CN208018938U - A kind of vibration material screening machine that feeding bottle plastics secondary recovery utilizes - Google Patents
A kind of vibration material screening machine that feeding bottle plastics secondary recovery utilizes Download PDFInfo
- Publication number
- CN208018938U CN208018938U CN201820162929.8U CN201820162929U CN208018938U CN 208018938 U CN208018938 U CN 208018938U CN 201820162929 U CN201820162929 U CN 201820162929U CN 208018938 U CN208018938 U CN 208018938U
- Authority
- CN
- China
- Prior art keywords
- vibrating screen
- screen box
- discharge hole
- vibrating
- partition
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W30/00—Technologies for solid waste management
- Y02W30/50—Reuse, recycling or recovery technologies
- Y02W30/52—Mechanical processing of waste for the recovery of materials, e.g. crushing, shredding, separation or disassembly
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W30/00—Technologies for solid waste management
- Y02W30/50—Reuse, recycling or recovery technologies
- Y02W30/62—Plastics recycling; Rubber recycling
Landscapes
- Combined Means For Separation Of Solids (AREA)
Abstract
The utility model is related to a kind of vibration material screening machines that feeding bottle plastics secondary recovery utilizes, including rack, vibrating device, vibrating screen box and hopper, vibrating device is fixedly mounted in rack, vibrating screen box is mounted in rack and the bottom of vibrating screen box is engaged with vibrating device, hopper is mounted on the top of vibrating screen box, the blanking port of hopper is connected with the entrance of vibrating screen box, and vibrating screen box is arranged diagonally downward from left to right;Vibration screen and lower vibration screen are installed in the cavity of vibrating screen box;It is equipped with fine grained discharge hole, conforming particle discharge hole, coarse granule discharge hole on the bottom plate of vibrating screen box successively from left to right.There is two layers of filtration in the cavity of this vibrating screen box, the mesh diameter of every layer of filtration is different, can the powder generated in finished granule and dust be directly subjected to sieving, make to be free of powder and dust in the finished granule being recovered to, the quality of reconstituted product is influenced during powder and dust can be effectively prevent to be mixed into reprocessing production.
Description
Technical field
The utility model is related to a kind of vibration material screening machine more particularly to a kind of vibrating screens that feeding bottle plastics secondary recovery utilizes
Material machine.
Background technology
Plastic products are applied to the every field of production and life, wherein a large amount of plastics system is just used in the production of feeding bottle
Product.Feeding bottle in the production process, will produce a large amount of leftover pieces in the molding process of body, if these leftover pieces are straight
Discarding is connect, production material can be not only wasted, can also cause greatly to pollute to environment.These leftover pieces can pass through crushing at present
Afterwards, then by vibrate material screening machine shaker vibration and above sieve pore removal be not achieved granularity requirement plastic grain, will
The finished granule for reaching granularity requirement carries out recycling.
But the vibrating screen of vibration material screening machine is typically all the one-sided removal particle bigger than waiting for gleanings grain size at present,
Partial particulate degree powder less than normal and dust also directly sieve in finished granule, mixed during finished granule recycling reprocessing
The quality of reproduction product can be seriously affected by entering these powder and dust.Since the production of feeding bottle needs to reach safety and sanitation nontoxic
Requirement, can hardly have the presence of fine powder dust in finished granule.In order to remove granularity powder and dust less than normal, tradition
Technique need to be screened with different vibrating screens, so that intricate operation, working efficiency reduce, production cost increase.
Invention content
Problem to be solved in the utility model is to provide a kind of vibration material screening machine that feeding bottle plastics secondary recovery utilizes, this
The powder generated in finished granule and dust directly can be carried out sieving by kind vibrating screen material machine, simplify work step, be improved
The quality of working efficiency and reproduction product.The technical solution of use is as follows:
A kind of vibration material screening machine that feeding bottle plastics secondary recovery utilizes, including rack, vibrating device, vibrating screen box and material
Bucket, vibrating device are fixedly mounted in rack, and vibrating screen box is mounted in rack and bottom and the vibrating device of vibrating screen box
It is engaged, hopper is mounted on the top of vibrating screen box, and the blanking port of hopper is connected with the entrance of vibrating screen box, feature
It is:The vibrating screen box is arranged diagonally downward from left to right;Vibration screen is installed under in the cavity of the vibrating screen box
The right end of vibration screen, upper vibration screen reaches outside the right end of lower vibration screen, under the mesh diameter ratio of upper vibration screen
The mesh diameter of vibration screen is big, and the cavity of vibrating screen box is separated into upper layer by upper vibration screen and lower vibration screen from top to bottom
Cavity, middle level cavity, lower layer's cavity;It is equipped with fine grained discharge hole, qualification on the bottom plate of the vibrating screen box successively from left to right
Particle discharge hole, coarse granule discharge hole, fine grained discharge hole are on the inside of the right end of lower vibration screen, at conforming particle discharge hole
Between the right end and the right end of upper vibration screen of lower vibration screen, coarse granule discharge hole is in outside the right end of upper vibration screen
Side;First partition and second partition are equipped in the cavity of the vibrating screen box, the lower side of first partition is in fine grained discharging
On bottom plate between hole and conforming particle discharge hole, and the upper side edge of first partition is connect with the right end of lower vibration screen;It is described
The lower side of second partition is on the bottom plate between conforming particle discharge hole and coarse granule discharge hole, and the upside of second partition
Side is connect with the right end of upper vibration screen;First partition and fine grained discharge hole constitute fine grained tapping channel, first partition, the
Two partition boards constitute conforming particle tapping channel with conforming particle discharge hole;Second partition, the side wall of vibrating screen box and coarse granule go out
Expect that hole constitutes coarse granule tapping channel.
It refer to the right side of upper vibration screen immediately below the right end of lower vibration screen on the inside of the right end of above-mentioned lower vibration screen
End outside refers to the outside below the right end of upper vibration screen.
Above-mentioned vibrating device generally comprises pedestal, reactor, filter, metallic plate, vibrating seat, vibrating spring, soft shakes
The lower end of movable plate and support base, support base is mounted on the base, and vibrating seat is mounted on the upper end of support base, soft oscillating plate installation
On vibrating seat and it is tightly attached on the bottom surface of the vibrating screen box;Reactor and filter installation are in the base;Metallic plate is pacified
It is on vibrating seat and corresponding with reactor;One end of vibrating spring is connected on vibrating seat, the other end is connected to metallic plate
On.
Above-mentioned coarse grained grain size is more than the mesh diameter of upper vibration screen, and the grain size of conforming particle is less than upper vibration screen
Mesh diameter and more than lower vibration screen mesh diameter, fine grained be less than lower vibration screen mesh diameter.Above-mentioned thin
Grain is generally powder and dust.
The lower side of above-mentioned first partition is on the bottom plate between fine grained discharge hole and conforming particle discharge hole, and the
The upper side edge of one partition board is connect with the right end of lower vibration screen, and first partition plays a supportive role to lower vibration screen, and first
Partition board constitutes fine grained tapping channel with fine grained discharge hole.
The lower side of above-mentioned second partition is on the bottom plate between conforming particle discharge hole and coarse granule discharge hole, and the
The upper side edge of two partition boards is connect with the right end of the upper vibration screen, and second partition plays a supportive role to upper vibration screen, and
First partition, second partition and conforming particle discharge hole constitute conforming particle tapping channel;The side wall of second partition, vibrating screen box
Coarse granule tapping channel is constituted with coarse granule discharge hole.
When work, the leftover pieces for producing feeding bottle are entered by the entrance through hopper after crushing in upper chamber body, vibration dress
It sets driving vibrating screen box to vibrate, vibration screen and the vibration of lower vibration screen in drive;Under the action of upper vibration screen, coarse granule
It stays in upper chamber body, remaining particle then passes through the mesh of upper vibration screen to enter in the cavity of middle level;In the work of lower vibration screen
Under, fine grained passes through the mesh of lower vibration screen to enter in lower layer's cavity, and gauge particle then stays in middle level cavity
It is interior.Since vibrating screen box is arranged diagonally downward from left to right, upper vibration screen and lower vibration screen are also to be tilted towards from left to right
Lower to be arranged in the cavity of vibrating screen box, under the action of vibrating device, the particle in the cavity of middle level is fallen from lower vibration screen
Enter in conforming particle tapping channel, the discharge port through conforming particle tapping channel collects finished granule.And coarse granule is from upper
It is fallen on vibration screen in coarse granule tapping channel, the discharge port through coarse granule tapping channel collects coarse granule;Thin
Grain is fallen into from lower layer's cavity in fine grained tapping channel, and the discharge port through fine grained tapping channel gets up fine particle collection.
The vibrating screen material machine that this feeding bottle plastics secondary recovery utilizes has two layers of filtration, the net of every layer of filtration
Bore dia is different, can the powder generated in finished granule and dust directly be carried out sieving, made in the finished granule being recovered to
Without powder and dust, the matter of reconstituted product is influenced during powder and dust can be effectively prevent to be mixed into reprocessing production
Amount.
As the preferred embodiment of the utility model, the coarse granule tapping channel, the conforming particle tapping channel and institute
The bottom surface for stating fine grained tapping channel is inclined-plane.Pass through this set so that coarse granule, conforming particle and fine grained are entering
Corresponding coarse granule tapping channel, conforming particle tapping channel and fine grained tapping channel can quickly be slipped to downwards corresponding
In collecting bag, the discharge port of coarse granule tapping channel, conforming particle tapping channel and fine grained tapping channel will not be blocked, is saved
The acquisition time of material.
As the preferred embodiment of the utility model, the mesh diameter of the upper vibration screen is 3.1mm ~ 4.5mm, under described
The mesh diameter of vibration screen is 1mm ~ 3mm.
As the further preferred embodiment of the utility model, the mesh diameter of the lower vibration screen is 1.5mm.
The mesh diameter of the lower vibration screen is 1mm ~ 3mm, preferably 1.5mm, it is ensured that do not meet for reclaiming
The powder and dust of production keep sieving effect more preferable by the mesh of lower vibration screen.
As the preferred embodiment of the utility model, multiple elasticity are equipped between the rack and the bottom of the vibrating screen box
Damping module, each elastic shock attenuation module include guide rod, compressed spring and guide sleeve, and guide sleeve is mounted in the rack simultaneously
And axis is vertically arranged, guide rod is in guide sleeve and the upper end of guide rod and the bottom of vibrating screen box connect,
Compressed spring socket is on the guide bar and between guide sleeve and the bottom of vibrating screen box.When vibrating device drives vibrating screen
When case vibrates, guide rod moves up and down along guide sleeve, and compressed spring plays the role of support, buffering to vibrating screen box, and
Noise is generated when reducing vibrating device vibration.
As the preferred embodiment of the utility model, the bottom of the rack is equipped with multiple deflecting rollers.By this set, make
Obtaining vibrating screen material machine can move freely, and be convenient for workers carry.
The utility model compared with prior art, has the following advantages that:
The vibrating screen material machine that this feeding bottle plastics secondary recovery utilizes has two layers of filtration, the net of every layer of filtration
Bore dia is different, can the powder generated in finished granule and dust directly be carried out sieving, made in the finished granule being recovered to
Without powder and dust, the matter of reconstituted product is influenced during powder and dust can be effectively prevent to be mixed into reprocessing production
Amount, simplifies work step, improves work efficiency the quality with reproduction product.
Description of the drawings
Fig. 1 is the structural schematic diagram of embodiment 1 in the utility model.
Specific implementation mode
The utility model is described further in the following with reference to the drawings and specific embodiments.
Embodiment 1
As shown in Figure 1, the vibration material screening machine that a kind of feeding bottle plastics secondary recovery in the present embodiment utilizes, including rack 1,
Vibrating device 2, vibrating screen box 3 and hopper 4, vibrating device 2 are fixedly mounted in rack 1, and vibrating screen box 3 is fixedly mounted on vibration
On device 2, hopper 4 is mounted on the top of vibrating screen box 3, and the blanking port of hopper 4 is connected with the entrance of vibrating screen box 3, vibrates
Screen box 3 is arranged diagonally downward from left to right;Vibration screen 31 and lower vibration screen 32 are installed in the cavity of vibrating screen box 3,
The right end of upper vibration screen 31 reaches outside the right end of lower vibration screen 32, under the 311 diameter ratio of mesh of upper vibration screen 31
312 diameter of mesh of vibration screen 32 is big, upper vibration screen 31 and lower vibration screen 32 by the cavity of vibrating screen box 3 from top to bottom
It is separated into upper layer cavity 33, middle level cavity 34, lower layer's cavity 35;It is equipped with successively from left to right on the bottom plate 36 of vibrating screen box 3 thin
Particle discharge hole 5, conforming particle discharge hole 6, coarse granule discharge hole 7, fine grained discharge hole 5 are in the right end of lower vibration screen 32
Inside, conforming particle discharge hole 6 are between the right end and the right end of upper vibration screen 31 of lower vibration screen 32, coarse granule discharging
Hole 7 is on the outside of the right end of upper vibration screen 31;First partition 37 and second partition 38 are equipped in the cavity of vibrating screen box 3, the
The lower side of one partition board 37 is on the bottom plate 36 between the 6 of fine grained discharge hole 5 and conforming particle discharge hole, and first partition 37
Upper side edge connect with the right end of lower vibration screen 32;The lower side of second partition 38 is in conforming particle discharge hole 6 and thick
On bottom plate 36 between grain discharge hole 7, and the upper side edge of second partition 38 is connect with the right end of upper vibration screen 31;First partition
37 constitute fine grained tapping channel 51, first partition 37, second partition 38 and conforming particle discharge hole 6 with fine grained discharge hole 5
Constitute conforming particle tapping channel 61;Side wall 39 and the composition coarse granule of coarse granule discharge hole 7 of second partition 38, vibrating screen box 3
Tapping channel 71.
It refer to the upper vibration screen immediately below the right end of lower vibration screen 32 on the inside of the right end of above-mentioned lower vibration screen 32
It refer to the outside below the right end of upper vibration screen 31 on the outside of 31 right end.
Above-mentioned vibrating device 2 generally comprise pedestal 21, support base 22, vibrating seat 23, soft oscillating plate 24, metallic plate 25,
The lower end of reactor 26, filter 27 and vibrating spring 28, support base 22 is mounted on pedestal 21, and vibrating seat 23 is mounted on support
The upper end of seat 22, soft oscillating plate 24 are mounted on vibrating seat 23 and are tightly attached on the bottom surface of the vibrating screen box 3;Reactor
26 and filter 27 be mounted on pedestal 21 in;Metallic plate 25 is mounted on vibrating seat 23 and corresponding with reactor 26;Vibrate bullet
One end of spring 28 is connected on vibrating seat 23, the other end is connected on metallic plate 25.
Above-mentioned coarse grained grain size is more than 311 diameter of mesh of upper vibration screen 31, and the grain size of conforming particle, which is less than, above to shake
311 diameter of mesh of dynamic sieve 31 and 321 diameter of mesh more than lower vibration screen 32, fine grained is less than lower vibration screen 32
321 diameter of mesh.Above-mentioned fine grained is generally powder and dust.
The lower side of above-mentioned first partition 37 is in the bottom plate 36 between fine grained discharge hole 5 and conforming particle discharge hole 6
On, and the upper side edge of first partition 37 is connect with the right end of lower vibration screen 32, first partition 37 plays branch to lower vibration screen 32
Support acts on, and first partition 37 constitutes fine grained tapping channel 51 with fine grained discharge hole 5.
The lower side of above-mentioned second partition 38 is in the bottom plate 36 between conforming particle discharge hole 6 and coarse granule discharge hole 7
On, and the upper side edge of second partition 38 is connect with the right end of upper vibration screen 31, second partition 38 plays branch to upper vibration screen 31
Support acts on, and first partition 37, second partition 38 constitute conforming particle tapping channel 61 with conforming particle discharge hole 6;Second
Side wall 39 and the composition coarse granule of coarse granule discharge hole 7 tapping channel 71 of partition board 38, vibrating screen box 3.
The bottom surface of coarse granule tapping channel 71, conforming particle tapping channel 61 and fine grained tapping channel 51 is inclined-plane.
Pass through this set so that coarse granule, conforming particle and fine grained are entering corresponding coarse granule tapping channel 71, conforming particle
Tapping channel 61 and fine grained tapping channel 51 can be quickly slipped to downwards in corresponding collecting bag, will not be blocked coarse granule and be gone out
Expect channel 71, conforming particle tapping channel 61 and fine grained tapping channel 51 discharge port, save the acquisition time of material.
311 a diameter of 3.8mm of mesh of upper vibration screen 31,321 a diameter of 1.5mm of mesh of lower vibration screen 32.
Multiple elastic shock attenuation modules 8 are equipped between rack 1 and the bottom of vibrating screen box 3, each elastic shock attenuation module 8 includes
Guide rod 81, compressed spring 82 and the guide pad 83 being arranged on guide rod 81, the top of guide rod 81 are fixedly mounted on vibration
The bottom of screen box 3, compressed spring 82 are socketed on guide rod 81, and the bottom end of guide rod 81 is mounted in rack 1, compressed spring 82
One end be connected to the bottom of vibrating screen box 3, the other end of compressed spring 82 is connected in rack 1.
Multiple elastic shock attenuation modules 8 are equipped between rack 1 and the bottom of vibrating screen box 3, each elastic shock attenuation module 8 includes
Guide rod 81, compressed spring 82 and guide sleeve 83, guide sleeve 83 is mounted in rack 1 and axis is vertically arranged, and leads
It is in guide sleeve 83 to bar 81 and the upper end of guide rod 81 is connect with the bottom of vibrating screen box 3, compressed spring 82 is socketed in
On guide rod 81 and between guide sleeve 83 and the bottom of vibrating screen box 3.
The bottom of rack 1 is equipped with multiple deflecting rollers 11.
When work, the leftover pieces for producing feeding bottle are entered by the entrance through hopper 4 after crushing in upper layer cavity 33, are vibrated
Device 2 drives vibrating screen box 3 to vibrate, vibration screen 31 and the vibration of lower vibration screen 32 in drive;In the work of upper vibration screen 31
Under, coarse granule stays in upper layer cavity 33, remaining particle then passes through the mesh 311 of upper vibration screen 31 to enter middle level cavity 34
It is interior;Under the action of lower vibration screen 32, fine grained passes through the mesh 321 of lower vibration screen 32 to enter in lower layer's cavity 35, and
Gauge particle then stays in middle level cavity 34.Since vibrating screen box 3 is arranged diagonally downward from left to right, upper vibration screen
31 and lower vibration screen 32 be also be arranged diagonally downward in the cavity of vibrating screen box 3 from left to right, in the effect of vibrating device 2
Under, the particle in middle level cavity 34 is fallen into from lower vibration screen 32 in conforming particle tapping channel 61, is discharged through conforming particle
The discharge port in channel 61 collects finished granule.And coarse granule falls into coarse granule tapping channel 71 from upper vibration screen 31
In, the discharge port through coarse granule tapping channel 71 collects coarse granule;Fine grained falls into fine grained out of lower layer's cavity 35
In tapping channel 51, the discharge port through fine grained tapping channel 51 gets up fine particle collection.
Embodiment 2
Vibration material screening machine that feeding bottle plastics secondary recovery in the present embodiment utilizes and embodiment 1 difference lies in:
The mesh diameter of upper vibration screen is 3.1mm, and the mesh diameter of lower vibration screen is 1mm.
Embodiment 3
Vibration material screening machine that feeding bottle plastics secondary recovery in the present embodiment utilizes and embodiment 1 difference lies in:
The mesh diameter of upper vibration screen is 4.5mm, and the mesh diameter of lower vibration screen is 3mm.
Furthermore, it is necessary to illustrate, the specific embodiment described in this specification, each section title etc. can not
Together, the equivalent or simple change that all structure, feature and principles according to described in the utility model patent concept are done is included in this
In the protection domain of utility model patent.Those skilled in the art of the present invention can be to described specific reality
Example is applied to do various modifications or additions or substitute by a similar method, structure without departing from the utility model or
Beyond the scope defined by this claim, it all should belong to the protection range of the utility model.
Claims (6)
1. a kind of vibration material screening machine that feeding bottle plastics secondary recovery utilizes, including rack, vibrating device, vibrating screen box and hopper,
Vibrating device is fixedly mounted in rack, and vibrating screen box is mounted in rack and the bottom of vibrating screen box is contacted with vibrating device
Cooperation, hopper are mounted on the top of vibrating screen box, and the blanking port of hopper is connected with the entrance of vibrating screen box, it is characterized in that:Institute
Vibrating screen box is stated from left to right diagonally downward to be arranged;Vibration screen and lower vibrating screen are installed in the cavity of the vibrating screen box
The right end of net, upper vibration screen reaches outside the right end of lower vibration screen, and the mesh diameter of upper vibration screen is than lower vibrating screen
The mesh diameter of net is big, upper vibration screen and lower vibration screen by the cavity of vibrating screen box be separated into from top to bottom upper layer cavity,
Middle level cavity, lower layer's cavity;It is equipped with fine grained discharge hole successively from left to right on the bottom plate of the vibrating screen box, conforming particle goes out
Expect that hole, coarse granule discharge hole, fine grained discharge hole are on the inside of the right end of lower vibration screen, conforming particle discharge hole, which is in down, to shake
Between the right end and the right end of upper vibration screen of dynamic sieve, coarse granule discharge hole is on the outside of the right end of upper vibration screen;It is described
First partition and second partition are equipped in the cavity of vibrating screen box, the lower side of first partition is in fine grained discharge hole and qualification
On bottom plate between particle discharge hole, and the upper side edge of first partition is connect with the right end of lower vibration screen;The second partition
Lower side be on the bottom plate between conforming particle discharge hole and coarse granule discharge hole, and the upper side edge of second partition with above shake
The right end connection of dynamic sieve;First partition and fine grained discharge hole constitute fine grained tapping channel, first partition, second partition with
Conforming particle discharge hole constitutes conforming particle tapping channel;Second partition, the side wall of vibrating screen box and coarse granule discharge hole are constituted
Coarse granule tapping channel.
2. the vibration material screening machine that feeding bottle plastics secondary recovery as described in claim 1 utilizes, it is characterized in that:The coarse granule goes out
Expect that the bottom surface of channel, the conforming particle tapping channel and the fine grained tapping channel is inclined-plane.
3. the vibration material screening machine that feeding bottle plastics secondary recovery as described in claim 1 utilizes, it is characterized in that:The upper vibrating screen
The mesh diameter of net is 3.1mm ~ 4.5mm, and the mesh diameter of the lower vibration screen is 1mm ~ 3mm.
4. the vibration material screening machine that feeding bottle plastics secondary recovery as claimed in claim 3 utilizes, it is characterized in that:The lower vibrating screen
The mesh diameter of net is 1.5mm.
5. the vibration material screening machine that feeding bottle plastics secondary recovery as described in claim 1 utilizes, it is characterized in that:The rack and institute
It states and is equipped with multiple elastic shock attenuation modules between the bottom of vibrating screen box, each elastic shock attenuation module includes guide rod, compressed spring
And guide sleeve, guide sleeve be mounted on the rack on and axis be vertically arranged, guide rod be in guide sleeve and
The upper end of guide rod and the bottom of vibrating screen box connect, and compressed spring socket is on the guide bar and in guide sleeve and vibrating screen
Between the bottom of case.
6. the vibration material screening machine that feeding bottle plastics secondary recovery as claimed in claim 5 utilizes, it is characterized in that:The bottom of the rack
Portion is equipped with multiple deflecting rollers.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820162929.8U CN208018938U (en) | 2018-01-31 | 2018-01-31 | A kind of vibration material screening machine that feeding bottle plastics secondary recovery utilizes |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820162929.8U CN208018938U (en) | 2018-01-31 | 2018-01-31 | A kind of vibration material screening machine that feeding bottle plastics secondary recovery utilizes |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208018938U true CN208018938U (en) | 2018-10-30 |
Family
ID=63902432
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820162929.8U Active CN208018938U (en) | 2018-01-31 | 2018-01-31 | A kind of vibration material screening machine that feeding bottle plastics secondary recovery utilizes |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208018938U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112915620A (en) * | 2021-01-26 | 2021-06-08 | 广东美味鲜调味食品有限公司 | Bean product separation equipment |
-
2018
- 2018-01-31 CN CN201820162929.8U patent/CN208018938U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112915620A (en) * | 2021-01-26 | 2021-06-08 | 广东美味鲜调味食品有限公司 | Bean product separation equipment |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN211587459U (en) | Abrasive screening device | |
CN208018938U (en) | A kind of vibration material screening machine that feeding bottle plastics secondary recovery utilizes | |
CN203253621U (en) | Avalanche-type circular vibration screen | |
CN210497191U (en) | Tea seed impurity cleaning device | |
CN209753367U (en) | automatic screening device for resin drill | |
CN212524457U (en) | Solid organic waste crushing and sorting all-in-one machine | |
CN208303244U (en) | A kind of Capsules defective product rejecting mechanism and production equipment | |
CN212702956U (en) | Multilayer screening equipment | |
CN202909948U (en) | Ternary rotary vibration screen | |
CN214865139U (en) | Granule product vibrations screening device | |
CN214638228U (en) | Mortar is rubbish remove device for production system | |
CN213287604U (en) | Sieving mechanism for tea production | |
CN202741333U (en) | Multifunctional screening machine | |
CN208116150U (en) | A kind of multilayer rubble vibrating screen material device | |
CN214975700U (en) | Vibrating shaker | |
CN214347852U (en) | Screening sand machine for construction | |
CN213558310U (en) | A vibrator for capsule production is pelletized | |
CN214052584U (en) | Coffee bean screening device | |
CN214234989U (en) | Marinating material screening device of marinated duck production line | |
CN212190053U (en) | Automatic optimizing and screening device for shape of machine-made sand grains | |
CN220238662U (en) | Crushing vibration screening machine | |
CN218743153U (en) | Screening shaker | |
CN216631534U (en) | Dispense with separating type filtering reciprocating sieve | |
CN213435468U (en) | Electromechanical screening equipment for raw coal of coal mine | |
CN217043468U (en) | High-efficient automatic classifier of fine screen |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |