CN216070627U - Novel double-row linear filling and sealing machine - Google Patents

Abstract

The utility model discloses a novel double-row linear filling and sealing machine which comprises a frame, a double-row die plate conveying line, a material cup conveying mechanism, a feeding device, a powder pressing and absorbing device, a film detecting device, a heat sealing device, a lug folding device, a cup cover conveying mechanism and a discharging device. Through the mode, the multifunctional cup disclosed by the utility model integrates cup dropping, feeding, powder pressing and absorbing, heat sealing film, cover buckling and cup discharging, is complete in function, small in occupied area, free of repeated positioning, low in manufacturing cost and short in period, and can meet the flexible production requirement.

Description

Novel double-row linear filling and sealing machine

Technical Field

The utility model relates to the technical field of commodity packaging, in particular to a novel double-row linear filling and sealing machine.

Background

After food production is finished, in order to ensure that the food is not polluted in the transportation process, the food needs to be filled and sealed, the steps are mostly manually finished in the current market, the labor capacity is large, the cost is high, the efficiency is low, aiming at filling and sealing of capsule cups, an efficient automatic device is specially developed, and the efficient automatic device is provided with the processes of cup falling, cup inspection, feeding stations, powder pressing and sucking, film sucking, heat sealing, cover buckling, pressing covers, cup discharging and the like.

Cup material loading has the form material loading that adopts the feed bin to rub the cup with the hands in the existing market, need fold the pile up neatly with the cup in advance together, consume very big labour earlier stage, and rub the in-process of cup blanking and cause the backlog to the cup easily and warp, the influence is sold beautifully, damage the cup even, cause certain wasting of resources, cup material loading also has the adoption rotation and grabs the cup manipulator and go on, the cup supplied materials is vertical state, need manage the cup in advance, manipulator dress cup and put cup in-process front and back for having the requirement to cup position precision, the orbit is complicated relatively, for avoiding the cup to receive the extrusion in handling, the form of sucking disc is often adopted, there is the risk that the cup dropped in adsorption process.

In filling capsule sales market, in order to protect the membrane of the seal of capsule cup, the extension save time, be convenient for packing the transportation, and whole many-sided considerations such as pleasing to the eye degree, many capsule products all can buckle the protection bowl cover after the heat-seal, so as to reach the ideal requirement, initial stage filling capsule buckle closure mainly relies on the people to come manual operation, it is time-consuming, hard, still increase the cost of labor, also have some buckle closure mechanisms in the existing market, but need put the bowl cover on the cup before the buckle closure, bowl cover material loading and buckle closure are two different structures and accomplish, also high to the positioning accuracy requirement, it is many to occupy the station, the structure is complicated, relative cost is also high.

Based on the defects and shortcomings, the prior art needs to be improved, and a novel double-row linear filling and sealing machine is designed.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the technical problem of providing a novel double-row linear filling and sealing machine which is compact in structure, stable in operation, capable of integrating cup falling, material feeding, powder pressing and absorbing, heat sealing films, cover buckling and cup discharging, perfect in function, small in occupied area, free of repeated positioning, low in manufacturing cost, short in period, high in efficiency, strong in adaptability and capable of meeting the flexible production requirements.

In order to solve the technical problems, the utility model adopts a technical scheme that: the utility model provides a novel biserial orthoscopic filling capper, this kind of novel biserial orthoscopic filling capper include frame, biserial mould board transfer chain, material cup conveying mechanism, feeding device, press the powder to inhale the powder device, inhale membrane device, membrane detection device, sealing device, roll over ear device, bowl cover conveying mechanism and discharging device, install biserial mould board transfer chain on the workstation of frame, biserial mould board transfer chain input butt joint is provided with material cup conveying device, has set gradually feeding device, press the powder to inhale the powder device, has inhaled membrane device, membrane detection device, sealing device and roll over ear device on the workstation of the direction of delivery of biserial mould board transfer chain, and the frame other end is provided with bowl cover conveying mechanism, and discharging device is installed to the output position department of biserial mould board transfer chain.

Preferably, the double-row die plate conveying line is powered by a motor, the motor drives the divider to rotate, and the divider drives the die plates on the double-row die plate conveying line to perform intermittent motion through the chain wheel.

Preferably, the material cup conveying mechanism consists of a material cup vibration disc, a material cup feeding conveying line and a rotary cup dropping device, the output end of the material cup vibration disc is in butt joint with the material cup feeding conveying line, the output end of the material cup feeding conveying line is in butt joint with the rotary cup dropping device, the rotary cup dropping device is arranged on a workbench of the rack and comprises a support frame, a rotary air cylinder, a rotary swing arm, a clamping block, a connecting column, a rotary seat, a cover plate, a material ejecting air cylinder and a material blocking assembly, the two support frames are fixed on a support of the double-row die plate conveying line, the rotary air cylinder is arranged on a vertical plate of the two support frames, the rotary swing arm is arranged on a rotary table of the rotary air cylinder through a connecting block, the two clamping blocks are arranged on the rotary swing arm, the vertical plate of the support frame is fixedly connected with the rotary seat through the connecting column, the rotary seat is close to a feed port of a capsule cup at one end of the material feeding conveying line, the clamping block is positioned in the rotary seat and is opposite to the feed port of the capsule cup, the outer terminal surface of roating seat is packaged with the apron, and the liftout cylinder that is used for pushing away the cup is installed at the roating seat top, still install the striker assembly on the support frame, the striker assembly pushes away on the cylinder, connecting plate and striker plate including pushing away, two push away the material cylinder levels and be fixed in the support frame, pushes away and installs the connecting plate on the piston rod flange board of material cylinder, installs the striker plate on the connecting plate, and the striker plate is located roating seat bottom discharge gate below.

Preferably, roll over the ear device and roll over ear support, the excellent power including the door shape and glue pole and latch segment, the door shape rolls over on the ear support is fixed in the support of biserial mould board transfer chain, and two excellent power glue poles pass through the vertical lock of latch segment on the crossbeam of the ear support is rolled over to the door shape, and the excellent power glues the pole bottom and hands the bellying relative with the membrane.

Preferably, the cup cover conveying mechanism comprises a cup cover vibrating disc, a cup cover conveying line and a cover fastening device, the cup cover conveying line is arranged at the output end of the cup cover vibrating disc in a butt joint mode, the cover fastening device is arranged on a workbench of the rack in a butt joint mode, the cover fastening device comprises a cover fastening rack, a cover fastening motor, a rotating platform, a driving swing arm, a brake rod, a driven swing arm, a cover fastening assembly and a synchronizing assembly, the cover fastening motor and the rotating platform are fixed on a vertical plate of the cover fastening rack, the cover fastening motor drives a rotary table of the rotating platform to rotate, the driving swing arm is installed on the rotating platform, the brake rod is installed on the driving swing arm, the other end of the brake rod is inserted into the other vertical plate of the cover fastening rack through an embedded ball bearing assembly, the driven swing arm is also installed on the brake rod, and the cover fastening assembly is inserted into the extending end of the driving swing arm and the driven swing arm, the buckle cover assembly and the brake rod are synchronously connected through the synchronous assembly.

Preferably, the buckle closure subassembly includes the sucking disc fixed plate, the dwang, the buckle closure cylinder, the cylinder connecting plate, the sucking disc axle, the spacing clamp, the reference column, buffer spring and sucking disc, two dwangs stretch out the end in initiative swing arm and driven swing arm through bearing frame activity cartridge respectively, install the sucking disc fixed plate between two dwangs, install vertical buckle closure cylinder on the sucking disc fixed plate, the piston rod of buckle closure cylinder passes through floating joint and is connected with the cylinder connecting plate, the cover has two sucking disc axles on the cylinder connecting plate, two epaxial limit clamps of installing of sucking disc, sucking disc axle upper portion passes the linear bearing on the sucking disc fixed plate, the reference column that is used for preventing the pressure loss lid is installed to sucking disc axle lower part, the epaxial cover of reference column top sucking disc has buffer spring, the sucking disc is installed to sucking disc axle bottom.

Preferably, synchronizing assembly includes synchronous pulley, belt and belt tension wheel, installs synchronous pulley on brake lever and the dwang, and two synchronous pulley pass through the belt and connect, and the cartridge is equipped with the belt tension wheel that is used for adjusting belt tension on the driven swing arm.

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

the device has the advantages of compact structure, stable operation, integration of cup falling, material feeding, powder pressing and absorbing, heat sealing film, cover buckling and cup discharging, perfect functions, small occupied area, no need of multiple positioning, low manufacturing cost, short period, high efficiency and strong adaptability, and can meet the flexible production requirement;

the cup vibrating plate can automatically arrange the cups, the cups are horizontally placed and sequentially output along the cup feeding conveying line, and the rotating cup dropping device can receive the horizontally transferred cups, rotate the cups to a vertical state and then drop the cups;

the cup can fall down quickly due to the arrangement of the material ejecting cylinder, and the cup is prevented from being clamped on the rotating seat;

the material blocking assembly ensures that the cups are sequentially discharged, repeated feeding at the same station is avoided, and the cups are continuously conveyed subsequently, so that the production rhythm is not influenced;

the cup cover vibrating plate can automatically arrange the cup covers, the cup covers are sequentially output along the cup cover conveying line, the cover buckling device is compact in structure and can conduct cover buckling action while the cup covers are arranged, secondary cup cover positioning is not needed, and the rhythm is fast;

the buckle cover action of the buckle cover component is elastically arranged, so that products are prevented from being damaged by pressure in the buckle cover process.

Drawings

Fig. 1 is a schematic structural diagram of a novel double-row linear filling and sealing machine.

Fig. 2 is a rear view of a novel double-row linear filling and sealing machine.

Fig. 3 is a structural schematic diagram of a rotary cup dropping device of the novel double-row linear filling and sealing machine.

Fig. 4 is a side view of a novel rotary cup dropping device of a double-row linear filling and sealing machine.

Fig. 5 is a partial structural schematic diagram of a rotary cup dropping device of the novel double-row linear filling and sealing machine.

Fig. 6 is a schematic structural view of a lug folding device of a novel double-row linear filling and sealing machine.

Fig. 7 is a schematic structural diagram of a capping device of a novel double-row linear filling and sealing machine.

Fig. 8 is a front view of a capping device of the novel double-row linear filling and sealing machine.

Fig. 9 is a schematic structural diagram of a synchronous assembly of the novel double-row linear filling and sealing machine.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the utility model easier to understand by those skilled in the art, and will thus define the scope of the utility model more clearly and clearly.

Referring to fig. 1 to 9, an embodiment of the present invention includes:

a novel double-row linear filling and sealing machine comprises a frame 1, a double-row die plate conveying line 2, a material cup conveying mechanism 3, a feeding device 4, a powder pressing and absorbing device 5, a film absorbing device 6, a film detecting device 7, a heat sealing device 8, a lug folding device 9, a cup cover conveying mechanism 10 and a discharging device 11, install double-row mould board transfer chain 2 on the workstation of frame 1, the butt joint of 2 inputs of double-row mould board transfer chain is provided with material cup conveyor 3, has set gradually feeding device 4 on the workstation of the direction of delivery of double-row mould board transfer chain 2, has pressed the powder and has inhaled powder device 5, inhale membrane device 6, membrane detection device 7, sealing device 8 and ear device 9, and the 1 other end of frame is provided with bowl cover conveying mechanism 10, and discharging device 11 is installed to the output position department of double-row mould board transfer chain 2.

The double-row die plate conveying line 2 is powered by a motor 21, the motor 21 drives a divider 22 to rotate, and the divider 22 drives a die plate 24 on the double-row die plate conveying line 2 to do intermittent motion through a chain wheel 23.

The material cup conveying mechanism 3 comprises a material cup vibration disc 31, a cup feeding conveying line 32 and a rotary cup dropping device 33, the output end of the material cup vibration disc 31 is in butt joint with the cup feeding conveying line 32, the output end of the cup feeding conveying line 32 is in butt joint with the rotary cup dropping device 33, the rotary cup dropping device 33 is arranged on a workbench of the rack 1, the rotary cup dropping device 33 comprises a support frame 331, a rotary cylinder 332, a rotary swing arm 333, a clamping block 334, a connecting column 335, a rotary seat 336, a cover plate 337, a material ejecting cylinder 338 and a material blocking component 339, the two support frames 331 are fixed on a support of the double-row mold plate conveying line 2, the rotary cylinder 332 is installed on a vertical plate of the two support frames 331, the rotary swing arm 333 is installed on a rotary table of the rotary cylinder 332 through a connecting block, the two clamping blocks 334 are installed on the rotary swing arm 333, the vertical plate of the support frame 331 is fixedly connected with the rotary seat 336 through the connecting column 335, the rotary seat 336 is close to one end capsule cup feed inlet 3360 of advancing cup transfer chain 32, and the clamp splice 334 is located the rotary seat 336 and is relative with capsule cup feed inlet 3360, and the outer terminal surface of rotary seat 336 is packaged with apron 337, and the liftout cylinder 338 that is used for pushing away the cup is installed at the rotary seat 336 top, in order to make the cup fall down fast, avoids the cup card in the rotary seat 336, still install striker assembly 339 on the support frame 331, striker assembly 339 is including pushing away material cylinder 3391, connecting plate 3392 and striker plate 3393, and two push away material cylinder 3391 levels and be fixed in on the support frame 331, push away and install connecting plate 3392 on the piston rod flange board of material cylinder 3391, install striker plate 3393 on the connecting plate 3392, striker plate 3393 is located rotary seat 336 bottom discharge gate below.

Roll over ear device 9 and roll over ear support 91, the gluey pole 92 of dominant force and latch segment 93 including the door shape, the door shape rolls over on ear support 91 is fixed in the support of double-row mould board transfer chain 2, and two dominant forces are glued the pole 92 and are passed through the vertical lock of latch segment 93 and roll over the crossbeam of ear support 91 on the door shape, and the dominant force is glued the pole 92 bottom and is handed the bellying relatively with the membrane, and the membrane is glued the pole 92 through the dominant force, and the dominant force is glued the pole 92 and is handed the bellying and inwards rolled up with the membrane.

The cup cover conveying mechanism 10 comprises a cup cover vibrating disk 101, a cup cover conveying line 102 and a cover buckling device 103, the cup cover conveying line 102 is arranged at the output end of the cup cover vibrating disk 101 in a butt joint mode, the cover buckling device 103 is arranged on a workbench of the rack 1 in a butt joint mode, the cover buckling device 103 comprises a cover buckling rack 1031, a cover buckling motor 1032, a rotating platform 1033, a driving swing arm 1034, a brake lever 1035, a driven swing arm 1036, a cover buckling assembly 1037 and a synchronizing assembly 1038, the cover buckling motor 1032 and the rotating platform 1033 are fixed on a vertical plate of the cover buckling rack 1031, the cover buckling motor 1032 drives a rotary table 1033 of the rotating platform 1033 to rotate, the driving swing arm 1034 is installed on the rotating platform 1033, the brake lever 1035 is installed on the driving swing arm 1034, the other end of the brake lever 1035 is inserted in another vertical plate of the cover buckling rack 1031 through an embedded ball bearing assembly, the driven swing arm 1036 is also installed on the brake lever 1035, the extending ends of the driving swing arm 1034 and the driven swing arm 1036 are inserted with a buckle cover assembly 1037, and the buckle cover assembly 1037 and the brake lever 1035 are synchronously connected through a synchronization assembly 1038.

The cover-fastening assembly 1037 comprises a suction cup fixing plate 10371, a rotating rod 10372, a cover-fastening air cylinder 10373, an air cylinder connecting plate 10374, a suction cup shaft 10375, a limit clamp 10376, a positioning column 10377, a buffer spring 10378 and a suction cup 10379, two rotating rods 10372 are movably inserted into the extending ends of the driving swing arm 1034 and the driven swing arm 1036 through bearing seats respectively, a suction cup fixing plate 10371 is installed between the two rotating rods 10372, a vertical buckle cover air cylinder 10373 is installed on the suction cup fixing plate 10371, a piston rod of the buckle cover air cylinder 10373 is connected with an air cylinder connecting plate 10374 through a floating joint, two suction cup shafts 10375 are sleeved on the air cylinder connecting plate 10374, a limiting clamp 10376 is installed on the two suction cup shafts 10375, a linear bearing on the suction cup fixing plate 10371 penetrates through the upper portion of the suction cup shafts 10375, a positioning column 10377 for preventing the cover from being damaged by pressure is installed on the lower portion of the suction cup shafts 10375, a buffer spring 10378 is sleeved on the suction cup shaft 10375 above the positioning column 10377, and a suction cup 10379 is installed at the bottom of the suction cup shaft 10375.

The synchronizing assembly 1038 comprises a synchronizing pulley 10381, a belt 10382 and a belt tension pulley 10383, the synchronizing pulley 10381 is mounted on the brake lever 1035 and the rotating lever 10372, the two synchronizing pulleys 10381 are connected through a belt 10382, and the belt tension pulley 10383 for adjusting the tension of the belt 10382 is inserted on the driven swing arm 1036.

When the novel double-row linear filling and sealing machine works, the motor 21 drives the divider 22 to rotate, the divider 22 drives the die plate 24 on the double-row die plate conveying line 2 to do intermittent motion through the chain wheel 23, when the die plate 24 moves to the station of the rotary cup dropping device 33, the cup vibrating disc 31 conveys the cup to the cup feeding conveying line 32 in a vibrating manner, the cup on the cup feeding conveying line 32 enters the rotary seat 336 along the conveying direction and the capsule cup feeding hole 3360, the two clamping blocks 334 are positioned above and below the cup at the moment, the rotary cylinder 332 drives the rotary swing arm 333 to rotate for 90 degrees, the two clamping blocks 334 drive the cup to rotate to the vertical state, the material blocking assembly 339 returns, the cup falls into the die plate 24, in order to ensure that the cup falls fast and avoid the cup being clamped in the rotary seat 336, the piston rod of the ejecting cylinder 338 extends to drive the cup to fall fast, the ejecting cylinder 33 can be replaced by an air blowing device according to the working conditions of different cups, namely, the cup on the cup feeding conveying line 32 is transferred onto the mould plate 24 by the rotary cup dropping device 33, the cup arriving at a station is fed by the feeding device 4, the cup after feeding is pressed by the powder pressing and absorbing device 5, the material overflowing in the feeding process is subjected to vacuum powder absorbing and cleaning, the film is placed on the cup by the film absorbing device 6 at the next station, the cup arrives at the film detecting device 7 at the next station, and if no film exists, the subsequent station stops acting; if a film is arranged on a cup, the cup moves to the next station continuously, the heat sealing device 8 starts to work, the film and the cup are sealed through high temperature, the cup moves to the ear folding device 9 continuously, the film passes through the rubber ball 92, the rubber ball 92 folds the film handheld bulge inwards, the cup moves continuously, when the cup reaches the station of the cover buckling device 103, the cup cover in the cup cover vibrating disk 101 is conveyed to the cup cover conveying line 102 in a vibrating manner, when the original position of the cup cover is reached, the piston rod of the cover buckling air cylinder 10373 extends to drive the suction disk shaft 10375 to move downwards, the cup cover is sucked up by the suction disk 10379, the cover buckling air cylinder 10373 retracts, the cover buckling motor 1032 works to drive the driving swing arm 1033, the rotating brake lever 1035 and the driven swing arm 1036 to rotate, the brake lever 1035 rotates to drive the rotating lever 10372 to synchronously through the synchronizing assembly 1038, the suction disk shaft 10375 of the cover buckling assembly 1037 is always perpendicular to the ground, and when the cover buckling position is reached, the cover buckling air cylinder 10373 extends, the cover is buckled on the cup, the positioning column 10377 is firstly contacted with the lower cup cover to perform positioning, in order to prevent the cover from being damaged by pressure in the cover buckling process, the buffer spring 10378 is arranged on the suction disc shaft 10375 to buffer the downward pressure of the cover buckling air cylinder 10373, the cover buckling device 103 buckles the cup cover on the cup with the sealed film, the cup continues to move forwards, then the discharge device 11 carries the cup with the cover buckled to the discharge port 110, so that the cup rolls downwards to the cup collecting box along the discharge port 110, and for the abnormal cup, the cup cannot be smoothly discharged, the cup ejecting device is arranged at the discharge station and is used for ejecting the abnormal cup from the die plate 24 to the waste material port 111 to be removed.

The novel double-row linear filling and sealing machine disclosed by the utility model is compact in structure, stable in operation, capable of integrating cup falling, material feeding, powder pressing and absorbing, heat sealing film, cover buckling and cup discharging, perfect in function, small in occupied area, free of multiple positioning, low in manufacturing cost, short in period, high in efficiency, strong in adaptability and capable of meeting the flexible production requirements.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (7)

1. The utility model provides a novel biserial orthoscopic filling capper which characterized in that: this novel biserial orthoscopic filling capper includes frame, biserial mould board transfer chain, material cup conveying mechanism, feeding device, presses the powder to inhale the powder device, inhales membrane device, membrane detection device, sealing device, rolls over ear device, bowl cover conveying mechanism and discharging device, install biserial mould board transfer chain on the workstation of frame, biserial mould board transfer chain input butt joint is provided with material cup conveying device, has set gradually feeding device, pressure powder and has inhaled the powder device, inhale membrane device, membrane detection device, sealing device and roll over ear device on the workstation along the direction of delivery of biserial mould board transfer chain, and the frame other end is provided with bowl cover conveying mechanism, and discharging device is installed to the output position department of biserial mould board transfer chain.

2. The novel double-row linear filling and sealing machine according to claim 1, wherein: the double-row die plate conveying line is powered by a motor, the motor drives the divider to rotate, and the divider drives the die plates on the double-row die plate conveying line to do intermittent motion through the chain wheel.

3. The novel double-row linear filling and sealing machine according to claim 1, wherein: the material cup conveying mechanism consists of a material cup vibration disc, a material cup feeding conveying line and a rotary cup dropping device, wherein the output end of the material cup vibration disc is in butt joint with the material cup feeding conveying line, the output end of the material cup feeding conveying line is in butt joint with the rotary cup dropping device, the rotary cup dropping device is arranged on a workbench of a rack and comprises a support frame, a rotary air cylinder, a rotary swing arm, a clamping block, a connecting column, a rotary seat, a cover plate, a material ejecting air cylinder and a material blocking assembly, the two support frames are fixed on a support of the double-row mold plate conveying line, the rotary air cylinder is arranged on a vertical plate of the two support frames, the rotary swing arm is arranged on a rotary table of the rotary air cylinder through a connecting block, the two clamping blocks are arranged on the rotary swing arm, the vertical plate of the support frame is fixedly connected with the rotary seat through the connecting column, the rotary seat is close to one end of the material cup feeding conveying line, the clamping block is positioned in the rotary seat and opposite to the material cup feeding port, the outer terminal surface of roating seat is packaged with the apron, and the liftout cylinder that is used for pushing away the cup is installed at the roating seat top, still install the striker assembly on the support frame, the striker assembly pushes away on the cylinder, connecting plate and striker plate including pushing away, two push away the material cylinder levels and be fixed in the support frame, pushes away and installs the connecting plate on the piston rod flange board of material cylinder, installs the striker plate on the connecting plate, and the striker plate is located roating seat bottom discharge gate below.

4. The novel double-row linear filling and sealing machine according to claim 1, wherein: roll over the ear device and roll over ear support, stick and latch segment are glued to excel in including the door shape, the door shape is rolled over the ear support and is fixed in on the support of biserial mould board transfer chain, and two excel in are glued the stick and pass through the vertical lock of latch segment on the crossbeam of door shape roll over the ear support, and the stick bottom is glued to excel in and the handheld bellying of membrane is relative.

5. The novel double-row linear filling and sealing machine according to claim 1, wherein: the cup cover conveying mechanism comprises a cup cover vibrating disk, a cup cover conveying line and a cover buckling device, the output end of the cup cover vibrating disk is in butt joint with the cup cover conveying line, the output end of the cup cover conveying line is in butt joint with the cover buckling device, the cover buckling device is arranged on a workbench of the rack, the cover buckling device comprises a cover buckling frame, a cover buckling motor, a rotating platform, a driving swing arm, a brake rod, a driven swing arm, a cover buckling assembly and a synchronous assembly, the automatic cover-locking device is characterized in that the cover-locking motor and the rotary platform are fixed on a vertical plate of the cover-locking rack, the rotary platform of the cover-locking motor is driven to rotate by the cover-locking motor, a driving swing arm is installed on the rotary platform, a brake rod is installed on the driving swing arm, the other end of the brake rod is inserted on another vertical plate of the cover-locking rack through an embedded ball bearing assembly, a driven swing arm is further installed on the brake rod, the extending ends of the driving swing arm and the driven swing arm are inserted with cover-locking assemblies, and the cover-locking assemblies and the brake rod are synchronously connected through a synchronization assembly.

6. The novel double-row linear filling and sealing machine according to claim 5, wherein: the buckle closure subassembly includes the sucking disc fixed plate, the dwang, the buckle closure cylinder, the cylinder connecting plate, the sucking disc axle, the spacing clamp, the reference column, buffer spring and sucking disc, two dwangs stretch out the end in initiative swing arm and driven swing arm through bearing frame activity cartridge respectively, install the sucking disc fixed plate between two dwangs, install vertical buckle closure cylinder on the sucking disc fixed plate, the piston rod of buckle closure cylinder passes through floating joint and is connected with the cylinder connecting plate, the cover has two sucking disc axles on the cylinder connecting plate, install the spacing clamp on the two sucking disc axles, sucking disc axle upper portion passes the linear bearing on the sucking disc fixed plate, the reference column that is used for preventing the pressure loss lid is installed to sucking disc axle lower part, the epaxial cover of reference column top sucking disc has buffer spring, the sucking disc is installed to sucking disc axle bottom.

7. The novel double-row linear filling and sealing machine according to claim 5, wherein: the synchronous component comprises a synchronous belt pulley, a belt and a belt tensioning wheel, the brake rod and the rotating rod are provided with the synchronous belt pulley, the two synchronous belt pulleys are connected through the belt, and the driven swing arm is inserted with the belt tensioning wheel for adjusting the belt tensioning.

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