CN211802049U - Butyl rubber coating machine for aluminum strip frame - Google Patents

Abstract

The utility model relates to a butyl rubber coating machine technical field, concretely relates to aluminum strip frame butyl rubber coating machine, including supplying gluey portion and rubber coating portion, the side that supplies gluey portion is provided with hydraulic power unit, supplies gluey portion to be connected with rubber coating portion through supplying gluey pipeline, rubber coating portion is including gluing jar and rubber coating mouth, the gluing jar is two, and one side of gluing jar is provided with gluey jar conversion subassembly, opposite side and is provided with rubber coating control assembly, two gluey jars of gluey jar conversion assembly control play glue in turn, and rubber coating control assembly control rubber coating mouth goes out to glue. The utility model provides an among the prior art butyl rubber coating machine need often change gluey bucket, the low efficiency, frequently change gluey bucket lead to gluing the bucket not enough to cause the rubber coating volume not enough to bond glass and both sides rubber coating mouth rubber coating inhomogeneous that the bucket exhausts, the poor problem of product quality, convenient to use, labour saving and time saving.

Description

Butyl rubber coating machine for aluminum strip frame

Technical Field

The utility model relates to a butyl rubber coating machine technical field, concretely relates to aluminum strip frame butyl rubber coating machine.

Background

The hollow glass has the outstanding advantages of good light transmission, heat insulation, corrosion resistance and the like, and is widely popularized in the current building field, and the demand is large. Two pieces of glass need to be bonded on an aluminum strip frame and sealed in the production of hollow glass, and butyl rubber is commonly used for bonding at present.

In the prior art, most butyl rubber coaters use small barrels of butyl rubber, the rubber barrels need to be replaced frequently during use, and the production efficiency is low; frequent replacement of the glue barrel can also lead to insufficient air exhaust of the glue barrel, so that the glue coating amount on two sides of the aluminum strip frame is insufficient to bond two pieces of glass, and production is influenced; meanwhile, the butyl rubber coating machine in the prior art has the defects that the gluing nozzles on the two sides are not uniform in gluing, and the glass is not firmly bonded, so that the quality of the produced hollow glass is poor.

Disclosure of Invention

In order to solve among the prior art butyl rubber coating machine and need often change gluey bucket, inefficiency, frequent change glue the bucket and lead to gluing the bucket not enough to cause the rubber coating volume not enough to bond glass and both sides rubber coating mouth rubber coating inhomogeneous, the poor problem of product quality, the utility model provides an aluminum strip frame butyl rubber coating machine.

The utility model provides an aluminum strip frame butyl rubber coating machine, is including supplying gluey portion and rubber coating portion, the side that supplies gluey portion is provided with hydraulic power unit, supplies gluey portion to be connected with rubber coating portion through supplying gluey pipeline, rubber coating portion is including gluing jar and rubber coating mouth, the gluing jar is two, and one side of gluing jar is provided with gluey jar conversion module, opposite side and is provided with the rubber coating control assembly, two gluey jars of gluey jar conversion module control go out in turn to glue, and rubber coating control assembly control rubber coating mouth goes out to glue.

Further, the glue supply part further comprises a base, a lifting hydraulic cylinder is vertically arranged on two sides of the base, a barrel locking device is arranged in the middle of the lifting hydraulic cylinder, a glue barrel is fixed on the barrel locking device, a horizontal cross beam is arranged at the upper end of a piston rod of the lifting hydraulic cylinder, a vertical downward pressing rod is arranged in the middle of the cross beam, a pressing plate is arranged at the lower end of the pressing rod, the pressing plate stretches into the glue barrel, a glue pump is arranged on the pressing plate, a glue supply pipeline is connected to the side face of the glue pump, a heating device and an exhaust cylinder are further arranged on the pressing plate, a cone valve is arranged at the end of the exhaust cylinder, an exhaust hole is formed in the pressing plate, the diameter of the cone valve is.

Furthermore, the gluing part also comprises a support frame, a conveyor belt used for conveying the aluminum strip frame is arranged on the support frame, gluing nozzles are arranged on two sides of the conveyor belt, a glue cylinder is arranged below the conveyor belt, the glue cylinder comprises a first glue cylinder and a second glue cylinder, a first hydraulic cylinder and a second hydraulic cylinder are respectively arranged below the first glue cylinder and the second glue cylinder, the piston rod ends of the first hydraulic cylinder and the second hydraulic cylinder respectively extend into the first glue cylinder and the second glue cylinder, the top parts of the first glue cylinder and the second glue cylinder are connected with a glue inlet pipe and a glue outlet pipe, the glue feeding pipe is characterized in that a glue feeding valve is arranged at the joint of the end part of the glue feeding pipe and the glue supply pipe, a glue discharging valve is arranged at the joint of the end part of the glue discharging pipe and the glue discharging nozzle, the other end of the glue discharging valve is connected with the glue discharging pipe, the upper ends of the glue discharging pipes are branched and are respectively connected to the glue discharging nozzles on the two sides, and the glue discharging pipes are provided with glue discharging valves.

Further, the glue cylinder conversion assembly comprises two conversion cylinders, positioning rings and first photoelectric sensors, the two conversion cylinders are arranged on one side of the glue cylinder in parallel, the extending ends of the conversion cylinders are connected to the valve rods of the glue inlet valve and the glue outlet valve respectively, the positioning rings are arranged on the lower portions of the extending ends of the first hydraulic cylinder and the second hydraulic cylinder respectively, the first photoelectric sensors are arranged on the side faces of the extending ends of the first hydraulic cylinder and the second hydraulic cylinder respectively, and the first photoelectric sensors are electrically connected with the conversion cylinders.

Further, the gluing control assembly comprises a gluing cylinder, the gluing cylinder is arranged on the other side of the gluing cylinder, the upper end of an extension rod of the gluing cylinder is connected with a T-shaped connecting rod, straight rods are arranged on two sides of the upper end of the connecting rod, a sliding groove is formed in each straight rod, a positioning stud is arranged in each sliding groove, the upper ends of the straight rods are respectively connected to valve rods of gluing valves on two sides, the gluing cylinder is electrically connected with a second photoelectric sensor, and the second photoelectric sensors are arranged on the front side and the rear side of a gluing nozzle.

Furthermore, the glue inlet valve and the glue outlet valve are all three-way ball valves.

Further, staving locking device is including fixing the backup pad on the base, and the vertical first fixed plate that is the semicircular in cross-section that is provided with in the backup pad, and the both ends of first fixed plate all articulate there is the second fixed plate, the second fixed plate passes through the hasp connection.

Compared with the prior art, the beneficial effects of the utility model are that:

the glue spreading part of the utility model comprises two glue cylinders and a glue cylinder conversion component, wherein the two glue cylinders alternately discharge glue, when butyl glue in one glue cylinder is about to use up, the other glue cylinder is changed for supplying glue, so that the problem of weak bonding of glass caused by the lack of glue at a glue spreading nozzle is avoided; the gluing control assembly can control the gluing nozzles on the two sides to simultaneously glue, so that uneven gluing is avoided.

The glue supply part comprises a base, and a barrel body locking device is arranged on the base and is convenient for supporting and fixing the glue barrel; lifting hydraulic cylinders are arranged on two sides of the base, so that glue can be extruded conveniently; a glue pump is arranged on the pressure plate, so that glue is conveniently supplied; still be provided with heating device and exhaust cylinder on the pressure disk, the taper valve that its tip of exhaust cylinder control set up carries out self-bleeding, has replaced original artifical exhaust, labour saving and time saving.

The gluing part comprises a conveying belt, so that the aluminum strip frame is convenient to convey; the glue inlet valve and the glue outlet valve are convenient for controlling the glue inlet and the glue outlet of the first glue cylinder and the second glue cylinder; the gluing valves are arranged on the gluing pipelines, so that glue discharging of the gluing nozzles at two sides can be conveniently controlled, and uneven glue discharging amount of the gluing nozzles at two sides can be avoided; the glue cylinder conversion assembly comprises a conversion air cylinder, and the conversion air cylinder can control the conversion of the glue inlet valve and the glue outlet valve so as to control the glue inlet and the glue outlet of the first glue cylinder and the second glue cylinder; the lower part of the piston rod end of the first hydraulic cylinder and the second hydraulic cylinder is provided with a positioning ring, the side surface of the positioning ring is provided with a first photoelectric sensor, the first photoelectric sensor is electrically connected with the conversion cylinder, and the conversion cylinder can be controlled to carry out rubber cylinder conversion according to the position of the positioning ring.

The gluing control assembly comprises a gluing cylinder, the upper end of the gluing cylinder is respectively connected to the valve rods of the two gluing valves through a connecting rod and a straight rod, so that gluing nozzles on two sides can be guaranteed to simultaneously and equivalently discharge glue, and uneven gluing is avoided; second photoelectric sensors are arranged on the front side and the rear side of the gluing nozzle, and whether the aluminum strip frame reaches the gluing nozzle or not can be automatically judged according to photoelectric signals, so that the gluing valve is controlled to glue; the barrel body locking device comprises a first fixing plate and a second fixing plate, the two ends of the second fixing plate are connected through hasps, and the glue barrel is convenient to fix and replace.

Drawings

Fig. 1 is a schematic structural diagram of the aluminum strip frame butyl rubber coating machine of the present invention.

Fig. 2 is a partial enlarged view of a position a in fig. 1 of the aluminum strip frame butyl rubber coating machine of the present invention.

Fig. 3 is a side view of the rubber cylinder conversion assembly of the aluminum strip frame butyl rubber coating machine of the present invention.

Fig. 4 is a side view of the gluing control assembly of the aluminum strip frame butyl rubber coating machine of the present invention.

Fig. 5 is a top view of the barrel locking device of the butyl rubber coating machine with aluminum strip frame of the present invention.

Fig. 6 is a first schematic structural diagram of a rubber cylinder conversion assembly of the butyl rubber coating machine with aluminum strip frames of the present invention.

Fig. 7 is a schematic structural diagram of a rubber cylinder conversion assembly of the aluminum strip frame butyl rubber coating machine of the present invention.

The reference numbers are: the device comprises a hydraulic pump station 1, an electrical control device 2, a glue supply pipeline 3, a glue cylinder 4, a glue nozzle 5, a glue cylinder conversion component 6, a glue control component 7, a base 8, a lifting hydraulic cylinder 9, a barrel locking device 10, a glue pump 11, a cross beam 12, a pressure rod 13, a pressure plate 14, a pressure plate 15, a support frame 16, a conveyor belt 17, a glue inlet pipe 18, a glue outlet pipe 19, a glue inlet valve 20, a glue outlet valve 21, a glue pipeline 22, a glue outlet valve 23, an exhaust air cylinder 24, a cone valve 401, a first glue cylinder 401, a second glue cylinder 402, a first hydraulic cylinder 403, a second hydraulic cylinder 404, a conversion air cylinder 601, a positioning ring 602, a first photoelectric sensor 603, a glue cylinder 701, a connecting rod 702, a straight rod 703, a second photoelectric sensor 704, a support plate 1001, a first fixing plate 1002 and a second fixing plate 1003.

Detailed Description

The invention will be further explained with reference to the following figures and specific examples:

as shown in fig. 1 to 5, an aluminum strip frame butyl rubber coating machine comprises a rubber supply part and a rubber coating part, wherein the rubber supply part comprises a base 8, two sides of the base 8 are vertically provided with lifting hydraulic cylinders 9, the middle of the lifting hydraulic cylinders 9 is provided with a barrel locking device 10, a rubber barrel is fixed on the barrel locking device 10, the barrel locking device 10 comprises a support plate 1001 fixed on the base 8, a first fixing plate 1002 with a semi-annular cross section is vertically arranged on the support plate 1001, two ends of the first fixing plate 1002 are hinged with second fixing plates 1003, the second fixing plates 1003 are connected through buckles, a horizontal cross beam 12 is arranged at the upper end of a piston rod of the lifting hydraulic cylinder 9, a vertical downward pressure rod 13 is arranged in the middle of the cross beam 12, a pressure plate 14 is arranged at the lower end of the pressure rod 13, the pressure plate 14 extends into the rubber barrel, a rubber pump 11 is arranged on the pressure plate 14, a rubber supply, still be provided with heating device and exhaust cylinder 23 on the pressure disk 14, exhaust cylinder 23's tip is provided with cone valve 24, has seted up the exhaust hole on the pressure disk 14, and cone valve 24's diameter and the diameter phase-match in exhaust hole, exhaust cylinder 23 control cone valve 24 exhausts, the confession is glued the portion and is connected with rubber coating portion through supplying gluey pipeline 3.

The gluing part comprises a support frame 15, a conveyor belt 16 for conveying an aluminum strip frame is arranged on the support frame 15, gluing nozzles 5 are arranged on two sides of the conveyor belt 16, a glue cylinder 4 is arranged below the conveyor belt 16, a glue cylinder conversion component 6 is arranged on one side of the glue cylinder 4, a gluing control component 7 is arranged on the other side of the glue cylinder 4, the glue cylinder 4 comprises a first glue cylinder 401 and a second glue cylinder 402, a first hydraulic cylinder 403 and a second hydraulic cylinder 404 are respectively arranged below the first glue cylinder 401 and the second glue cylinder 402, the piston rod ends of the first hydraulic cylinder 403 and the second hydraulic cylinder 404 respectively extend into the first glue cylinder 401 and the second glue cylinder 402, a glue inlet pipe 17 and a glue outlet pipe 18 are connected to the tops of the first glue cylinder 401 and the second glue cylinder 402, a glue inlet valve 19 is arranged at the merging position where the end part of the glue inlet pipe 17 merges with a glue supply pipeline 3, a glue outlet valve 20 is arranged at the merging position where the end part of the glue outlet pipe 18 merges with the gluing, the glue inlet valve 19 and the glue outlet valve 20 are three-way ball valves, the other end of the glue outlet valve 20 is connected with a glue coating pipeline 21, the upper end of the glue coating pipeline 21 is branched and is respectively connected to the glue coating nozzles 5 on the two sides, and the glue coating pipeline 21 is provided with a glue coating valve 22.

The glue cylinder conversion assembly 6 comprises two conversion air cylinders 601, a positioning ring 602 and a first photoelectric sensor 603, wherein the two conversion air cylinders 601 are arranged on one side of the glue cylinder 4 in parallel, the extending ends of the conversion air cylinders 601 are respectively connected to the valve rods of the glue inlet valve 19 and the glue outlet valve 20, the positioning rings 602 are respectively arranged at the lower parts of the extending ends of the first hydraulic cylinder 403 and the second hydraulic cylinder 404, the first photoelectric sensor 603 is respectively arranged on the side surfaces of the extending ends of the first hydraulic cylinder 403 and the second hydraulic cylinder 404, and the first photoelectric sensor 603 is electrically connected with the conversion air cylinders 601.

The gluing control component 7 comprises a gluing cylinder 701, the gluing cylinder 701 is arranged on the other side of the gluing cylinder 4, the upper end of an extension rod of the gluing cylinder 701 is connected with a T-shaped connecting rod 702, straight rods 703 are arranged on two sides of the upper end of the connecting rod 702, sliding grooves are formed in the straight rods 703, positioning studs are arranged in the sliding grooves, the upper ends of the straight rods 703 are respectively connected to valve rods of gluing valves 22 on two sides, the gluing cylinder 701 is electrically connected with second photoelectric sensors 704, and the second photoelectric sensors 704 are arranged on the front side and the rear side of the gluing nozzle 5.

The side of supplying gluey portion is provided with hydraulic power unit 1, the last unloading valve that is provided with of hydraulic power unit 1, through the promotion and the decline of hydraulic power unit 1 and unloading pump control lifting cylinder 9, replace traditional gas drive booster pump control, simple structure, hydraulic power unit 1 still is used for first pneumatic cylinder 403 and the action of second pneumatic cylinder 404, is provided with electric control device 2 on the support frame 15, specifically, electric control device 2 in this embodiment is PLC control module, lifting cylinder 9, gluey pump 11, heating device, exhaust cylinder 23, conveyer belt 16, first pneumatic cylinder 403, second pneumatic cylinder 404, conversion cylinder 601, first photoelectric sensor 603, rubber coating cylinder 701 and second photoelectric sensor 704 all be connected with PLC control module.

When the utility model is used, a worker turns butyl rubber of a vat into the fixed base of the vat body locking device 10, specifically, the worker puts the vat butyl rubber on the support plate 1001, then fastens the hasp on the second fixed plate 1003, and the fixation is completed; then the glue barrel cover is removed, the switch of the coating machine is opened, the extending end of the lifting hydraulic cylinder 9 drives the beam 12 to descend, the pressure plate 14 fixed on the pressure rod 13 descends, the heating device is arranged on the pressure plate 14, the heating device in the embodiment is an electric heater arranged in the pressure plate 14, butyl rubber in contact with the pressure plate 14 is heated and melted, enters the glue cylinder 4 along the glue supply pipeline 3 under the action of the glue pump 11, and enters the glue coating nozzle 5 through the glue outlet pipe 18 and the glue coating pipeline under the action of the first hydraulic cylinder 403 and the second hydraulic cylinder 404, and the glue coating operation is carried out.

Specifically, when the gluing operation is performed, the aluminum strip frame to be glued is conveyed on the conveyor belt 16, when the second photoelectric sensor 704 detects that the aluminum strip frame reaches the gluing nozzle 5, the PLC control module controls the gluing cylinder 701 to move, the gluing cylinder 701 drives the connecting rod 702 and the straight rod 703 to move, the upper end of the straight rod 703 is connected with the valve rods of the gluing valves 22 on the two sides, the gluing valves 22 are opened, the gluing nozzles 5 on the two sides of the conveyor belt 16 simultaneously and equivalently glue, the aluminum strip frame is glued, when the second photoelectric sensor 704 detects that the aluminum strip frame leaves the gluing nozzle 5, the PLC control module controls the gluing cylinder 701 to move, the gluing valves 22 are closed, the gluing nozzles 5 on the two sides simultaneously stop glue, and the gluing control assembly 7 controls the gluing nozzles on the two sides to simultaneously and quantitatively glue, so that the gluing quality is ensured.

As shown in fig. 6, during the glue spreading operation, only one glue cylinder of the first glue cylinder 401 or the second glue cylinder 402 supplies glue to the glue spreading nozzle 5 at the same time, specifically, the glue inlet pipe 17 and the glue outlet pipe 18 are provided with the glue inlet valve 19 and the glue outlet valve 20, the glue inlet valve 19 and the glue outlet valve 20 are both three-way ball valves, in the initial state of the glue inlet valve 19 and the glue outlet valve 20, the glue inlet pipe 17 connected to the first glue cylinder 401 is in a closed state, the glue outlet pipe 18 is in a circulating state, the glue inlet pipe 17 connected to the second glue cylinder 402 is in a circulating state, and the glue outlet pipe 18 is in a closed state, at this time, the first glue cylinder 401 supplies glue to the glue spreading nozzle 5, and the second glue cylinder 402 supplies glue.

As shown in fig. 7, when the butyl rubber in the first rubber cylinder 401 is about to run out, the extending end of the first hydraulic cylinder 403 extends to a certain position, the first photoelectric sensor 603 detects the positioning ring 602, the PLC control module controls the action of the conversion cylinder 601, the number of the conversion cylinders 601 is two, the upper ends of the conversion cylinders 601 are respectively connected to the valve rods of the rubber inlet valve 19 and the rubber outlet valve 20, the states of the rubber inlet valve and the rubber outlet valve are converted, the rubber inlet pipe 17 connected to the first rubber cylinder 401 is in a circulation state, the rubber outlet pipe 18 is in a closed state, the rubber inlet pipe 17 connected to the second rubber cylinder 402 is in a closed state, and the rubber outlet pipe 18 is in a circulation state, the second rubber cylinder 402 is converted to supply rubber to the rubber coating nozzle 5, the first rubber cylinder 401 feeds rubber, and the first rubber cylinder 401 and the second rubber cylinder 402 alternately supply rubber, so that the rubber coating nozzle 5 is not broken, and the production efficiency is improved.

When the rubber barrel needs to exhaust and release pressure, the PLC control module controls the exhaust cylinder 23 to act, the cone valve 24 at the end part of the exhaust cylinder 23 leaves the exhaust hole on the pressure plate 14, and the rubber barrel exhausts and releases pressure.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention, so that equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (7)

1. The utility model provides an aluminum strip frame butyl rubber coating machine, is including supplying gluey portion and rubber coating portion, its characterized in that, the side that supplies gluey portion is provided with hydraulic power unit (1), supplies gluey portion to be connected with rubber coating portion through supplying gluey pipeline (3), rubber coating portion is including gluing jar (4) and rubber coating mouth (5), glue jar (4) are two, and one side of gluing jar (4) is provided with glues jar conversion subassembly (6), the opposite side is provided with rubber coating control assembly (7), two gluey jars of gluey jar conversion subassembly (6) control are glued in turn, and rubber coating control assembly (7) control rubber coating mouth (5) play glues.

2. The aluminum strip frame butyl rubber coating machine as claimed in claim 1, wherein the rubber supply part further comprises a base (8), lifting hydraulic cylinders (9) are vertically arranged on two sides of the base (8), a barrel locking device (10) is arranged in the middle of the lifting hydraulic cylinders (9), a rubber barrel is fixed on the barrel locking device (10), a horizontal cross beam (12) is arranged at the upper end of a piston rod of the lifting hydraulic cylinder (9), a vertically downward pressing rod (13) is arranged in the middle of the cross beam (12), a pressing plate (14) is arranged at the lower end of the pressing rod (13), the pressing plate (14) extends into the rubber barrel, a rubber pump (11) is arranged on the pressing plate (14), a rubber supply pipeline (3) is connected to the side surface of the rubber pump (11), a heating device and an exhaust cylinder (23) are further arranged on the pressing plate (14), a cone valve (24) is arranged at the end of the exhaust cylinder (23, the pressure plate (14) is provided with an exhaust hole, the diameter of the cone valve (24) is matched with that of the exhaust hole, and the exhaust cylinder (23) controls the cone valve (24) to exhaust.

3. The aluminum strip frame butyl rubber coating machine as claimed in claim 1, wherein the coating part further comprises a support frame (15), a conveyor belt (16) for conveying the aluminum strip frame is arranged on the support frame (15), coating nozzles (5) are arranged on two sides of the conveyor belt (16), a rubber cylinder (4) is arranged below the conveyor belt (16), the rubber cylinder (4) comprises a first rubber cylinder (401) and a second rubber cylinder (402), a first hydraulic cylinder (403) and a second hydraulic cylinder (404) are respectively arranged below the first rubber cylinder (401) and the second rubber cylinder (402), piston rod ends of the first hydraulic cylinder (403) and the second hydraulic cylinder (404) respectively extend into the first rubber cylinder (401) and the second rubber cylinder (402), a rubber inlet pipe (17) and a rubber outlet pipe (18) are connected to tops of the first rubber cylinder (401) and the second rubber cylinder (402), and an end part of the rubber inlet pipe (17) is connected to a rubber supply pipeline (3), The glue inlet valve (19) is arranged at the merging position, the end part of the glue outlet pipe (18) is merged and connected with the glue coating nozzle (5), the glue outlet valve (20) is arranged at the merging position, the other end of the glue outlet valve (20) is connected with a glue coating pipeline (21), the upper end of the glue coating pipeline (21) is forked and is respectively connected to the glue coating nozzles (5) at two sides, and the glue coating pipeline (21) is provided with a glue coating valve (22).

4. The aluminum strip frame butyl rubber coating machine as claimed in claim 3, wherein the rubber cylinder conversion assembly (6) comprises two conversion cylinders (601), a positioning ring (602) and a first photoelectric sensor (603), the conversion cylinders (601) are arranged on one side of the rubber cylinder (4) in parallel, the extending ends of the conversion cylinders (601) are respectively connected to the valve rods of the rubber inlet valve (19) and the rubber outlet valve (20), the positioning ring (602) is respectively arranged on the lower portions of the extending ends of the first hydraulic cylinder (403) and the second hydraulic cylinder (404), the first photoelectric sensor (603) is respectively arranged on the side of the extending ends of the first hydraulic cylinder (403) and the second hydraulic cylinder (404), and the first photoelectric sensor (603) is electrically connected with the conversion cylinder (601).

5. The aluminum strip frame butyl rubber coating machine is characterized in that the coating control assembly (7) comprises a coating air cylinder (701), the coating air cylinder (701) is arranged on the other side of the coating air cylinder (4), the upper end of an extending rod of the coating air cylinder (701) is connected with a T-shaped connecting rod (702), straight rods (703) are arranged on two sides of the upper end of each connecting rod (702), sliding grooves are formed in the straight rods (703), positioning studs are arranged in the sliding grooves, the upper ends of the straight rods (703) are respectively connected to valve rods of coating valves (22) on two sides, a second photoelectric sensor (704) is electrically connected to the coating air cylinder (701), and the second photoelectric sensors (704) are arranged on the front side and the rear side of a coating nozzle (5).

6. An aluminum strip frame butyl rubber coating machine as claimed in claim 3, wherein the rubber inlet valve (19) and the rubber outlet valve (20) are three-way ball valves.

7. The aluminum strip frame butyl rubber coating machine as claimed in claim 2, wherein the barrel locking device (10) comprises a supporting plate (1001) fixed on the base (8), a first fixing plate (1002) with a semi-annular cross section is vertically arranged on the supporting plate (1001), two ends of the first fixing plate (1002) are hinged to second fixing plates (1003), and the second fixing plates (1003) are connected through a buckle.

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