CN212149450U - Multi-specification section bar feeding device of automatic bagging machine - Google Patents

Multi-specification section bar feeding device of automatic bagging machine Download PDF

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Publication number
CN212149450U
CN212149450U CN202020428866.3U CN202020428866U CN212149450U CN 212149450 U CN212149450 U CN 212149450U CN 202020428866 U CN202020428866 U CN 202020428866U CN 212149450 U CN212149450 U CN 212149450U
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China
Prior art keywords
feeding
frame
film
section
bagging machine
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Expired - Fee Related
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CN202020428866.3U
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Chinese (zh)
Inventor
林伟忠
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Improve Technology Jiaxing Ltd
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Improve Technology Jiaxing Ltd
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Priority to CN202020428866.3U priority Critical patent/CN212149450U/en
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Abstract

The utility model discloses an automatic many specifications of section bar feed arrangement of bagging machine, characterized by: the section bar multi-specification feeding device comprises a horizontal feeding mechanism and a vertical feeding mechanism; the horizontal feeding mechanism at least comprises two parallel conveying belts, and the distance between the two conveying belts can be adjusted; the vertical feeding mechanisms are at least provided with two groups and are positioned on the horizontal conveying line of the conveying belt, the arrangement direction of the multiple groups of vertical feeding mechanisms is perpendicular to the conveying direction of the horizontal feeding mechanisms, and the distance between every two adjacent groups of vertical feeding mechanisms can be adjusted. The utility model discloses in can sending into the frame with the section bar, each device in the frame of being convenient for is to the section bar of sending into and is overlapped the bag operation.

Description

Multi-specification section bar feeding device of automatic bagging machine
Technical Field
The utility model relates to a mechanical packaging field, more specifically relate to an automatic many specifications of section bar feed arrangement of bagging machine.
Background
The existing long material section bar is prevented from being scratched in the storage or transportation process, and the long material section bar is sleeved with a bag for protection. In the prior art, the bagging operation of the long section bar is to adopt a manual bagging mode to load the long section bar into a bag body after a product is off-line. The manual bagging mode has the advantages of low working efficiency, high labor cost, large labor intensity and easiness in safety accidents. There is room for improvement.
SUMMERY OF THE UTILITY MODEL
The utility model provides a not enough to prior art, the utility model provides an automatic many specifications of section bar feed arrangement of bagging machine can send the section bar into the frame in, and each device in the frame of being convenient for is to the section bar of sending into and is overlapped the bag operation.
In order to achieve the above purpose, the utility model provides a following technical scheme:
the utility model provides a many specifications of section bar feed arrangement of automatic bagging machine which characterized by: the section bar multi-specification feeding device comprises a horizontal feeding mechanism and a vertical feeding mechanism;
the horizontal feeding mechanism at least comprises two parallel conveying belts, and the distance between the two conveying belts can be adjusted;
the vertical feeding mechanisms are at least provided with two groups and are positioned on the horizontal conveying line of the conveying belt, the arrangement direction of the multiple groups of vertical feeding mechanisms is perpendicular to the conveying direction of the horizontal feeding mechanisms, and the distance between every two adjacent groups of vertical feeding mechanisms can be adjusted.
Preferably, the vertical feeding mechanism comprises a lifting cylinder assembly and a roller frame;
the lifting cylinder assembly can be matched on a frame of the automatic bagging machine in a sliding mode;
the roller carrier is arranged on the lifting cylinder component and is driven by the lifting cylinder component to move up and down, and the roller in the roller carrier is provided with an annular groove for placing the section bar.
Preferably, the lifting cylinder assembly comprises a lifting cylinder and a plate frame for mounting the lifting cylinder, and the plate frame is in sliding fit with the frame of the automatic bagging machine.
Preferably, the horizontal feeding mechanism is further provided with a lifting feeding frame.
Preferably, the lifting feeding frame comprises a supporting plate and a feeding lifting cylinder, and the supporting plate is mounted on a supporting frame of the horizontal feeding mechanism through the feeding lifting cylinder.
Preferably, the conveying belt passes through a frame of the automatic bagging machine and forms a feeding section, a transferring section and a discharging section relative to the frame;
the feeding section and the discharging section are respectively positioned on two sides of the automatic bagging machine frame, and the feeding section corresponds to the lifting feeding frame;
the material transferring section is positioned in the frame and corresponds to the vertical feeding mechanism.
The utility model has the advantages that:
1. the sectional materials can be fed into the automatic bagging machine, and each device on the automatic bagging machine can perform bagging operation on the fed sectional materials, so that the bagging efficiency is improved, and the labor cost is reduced;
2. can send the section bar of different specification length into automatic bagging machine, improve the utility model discloses the flexibility of pay-off.
Drawings
Fig. 1 is a schematic view of an automatic bagging machine provided in the embodiment;
fig. 2 is a side view of the frame of the automatic bagging machine provided in the embodiment;
fig. 3 is a top view of the automatic bagging machine mid-frame provided in the embodiment;
fig. 4 is a schematic structural diagram of a multi-specification profile feeding device in the automatic bagging machine provided in this embodiment;
fig. 5 is a schematic view of a film drawing device of the automatic bagging machine provided by the embodiment;
fig. 6 is a front view of a film drawing device of the automatic bagging machine provided in the embodiment;
fig. 7 is a schematic view of a section positioning device in the automatic bagging machine provided by the embodiment;
fig. 8 is a front view of a section positioning device in the automatic bagging machine provided by the embodiment;
fig. 9 is a schematic view of a film spreading device of the automatic bagging machine provided by the embodiment;
fig. 10 is another schematic view of the film stretching device of the automatic bagging machine provided by the embodiment;
fig. 11 is a schematic view of the film feeding end of the film spreading device of the automatic bagging machine provided by the embodiment.
Detailed Description
The multi-specification feeding device for the section bar of the automatic bagging machine of the present invention is further described with reference to fig. 1 to 11.
An automatic bagging machine is characterized in that: comprises a frame 1, a film feeding device 2, a film spreading device 8, a film pulling device 4, a section positioning device 5, a section multi-specification feeding device 3 and a film cutting device 9. The frame 1 is a cuboid structure and is formed by splicing a plurality of supporting beams; one end of the frame 1 is a film bag feeding end 11 for feeding the film bag into the frame 1; the left side and the right side of the frame 1 are respectively a section bar feeding side 12 and a section bar discharging side 13. The film feeding device 2 is positioned at the film bag feeding end 11 of the machine frame 1, and is used for providing film bags for each device on the machine frame 1 while the film bag roll 21 is stored so as to perform the bagging work of the sectional materials. The membrane opening device 8 is arranged on the membrane bag feeding end of the frame 1, receives the membrane bags provided by the membrane feeding device 2 and opens the membrane bags. The section positioning device 5 is slidably fitted on the support beam of the frame 1 along the length direction of the frame 1, and forms a section positioning station for clamping two ends of the section 72 with the film outlet end of the film spreading device 8. The section multi-specification feeding device 3 is connected with the section positioning station and can send the section 71 into and out of the section positioning station. The film drawing device 4 can be matched with the frame 1 in a sliding way along the extension direction of the section bar, and can draw the film bag at the film outlet end of the film expanding device 8 to the section bar positioning device 5. The film cutting device 9 is positioned at the film outlet end of the film expanding device 8 and can cut off the film at the film outlet end of the film expanding device 8.
When the film bag opening device works, the film bag is sent out from the film sending device 2, passes through the film opening device 8, and is opened by the film opening device 8 in a joint state; the section is provided to the section positioning station from the feeding side of the rack 1 through the section multi-specification feeding device 3, after the section is conveyed to the section positioning station, the section positioning device 5 slides relative to the rack 1, and meanwhile, the section is pressed against the end part of the section 72 and pushes the section 72 to move towards the membrane opening device 8, so that the other end of the section 72 is pressed against the membrane opening device 8, and the two ends of the section 72 are fixed by the section positioning device 5 and the membrane opening device 8. When the section 72 is fixed, the section 72 is connected with the membrane opening device 8, so that the mouth of the membrane bag is butted with the end part of the section; the film drawing device 4 moves to the film spreading device 8, the film bag at the film outlet end of the film spreading device 8 is drawn to the section bar positioning device 5, and in the drawing process, the bag body of the film bag is sleeved on the section bar, so that the section bar is sleeved with the bag; after the bagging is finished, the section positioning device 5 pulls the section back to the film spreading device 8 to move, so that the section is separated from the film spreading device 8; after the section bar is separated from the membrane opening device 8, the membrane cutting device works to cut off the membrane bag at the membrane outlet end of the membrane opening device 8; after the film bag is cut off, the section multi-specification feeding device 3 drives the section subjected to bagging to leave a section positioning station and conveys the section to the discharging side 13 of the rack 1 so as to enter the next procedure, and meanwhile, the invention enters the next bagging operation so as to work circularly.
In this embodiment, the membrane spreading device 8 is further configured to: the membrane distraction device 8 includes a membrane outer limit structure 81 and a membrane inner distraction structure 82. The membrane outer limit structure 81 is provided with a membrane channel, and a plurality of outer limit roll shafts 811 are arranged on a membrane inlet and a membrane outlet of the membrane channel; the membrane inner supporting structure 82 is arranged in the membrane channel, and a plurality of inner supporting roller shafts 821 are arranged on the membrane inlet end and the membrane outlet end of the membrane inner supporting structure 82; the plurality of outer limit roll shafts and the plurality of inner supporting roll shafts are in one-to-one correspondence to form a plurality of supporting channels for supporting the film bags. In the embodiment, the cross section of the film channel is of a square structure, so that four outer limit roll shafts 811 are arranged on the square film inlet and the square film outlet to form a quadrilateral limit structure; the film inner support structure 82 is also a quadrilateral structure, and the number of the inner support roll shafts 821 on the film inlet end and the film outlet end is four; therefore, the four outer limit roll shafts 811 on the film inlet correspond to the four inner supporting roll shafts 821 on the film inlet end one by one, and the four outer limit roll shafts 811 on the film outlet correspond to the four inner supporting roll shafts 821 on the film outlet end one by one, so that a supporting channel for the single edge of the film bag to pass through is formed. When the film bag 74 enters the film expanding device 8, the bag walls of the film bag are respectively limited in the four expanding channels, so that the expanding operation of the film bag is realized. In the structure, the opening channel is formed by the roll shaft, so that the film bag can move conveniently. It should be noted that, in the initial state, the bag opening of the film bag needs to be manually inserted into the film spreading device 8, and after the bag opening of the film bag enters the film spreading device 8, the film opening of the film bag located at the film outlet end of the film spreading device 8 can be pulled by the film pulling device 4 to automatically pass through the film spreading device 8 without manual operation.
The membrane expanding device 8 is further configured in such a way that the membrane outer limiting structure 81 comprises four plate bodies 812 and four connecting rods 813, and the four plate bodies 812 are spliced end to end through the connecting rods 813 to form a rectangular shell structure with a membrane channel. Namely, the plate body 812 and the connecting rod 813 are both provided with connecting holes, and the connecting holes are butted and then penetrated with bolts, so that the detachable assembly can be realized. The four outside-restricting roller shafts 811 are respectively provided between the four pairs of connecting rods 813. Under this structure, the dismouting of membrane outer limit structure 81 can be convenient for.
The membrane distraction device 8 is further configured to: the membrane internal support structure 82 comprises four connecting columns 822, the four connecting columns 822 are arranged in parallel and form a cuboid arrangement structure, and internal support roller shafts 821 are arranged between the connecting columns 822 and simultaneously support the connecting columns 822.
In order to further reduce the friction force generated when the film bag passes through the film spreading device 8, a roller 823 is further arranged between two adjacent connecting columns 822, so that each side wall of the film bag is attached to the roller 823 and passes through the film spreading device 8.
The membrane distraction device 8 is further configured such that the membrane distraction device 8 further comprises a support structure 83, and the support structure 83 has a shaping component 831 and a positioning component 832. The shaping component 831 is a shaping block, which is located in the membrane internal support structure 82, i.e., between the four connecting posts 822, and supports the four connecting posts 822. The positioning assembly 832 is a positioning groove body which is connected to the end of the positioning block through a bolt and is located outside the film supporting structure 82, so that the end of the bag covering section 72 is required to be butted and clamped to realize positioning. With the structure, the positioning block can ensure the stability of the internal bracing structure for bracing the membrane bag, and the positioning groove body can be matched with the section positioning device 5 to fix the section 72 on the section positioning station; on the other hand, the end of the section bar 72 is clamped into the positioning groove body, and with the structure, the film bag passing through the film expanding device can be smoothly sleeved on the section bar 72.
The membrane distraction device 8 is further configured to: the sizing assembly 831 further comprises a limiting block 833, the limiting block 833 is fixed on the positioning block through a bolt, the limiting block 833 abuts against the roller shaft 823, and the problem that the positioning block moves relative to the inner support structure when the positioning block clamps the section bar is avoided.
In this embodiment, the film drawing device 4 is further configured to: the film drawing device 4 comprises a film drawing sliding plate frame 41, a film drawing clamp 43 and a film drawing sliding driving assembly 42. The film drawing carriage frame 41 is slidably fitted to the frame 1 along the extension direction of the profile 72 in the fixed state. The film drawing clamp 43 is arranged on the film drawing sliding plate frame 41 and is provided with a film bag clamping opening 431, and the film drawing clamp 43 is a pneumatic finger. The film drawing sliding driving assembly 42 is arranged between the film drawing sliding plate frame 41 and the rack 1 and can drive the film drawing sliding plate frame 41 to move. During operation, draw membrane slide drive assembly 42 to drive and draw membrane slide plate frame 41 to move in frame 1, linkage simultaneously draws membrane anchor clamps 43 to move, draw membrane slide drive assembly 42 to drive the membrane bag that draws membrane anchor clamps 43 to press from both sides mouthful 431 and move to membrane bag sack 73 department that membrane struts the play membrane end of device 8 promptly, membrane bag presss from both sides mouthful 431 and presss from both sides membrane bag sack 73 tightly, again by drawing membrane slide drive assembly 42 to drive and draw membrane anchor clamps 43 and membrane bag sack to move towards section bar positioner 5, realize the cover bag function to the section bar.
The film drawing device 4 is further configured to: the film drawing sliding plate frame 41 comprises a film drawing sliding plate 411 and a film drawing cross beam 412. The film drawing sliding plate 411 is slidably fitted on the support beam of the frame 1 by the slider 44 on the lower surface thereof. The film drawing beam 412 is fixed on the film drawing sliding plate 411. The film drawing jig 43 has a plurality of pieces, and each piece is movably fitted on the film drawing beam 412. With the structure, the film drawing sliding plate 411 can drive the film drawing clamp 43 to synchronously move; meanwhile, the film drawing clamp 43 is movably arranged relative to the film drawing beam 412, so that the position of the film drawing clamp 43 on the film drawing beam 412 can be adjusted to adapt to clamping of film bags at different positions, and the flexibility of the overall use of the film drawing device 4 is improved.
The film drawing device 4 is further configured to: the film-pulling beam 412 is provided with a sliding rod 4121, the sliding rod 4121 is vertically arranged relative to the section bar 72, and the film-pulling clamp 43 is provided with a sliding hole matched with the sliding rod 4121. With this structure, the position of the film drawing jig 43 on the film drawing cross beam 412 can be adjusted.
The film drawing device 4 is further configured to: the film drawing slide driving assembly 42 includes a film drawing motor 421 and a rack 423. The film drawing motor 421 is installed on the film drawing sliding plate 411, and an output shaft of the film drawing motor 421 is connected with a gear 422. The rack 423 is disposed on the frame 1, extends along the length direction of the frame 1, and is engaged with the gear 422 of the film drawing motor 421. When the film drawing machine works, the film drawing motor 421 drives the gear 422 to rotate, and the gear 422 and the rack 423 are meshed and matched to drive the film drawing sliding plate 411 to reciprocate on the rack 1, so that the film drawing and bagging effects can be achieved.
In this embodiment, the profile positioning device 5 is further configured to: the profile positioning device 5 comprises a positioning slide frame 51, a positioning clamp 53 and a positioning slide drive assembly 52. The positioning carriage frame 51 is slidably fitted to the frame 1 in a direction toward or away from the membrane stretching device 8. The positioning clamp 53 is a pneumatic finger, is arranged on the positioning slide plate frame 51, and is provided with a section bar clamping opening 531 capable of clamping the end part of the section bar 72. The positioning slide driving assembly 52 is arranged between the positioning slide frame 51 and the machine frame 1, and can drive the positioning slide frame 51 to move. During operation, the profile clamping opening 531 of the positioning fixture 53 can clamp the profile 72 on the profile positioning station, and drive the profile to move toward or away from the positioning groove body, so as to clamp or release the profile 72 on the profile positioning station.
The profile positioning device 5 is further configured to: a positioning rod 532 is further arranged at the position of the positioning clamp 53 corresponding to the section bar clamping opening 531. When clamping the profile, the positioning rod can be pressed against the profile 72, so that the stability of clamping the profile 72 by the profile clamping opening 531 is improved.
The profile positioning device 5 is further configured to: the positioning slide plate frame 51 includes a positioning slide plate 511 and a support arm 512. The positioning slide 511 is slidably fitted on the support beam of the frame 1 by a slide block 54 on its lower surface. The supporting arm 512 is disposed on the positioning slide 511. The positioning jig 53 has a plurality and is mounted on the support arm 512. It should be noted that the number of the positioning clamps, the film pulling clamps 43 and the number of the film stretching devices 8 are equal to each other, and are four, so as to realize synchronous bagging operation of four sectional materials.
The profile positioning device 5 is further configured to: the positioning slide drive assembly 52 includes a positioning motor 521 and a rack 423. The positioning motor 521 is mounted on the positioning slide plate 511, and a gear 522 is connected to an output shaft of the positioning motor 521. The rack 423 is the rack 423 in the film drawing sliding driving assembly 42, and is engaged with the gear 522 on the positioning motor 521, that is, the film drawing sliding plate driving assembly and the positioning sliding driving assembly share the same rack 423. During operation, the positioning motor 521 drives the gear 522 to rotate, and under the action of the rack 423, the positioning sliding plate frame 51 is driven to integrally move, so that the section on the section positioning station is driven to move, and the section 72 is clamped or loosened.
In this embodiment, the multi-specification section bar feeding device 3 of the automatic bagging machine is further configured as follows: the multi-specification profile feeding device 3 comprises a horizontal feeding mechanism 31 and a vertical feeding mechanism 32. Horizontal feed mechanism includes two parallel arrangement's conveyer belt at least, and the conveyer belt is two in this embodiment, and every conveyer belt all has the support frame to its body support, and the bottom of support frame has the gyro wheel, under this structure, can adjust the distance between the conveyer belt to carry the section bar to different specification length. The conveying belt is perpendicular to the section positioning station and penetrates through the rack 1, the section is fed into the rack 1 in a state of being parallel to the rack 1, and the conveying belt is located below the section positioning station. The vertical feeding mechanisms 32 are provided with a plurality of groups and are arranged on the machine frame 1, are positioned on the line of the horizontal conveying of the section bars by the conveying belt, can convey the section bars between the horizontal feeding mechanisms 31 and the section bar positioning stations, and are arranged in the direction perpendicular to the conveying direction of the horizontal feeding mechanisms, so that the section bars can be lifted conveniently. When the section bar is fed, the section bar is firstly conveyed to the upper part of the vertical feeding mechanism 32 in the frame 1 by the conveying belt, then the section bar right above the section bar is upwards supported by the vertical feeding mechanism 32, so that the section bar enters a section bar positioning station, namely, two ends of the section bar respectively correspond to the positioning clamp 53 and the positioning groove body, and finally the section bar is clamped by the positioning clamp 53 and the positioning groove body. After the bagging is finished, the vertical feeding mechanism 32 supports the section bar which is finished by bagging and moves down to the conveying belt, and the section bar is output from the machine frame 1 to enter the next procedure. Vertical feeding mechanism 32's setting for the section bar breaks away from the conveyer belt when the cover bag process, is supported by vertical feeding mechanism 32 simultaneously, promotes the security and the stability of cover bag.
The section bar multi-specification feeding device 3 is further provided with: the vertical feeding mechanisms 32 include a lifting cylinder assembly 322 and a roller frame 321, and when the vertical feeding mechanisms 32 are used, a plurality of vertical feeding mechanisms 32 need to be configured to stably lift up the section bar, three vertical feeding mechanisms are used in this embodiment. The lifting cylinder assembly 322 is slidably fitted to the support beam of the frame 1 in the direction of extension of the profile 72. The roller frame 321 is installed on the lifting cylinder assembly 322, and the lifting cylinder assembly 322 drives the roller frame to move up and down relative to the section positioning station, and a roller 3211 in the roller frame 321 is provided with a ring groove for placing the section. Under the structure, the function of lifting the section upwards can be realized; the arrangement of the ring grooves on the roller 3211 plays a role in rolling and supporting the upwardly supported section bar; the lifting cylinder assembly 322 is slidably fitted on the machine frame 1, and can adjust the distance between the vertical feeding mechanisms 32 to realize the conveying of the sectional materials with different sizes.
Many specifications of section bar feed arrangement further sets up as: the lifting cylinder assembly 322 comprises a lifting cylinder 3221 and a plate support 3222 for mounting the lifting cylinder 3221, wherein the plate support 3222 is slidably fitted on the support beam of the machine frame 1 through a slide block 32221 on a lower surface of the plate support 3222. Thereby achieving a snug fit of the lift cylinder assembly 322 on the frame 1.
The section bar multi-specification feeding device 3 is further provided with: the horizontal feeding mechanism 31 is also provided with a lifting feeding frame 33. The lifting feeding frame 33 comprises a supporting plate 331 and a feeding lifting cylinder 332, and the supporting plate 331 is mounted on the supporting frame 311 of the horizontal feeding mechanism through the feeding lifting cylinder 332. When feeding, the feeding lifting cylinder 332 lifts the supporting plate 331 upwards, so that the supporting plate 331 is higher than the conveying belt; then, placing the upper section bar on the supporting plate 331; after the placement is completed, the feeding lifting cylinder 332 drives the supporting plate 331 to move downwards and move downwards to a plane lower than the conveying belt, so that the sectional material can fall in the trough 312 of the conveying belt to be horizontally conveyed, and the circular feeding is performed. Under this setting, because layer board 331 can not the horizontal transfer, consequently put the section bar to layer board 331 earlier, descend to the conveyer belt again on, can promote the security of material loading.
The section bar multi-specification feeding device 3 is further provided with: the conveyor belt comprises a feeding section 314, a material transfer section 313 and a discharge section 312. The loading section 314 and the discharging section 312 are respectively located at two sides of the frame 1 and correspond to the profile feeding side and the profile discharging side of the frame 1, and the loading section 314 corresponds to the lifting feeding frame 33. The material transferring section 313 is positioned in the machine frame 1, corresponds to the vertical feeding mechanism 32 and is positioned below the section positioning station. Under this structure, the feeding of section bar, cover bag and the ejection of compact of being convenient for.
In this embodiment, the film cutting device 9 is further configured to: the film cutting device 9 comprises a hot cutter 92 and a film cutting cylinder 91, wherein the hot cutter 92 is arranged on the frame 1 through the film cutting cylinder 91, and the film cutting cylinder 91 drives the film cutting cylinder to move up and down relative to the film bag. Under initial condition, the hot cutter is located the below of membrane bag, and after the cover bag was accomplished, the membrane cylinder of cutting drove the hot cutter and moves to the top of membrane bag, plays the cutting-off action to the membrane bag simultaneously, is convenient for next circulation.
In this embodiment, the film feeding device 2 is further configured to: the film feeding device 2 includes a support 24, a film roll and a discharge roller assembly 22. The film roll shaft is arranged on the bracket 24 and is used for erecting the film roll 21. The discharging roller assembly 22 is arranged on the support and pulls the film roll 21 to rotate out of the film.
The film feeding device 2 is further configured to: the discharge roller assembly 22 has two discharge rollers and a drive motor for driving one of the discharge rollers to rotate. A film outlet channel is formed between the two discharging rollers. In operation, the film bag roll 21 is driven to rotate by the discharging roller assembly 22, so that a certain amount of film bags are fed out from the film bag roll 21, and the film pulling device 4 is convenient to pull the fed film bags.
The film feeding device 2 is further configured to: the film feeding device 2 further comprises a storage tank 23. The storage tank 23 can be used for temporarily storing the sent film bags, so that the neatness of the sent film bags is ensured, and meanwhile, the protection effect is realized. .
Unless otherwise specified, in the present invention, if the terms "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential" and the like indicate an orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, rather than to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, therefore, the terms describing orientation or positional relationship in the present invention are used for illustrative purposes only, and should not be construed as limiting the present patent, specific meanings of the above terms can be understood by those of ordinary skill in the art in light of the specific circumstances in conjunction with the accompanying drawings.
Unless expressly stated or limited otherwise, the terms "disposed," "connected," and "connected" are used broadly and encompass both fixed and removable connections, or integral connections; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.
It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (6)

1. The utility model provides a many specifications of section bar feed arrangement of automatic bagging machine which characterized by: the section bar multi-specification feeding device comprises a horizontal feeding mechanism and a vertical feeding mechanism;
the horizontal feeding mechanism at least comprises two parallel conveying belts, and the distance between the two conveying belts can be adjusted;
the vertical feeding mechanisms are at least provided with two groups and are positioned on the horizontal conveying line of the conveying belt, the arrangement direction of the multiple groups of vertical feeding mechanisms is perpendicular to the conveying direction of the horizontal feeding mechanisms, and the distance between every two adjacent groups of vertical feeding mechanisms can be adjusted.
2. The multi-specification profile feeding device of the automatic bagging machine as claimed in claim 1, wherein: the vertical feeding mechanism comprises a lifting cylinder assembly and a roller frame;
the lifting cylinder assembly can be matched on a frame of the automatic bagging machine in a sliding mode;
the roller carrier is arranged on the lifting cylinder component and is driven by the lifting cylinder component to move up and down, and the roller in the roller carrier is provided with an annular groove for placing the section bar.
3. The multi-specification profile feeding device of the automatic bagging machine as claimed in claim 2, wherein: the lifting cylinder assembly comprises a lifting cylinder and a plate frame for mounting the lifting cylinder, and the plate frame is in sliding fit with the rack of the automatic bagging machine.
4. The multi-specification profile feeding device of the automatic bagging machine as claimed in claim 1, wherein: and the horizontal feeding mechanism is also provided with a lifting feeding frame.
5. The multi-specification profile feeding device of the automatic bagging machine as claimed in claim 4, wherein: the lifting feeding frame comprises a supporting plate and a feeding lifting cylinder, and the supporting plate is installed on a supporting frame of the horizontal feeding mechanism through the feeding lifting cylinder.
6. The multi-specification profile feeding device of the automatic bagging machine as claimed in claim 1, wherein: the conveying belt penetrates through a rack of the automatic bagging machine and forms a feeding section, a transferring section and a discharging section relative to the rack;
the feeding section and the discharging section are respectively positioned on two sides of the automatic bagging machine frame, and the feeding section corresponds to the lifting feeding frame;
the material transferring section is positioned in the frame and corresponds to the vertical feeding mechanism.
CN202020428866.3U 2020-03-28 2020-03-28 Multi-specification section bar feeding device of automatic bagging machine Expired - Fee Related CN212149450U (en)

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Application Number Priority Date Filing Date Title
CN202020428866.3U CN212149450U (en) 2020-03-28 2020-03-28 Multi-specification section bar feeding device of automatic bagging machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020428866.3U CN212149450U (en) 2020-03-28 2020-03-28 Multi-specification section bar feeding device of automatic bagging machine

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Publication Number Publication Date
CN212149450U true CN212149450U (en) 2020-12-15

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114772187A (en) * 2022-04-07 2022-07-22 南京鸿发有色金属制造股份有限公司 Feeding equipment of no C face section bar frame

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114772187A (en) * 2022-04-07 2022-07-22 南京鸿发有色金属制造股份有限公司 Feeding equipment of no C face section bar frame
CN114772187B (en) * 2022-04-07 2024-01-23 南京鸿发有色金属制造股份有限公司 Feeding equipment without C-face profile frame

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