CN212459457U - Detection temporary storage station on liquid crystal glass production line - Google Patents

Abstract

The utility model provides a detection station of keeping in on liquid crystal glazing production line, it includes diversified testing platform (60) and is located diversified testing platform (60), and diversified testing platform (60) include frame, lamp house (2), antistatic cloth (21), cylinder (3) and ion fan (4), the utility model relates to a liquid crystal glazing solidifies production line field, concretely relates to detection station of keeping in on the liquid crystal glazing production line. The utility model has the advantages that: the production line realizes automatic solidification of the liquid crystal glass, is simple, convenient and high in efficiency, and meets the national requirements on high and new industries.

Description

Detection temporary storage station on liquid crystal glass production line

Technical Field

The utility model relates to a liquid crystal glazing solidifies production line field, concretely relates to detection station of keeping in on liquid crystal glazing production line.

Background

At present, 1, each piece of liquid crystal glass needs to be detected on a testing tool before production, and defective products are eliminated. The original glass can only rotate by 360 degrees in the horizontal plane in the prior art, an operator can only bend down to operate, and the original glass is far away from a top light source in the operation process and cannot well find flaws. 2. The glass after detection is generally directly stacked, and the requirement of the existing automatic production cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a detection temporary storage station on a liquid crystal glass production line aiming at the defects of the prior art.

The utility model comprises a multi-position detection platform and a multi-position detection platform,

the multi-azimuth detection platform comprises a frame, a lamp box, anti-static cloth, a cylinder and an ion fan,

a working table top is arranged on the machine frame,

the cylinder is arranged on the frame and is positioned below the working table surface,

a connecting plate is arranged on a power output shaft of the cylinder,

the connecting plate is provided with a lamp box lifting rod and an ion fan lifting rod which penetrate through the working table surface,

the bottom of the lamp box is arranged on the lamp box lifting rod through a universal bearing,

the lamp box is covered and fixed with antistatic cloth,

the two sides of the lamp box are respectively provided with a quick clamp used for clamping glass,

a pair of slide rails with one end connected with the frame are arranged on the working table surface,

the other end of the pair of slide rails is provided with a lamp bracket, and the lamp bracket is provided with a light source positioned above the lamp box,

the pair of slide rails are provided with fan slide blocks moving along the direction of the slide rails and connected with an ion fan lifting rod,

the fan sliding block is provided with at least one ion fan,

the temporary storage box comprises a box body, a left chain plate conveyor, a right chain plate conveyor and a transmission device,

the top of the box body is provided with a glass take-out port,

one side of the box body is provided with a glass inlet,

the left chain plate conveyor and the right chain plate conveyor are vertically arranged in the box body, and chain plates of the left chain plate conveyor and the right chain plate conveyor are in symmetrical positions,

the chain plates of the left chain plate conveyor and the right chain plate conveyor are both provided with grooves, and a glass placing area is formed between the grooves on the chain plates of the left chain plate conveyor and the right chain plate conveyor,

the transmission device comprises a stepping motor, a speed reducer, a double-output transmission case and a pair of steering transmission cases,

the stepping motor, the speed reducer, the double-output transmission case and the pair of steering transmission cases are all arranged in the case body,

the stepping motor is connected with the power input shaft of the double-output transmission case in a transmission way through the speed reducer,

two power output shafts of the double-output transmission case are respectively in transmission connection with power input shafts of a pair of steering transmission cases,

and power output shafts of the steering transmission boxes are respectively in transmission connection with power input ends of the left chain plate conveyor and the right chain plate conveyor, and the left chain plate conveyor and the right chain plate conveyor are driven to synchronously move by the stepping motor.

The ion fan is arranged on the fan frame in an inclined shape.

The antistatic cloth is transparent.

The bottom of the lamp box is provided with a support rod which is in contact with the working table surface when the lamp box is in the lowest state.

A pair of quick clamps for clamping glass are arranged on two sides of the lamp box through mounting racks.

The utility model has the advantages that: the production line realizes automatic solidification of the liquid crystal glass, is simple, convenient and high in efficiency, and meets the national requirements on high and new industries.

Description of the drawings

Fig. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic diagram of a multi-orientation inspection platform.

FIG. 3 is a schematic side view of a multi-orientation inspection platform.

FIG. 4 is a schematic view of a holding box structure.

FIG. 5 is a schematic diagram showing the structure of the placement position of the liquid crystal glass in the temporary storage box.

Fig. 6 is a schematic structural view of the edge gumming device.

FIG. 7 is a schematic view of a feeding device of a curing oven.

Fig. 8 is a schematic view of the structure of the locking device.

Fig. 9 is a schematic structural view of the unlocking device.

Fig. 10 is a schematic view of a buffer block structure.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present invention, it should be noted that, if the terms "upper", "lower", "inside", "outside", etc. are used for indicating the orientations or positional relationships based on the orientations or positional relationships shown in the drawings or the orientations or positional relationships that the products of the present invention usually place when using, the present invention is only used for convenience of description and simplification of the description, but does not indicate or imply that the devices or elements indicated must have specific orientations, be constructed in specific orientations, and operate, and thus, the present invention should not be construed as being limited. Furthermore, the appearances of the terms "first," "second," and the like in the description of the present invention are only used for distinguishing between the descriptions and are not intended to indicate or imply relative importance.

In the description of the embodiments of the present invention, it should be further noted that unless otherwise explicitly stated or limited, the terms "disposed" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in the figure, the utility model comprises a multi-position detection platform 60, a temporary storage box 70 positioned at one side of the multi-position detection platform 60, an edge gluing device 80 and a feeding device 90 of a curing oven,

the multi-azimuth detection platform 60 comprises a frame, a lamp box 2, an anti-static cloth 21, a cylinder 3 and an ion fan 4,

a working table top 1 is arranged on the frame,

the cylinder 3 is arranged on the frame and is positioned below the working table surface 1,

a connecting plate 5 is arranged on the power output shaft of the cylinder 3,

the connecting plate 5 is provided with a lamp box lifting rod 6 and an ion fan lifting rod 7 which pass through the working table surface 1,

the bottom of the lamp box 2 is arranged on a lamp box lifting rod 6 through a universal bearing,

the lamp box 2 is covered and fixed with an anti-static cloth 21,

the two sides of the lamp box 2 are respectively provided with a quick clamp 11 for clamping glass,

a pair of slide rails 8 with one end connected with the frame are arranged on the working table surface 1,

the other end of the pair of slide rails 8 is provided with a lamp holder 9, and the lamp holder 9 is provided with a light source positioned above the lamp box 2,

the pair of slide rails 8 are provided with fan slide blocks 10 moving along the direction of the slide rails 8 and connected with the ion fan lifting rod 7,

at least one ion fan 4 is arranged on the fan slide block 10,

the temporary storage box 70 includes a box body 101, a left drag chain conveyor 102, a right drag chain conveyor 103 and a transmission,

a glass take-out port is provided at the top of the case 101,

one side of the box body 101 is provided with a glass inlet,

the left chain plate conveyor 102 and the right chain plate conveyor 103 are vertically arranged in the box body 101, chain plates of the left chain plate conveyor 102 and the right chain plate conveyor 103 are in symmetrical positions,

the chain plates of the left chain plate conveyor 102 and the right chain plate conveyor 103 are both provided with grooves, and a glass placing area is formed between the grooves on the chain plates of the left chain plate conveyor 102 and the right chain plate conveyor 103,

the transmission device comprises a stepping motor, a speed reducer, a double-output transmission case and a pair of steering transmission cases,

the stepping motor, the speed reducer, the double-output transmission case and the pair of steering transmission cases are all arranged in the case body 101,

the stepping motor is connected with the power input shaft of the double-output transmission case in a transmission way through the speed reducer,

two power output shafts of the double-output transmission case are respectively in transmission connection with power input shafts of a pair of steering transmission cases,

the power output shafts of the pair of steering transmission boxes are respectively in transmission connection with the power input ends of the left chain plate conveyor 102 and the right chain plate conveyor 103, and realize the synchronous motion of the left chain plate conveyor 102 and the right chain plate conveyor 103 driven by the stepping motor,

the edge gluing device 80 comprises a frame 51, a first glue brushing pneumatic sliding table 52 and a second glue brushing pneumatic sliding table 53,

a groove 511 is provided on the frame 51, and a glass placing protrusion is provided on the groove 511,

a strip-shaped groove 512 which is communicated with the groove 511 and extends along the horizontal direction is arranged on the frame 51 and is used for the movement of a power output shaft of a glue brushing lifting cylinder 521,

the first glue brushing pneumatic sliding table 52 is arranged at the bottom of the frame 51 through a bracket,

the second glue pneumatic sliding table 53 is mounted on the upper surface of the frame 51,

a glue brushing lifting cylinder 521 is arranged on the sliding block of the first glue brushing pneumatic sliding table 52, a glue brushing rotating cylinder 522 is arranged on the power output shaft of the glue brushing lifting cylinder 521,

the power output shaft of the glue brushing rotary cylinder 522 is provided with a sucker bracket, at least two pairs of suckers 523 are arranged on the sucker bracket,

the second glue brushing pneumatic sliding table 53 is provided with a glue head bracket 531, the glue spraying head 532 is arranged on the glue head bracket 531,

a liquid crystal glass transmission shuttle is arranged between the temporary storage box 70 and the edge gluing device 80, two end points of the liquid crystal glass transmission shuttle are respectively positioned at a glass taking-out port at the top of the box body 101 and a glass placing bulge on the groove 511,

the curing oven feeding device 90 comprises a horizontal curing oven, wherein glass supporting devices are uniformly distributed on a chain plate conveyor 202 of the horizontal curing oven,

a glass locking device is arranged at the feeding position of a chain plate conveyor 202 of the horizontal curing furnace,

a glass unlocking device is arranged at the discharging position of the chain plate conveyor 202 of the horizontal curing furnace,

the glass supporting device comprises a supporting rod and a manual suction cup 203, the manual suction cup 203 is arranged on a chain plate of the chain plate conveyor 202 through the supporting rod,

the glass locking device comprises a left locking cylinder 204 and a right locking cylinder 206, wherein the left locking cylinder 204 and the right locking cylinder 206 are both arranged on the frame of the chain plate conveyor 202 through a bracket, the central lines of the power output shafts of the left locking cylinder 204 and the right locking cylinder 206 are not on the same horizontal plane,

the power output shaft of the left-locking cylinder 204 is provided with a locking arc-shaped supporting block 205 for supporting the supporting rod,

the power output shaft of the right upper locking air cylinder 206 is provided with an upper locking top block 207 for moving the operating rod of the manual suction cup 203,

the glass unlocking device comprises a left unlocking cylinder 208 and a right unlocking cylinder 210, the left unlocking cylinder 208 and the right unlocking cylinder 210 are both arranged on the frame of the chain plate conveyor 202 through a bracket, the central lines of the power output shafts of the left unlocking cylinder 208 and the right unlocking cylinder 210 are not in the same horizontal plane,

an unlocking top block 209 for moving the operating rod of the manual suction cup 203 is arranged on the power output shaft of the left unlocking air cylinder 208,

an unlocking arc-shaped supporting block 211 for supporting the supporting rod is arranged on the power output shaft of the right unlocking cylinder 210,

a liquid crystal glass conveying shuttle is arranged between the edge gluing device 80 and the chain plate conveyor 202, and two end points of the liquid crystal glass conveying shuttle are respectively positioned above the end points of the strip-shaped groove 512 and above the manual sucker 203 of the locking device at the feeding position of the chain plate conveyor 202.

The ion fan 4 is arranged on the fan frame in an inclined shape.

The antistatic cloth 21 is a light-transmitting antistatic cloth 21.

The bottom of the lamp box 2 is provided with a support rod which is contacted with the working table surface 1 when the lamp box is in the lowest state.

A pair of quick clamps 11 for clamping the glass are arranged at both sides of the lamp box 2 through a mounting bracket.

The liquid crystal glass conveying shuttle comprises a sliding table and a glass sucker arranged on a sliding block of the sliding table.

The chain plates of the left chain plate conveyor 102 and the right chain plate conveyor 103 are both made of rubber materials.

The chain plates of the left chain plate conveyor 102 and the right chain plate conveyor 103 are both covered with rubber layers.

The left chain plate conveyor 102 and the right chain plate conveyor 103 are arranged in the box body 101 through bearings, bearing seats and supports and are symmetrically distributed.

The top in the box 101 is provided with a photoelectric probe for detecting liquid crystal glass, and the start and stop of the stepping motor are controlled through the photoelectric probe.

The glue head of the glue spraying head 532 is a sponge glue head.

The glue head bracket 531 is provided with a glue box 54 for receiving and taking the dripping glue.

The glue spraying head 532 is perpendicular to the strip groove 512.

The tip of kicking block is provided with annular arch 220, and buffer block 222 one end is uncovered, the annular arch 220 of kicking block tip be located buffer block 222, and the uncovered diameter of buffer block 222 is less than the protruding 220 diameter of annular, buffer block 222 and annular arch 220 between be provided with spring 221.

The central position of the non-working surface of the manual sucker 203 is connected with the supporting rod.

The arc-shaped supporting block is made of rubber.

The multi-orientation detection platform 60 works:

1. placing the original glass sheet on an antistatic cloth 21 to observe whether flaws exist at the positions of clamped points;

2. the glass is clamped at a designated position through a quick clamp 11 to be clamped;

3. the air cylinder 3 drives the lamp box 2 and the ion fan 4 (the ion fan 4 ascends through the fan sliding block 10) to ascend simultaneously;

4. the manual operation lamp box 2 rotates by taking the universal bearing as a center, and whether flaw points exist at different positions or not is observed at different angles;

5. after detection is finished, the air cylinder 3 returns, and the quick clamp 11 is opened to take out the glass.

In order to eliminate static electricity in the detection process, the LED lamp tube is provided with anti-static cloth and an ion fan 4 thereof, and in order to improve the brightness of the detection environment, the LED lamp tube is arranged at the top.

Mode of operation of the temporary storage box 70: when in use, the liquid crystal glass 100 which is checked is manually placed in the glass placing area through the glass placing opening at one side of the box body 101 (the liquid crystal glass 100 is placed in the glass placing area, the size of the liquid crystal glass 100 is corresponding, the liquid crystal glass can be placed, and the liquid crystal glass can not be taken out,

starting a stepping motor to drive a left chain plate conveyor 102 and a right chain plate conveyor 103 to synchronously move through a speed reducer, a double-output transmission case and a pair of steering transmission cases;

when glass exists in the liquid crystal glass 100 placing area at the topmost part of the left chain plate conveyor 102 and the right chain plate conveyor 103, the stepping motor automatically stops and is in a state to be grabbed, after the liquid crystal glass 100 is grabbed, the liquid crystal glass 100 placing area at the lower layer moves upwards until the next liquid crystal glass 100 is in the topmost part grabbing state, and a glass sucker of the liquid crystal glass conveying shuttle sucks the liquid crystal glass in the grabbing state and moves the liquid crystal glass to the edge gluing groove 511;

the working mode of edge gluing is as follows:

at the initial position, at least two pairs of suckers 523 are positioned below the groove 511, the rubber head bracket 531 is in the state of withdrawing from the working position,

when the liquid crystal glass conveying shuttle works, the liquid crystal glass conveying shuttle places glass on a glass placing bulge on the groove 511, the glue brushing lifting cylinder 521 of the first glue brushing pneumatic sliding table 52 moves upwards until the glass is pushed out by a distance of 5mm, the two pairs of suckers 523 vacuumize to suck the glass, the glue brushing lifting cylinder 521 continues to push out until the push-out groove 511 corresponds to the position of the glue spraying head 532, the first glue brushing pneumatic sliding table 52 moves along the direction of the strip-shaped groove 512 to drive the glass to the position of the glue spraying head 532, the glue spraying head bracket 531 pushes out forwards, the glue brushing rotating cylinder 522 drives the glass to rotate, the glue spraying head 532 glues the edge of the glass at the same time, the glue spraying head 532 exits from a working position after the glue is glued, and the liquid crystal glass conveying shuttle takes; and enters the upper part of a chain plate conveyor of the UV horizontal curing furnace;

the working mode of the UV horizontal curing furnace is that,

the liquid crystal glass conveying shuttle places the liquid crystal glass on the working surface of the manual sucker 203, after the placement is completed, the left locking cylinder 204 drives the locking arc-shaped supporting block 205 to eject forwards and support the supporting rod (the supporting rod is prevented from being deviated when the locking top block 207 is ejected out), after the support is completed, the locking top block 207 is ejected out and ejects out the operating rod of the manual sucker 203, the ejected glass is adsorbed on the manual sucker 203,

the chain scraper conveyor 202 drives the liquid crystal glass to enter the furnace body 201 for ultraviolet drying, and after the drying is finished, the liquid crystal glass enters the glass unlocking device,

at this time, the unlocking arc-shaped supporting block 211 is ejected forwards and supports the supporting rod, after the supporting is completed, the unlocking ejecting block 209 is ejected and ejects the operating rod of the manual suction cup 203, and after the ejection, the glass is released by the manual suction cup 203 and taken out to be put into the next step.

Because liquid crystal glass is thin, the adsorption force is difficult too big, and the adsorption pressure that manual sucking disc 203 set up is in liquid crystal glass's adsorption pressure, and this adsorption pressure's setting accessible cylinder promotes the hand lever and opens and close manual sucking disc 203.

When the buffer block 222 is used, the buffer block 222 firstly contacts the operating rod of the manual sucker 203 after the top block is ejected, and the spring 221 plays a role in buffering, so that the pressure on the operating rod is reduced, and the damage to the operating rod caused by overlarge impact pressure is avoided.

Claims (5)

1. A detection temporary storage station on a liquid crystal glass production line is characterized by comprising a multi-azimuth detection platform (60) and a multi-azimuth detection platform (60),

the multi-azimuth detection platform (60) comprises a frame, a lamp box (2), anti-static cloth (21), a cylinder (3) and an ion fan (4),

a working table top (1) is arranged on the frame,

the cylinder (3) is arranged on the frame and is positioned below the working table surface (1),

a connecting plate (5) is arranged on a power output shaft of the cylinder (3),

a lamp box lifting rod (6) and an ion fan lifting rod (7) which penetrate through the working table top (1) are arranged on the connecting plate (5),

the bottom of the lamp box (2) is arranged on the lamp box lifting rod (6) through a universal bearing,

the lamp box (2) is covered and fixed with antistatic cloth (21),

the two sides of the lamp box (2) are respectively provided with a rapid clamp (11) for clamping glass,

a pair of slide rails (8) with one end connected with the frame are arranged on the working table top (1),

the other end of the pair of slide rails (8) is provided with a lamp bracket (9), and the lamp bracket (9) is provided with a light source positioned above the lamp box (2),

the pair of slide rails (8) are provided with fan slide blocks (10) moving along the direction of the slide rails (8) and connected with an ion fan lifting rod (7),

at least one ion fan (4) is arranged on the fan sliding block (10),

the temporary storage box (70) comprises a box body (101), a left chain plate conveyor (102), a right chain plate conveyor (103) and a transmission device,

the top of the box body (101) is provided with a glass take-out port,

one side of the box body (101) is provided with a glass inlet,

the left chain plate conveyor (102) and the right chain plate conveyor (103) are vertically arranged in the box body (101), chain plates of the left chain plate conveyor (102) and the right chain plate conveyor (103) are in symmetrical positions,

the chain plates of the left chain plate conveyor (102) and the right chain plate conveyor (103) are both provided with grooves, and a glass placing area is formed between the grooves on the chain plates of the left chain plate conveyor (102) and the right chain plate conveyor (103),

the transmission device comprises a stepping motor, a speed reducer, a double-output transmission case and a pair of steering transmission cases,

the stepping motor, the speed reducer, the double-output transmission case and the pair of steering transmission cases are all arranged in the case body (101),

the stepping motor is connected with the power input shaft of the double-output transmission case in a transmission way through the speed reducer,

two power output shafts of the double-output transmission case are respectively in transmission connection with power input shafts of a pair of steering transmission cases,

and power output shafts of the steering transmission boxes are in transmission connection with power input ends of the left chain plate conveyor (102) and the right chain plate conveyor (103) respectively, and the left chain plate conveyor (102) and the right chain plate conveyor (103) are driven to synchronously move through a stepping motor.

2. The inspection and temporary storage station on the liquid crystal glass production line according to claim 1, wherein the ion blower (4) is arranged on the blower frame in an inclined shape.

3. The inspection buffer station on the liquid crystal glass production line according to claim 1, wherein the antistatic cloth (21) is a light-transmitting antistatic cloth (21).

4. The inspection and temporary storage station on the liquid crystal glass production line according to claim 1, characterized in that the bottom of the light box (2) is provided with a support rod which is contacted with the working table top (1) when the light box is in the lowest state.

5. A detection buffer station on a liquid crystal glass production line according to claim 1, characterized in that a pair of quick clamps (11) for clamping glass are arranged at both sides of the lamp box (2) through a mounting rack.

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