CN211033287U - High-speed post-forming system of sterile filling machine - Google Patents

Abstract

A high-speed post-forming system of a sterile filling machine solves the problems of low working efficiency, poor forming effect and unfavorable production and use of enterprises of the existing high-speed forming equipment, and comprises a bag feeding chute assembly, a bag feeding mechanism, a station chain assembly, a driving chain wheel assembly, a bag pressing power mechanism, a bag pressing shaping mechanism, a welding angle heating mechanism, a welding angle forming mechanism, a bag discharging mechanism and a chain channel, wherein the bag feeding mechanism is arranged at one side of the bag feeding chute assembly, the station chain assembly is arranged at one side of the bag feeding mechanism, the driving chain wheel assembly is arranged inside one end of the station chain assembly, the bag pressing power mechanism is arranged at the top end of the station chain assembly, the welding angle heating mechanism is arranged at both sides of one end of the station chain assembly, the bag discharging mechanism is arranged at the top end of the bag discharging mechanism, the chain channel is connected onto the bag discharging mechanism, the utility model has novel structure, the design is ingenious, the processing efficiency is high, the quality of finished products is good, and the production is facilitated.

Description

High-speed post-forming system of sterile filling machine

Technical Field

The utility model relates to a liquid filling machine specifically is a shaping system behind aseptic liquid filling machine's high speed.

Background

Aseptic packaging is a common way for packaging and preserving liquid food at present. Liquid beverages and milk packaged by aseptic carton filling machines are very popular, and are popular in the market due to attractive appearance, low packaging and transportation cost and convenient diet.

The post-forming apparatus is an important component of an aseptic carton filling machine and is capable of folding the filled and enclosed cartons into a shape. However, the post-forming device of the aseptic carton filling machine in the prior art has low working efficiency and poor forming effect, and is not beneficial to the production and use of enterprises.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a shaping system behind aseptic liquid filling machine's high speed, the effectual current high-speed former work efficiency of having solved is low, and the shaping effect is not good, is unfavorable for the problem of the plant use of enterprise.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model discloses an advance a packet spout subassembly, advance a packet mechanism, station chain subassembly, drive sprocket subassembly, press a packet power unit, press a packet plastic mechanism, weld angle heating mechanism, weld angle forming mechanism, go out a packet mechanism and chain way, advance one side of a packet spout subassembly and install into a packet mechanism, advance one side of a packet mechanism and install a station chain subassembly, the internally mounted of station chain subassembly one end has drive sprocket subassembly, and the top of a station chain subassembly is installed and is pressed a packet power unit, and the both sides that station chain subassembly is close to one end all install and weld angle heating mechanism, and the one end of a station chain subassembly is provided with a packet mechanism, and a weld angle forming mechanism is installed on the top of going out a packet mechanism, goes out to be connected with the chain way in the packet mechanism.

According to the technical scheme: it includes into a packet guide rail, presses a packet board, first synchronous belt, ejector pad, curb plate, fall a packet guide rail, second synchronous belt and third synchronous belt to advance a packet mechanism, the one end of advancing a packet guide rail is provided with presses a packet board, press the below symmetry of packet board to install first synchronous belt, the packet guide rail that falls is all installed to the both sides of first synchronous belt, the curb plate is installed in the outside of falling a packet guide rail, the mid-mounting of first synchronous belt one end pivot has the second synchronous belt, install the ejector pad on the second synchronous belt, the third synchronous belt is installed to the one end of the pivot of the first synchronous belt other end.

According to the technical scheme: the driving chain wheel assembly comprises a driving chain wheel, a first station chain, a first torque limiter and a first servo motor, the first torque limiter is installed at one end of the first servo motor, the driving chain wheel is installed at one end of the torque limiter, and the first station chain is installed on the driving chain wheel.

According to the technical scheme: the pressing and wrapping power mechanism comprises a second servo motor, a second torque limiter, a first chain wheel, a pressing and wrapping shaping mechanism, a first guide rail, a second guide rail, a third guide rail, a first pressing block and a fourth guide rail, the second torque limiter is installed at one end of the second servo motor, the first chain wheel is installed at one end of the second torque limiter, the pressing and wrapping shaping mechanism is installed on the outer side of the first chain wheel, the first guide rail and the second guide rail are installed on the two sides of the middle portion of the first chain wheel respectively, the third guide rail is installed on one side of the first guide rail, and the fourth guide rail is installed in the middle portion of the first chain wheel.

According to the technical scheme: the pressing and shaping mechanism comprises a first roller, a second roller, a third roller, a pulling lug, a fourth roller and a second pressing block, the third roller is installed on the top end of the pulling lug, the second pressing block is installed on one side of the pulling lug, the first rollers are installed at two ends above the second pressing block, the second roller is installed on one side of the first roller, and the fourth roller is installed above the middle of the second pressing block.

According to the technical scheme: the welding angle forming mechanism comprises a coupler, a first synchronous belt wheel, a second synchronous belt wheel, a fourth synchronous belt, a third synchronous belt wheel, a fourth synchronous belt wheel, an upper welding angle forming mechanism, a fifth guide rail, a bottom welding angle mechanism, a top lower welding angle mechanism and a top press wrapping mechanism, wherein the first synchronous belt wheel is installed on one side of the coupler, the second synchronous belt wheel is installed on one side of the first synchronous belt wheel, the fourth synchronous belt is wound on the first synchronous belt wheel, the top end of the fourth synchronous belt is connected with a second chain wheel, the second synchronous belt wheel is connected with the third synchronous belt wheel through the synchronous belt, the fourth synchronous belt wheel is arranged on the inner side of the third synchronous belt wheel, the upper welding angle forming mechanism is installed on the second chain wheel and comprises a fifth roller wheel and a welding angle press block, the fifth roller wheel is installed above the middle part of the top end of the welding angle press block, the fifth guide rail is installed in the middle, bottom fillet welding mechanism is installed to the bottom of second sprocket, and the top is installed to the below of bottom fillet welding mechanism one side and is welded angle mechanism under the top, and the top of welding angle mechanism one side under the top is installed the top and is pressed chartered plane and construct.

The working principle is as follows: when the utility model is used, a package falls down from a clamping jaw system, slides into a package inlet mechanism through a package inlet chute assembly, is packaged under the synchronous belt and the guide rail, and is conveyed forwards by a station chain, the power of the station chain is provided by a driving chain wheel assembly, the package is conveyed to the lower part of a package pressing power mechanism by the station chain, the package pressing shaping mechanism is driven by the package pressing power mechanism to advance at the same speed as the package on the station chain, and the package pressing shaping mechanism is under the guide rail action of the package pressing power mechanism, the packaging machine comprises a packaging machine, a welding angle heating mechanism, four heating nozzles, a station chain assembly, a station.

Has the advantages that: the utility model discloses novel structure, think about ingenious, machining efficiency is high, and the finished product is of high quality, is favorable to producing.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic diagram of the overall three-dimensional structure of the present invention;

FIG. 2 is a general plan view of the present invention;

FIG. 3 is an overall front view of the present invention;

FIG. 4 is an overall side view of the present invention;

FIG. 5 is a schematic view of a three-dimensional structure of the bag feeding assembly of the present invention;

FIG. 6 is a front view of the bag feeding assembly of the present invention;

FIG. 7 is a top view of the bag feeding assembly of the present invention;

FIG. 8 is a side view of the bag feeding assembly of the present invention;

fig. 9 is a schematic three-dimensional structure diagram of the driving sprocket assembly of the present invention;

fig. 10 is a front view of the drive sprocket assembly of the present invention;

fig. 11 is a schematic view of a first three-dimensional structure of a pressing and wrapping power mechanism of the present invention;

fig. 12 is a schematic diagram of a second three-dimensional structure of the power mechanism for pressing and wrapping the bag according to the present invention;

fig. 13 is a top view of the power mechanism for bale pressing of the present invention;

FIG. 14 is a front view of the power mechanism for pressing bag of the present invention;

fig. 15 is a rear view of the power mechanism for pressing bag of the present invention;

fig. 16 is a schematic view of a first three-dimensional structure of the bale pressing and shaping mechanism of the present invention;

fig. 17 is a schematic diagram of a second three-dimensional structure of the bale pressing and shaping mechanism of the present invention;

fig. 18 is a schematic view of a first three-dimensional structure of the fillet forming mechanism of the present invention;

fig. 19 is a schematic diagram of a second three-dimensional structure of the fillet forming mechanism of the present invention;

FIG. 20 is a top view of the fillet forming mechanism of the present invention;

FIG. 21 is a side view of the fillet forming mechanism of the present invention;

FIG. 22 is a front view of the fillet forming mechanism of the present invention;

fig. 23 is a schematic view of a three-dimensional structure of the bottom fillet welding mechanism of the present invention;

FIG. 24 is a schematic view of a three-dimensional structure of a bottom fillet-welding mechanism according to the present invention;

fig. 25 is a schematic view of a three-dimensional structure of the upper fillet forming mechanism of the present invention;

fig. 26 is a schematic view of the three-dimensional structure of the top bale pressing mechanism of the present invention.

Detailed Description

The following description of the present invention will be made in detail with reference to the accompanying drawings 1 to 26.

The high-speed back forming system of the sterile filling machine is provided by figures 1-26, the high-speed back forming system comprises a bag feeding sliding chute assembly 1, a bag feeding mechanism 2, a station chain assembly 3, a driving chain wheel assembly 4, a bag pressing power mechanism 5, a bag pressing shaping mechanism 6, a welding angle heating mechanism 7, a welding angle forming mechanism 8, a bag discharging mechanism 9 and a chain channel 10, wherein the bag feeding mechanism 2 is installed on one side of the bag feeding sliding chute assembly 1, the station chain assembly 3 is installed on one side of the bag feeding mechanism 2, the driving chain wheel assembly 4 is installed inside one end of the station chain assembly 3, the bag pressing power mechanism 5 is installed at the top end of the station chain assembly 3, the welding angle heating mechanism 7 is installed on two sides of the station chain assembly 3 close to one end, the bag discharging mechanism 9 is arranged at one end of the station chain assembly 3, the welding angle forming mechanism 8 is installed at the top end of the bag discharging mechanism 9, and the chain; the package falls from a clamping jaw system, slides into a package inlet mechanism 2 through a package inlet chute component 1, falls into a package inlet chain component 3 under the action of a synchronous belt and a guide rail, is conveyed forwards by a station chain, the power of the station chain is provided by a driving chain wheel component 4, is conveyed to the lower part of a package pressing power mechanism 5 by the station chain, a package pressing shaping mechanism 6 is driven by the package pressing power mechanism 5 to advance at the same speed as the package on the station chain, the package pressing shaping mechanism 6 shapes the package under the action of the guide rail of the package pressing power mechanism 5, the package enters a welding corner heating mechanism 7 after being shaped, four heating nozzles blow hot air to four corners of the package to melt a PE layer of the package, the package enters a welding corner forming mechanism 8 after passing through the welding corner heating mechanism 7 to be finally formed, the finally formed package is conveyed into a package outlet component 8 through the station chain component 3 and is further conveyed onto a chain channel component 10, the packages are transported out of the filling machine by the chain way assembly 10.

The package feeding mechanism 2 comprises a package feeding guide rail 21, a package pressing plate 22, a first synchronous belt 23, a pushing block 24, a side plate 25, a package falling guide rail 26, a second synchronous belt 27 and a third synchronous belt 28, wherein the package pressing plate 22 is arranged at one end of the package feeding guide rail 21, the first synchronous belt 23 is symmetrically arranged below the package pressing plate 22, the package falling guide rail 26 is arranged at two sides of the first synchronous belt 23, the side plate 25 is arranged at the outer side of the package falling guide rail 26, the second synchronous belt 27 is arranged in the middle of a rotating shaft at one end of the first synchronous belt 23, the pushing block 24 is arranged on the second synchronous belt 27, the third synchronous belt 28 is arranged at one end of the rotating shaft at the other end of the first synchronous belt 23, packages fall from the front forming and slide down onto the first synchronous belt 23 along the package feeding guide rail 1, the package pressing plate 21 prevents package overturning, the pushing block 24 packaged on the first synchronous belt 23 and the second synchronous belt 27 moves forward under the combined action, the side plate 25 limits the packages, the packages are trained over in-lane ramp stations formed by the drop rails 26 and side panels 25.

The driving sprocket assembly 4 comprises a driving sprocket 41, a first station chain 42, a first torque limiter 43 and a first servo motor 44, the first torque limiter 43 is installed at one end of the first servo motor 44, the driving sprocket 41 is installed at one end of the torque limiter 43, the first station chain 42 is installed on the driving sprocket 41, power of the package feeding device comes from a third synchronous belt 28, the third synchronous belt 28 is driven by the driving sprocket assembly, the first servo motor 44 rotates, the driving sprocket 41 is driven to rotate by the first torque limiter 43, the driving sprocket 41 drives the first station chain 42 to rotate, when the rotating torque of the driving sprocket 41 is greater than the set overload torque of the first torque limiter 43, the first torque limiter 43 is disengaged, and the device is stopped.

The bale pressing power mechanism 5 comprises a second servo motor 51, a second torque limiter 52, a first chain wheel 53, a bale pressing and shaping mechanism 6, a first guide rail 56, a second guide rail 57, a third guide rail 513, a first pressing block 514 and a fourth guide rail 515, wherein the second torque limiter 52 is installed at one end of the second servo motor 51, the first chain wheel 53 is installed at one end of the second torque limiter 52, the bale pressing and shaping mechanism 6 is installed at the outer side of the first chain wheel 53, the first guide rail 56 and the second guide rail 57 are respectively installed at two sides of the middle part of the first chain wheel 53, the third guide rail 513 is installed at one side of the first guide rail 56, and the fourth guide rail 515 is installed at the middle part of the first chain wheel 53. The second servo motor 51 drives the first chain wheel 53 to rotate through the second torque limiter 52, and further drives the bale pressing shaping mechanism 6 on the first chain wheel 53 to do circular motion, when the rotating torque of the first chain wheel 53 is larger than the set overload torque of the second torque limiter 52, the second torque limiter 52 is disengaged, and the equipment is stopped; when the package is conveyed to the lower part of the pressed package by the station chain 55, the pressed package shaping mechanism 6 and the package synchronously advance, the fourth roller 612 on the pressed package shaping mechanism 6 moves along the fourth guide rail 515, the first roller 68 moves along the third guide rail 513, the pressed package shaping mechanism 6 is integrally pressed downwards to open the first pressing block 514, after the sealed edge of the package is hooked, the first pressing block 514 is closed to enable the pressed package shaping mechanism 6 to ascend, the package is centered, and the package continues to advance.

The bale pressing and shaping mechanism 6 comprises a first roller 68, a second roller 69, a third roller 610, a pull lug 611, a fourth roller 612 and a second pressing block 614, the third roller 610 is installed at the top end of the pull lug 611, the second pressing block 614 is installed at one side of the pull lug 611, the first roller 68 is installed at two ends above the second pressing block 614, the second roller 69 is installed at one side of the first roller 68, the fourth roller 612 is installed above the middle of the second pressing block 614, the fourth roller 612 on the bale pressing and shaping mechanism 6 moves along the fourth guide rail 515, the second roller 69 and the third roller 610 move along the first guide rail 56 and the second guide rail 57, so that the bale pressing and shaping mechanism 6 is integrally pressed downwards to close the pull lug 611 to form an upper folding angle and a lower folding angle, the package shaping is completed, and the package shaping enters the welding angle heating mechanism 7.

The welding angle forming mechanism 8 comprises a coupler 81, a first synchronous belt wheel 82, a second synchronous belt wheel 83, a fourth synchronous belt 84, a second chain wheel 85, a third synchronous belt wheel 86, a fourth synchronous belt wheel 87, an upper welding angle forming mechanism 88, a fifth guide rail 811, a bottom welding angle mechanism 813, a top lower welding angle mechanism 814 and a top press wrapping mechanism 815, wherein the first synchronous belt wheel 82 is installed on one side of the coupler 81, the second synchronous belt wheel 83 is installed on one side of the first synchronous belt wheel 82, the fourth synchronous belt 84 is wound on the first synchronous belt wheel 82, the second chain wheel 85 is connected to the top end of the fourth synchronous belt 84, the third synchronous belt wheel 86 is connected to the second synchronous belt wheel 83 through a synchronous belt, the fourth synchronous belt wheel 87 is arranged on the inner side of the third synchronous belt wheel 86, the upper welding angle forming mechanism 88 is installed on the second chain wheel 85, the upper welding angle forming mechanism 88 comprises a fifth roller 810 and a welding angle press block 812, a fifth roller 810 is arranged above the middle part of the top end of the welding angle pressing block 812, a fifth guide rail 811 is arranged in the middle part of the second chain wheel 85, a bottom welding angle mechanism 813 is arranged at the bottom of the second chain wheel 85, a top lower welding angle mechanism 814 is arranged below one side of the bottom welding angle mechanism 813, a top press wrapping mechanism 815 is arranged at the top of one side of the top lower welding angle mechanism 814, the power of the welding angle forming mechanism 8 is transmitted to the first synchronous belt wheel 82 and the second synchronous belt wheel 83 through the driving chain wheel component 4 by the coupler 81, the first synchronous belt wheel 82 transmits the power to the second chain wheel 85 through the fourth synchronous belt 84 to drive the upper welding angle forming mechanism 88 to do circular motion, the second synchronous belt wheel 83 drives the third synchronous belt wheel 86 to further drive the fourth synchronous belt wheel 87 to move to provide power for the wrapping mechanism 2, the package passes through the welding angle heating mechanism 7 and enters the welding angle forming mechanism 8, the fifth roller 810 moves along the fifth guide rail 811 to press the corner welding pressing block 812 downward, the protrusions on the synchronous belts in the top downward corner welding mechanism 814 and the top bag pressing mechanism 815 drive the synchronous belts of the three mechanisms to run synchronously, four corners of the package are welded, the package is finally molded, and the molded package enters a bag discharging mechanism after being molded.

The working principle is as follows: when the utility model is used, a package falls from a clamping jaw system, slides into a package inlet mechanism 2 through a package inlet chute component 1, the package falls into a package inlet chain component 3 under the action of a synchronous belt and a guide rail, the package is conveyed forwards by a station chain, the power of the station chain is provided by a driving chain wheel component 4, the package is conveyed to the position below a package pressing power mechanism 5 by the station chain, the package pressing shaping mechanism 6 is driven by the package pressing power mechanism 5 to advance at the same speed as the package on the station chain, the package pressing shaping mechanism 6 shapes the package under the action of the guide rail of the package pressing power mechanism 5, the package enters a welding corner heating mechanism 7 after being shaped, four heating nozzles blow hot air to four folding corners of the package, a PE layer of the package is melted, the package enters the welding corner shaping mechanism 8 after passing through the welding corner heating mechanism 7 to carry out final shaping, the finally-shaped package is conveyed into the package outlet component 8 through the station chain component 3, and then onto the chain way assembly 10, and the packages are transported by the chain way assembly 10 out of the filling machine.

Has the advantages that: the utility model discloses novel structure, think about ingenious, machining efficiency is high, and the finished product is of high quality, is favorable to producing.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a molding system behind high speed of aseptic liquid filling machine, includes into package spout subassembly (1), advances a packet mechanism (2), station chain subassembly (3), drive sprocket subassembly (4), presses a packet power unit (5), presses a packet plastic mechanism (6), welds angle heating mechanism (7), welds angle forming mechanism (8), goes out a packet mechanism (9) and chain way (10), its characterized in that: advance one side of package spout subassembly (1) and install into package mechanism (2), one side of advancing package mechanism (2) is installed and is stood chain subassembly (3), the internally mounted of standing chain subassembly (3) one end has drive sprocket subassembly (4), the top of standing chain subassembly (3) is installed and is pressed package power unit (5), stand chain subassembly (3) are close to the both sides of one end and all install weld angle heating mechanism (7), the one end of standing chain subassembly (3) is provided with out package mechanism (9), it installs weld angle forming mechanism (8) to go out the top of package mechanism (9), it is connected with chain way (10) on package mechanism (9) to go out.

2. The high speed post-forming system for an aseptic filling machine as defined in claim 1, advance a packet of mechanism (2) including advancing a packet guide rail (21), press a packet board (22), first hold-in range (23), ejector pad (24), curb plate (25), fall a packet guide rail (26), second hold-in range (27) and third hold-in range (28), the one end of advancing a packet guide rail (21) is provided with presses a packet board (22), press the below symmetry of packet board (22) to install first hold-in range (23), the both sides of first hold-in range (23) are all installed and are fallen a packet guide rail (26), curb plate (25) are installed in the outside of falling a packet guide rail (26), the mid-mounting of first hold-in range (23) one end pivot has second hold-in range (27), install ejector pad (24) on second hold-in range (27), third hold-in range (28) are installed to the one end of the pivot of first hold-in range (23).

3. The high-speed post-forming system of an aseptic filling machine according to claim 1, wherein the drive sprocket assembly (4) comprises a drive sprocket (41), a first station chain (42), a first torque limiter (43), and a first servo motor (44), the first torque limiter (43) is mounted at one end of the first servo motor (44), the drive sprocket (41) is mounted at one end of the torque limiter (43), and the first station chain (42) is mounted on the drive sprocket (41).

4. The high speed post-forming system for an aseptic filling machine as defined in claim 1, press package power unit (5) including second servo motor (51), second torque limiter (52), first sprocket (53), press package plastic mechanism (6), first guide rail (56), second guide rail (57), third guide rail (513), first briquetting (514) and fourth guide rail (515), second torque limiter (52) are installed to the one end of second servo motor (51), first sprocket (53) are installed to the one end of second torque limiter (52), the outside of first sprocket (53) is installed and is pressed package plastic mechanism (6), first guide rail (56) and second guide rail (57) are installed respectively to the both sides at first sprocket (53) middle part, third guide rail (513) are installed to one side of first guide rail (56), first sprocket (53) mid-mounting has fourth guide rail (515).

5. The high-speed post-forming system of the sterile filling machine according to claim 4, wherein the bale shaping mechanism (6) comprises a first roller (68), a second roller (69), a third roller (610), a pull lug (611), a fourth roller (612) and a second pressing block (614), the third roller (610) is installed at the top end of the pull lug (611), the second pressing block (614) is installed at one side of the pull lug (611), the first roller (68) is installed at both ends above the second pressing block (614), the second roller (69) is installed at one side of the first roller (68), and the fourth roller (612) is installed above the middle part of the second pressing block (614).

6. The high-speed post-forming system of the sterile filling machine according to claim 1, wherein the weld corner forming mechanism (8) comprises a shaft coupling (81), a first synchronous pulley (82), a second synchronous pulley (83), a fourth synchronous belt (84), a second chain wheel (85), a third synchronous pulley (86), a fourth synchronous pulley (87), an upper weld corner forming mechanism (88), a fifth guide rail (811), a bottom weld corner mechanism (813), a top lower weld corner mechanism (814) and a top press wrapping mechanism (815), the first synchronous pulley (82) is installed on one side of the shaft coupling (81), the second synchronous pulley (83) is installed on one side of the first synchronous pulley (82), the fourth synchronous belt (84) is wound on the first synchronous pulley (82), the second chain wheel (85) is connected to the top end of the fourth synchronous belt (84), the third synchronous pulley (86) is connected to the second synchronous pulley (83) through a synchronous belt, the inboard of third synchronous pulley (86) is provided with fourth synchronous pulley (87), install on second sprocket (85) and weld angle forming mechanism (88), it includes fifth gyro wheel (810) and weld angle briquetting (812) to go up weld angle forming mechanism (88), fifth gyro wheel (810) are installed to the top at weld angle briquetting (812) top middle part, the mid-mounting of second sprocket (85) has fifth guide rail (811), bottom weld angle mechanism (813) is installed to the bottom of second sprocket (85), weld angle mechanism (814) under the top is installed to the below of bottom weld angle mechanism (813) one side, weld angle mechanism (814) are installed at the top under the top in the top and are pressed chartered plane structure (815) to the top of angle mechanism (814) one side.

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