CN220561384U - Aluminum parting bead molecular sieve filling machine - Google Patents

Abstract

The utility model relates to an aluminium parting bead molecular sieve filling machine, which comprises a frame, the below that corresponds the fixed block in the frame is equipped with down the clamping assembly, down the clamping assembly include lift driving piece, lift driving piece is connected with the mount pad, be equipped with fixed right angle plate and movable right angle plate on the mount pad, fixed right angle plate and movable right angle plate set up along the slip direction of first slide rail, movable right angle plate is connected with the first cylinder that sets up in the mount pad, the flange that has along its right angle edge setting is being close to the side of movable right angle plate to the fixed right angle plate, the flange highly is less than the right angle edge height of fixed right angle plate, aluminium parting bead upper surface is not less than the upper edge of fixed right angle plate and movable right angle plate, aluminium parting bead width is not less than the width of flange; the reporting scheme improves the clamping stability of the aluminum parting strips, and ensures that the filling channel opening and the drilling hole are completely aligned at different subsequent stations.

Description

Aluminum parting bead molecular sieve filling machine

Technical Field

The utility model relates to the field of molecular sieve filling machines, in particular to an aluminum parting strip molecular sieve filling machine.

Background

Aluminum spacer bars are commonly used in the production of hollow glass to space two or more pieces of glass together with a strip of adhesive and sealant to seal and support the hollow glass. The aluminum parting bead is generally of a hollow structure, and corresponding drying agents such as molecular sieve adsorption materials are preloaded in the aluminum parting bead, so that particles and moisture in an air layer in the hollow glass can be adsorbed, and the performance of the hollow glass is ensured. At present, molecular sieve filling is generally realized through a molecular sieve filling machine, the filling process mainly comprises three steps of punching, filling and sealing, aluminum parting strips are generally fixed before punching, the current filling machine is generally provided with an upper locating plate and a lower locating plate when fixing the aluminum parting strips, two locating plates in a hollow glass aluminum alloy frame molecular sieve filling device disclosed in patent 2023202318348 are respectively provided with a right-angle corner, the right-angle corner of the aluminum parting strips is placed on the right-angle corner of a lower locating plate, and the lower locating plate is pushed to move upwards to be matched with the upper locating plate to clamp the aluminum parting strips by utilizing a single-head cylinder connected with the lower locating plate. However, the molecular sieve filling machine needs to switch the position of the aluminum parting strip in the whole punching-filling-sealing process, the lower locating plate and the upper locating plate need to be loosened when the position is switched each time, the aluminum parting strip can possibly shake in the moving process, although the lower locating plate is provided with a placing groove in the prior art, the aluminum parting strip is placed in the placing groove, the width of the placing groove is always larger than that of the aluminum parting strip, so that the aluminum parting strip can not shake in the placing groove, the drilling position changes after the aluminum parting strip moves to the filling and sealing process and is clamped, the filling channel opening and the drilling cannot be completely aligned, the filling speed is reduced, glue can not be completely aligned with the drilling, glue can be accumulated on the surface of the aluminum parting strip, the subsequent processing operation is needed, and the processing process is increased.

Disclosure of Invention

When the existing molecular filling machine fills the molecular sieve into the aluminum parting bead, the placing groove is formed in the lower positioning plate, the aluminum parting bead is placed in the placing groove, then the aluminum parting bead is clamped by the upper positioning plate and the lower positioning plate, the width of the placing groove is generally required to be larger than the width of the aluminum parting bead to be placed in the placing groove, but the aluminum parting bead is inevitably changed when the working position is switched, the filling passage opening and the drilling hole cannot be completely aligned during filling, the filling speed is reduced, the phenomenon that the glue filling passage opening and the drilling hole are not completely aligned can also occur, glue is accumulated on the surface of the aluminum parting bead, and the application designs the aluminum parting bead molecular sieve filling machine which can solve the above problems, and the technical scheme adopted specifically is that:

the utility model provides an aluminium parting bead molecular sieve liquid filling machine, includes the frame, and the level is equipped with first slide rail around in the frame, and it is equipped with the movable seat to slide on the first slide rail, is connected with drive arrangement between movable seat and the frame for drive movable seat slides along first slide rail, is equipped with the fixed block on the movable seat, and the lower surface of fixed block is L profile, and L profile is in order to guarantee that it has the right angle turning, right angle turning adaptation that can aluminium parting bead. The movable vertical corner plate is connected with a first cylinder arranged on the mounting seat, the first cylinder drives the movable vertical corner plate to move towards a direction close to or far away from the fixed vertical corner plate, the fixed vertical corner plate is provided with a flange arranged along the right angle edge of the movable vertical corner plate, the height of the flange is smaller than the right angle edge height of the fixed vertical corner plate, and when the aluminum barrier is placed on the upper surface of the flange, the upper surface of the aluminum barrier is not lower than the upper edge of the fixed vertical corner plate and the upper edge of the movable vertical corner plate, and the width of the aluminum barrier is not smaller than the width of the flange.

Preferably, the filling channel and the punching channel are communicated in the fixed block.

Preferably, the lifting driving piece is a cylinder, the cylinder body end of the cylinder is arranged on the frame, and the telescopic rod end of the cylinder is connected with the mounting seat.

Preferably, the fixed block is further provided with two second air cylinders, the telescopic rods of the second air cylinders are connected with flashboards, the fixed block is provided with two through grooves, the through grooves are communicated with the filling vertical channel, and the two flashboards are correspondingly arranged in the two through grooves in a sliding manner and serve as on-off switches of the filling channel.

Preferably, the driving device is an air cylinder, the cylinder body end of the air cylinder is fixed on the frame, and the telescopic rod end is connected with the movable seat.

Preferably, the two punching channels and the two punching devices are respectively arranged, the two punching devices correspondingly penetrate through the two punching channels to punch the aluminum parting strips, each punching device comprises an electric hammer which is arranged on the movable seat in a sliding mode, the electric hammer is connected with a telescopic rod of a third cylinder which is arranged on the movable seat, a drill bit of the electric hammer is aligned with the punching channels, and the third cylinder drives the electric hammer to penetrate through the punching channels to punch the aluminum parting strips.

Preferably, the two filling channels are arranged, the filling device comprises a bin arranged on the movable seat, the bin is provided with two discharging pipes, the two discharging pipes are correspondingly connected with the two filling channels, the bin is provided with a feeding pipe, and the feeding pipe is connected with a storage box arranged on the frame.

Preferably, the glue filling channels are arranged in two, the glue filling device comprises a needle cylinder glue filling injector, a piston rod of the needle cylinder glue filling injector is connected with a fourth cylinder, a main injection tube is connected with a needle head, the main injection tube is connected with two sub injection tubes, the two sub injection tubes are correspondingly connected with two glue filling heads arranged on the fixing block, and the two glue filling heads are correspondingly connected with the two glue filling channels.

Preferably, the automatic glue filling machine further comprises a controller and a control panel, wherein the control panel is connected with the controller, and the driving device, the glue filling device, the punching device, the lifting driving piece and the first cylinder are all connected with the controller.

Preferably, the frame comprises a fixed frame and a movable frame, the movable seat and the lower clamping assembly are respectively arranged on the movable frame, the fixed frame is vertically provided with a guide rod, the movable frame is provided with a guide wheel, the movable seat is connected with a fifth air cylinder, and the fifth air cylinder pushes the guide wheel of the movable seat to roll on the guide rod.

According to the utility model, the fixed right angle plate and the movable right angle plate are arranged, the flange is arranged along the right angle edge of the fixed right angle plate, the aluminum parting bead is placed on the flange, and the movable plate is used for clamping the aluminum parting bead, so that even if the upper fixed block is switched at different stations (meanwhile, the mounting seat is lifted), the aluminum parting bead can still be clamped under the action of the movable right angle plate and the fixed right angle plate, so that the aluminum parting bead can not shake in the lifting process or when the fixed block moves, the drilling holes on the aluminum parting bead are completely aligned with the filling channel holes and the glue filling channel holes on the fixed block, the filling speed is ensured, and meanwhile, glue can not be accumulated on the surface of the aluminum parting bead due to dislocation.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is a right side view of the present utility model;

FIG. 3 is a schematic view of the internal structure of the fixed block;

fig. 4 is a left side view of fig. 3.

In the figure, 1, a frame, 2, a movable seat, 3, a fixed block, 4, a punching device, 5, a second cylinder, 6, a lower clamping component, 7, a fifth cylinder, 8, a guide wheel, 9, a controller, 10, a control panel, 11, a filling device, 12, a punching channel, 13, a glue filling channel, 14, a glue filling device, 15, a first sliding rail, 16, a driving device, 17, a through groove, 18 and a filling channel;

101. a movable frame, 102 and a fixed frame;

401. electric hammer, 402, third cylinder;

601. the device comprises an air cylinder 602, a mounting seat 603, a first air cylinder 604, a movable rectangular plate 605 and a fixed rectangular plate;

1101. the material bin, 1102, the discharging pipe, 1103, the feeding pipe, 1104 and the storage box;

1401. glue-pouring head 1402, fourth cylinder 1403, syringe glue-pouring injector 1404, main injection tube.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present utility model will be described in detail below with reference to the following detailed description and the accompanying drawings.

In addition, in the description of the present utility model, it should be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model,

the term "front" in the present application refers to the direction of the operator being front when the operator is facing the filling machine, and vice versa, the left hand direction is left, and the right hand direction is right.

The aluminum parting bead is bent into a closed shape before punching, when the molecular sieve is filled into the aluminum parting bead, the aluminum parting bead is generally punched, then the molecular sieve is filled, and finally the sealing glue is used for sealing and drilling holes, wherein when the aluminum parting bead is punched, the aluminum parting bead is generally punched on two adjacent frames at the same time, so that the filling efficiency is improved.

As shown in fig. 1-4, an aluminum parting bead molecular sieve filling machine comprises a frame 1, wherein a first sliding rail 15 is horizontally arranged on the frame 1 front and back, a movable seat 2 is slidably arranged on the first sliding rail 15, a driving device 16 is connected between the movable seat 2 and the frame 1 and used for driving the movable seat 2 to slide along the first sliding rail 15, a fixed block 3 is arranged on the movable seat 2, the lower surface of the fixed block 3 is an L-shaped surface, and the L-shaped surface is used for forming a right-angle corner so as to be matched with the right-angle corner of the aluminum parting bead. The fixed block 3 is provided with a glue filling channel 13, a filling channel 18 and a punching channel 12 at intervals from front to back along the front and back direction, and the movable seat 2 is provided with a glue filling device 14, a filling device 11 and a punching device 4 corresponding to the glue filling channel 13, the filling channel 18 and the punching channel 12. Perforating device 4 can pass perforation passageway 12 and punch the aluminium parting bead frame, and filling device 11 can be through filling passageway 18 to the inside filling molecular sieve that fills of aluminium parting bead (in general, the molecular sieve of this application is the granule also), and glue filling device 14 can seal the drilling on the aluminium parting bead through glue filling passageway 13, avoids the molecular sieve to fall out from the drilling. However, before punching the aluminum parting bead, the aluminum parting bead needs to be fixed on the filling machine, and compared with a traditional filling machine, the fixing effect is better, the fixing can be ensured even when the fixing block 3 is switched and moved in three procedures, and meanwhile, the position fixing can be ensured when the position of the aluminum parting bead is lifted, so that the drilling holes on the aluminum parting bead are completely aligned with the filling channel 18 and the glue filling channel 13. The concrete structure is, be equipped with down clamping assembly 6 in the below that corresponds fixed block 3 on frame 1, lower clamping assembly 6 is including setting up the lift driving piece at frame 1, lift driving piece is connected with mount pad 602, be equipped with fixed right angle plate 605 and movable right angle plate 604 on the mount pad 602, fixed right angle plate 605 and movable right angle plate 604 are along the alignment setting around, movable right angle plate 604 is connected with the first cylinder 603 that sets up in mount pad 602, first cylinder 603 drives movable right angle plate 604 back and forth movement, can be close to or keep away from fixed right angle plate 605, can press from both sides the aluminium parting bead when being close to fixed right angle plate 605, when keeping away from fixed right angle plate 605, can be with the release aluminium parting bead. Specifically, in order to position the aluminum spacer, the fixed rectangular plate 605 has a flange provided along a right-angled edge thereof on a side surface near the movable rectangular plate 604, the height of the flange is smaller than the upper edge of the fixed rectangular plate 605, when the aluminum spacer is placed on the upper surface of the flange, the upper surface of the aluminum spacer is not lower than the upper edge of the fixed rectangular plate 605 and the upper edge of the movable rectangular plate 604, and the width of the aluminum spacer is not smaller than the width of the flange, so that after the aluminum spacer is placed on the flange, the first cylinder 603 is extended to push the movable rectangular plate 604 to approach the fixed rectangular plate 605, and clamp the aluminum spacer.

When the movable base 2 is in operation, the punching channel 12 of the fixed block 3 is aligned with the punching device 4 in the initial position, after the aluminum parting strip is clamped, the aluminum parting strip is drilled, and then the movable base 2 and all parts on the movable base 2 are driven by the driving device 16 to move from back to front until the filling channel 18 and the glue filling channel 13 on the fixed block 3 are aligned with the drilled holes on the aluminum parting strip in sequence, so that the purposes of filling and parting screens and sealing the drilled holes are realized. When the driving seat drives the movable seat 2 and the left and right parts thereon to move, the first cylinder 603 below drives the mounting seat 602 and the fixed right angle plate 605 and the movable right angle plate 604 thereon to move downwards, so that the fixed right angle plate 605, the movable right angle plate 604 and the aluminum partition plates clamped by the fixed right angle plate 604 have larger gaps with the L-shaped surfaces of the fixed plates, when the filling channel 18 and the glue filling channel 13 on which the fixed block 3 moves are aligned with the drilling holes, the first cylinder 603 drives the mounting seat 602 and the fixed right angle plate 605 and the movable right angle plate 604 on the mounting seat and the aluminum partition plates clamped by the movable right angle plate to lift, so that the aluminum partition plates are abutted against the lower surfaces of the fixed block 3 (the abutting can not generate force effect here, and the abutting can be just contacted) or have very small gaps (the right contact time is just not shown), and then filling and subsequent sealing can be performed.

Furthermore, the filling channel 18 and the punching channel 12 are communicated in the fixed block 3, and after the filling channel 18 and the punching channel 12 are communicated, the two channels share one channel, so that the molecular sieve can be directly filled into the aluminum parting bead after the punching is finished without moving the movable seat 2, the moving times of the movable seat 2 are reduced, the filling procedure is simplified, and the filling efficiency is improved.

More specifically, the lifting driving member is an air cylinder 601, a cylinder body end of the air cylinder 601 is disposed on the frame 1, and a telescopic rod end of the air cylinder 601 is connected with the mounting seat 602.

Alternatively, the lifting driving member can also adopt a mode of driving the screw nut to lift by an oil cylinder, an electric cylinder or a motor.

Further, two second cylinders 5 are further arranged on the fixed block 3, the two second cylinders 5 are arranged front and back, a flashboard is connected to the telescopic rod of each second cylinder 5, the fixed block 3 is provided with two through grooves 17, the through grooves 17 are vertically communicated with the filling channel 18, and the two flashboard are correspondingly arranged in the two through grooves 17 in a sliding manner and serve as an on-off switch of the filling channel 18.

It should be noted that, the sliding arrangement of the gate plate in the through groove 17 is similar to the structure of the rail and the sliding block, and the gap between the gate plate and the through groove 17 is small, so that the molecular sieve is ensured not to leak out from the position.

Further specifically, the driving device 16 is an air cylinder, the cylinder body end of the air cylinder is fixed on the frame 1, and the telescopic rod end is connected with the movable seat 2.

Further, the two punching channels 12 and the two punching devices 4 are respectively arranged, the two punching devices 4 correspondingly penetrate through the two punching channels 12 to punch holes on two frames of the aluminum parting strip simultaneously, the two holes can improve filling efficiency, each punching device 4 comprises a hammer 401 which is slidably arranged on the movable seat 2, the hammer 401 adopts the existing hammer 401, the hammer 401 is connected with a telescopic rod of a third cylinder 402 arranged on the movable seat 2, a drill bit of the hammer 401 is aligned with the punching channel 12, and the third cylinder 402 drives the hammer 401 to penetrate through the punching channel 12 to punch the aluminum parting strip.

Further, two filling channels 18 are arranged, two filling devices 11 simultaneously fill molecular sieves into the two filling devices through drilling holes on two frames of an aluminum parting bead, each filling device 11 comprises a storage bin 1101 arranged on a movable seat 2, the storage bins 1101 are vertically arranged, each storage bin 1101 is provided with two discharging pipes 1102, the two discharging pipes 1102 are correspondingly connected with the two filling channels 18, each storage bin 1101 is provided with a feeding pipe 1103, the feeding pipe 1103 is connected with a storage bin 1104 arranged on a frame 1, and the feeding mode of the storage bin 1104 in the storage bin 1101 is a mode of blowing internal molecular sieve particles into the storage bins 1101 by adopting an existing air source.

Further, two glue pouring channels 13 are arranged, glue pouring devices 14 are used for pouring glue into two drilling holes of an aluminum partition plate through the two glue pouring channels 13 at the same time, glue pouring efficiency is improved, each glue pouring device 14 comprises a needle cylinder glue pouring syringe 1403, the needle cylinder glue pouring syringe 1403 is arranged on the market, a piston rod of the needle cylinder glue pouring syringe 1403 belongs to the prior art, the piston rod of the needle cylinder glue pouring syringe 1403 is connected with a fourth cylinder 1402, the piston rod of the needle cylinder glue pouring syringe 1403 is pushed by the fourth cylinder 1402, automatic glue pouring is achieved, a main injection tube 1404 is connected to a needle head, the main injection tube 1404 is connected with two sub injection tubes, the two sub injection tubes are correspondingly connected with two glue pouring heads 1401 arranged on a fixed block 3, the two glue pouring heads 1401 are correspondingly connected with the two glue pouring channels 13, the glue pouring heads 1401 adopt the existing structure and can be installed on the fixed block 3 through screws, the inside is mainly an open channel with the sub injection tubes, and the lower end of the main injection tube is connected with the glue pouring channels 13.

Further, the molecular sieve filling machine of this application still includes controller 9 and control panel 10, control panel 10 is connected with controller 9, drive arrangement 16 is connected with controller 9, glue filling device 14 also is connected with controller 9, specifically, fourth cylinder 1402 and the controller 9 of glue filling device 14 are connected, controller 9 control fourth cylinder 1402 promotes cylinder glue injection syringe 1403, realize the purpose to aluminium parting bead sealed drilling, filling device 11 also is connected with controller 9, specifically be connected with the air supply forming part of filling device 11, control air supply is to the gas-supply in storage tank 1104, through increasing the atmospheric pressure in to storage tank 1104, blow molecular sieve granule to feed bin 1101, and then blow to filling channel 18 through feed bin 1101, perforating device 4 also is connected with controller 9, specifically, third cylinder 402 and electric hammer 401 of perforating device 4 all are connected with controller 9 control electric hammer 401 start, simultaneously control third cylinder 402 promotes electric hammer 401 to aluminium parting bead drilling, lifting drive spare and first cylinder 603 all are connected with controller 9, realize simultaneously to realize the automatic flange-holding operation is realized to aluminium parting bead by the lifting drive spare and lifting drive spare, the automatic flange is realized to the automatic flange-holding machine by lifting or lifting drive spare, the automatic realization of lifting drive spare is replaced by other machine.

Further, in order to adapt to different heights of operators, the frame 1 comprises a fixed frame 102 and a movable frame 101, the movable seat 2 and the lower clamping assembly 6 are respectively arranged on the movable frame 101, so that all parts on the movable seat 2 and the whole lower clamping assembly 6 are arranged on the movable frame 101, a guide rod is vertically arranged on the fixed frame 102, the movable frame 101 is provided with a guide wheel 8, the guide wheel 8 is a waist drum wheel, the movable seat 2 is connected with a fifth air cylinder 7, the fifth air cylinder 7 pushes the guide wheel 8 of the movable seat 2 to roll on the guide rod, and the movable seat 101 is driven to lift on the fixed frame 102 through the fifth air cylinder 7 so as to meet the requirements of different heights of operators.

The above embodiments are not to be taken as limiting the scope of the utility model, and any alternatives or modifications to the embodiments of the utility model will be apparent to those skilled in the art and fall within the scope of the utility model.

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

Claims (10)

1. The utility model provides an aluminium parting bead molecular sieve liquid filling machine, its characterized in that includes the frame, the level is equipped with first slide rail in the frame, slide on the first slide rail and be equipped with movable seat, movable seat with be connected with drive arrangement between the frame, be used for driving the movable seat is followed first slide rail slides, be equipped with the fixed block on the movable seat, the lower surface of fixed block is L profile, be equipped with the filling passageway on the fixed block, just follow on the fixed block the slip direction interval of first slide rail is equipped with glue filling passageway and perforation passageway, correspond on the movable seat glue filling passageway with the perforation passageway is equipped with glue filling device, filling device and perforation device, correspond in the frame the below of fixed block is equipped with down the centre gripping subassembly, down the centre gripping subassembly include set up in the lift driving piece of frame, the lifting driving piece is connected with a mounting seat, a fixed rectangular plate and a movable rectangular plate are arranged on the mounting seat, the fixed rectangular plate and the movable rectangular plate are arranged along the sliding direction of the first sliding rail, the movable rectangular plate is connected with a first air cylinder arranged on the mounting seat, the first air cylinder drives the movable rectangular plate to move towards the direction close to or far away from the fixed rectangular plate, a flange arranged along the right angle edge of the movable rectangular plate is arranged on the side surface close to the fixed rectangular plate, the height of the flange is smaller than the height of the right angle edge of the fixed rectangular plate, when an aluminum parting bead is arranged on the upper surface of the flange, the upper surface of the aluminum parting bead is not lower than the upper edges of the fixed rectangular plate and the movable rectangular plate, the width of the aluminum parting bead is not smaller than the width of the flange, so that the movable right angle plate can clamp the aluminum parting strip.

2. The aluminum spacer molecular sieve filling machine of claim 1, wherein said filling channel communicates with said perforation channel within said fixed block.

3. The aluminum parting strip molecular sieve filling machine according to claim 1, wherein the lifting driving piece is a cylinder, a cylinder body end of the cylinder is arranged on the frame, and a telescopic rod end of the cylinder is connected with the mounting seat.

4. The aluminum parting strip molecular sieve filling machine according to claim 1, wherein the fixed block is further provided with two second cylinders, a flashboard is connected to a telescopic rod of each second cylinder, the fixed block is provided with two through grooves, the through grooves are vertically communicated with the filling channel, and the two flashboard are correspondingly arranged in the two through grooves in a sliding manner and serve as on-off switches of the filling channel.

5. The aluminum parting strip molecular sieve filling machine according to claim 1, wherein the driving device is a cylinder, the cylinder body end of the cylinder is fixed on the frame, and the telescopic rod end is connected with the movable seat.

6. The molecular sieve filling machine according to any one of claims 1 to 5, wherein two punching channels and two punching devices are respectively provided, the two punching devices correspondingly pass through the two punching channels to punch the aluminum parting strips, each punching device comprises an electric hammer which is slidably arranged on the movable seat, the electric hammer is connected with a telescopic rod of a third cylinder arranged on the movable seat, a drill bit of the electric hammer is aligned with the punching channels, and the third cylinder drives the electric hammer to pass through the punching channels to punch the aluminum parting strips.

7. The aluminum spacer molecular sieve filling machine according to claim 6, wherein two filling channels are provided, the filling device comprises a bin arranged on the movable seat, the bin is provided with two discharging pipes, the two discharging pipes are correspondingly connected with the two filling channels, the bin is provided with a feeding pipe, and the feeding pipe is connected with a storage box arranged on the frame.

8. The aluminum parting bead molecular sieve filling machine according to claim 7, wherein two glue filling channels are arranged, the glue filling device comprises a syringe glue filling injector, a piston rod of the syringe glue filling injector is connected with a fourth cylinder, a main injection tube is connected at a needle head, the main injection tube is connected with two sub injection tubes, the two sub injection tubes are correspondingly connected with two glue filling heads arranged on the fixed blocks, and the two glue filling heads are correspondingly connected with the two glue filling channels.

9. The aluminum parting strip molecular sieve filling machine according to claim 1, further comprising a controller and a control panel, wherein the control panel is connected with the controller, and the driving device, the glue filling device, the punching device, the lifting driving piece and the first cylinder are all connected with the controller.

10. The aluminum parting bead molecular sieve filling machine according to claim 1, wherein the frame comprises a fixed frame and a movable frame, the movable seat and the lower clamping assembly are respectively arranged on the movable frame, a guide rod is vertically arranged on the fixed frame, the movable frame is provided with a guide wheel, the movable seat is connected with a fifth air cylinder, and the fifth air cylinder pushes the guide wheel of the movable seat to roll on the guide rod.