CN103708194B - A kind of Self stand bag feedway - Google Patents

Abstract

The present invention relates to a kind of Self stand bag feedway, comprise frame, feeding-in-bag mechanism, move back bag mechanism, the first rotating disk, the second rotating disk, the 3rd rotating disk, the 4th rotating disk, be provided with between adjacent two rotating disks for Self stand bag transfer rebound.Self stand bag hangs on each rotating disk and transmits, and is transferred to next rotating disk from previous rotating disk by rebound, realizes the conveying of Self stand bag on each rotating disk, and last Self stand bag exits by moving back bag mechanism.The rigidity of rotating disk is good more than chain, and the process units on each rotating disk is independent of each other, and has increased substantially the stability of producing; Device for filling can be arranged on separately on a rotating disk, the multiple device for filling of corresponding hanging bag organization establishes on this rotating disk, device for filling is with this dial rotation, filling is carried out to the multiple Self stand bags on this rotating disk simultaneously, increase substantially filling velocity, and complete machine speed of production depends on filling velocity, therefore, increase substantially speed of production, improve production efficiency.

Description

A kind of Self stand bag feedway

Technical field

The present invention relates to materials packing machine, particularly relate to a kind of Self stand bag feedway.

Background technology

Traditional filling sealer is generally semi-automatic filling sealer, and its version has chain-type and disk swinging, and step motion made by chain or disk, chain or disk static time, carry out the operations such as filling and sealing.

Above-mentioned chain-type filling sealer is using chain as conveying mechanism, though the easy process units arranging each procedure, but, because the rigidity of chain is inadequate, easily produces deformation when operating, therefore, there is very large fugitiveness; In addition, after chain runs a period of time, easily wear and tear, cause situations such as relaxing, its fugitiveness is aggravated further.

Disk swinging filling sealer is conveying mechanism with rotating disk, has the following two kinds keystone configuration:

The first, as " automatic filling sealing machine for self-stand bags " that Chinese patent 2526259Y announces, this filling sealer forms by sending bag mechanism and work top, the hanging bag balladeur train of bag mechanism and work top is sent to be that same level is docked and is connected, unidirectional the grabbing of the stockless cylinder slipper on bag mechanism is sent to send on work top by Self stand bag, work top is interior disk and outer shroud dish phase nested structure, interior disk is rotating disk, its outer evenly has card bag gap for one week, outer shroud dish is price fixing, is stuck in Self stand bag on inner circle rotating disk along with interior disk rotational.Inner circle rotating disk drives intermittent moment by electrical motor, and this filling sealer can realize automated job, improves operating efficiency, reduces labor intensity.But this filling sealer complicated structure, not easily realizes.

The second, the applicant proposes a Chinese invention patent application in July, 2005, and in October, 2006 patented power, application number is: 200520061070.4, denomination of invention is: " container conveyance apparatus of filling sealer ", disclose a kind of container conveyance apparatus of filling sealer, comprise support, the rotating disk mechanism of the container feeding mechanism on support and transmission container, the rotating disk of above-mentioned rotating disk mechanism is positioned at the front end of the vessel head transmission guide rail of container feeding mechanism, and dock in same level with this guide rail and be connected, it is characterized in that: the neighboring of above-mentioned rotating disk is evenly provided with container clamping mechanism, the below of rotating disk is provided with a fixed dam, this fixed dam connects with the gear wheel of the container clamping mechanism through guide rail front end.Wherein, container clamping mechanism generally comprises hanging bag plate, and hanging bag plate is provided with clamp port.The production automation degree of the container conveyance apparatus of this filling sealer is high, can realize continous way or carry the containers such as Self stand bag off and on, alleviate the labour intensity of operator, increase work efficiency, and structure being simple, being easy to realize.

Although above-mentioned two kinds of disk swinging filling sealers also exist some advantage in materials packing machine industry, be all adopt single rotating disk to realize into bag, mark, filling, upper cover, spiral cover, move back the multiple working procedures such as bag, therefore all still there is following defect:

(1) other multiple device (as feeding-in-bag mechanism, marking device, capping device, cap rotating device, moving back bag mechanism) produces larger vibration, device for filling is impacted, device for filling is difficult to the tube head aiming at Self stand bag, often causes leakage phenomenon, runs very unstable.

(2) other multiple device action on a rotating disk simultaneously, produces resonance, causes the vibration of rotating disk to aggravate, run more unstable.

(3) other multiple device takies rotating disk major part area, and the area that rotating disk can be used in filling is less, and cannot arrange more device for filling and carry out filling simultaneously, therefore, filling velocity is slower.And the speed of production of complete machine depends on used time more filling procedure, thus cause the speed of production of complete machine comparatively slow, production efficiency is lower.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of Self stand bag feedway, and this Self stand bag feedway can increase substantially the stability of filling production process, and enhances productivity.The technical scheme adopted is as follows:

A kind of Self stand bag feedway, comprise frame, feeding-in-bag mechanism and move back bag mechanism, it is characterized in that: also comprise the first rotating disk be arranged in described frame, the second rotating disk, the 3rd rotating disk, the 4th rotating disk, First Transition plate, the second rebound and the 3rd rebound, each rotating disk described includes disk body and is set in qually spaced in the multiple hanging bag mechanisms in disk body circumference; Described frame be disposed with into a bag station, the first transfer station, the second transfer station, the 3rd transfer station and move back a bag station; Described feeding-in-bag mechanism to be arranged in frame and to be in on bag station; The described bag mechanism that moves back to be arranged in frame and to be in and moves back on bag station; First rotating disk is in between bag station and the first transfer station; Second rotating disk is between the first transfer station and the second transfer station, and the tangent setting on the first transfer station of the second rotating disk and the first rotating disk; 3rd rotating disk is between the second transfer station and the 3rd transfer station, and the tangent setting on the second transfer station of the 3rd rotating disk and the second rotating disk; 4th rotating disk is in the 3rd transfer station and moves back between bag station, and the 4th rotating disk and the tangent setting on the 3rd transfer station of the 3rd rotating disk; First Transition plate is arranged on the first transfer station, and the second rebound is arranged on the second transfer station, and the 3rd rebound is arranged on the 3rd transfer station, and First Transition plate, the second rebound and the 3rd rebound are all in the top of each rotating disk.

When each rotating disk (the first rotating disk, the second rotating disk, the 3rd rotating disk, the 4th rotating disk) rotates, Self stand bag sends into the first rotating disk by feeding-in-bag mechanism, the hanging bag mechanism that Self stand bag hangs on each rotating disk transmits, at transfer station (the first transfer station, the second transfer station, the 3rd transfer station) place, Self stand bag is transferred in the hanging bag mechanism of next rotating disk by rebound from the hanging bag mechanism of previous rotating disk, realize the conveying of Self stand bag on each rotating disk, last Self stand bag exits by moving back bag mechanism.Due to Self stand bag feedway is divided into four independently rotating disks, realized the switching of Self stand bag by rebound between adjacent two rotating disks, therefore, each rotating disk can arrange the relevant apparatus of each operation needed for filling, feeding-in-bag mechanism and marking device (for stamping the date manufactured etc.) are such as set on the first rotating disk, second rotating disk arranges device for filling, 3rd rotating disk arranges capping device, 4th rotating disk arrange cap rotating device and moves back bag mechanism, realizing the fully-automatic production of Self stand bag mark, filling, upper cover, spiral cover.Owing to adopting rotating disk to carry, the good stability that the stability of production is carried more than chain, due to Self stand bag feedway is divided into four independently rotating disks, four rotating disks are independent of each other, therefore the process units being divided into each procedure on four rotating disks is also independent of each other, other process units (feeding-in-bag mechanism, marking device, capping device, cap rotating device, move back bag mechanism) vibration that produces can not have influence on device for filling, therefore, increase substantially the stability of production (filling), avoid other each process units action simultaneously in addition and cause rotating disk to produce resonance effect, the vibration problem of thorough solution rotating disk, further increase the stability of production (filling), because device for filling is arranged on separately on a rotating disk, such as, on the second rotating disk, most of area of the second rotating disk can be used for filling, the multiple device for filling of corresponding hanging bag organization establishes on the second rotating disk, device for filling is with the second dial rotation, filling is carried out to the multiple Self stand bags on the second rotating disk simultaneously, in unit time, the Self stand bag quantity of filling is more, and the used time of average single Self stand bag filling is fewer, and filling velocity is faster, and complete machine speed of production depends on filling velocity, therefore, increased substantially speed of production, improve production efficiency.

As preferred version of the present invention, described hanging bag mechanism comprises hanging bag plate, and hanging bag plate is provided with clamp port.By being the hanging bag plate with clamp port by hanging bag organization establishes, simple for structure, and Self stand bag is transferred to next rotating disk from previous rotating disk by First Transition plate, the second rebound, the 3rd rebound.

As the further preferred version of the present invention, described First Transition plate, the second rebound, the 3rd rebound include A plate and B plate, A plate and B plate are in same level, be provided with transition passage between A plate and B plate, this transition passage extends to the clamp port on a rear rotating disk from the clamp port previous rotating disk.When the Self stand bag on previous rotating disk arrives the front end of the upper transition passage of rebound (First Transition plate, the second rebound, the 3rd rebound), the tube head of Self stand bag enters into transition passage and on the A plate hanging over rebound and B plate, along with the further rotation of previous rotating disk, the tube head of Self stand bag is released from the clamp port of previous rotating disk by A plate near previous rotating disk gradually, and making the tube head of Self stand bag progress in the clamp port of a rear rotating disk along transition passage, the tube head of Self stand bag is pushed in the clamp port of a rear rotating disk by last A plate completely.Such rebound is structurally quite simple, and meanwhile, the transition of Self stand bag tube head is also quite smooth and easy.

As further preferred embodiments of the present invention, described transition passage is S type.By transition passage being set to the S type with radian, coordinating the rotation of each rotating disk, making the tube head transition of Self stand bag more smooth and easy, anti-jamming.

As further preferred embodiments of the present invention, along transport path, the first arc-shaped limit plate is provided with outside described first rotating disk, the second arc-shaped limit plate is provided with outside described second rotating disk, be provided with the 3rd arc-shaped limit plate outside described 3rd rotating disk, outside described 4th rotating disk, be provided with the 4th arc-shaped limit plate.By arranging arc-shaped limit plate respectively outside each rotating disk, prevent Self stand bag from outwards skidding off clamp port, and play the effect that Self stand bag is positioned.

As the further preferred version of the present invention, along transport path, between described first transfer station and the second transfer station, the angle of the circular arc corresponding to described second rotating disk is greater than 180 °.That is to say, the second rotating disk is at least over half for filling, installs more device for filling, enhances productivity further.

As further preferred embodiments of the present invention, along transport path, described in enter between bag station and the first transfer station, the angle of the circular arc corresponding to described first rotating disk is greater than 180 °; Between described second transfer station and the 3rd transfer station, the angle of the circular arc corresponding to described 3rd rotating disk is greater than 180 °; Described 3rd transfer station and move back between bag station, the angle of the circular arc corresponding to described 4th rotating disk is greater than 180 °.That is to say, on the basis of improving filling velocity, the first rotating disk also can arrange multiple feeding-in-bag mechanism, multiple marking mechanism, 3rd rotating disk arranges multiple cap sheathing mechanism, 4th rotating disk arranges multiple cap rotating mechanism, and entirety raises speed, and enhances productivity further.

Accompanying drawing explanation

Fig. 1 is the birds-eye view of the preferred embodiment for the present invention;

Fig. 2 is the partial enlarged drawing of Figure 1A part;

Fig. 3 is the lateral plan of the preferred embodiment for the present invention.

Detailed description of the invention

Be described further below in conjunction with accompanying drawing and the preferred embodiment of the present invention.

As shown in Figure 1, Figure 2 and Figure 3, this Self stand bag feedway, comprise frame 1, feeding-in-bag mechanism 2, move back bag mechanism 3, and the first rotating disk 4, second rotating disk 5, the 3rd rotating disk 6, the 4th rotating disk 7, First Transition plate 8, second rebound 9 and the 3rd rebound 10 that are arranged in frame 1, each rotating disk (the first rotating disk 4, second rotating disk 5, the 3rd rotating disk 6, the 4th rotating disk 7) includes disk body 401 and is set in qually spaced in the multiple hanging bag mechanisms 402 in disk body circumference, hanging bag mechanism 402 comprises hanging bag plate 4021, and hanging bag plate 4021 is provided with clamp port 4022; Frame 1 be disposed with into transfer station 13, bag station 11, first transfer station 12, second, the 3rd transfer station 14 and move back bag station 15; Feeding-in-bag mechanism 2 to be arranged in frame 1 and to be in on bag station 11; Move back bag mechanism 3 to be arranged in frame 1 and to be in and move back on bag station 15; First rotating disk 4 is in between bag station 11 and the first transfer station 12; Second rotating disk 5 is between the first transfer station 12 and the second transfer station 13, and the second rotating disk 5 and the tangent setting on the first transfer station 12 of the first rotating disk 4; 3rd rotating disk 6 is between the second transfer station 13 and the 3rd transfer station 14, and the 3rd rotating disk 6 and the tangent setting on the second transfer station 13 of the second rotating disk 5; 4th rotating disk 7 is in the 3rd transfer station 14 and moves back between bag station 15, and the 4th rotating disk 7 and the tangent setting on the 3rd transfer station 14 of the 3rd rotating disk 6; First Transition plate 8 is arranged on the first transfer station 12, second rebound 9 is arranged on the second transfer station 13,3rd rebound 10 is arranged on the 3rd transfer station 14, and First Transition plate 8, second rebound 9 and the 3rd rebound 10 are all in the top of each rotating disk; First Transition plate 8, second rebound 9, the 3rd rebound 10 include A plate 801 and B plate 802, A plate 801 and B plate 802 are in same level, be provided with S type transition passage 803 between A plate 801 and B plate 802, this S type transition passage 803 extends to the clamp port 4022 on a rear rotating disk from the clamp port 4022 previous rotating disk.

Along transport path, be provided with outside the first rotating disk 4 to be provided with outside first arc-shaped limit plate 16, second rotating disk 5 to be provided with outside the 3rd arc-shaped limit plate the 18, four rotating disk 7 outside second arc-shaped limit plate the 17, three rotating disk 6 and be provided with the 4th arc-shaped limit plate 19.

Along transport path, between the first transfer station 12 and the second transfer station 13, the angle of the circular arc corresponding to the second rotating disk 5 is 270 °; Enter between bag station 11 and the first transfer station 12, the angle of the circular arc corresponding to the first rotating disk 4 is 270 °; Between second transfer station 13 and the 3rd transfer station 14, the angle of the circular arc corresponding to the 3rd rotating disk 6 is 270 °; 3rd transfer station 14 and move back between bag station 15, the angle of the circular arc corresponding to the 4th rotating disk 7 is 270 °.

As shown in Figure 3, each rotating disk realizes synchronous axial system by electrical motor 20 and driving device 21.

Each rotating disk (the first rotating disk 4, second rotating disk 5, 3rd rotating disk 6, 4th rotating disk 7) rotate time, Self stand bag sends into the first rotating disk 4 by feeding-in-bag mechanism 2, Self stand bag hangs over each rotating disk (the first rotating disk 4, second rotating disk 5, 3rd rotating disk 6, 4th rotating disk 7) on hanging bag mechanism 402 transmit, in (the first transfer station 12, transfer station, second transfer station 13, 3rd transfer station 14) place, when the Self stand bag on previous rotating disk arrives rebound (First Transition plate 8, second rebound 9, 3rd rebound 10) front end of upper S type transition passage 803 time, the tube head of Self stand bag enters into S type transition passage 803 and on the A plate 801 hanging over rebound and B plate 802, along with the further rotation of previous rotating disk, the tube head of Self stand bag is released from the clamp port 4022 of previous rotating disk by A plate 801 near previous rotating disk gradually, and make the tube head of Self stand bag progress in the clamp port 4022 of a rear rotating disk along S type transition passage 803, the tube head of Self stand bag is pushed in the clamp port 4022 of a rear rotating disk by last A plate 801 completely, realize the conveying of Self stand bag on each rotating disk, last Self stand bag exits by moving back bag mechanism 3, each rotating disk can arrange the relevant apparatus of each operation needed for filling, feeding-in-bag mechanism 2 and marking device (for stamping the date manufactured etc.) are such as set on the first rotating disk 4, second rotating disk 5 arranges device for filling, 3rd rotating disk 6 arranges capping device, 4th rotating disk 7 arranges cap rotating device and moves back bag mechanism 3, realize Self stand bag mark, filling, upper cover, the fully-automatic production of spiral cover.Owing to adopting rotating disk to carry, the good stability that the stability of production is carried more than chain, due to Self stand bag feedway is divided into four independently rotating disks, four rotating disks are independent of each other, therefore the process units being divided into each procedure on four rotating disks is also independent of each other, other process units (feeding-in-bag mechanism, marking device, capping device, cap rotating device, move back bag mechanism) vibration that produces can not have influence on device for filling, therefore, increase substantially the stability of production (filling), avoid other each process units action simultaneously in addition and cause rotating disk to produce resonance effect, the vibration problem of thorough solution rotating disk, further increase the stability of production (filling), because device for filling is arranged on separately on a rotating disk, such as, on the second rotating disk 5, most of area (3/4ths of the second rotating disk 5) of the second rotating disk 5 can be used for filling, on the second rotating disk 5, corresponding hanging bag mechanism 402 arranges multiple device for filling, device for filling rotates with the second rotating disk 5, filling is carried out to the multiple Self stand bags on the second rotating disk 5 simultaneously, in unit time, the Self stand bag quantity of filling is more, the used time of average single Self stand bag filling is fewer, filling velocity is faster, and complete machine speed of production depends on filling velocity, therefore, increase substantially speed of production, improve production efficiency.

In addition; it should be noted that, the specific embodiment described in this specification sheets, its each several part title etc. can be different; all equivalences of doing according to structure, feature and the principle described in inventional idea of the present invention or simple change, be included in the protection domain of patent of the present invention.Those skilled in the art can make various amendment or supplement or adopt similar mode to substitute to described specific embodiment; only otherwise depart from structure of the present invention or surmount this scope as defined in the claims, protection scope of the present invention all should be belonged to.

Claims (7)

1. a Self stand bag feedway, comprise frame, feeding-in-bag mechanism and move back bag mechanism, it is characterized in that: also comprise the first rotating disk be arranged in described frame, the second rotating disk, the 3rd rotating disk, the 4th rotating disk, First Transition plate, the second rebound and the 3rd rebound, each rotating disk described includes disk body and is set in qually spaced in the multiple hanging bag mechanisms in disk body circumference; Described frame be disposed with into a bag station, the first transfer station, the second transfer station, the 3rd transfer station and move back a bag station; Described feeding-in-bag mechanism to be arranged in frame and to be in on bag station; The described bag mechanism that moves back to be arranged in frame and to be in and moves back on bag station; First rotating disk is in between bag station and the first transfer station; Second rotating disk is between the first transfer station and the second transfer station, and the tangent setting on the first transfer station of the second rotating disk and the first rotating disk; 3rd rotating disk is between the second transfer station and the 3rd transfer station, and the tangent setting on the second transfer station of the 3rd rotating disk and the second rotating disk; 4th rotating disk is in the 3rd transfer station and moves back between bag station, and the 4th rotating disk and the tangent setting on the 3rd transfer station of the 3rd rotating disk; First Transition plate is arranged on the first transfer station, and the second rebound is arranged on the second transfer station, and the 3rd rebound is arranged on the 3rd transfer station, and First Transition plate, the second rebound and the 3rd rebound are all in the top of each rotating disk.

2. Self stand bag feedway as claimed in claim 1, is characterized in that: described hanging bag mechanism comprises hanging bag plate, and hanging bag plate is provided with clamp port.

3. Self stand bag feedway as claimed in claim 2, it is characterized in that: described First Transition plate, the second rebound, the 3rd rebound include A plate and B plate, A plate and B plate are in same level, be provided with transition passage between A plate and B plate, this transition passage extends to the clamp port on a rear rotating disk from the clamp port previous rotating disk.

4. Self stand bag feedway as claimed in claim 3, is characterized in that: described transition passage is S type.

5. Self stand bag feedway as claimed in claim 1 or 2, it is characterized in that: along transport path, the first arc-shaped limit plate is provided with outside described first rotating disk, the second arc-shaped limit plate is provided with outside described second rotating disk, be provided with the 3rd arc-shaped limit plate outside described 3rd rotating disk, outside described 4th rotating disk, be provided with the 4th arc-shaped limit plate.

6. Self stand bag feedway as claimed in claim 1 or 2, it is characterized in that: along transport path, between described first transfer station and the second transfer station, the angle of the circular arc corresponding to described second rotating disk is greater than 180 °.

7. Self stand bag feedway as claimed in claim 6, is characterized in that: along transport path, described in enter between bag station and the first transfer station, the angle of the circular arc corresponding to described first rotating disk is greater than 180 °; Between described second transfer station and the 3rd transfer station, the angle of the circular arc corresponding to described 3rd rotating disk is greater than 180 °; Described 3rd transfer station and move back between bag station, the angle of the circular arc corresponding to described 4th rotating disk is greater than 180 °.