CN208679379U - A kind of efficient bag-breaking machine - Google Patents
A kind of efficient bag-breaking machine Download PDFInfo
- Publication number
- CN208679379U CN208679379U CN201820666365.1U CN201820666365U CN208679379U CN 208679379 U CN208679379 U CN 208679379U CN 201820666365 U CN201820666365 U CN 201820666365U CN 208679379 U CN208679379 U CN 208679379U
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- Prior art keywords
- bag
- broken bag
- sieve
- broken
- chamber
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Abstract
The utility model discloses a kind of efficient bag-breaking machines, including body, broken bag mechanism, broken bag chamber, sieve, main hopper and separate hopper are equipped in body, one end of broken bag chamber is formed as feed end, the other end of broken bag chamber is formed as discharging chamber, and broken bag mechanism is set to feed end and is used for broken bag, and main hopper is set to the lower section of broken bag chamber and is connected to broken bag chamber, sieve is set to the bottom end of broken bag chamber and is located at the top of main hopper, and sieve can move back and forth between feed end and discharge end;Separate hopper linking is connected in discharge end and with broken bag chamber.The efficient bag-breaking machine of the utility model, the broken bag mechanism being equipped with can be crushed to the intracavitary bag of broken bag is entered, and broken particulate matter is fallen on sieve, and in the reciprocatory movement of sieve, small particle can be directly entered main hopper by the sieve pore of sieve;And completely broken larger particles do not pass through sieve then toward separate hopper output, are further processed.
Description
Technical field
The utility model relates to a kind of bag-breaking equipment technical field more particularly to a kind of high capacity crushers.
Background technique
Currently, need different packaging bags to be packaged product as people are higher and higher to product appearance requirement, and
Most packaging bag is all directly to abandon after use, will cause the pollution of environment using polybag.And broken bag
Machine is then, convenient for discharge, to reduce the pollution to environment for shredding refuse polybag.But existing bag-breaking machine, it is easy to appear
Crushing operation is not fine, and broken polybag still remains larger volume.
Utility model content
For overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of high capacity crushers, broken
Sieve can be entered after bag and carry out screening process, small particle can be directly entered main hopper by sieve;And it is completely broken compared with
Bulky grain then passes through sieve and exports toward separate hopper, is further processed.
The purpose of this utility model adopts the following technical scheme that realization:
A kind of efficient bag-breaking machine, including body, body is interior to be equipped with broken bag mechanism, broken bag chamber, sieve, main hopper and sub-material
Bucket, one end of broken bag chamber are formed as feed end, and the other end of broken bag chamber is formed as discharging chamber, the broken bag mechanism be set to it is described into
Expect end and be used for broken bag, the main hopper is set to the lower section of broken bag chamber and is connected to broken bag chamber, and the sieve is set to broken bag chamber
Bottom end and the top for being located at main hopper, sieve can move back and forth between feed end and discharge end;The separate hopper linking is in out
Material end is simultaneously connected to broken bag chamber.
Further, the broken bag mechanism includes operator roller and multiple auxiliary rotors, and operator roller and auxiliary rotor are equal
It is intracavitary to be articulated in broken bag;Multiple auxiliary rotors and roller of operating close to feed end to the direction far from feed end by successively arranging;
The end face of multiple auxiliary rotors is formed as conveyor surface, is spaced between the auxiliary rotor and operator roller of operator roller and mutually stings
It closes;And crushing gap is formed between auxiliary rotor and operator roller.
Further, the broken bag mechanism further includes multiple scraper knives, and the multiple scraper knife is set to that broken bag is intracavitary and position
In side of the operator roller far from auxiliary rotor;The axial arranging of multiple scraper knives edge operator rollers simultaneously is used to rub with the surface of operator roller
Wipe cooperation.
Further, the operator roller is equipped with the multiple first cyclic annular serrated knives, and the multiple first cyclic annular serrated knives are along operator roller
Axially spaced-apart arrangement;The auxiliary rotor is equipped with the multiple second cyclic annular serrated knives, and the multiple second cyclic annular serrated knives are along auxiliary rotor
Axial arranging;The multiple first cyclic annular serrated knives on operator roller are used to engage with the multiple second cyclic annular serrated knives on auxiliary rotor.
Further, thickness of the thickness of the first cyclic annular serrated knife less than the second cyclic annular serrated knife.
Further, which further includes sieve driving mechanism, sieve driving mechanism for drive sieve into
It is moved back and forth between material end and discharge end.
Further, the sieve driving mechanism is crank link mechanism, the sieve and the crank link mechanism
The synchronous connection of connecting rod.
Further, which further includes two guiding mechanisms for being divided into broken bag chamber two sides, which uses
It is moved back and forth between feed end and discharge end in the guidance sieve.
Further, the outer peripheral edge of sieve is equipped with dust board, and dust board extends between the guiding mechanism and broken bag chamber.
Further, which further includes feed hopper and elevating mechanism, and feed hopper is set to the top of broken bag chamber
And it is connected to the feed end of broken bag chamber, the elevating mechanism is for delivery bag to feed hopper.
Compared with prior art, the utility model has the beneficial effects that: its broken bag mechanism being equipped with can be to entrance broken bag chamber
Interior bag is crushed, and broken particulate matter is fallen on sieve, and in the reciprocatory movement of sieve, small particle can lead to
The sieve pore for crossing sieve is directly entered main hopper;And completely broken larger particles do not pass through sieve then toward separate hopper output, carry out
It is further processed.
Detailed description of the invention
Fig. 1 is the overall structure diagram of the utility model;
Fig. 2 is the schematic diagram of internal structure of the utility model;
Fig. 3 is the partial structural diagram of the utility model.
In figure: 10, body;20, broken bag mechanism;21, operator roller;22, rotor is assisted;23, scraper knife;30, separate hopper;
40, feed hopper;50, elevating mechanism;60, sieve;61, dust board;70, crank link mechanism;71, the company of crank link mechanism
Bar;80, main hopper;81, guiding mechanism.
Specific embodiment
In the following, being described further in conjunction with attached drawing and specific embodiment to the utility model, it should be noted that
Under the premise of not colliding, it can be formed in any combination between various embodiments described below or between each technical characteristic new
Embodiment.
A kind of efficient bag-breaking machine as shown in Figure 1, Figure 2 and shown in Fig. 3, including body 10 are equipped with bag-breaking machine in body 10
Structure 20, broken bag chamber, sieve 60, main hopper 80 and separate hopper 30, one end of specific broken bag chamber are formed as feed end, broken bag chamber
The other end is formed as discharging chamber, and above-mentioned broken bag mechanism 20 is set to feed end and is used for broken bag.In addition, main hopper 80 is set to broken bag chamber
Lower section and be connected to broken bag chamber, while sieve 60 is set to the bottom end of broken bag chamber and is located at the top of main hopper 80, and sieve 60
It can be moved back and forth between feed end and discharge end.Above-mentioned separate hopper 30 is connected in discharge end and is connected to broken bag chamber.
It, can by taking shredding refuse polybag as an example when on the basis of the said structure, using the efficient bag-breaking machine of the utility model
Kitchen-can bag pours by the feed end of broken bag chamber to broken bag is intracavitary, and kitchen-can bag can fall into broken bag mechanism 20, in bag-breaking machine
Different size particle is fractured under the action of structure 20, and broken particulate matter can be fallen on sieve 60, due to sieve 60
It can be moved back and forth by feed end to discharge end, in the process, the small particle on sieve 60 can be sieved and be fallen and through sieving by sieve 60
The sieve pore of net 60 is directly fallen in main hopper 80, and not completely broken larger particles then pass through sieve 60 sieve process
In toward separate hopper 30 export, be further processed, in this way, can prevent broken bag from insufficient situation occur, broken bag is high-efficient.
In the present embodiment, above-mentioned broken bag mechanism 20 may include operator roller 21 and multiple auxiliary rotors 22, and operate
It is intracavitary that roller 21 and auxiliary rotor 22 are articulated in broken bag, and specific multiple auxiliary rotors 22 and operator roller 21 are by close feed end
It successively arranges to the direction far from feed end, and the end face of multiple auxiliary rotors 22 is formed as conveyor surface, and close to operator roller 21
Auxiliary rotor 22 and operator roller 21 between interval form crushing gap.In this structure basis, led by the feed end of broken bag chamber
The kitchen-can bag entered can be fallen on the conveyor surface that multiple auxiliary rotors 22 are formed, in the rotation process of multiple auxiliary rotors 22
In, kitchen-can bag can be conveyed by multiple auxiliary rotors 22, reached crushing gap in refuse plastic, can be mutually twisted
Operator roller 21 and auxiliary rotor 22 under the action of, kitchen-can bag can be broken.In this way, above-mentioned broken bag mechanism 20 is on the one hand
It can play the role of conveying, on the other hand can also play fragmentation, crushing effect is higher.
Further, above-mentioned broken bag mechanism 20 may also include multiple scraper knives 23, and multiple scraper knife 23 is set to broken bag
Side that is intracavitary and being located at the separate auxiliary rotor 22 of operator roller 21, makes multiple scraper knives 23 along the axial arranging of operator roller 21, and
Cooperate for the mantle friction with operator roller 21.I.e. during roller 21 of operating rotates, multiple scraper knives 23 can be with operator roller
21 surface contact, under the action of frictional force, the residue on drive roll is struck off, and prevents operator roller 21 during broken bag
There is stuck situation.
Further, it is equipped with the multiple first cyclic annular serrated knives on operator roller 21, makes the multiple first cyclic annular serrated knives along operator roller
21 axially spaced-apart arrangement, corresponding, auxiliary rotor 22 is equipped with the multiple second cyclic annular serrated knives, and the multiple second cyclic annular serrated knives are along auxiliary
The axial arranging of rotor 22 is helped, and the multiple first cyclic annular serrated knives on roller 21 of operating are used for and multiple second on auxiliary rotor 22
Cyclic annular serrated knife engagement.When kitchen-can bag is fallen on multiple auxiliary rotors 22, the multiple second cyclic annular serrated knives can prevent rubbish
Polybag is attached on auxiliary rotor 22 in conveying engineering, and in kitchen-can bag when entering crushing gap, intermeshing
The multiple first cyclic annular serrated knives and multiple second cyclic annular serrated knives can carry out cutting operation, cut more abundant.
Further, thickness of the thickness less than the second cyclic annular serrated knife of the first above-mentioned cyclic annular serrated knife, i.e. the first ring tooth
Knife is than the second ring tooth knife edge benefit, in this way, kitchen-can bag could be cut completely in kitchen-can bag when entering crushing gap
It cuts.
Certainly, above-mentioned broken bag mechanism 20 can directly select two rotors with screw blade to be formed, and make two rotors
Between form crushing gap, crushing gap can directly receive kitchen-can bag.In addition, broken bag mechanism other also can be selected being capable of shape
At cutting force, such as can the blade mechanism of linear relative movement replace.
Further, which further includes 60 driving mechanism of sieve, and 60 driving mechanism of sieve is for driving sieve
60 move back and forth between feed end and discharge end, are convenient for maneuver autopilot.Particularly, 60 driving machine of sieve in the present embodiment
Structure is crank link mechanism 70, and the connection synchronous with the connecting rod 71 of crank link mechanism of sieve 60, driving structure is simple, and drives
Stroke is controllable.In addition, above-mentioned 60 driving mechanism of sieve can also directly select linear motor, driving mechanism or lead screw transmission mechanism
It is replaced Deng other linear motion output mechanisms.
It should be noted that above-mentioned sieve can also directly select vibrating screen, it directly can also band by the vibration of vibrating screen
It is dynamic to realize above-mentioned screening effect.
Further, which further includes two guiding mechanisms 81 for being divided into broken bag chamber two sides, the guiding mechanism
81, for guiding sieve 60 to move back and forth between feed end and discharge end, keep the motion process of sieve 60 steady.Specific guiding
The mode of guide rail and sliding block can be selected to realize in mechanism 81, and guide rail extends to discharge end by feed end, is loaded on slide block set and leads
It is slided on rail and along guide rail, affixed and bootable sieve 60 moves sliding block with sieve 60.
On the basis of the said structure, it can be equipped with dust board 61 in the outer peripheral edge of sieve 60, dust board 61 extends to Guiding machine
Between structure 81 and broken bag chamber, in this way, dust board 61 can prevent the dust generated in shattering process from entering guiding mechanism 81, avoid leading
Occurs stuck situation to mechanism 81.
Further, which further includes feed hopper 40 and elevating mechanism 50, and feed hopper 40 is set to broken bag chamber
Top and be connected to the feed end of broken bag chamber, elevating mechanism 50 is for delivery bag to feed hopper 40.It, can in this structure basis
It is placed on the dustbin equipped with kitchen-can bag on elevating mechanism 50, dustbin is delivered to by feed hopper by elevating mechanism 50
At 40, the kitchen-can bag in dustbin is made to pour into feed hopper 40, feed hopper 40 and bootable kitchen-can bag enters broken bag chamber
It is interior, it avoids kitchen-can bag from concentrating and enters and to cause broken bag mechanism 20 to occur stuck.And elevating mechanism 50 can then be moulded convenient for rubbish
The conveying of material bag.The chain conveying mechanism being arranged along the short transverse of body 10 and lifting can be selected in specific elevating mechanism 50
Frame drives crane lifting by chain conveying mechanism, and dustbin, which is placed on crane, can be completed conveying.Certainly,
Pusher cylinder can be set on crane, risen at feed hopper 40 in crane, push dustbin to swing to by pusher cylinder
Feed hopper 40 completes pouring into for kitchen-can bag, easy to operate.
It should be noted that can also have compression mechanism on the body of above-mentioned efficient bag-breaking machine (specifically can be selected existing
Compressor in technology), which can be connected to main hopper, i.e., the broken refuse bag particle completed can be through compression mechanism pressure
Contracting packing processing, and the relatively big refuse bag particle in separate hopper can then carry out secondary treatment.In addition, the efficient bag-breaking machine can also wrap
Controller is included, above-mentioned elevating mechanism can be controlled by controller and carries out descending operation, control broken bag mechanism progress fragmentation procedure,
Then control compression mechanism carries out squeeze operation, in this way, carrying out the efficient bag-breaking machine effectively.
Above embodiment is only preferred embodiments of the present invention, cannot be protected with this to limit the utility model
Range, the variation of any unsubstantiality that those skilled in the art is done on the basis of the utility model and replacement belong to
In the utility model range claimed.
Claims (10)
1. a kind of efficient bag-breaking machine, it is characterised in that: including body, be equipped with broken bag mechanism, broken bag chamber, sieve, major ingredient in body
Bucket and separate hopper, one end of broken bag chamber are formed as feed end, and the other end of broken bag chamber is formed as discharging chamber, the broken bag mechanism
Set on the feed end and it is used for broken bag, the main hopper to be set to the lower section of broken bag chamber and is connected to broken bag chamber, and the sieve is set
Bottom end in broken bag chamber and the top positioned at main hopper, sieve can move back and forth between feed end and discharge end;The sub-material
Bucket linking is connected in discharge end and with broken bag chamber.
2. efficient bag-breaking machine as described in claim 1, it is characterised in that: the broken bag mechanism includes operator roller and multiple auxiliary
Rotor is helped, it is intracavitary that operator roller and auxiliary rotor are articulated in broken bag;Multiple auxiliary rotors and operator roller are by close to feed end
It successively arranges to the direction far from feed end;The end face of multiple auxiliary rotors is formed as conveyor surface, close to the auxiliary knife of operator roller
It is spaced and is mutually twisted between roller and operator roller;And crushing gap is formed between auxiliary rotor and operator roller.
3. efficient bag-breaking machine as claimed in claim 2, it is characterised in that: the broken bag mechanism further includes multiple scraper knives, institute
State multiple scraper knives set on broken bag it is intracavitary and be located at operator roller far from auxiliary rotor side;Axis of multiple scraper knives along operator roller
Mantle friction to arranging and for operator roller cooperates.
4. efficient bag-breaking machine as claimed in claim 2, it is characterised in that: the operator roller is equipped with multiple first ring tooths
Knife, axially spaced-apart arrangement of the multiple first cyclic annular serrated knives along operator roller;The auxiliary rotor is equipped with the multiple second cyclic annular serrated knives,
Axial arranging of the multiple second cyclic annular serrated knives along auxiliary rotor;Multiple first on roller cyclic annular serrated knives of operating are used for and auxiliary rotor
On the multiple second cyclic annular serrated knives engagements.
5. efficient bag-breaking machine as claimed in claim 4, it is characterised in that: the thickness of the first cyclic annular serrated knife is less than the second ring tooth
The thickness of knife.
6. efficient bag-breaking machine as described in claim 1, it is characterised in that: the efficient bag-breaking machine further includes sieve driving mechanism,
Sieve driving mechanism is for driving sieve to move back and forth between feed end and discharge end.
7. efficient bag-breaking machine as claimed in claim 6, it is characterised in that: the sieve driving mechanism is crank link mechanism,
Sieve connection synchronous with the connecting rod of the crank link mechanism.
8. efficient bag-breaking machine as described in claim 1, it is characterised in that: the efficient bag-breaking machine further includes two being divided into broken bag chamber
The guiding mechanism of two sides, the guiding mechanism is for guiding the sieve to move back and forth between feed end and discharge end.
9. efficient bag-breaking machine as claimed in claim 8, it is characterised in that: the outer peripheral edge of sieve is equipped with dust board, and dust board prolongs
It extends between the guiding mechanism and broken bag chamber.
10. efficient bag-breaking machine as described in claim 1, it is characterised in that: the efficient bag-breaking machine further includes feed hopper and liter
Descending mechanism, feed hopper are set to the top of broken bag chamber and are connected to the feed end of broken bag chamber, and the elevating mechanism is used for delivery bag extremely
Feed hopper.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820666365.1U CN208679379U (en) | 2018-05-04 | 2018-05-04 | A kind of efficient bag-breaking machine |
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Application Number | Priority Date | Filing Date | Title |
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CN201820666365.1U CN208679379U (en) | 2018-05-04 | 2018-05-04 | A kind of efficient bag-breaking machine |
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CN208679379U true CN208679379U (en) | 2019-04-02 |
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CN201820666365.1U Expired - Fee Related CN208679379U (en) | 2018-05-04 | 2018-05-04 | A kind of efficient bag-breaking machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114453098A (en) * | 2022-01-05 | 2022-05-10 | 江苏旭鹏智能科技有限公司 | Kitchen waste treatment device for treating household waste |
-
2018
- 2018-05-04 CN CN201820666365.1U patent/CN208679379U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114453098A (en) * | 2022-01-05 | 2022-05-10 | 江苏旭鹏智能科技有限公司 | Kitchen waste treatment device for treating household waste |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190402 Termination date: 20200504 |