CN215855803U - Side sealing mechanism and double-station laminating machine thereof - Google Patents

Abstract

The utility model discloses a side sealing mechanism and a double-station laminating machine thereof, wherein the side sealing mechanism can seal two sides between a fixed side plate and a movable side plate; the side sealing plate is provided with a first side shaft seat which is hinged with a side telescopic shaft of a side cylinder through a second side pin, one end, far away from the side telescopic shaft, of a shell of the side cylinder is hinged with a second side shaft seat through the first side pin, and the second side shaft seat is arranged on the side housing; the side mounting seat is arranged on the side sealing plate, and the side cover casing is directly or indirectly arranged on the movable side plate frame; the side mounting seat is hinged with one end of the first side connecting rod through a third side pin, and the other end of the first side connecting rod is hinged with one end of the second side connecting rod through a fourth side pin; the side sealing plate is provided with a side sealing strip; the other end of the second side connecting rod is sleeved on the side linkage shaft in a non-circumferential-rotation manner.

Description

Side sealing mechanism and double-station laminating machine thereof

Technical Field

The utility model relates to hollow glass production equipment, in particular to a double-station laminating machine.

Background

A non-separating and non-opening sheet combining machine for producing hollow glass is characterized in that when the existing sheet combining machine generates the hollow glass, a piece of glass is conveyed to the sheet combining machine through a conveying belt, a photoelectric sensing and physical stop lever sensor is arranged at the front end of the sheet combining machine, the conveying belt is decelerated and is ready to stop after the photoelectric sensing is triggered by the front end of the glass, the glass is completely stopped when the front end of the glass touches the physical stop lever sensor to realize positioning, at the moment, the first piece of glass leans against the wall of a fixed side combining sheet, then the movable side combining sheet is close to the fixed side combining sheet, the piece of glass is adsorbed to the movable side combining sheet, the second piece of glass which is attached with an aluminum frame through an inspection section is repeatedly moved through the conveying belt, after the two pieces of glass are aligned, the movable side combining sheet enables the first piece of glass to be close to the second piece of glass, the inner cavity of the sheet combining machine is inflated, and after the gas is filled between the two pieces of glass, the movable side combining sheet compresses the first piece of glass on the aluminum frame of the second piece of glass, the production of the hollow glass is realized. The mode can only produce one piece of hollow glass at one time, has low efficiency and is not suitable for mass production.

In view of the above, the applicant proposes a double-station laminating machine which can simultaneously produce two or more hollow glasses.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defects in the prior art, the technical problem to be solved by the present invention is to provide a side edge sealing mechanism and a double-station sheet combining machine thereof, wherein the side edge sealing mechanism can seal two sides between a fixed side plate and a movable side plate.

In order to achieve the purpose, the utility model provides a side sealing mechanism which comprises a side sealing plate, a side cover shell and a side mounting seat, wherein a first side shaft seat is mounted on the side sealing plate and is hinged with a side telescopic shaft of a side cylinder through a second side pin;

the side mounting seat is arranged on the side sealing plate, and the side cover casing is directly or indirectly arranged on the movable side plate frame; the side mounting seat is hinged with one end of the first side connecting rod through a third side pin, and the other end of the first side connecting rod is hinged with one end of the second side connecting rod through a fourth side pin; the side sealing plate is provided with a side sealing strip; the other end of the second side connecting rod is sleeved on the side linkage shaft in a non-circumferential-rotation manner.

Preferably, the side installation seat is provided with a side sliding rail, the side sliding rail is clamped with the side sliding seat and can be assembled in a sliding manner, and the side sliding seat is arranged on the side housing.

Preferably, two adjacent side enclosures are connected and assembled through a side connecting frame, and the side connecting frame is installed on the movable side panel frame.

The utility model also discloses a double-station laminating machine which is applied with the side sealing mechanism.

Preferably, the device also comprises a base, a fixed side plate frame and a movable side plate frame, wherein the fixed side plate frame is arranged on the base, the bottom of the movable side plate frame is provided with a sliding block seat, a sliding block is arranged on the sliding block seat, and the sliding block is clamped with the sliding rail and can be assembled in a sliding manner; the mutually facing end surfaces of the movable side plate frame and the fixed side plate frame are respectively provided with a movable side plate and a fixed side plate; the end surfaces of the movable side plate and the fixed side plate are respectively provided with a plurality of suckers, and the suckers are used for adsorbing glass;

a movable screw rod is arranged on the fixed side plate frame in a circumferentially rotatable and axially immovable manner, one end of the movable screw rod penetrates through the movable side plate frame and is assembled with the movable side plate frame in a screwing manner through threads, a third movable belt wheel is sleeved on the movable screw rod, a movable belt respectively bypasses the first movable belt wheel, the second movable belt wheel and the third movable belt wheel to form a belt transmission mechanism, and the second movable belt wheel is sleeved on an output shaft of a movable motor;

the movable side plate frame is provided with a movable side plate frame, a movable side plate frame and a conveying mechanism, wherein the movable side plate frame is provided with a movable sealing mechanism at the top part and a conveying mechanism at the bottom part; the conveying mechanism is used for conveying glass;

downside sealing mechanism includes downside axle bed, downside closing plate, downside connecting rod, downside cylinder, the downside axle bed is installed and is articulated through first downside round pin and downside cylinder's shell at removal curb plate frame bottom and downside axle bed, and downside telescopic shaft of downside cylinder is articulated through second downside round pin and downside connecting rod one end, the downside connecting rod other end and the assembly of downside closing plate.

Preferably, an outer cover is arranged on the end face of one end, far away from the movable side plate, of the movable side plate frame; the base is further hinged with one end of a first supporting rod and one end of a second supporting rod respectively, and the other ends of the first supporting rod and the second supporting rod are hinged with the fixed side plate frame respectively, so that the fixed side plate frame is supported;

but first removal band pulley and fixed curb plate frame circumferencial rotation assembly, or first removal band pulley install on the telescopic shaft of tensioning cylinder circumferencial rotation ground, tensioning cylinder is through the flexible degree of adjusting the removal belt of its telescopic shaft of drive.

Preferably, the side sealing mechanism comprises a side sealing plate, a side cover shell and a side mounting seat, wherein a first side shaft seat is mounted on the side sealing plate and is hinged with a side telescopic shaft of the side cylinder through a second side pin;

the side mounting seat is arranged on the side sealing plate, and the side cover casing is directly or indirectly arranged on the movable side plate frame; the side mounting seat is hinged with one end of the first side connecting rod through a third side pin, and the other end of the first side connecting rod is hinged with one end of the second side connecting rod through a fourth side pin; the side sealing plate is provided with a side sealing strip; the other end of the second side connecting rod is sleeved on the side linkage shaft in a non-circumferential-rotation manner;

the side slide rail is arranged on the side mounting seat, the side slide rail is clamped with the side slide seat and can be assembled in a sliding mode, and the side slide seat is arranged on the side housing.

Preferably, the movable sealing mechanism comprises a movable rack and two movable side discs, the two movable side discs are respectively installed at two ends of the spiral guide rail, the two movable side discs are respectively assembled with the scroll in a circumferential rotation mode and in an axial non-movable mode, a scroll sliding rail is installed on the scroll, the scroll sliding rail is clamped with the eccentric sliding block and assembled in a sliding mode, the eccentric sliding block is assembled with the eccentric guide plate through the eccentric screw rod, the eccentric guide plate is assembled with one end of the sealing strip, and the other end of the sealing strip is installed on the fixed side plate;

the spiral guide rail is spirally arranged along the length direction of the scroll, a first guide rail seat and a second guide rail seat are further respectively installed on the spiral guide rail, the first guide rail seat and the second guide rail seat are respectively assembled with the moving frame, a moving slide block is installed on the moving frame, the moving slide block is clamped and slidably installed on the moving slide rail, the moving slide rail is installed and distributed along the length direction of a moving rack, moving clamping teeth distributed along the length direction of the moving rack are arranged on the moving rack, the moving clamping teeth are meshed with a moving gear to form a gear-rack transmission mechanism, the moving gear is sleeved on a moving output shaft of a moving motor, and the moving motor is installed on the moving frame;

the inner side of the spiral guide rail is provided with a plurality of spiral guide wheels, and the spiral guide wheels tightly press the eccentric guide plate to the inner wall of the spiral guide rail so as to play a role in guiding the eccentric guide plate to move along the inner wall of the spiral guide rail;

the movable rack is also provided with a discharging motor, an output shaft of the discharging motor is fixedly connected with a discharging rotating shaft, and the discharging rotating shaft and the movable rack can be circumferentially and rotatably assembled; the feeding rotating shaft is sleeved with a second moving belt wheel, one end of the scroll penetrates out of one moving side disc and then is assembled with the first moving belt wheel, the moving frame is further provided with a third moving belt wheel and a fourth moving belt wheel in a circumferential rotating mode through a first moving intermediate shaft and a second moving intermediate shaft, and the moving belt bypasses the first moving belt wheel, the second moving belt wheel, the third moving belt wheel and the fourth moving belt wheel respectively and forms a belt transmission mechanism.

Preferably, the movable frame is further provided with a guide frame, a fourth sealing guide wheel is circumferentially and rotatably mounted on the guide frame, a third sealing guide wheel is circumferentially and rotatably mounted on the movable frame through a first movable wheel shaft, the first sealing guide wheel is sleeved on the discharging rotating shaft in a manner of being non-circumferentially and rotatably sleeved with the discharging rotating shaft, the movable frame is circumferentially and rotatably assembled with the second sealing guide wheel through a second movable wheel shaft, one end of the pressing guard plate is non-circumferentially and rotatably assembled with the pressing linkage shaft, the other end of the pressing guard plate is assembled with the movable frame through a tension spring, and the tension spring is used for applying elastic force for pulling the pressing guard plate to the movable frame; but compress tightly the universal driving shaft and install on removing the frame with circumferential rotation, first sealed leading wheel, the sealed leading wheel of second compress tightly in order to carry the sealing strip with two terminal surfaces of sealing strip respectively, the sealed leading wheel of third pastes tightly in order to guide the sealing strip output with the sealing strip both sides.

Preferably, the conveying mechanism comprises a conveying frame and at least two conveying belts, two conveying motor shafts and two conveying belt shafts are circumferentially and rotatably mounted on the conveying frame, the conveying belts pass around one conveying motor shaft and one conveying belt shaft to form a belt transmission mechanism, one end of each conveying motor shaft is mounted in the conveying motor, and each conveying belt is driven by a different conveying motor;

the conveying motor is installed on the conveying frame, the conveying frame is assembled with the second conveying hinged plate, a conveying extension plate is arranged on the second conveying hinged plate, one end of the conveying extension plate penetrates through the conveying frame and then is hinged with one end of the second conveying rotating shaft through the third conveying rotating shaft, the other end of the second conveying rotating shaft is assembled with one end of the first conveying rotating shaft in a circumferential rotating mode, and the other end of the first conveying rotating shaft is hinged with the base;

the second conveying hinged plate is hinged with one end of the first conveying hinged plate through a fourth conveying pin, the other end of the first conveying hinged plate is hinged with the conveying telescopic shaft through the second conveying pin, a third conveying pin is mounted on the middle part of the first conveying hinged plate, and the third conveying pin and the conveying linkage shaft cannot rotate relatively to the circumference; the shell of the conveying cylinder is hinged with a first conveying shaft plate through a first conveying pin, and the first conveying shaft plate is installed on the base.

The utility model has the beneficial effects that:

1. the utility model can realize the simultaneous production of two or more hollow glass (only by arranging a plurality of conveying belts), thereby greatly improving the production efficiency and increasing the competitiveness and the capacity of enterprises.

2. The movable sealing mechanism realizes the sealing and releasing (sealing state releasing) of the tops of the movable side plate and the fixed side plate by retracting and releasing the sealing strip, thereby being suitable for sealing the movable side plate and the fixed side plate with different lengths.

3. The side sealing mechanism of the utility model can realize the rapid sealing between the fixed side plate 420 and the movable side plate 410 through the side sealing strip on the side sealing plate 610, thereby improving the production efficiency.

4. The conveying mechanism of the utility model realizes the respective conveying of a plurality of hollow glass raw materials through two or more conveying belts, thereby realizing the synchronous production of a plurality of hollow glass. In addition, the conveying mechanism can be folded and unfolded, so that the lower side sealing mechanism can seal the movable side plate and the fixed side plate conveniently.

Drawings

Fig. 1-8 are schematic structural views of the present invention. Wherein figure 6 is a cross-sectional view a-a of figure 5. Fig. 7-8 are schematic views of the structure with the moving sealing mechanism removed.

Fig. 9-10 are partial structural views at the fixed side plate.

Fig. 11 is a partial structure diagram at the moving side plate.

Fig. 12-17 are schematic structural views of the moving sealing mechanism.

Fig. 18 to 22 are schematic structural views of the side sealing mechanism.

Fig. 23-28 are schematic structural views of the conveying mechanism.

Fig. 29 is a schematic view of the structure of the lower side seal mechanism.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1 to fig. 29, the double-station sheet combining machine of the present embodiment includes a base 110, a fixed side plate frame 130, and a movable side plate frame 120, where the fixed side plate frame 130 is installed on the base 110, a slider seat 121 is installed at the bottom of the movable side plate frame 120, a slider 122 is installed on the slider seat 121, and the slider 122 is engaged with a slide rail 340 and slidably assembled; the movable side plate frame 120 and the fixed side plate frame 130 are respectively provided with a movable side plate 410 and a fixed side plate 420 on the end surfaces facing each other, the end surfaces of the movable side plate 410 and the fixed side plate 420 are respectively provided with a plurality of suckers 330, the suckers 330 are used for adsorbing glass, the suckers 330 are communicated with a negative pressure source through air valves, and the negative pressure source applies negative pressure to the suckers after the air valves are opened so that the suckers tightly suck the glass. The end face of the moving side plate frame 120 away from the moving side plate 410 is provided with the outer cover 140.

But fixed side grillage 130 goes up the circumferential rotation, can not install removal screw 210 with axial displacement, removes screw 210 one end and passes removal side grillage 120 and close the assembly soon through the screw thread with it, the cover is equipped with third removal band pulley 313 on removing screw 210, removes belt 330 and walks around first removal band pulley 311, second removal band pulley 312, third removal band pulley 313 respectively and constitutes belt drive mechanism, second removal band pulley 312 suit is on the output shaft of moving motor 520, can drive second removal band pulley 312 circumferential rotation after moving motor 520 starts to drive removal screw circumferential rotation through removing the belt, remove screw when rotating and remove side grillage 120 along its axial displacement through screw thread drive. The first moving pulley 311 is circumferentially rotatably assembled with the fixed side plate frame 130, or the first moving pulley 311 is circumferentially rotatably mounted on a telescopic shaft of a tension cylinder, and the tension cylinder is driven to extend and retract by driving the telescopic shaft thereof to adjust the tension degree of the moving belt.

Base 110 still is articulated with first branch 321, second branch 322 one end respectively, first branch 321, the second branch 322 other end are articulated with fixed curb plate frame 130 respectively to the realization is to the support of fixed curb plate frame 130.

The proximity sensor 510 is installed on the portion of the fixed side plate frame 130 behind the fixed side plate 410, and when the fixed side plate 410 is pressed, the proximity sensor 510 is triggered and inputs a signal to the industrial personal computer, which determines that the fixed side plate 410 is pressed.

Fixed curb plate frame 130 top is installed and is removed sealing mechanism A, bottom and install conveying mechanism B, remove curb plate frame 120 both sides and install a side sealing mechanism 600, bottom respectively and install downside sealing mechanism, remove sealing mechanism A and be used for sealed fixed curb plate 420, remove one side that is located the top between the curb plate 410, downside sealing mechanism is used for sealed fixed curb plate 420, removes one side that is located the bottom between the curb plate 410, and two side sealing mechanism 600 are used for sealed fixed curb plate 420, remove the part that is located both sides between the curb plate 410. Therefore, the sealing of one circle between the fixed side plate 420 and the movable side plate 410 is realized through the two side sealing mechanisms 600, the lower side sealing mechanism and the movable sealing mechanism A.

The conveying mechanism B is provided with the conveying belt B210, when the glass conveying mechanism is used, glass to be processed is conveyed through the conveying belt B210, and the number of the conveying belts B210 is two, so that the glass to be processed can be input to a preset position twice.

When the glass conveying device is used, a first piece of glass is input through the conveying belt B210 and enters between the fixed side plate 420 and the movable side plate 410, then a second piece of glass is input between the fixed side plate 420 and the movable side plate 410, and the first piece of glass and the second piece of glass are not overlapped and not contacted; then the moving motor is started to drive the moving side plate 410 to move towards the fixed side plate until the moving side plate 410 presses the first glass and the second glass (the proximity sensor obtains signal output), and then the suction cup on the moving side plate 410 is connected with negative pressure to suck the first glass and the second glass tightly. The moving motor rotates in reverse, thereby driving the moving side plate 410 to carry the first glass piece and the second glass piece away from the fixed side plate 420. Inputting a third glass between the fixed side plate 420 and the movable side plate 410 through the conveying mechanism B until the third glass is opposite to the first glass; inputting a fourth piece of glass between the fixed side plate 420 and the movable side plate 410 through the conveying mechanism B until the fourth piece of glass is opposite to the second piece of glass; in the embodiment, the third glass and the fourth glass are both provided with frames, one end face of each frame is sealed, and the other end face of each frame is opened and faces the first glass and the second glass respectively; the suction cup 330 on the fixed side plate is connected with negative pressure to respectively suck the third piece of glass and the fourth piece of glass. The moving motor 520 is started to drive the moving screw to rotate circumferentially, and the moving screw 210 drives the moving side plate frame 120 to move towards the fixed side plate frame 130 until reaching the preset position.

The conveying mechanism B exits from the bottoms of the fixed side plate 420 and the movable side plate 410, and the two side sealing mechanisms 600, the lower side sealing mechanism and the movable sealing mechanism A are respectively started to seal four sides of the fixed side plate 420 and the movable side plate 410; the inner area enclosed by the fixed side plate 420, the movable side plate 410, the two side sealing mechanisms 600, the lower side sealing mechanism and the movable sealing mechanism A (sealing strips) is inflated, and the movable side plate 410 and the fixed side plate 420 are pressed after the inflation is finished, so that the first glass and the third glass are pressed, the second glass and the fourth glass are pressed, the first glass and the third glass are buckled and assembled, and the second glass and the fourth glass are buckled and assembled to finish the production of the two pieces of hollow glass.

The fixed side plate 420, the movable side plate 410, the two side sealing mechanisms 600, the lower side sealing mechanism, the movable sealing mechanism A and the conveying mechanism B are reset respectively, the conveying mechanism B outputs the processed hollow glass through the conveying belt B210, and then the next circulation is carried out.

The side sealing mechanism 600 comprises a side sealing plate 610, a side cover casing 620 and a side mounting seat 640, wherein a first side shaft seat 611 is mounted on the side sealing plate 610, the first side shaft seat 611 is hinged to a side telescopic shaft 541 of a side cylinder 540 through a second side pin 232, one end, far away from the side telescopic shaft 541, of a housing of the side cylinder 540 is hinged to a second side shaft seat 621 through a first side pin 231, and the second side shaft seat 621 is mounted on the side cover casing 620;

the side mounting seat 640 is mounted on the side sealing plate 610, the side cover casing 620 is mounted on the movable side plate frame 120, the side mounting seat 640 is mounted with a side sliding rail 650, the side sliding rail 650 is clamped with a side sliding seat 660 and can be assembled in a sliding manner, and the side sliding seat 660 is mounted on the side cover casing 620; the side mounting base 640 is hinged to one end of the first side connecting rod 250 through the third side pin 233, the other end of the first side connecting rod 250 is hinged to one end of the second side connecting rod 260 through the fourth side pin 234, and the other end of the second side connecting rod 260 is sleeved on the side linkage shaft 240 in a non-circumferential-rotatable manner. Two adjacent side cover cases 620 are connected and assembled through a side connecting frame 630, and the side connecting frame 630 is installed on the movable side frame 120.

When the side sealing plate is used, the side cylinder 540 is started, and the side cylinder 540 drives the side telescopic shaft 541 to extend, so that the side sealing plate 610 is driven to move towards the fixed side plate 420 until the side sealing plate 610 is pressed and sealed with the fixed side plate 420 (a side sealing strip 670 is arranged on the side sealing plate 610, and sealing is realized by extruding the side sealing strip); in this process, the side cylinder 540 drives the side mounting base 640 to move to the fixed side plate 420 along the side slide rail 650, so as to drive the first side connecting rod 250 to move along with the side mounting base 640 at the end hinged to the side mounting base 640, the first side connecting rod 250 pulls the end of the second side connecting rod 260 away from the side linkage shaft 240, so that the side linkage shaft 240 rotates, the side linkage shaft 240 drives other second side connecting rods 260 to synchronously rotate, and thus the side mounting base 640 (the side sealing plate 610) is synchronously pushed. The design makes the displacement of each side mounting seat 640 the same, so that the pressing force of the side sealing plate 610 to the fixed side plate 420 is uniform to achieve a better sealing effect.

Downside sealing mechanism includes downside axle bed 123, downside sealing plate 360, downside connecting rod 350, downside cylinder 530, downside axle bed 123 is installed and is articulated in the shell that removes curb plate frame 120 bottom and downside axle bed 123 through first downside round pin 221 and downside cylinder 530, and downside telescopic shaft 531 of downside cylinder 530 is articulated with downside connecting rod 350 one end through second downside round pin 222, the other end of downside connecting rod 350 assembles with downside sealing plate 360. In the initial state, the lower cylinder is contracted, and at this time, the lower sealing plate 360 is not positioned below the movable side plate 410 and the fixed side plate 420, but the conveying mechanism B is positioned below the movable side plate 410 and the fixed side plate 420. During the use, conveying mechanism B shifts out and removes removal curb plate 410, fixed curb plate 420 below, and downside cylinder 530 starts, and drive downside telescopic shaft 531 extension to it can to drive lower side sealing plate 360 to rotate to the below of removing curb plate 410, fixed curb plate 420 below, two side sealing mechanism's below compress tightly and seal to drive downside closing plate 410, fixed curb plate 420 below.

The movable sealing mechanism A comprises a movable rack A310 and two movable side discs A110, wherein the two movable side discs A110 are respectively installed at two ends of a spiral guide rail A130, the two movable side discs A110 are respectively assembled with a reel A210 in a circumferential rotating and non-axial movable mode, a reel slide rail A211 is installed on the reel A210, the reel slide rail A211 is clamped with an eccentric slide block A221 and assembled in a sliding mode, the eccentric slide block A221 is assembled with an eccentric guide plate A230 through an eccentric screw A220, the eccentric guide plate A230 is assembled with one end of a sealing strip, and the other end of the sealing strip is installed on a fixed side plate 420; the movable rack A310 is arranged on the fixed side plate frame;

the spiral guide rail A130 is spirally arranged along the length direction of the scroll A210, a plurality of spiral guide wheels A460 are arranged on the inner side of the spiral guide rail A130, and the spiral guide wheels A460 press the eccentric guide plate A230 to the inner wall of the spiral guide rail A130 so as to play a role in guiding the eccentric guide plate A230 to move along the inner wall of the spiral guide rail A130;

the spiral guide rail A130 is also respectively provided with a first guide rail seat A140 and a second guide rail seat A150, the first guide rail seat A140 and the second guide rail seat A150 are respectively assembled with a movable frame A160, a movable slider A161 is installed on the movable frame A160, the movable slider A161 is clamped and slidably installed on a movable slide rail A320, the movable slide rail A320 is installed and distributed along the length direction of a movable rack A310, the moving rack A310 is provided with moving latches A311 distributed along the length direction thereof, the moving latch a311 is engaged with the moving gear a480 and constitutes a rack and pinion transmission mechanism, the moving gear A480 is sleeved on the moving output shaft A411 of the moving motor A410, the moving output shaft A411 can be driven to rotate circularly after the moving motor A410 is started, thereby driving the moving gear a480 to rotate circularly, and the moving gear a480 drives the moving rack a160 to move along the length direction of the moving rack a310 by engaging with the moving rack. The moving motor a410 is mounted on the moving frame a 160.

The moving frame A160 is also provided with a discharging motor A420, an output shaft of the discharging motor A420 is fixedly connected with a discharging rotating shaft A330 through a coupler, and the discharging rotating shaft A330 and the moving frame A160 can be assembled in a circumferential rotating mode; the material discharging rotating shaft A330 is sleeved with a second movable belt pulley A432, one end of the scroll A210 penetrates out of one movable side disc A110 and then is assembled with the first movable belt pulley A431, the movable frame A160 is further provided with a third movable belt pulley A433 and a fourth movable belt pulley A434 through a first movable intermediate shaft A341 and a second movable intermediate shaft A342 in a circumferential rotating mode, and a movable belt respectively bypasses the first movable belt pulley A431, the second movable belt pulley A432, the third movable belt pulley A433 and the fourth movable belt pulley A434 to form a belt transmission mechanism. Thereby can drive blowing pivot A330 circumferential rotation after blowing motor 420 starts and drive the operation of removal belt in order to drive spool A210 circumferential rotation, can drive eccentric screw A220 synchronous revolution during spool A210 circumferential rotation for eccentric deflector A230 moves along helical guideway A130 is inboard, thereby the coiling or release sealing strip, thereby it moves along helical guideway A130 is inboard when the sealing strip coiling and the chucking is on helical guideway A130 is inboard. Again, the eccentric slider a221 slides along the reel slide rail a211, thereby performing the function of moving the sealing tape spirally along the spiral guide rail a 130.

The movable frame A160 is further provided with a guide frame A170, the guide frame A170 is circumferentially and rotatably provided with a fourth sealing guide wheel A444, the movable frame A160 is circumferentially and rotatably provided with a third sealing guide wheel A443 through a first movable wheel shaft A351, the discharging rotating shaft A330 is sleeved with a first sealing guide wheel A441 in a non-circumferential and rotatable mode, the movable frame A160 is circumferentially and rotatably assembled with a second sealing guide wheel A442 through a second movable wheel shaft A352, one end of the pressing guard plate A450 is non-circumferentially and rotatably assembled with the pressing linkage shaft A353, the other end of the pressing guard plate A450 is assembled with the movable frame A160 through a tension spring, and the tension spring is used for applying elastic force to the pressing guard plate A450 to pull the movable frame A160; the pressing linkage shaft A353 is installed on the movable frame A160 in a circumferential rotation mode, the first sealing guide wheel A441 and the second sealing guide wheel A442 are respectively pressed against two end faces of the sealing strip to convey the sealing strip, and the third sealing guide wheel A443 is attached to two sides of the sealing strip to guide the sealing strip to be output. When the sealing strip is used, the sealing strip is tightly pressed between the first sealing guide wheel A441 and the second sealing guide wheel A442, between the third sealing guide wheels A443 on two sides, and between the fourth sealing guide wheel A444 and the end surface of the guide frame A170, so that the sealing strip is orderly output, and the output power is provided by the first sealing guide wheel A441. The second sealing guide wheel A442 can be flexibly adjusted in distance from the first sealing guide wheel A441 by pulling the tension spring so as to be suitable for sealing strips with different thicknesses.

Preferably, the spiral guide rail a130 and the two moving-side discs a110 are further provided with a moving cover a120, and the moving cover a120 covers the spiral guide rail a130 to protect the inner side of the spiral guide rail a 130.

Preferably, a sensor plate a180 is installed between the first guide rail seat a140 and the movable cover a120, and a photoelectric sensor is installed on the sensor plate a180 and used for detecting whether the sealing strip passes through to judge the length of the released or wound sealing strip.

When the sealing strip discharging device is used, the moving motor A410 and the discharging motor A420 are started, so that the moving frame A160 is driven to move along the moving rack, the spiral guide rail A130 releases the sealing strip, the sealing strip moves along the top edges of the moving side plate 410 and the fixed side plate 420 until the sealing strip covers the tops of the moving side plate 410, the fixed side plate 420 and the two side sealing plates 610, and then the moving motor A410 and the discharging motor A420 are stopped. And starting the lower side cylinder, so that the movable side plate 410, the fixed side plate 420 and the two side sealing plates 610 upwards press the sealing strip, and then the movable side plate is extruded to the fixed side plate to realize the sealing of the tops of the movable side plate and the fixed side plate.

After the hollow glass is processed, the moving motor A410 and the discharging motor A420 rotate reversely, so that the moving frame A160 is driven to reset, the scroll A210 rotates reversely, and the scroll A210 drives the eccentric guide plate A230 to move along the spiral guide rail A130 to wind the sealing strip.

The conveying mechanism B comprises a conveying frame B110 and two conveying belts B210, two conveying motor shafts B311 and two conveying belt shafts B460 are circumferentially and rotatably mounted on the conveying frame B110, the conveying belts B210 pass around one conveying motor shaft B311 and one conveying belt shaft B460 to form a belt transmission mechanism, one end of each conveying motor shaft B311 is mounted in the conveying motor B310, and the conveying motor B310 can drive the conveying motor shaft B311 to circumferentially rotate after being started, so that the corresponding conveying belt B210 is driven to run. The two conveyor belts B210 are driven by different conveyor motors B310, respectively, so as to realize different operation conditions of the two conveyor belts B210. The conveying motor B310 is installed on the conveying frame B110, the conveying frame B110 is assembled with a second conveying hinged plate B450, a conveying extension plate B451 is arranged on the second conveying hinged plate B450, one end of the conveying extension plate B451 is hinged with one end of a second conveying rotating shaft B432 through a third conveying rotating shaft B433 after penetrating through the conveying frame B110, the other end of the second conveying rotating shaft B432 is circumferentially and rotatably assembled with one end of a first conveying rotating shaft B431, and the other end of the first conveying rotating shaft B431 is hinged with the base 110;

the second conveying hinged plate B450 is hinged with one end of a first conveying hinged plate B440 through a fourth conveying pin B414, the other end of the first conveying hinged plate B440 is hinged with a conveying telescopic shaft B321 through a second conveying pin B412, a third conveying pin B413 is mounted on the middle part of the first conveying hinged plate B440, and the third conveying pin B413 and a conveying linkage shaft B420 are assembled in a non-circular rotation mode; the shell of the conveying cylinder B320 is hinged with a first conveying shaft plate B120 through a first conveying pin B411, and the first conveying shaft plate B120 is installed on the base 110.

When the glass input device is used, the two conveying motors B310 are started in a segmented mode, and then the first glass, the third glass, the second glass and the fourth glass can be input respectively. When the sealing inflation is needed, the conveying cylinder drives the conveying telescopic shaft B321 to extend, so that the conveying frame B110 is driven to rotate towards the direction of the moving side plate frame 120 by taking the first conveying rotating shaft B431 as the center until the bottom of the fixed side plate 410 and the bottom of the moving side plate 420 are rotated out, then the lower side cylinder 530 is started, and the bottom of the fixed side plate 410 and the bottom of the moving side plate 420 are sealed through the lower side sealing plate.

The utility model is not described in detail, but is well known to those skilled in the art.

The foregoing detailed description of the preferred embodiments of the utility model has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (10)

1. A side sealing mechanism is characterized in that: the side sealing plate is provided with a first side shaft seat which is hinged with a side telescopic shaft of a side cylinder through a second side pin, one end, far away from the side telescopic shaft, of a shell of the side cylinder is hinged with a second side shaft seat through the first side pin, and the second side shaft seat is arranged on the side housing;

the side mounting seat is arranged on the side sealing plate, and the side cover casing is directly or indirectly arranged on the movable side plate frame; the side mounting seat is hinged with one end of the first side connecting rod through a third side pin, and the other end of the first side connecting rod is hinged with one end of the second side connecting rod through a fourth side pin; the side sealing plate is provided with a side sealing strip; the other end of the second side connecting rod is sleeved on the side linkage shaft in a non-circumferential-rotation manner.

2. A side sealing mechanism as claimed in claim 1, wherein: the side slide rail is arranged on the side mounting seat, the side slide rail is clamped with the side slide seat and can be assembled in a sliding mode, and the side slide seat is arranged on the side housing.

3. A side sealing mechanism as claimed in claim 1, wherein: the two adjacent side edge cover shells are connected and assembled through a side edge connecting frame, and the side edge connecting frame is installed on the movable side plate frame.

4. A duplex position closes mascerating machine, characterized by: use of a side sealing mechanism according to any of claims 1 to 3.

5. The double-station laminating machine of claim 4, wherein: the sliding block device comprises a base, a fixed side plate frame and a movable side plate frame, wherein the fixed side plate frame is arranged on the base, a sliding block seat is arranged at the bottom of the movable side plate frame, a sliding block is arranged on the sliding block seat, and the sliding block is clamped with a sliding rail and can be assembled in a sliding mode; the mutually facing end surfaces of the movable side plate frame and the fixed side plate frame are respectively provided with a movable side plate and a fixed side plate; the end surfaces of the movable side plate and the fixed side plate are respectively provided with a plurality of suckers, and the suckers are used for adsorbing glass;

a movable screw rod is arranged on the fixed side plate frame in a circumferentially rotatable and axially immovable manner, one end of the movable screw rod penetrates through the movable side plate frame and is assembled with the movable side plate frame in a screwing manner through threads, a third movable belt wheel is sleeved on the movable screw rod, a movable belt respectively bypasses the first movable belt wheel, the second movable belt wheel and the third movable belt wheel to form a belt transmission mechanism, and the second movable belt wheel is sleeved on an output shaft of a movable motor;

the movable side plate frame is provided with a movable side plate frame, a movable side plate frame and a conveying mechanism, wherein the movable side plate frame is provided with a movable sealing mechanism at the top part and a conveying mechanism at the bottom part; the conveying mechanism is used for conveying glass;

downside sealing mechanism includes downside axle bed, downside closing plate, downside connecting rod, downside cylinder, the downside axle bed is installed and is articulated through first downside round pin and downside cylinder's shell at removal curb plate frame bottom and downside axle bed, and downside telescopic shaft of downside cylinder is articulated through second downside round pin and downside connecting rod one end, the downside connecting rod other end and the assembly of downside closing plate.

6. The double-station laminating machine of claim 5, wherein: an outer cover is arranged on the end face of one end of the movable side plate frame, which is far away from the movable side plate; the base is further hinged with one end of a first supporting rod and one end of a second supporting rod respectively, and the other ends of the first supporting rod and the second supporting rod are hinged with the fixed side plate frame respectively, so that the fixed side plate frame is supported;

but first removal band pulley and fixed curb plate frame circumferencial rotation assembly, or first removal band pulley install on the telescopic shaft of tensioning cylinder circumferencial rotation ground, tensioning cylinder is through the flexible degree of adjusting the removal belt of its telescopic shaft of drive.

7. The double-station laminating machine of claim 5, wherein: the side sealing mechanism comprises a side sealing plate, a side cover shell and a side mounting seat, wherein a first side shaft seat is mounted on the side sealing plate and is hinged with a side telescopic shaft of a side cylinder through a second side pin;

the side mounting seat is arranged on the side sealing plate, and the side cover casing is directly or indirectly arranged on the movable side plate frame; the side mounting seat is hinged with one end of the first side connecting rod through a third side pin, and the other end of the first side connecting rod is hinged with one end of the second side connecting rod through a fourth side pin; the side sealing plate is provided with a side sealing strip; the other end of the second side connecting rod is sleeved on the side linkage shaft in a non-circumferential-rotation manner;

the side slide rail is arranged on the side mounting seat, the side slide rail is clamped with the side slide seat and can be assembled in a sliding mode, and the side slide seat is arranged on the side housing.

8. The double-station laminating machine of claim 5, wherein: the movable sealing mechanism comprises a movable rack and two movable side discs, the two movable side discs are respectively installed at two ends of the spiral guide rail, the two movable side discs are respectively assembled with the scroll in a circumferential rotating and non-axial movable mode, a scroll sliding rail is installed on the scroll, the scroll sliding rail is clamped with the eccentric sliding block and assembled in a sliding mode, the eccentric sliding block is assembled with the eccentric guide plate through the eccentric screw rod, the eccentric guide plate is assembled with one end of the sealing strip, and the other end of the sealing strip is installed on the fixed side plate;

the spiral guide rail is spirally arranged along the length direction of the scroll, a first guide rail seat and a second guide rail seat are further respectively installed on the spiral guide rail, the first guide rail seat and the second guide rail seat are respectively assembled with the moving frame, a moving slide block is installed on the moving frame, the moving slide block is clamped and slidably installed on the moving slide rail, the moving slide rail is installed and distributed along the length direction of a moving rack, moving clamping teeth distributed along the length direction of the moving rack are arranged on the moving rack, the moving clamping teeth are meshed with a moving gear to form a gear-rack transmission mechanism, the moving gear is sleeved on a moving output shaft of a moving motor, and the moving motor is installed on the moving frame;

the inner side of the spiral guide rail is provided with a plurality of spiral guide wheels, and the spiral guide wheels tightly press the eccentric guide plate to the inner wall of the spiral guide rail so as to play a role in guiding the eccentric guide plate to move along the inner wall of the spiral guide rail;

the movable rack is also provided with a discharging motor, an output shaft of the discharging motor is fixedly connected with a discharging rotating shaft, and the discharging rotating shaft and the movable rack can be circumferentially and rotatably assembled; the feeding rotating shaft is sleeved with a second moving belt wheel, one end of the scroll penetrates out of one moving side disc and then is assembled with the first moving belt wheel, the moving frame is further provided with a third moving belt wheel and a fourth moving belt wheel in a circumferential rotating mode through a first moving intermediate shaft and a second moving intermediate shaft, and the moving belt bypasses the first moving belt wheel, the second moving belt wheel, the third moving belt wheel and the fourth moving belt wheel respectively and forms a belt transmission mechanism.

9. The double-station laminating machine of claim 8, wherein: the movable frame is further provided with a guide frame and a compression guard plate, a fourth sealing guide wheel is arranged on the guide frame in a circumferential rotating mode, a third sealing guide wheel is arranged on the movable frame in a circumferential rotating mode through a first movable wheel shaft, the first sealing guide wheel is sleeved on the discharging rotating shaft in a non-circumferential rotating mode, the movable frame is assembled with the second sealing guide wheel in a circumferential rotating mode through a second movable wheel shaft, one end of the compression guard plate is assembled with the compression linkage shaft in a non-circumferential rotating mode, the other end of the compression guard plate is assembled with the movable frame through a tension spring, and the tension spring is used for applying elastic force for pulling the movable frame to the compression guard plate; but compress tightly the universal driving shaft and install on removing the frame with circumferential rotation, first sealed leading wheel, the sealed leading wheel of second compress tightly in order to carry the sealing strip with two terminal surfaces of sealing strip respectively, the sealed leading wheel of third pastes tightly in order to guide the sealing strip output with the sealing strip both sides.

10. The double-station laminating machine of claim 5, wherein: the conveying mechanism comprises a conveying frame and at least two conveying belts, wherein two conveying motor shafts and two conveying belt shafts are arranged on the conveying frame in a circumferential rotating mode, the conveying belts pass through one conveying motor shaft and one conveying belt shaft to form a belt transmission mechanism, one end of each conveying motor shaft is arranged in the corresponding conveying motor, and each conveying belt is driven by a different conveying motor;

the conveying motor is installed on the conveying frame, the conveying frame is assembled with the second conveying hinged plate, a conveying extension plate is arranged on the second conveying hinged plate, one end of the conveying extension plate penetrates through the conveying frame and then is hinged with one end of the second conveying rotating shaft through the third conveying rotating shaft, the other end of the second conveying rotating shaft is assembled with one end of the first conveying rotating shaft in a circumferential rotating mode, and the other end of the first conveying rotating shaft is hinged with the base;

the second conveying hinged plate is hinged with one end of the first conveying hinged plate through a fourth conveying pin, the other end of the first conveying hinged plate is hinged with a conveying telescopic shaft through the second conveying pin, the conveying telescopic shaft is telescopically assembled on the conveying cylinder, a third conveying pin is installed on the middle part of the first conveying hinged plate, and the third conveying pin and the conveying linkage shaft are assembled in a non-relative circumferential rotation mode; the shell of the conveying cylinder is hinged with a first conveying shaft plate through a first conveying pin, and the first conveying shaft plate is installed on the base.

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