Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of the double bagging manufacturing equipment embodiments of veneer type of the utility model.
Fig. 2 is the enlarged view in Fig. 1 at A.
Fig. 3 is the side view of Fig. 1.
Fig. 4 is the structural schematic diagram of upper colloid suction nozzle.
Fig. 5 is the structural schematic diagram of upper colloid suction nozzle.
Fig. 6 is the structural schematic diagram of trigger mechanism.
Fig. 7 is the structural schematic diagram of trigger mechanism.
Fig. 8 is the structural schematic diagram of bag receiving mechanism.
Fig. 9 is the structural schematic diagram for going up and down bag supply machine structure.
Label declaration: 1 rack, 2 bag taking mechanism A, vacuum chuck, 22 Power Component A, 23 lower vacuum chucks, 24 storages on 21
Bag case A, 3 bag taking mechanism B, colloid suction nozzle on 31,311 go out rubber base, 312 plastic emitting buckets, 313 solid rubber column gel columns, 314 pressing plates, 315 draw
Spring, 32 bag taking force piece B, 33 lower colloid suction nozzles, 34 storage bag case B, 4 bagging mechanisms, 41 front struts, 43 bagging driving assemblies, 5 are sent
Bag force piece, 51 fixed brackets, 52 linkage boards, 53 cylinders, 6 lifting bag supply machine structures, 61 are climbed plate, 62 jacking cylinders, 63 liftings
Guide rail, 64 falling stop rack gears, 65 falling stop ratchets, 7 bag receiving mechanisms, 71 pre- nip assemblies, 711 clamping plates, 712 gaps, 713 holding tanks,
72 pulling bag components, 721 sliding seats, 722 pulling bag force pieces, 723 clamping parts, 724 clamping force pieces, 73 closing bag casees, 8 triggering machines
Structure, 81 push seat, 82 triggering blocks, 83 flexible rack gears, 84 interlocking bar, 85 rotate gears, 86 oscillating rods, 87 touch part A, 88 to touch
Part B, 89 reset shelves item.
Specific embodiment
The content of the present invention is described in detail with embodiment with reference to the accompanying drawings of the specification:
It is as shown in Figure 1 to 9 a kind of embodiment schematic diagram of the double bagging manufacturing equipments of veneer type provided by the utility model.
A kind of double bagging manufacturing equipments of veneer type, it includes rack 1 and is arranged at intervals on taking in rack 1 from front to back
Bag mechanism A2, bag taking mechanism B3, bagging mechanism 4;
The bag taking mechanism A2 is used to grab outer bag and strutting external bag opening makes its opening towards bagging mechanism 4, described to take
Bag mechanism B3 is used to grab inner bag and strutting inner bag sack makes its opening towards bagging mechanism 4;Bag taking mechanism A2 and bag taking mechanism
Spacing between B3 is greater than interior bag length;
The bag taking mechanism B3 includes equipped with inner bag for bag assembly B, several for being sucked on the outside of interior sack along and remaining
The colloid suction nozzle and driving colloid suction nozzle that adsorb colloid complete the Power Component B of support bag movement;
The bagging mechanism 4 includes that inner bag makes interior sack and inner bag bottom is in the front strut 41 that front and back is extended for being inserted into
And driving front strut 41 moves forward to inner bag bottom and inner bag is driven to be moved to inside outer bag the bagging driving for making interior outer bag coincide
Component 43.
The colloid suction nozzle is arranged two altogether, respectively upper colloid suction nozzle 31 and lower colloid suction nozzle 33;
The upper colloid suction nozzle 31 is located at the upside for bag assembly B and lower colloid suction nozzle 33, is used to be sucked what inner bag was opened
Lateral edge on mouth;
The lower colloid suction nozzle 33 is located at for being used to be sucked lateral edge under the opening of inner bag on rear side of bag assembly B;
The Power Component B includes driving the bag taking force piece B32 of 31 vertical displacement of colloid suction nozzle and driving to glue
Body suction nozzle 31 is sending bag force piece 5 for what is be displaced between bag assembly B and lower colloid suction nozzle 33.
It is described that bag force piece 5 is sent to include the fixation bracket 51 being arranged between bag taking mechanism A2 and bag taking mechanism B3, it slides
The cylinder 53 that linkage board 52 and the driving linkage board 52 being arranged on fixed bracket 51 move forward and backward;The bag taking force piece
B32 is set on linkage board 52.
The bag taking mechanism A2 includes equipped with outer bag for bag assembly A, several vacuum for being used to be sucked edge on the outside of outer sack
Sucker and driving vacuum chuck complete the Power Component A22 of support bag movement.
The vacuum chuck is arranged two altogether, respectively upper vacuum chuck 21 and lower vacuum chuck 23;
The upper vacuum chuck 21 is located at the upside for bag assembly A and lower vacuum chuck 23, is used to be sucked opening for outer bag
Lateral edge on mouth;
The lower vacuum chuck 23 is located at for being used to be sucked lateral edge under the opening of outer bag on rear side of bag assembly A;
Vacuum chuck 21 carries out vertical displacement in the Power Component A22 drive, and Power Component A22 is set to linkage board 52
On.
In 52 front end of linkage board, bag taking force piece B32 is arranged in 52 rear end of linkage board for the Power Component A22 setting.
The front strut 41 is arranged two altogether, and two front struts 41 are between left and right every setting;
The bagging driving assembly 43 is equipped with the trigger mechanism 8 that two front struts 41 of control mutually open and close.
Including pushing, seat 81, two or so is spaced apart the trigger mechanism 8 and middle part is hinged on the triggering pushed on seat 81
Block 82, among two triggering block 82 and elastic flexible rack gear 83, two is connected to flexible 83 rear end of rack gear and touching
Send out 82 outboard end of block interlocking bar 84, with the intermeshing rotate gear 85 of flexible rack gear 83 and drive rotate gear 85 it is positive and negative
To the oscillating rod 86 of rotation;
The rear end of the front strut 41 is connected to the inner end of triggering block 82;
The stroke rear end of the bagging driving assembly 43 is equipped with the touch part A87 for allowing 86 outer end of oscillating rod to swing forward, touching
The touch part B88 for allowing 86 outer end of oscillating rod to swing backward is equipped on front side of moving part A87;
The inner end of oscillating rod 86 is equipped with the gear part cooperated with rotate gear 85.
The touch part A87 is fixed stop, and the touch part B88 is V-arrangement swinging block, and 86 rear side of oscillating rod is also set
Have and reset shelves item 89, the reset shelves item 89 only cooperates with V-arrangement swinging block, drives V during bagging driving assembly 43 moves back
Shape swings block reset.
Trigger mechanism 8 can also use cylinder.
The upper colloid suction nozzle 31 includes rubber base 311, several plastic emitting buckets 312 being vertically provided at out on rubber base 311, sliding
The dynamic solid rubber column gel column 313 in plastic emitting bucket 312 presses against the pressing plate 314 of 313 upper end of solid rubber column gel column and is connected to out rubber base
Tension spring 315 between 311 and pressing plate 314;Extend 311 bottom of rubber base out in the lower end of the solid rubber column gel column 313.
The structure of lower colloid suction nozzle 33 is consistent with the structure of upper colloid suction nozzle 31.
Described for bag assembly A includes storage bag case A24 and the outer bag being placed in towards rear side in storage bag case A24 that is open;Institute
Stating for bag assembly B includes storage bag case B34 and the inner bag being placed in storage bag case B34 towards rear side that is open;
Lifting bag supply machine structure 6 is arranged in the storage bag case A24 and storage bag case B34;
The lifting bag supply machine structure 6 includes the spaced plate 61 that climbs of two panels or more, is climbed between plate 61 set on two panels
And control jacking cylinder 62, the riser guide 63 that the plate 61 that climbs to two is oriented to and the vertically arranged falling stop tooth of its folding
Item 64;The falling stop ratchet 65 cooperated with falling stop rack gear 64, falling stop ratchet 65 and 61 phase of plate of climbing are equipped on the plate 61 that climbs
It is mutually hinged.
Bag receiving mechanism 7 is additionally provided on front side of the bag taking mechanism A2;
The bag receiving mechanism 7 includes the pre- nip assemblies 71 for being arranged bag body for Primary Location front strut 41 and thereon, right
The bag body clamped in advance clamped again and forward the pulling bag component 72 of side-pulling and be set to 72 running track of pulling bag component on the downside of
Closing bag case 73.
The clamping plate 711 of pre- nip assemblies 71 including the mutual clamping in two rear ends, there are hold bag between two clamping plates, 711 front end
The front end in the gap 712 of body extraction, the front strut 41 is inserted between two clamping plates 711;
The pulling bag component 72 includes sliding seat 721, and the pulling bag force piece 722, two slid before and after sliding seat 721 is driven to set
In the clamping force piece 724 that the clamping part 723 and driving clamping part 723 of 721 rear side of sliding seat open and close;
It is equipped on front side of the pre- nip assemblies 71 and the cooperation of clamping part 723 and upper and lower perforative holding tank 713.
The holding tank 713 is between two front struts 41.
The course of work of the utility model is as follows:
1. sending bag force piece 5 that upper colloid suction nozzle 31 is driven to be moved on the upside of storage bag case B34, in bag taking force piece B32 driving
Colloid suction nozzle 31, which protrudes into storage bag case B34, to be sucked inner bag open upper side edge and resets, and then send bag force piece 5 that upper colloid is driven to inhale
First 31 are moved to lower 33 upside of colloid suction nozzle, and colloid suction nozzle 31 moves down in bag taking force piece B32 driving, so that lower colloid suction nozzle 33
Lateral edge under inner bag is open is sucked, finally upper colloid suction nozzle 31 moves up, and inner bag sack struts;
Meanwhile upper vacuum chuck 21 is moved on the upside of storage bag case A24, vacuum chuck 21 protrudes into Power Component A22 driving
Outer bag open upper side edge is sucked in storage bag case A24 and resets, then send bag force piece 5 that upper vacuum chuck 21 is driven to be moved to lower true
On the upside of suction disk 23, vacuum chuck 21 is moved down in Power Component A22 driving, so that outer bag opening downside is sucked in lower vacuum chuck 23
Edge, finally upper vacuum chuck 21 moves up, and external bag opening struts;
Inner bag and outer bag are open towards bagging mechanism 4, and three is on same straight line.
2. bagging driving assembly 43 drives front strut 41 to be displaced to bag taking mechanism B3, front strut 41 is inserted by inner bag sack,
And it is inserted to inner bag bag bottom before continuing, it is extended the inner bag of hang in front and back.
3. bagging driving assembly 43 drives front strut 41 to continue to be displaced to bag taking mechanism A2, (front strut 41 is by inner bag by taking
Extracted out on bag mechanism B3, inner bag opening outer remains colloid), front strut 41 is inserted into inner bag by external bag opening, and is continued
Before be inserted to outer bag bag bottom, at this time in outer bag overlap, the remaining colloid of inner bag can will be glued at the sack of interior outer bag.
Two front struts 41 remain fit-state in the above process, guarantee that it can accurately be inserted into from the sack of interior outer bag.
4. bagging driving assembly 43 drives front strut 41 to continue to be displaced to bag receiving mechanism 7, the oscillating rod 86 on trigger mechanism 8
By touch part B88, oscillating rod 86 is swung backward, and rotate gear 85 rotates clockwise, and flexible rack gear 83 moves back, and is pushed in seat 81
Side is turned up, and front strut 41 is driven to open, and entire double baggings or so are strutted.
5. 41 front end of front strut is inserted by pre- 71 rear end of nip assemblies, and two clamping plates 711 are pried open, it is located at pre- nip assemblies
Double baggings in 71 are in flat-shaped.
6. clamping force piece 724 controls clamping part 723 and carries out clamping, the bag body between two front struts 41 is clamped, is drawn
Bag force piece 722 is extracted bag body out by gap 712, and after extracting certain distance out (bag body length), clamping force piece 724 is controlled
Clamping part 723 opens, and double baggings are automatically fallen into closing bag case 73.
7. bagging driving assembly 43 drives front strut 41 to move back, resets shelves item 89 and touch part B88 is driven to reset (process pendulum
Lever 86 does not contact touch part B88).Bagging driving assembly 43 continues to move back, and when oscillating rod 86 is by touch part A87, swings
Bar 86 is swung forward, and two front struts 41 are mutually closed (process resets shelves item 89 and do not contact touch part A87).