CN115091803A

CN115091803A - Integral type hollow glass cleaning and hot-pressing combined machine

Info

Publication number: CN115091803A
Application number: CN202210878625.2A
Authority: CN
Inventors: 崔银标
Original assignee: Jiangsu Chengcheng Energy Saving Glass Co ltd
Current assignee: Jiangsu Chengcheng Energy Saving Glass Co ltd
Priority date: 2022-07-25
Filing date: 2022-07-25
Publication date: 2022-09-23

Abstract

The invention provides an integral hollow glass cleaning and hot-pressing combined machine, which comprises a processing channel, wherein the front end of the processing channel is connected with a feeding conveyor belt, and the tail end of the processing channel is connected with a discharging conveyor belt, and is characterized in that the feeding conveyor belt comprises an upper part and a lower part, an adsorption part for grabbing an upper glass plate is arranged above the tail end of the upper conveyor belt, the lower conveyor belt extends to the position connected with the discharging conveyor belt, a cleaning roller for cleaning the interlayer surface of the glass plate, an adhesive tape adhering device for adhering an adhesive tape and a hot-pressing mechanism for pressing the glass plate in a gradient manner are sequentially arranged on the rear side of the adsorption part along the advancing direction of the conveyor belt, the levelness of the glass plate is influenced by the gradient stress of the glass plate, so that the glass plate inclines towards one side, the gap between the other side and a sealing adhesive tape is enlarged, the air in the interlayer is conveniently discharged, a good negative pressure interlayer is formed, and the sealing adhesive tape is more tightly adhered to the glass plate by negative pressure, avoid air leakage and have good development prospect.

Description

Integral type hollow glass cleaning and hot-pressing combined machine

Technical Field

The invention relates to the field of glass processing equipment, in particular to an integral hollow glass cleaning and hot-pressing combined machine.

Background

The hollow glass is high-efficiency sound-insulating and heat-insulating glass prepared by bonding two (or three) pieces of glass with an aluminum alloy frame containing a drying agent by using a high-strength high-airtightness composite bonding agent, has good daylighting performance and heat-insulating performance and is widely applied to production and life of people, and the glass hot press is special hollow glass equipment for producing composite adhesive tape type hollow glass. After the sealing rubber strips are arranged on the peripheries of the two glass original sheets, the hollow glass is obtained by heating, baking, rolling and sealing through the machine.

The existing glass hot press, such as a full-automatic glass hot press applied to hollow glass production with application number CN201520752380.4, comprises a frame and a frame table, wherein a hot press chamber is arranged in the middle of the frame, the frame table comprises an input frame table and an output frame table, a middle working table is arranged in the hot press chamber, the hot press chamber comprises a press chamber and a preheating chamber, a carrier roller device and a rolling device are arranged in the press chamber, the rolling device is connected with a lifting device, the lifting device is connected with a lifting transmission device, the carrier roller device and the rolling device are connected with a rolling transmission device, a heating device is arranged in the press chamber, a preheating device is arranged in the preheating chamber, and a heating control chamber is arranged at the bottom of the preheating chamber; it carries out the pressfitting through the compression roller with the roll-in device through elevating gear to glass, however, its compression roller is the linkage setting, together goes up and down, and glass is the pressure equilibrium all around, is unfavorable for the discharge of glass intermediate layer in air, can't form suitable in situ negative pressure, leads to being connected closely the degree between follow-up in-use glass and the joint strip not enough, changes along with temperature and atmospheric pressure and takes place the gas leakage easily, leads to external steam to get into, forms steam in the intermediate layer, influences the penetrating degree.

Therefore, a novel hollow glass cleaning and hot-pressing combined machine which is beneficial to molding of interlayer negative pressure is needed.

Disclosure of Invention

The invention aims to provide an integral type hollow glass cleaning and hot-pressing combination machine.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides an integral cavity glass washs hot pressing combination machine, including the processing passageway, the front end of processing passageway is connected with the pan feeding conveyer belt, trailing end connection has exit conveyor, a serial communication port, the pan feeding conveyer belt includes upper and lower two parts, the tail end top of upside conveyer belt is provided with the absorption piece that snatchs the upper glass board, the downside conveyer belt extends to the position with exit conveyor joint, along the advancing direction of conveyer belt, the rear side that adsorbs the piece has set gradually the cleaning roller of clean glass board clamp face, the adhesive tape of gluing the adhesive tape is stained with the hot pressing mechanism that attaches the device and the gradient pressfitting glass board of exerting pressure.

As a further scheme of the invention: the processing channel comprises a shell and a negative pressure fan, the shell is of a semi-closed metal structure, openings for feeding the material conveying belt and the discharging conveying belt to pass through are formed in the front side and the rear side of the shell, the negative pressure fan is arranged at the position, corresponding to the feeding conveying belt, of the front side, and air in the shell is pumped out and discharged to the outside through the negative pressure fan.

As a further scheme of the invention: the adsorption piece is arranged on a slide rail at the top of the inner side of the processing channel in a sliding mode, the slide rail and the feeding conveyor belt are arranged right above the feeding conveyor belt in parallel, a hydraulic telescopic rod stretching along the vertical direction is connected to the bottom of the slide rail in a sliding mode, and the adsorption piece is fixed to the bottom of the hydraulic telescopic rod.

As a further scheme of the invention: the cleaning rollers are two groups in total, are arranged at the tail end of the upper side feeding conveyor belt, and are arranged between the adsorption piece and the lower side feeding conveyor belt, the horizontal height is arranged at the position respectively attached to the bottom surface of the upper side feeding conveyor belt and the upper surface of the lower side feeding conveyor belt, each group of cleaning rollers comprises two cleaning rollers arranged in a herringbone mode, and spray heads are arranged on the two sides of the processing channel and in the positions corresponding to the cleaning rollers.

As a further scheme of the invention: the cleaning roller comprises a rotating shaft, cleaning strips and flexible brushes, the tail end of the rotating shaft is connected with a driving motor fixedly arranged in the processing channel for transmission, the cleaning strips which are spirally arranged are arranged on the circumferential surface of the rotating shaft in an upward protruding mode, and the flexible brushes are adhered to the two sides of the cleaning strips.

As a further scheme of the invention: the adhesive tape adhering device is arranged on the processing channel structures on two sides of the feeding conveyor belt, is connected with the processing channel through a hydraulic telescopic rod, and moves on the horizontal plane along the direction vertical to the feeding conveyor belt.

As a further scheme of the invention: the hot pressing mechanism comprises a base frame, a heat pipe, a lifting piston and a compression roller, the base frame is fixedly connected to a position right above a tail end discharging conveyor belt of the machining channel, the lifting piston sequentially communicated with a motion pressure gradient is arranged on two sides of the base frame, the compression roller is connected to the bottom of the lifting piston in a transmission mode, the compression roller drives the base frame to move in the vertical direction through the lifting piston, the heat pipe is arranged at the bottom of the base frame, and the heat pipe is arranged in a gap between the compression rollers.

As a further scheme of the invention: the lifting piston comprises a piston cylinder, a piston rod, a gradient spring and liquid guide channels, the piston rod which moves vertically is arranged in the piston cylinder in a sliding mode, the gradient spring is arranged between the piston cylinder and the piston rod, the gradient spring works all the time to enable the piston rod to move towards the contraction direction, adjacent piston cylinders are communicated through the liquid guide channels, when the piston rod is located at the contraction position, the communication of the two liquid guide channels connected to the same hydraulic cylinder is cut off by the piston rod structure, and when the piston rod extends out, the two liquid guide channels are communicated.

As a further scheme of the invention: the gradient spring is a spring with gradient elastic coefficient, and the elastic coefficient of the gradient spring closer to the feeding conveyor belt is lower.

As a further scheme of the invention: the compression roller is movably connected with the lifting piston, and the connection distance in the vertical direction can be adjusted.

Advantageous effects

1. The front end of the processing channel is provided with a cleaning roller, a mechanism for cleaning glass such as a spray header and the like, the rear side of the processing channel is provided with a hot pressing mechanism, air at the front end of the shell, namely the side where the conveying belt is fed, can be continuously extracted through the negative pressure fan to form negative pressure, the air in the shell is driven to flow, the air flow heated by the hot pressing mechanism at the tail end is enabled to flow to the front side, the glass plate can be preheated, the influence of rapid temperature change on the glass plate can be prevented, and the effects of drying the surface of the glass plate and sealing the air in the interlayer of the glass plate can be achieved.

2. The hot pressing mechanism is provided with the compression rollers which are expanded in a gradient manner, and the compression rollers can sequentially extend out when extending out through the gradient arrangement of the lifting piston, namely, the glass plate is pressed from one side and gradually covers the whole glass plate, the levelness of the glass plate is influenced due to the single-side stress when the glass plate is initially extended, so that the glass plate inclines towards one side, a gap between the other side and the sealing rubber strip is enlarged, air in the interlayer can be conveniently discharged, the glass plate is completely attached to the sealing rubber strip along with the comprehensive covering of the pressure, the adhesive strip is attached after being melted by heat to seal the interlayer, a good negative pressure interlayer is formed, the sealing rubber strip is attached to the glass plate more tightly through negative pressure, and air leakage is avoided.

3. According to the invention, the teaspoon springs with gradient elasticity coefficients are arranged in the lifting piston of the ladder, the gradient springs closer to the feeding conveyor belt have lower elasticity coefficients, and by arranging different elasticity coefficients of the gradient springs, all lifting pistons are ensured to sequentially reset in sequence when the lifting piston contracts, so that the phenomenon that the front side oil circuit is disconnected and cannot reset due to the preferential reset of the rear lifting piston is avoided, and the resetting precision of the lifting piston is ensured.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a sectional view of the overall structure of the present invention.

FIG. 3 is a schematic view of the scrub roller assembly of the present invention.

FIG. 4 is a schematic view of the cleaning roller of the present invention.

Fig. 5 is a schematic view of the installation of the joint strip of the present invention.

Fig. 6 is a schematic view of a hot pressing mechanism according to the present invention.

Fig. 7 is a sectional view of the elevating piston structure of the present invention.

In FIGS. 1-7: 1-feeding conveyor belt, 2-processing channel, 201-shell, 202-negative pressure fan, 3-discharging conveyor belt, 4-slide rail, 5-adsorption piece, 6-cleaning roller, 601-rotating shaft, 602-cleaning strip, 603-flexible brush, 7-adhesive tape adhering device, 8-hot pressing mechanism, 801-base frame, 802-heat pipe, 803-lifting piston, 8031-piston cylinder, 8032-piston rod, 8033-gradient spring, 8034-liquid guide channel, 804-press roller, 9-glass plate and 10-sealing adhesive tape.

Detailed Description

The following will clearly and completely describe the specific technical scheme of the invention with reference to fig. 1-7 in the attached drawings of the specification of the invention;

referring to fig. 1-7, fig. 1 is a schematic overall structure diagram of an embodiment of the present invention; FIG. 2 is a cross-sectional view of the overall construction of the present invention; FIG. 3 is a schematic view of the scrub roller installation of the present invention; FIG. 4 is a schematic view of the construction of the scrub roller of the present invention; FIG. 5 is a schematic view of the installation of the joint strip of the present invention; FIG. 6 is a schematic view of a hot press mechanism according to the present invention; fig. 7 is a sectional view of the elevating piston structure of the present invention.

The embodiment provides a pair of integral cavity glass washs hot pressing combination machine, it includes process channel 2, process channel 2's front end is connected with pan feeding conveyer belt 1, trailing end connection has exit conveyor 3, a serial communication port, pan feeding conveyer belt 1 includes upper and lower two parts, upside pan feeding conveyer belt 1's tail end top is provided with the absorption piece 5 who snatchs the upper glass board, downside pan feeding conveyer belt 1 extends to the position with exit conveyor 3 joint, along the advancing direction of conveyer belt, the rear side of absorption piece 5 has set gradually clean glass board 9 and presss from both sides the cleaning roller 6 of aspect, the adhesive tape that glues joint strip 10 is stained with and attaches device 7 and gradient pressure application of pressure pressfitting glass board's hot pressing mechanism 8.

Further, as shown in fig. 2, the processing channel 2 includes a housing 201 and a negative pressure fan 202, the housing 201 is a semi-closed metal structure, only the front and back sides are provided with openings for the feeding conveyor belt 1 and the discharging conveyor belt 3 to pass through, the front side is provided with the negative pressure fan 202 corresponding to the feeding conveyor belt 1, and the negative pressure fan 202 draws out air in the housing 201 to be discharged to the outside;

through semi-closed shell 201 and negative pressure fan 202's setting, negative pressure fan 202 can continuously extract shell 201 front end and pan feeding conveyer belt 1 side air promptly, forms the negative pressure, drives the flow of the interior air of shell 201, makes the tail end receive the air current of hot pressing mechanism 8 heating to the front side, can preheat glass board 9 and prevent quick temperature change to glass board 9's influence, also can play dry glass board 9 surface and the effect of the clamp at glass board 9 interlayer air.

Further, as shown in fig. 2, the adsorption member 5 is slidably disposed on a slide rail 4 at the top of the inner side of the processing channel 2, the slide rail 4 and the feeding conveyor belt 1 are disposed in parallel right above the feeding conveyor belt 1, the bottom of the slide rail 4 is slidably connected with a hydraulic telescopic rod which extends and retracts in the vertical direction, and the bottom of the hydraulic telescopic rod is fixed with the adsorption member 5;

the glass plate 5 on the upper side is sucked through the adsorption piece 5 and the sliding rail 4, so that the glass plate 5 is convenient to clean and assemble.

Further, as shown in fig. 2 and fig. 3, two sets of cleaning rollers 6 are provided, and are arranged at the tail end of the upper feeding conveyor belt 1 and at positions between the upper feeding conveyor belt 1 and the lower feeding conveyor belt 1, the horizontal height is provided at a position respectively attached to the bottom surface of the upper feeding conveyor belt 1 and the upper surface of the lower feeding conveyor belt 1, each set of cleaning rollers 6 comprises two cleaning rollers 6 arranged in a herringbone manner, and spray headers are provided at positions corresponding to the cleaning rollers 6 on both sides of the processing channel 2;

the interlayer surface of the glass plate 9 is cleaned through the cleaning roller 6, the herringbone arrangement mode plays a role in guiding, dust is discharged to two sides conveniently, the interlayer permeability of the glass plate 9 is guaranteed conveniently, and the light transmittance is improved.

As shown in fig. 4, the cleaning roller 6 includes a rotating shaft 601, cleaning strips 602 and flexible brushes 603, the tail end of the rotating shaft 601 is connected and driven with a driving motor fixedly arranged in the processing channel 2, the cleaning strips 602 spirally arranged are convexly arranged on the circumferential surface of the rotating shaft 601, and the flexible brushes 603 are adhered to two sides of the cleaning strips 602;

through the rotation of spiral helicine cleaning strip 602 laminating glass board 9, can clear with the dust the water liquid on glass board 9 surface and scrape, play clean effect, and the setting of flexbile brush 603 can be laminated with glass board 9 surface more under the centrifugal force effect along with the rotation of pivot 601, clears up some stubborn stains, guarantees the cleanliness.

Further, the adhesive tape adhering device 7 is arranged on the processing channel 2 structures on two sides of the feeding conveyor belt 1, is connected with the processing channel 2 through a hydraulic telescopic rod, and moves on the horizontal plane along the direction vertical to the feeding conveyor belt 1;

through being stained with the adhesive tape of pan feeding conveyer belt 1 vertical motion and attaching device 7, the motion of cooperation pan feeding conveyer belt 1 can be quick from both sides accomplish the C shape application of joint strip 10 on glass board 9, constitutes joint strip 10's frame column structure, accomplishes joint strip 10's application.

Further, as shown in fig. 6, the hot pressing mechanism 8 includes a base frame 801, a heat pipe 802, a lifting piston 803 and a press roller 804, the base frame 801 is fixedly connected to a position right above the discharge conveyor belt 3 at the tail end of the processing channel 2, the lifting pistons 803 which are sequentially communicated with the two sides of the base frame 801 and are arranged in a motion pressure gradient manner are arranged on the two sides of the base frame 801, the press roller 804 is connected to the bottom of the lifting piston 803 in a transmission manner, the press roller 804 is driven by the lifting piston 803 to move in the vertical direction, the heat pipe 802 is arranged on the bottom of the base frame 801, and the heat pipe 802 is arranged in a gap between the press rollers 804;

through the gradient arrangement of the lifting piston 803, the lifting piston 803 can sequentially drive the compression rollers 804 to sequentially extend out when extending out, namely, the pressure applied to the glass plate 9 is started from one side, the whole glass plate 9 is gradually covered, at the beginning, the levelness of the glass plate 9 can be influenced due to the single-side stress, the glass plate is inclined towards one side, the gap between the other side and the sealing rubber strip 10 is enlarged, the air in the interlayer can be conveniently discharged, along with the comprehensive covering of the pressure, the glass plate 9 is completely attached to the sealing rubber strip 10, the sealing rubber strip 10 is heated by the heating pipe 802 to be attached to the glass plate 9 after being hot-melted, the interlayer is sealed, a good negative pressure interlayer is formed, the attachment of the sealing rubber strip 10 and the glass plate 9 is more tight through negative pressure, and air leakage is avoided.

As shown in fig. 7, the lifting piston 803 includes a piston cylinder 8031, a piston rod 8032, a gradient spring 8033 and a liquid guide channel 8034, the piston rod 8032 which moves vertically is slidably disposed in the piston cylinder 8031, the gradient spring 8033 is disposed between the piston cylinder 8031 and the piston rod 8032, the gradient spring 8033 always works to move the piston rod 8032 in a contraction direction, adjacent piston cylinders 8031 are communicated with each other through the liquid guide channel 8034, when the piston rod 8032 is in a contraction position, the communication between the two liquid guide channels 8034 connected to the same hydraulic cylinder 8031 is cut off by the structure of the piston rod 8032, and when the piston rod 8032 is extended, the two liquid guide channels 8034 are communicated with each other;

by setting the cutoff effect of the piston rod 8032 on the liquid guide channel 8034, the piston rod 8032, namely the pressing roller 804, is in a mode of sequentially extending, and gradient hot pressing on the glass plate 9 is realized.

Specifically, the gradient spring 8033 is a spring with a gradient elastic coefficient, and the gradient spring with a lower elastic coefficient is closer to the feeding conveyor belt 1;

by setting different elastic coefficients of the gradient springs 8033, all the lifting pistons 803 are ensured to sequentially reset when the lifting pistons 803 contract, and the phenomenon that the front side oil circuit is disconnected and cannot reset due to preferential reset of the rear side lifting pistons 803 is avoided, so that the resetting precision of the lifting pistons 803 is ensured.

Specifically, the press roller 804 is movably connected with the lifting piston 803, and the connection distance in the vertical direction can be adjusted;

the hollow glass with different thicknesses can be manufactured by adjusting the connection distance.

In the embodiment of the technical solution, the upper and lower glass plates 9 of the hollow glass are respectively guided into the processing channel 2 through the upper and lower feeding conveyors 1, then the adsorbing member 5 is moved downward to adsorb the upper glass plate 9 and keep synchronous motion with the lower feeding conveyor 1, the two side spray heads spray the interlayer surfaces of the upper and lower glass plates 9, the cleaning roller 6 cleans the interlayer surface of the glass plate 9, after cleaning, the adhesive tape sticking mechanism 7 is moved downward to stick the adhesive tape 10, the rectangular frame of the adhesive tape 10 is formed by the C-shaped coating on the two sides, then the adsorbing member 5 is moved downward to release the adsorption of the upper glass plate 9, the glass plates 9 are stacked and assembled, after the glass plates 9 are moved to the lower side of the hot-pressing mechanism 8, the lifting pistons 803 in the hot-pressing mechanism 8 are sequentially unfolded to drive the pressing rollers 804 to sequentially extend, that the pressing of the glass plates 9 is started from one side, the whole glass plate 9 is gradually covered, at the beginning, because the stress on one side can affect the levelness of the glass plate 9, the glass plate 9 inclines towards one side, the gap between the other side and the sealing rubber strip 10 becomes larger, the air in the interlayer can be conveniently discharged, along with the comprehensive covering of pressure, the glass plate 9 is completely attached to the sealing rubber strip 10, the heat pipe 802 heats and heats, the sealing rubber strip 10 is attached to the glass plate 9 after being hot-melted, the interlayer is sealed, a good negative pressure interlayer is formed, the bonding between the sealing rubber strip 10 and the glass plate 9 is more tight through negative pressure, the air leakage is avoided, meanwhile, the negative pressure fan 202 at the front end of the processing channel 2 operates to drive the air to flow, the air flow heated by the heat pressing mechanism 8 at the tail end is enabled to flow to the front side, the glass plate 9 can be preheated, the influence of rapid temperature change on the glass plate 9 can be prevented, the effect of drying the air on the surface of the glass plate 9 and the air sealed and clamped in the interlayer of the glass plate 9 can also be achieved, finally, the hollow glass plate after hot pressing is sent out from the tail end discharge conveyor belt 3.

Claims

1. The utility model provides an integral cavity glass washs hot pressing combination machine which characterized in that includes:

the glass plate processing device comprises a processing channel (2), wherein the front side and the rear side of the processing channel (2) are respectively connected with a feeding conveyor belt (1) and a discharging conveyor belt (3), the feeding conveyor belt (1) is divided into an upper part and a lower part, and the upper part and the lower part are used for conveying glass plates (9) on the upper side and the lower side respectively;

the adsorption piece (5) is arranged above the tail end of the upper feeding conveyor belt (1) and is used for adsorbing and grabbing the upper glass plate (9) so as to facilitate the assembly of the glass plate (9);

the cleaning roller (6) is arranged at the position between the tail end of the upper feeding conveyor belt (1), the adsorption piece (5) and the lower feeding conveyor belt (1) and is used for cleaning the interlayer surface of the assembled glass plate (9), and spray heads are arranged at the positions, corresponding to the cleaning roller (6), of the two sides of the processing channel (3);

the adhesive tape adhering device (7) is arranged on the rear side of the cleaning roller (6) and is used for adhering and coating the sealing adhesive tape (10) on the glass plate (9);

and the hot-pressing mechanism (8) is arranged at the rear side of the adhesive tape adhering mechanism (7) and is used for carrying out hot melting on the sealing adhesive tape (10) and carrying out gradient pressing on the glass plate (9) to press the upper glass plate and the lower glass plate (9) together.

2. The integrated hollow glass cleaning and hot-pressing combined machine according to claim 1, wherein the processing channel (2) comprises:

the shell (201) is of a semi-closed metal structure, and only the front side and the rear side of the shell are provided with openings through which the feeding conveyor belt (1) and the discharging conveyor belt (3) pass;

and the negative pressure fan (202) is arranged at the front side of the shell (201) corresponding to the feeding conveyor belt (1), and the negative pressure fan (202) is used for pumping out air in the shell (201) and discharging the air to the outside.

3. The integrated hollow glass cleaning and hot-pressing combined machine according to claim 1, wherein the processing channel (2) further comprises:

slide rail (4), the setting is at the inboard top of process passageway (2), and slide rail (4) and pan feeding conveyer belt (1) parallel arrangement set up directly over pan feeding conveyer belt (1), and the bottom sliding connection of slide rail (4) has the hydraulic telescoping rod that stretches out and draws back along vertical direction, and hydraulic telescoping rod's bottom is fixed with adsorbs piece (5).

4. The integrated hollow glass cleaning and hot-pressing combined machine according to claim 1, characterized in that: cleaning roller (6) are totally two sets ofly, set up the position between upside pan feeding conveyer belt (1) tail end, upside pan feeding conveyer belt (1) and downside pan feeding conveyer belt (1), and the level sets up the position of laminating with the bottom surface of upside pan feeding conveyer belt (1), the upper surface of downside pan feeding conveyer belt (1) respectively, and every cleaning roller of group (6) contain two cleaning roller (6) that are the chevron shape and arrange.

5. The integrated hollow glass washing and hot-pressing combined machine according to claim 1, characterized in that the cleaning roller (6) comprises:

the tail end of the rotating shaft (601) is connected with a driving motor fixedly arranged in the processing channel (2) for transmission;

the cleaning strips (602) are spirally arranged and are convexly arranged on the circumferential surface of the rotating shaft (601);

and the flexible hairbrush (603) is adhered to two sides of the cleaning strip (602).

6. The integrated hollow glass cleaning and hot-pressing combined machine according to claim 1, characterized in that: the adhesive tape adhering device (7) is arranged on the processing channel (2) structures on two sides of the feeding conveyor belt (1), is connected with the processing channel (2) through a hydraulic telescopic rod, and moves on the horizontal plane along the direction vertical to the feeding conveyor belt (1).

7. The integrated hollow glass cleaning and hot-pressing combined machine according to claim 1, wherein the hot-pressing mechanism (8) comprises:

the base frame (801) is fixedly connected to the tail end of the processing channel (2) and a position right above the discharging conveyor belt (3);

the lifting pistons (803) are arranged on two sides of the base frame (801), are sequentially communicated and are arranged in a motion pressure gradient manner;

the compression roller (804) is arranged at the bottom of the base frame (801), is in transmission connection with the lifting piston (803), and is driven by the lifting piston (803) to move in the vertical direction;

and the heat pipe (802) is arranged at the bottom of the base frame (801) and is arranged at an interval with the pressing roller (804).

8. The integrated hollow glass cleaning and hot-pressing combined machine according to claim 7, wherein the lifting piston (803) comprises:

the piston cylinder (8031) is concavely arranged in the base frame (801);

the piston rod (8032) is arranged in the piston cylinder (8031) in a sliding manner and slides in the straight direction;

the gradient spring (8033) is arranged between the piston cylinder (8031) and the piston rod (8032), and the gradient spring (8033) works all the time to enable the piston rod (8032) to move towards the contraction direction;

the adjacent piston cylinders (8031) are communicated through the liquid guide channels (8034), when the piston rod (8032) is at a contraction position, the communication of the two liquid guide channels (8034) connected to the same piston cylinder (8031) is cut off by the structure of the piston rod (8032), and when the piston rod (8032) extends out, the two liquid guide channels (8034) are communicated.

9. The integrated hollow glass cleaning and hot-pressing combined machine according to claim 1, characterized in that: the gradient spring (8033) is a spring with a gradient elastic coefficient, and the elastic coefficient of the gradient spring (8033) closer to the feeding conveyor belt (1) is lower.

10. The integrated hollow glass cleaning and hot-pressing combined machine according to claim 1, characterized in that: the compression roller (804) is movably connected with the lifting piston (803), and the connection distance in the vertical direction can be adjusted.