CN215283866U - Laminated glass production line - Google Patents

Abstract

The utility model provides a doubling glass production line belongs to glass production facility technical field. Including heating conveying area and the terminal cooling conveying area of connection heating conveying area, cooling conveying area includes the frame, go up compression roller and a plurality of compression roller down, each goes up the compression roller and rotates and connect in the frame, the both ends of compression roller down link to each other with the frame through a first stand respectively, be provided with an response slagging-off roller between the adjacent compression roller down, the plane at each response slagging-off roller place is less than the plane at each compression roller place down, the both ends of response slagging-off roller link to each other with the frame through a second stand respectively, the slagging-off clearance has between compression roller and the response slagging-off roller that closes on with it down. The utility model has the advantages of can accomplish glass piece's processing etc. on line.

Description

Laminated glass production line

Technical Field

The utility model belongs to the technical field of glass production facility, a doubling glass production line is related to.

Background

The laminated glass is a composite glass which is formed by two or more pieces of glass, wherein one or more layers of organic polymers are arranged in the middle of the glass to be used as an intermediate film, and then the glass and the intermediate film are permanently bonded into a whole through high-temperature high-pressure treatment. In the production process, the glass after glue beating and compounding is heated to soften the intermediate glue body, certain pressure is applied to extrude bubbles and enhance the bonding strength, and then the intermediate glue body is solidified in a cooling mode to form the finished product of laminated glass.

Due to the fact that pressure between clamping pieces needs to be kept, stress caused by temperature change, defective glass is deformed due to heating and the like, the situation that glass cups are crushed can occur in the heating online cooling process, in the existing mode, manual online nursing is needed, the glass breakage needs to be stopped timely, and on one hand, broken glass is cleaned. The glass heating device does not influence subsequent glass conveying, and on the other hand, the heating condition of the glass needs to be controlled, so that the phenomenon that the glass in a heating area is heated for too long time in the shutdown process is avoided, and although the shutdown affects the processing continuity of the laminated glass, the quality of the batch of laminated glass is also affected.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a doubling glass production line to the above-mentioned problem that prior art exists, the utility model aims to solve the technical problem of how to make the production line keep continuous operation when taking place glass damage.

The purpose of the utility model can be realized by the following technical proposal: a laminated glass production line is characterized by comprising a heating conveying area and a cooling conveying area connected with the tail end of the heating conveying area, wherein the cooling conveying area comprises a rack, upper compression rollers and a plurality of lower compression rollers, each upper compression roller is rotatably connected to the rack, two ends of each lower compression roller are respectively connected with the rack through a first upright post, an induction deslagging roller is arranged between every two adjacent lower compression rollers, the plane of each induction deslagging roller is lower than the plane of each lower compression roller, two ends of each induction deslagging roller are respectively connected with the rack through a second upright post, and a deslagging gap is formed between each lower compression roller and the induction deslagging roller adjacent to the lower compression roller;

the frame is rotatably connected with a driving shaft, the driving shaft is provided with a plurality of first belt wheels which are in one-to-one correspondence with the lower compression roller, the lower compression roller is fixedly provided with second belt wheels which are matched with the first belt wheels, and a belt is connected between the first belt wheels and the second belt wheels;

the induction deslagging roller comprises a roller sleeve, a central shaft and two sensing assemblies respectively arranged at two ends of the central shaft, wherein a plurality of mounting holes are formed in the central shaft, each mounting hole is vertical to the axis of the central shaft, a positioning rod is inserted into each mounting hole, the outer end of each positioning rod is fixedly connected with the inner wall of the roller sleeve, a compression spring abutting against the inner wall of the roller sleeve and the outer wall of the central shaft is sleeved on each positioning rod, each positioning rod is positioned in the same plane, and a phase angle of 180 degrees is formed between the connecting points of the adjacent positioning rods and the roller sleeve;

the utility model discloses a sensor, including the installation cover of rotating connection at the central axis tip, the installation cover is fixed continuous with the second stand, the fixed trigger bar that is provided with two symmetric distributions on the center pin, the trigger bar is the arc, the ear of wearing that leads to the trigger bar has on the installation cover inner wall, the cover is equipped with a reset spring on the trigger bar, reset spring's both ends respectively with wear ear and central axis fixed continuous, be provided with a pressure sensor on the installation cover, pressure sensor can be triggered by the tip of trigger bar when the relative installation cover of trigger bar is rotatory.

Further, be provided with a guiding hole on the installation cover, sliding connection has a ejector pin in the guiding hole, threaded connection has an adjusting bolt in the guiding hole, pressure sensor sets up on adjusting bolt, set up one in the ejector pin and dodge the hole, it is equipped with a return spring to dodge the downthehole interpolation, return spring's both ends are supported respectively and are leaned on adjusting bolt and dodge between the hole top surface.

Further, the heating conveying area comprises a closed heating cavity, a plurality of conveying rollers are arranged at the bottom of the heating cavity, and the conveying rollers are driven by a driving shaft.

Further, the pressure sensor is connected with an alarm.

Further, the first belt wheel is connected with the driving shaft through an overrunning clutch.

Furthermore, spiral convex ribs are arranged on the circumferential surfaces of the lower pressing roller and the induction slag removing roller.

Furthermore, a plurality of avoidance areas are arranged on the lower pressing roller and the induction slag removing roller.

The laminated glass is fed from an inlet of a heating conveying area, the laminated glass is heated in the feeding conveying area and is conveyed to move into a cooling conveying area, and under the pressure action of an upper pressing roller and a lower pressing roller, the laminated glass is slowly cooled and continuously pressed.

When the cooling conveying area is damaged due to various reasons, because the laminated glass is the composite glass which is not framed at the moment, the damaged glass is a block, part of the glass falls into the lower part of the cooling conveying area from the avoiding area, and the glass block which cannot pass through the avoiding area or is not positioned in the avoiding area can be continuously extruded by the upper pressing roller and the lower pressing roller to be quickly broken into a block or a granular shape.

Complete doubling glass can not contact with response slagging-off roller, but can connect the sense of touch to answer the slagging-off roller after its damage, and the extrusion force makes response slagging-off roller "off-centre" to the rotation of certain angle is attached to, so that the glass fragment falls into in the disintegrating slag storage space below by the clearance between response slagging-off roller and the lower pinch roll.

The principle that the induction deslagging roller is pressed to realize eccentricity is as follows: the glass fragments extrude the roller shell of the induction deslagging roller, and the glass fragments extrude the compression spring to make the roller shell deviate from the central shaft to realize eccentricity in the rotating process of the lower pressing roller.

The principle that the induction slag removing roller sends out an alarm signal to an alarm when broken glass occurs is as follows: although the roller sleeve deviates relative to the central shaft when the glass fragments extrude the roller sleeve, the rotation synchronization of the roller sleeve and the central shaft can be kept, the adjacent lower pressing roller is enabled to extrude the glass fragments in the rotating process, so that the roller body and the central shaft of the induction deslagging roller rotate along with the glass fragments, the central shaft and the trigger rod rotate synchronously, the trigger rod rotates at a certain angle relative to the mounting sleeve, the trigger rod extrudes the ejector rod, so that the ejector rod abuts against the pressure sensor, the pressure sensor is triggered, the pressure sensor transmits a signal to the alarm, and the action corresponding to the glass breakage signal is made, such as sound prompt and the like.

Each induction deslagging roller is numbered, so that the position where glass is damaged can obtain corresponding data at the monitoring end.

This production line not only can realize cullet's online clearance, makes it fall into the corresponding position of keeping away from the cooling conveying district, need not stop the line, but also can realize prompt facility, under the condition of unmanned on-line supervision, arranges the staff again after obtaining the breakage signal and nurse to meet an urgent need or handle other trouble and bad situation that can not accomplish automatically.

The overrunning clutch arranged between the first belt pulley and the driving shaft can prevent one or more lower press rollers from influencing the normal operation of other lower press rollers when the rotation of one or more lower press rollers is blocked.

Drawings

FIG. 1 is a schematic structural view of the present production line.

Fig. 2 is a schematic view of the structure of the lower roll.

Fig. 3 is a schematic structural view of an induction skimming roll.

Fig. 4 is a sectional view taken along a-a in fig. 3.

Fig. 5 is a sectional view taken along the direction B-B in fig. 3.

In the figure, 1, a conveying area is heated; 2. a cooling transport zone; 21. a frame; 22. an upper compression roller; 23. a lower pressing roller; 24. a first upright post; 25. a first pulley; 26. a second pulley; 27. a belt; 28. a second upright post; 29. a drive shaft; 3. an induction deslagging roller; 31. a roller sleeve; 32. a central shaft; 33. positioning a rod; 34. a compression spring; 35. installing a sleeve; 36. a trigger lever; 37. ear piercing; 38. a return spring; 39. a pressure sensor; 41. a top rod; 42. adjusting the bolt; 43. a return spring; 44. a rib is protruded; 45. an avoidance zone; 5. and (6) conveying rollers.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 5, the device comprises a heating conveying area 1 and a cooling conveying area 2 connected with the tail end of the heating conveying area 1, wherein the cooling conveying area 2 comprises a frame 21, an upper press roller 22 and a plurality of lower press rollers 23, each upper press roller 22 is rotatably connected on the frame 21, two ends of each lower press roller 23 are respectively connected with the frame 21 through a first upright post 24, an induction deslagging roller 3 is arranged between adjacent lower press rollers 23, the plane of each induction deslagging roller 3 is lower than the plane of each lower press roller 23, two ends of each induction deslagging roller 3 are respectively connected with the frame 21 through a second upright post 28, and a deslagging gap is formed between each lower press roller 23 and the induction deslagging roller 3 adjacent to the lower press roller;

a driving shaft 29 is rotatably connected to the frame 21, a plurality of first belt pulleys 25 corresponding to the lower pressure rollers 23 one by one are arranged on the driving shaft 29, second belt pulleys 26 matched with the first belt pulleys 25 are fixedly arranged on the lower pressure rollers 23, and a belt 27 is connected between the first belt pulleys 25 and the second belt pulleys 26;

the induction deslagging roller 3 comprises a roller sleeve 31, a central shaft 32 and two sensing assemblies respectively arranged at two ends of the central shaft 32, wherein a plurality of mounting holes are formed in the central shaft 32, each mounting hole is vertical to the axis of the central shaft 32, a positioning rod 33 is inserted into each mounting hole, the outer end of each positioning rod 33 is fixedly connected with the inner wall of the roller sleeve 31, a compression spring 34 abutting against the inner wall of the roller sleeve 31 and the outer wall of the central shaft 32 is sleeved on each positioning rod 33, each positioning rod 33 is positioned in the same plane, and a phase angle of 180 degrees is formed between the connecting points of the adjacent positioning rods 33 and the roller sleeve 31;

sensing element is including rotating the installation cover 35 of connection at center pin 32 tip, installation cover 35 links to each other with second stand 28 is fixed, the fixed trigger bar 36 that is provided with two symmetric distributions on the center pin 32, trigger bar 36 is the arc, it wears ear 37 to have to trigger bar 36 on the installation cover 35 inner wall to lead, the cover is equipped with a reset spring 38 on the trigger bar 36, reset spring 38's both ends respectively with wear ear 37 and center pin 32 fixed linking to each other, be provided with a pressure sensor 39 on the installation cover 35, pressure sensor 39 can be triggered by the tip of trigger bar 36 when trigger bar 36 is rotatory relatively the installation cover 35.

The mounting sleeve 35 is provided with a guide hole, a push rod 41 is connected in the guide hole in a sliding mode, an adjusting bolt 42 is connected in the guide hole in a threaded mode, the pressure sensor 39 is arranged on the adjusting bolt 42, an avoiding hole is formed in the push rod 41, a return spring 43 is inserted into the avoiding hole, and two ends of the return spring 43 abut against the adjusting bolt 42 and the top face of the avoiding hole respectively.

The heating and conveying area 1 comprises a closed heating cavity, a plurality of conveying rollers 5 are arranged at the bottom of the heating cavity, and the conveying rollers 5 are driven by a driving shaft 29.

The pressure sensor 39 is connected to an alarm, and the first pulley 25 is connected to the drive shaft 29 via an overrunning clutch.

All have spiral helicine protruding muscle 44 on the global of bottom roll 23 and response dross removal roller 3, all have a plurality of dodges and dodge district 45 on bottom roll 23 and the response dross removal roller 3.

The laminated glass is fed from the inlet of the heating conveying area 1, the laminated glass is heated in the feeding conveying area and is conveyed to enter the cooling conveying area 2, and the laminated glass is slowly cooled and continuously pressed under the pressure action of the upper pressing roller 22 and the lower pressing roller 23.

When the cooling and conveying area 2 is damaged due to various reasons, because the laminated glass is unframed composite glass, the damaged glass is in a block shape, part of the glass falls into the lower part of the cooling and conveying area 2 from the avoiding area 45, and the glass block which cannot pass through the avoiding area 45 or is not in the avoiding area 45 is continuously extruded by the upper press roll 22 and the lower press roll 23 and is quickly broken into a block shape or a granular shape.

The complete laminated glass can not contact with the induction deslagging roller 3, but can contact with the induction deslagging roller 3 after being damaged, the extrusion force makes the induction deslagging roller 3 eccentric, and the induction deslagging roller rotates with a certain angle, so that the glass fragments fall into the slag storage space below through the gap between the induction deslagging roller 3 and the lower pressure roller 23.

The principle of realizing 'eccentricity' by pressing the induction deslagging roller 3 is as follows: the glass fragments press the roller shell 31 of the induction deslagging roller 3, and in the rotating process of the lower pressing roller 23, the glass fragments press the compression spring 34, so that the roller shell 31 deviates from the central shaft 32 to realize eccentricity.

The principle that the induction slag removing roller 3 gives out an alarm signal to an alarm when broken glass occurs is as follows: although the roller sleeve 31 is deviated relative to the central shaft 32 when the glass fragments extrude the roller sleeve 31, the rotation synchronization of the roller sleeve 31 and the central shaft 32 can be maintained, so that the adjacent lower pressing roller 23 extrudes the glass fragments in the rotation process to cause the roller body and the central shaft 32 of the induction deslagging roller 3 to rotate along with the glass fragments, the central shaft 32 and the trigger rod 36 rotate synchronously, the trigger rod 36 rotates relative to the mounting sleeve 35 at a certain angle, the trigger rod 36 extrudes the ejector rod 41 to enable the ejector rod 41 to abut against the pressure sensor 39, and then the pressure sensor 39 triggers the pressure sensor 39 to transmit a signal to the alarm, and the action corresponding to the glass breakage signal is made, such as sound prompt and the like.

Each induction deslagging roller 3 is numbered, so that the position where glass is damaged can obtain corresponding data at the monitoring end.

This production line not only can realize cullet's online clearance, makes it fall into the corresponding position of keeping away from cooling conveying area 2, need not stop the line, but also can realize prompt facility, under the condition of unmanned on-line supervision, arranges the staff again after obtaining the breakage signal and attend to meet an urgent need or handle other trouble and bad situation that can not accomplish automatically.

The overrunning clutch arranged between the first belt pulley 25 and the driving shaft 29 can prevent one or more lower press rollers 23 from being prevented from rotating and not influence the normal operation of other lower press rollers 23.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (7)

1. The laminated glass production line is characterized by comprising a heating conveying area (1) and a cooling conveying area (2) connected with the tail end of the heating conveying area (1), wherein the cooling conveying area (2) comprises a rack (21), upper compression rollers (22) and a plurality of lower compression rollers (23), each upper compression roller (22) is rotatably connected onto the rack (21), two ends of each lower compression roller (23) are respectively connected with the rack (21) through a first upright post (24), an induction deslagging roller (3) is arranged between every two adjacent lower compression rollers (23), the plane where each induction deslagging roller (3) is located is lower than the plane where each lower compression roller (23) is located, two ends of each induction deslagging roller (3) are respectively connected with the rack (21) through a second upright post (28), and a deslagging gap is formed between each lower compression roller (23) and the induction deslagging roller (3) adjacent to the lower compression roller;

a driving shaft (29) is rotatably connected to the rack (21), a plurality of first belt wheels (25) which correspond to the lower pressing roller (23) in a one-to-one mode are arranged on the driving shaft (29), second belt wheels (26) matched with the first belt wheels (25) are fixedly arranged on the lower pressing roller (23), and a belt (27) is connected between the first belt wheels (25) and the second belt wheels (26);

the induction deslagging roller (3) comprises a roller sleeve (31), a central shaft (32) and two sensing assemblies which are respectively arranged at two ends of the central shaft (32), a plurality of mounting holes are formed in the central shaft (32), each mounting hole is perpendicular to the axis of the central shaft (32), a positioning rod (33) is inserted into each mounting hole, the outer end of each positioning rod (33) is fixedly connected with the inner wall of the roller sleeve (31), a pressing spring (34) which is abutted between the inner wall of the roller sleeve (31) and the outer wall of the central shaft (32) is sleeved on each positioning rod (33), each positioning rod (33) is positioned in the same plane, and a 180-degree phase angle is formed between connecting points of adjacent positioning rods (33) and the roller sleeve (31);

the utility model discloses a pressure sensor, including the installation cover (35) of rotation connection at center pin (32) tip, installation cover (35) and second stand (28) are fixed continuous, fixed trigger bar (36) that are provided with two symmetric distributions on center pin (32), trigger bar (36) are the arc, have on installation cover (35) the inner wall and wear ear (37) to trigger bar (36) go on leading, the cover is equipped with a reset spring (38) on trigger bar (36), the both ends of reset spring (38) respectively with wear ear (37) and center pin (32) fixed continuous, be provided with a pressure sensor (39) on installation cover (35), pressure sensor (39) can be triggered by the tip of trigger bar (36) when trigger bar (36) is rotatory relatively installed cover (35).

2. The laminated glass production line according to claim 1, wherein a guide hole is formed in the mounting sleeve (35), a push rod (41) is slidably connected into the guide hole, an adjusting bolt (42) is threadedly connected into the guide hole, the pressure sensor (39) is arranged on the adjusting bolt (42), an avoiding hole is formed in the push rod (41), a return spring (43) is inserted into the avoiding hole, and two ends of the return spring (43) respectively abut against the adjusting bolt (42) and the top surface of the avoiding hole.

3. Laminated glass production line according to claim 1 or 2, characterized in that the heating and conveying area (1) comprises a closed heating chamber, the bottom of which is provided with a plurality of conveying rollers (5), the conveying rollers (5) being driven by a drive shaft (29).

4. A laminated glass production line as claimed in claim 1 or 2, characterized in that said pressure sensor (39) is connected to an alarm.

5. A laminated glass production line as claimed in claim 1 or 2, characterised in that the first pulley (25) is connected to the drive shaft (29) by means of an overrunning clutch.

6. The laminated glass production line according to claim 1, wherein the circumferential surfaces of the lower pressing roll (23) and the induction deslagging roll (3) are provided with spiral convex ribs (44).

7. A laminated glass production line according to claim 1 or 2, characterized in that the lower press roll (23) and the induction deslagging roll (3) are provided with a plurality of avoidance zones (45).

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