace feeding device with a guiding function according to claim 1, characterized in that the movable guide roller comprises a first guide roller (42) and a second guide roller (43); Wherein, the first guide roller (42) and the fixed guide roller (41) are arranged correspondingly on the other side of the support frame (1); The second guide rollers (43) are provided in multiple groups, and the multiple groups of the second guide rollers (43) are all rotatably arranged between the fixed guide roller (41) and the first guide roller (42); A guide channel for the glass sheet (100) is formed between the second guide roller (43) and the fixed guide roller (41), between two adjacent groups of second guide rollers (43), and between the first guide roller (42) and the second guide roller (43); The limiting roller (44) is arranged corresponding to the guide channel. 3. The glass tempering furnace feeding device with a guiding function according to claim 2, characterized in that the first limiting mechanism (4) further comprises: A first linear module (46) is arranged on one side of the support frame (1), and the first linear module (46) is used to drive the first guide roller (42) to move laterally along the support frame (1); The second linear module (45) is arranged on one side of the support frame (1), and a plurality of the second linear modules (45) are arranged corresponding to the second guide rollers (43). The second linear module (45) can drive the corresponding group of the second guide rollers (43) to move laterally along the support frame (1). 4. The glass tempering furnace feeding device with a guiding function according to claim 3, characterized in that each group of the second guide rollers (43) comprises two rows arranged longitudinally along the support frame (1); Each row of the second guide rollers (43) is arranged on the same fixed plate (47); An adjusting screw (411) is arranged between the two fixing plates (47) to adjust the lateral spacing between two rows of second guide rollers (43) in the same group. 5. The glass tempering furnace feeding device with a guiding function according to claim 4, characterized in that a driving gear (510) is disposed on one side of the rotating rod (49); A toothed plate (59) is provided on one side of the driving gear (510), and the toothed plate (59) is slidably arranged on one side of the support frame (1). The toothed plate (59) is driven to drive the rotating rod (49) through the driving gear (510), so that the limiting roller (44) rotates. 6. The glass tempering furnace feeding device with a guiding function according to claim 5, characterized in that a plurality of the tooth plates (59) are arranged on the same driving rod (58); A limit pin (12) is vertically arranged at the bottom end of the support frame (1), the driving rod (58) is slidably arranged on the limit pin (12), and the driving rod (58) is driven by a driving motor (5) to move along the limit pin (12) to drive the plurality of tooth plates (59) to move. 7. The glass tempering furnace feeding device with a guiding function according to claim 6, characterized in that it also comprises a clutch mechanism (6), wherein the clutch mechanism (6) is driven by the driving motor (5) to realize/disconnect the synchronous conveying of the first conveying mechanism (2) and the second conveying mechanism (3); Wherein, the first conveying mechanism (2) comprises a first gear box (23) for driving the first conveying roller (21) for transmission, and the first gear box (23) is driven by a transmission motor (22); The second conveying mechanism (3) comprises a plurality of second conveying rollers (31) rotatably arranged in the support frame (1), and a second gear box (32) is arranged on one side of the second conveying rollers (31); The clutch mechanism (6) is used to realize transmission and disconnection between the first gear box (23) and the second gear box (32). 8. The glass tempering furnace feeding device with a guiding function according to claim 7, characterized in that the clutch mechanism (6) comprises: Two frosted sleeves (61) are provided, and the two frosted sleeves (61) are respectively provided at an output end of the first gear box (23) and an input end of the second gear box (32); A protection box (64) is slidably disposed on one side of the support frame (1), and the protection box (64) is driven by the drive motor (5) to move toward the first gear box (23); The friction disc (62) is arranged on one side of the protection box (64), and two friction discs (62) are provided. The two friction discs (62) are respectively provided corresponding to the two frosting sleeves (61), and the two friction discs (62) are transmission-connected. 9. The glass tempering furnace feeding device with a guiding function according to claim 8, characterized in that a limiting rod (65) is provided on one side of the first gear box (23) and the second gear box (32); The protection box (64) is slidably disposed outside the limiting rod (65). 10. The glass tempering furnace feeding device with a guiding function according to claim 7, characterized in that it also comprises a second limiting mechanism (7), wherein the second limiting mechanism (7) is arranged on one side of the second conveying mechanism (3) and is used to limit the position of the glass sheet (100) during the conveying process of the second conveying mechanism (3); The second limiting mechanism (7) comprises: A connecting rod (72) is rotatably arranged on one side of the support frame (1), and the connecting rod (72) is transmission-arranged on one side of the second conveying roller (31); The roller (73) is arranged on the outside of the connecting rod (72); in a working state, the roller (73) can contact one side of the glass sheet (100) located at the top end of the second conveying mechanism (3). 11. The feeding process of the glass tempering furnace feeding device with a guiding function according to any one of claims 1 to 10, characterized in that it comprises: Placing the glass sheet (100) to be tempered on one side of the first conveying mechanism (2), and the first conveying mechanism (2) conveys the glass sheet (100); During the process of the first conveying mechanism (2) conveying the glass sheet (100), the movable guide roller is driven to move laterally along the support frame (1) to adjust the conveying direction of the glass sheet (100) conveyed by the first conveying mechanism (2); The movable guide roller moves laterally along the support frame (1) multiple times until the last glass sheet (100) is placed, at which time the first glass sheet (100) on the first conveying mechanism (2) contacts the limiting roller (44); The limiting roller (44) rotates to release the restriction on the adjusted glass sheet (100); The glass sheet (100) after the direction adjustment is conveyed from the first conveying mechanism (2) to the second conveying mechanism (3); The second conveying mechanism (3) conveys the glass sheet (100) after the direction is adjusted to the feeding port of the tempering furnace.