CN211624843U - Novel inflator - Google Patents

Abstract

The invention discloses a novel aerator which is arranged on a rack and comprises a steel bottle vibrating disc, a bottle cap vibrating disc, a first feeding device, a second feeding device, a gland device, a limiting device, a sealing device and a collecting device, wherein the second feeding device is connected with a conveying pipe of the steel bottle vibrating disc and used for conveying packaging bottles to the gland device, the first feeding device and the second feeding device are positioned below the limiting device, the gland device is positioned above the limiting device and used for conveying the packaging bottles to the upper part of the limiting device and installing bottle caps into the packaging bottles, the first feeding device is used for conveying the packaging bottles to the sealing device after the bottle caps are installed, the sealing device is arranged on the side edge of the limiting device and used for inflating and sealing the packaging bottles, the novel aerator is mainly used for inflating and sealing the packaging bottles, and the production processes are finished by machines, the conveying and automatic production of the packaging bottles can be realized, and the production efficiency can be improved.

Description

Novel inflator

Technical Field

The invention relates to the field of inflators, in particular to a novel inflator.

Background

In the prior inflator, a plurality of production steps are also completed by manpower, and the automatic production cannot be realized, so that the problems of troublesome operation and low working efficiency exist.

Disclosure of Invention

The invention aims to provide a novel inflator aiming at the defects of the prior art so as to achieve the purposes of realizing automatic production and improving production efficiency.

The technical scheme adopted by the invention is as follows: a novel inflator is arranged on a frame and comprises a steel bottle vibrating disc, a bottle cap vibrating disc, a first feeding device, a second feeding device, a gland device, a limiting device, a sealing device and a collecting device, the second feeding device is connected with a material conveying pipe of the steel cylinder vibration disc and is used for conveying the packaging bottles to the gland device, the first feeding device and the second feeding device are positioned below the limiting device, the gland device is positioned above the limiting device, the capping device is used for conveying the packaging bottle to the upper part of the limiting device and installing the bottle cap into the packaging bottle, the first feeding device is used for conveying the packaging bottles to the sealing device after the bottle caps are installed on the packaging bottles, the sealing device is arranged at the side edge of the limiting device and used for inflating and sealing the packaging bottle, the collecting device is positioned below the sealing device, a blanking slideway is arranged between the collecting device and the sealing device, the collecting device is used for detecting the packaging bottles and separately collecting products with different qualities.

Further, capping device includes gland subassembly, feed assembly and promotion cylinder, gland subassembly and feed assembly all install in the stop device top, promote the cylinder vertical installation in the stop device below, the gland subassembly includes the gland cylinder and installs the ejector pad on gland cylinder output lever, feed assembly includes feed cylinder, stopper and dress lid platform, be equipped with feed channel and circular shape through-hole on the dress lid platform, the through-hole is located gland subassembly under, feed channel is used for the bottle lid transportation, the output lever department at feed cylinder is installed to the stopper, be equipped with the arc bayonet socket with the bottle lid contact on the stopper, and the bayonet socket size is corresponding with bottle lid arc lateral wall.

Further, stop device includes the clamping jaw of location jar and can grasp the packing bottle, clamping jaw slidable mounting is in location jar top, the inside vertical passageway that supplies the packing bottle to pass that is equipped with of location jar.

Further, first material feeding unit includes centre gripping subassembly, reset assembly and fixed plate, the end that the fixed plate is close to reset assembly is equipped with the air supply mouth, centre gripping subassembly and reset assembly install respectively at the both ends of fixed plate, the centre gripping subassembly includes centre gripping cylinder and installs the first electro-magnet on centre gripping cylinder output lever, be equipped with the semicircular groove corresponding with packing bottle wall on the first electro-magnet.

Further, the reset assembly comprises a first limiting plate, a second electromagnet and a spring rod, the first limiting plate is installed on the upper portion of the fixing plate, the spring rod is installed between the first limiting plate and the second electromagnet, and the second electromagnet can move up and down on the spring rod.

Further, second material feeding unit includes locating component and conveying assembly, locating component includes feed cylinder, second limiting plate, L shaped plate and square board, the vertical frame of installing at the stop device side of feed cylinder, the second limiting plate is installed in the feed cylinder below and is located L shaped plate top, the L shaped plate is installed on square board, conveying assembly installs on square board.

Further, the conveying assembly comprises a first feeding cylinder, a second feeding cylinder and a third electromagnet for clamping the packaging bottle, the first feeding cylinder is installed on the square plate, the second feeding cylinder is installed on an output rod of the first feeding cylinder, and the third electromagnet is installed on an output rod of the second feeding cylinder.

Further, sealing device includes seal assembly, seal assembly and seals the subassembly down, seal assembly and seal assembly down install in proper order in the frame from last on, the last inlet channel who is connected with the air supply pipeline that is equipped with of seal assembly, it includes first cylinder and the vertical last mould that seals of installing on first cylinder output pole to go up seal assembly, seal assembly includes the second cylinder and the vertical lower mould that seals of installing on the second cylinder output pole down.

Further, seal assembly includes the upper seal pad briquetting, the upper seal pad, the middle seal pad, sealed compact heap and lower seal pad, the upper seal pad briquetting, the upper seal pad and the middle seal pad are from last down installing in proper order in the upper portion passageway department of sealed piece, the upper seal pad and the middle seal pad are used for the upper portion passageway to seal up, the upper seal pad briquetting is used for compressing tightly the upper seal pad and the middle seal pad, the port department at the lower part passageway is installed to the lower seal pad, the lower seal pad is used for sealing up the lower part passageway, the up end of sealed compact heap installation under the lower seal pad, sealed compact heap is used for compressing tightly the lower seal pad.

Further, collection device includes blanking frame, unloading subassembly, weighing component, conveyer belt and rejects the subassembly, weighing mechanism is located the discharge end department of blanking frame side, unloading mechanism installs opening and shutting at weighing mechanism side and steerable blanking frame and can push away the conveyer belt with the packing bottle on the weighing mechanism, reject the non-port department that the mechanism installed on the conveyer belt, be equipped with the defective products on the conveyer belt and collect guide mouth and finished product collection guide mouth, the position that the guide mouth was collected to the defective products is corresponding with rejection mechanism, the finished product is collected the guide mouth and is located the defeated material direction of conveyer belt end.

The invention has the beneficial effects that: the invention is mainly used for inflating and sealing packaging bottles, and the production procedures are completed by machines, so that the conveying and the automatic production of the packaging bottles can be realized, and the production efficiency can be improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an internal structural view of the present invention;

FIG. 3 is a schematic structural view of the capping device, the limiting device and the first feeding device of the present invention;

fig. 4 is a partial enlarged view at a of fig. 3;

FIG. 5 is a schematic structural view of a feed assembly of the present invention;

FIG. 6 is a schematic structural view of a capping device, a limiting device and a second feeding device according to the present invention;

FIG. 7 is a schematic structural view of another view angle of the capping device, the limiting device and the second feeding device according to the present invention;

FIG. 8 is an internal cross-sectional view of the capping device, the limiting device, the first feeding device and the second feeding device of the present invention;

FIG. 9 is a schematic structural view of the delivery assembly of the present invention;

FIG. 10 is a schematic view of the first feeding device of the present invention;

FIG. 11 is a schematic view of a first feeding device of the present invention mounted to a frame;

FIG. 12 is a schematic view of the construction of the sealing device of the present invention;

FIG. 13 is an internal cross-sectional view of the seal of the present invention;

fig. 14 is a partial enlarged view at B of fig. 13;

FIG. 15 is a schematic view of the construction of the collecting device of the present invention;

FIG. 16 is a schematic view of the construction of the blanking assembly of the present invention;

fig. 17 is a schematic structural view of the spacing device of the present invention.

Wherein, 1, a steel bottle vibrating disc, 2, a bottle cap vibrating disc, 3, a frame, 4, a first feeding device, 5, a capping device, 6, a sealing device, 7, a limiting device, 8, a second feeding device, 9, a collecting device, 10, a control box, 11, a packaging bottle, 12, a blanking slideway, 41, a clamping component, 42, a resetting component, 43, a fixing plate, 44, an air source port, 411, a clamping cylinder, 412, a first electromagnet, 421, a second electromagnet, 422, a spring rod, 423, a first limiting plate, 51, a capping component, 52, a feeding component, 53, a lifting cylinder, 511, a capping cylinder, 521, a feeding cylinder, 522, a capping platform, 523, a limiting block, 524, a feeding channel, 525, a through hole, 61, an upper sealing component, 62, a sealing component, 63, a lower sealing component, 611, a first cylinder, 612, an upper sealing mold, 621, an upper sealing gasket pressing block, 622. the upper sealing gasket, 623, the middle sealing gasket, 624, the air inlet channel, 625, the sealing and compressing block, 626, the lower sealing gasket, 627, an upper channel, 628, an inflation cavity, 629, a lower channel, 631, a lower sealing mold, 632, a second cylinder, 6121, an air hole channel, 6122, an arc-shaped groove, 701, a clamping jaw, 702, a positioning cylinder, 811, a charging barrel, 812, a second limiting plate, 813, a square plate, 814, an L-shaped plate, 821, a first feeding cylinder, 822, a second feeding cylinder, 823, a third electromagnet, 91, a blanking frame, 92, a blanking assembly, 93, a weighing assembly, 94, a rejection assembly, 95, a conveying belt, 96, a defective product collecting and guiding port, 97, a finished product collecting and guiding port, 921, a blanking cylinder, 922, a baffle, 923 and a pushing plate.

Detailed Description

The invention is further illustrated by the following examples in connection with the accompanying drawings.

Preferably, the invention is mainly used for the automatic production of the air inflation seal of the 'laughing gas' packaging bottle 11, the packaging bottle 113 is a gas bomb bottle, and the material is steel.

As shown in fig. 1 and 2, a novel inflator is installed on a frame 3, and includes a steel cylinder vibration disc 1, a bottle cap vibration disc 2, a first feeding device 4, a second feeding device 8, a capping device 5, a limiting device 7, a sealing device 6 and a collecting device 9, wherein the second feeding device 8 is connected with a conveying pipe of the steel cylinder vibration disc 1, the first feeding device 4 and the second feeding device 8 are both located below the limiting device 7, the limiting device 7 is installed on the frame 3, the capping device 5 is located above the limiting device 7, the sealing device 6 is installed on the side of the limiting device 7, the collecting device 9 is located below the sealing device 6, and a blanking slideway 12 is arranged between the two.

The whole steel bottle tray 1 is used for arranging the packaging bottles 11 so that the packaging bottles 11 can be conveyed to the second feeding device 8 in order, then the packaging bottles 11 are conveyed to the first feeding device 4 by the second feeding device 8 and are temporarily clamped by the first feeding device 8, then the packaging bottles 11 are pushed to the upper part of the limiting device 7 by the gland device 5, and then the packaging bottles 11 are clamped by the limiting device 7; the bottle cap vibrating plate 2 is used for tidying the bottle caps, so that the bottle caps can be conveyed into the capping device 5 in order, and the bottle caps are installed in the packaging bottles 11 clamped by the limiting device 7 through the capping device 5, so that capping is finished; after the bottle caps are installed, the packaging bottles 11 are pushed below the limiting device 7 through the cap pressing device 5, then the packaging bottles 11 are conveyed into the sealing device 6 through the first feeding device 4 for air inflation and sealing, then the packaging bottles 11 enter the blanking slide 12 and fall into the collecting device 9, the packaging bottles 11 are weighed through the collecting device 9, and then products with different weights are separately collected.

As shown in fig. 3, 4 and 5, the capping device 5 includes a capping assembly 51, a feeding assembly 52 and a lifting cylinder 53, the capping assembly 51 and the feeding assembly 52 are both installed above the limiting device 7, the lifting cylinder 53 is vertically installed below the limiting device 7, and the capping assembly 51 includes a capping cylinder 511 and a push block installed on an output rod of the capping cylinder 511.

The feeding assembly 52 comprises a feeding cylinder 521, a limiting block 523 and a cover mounting platform 522, the cover mounting platform 522 is a plate, a feeding channel 524 is arranged in the plate, the feeding end of the feeding channel 524 is connected with a material conveying track of a bottle cover vibration disc, so that the bottle cover vibration disc conveys bottle covers into the feeding channel 524 in order, a through hole 525 is arranged at the tail end of the feeding channel, the diameter of the through hole 525 corresponds to that of the feeding channel 524, the through hole 525 penetrates through the cover mounting platform 7 and a rack wall plate for mounting the feeding assembly 52, the through hole 524 is positioned right above a clamping position of the limiting device 7 and is positioned right below a push block, and the push block is circular and has a size corresponding to that of the through hole; stopper 523 is installed in the output lever department of feeding cylinder 521, and the width of stopper 523 is corresponding with the width of feeding channel 524 to this can let stopper 523 remove in the feeding channel, be equipped with the arc bayonet socket with the bottle lid contact on stopper 523, and the bayonet socket size is corresponding with bottle lid arc lateral wall, with this accurately pushes away the through-hole 524 top with the bottle lid to the arc tail end that makes bayonet socket and feeding channel 524 plays fixed limiting displacement to the bottle lid, makes the gland subassembly can be accurate with the bottle lid press to the packing bottle that stop device 7 gripped.

The feeding channel 524 is provided with a first sensor (not shown) electrically connected to the programmable controller, the first sensor is used for sensing the caps in the feeding channel 524 and transmitting signals to the programmable controller, so that the capping cylinder 511 and the pushing cylinder 521 are controlled by the programmable controller to be regularly started, and the caps are normally conveyed below the capping assembly 51 and are mounted in the packaging bottles 11.

As shown in fig. 3, 7 and 8, the limiting device 7 includes a clamping jaw 701 and a positioning cylinder 702 capable of clamping the packaging bottle 11, the clamping jaw 701 is slidably mounted above the positioning cylinder 702, the clamping jaw 4 is a three-jaw clamping jaw (see fig. 17) and is controlled by a programmable controller, a vertical channel for the packaging bottle 11 to pass through is provided inside the positioning cylinder 702, an output rod of the lifting cylinder 53 faces the vertical channel of the positioning cylinder 702, the lifting cylinder 53 can push the packaging bottle 11 from the lower part to the upper part of the positioning cylinder 702 along the vertical channel and locate the neck of the packaging bottle 11 in the through hole 525, and after the packaging bottle 11 reaches the upper part of the positioning cylinder 702, the packaging bottle can be clamped by the clamping jaw 701, and then the bottle cap can be pressed into the packaging bottle 11 by the cap pressing assembly 51, thereby completing the installation of the bottle cap.

As shown in fig. 6, 7 and 9, the second feeding device 8 includes a positioning assembly and a conveying assembly, the positioning assembly includes a charging barrel 811, a second limiting plate 812, a square plate 813 and an L-shaped plate 814, the charging barrel 811 is vertically installed on the frame 3 of the side edge of the limiting device 7, the upper port of the charging barrel 811 is connected with the conveying pipeline of the steel cylinder vibration tray 1, the second limiting plate 812 is installed below the charging barrel 811 and located above the L-shaped plate 814, a semicircular notch is arranged on the second limiting plate 812, the diameter of the notch corresponds to the diameter of the bottle body of the packaging bottle 11, the center line of the notch and the center line of the inner hole of the charging barrel 811 are located on the same vertical line, the L-shaped plate 814 is installed on the square plate 813 and is used for supporting the packaging bottle 11 falling from the charging barrel 811, and a second sensor for sensing the packaging bottle 11 is.

The conveying assembly comprises a first feeding cylinder 821, a second feeding cylinder 822 and a third electromagnet 823 for clamping the packaging bottle 11, the first feeding cylinder 821 is installed on the square plate 813, the second feeding cylinder 822 is installed on an output rod of the first feeding cylinder 821, the third electromagnet 823 is installed on an output rod of the second feeding cylinder 822, a groove corresponding to the bottle wall of the packaging bottle 11 is formed in the third electromagnet 13, the packaging bottle 11 is adsorbed to the inside, and the first feeding cylinder 821 and the second feeding cylinder 822 are used for conveying the third electromagnet 823 to the first feeding device 4, so that the packaging bottle 11 is transferred.

As shown in fig. 8, 10 and 11, the first feeding device 4 includes a clamping assembly 41, a reset assembly 42 and a fixing plate 43, the clamping assembly 41 and the reset assembly 42 are respectively installed at two ends of the fixing plate 43, an air source port 44 is disposed at an end of the fixing plate 43 close to the reset assembly 42, the clamping assembly 41 includes a clamping cylinder 411 and a first electromagnet 412 installed on an output rod of the clamping cylinder 411, a semicircular groove corresponding to a bottle wall of the packaging bottle 11 is disposed on the first electromagnet 412, and the packaging bottle 11 can be adsorbed into the groove when the first electromagnet 412 is powered on, so as to clamp and fix the packaging bottle 11.

The reset assembly 42 includes a first limiting plate 423, a second electromagnet 421 and a spring rod 422, the first limiting plate 423 is installed on the upper portion of the fixing plate 43, the number of the spring rods 422 is two, and the spring rods 422 are installed between the first limiting plate 423 and the second electromagnet 421, and the second electromagnet 421 can move up and down on the spring rod 422 to adapt to the movement of the packaging bottle 11, so that the packaging bottle 11 returns to the original position after being inflated and sealed.

Wherein, be equipped with the semicircular groove corresponding with 11 bottle walls of packing bottle on the second electro-magnet 421 equally, be equipped with the arc breach corresponding with 11 bottleneck departments of packing bottle on the first limiting plate 423, the second electro-magnet 421 can adsorb the packing bottle in the recess to carry on spacingly through the arc breach, fix packing bottle 11 with this, and make its direction vertical upwards.

The first feeding device 4 can temporarily fix the packaging bottles 11 conveyed by the second feeding device 8, convey the packaging bottles 11 to the sealing device 6 for inflation sealing after the bottle caps are mounted on the packaging bottles 11, and then spray high-pressure gas through the gas source port 44 after the packaging bottles 11 are sealed, so that the packaging bottles 11 are blown into the blanking slideway 12.

As shown in fig. 11, 12, 13 and 14, the sealing device 6 includes an upper sealing assembly 61, a sealing assembly 62 and a lower sealing assembly 63 which are sequentially installed on the rack 3 from top to bottom, the upper sealing assembly 61 includes a first cylinder 611 and an upper sealing mold 612 vertically installed on an output rod of the first cylinder 611, the first cylinder 611 is used for driving the upper sealing mold 612, so that the upper sealing mold 61 seals the package bottle 11 in the sealing assembly 62, wherein an air hole channel 6121 and an arc-shaped groove 6122 are provided at a lower end port of the upper sealing mold 612, the arc-shaped groove 6122 is used for recessing the structure at the bottle mouth of the package bottle 11 to surround the bottle cap, so as to seal the package bottle 11, and the air hole channel 6121 allows air to enter the arc-shaped groove 6122 from this position, and is filled into the package bottle 11 during sealing.

The lower sealing assembly 63 includes a second cylinder 632 and a lower sealing mold 631 vertically mounted on an output rod of the second cylinder 632, and the second cylinder 632 drives the lower sealing mold 631 to push the packaging bottle 11 on the second electromagnet 421 into the sealing assembly 62 for inflation sealing.

The sealing assembly 62 is provided with an upper passage 627, a lower passage 629, an air inlet passage 624 and an air charging chamber 628, the upper passage 627, the lower passage 629 and the air inlet passage 624 are communicated together through the air charging chamber 628, the upper sealing mold 612 is positioned in the upper passage and has a corresponding diameter, the upper sealing mold 612 can move up and down in the upper passage 627, the air inlet passage 624 is connected with an air source pipeline for providing air, the air source pipeline is provided with an electromagnetic valve to fill the air charging chamber 628 with air, and then fill the packaging bottle 11 with air, the lower passage 629 can enable the mouth of the packaging bottle 11 to extend into the air charging chamber, the middle part of the packaging bottle 11 can block the lower port of the lower passage 629, so that the upper passage 627 and the lower passage 629 are respectively sealed by the upper sealing mold 612 and the packaging bottle 11, and when the air enters the air charging chamber 628 from the air inlet passage 624, the gas packing bottle 11 is filled along the filling chamber 628, thereby filling the gas.

The sealed subassembly includes the main part piece, the sealed briquetting 621 that fills up, the sealed 622 that fills up, the middle seal pad 623, the sealed briquetting 625 and the lower seal pad 626 of filling up, the sealed 623 that fills up is installed inside the main part piece of filling up, the sealed 623 that fills up is used for sealing up the upper portion passageway 627 of main part piece, the sealed 623 up end that fills up is installed at the middle seal pad 623, the sealed 622 that fills up is used for further sealing up the upper portion passageway 627 of main part piece, the sealed briquetting 621 that fills up is installed at the up end of the sealed 622 that fills up, the sealed briquetting 621 that fills up is used for filling up 622 and the sealed 623 that fills up, the port department at main part piece lower part passageway 629 is installed to the lower seal pad 627 that fills up, sealed briquetting 625 is used for compressing down sealed 626, makes it stably install inside the main.

Wherein, gas fills packing bottle 11 in inflating cavity 628, the inner circle of sealed compact heap 625 is greater than the bottleneck diameter of packing bottle 11, is greater than the diameter of sealing the mould 612 simultaneously, seals the mould 612 and does not remove at the inner circle department of sealed compact heap 625 packing bottle 11 tentatively (at this moment), and when sealing under the removal of sealing the mould 612, because sealing the mould 612 and isolating packing bottle 11 bottleneck and inflating cavity 628, so at this moment, can further carry out gas filling to packing bottle 11 through gas pocket passageway 6121 to this guarantees to fill gas in packing bottle 11, guarantees the normal of product.

As shown in fig. 2, 15 and 16, the collecting device 9 includes blanking frame 91, unloading subassembly 92, weighing subassembly 93, conveyer belt 95 and rejects the subassembly 94, weighing subassembly 93 is located the discharge end department of blanking frame 2 side, unloading subassembly 92 is installed at weighing subassembly 93 side, reject the non-port department that the subassembly 94 was installed at conveyer belt 95, be equipped with defective products on the conveyer belt 55 and collect guide opening 96 and finished product collection guide opening 97, the position that the defective products were collected guide opening 96 is corresponding with rejecting the subassembly 94, the finished product is collected guide opening 97 and is located conveyer belt 95 and is failed the material direction end, weighing subassembly 93 and rejection subassembly 94 are controlled by programmable controller.

The blanking slide rail 12 above the blanking frame 91 is obliquely installed, the blanking slide rail 12 is used for conveying the packaging bottles 11 which are required to be weighed after the air-inflation sealing process to the blanking frame 91, and the bottom plate of the blanking frame 91 is obliquely installed towards the weighing component 93, so that the packaging bottles 11 in the blanking frame 91 can be rolled into the weighing component 93.

Unloading subassembly 92 includes unloading cylinder 921, baffle 922 and push pedal 923 are all installed on the output lever of unloading cylinder 921, baffle 922 is "L" shape structure, and under the drive of unloading cylinder 921, baffle 922 can keep off on blanking frame 91 lateral wall or remove the position apart to this carries out the part of blanking frame 91 wallboard and closes, and with this roll of control blanking frame 91 inner packing bottle 11 falls, push pedal 923 under the drive of unloading cylinder 921 can push away packing bottle 11 on the subassembly 93 of weighing on the conveyer belt 95 of below.

The weighing component 93 is used for weighing the packaging bottles 11 and transmitting weighing information to the programmable controller, the conveying belt 95 conveys the packaging bottles 11 in a specified direction, partition plates for preventing the packaging bottles 11 from falling are arranged on two side edges of the conveying belt 95, notches are formed in the corresponding positions of the defective product collecting material guide port 96 and the rejecting component 94 by the partition plates, and therefore the rejecting component 94 can perform rejecting action and the packaging bottles 11 can fall into the defective product collecting material guide port 96.

The rejecting assembly 94 comprises a rejecting cylinder and a third sensor (not shown in the figure), the third sensor is arranged on a conveying belt 95 in front of the rejecting cylinder, the third sensor is used for sensing the packaging bottles 11 and transmitting signals to a programmable controller, then the programmable controller determines whether the rejecting cylinder executes rejecting action according to weighing information in front, and material collecting boxes for collecting the packaging bottles 11 are arranged below the defective product collecting and guiding port 96 and the finished product collecting and guiding port 97.

The specific working process is as follows: the steel bottle shakes the dish 1 to arrange packing bottle 11 well, then carries in feed cylinder 811 according to certain direction, and the packing bottle 11 that gets into feed cylinder 811 can drop downwards to spacing through the breach of second limiting plate 812 makes it fall perpendicularly and gets into the recess of third electro-magnet 823, and finally packing bottle 11 can fall on L shaped plate 814.

When the second sensor on the L-shaped plate 814 senses the package bottle 11, a signal is transmitted to the programmable controller, and then the third electromagnet 823 is activated by the programmable controller, so that the package bottle 11 is firmly attached to the inside of the groove.

Then the first feeding cylinder 821 is started, the second feeding cylinder 822 and the third electromagnet 823 are pushed forward to reach the specified position, then the second feeding cylinder 822 is started to push the third electromagnet 823 onto the first electromagnet 412, the groove of the third electromagnet 823 is aligned with the groove of the first electromagnet 412, then the first electromagnet 412 is started, the third electromagnet 823 is closed, and the first electromagnet 412 enables the packaging bottle 11 to be adsorbed into the inner groove, so that the conveying before the packaging bottle 11 is covered is completed.

After the conveying is completed, the first feeding cylinder 821 and the second feeding cylinder 822 return to the original positions to prepare for conveying the next packaging bottle 11, the first electromagnet 412 is adsorbed on the packaging bottle 11, the lifting cylinder 53 is started, the output rod slowly pushes the packaging bottle 11 on the first electromagnet 412 into the vertical channel of the positioning cylinder 702 (in the process, the first electromagnet is gradually powered off, so that the packaging bottle can be pushed), finally, the packaging bottle 11 is pushed to the upper portion of the positioning cylinder 702, and then the packaging bottle 11 is clamped through the clamping jaw 701 (at the moment, the bottle mouth of the packaging bottle 11 is located in the through hole 525, so that the bottle cap can be installed).

The bottle cap vibrating plate 2 is used for arranging bottle caps, enabling the bottle caps to be conveyed into a feeding channel 524 of the capping device 5 in order, then sensing the bottle caps through a first sensor, controlling the actions of a feeding cylinder 521 and a capping cylinder 511 through a programmable controller, enabling the bottle caps to be regularly pushed to the upper portion of the through hole 525 and pressed into the packaging bottles 11 clamped by the clamping jaws 701, and accordingly completing the installation of the bottle caps.

After the bottle cap is mounted, the lifting cylinder 53 contracts downwards, the capping cylinder 511 continues to move downwards, so as to push the packaging bottle 11 to the groove of the first electromagnet 412 below the positioning cylinder 701, then the first electromagnet 412 is electrified again to adsorb and clamp the packaging bottle 11, then the clamping cylinder 1 is started to push the packaging bottle 11 to the semicircular groove of the second electromagnet 421 of the resetting component 42, then the first electromagnet 412 is powered off and returns to the original position, and the second electromagnet 421 is electrified, so as to adsorb the packaging bottle 11 to the second electromagnet 421, and thus the transfer of the packaging bottle 11 is completed.

Next, the second cylinder 632 is started, so that the lower sealing mold 631 pushes the packaging bottle 11 on the second electromagnet 421 up into the sealing assembly 62 (at this time, the spring on the spring rod 422 is in a compressed state), then the electromagnetic valve is opened, so that the high-pressure gas enters the inflation cavity 628 from the gas inlet passage 624 and fills the packaging bottle 11 (the bottle cap is installed on the mouth of the packaging bottle, a gap is formed between the bottle cap and the packaging bottle, and the gas can be filled into the packaging bottle from the gap), and meanwhile, the upper sealing mold 612 seals the packaging bottle 11 under the driving of the first cylinder 611.

After the air inflation sealing is completed, the lower sealing mold 631 moves downwards under the action of the second air cylinder 632, the spring of the spring rod 422 resets at the moment, so that the second electromagnet 421 and the packaging bottle 11 on the second electromagnet 421 move downwards, after the packaging bottle returns to the initial position, the second electromagnet 421 is powered off, and meanwhile, high-pressure air is sprayed out of the air source port 44, so that the packaging bottle 11 is blown down into the blanking slide rail 12, and then the packaging bottle 11 falls into the blanking frame 91 through the blanking slide rail 12.

After the packaging bottle 11 enters the blanking frame 91, the baffle 922 is pushed away through the blanking cylinder 921, so that the packaging bottle 11 falls onto the weighing component 93, the flap 922 is then moved back to block the opening of the drop frame 91, and the weighing assembly 93 weighs the dropped packaging bottles 11 and transmits the weighing information to the programmable controller, when the weighing component 93 weighs the packaging bottles 11, the next packaging bottle 11 will continuously slide down from the blanking slideway 12 to the blanking frame 91, after the weighing is finished, the feeding cylinder 921 is continuously started to push the baffle 922 and the push plate 923 forwards simultaneously, so as to push the packaging bottles 11 on the weighing assembly 93 onto the conveyer belt 95, and at the same time, the port of the blanking frame 91 is opened, so that the next packaging bottle 11 falls on the weighing component 93, and the opening and closing of the blanking frame 91 are controlled, so that the blanking of the packaging bottle 11 is controlled.

The packaging bottles 11 falling on the conveying belt 95 are conveyed according to a specified direction, firstly pass through the position of the third sensor, the sensor senses the packaging bottles and transmits signals to the programmable controller, and then the programmable controller judges whether the weight of the packaging bottles 11 is qualified or not according to the previous weighing signals so as to control the action of the removing air cylinder. If unqualified, then reject the cylinder and can push away packing bottle 11 and fall in defective products collection guide opening 96 to collect unqualified product, if the product is qualified, will carry through conveyer belt 95 and collect in becoming flat collection track 97, with this categorised collection of accomplishing packing bottle 11.

The invention can realize the inflation sealing of the packaging bottle, can finish the whole conveying and the subsequent product collection by a machine, can realize the automatic production, and can improve the production efficiency

The above description is only a preferred embodiment of the present invention, the present invention is not limited to the above embodiment, and there may be some slight structural changes in the implementation, and if there are various changes or modifications to the present invention without departing from the spirit and scope of the present invention, and within the claims and equivalent technical scope of the present invention, the present invention is also intended to include those changes and modifications.

Claims (10)

1. The utility model provides a novel inflator, installs in the frame which characterized in that: comprises a steel bottle vibrating disc, a bottle cap vibrating disc, a first feeding device, a second feeding device, a gland device, a limiting device, a sealing device and a collecting device, the second feeding device is connected with a material conveying pipe of the steel cylinder vibration disc and is used for conveying the packaging bottles to the gland device, the first feeding device and the second feeding device are positioned below the limiting device, the gland device is positioned above the limiting device, the capping device is used for conveying the packaging bottle to the upper part of the limiting device and installing the bottle cap into the packaging bottle, the first feeding device is used for conveying the packaging bottles to the sealing device after the bottle caps are installed on the packaging bottles, the sealing device is arranged at the side edge of the limiting device and used for inflating and sealing the packaging bottle, the collecting device is positioned below the sealing device, a blanking slideway is arranged between the collecting device and the sealing device, the collecting device is used for detecting the packaging bottles and separately collecting products with different qualities.

2. The novel inflator of claim 1 wherein: the capping device includes gland subassembly, feed assembly and promotion cylinder, gland subassembly and feed assembly are all installed in the stop device top, promote the vertical installation in the stop device below of cylinder, the gland subassembly includes the gland cylinder and installs the ejector pad on gland cylinder output lever, the feed assembly includes feed cylinder, stopper and dress lid platform, be equipped with feed channel and circular shape through-hole on the dress lid platform, the through-hole is located the gland subassembly under, the feed channel is used for the bottle lid transportation, the output lever department at feed cylinder is installed to the stopper, be equipped with the arc bayonet socket with the bottle lid contact on the stopper, and the bayonet socket size is corresponding with bottle lid arc lateral wall.

3. The novel inflator of claim 1 wherein: the limiting device comprises a positioning cylinder and a clamping jaw capable of clamping a packaging bottle, the clamping jaw is slidably mounted above the positioning cylinder, and a vertical channel for the packaging bottle to pass through is formed in the positioning cylinder.

4. The novel inflator of claim 1 wherein: the first feeding device comprises a clamping assembly, a reset assembly and a fixing plate, an air source port is formed in the end, close to the reset assembly, of the fixing plate, the clamping assembly and the reset assembly are installed at the two ends of the fixing plate respectively, the clamping assembly comprises a clamping cylinder and a first electromagnet installed on an output rod of the clamping cylinder, and a semicircular groove corresponding to the bottle wall of the packaging bottle is formed in the first electromagnet.

5. The novel inflator of claim 4 wherein: the reset assembly comprises a first limiting plate, a second electromagnet and a spring rod, the first limiting plate is installed on the upper portion of the fixing plate, the spring rod is installed between the first limiting plate and the second electromagnet, and the second electromagnet can move up and down on the spring rod.

6. The novel inflator of claim 1 wherein: the second feeding device comprises a positioning assembly and a conveying assembly, the positioning assembly comprises a material cylinder, a second limiting plate, an L-shaped plate and a square plate, the material cylinder is vertically installed on the rack on the side of the limiting device, the second limiting plate is installed below the material cylinder and above the L-shaped plate, the L-shaped plate is installed on the square plate, and the conveying assembly is installed on the square plate.

7. The novel inflator of claim 6 wherein: the conveying assembly comprises a first feeding cylinder, a second feeding cylinder and a third electromagnet for clamping a packaging bottle, the first feeding cylinder is installed on the square plate, the second feeding cylinder is installed on an output rod of the first feeding cylinder, and the third electromagnet is installed on an output rod of the second feeding cylinder.

8. The novel inflator of claim 1 wherein: sealing device includes seal assembly, seal assembly and seals the subassembly down, be equipped with the inlet channel who is connected with the air supply pipeline on the seal assembly, on seal assembly, seal assembly and seal assembly down from last down install in proper order in the frame, on seal the subassembly and include first cylinder and the vertical last mould of sealing of installing on first cylinder output pole, seal the subassembly down and include second cylinder and the vertical lower mould of sealing of installing on second cylinder output pole.

9. The novel inflator of claim 8 wherein: the utility model discloses a sealing assembly, including the sealed briquetting of upper seal pad, the middle seal pad, sealed compact heap and lower seal pad, the sealed briquetting of upper seal pad, upper seal pad and middle seal pad are from last down installing the upper portion passageway department at sealed piece in proper order, upper seal pad and middle seal pad are used for the upper portion passageway to seal up, the sealed briquetting of upper seal pad is used for compressing tightly upper seal pad and middle seal pad, the port department at the lower part passageway is installed to the lower seal pad, the lower seal pad is used for sealing up the lower part passageway, sealed compact heap is installed at the up end of lower seal pad, sealed compact heap is used for compressing tightly the lower seal pad.

10. The novel inflator of claim 1 wherein: the collecting device includes blanking frame, unloading subassembly, weighing component, conveyer belt and rejects the subassembly, the subassembly of weighing is located the discharge end department of blanking frame side, the unloading unit mount is weighing the subassembly side and can be controlledly opened and shut of blanking frame and can push away the conveyer belt with the packing bottle on the weighing component on, reject the non-port department of unit mount on the conveyer belt, be equipped with the defective products on the conveyer belt and collect guide mouth and finished product collection guide mouth, the position that the guide mouth was collected to the defective products is corresponding with the subassembly of rejecting, the finished product is collected the guide mouth and is located the defeated material direction of conveyer belt end.

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