CN110015513A - Material particles arrangement device - Google Patents
Material particles arrangement device Download PDFInfo
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- CN110015513A CN110015513A CN201910176797.3A CN201910176797A CN110015513A CN 110015513 A CN110015513 A CN 110015513A CN 201910176797 A CN201910176797 A CN 201910176797A CN 110015513 A CN110015513 A CN 110015513A
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- thimble
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- material channel
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D83/00—Containers or packages with special means for dispensing contents
- B65D83/06—Containers or packages with special means for dispensing contents for dispensing powdered or granular material
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- Mechanical Engineering (AREA)
- Sampling And Sample Adjustment (AREA)
- Food-Manufacturing Devices (AREA)
Abstract
The invention discloses a kind of material particles arrangement devices, are related to material cooking technical field, and main purpose is the labor intensity for reducing the materials such as calcium carbide and picking, and improve working efficiency.Main technical schemes of the invention are as follows: the material particles arrangement device includes ontology, the material channel of inclination arrangement is provided in the ontology, the ontology has the feed inlet being connected to the material channel entrance and the discharge port positioned at material channel outlet top, and the mounting portion for installing sample bottle is provided at the feed inlet;Allocation mechanism, the allocation mechanism is set in the material channel, for stirring material, so that the material forms the material stream of uniformly continuous on the material channel;Pusher, the pusher are liftably set to the exit of the material channel, for intermittently sending the material slid from the material channel to the discharge port.Present invention is mainly used for arrange irregular material particles.
Description
Technical field
The present invention relates to materials to arrange technical field, in particular to a kind of material particles arrangement device.
Background technique
In a variety of industrial goods procedures such as ore, coal, the presence of impurity directly affects final quality in sample
As a result, therefore, the impurity in sample need to be picked out before chemical examination.
By taking carbide samples are chemically examined as an example, the number of the silicon iron content contained in calcium carbide directly affects the quality of calcium carbide, so
It needs to pick out silicon iron before chemical examination.However, the granularity and quality of the calcium carbide particle that calcium carbide is formed after being crushed, sieving are not
Uniformly, for the ease of the silicon iron in calcium carbide particle is picked out using sorting unit, it usually needs by manually by calcium carbide particle into
Row arranges, so that the calcium carbide stream that calcium carbide particle forms uniformly continuous passes sequentially through sorting unit, it could be by silicon iron particle therefrom
It picks out, labor intensity is larger, and working efficiency is lower.
Summary of the invention
In view of this, the embodiment of the present invention provides a kind of material particles arrangement device, main purpose is to reduce the objects such as calcium carbide
Expect the labor intensity picked, improves working efficiency.
In order to achieve the above objectives, present invention generally provides following technical solutions:
The embodiment of the invention provides a kind of material particles arrangement devices, comprising:
Ontology, the material channel of inclination arrangement is provided in the ontology, and the ontology has to enter with the material channel
The feed inlet of mouthful connection and discharge port positioned at material channel outlet top, are provided with for installing sample at the feed inlet
The mounting portion of product bottle;
Allocation mechanism, the allocation mechanism is set in the material channel, for stirring material, so that the material exists
The material stream of uniformly continuous is formed on the material channel;
Pusher, the pusher are liftably set to the exit of the material channel, for will be from described
The material slid on material channel is intermittently sent to the discharge port.
Further, the allocation mechanism includes pinwheel and motor, and the pinwheel includes:
Wheel hub, the wheel hub are rotationally connected in the ontology by shaft;
Multiple thimbles are arranged in multiple thimble point multiple groups the outer peripheral surface of the wheel hub, and thimble described in every group is along institute
State the axial arranging of wheel hub;
The output shaft of the motor is connect with one end of the shaft, for driving the shaft to drive the wheel hub and institute
Thimble rotation is stated, so that material is equably dialed out to the material channel from feed inlet by the thimble.
Further, the allocation mechanism further includes being set to the intrinsic arc-shaped guide plate, the arc-shaped guide plate
One end is placed at the feed inlet, and the other end has the first gap towards the material channel and with the material channel, described
The cross sectional shape of arc-shaped guide plate is adapted with the rotational trajectory of the thimble;
The thimble passes through elastic component and the wheel hub elastic connection;
The thimble can contact with the arc-shaped guide plate in rotary course and be in compressive state, until its whiz institute
It states arc-shaped guide plate and extend out to first gap, the material is equably dialed out to from first gap on a small quantity described
Material channel.
Further, multiple first grooves are placed on the outer peripheral surface of the wheel hub;
Each thimble in thimble described in every group is connect by connecting plate with one end of the elastic component, the elastic component
The other end is connect with the slot bottom of each first groove;
The pinwheel further includes multiple sealing plates, and the inner surface of each sealing plate is provided with to be adapted with first groove
Protrusion, it is described protrusion on be linearly placed with multiple second grooves, the slot bottom of each second groove is provided with through-hole;
The sealing plate is plugged in first groove by the protrusion, and the thimble passes through the through-hole, and described
Connecting plate and the elastic component are contained in second groove.
Further, the first gap there are two being symmetrical arranged in the two lateral walls of the ontology, and the two relatively described sides
Slot there are two being symmetrical arranged on the end face of wall;
The both ends of the shaft are rotationally connected with respectively in two first gap;
The both ends of the arc-shaped guide plate are connected separately with plate compatible with the slot, and the bottom of the plate is set
It is equipped with the second gap;
The arc-shaped guide plate is plugged in the slot by the plate, and second gap and the shaft rotate
Connection.
Further, the pusher includes driving portion, and connect with the driving portion and be located at the material channel
The push plate in exit, the driving portion will slide for driving the push plate to move up and down from the material channel
Material intermittently send to the discharge port.
Further, the guide groove of the direction of motion arrangement along the push plate is provided in the ontology;
The push plate is slidably positioned in the guide groove, and the guide groove described in the driving lower edge of the driving portion is transported
It is dynamic.
Further, the push plate has pusher face, and the pusher face is the arcwall face of indent;
The discharge outlet has been connected obliquely discharging gate, and the inner surface of the discharging gate is to be adapted with the pusher face
Arcwall face;
When the driving portion drives the push plate to move upwards, the pusher face of the push plate and the interior table of the discharging gate
Face flushes.
Further, the material particles arrangement device further include:
Feed nozzle, the feed nozzle are connected to the feed inlet, and funnel-shaped;
Baffle, the baffle are connected to the arrival end of the feed nozzle, and the top and bottom of the baffle are
Tapered surface, and there is the second gap between the baffle and the feed nozzle;
The mounting portion is set to the feed nozzle, and when the sample bottle is installed on the mounting portion, the water conservancy diversion
The top surface of body can protrude into the sample bottle, and second gap is connected to the sample bottle.
By above-mentioned technical proposal, the present invention is at least had the advantages that
Material particles arrangement device provided in an embodiment of the present invention, the material in sample bottle can be slid by feed inlet to
Material channel, and allocation mechanism can stir material, so that material forms the material stream of uniformly continuous on material channel, and lead to
It crosses pusher to send to feed inlet, compared with prior art, technical solution provided in an embodiment of the present invention can be automatically performed electricity
The arrangement of the material particles such as stone, reduces labor intensity, improves work efficiency.Moreover, by the way that liftably pusher is arranged
Structure allows material according to being suitble to the subsequent frequency of picking for picking device to release material from discharge port, is realizing continuously surely
It while fixed material stream, also limits every time by picking the material particles amount of device, ensure that and subsequent pick the suitable of work
Benefit carries out.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of the material particles arrangement device provided in an embodiment of the present invention at a visual angle;
Structural schematic diagram of the Fig. 2 for ontology in Fig. 1 at a visual angle;
Fig. 3 is the structural schematic diagram that the pinwheel of allocation mechanism in Fig. 2 is connected with motor;
Fig. 4 is the structural schematic diagram of sealing plate in Fig. 3;
Fig. 5 is ontology in Fig. 1 and the structural schematic diagram after the fractionation of the arc-shaped guide plate of allocation mechanism;
Structural schematic diagram of the Fig. 6 for ontology in Fig. 1 at another visual angle;
Fig. 7 is a kind of structural schematic diagram of the material particles arrangement device provided in an embodiment of the present invention at another visual angle;
Fig. 8 is a kind of structural schematic diagram of the material particles arrangement device provided in an embodiment of the present invention at another visual angle.
Specific embodiment
To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with the preferred embodiment of the present invention
In attached drawing, technical solution in the embodiment of the present invention is further described in more detail.In the accompanying drawings, identical from beginning to end or
Similar label indicates same or similar element or element with the same or similar functions.Described embodiment is this hair
Bright a part of the embodiment, instead of all the embodiments.The embodiments described below with reference to the accompanying drawings are exemplary, it is intended to
It is used to explain the present invention, and is not considered as limiting the invention.Based on the embodiments of the present invention, ordinary skill
Personnel's every other embodiment obtained without creative efforts, shall fall within the protection scope of the present invention.
The embodiment of the present invention is described in detail with reference to the accompanying drawing.
In the description of the present embodiment, it is to be understood that term " center ", " longitudinal direction ", " transverse direction ", "front", "rear",
The orientation or positional relationship of the instructions such as "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" is based on attached drawing institute
The orientation or positional relationship shown is merely for convenience of description the present embodiment and simplifies description, rather than indication or suggestion meaning
Device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to the present embodiment
The limitation of protection scope.
As shown in Figure 1, the embodiment of the invention provides a kind of material particles arrangement device, including ontology 1, in the ontology 1
It is provided with the material channel 11 of inclination arrangement, ontology 1 has the feed inlet 12 being connected to 11 entrance of material channel and is located at material
Channel 11 exports the discharge port 13 of top, and the mounting portion 13 for installing sample bottle is provided at feed inlet 12;Allocation mechanism 2,
It is set in material channel 11, for stirring material, so that material forms the material stream of uniformly continuous on material channel 11;It pushes away
Expecting mechanism 3, being liftably set to the exit of material channel 11, the material for will slide from material channel 11 is intermittently
It send to discharge port 13.Wherein, label " 10 " representative sample bottle in Fig. 1.
The material particles arrangement device is mainly used for arranging the material particles in irregular shape such as calcium carbide, and feed inlet 12 can
To be located at the top surface of ontology 1, discharge port 13 can be located at the side of ontology 1, and material channel 11 can be for based on feed inlet 12
The channel for extending to discharge port 13 is tilted down, moreover, the quantity of material channel 11 can be multiple, the discharge port that is arranged side by side
13 can also accordingly be arranged multiple, and when mounting portion 13 is equipped with sample bottle, specifically, which can be mounted on standing upside down
Mounting portion 13 is connected to feed inlet 12, so that material flows under the influence of gravity into feed inlet 12, and logical in each inclined material
It is slided in road 11;Allocation mechanism 2 is arranged in material channel 11, specifically can be set in the position close to feed inlet 12, and every
An allocation mechanism 2 can be set in a material channel 11, when material slides from feed inlet 12 to corresponding material channel 11, i.e.,
Allocation mechanism 2 can be started, it is made to stir material, so that material forms the material stream of uniformly continuous on material channel 11, and pushed away
Material mechanism 3 can also respectively be arranged one in the exit of each material channel 11, be used to accept in decline from material channel 11
The material of landing, and the partial material is pushed into discharge port 13 when rising, to limit every time by picking device
Material particles amount ensure that and subsequent pick going on smoothly for work.
In an optional embodiment, the material particles arrangement device can also include respectively with allocation mechanism 2 and pusher
The controller that mechanism 3 is electrically connected, the controller control allocation mechanism 2 and carry out material toggling and the progress elevating movement of pusher 3,
So that allocation mechanism 2 and pusher 3 automatically do linkage intermittent action.
Material particles arrangement device provided in an embodiment of the present invention, the material in sample bottle can be slid by feed inlet to
Material channel, and allocation mechanism can stir material, so that material forms the material stream of uniformly continuous on material channel, and lead to
It crosses pusher to send to feed inlet, compared with prior art, technical solution provided in an embodiment of the present invention can be automatically performed electricity
The arrangement of the material particles such as stone, reduces labor intensity, improves work efficiency.Moreover, by the way that liftably pusher is arranged
Structure allows material according to being suitble to the subsequent frequency of picking for picking device to release material from discharge port, is realizing continuously surely
It while fixed material stream, also limits every time by picking the material particles amount of device, ensure that and subsequent pick the suitable of work
Benefit carries out.
Wherein, the structure type of allocation mechanism 2 can there are many, as long as may be implemented to stir material, make material in material
The material stream of uniformly continuous is formed on channel 11, it is optional real one for the simplicity of structure and the reliability of realization
It applies in example, referring to figs. 2 and 3, and combines Fig. 1, allocation mechanism 2 may include pinwheel 21 and motor 22, which can wrap
Wheel hub 211 is included, which is rotationally connected in ontology 1 by shaft;Multiple thimbles 212 are arranged in wheel hub to point multiple groups
211 outer peripheral surface, axial arranging of the every group of thimble 212 along wheel hub 211;The output shaft of motor 22 and one end of shaft connect, and use
It is rotated in drive shaft band runner hub 211 and thimble 212, so that material is equably dialed out to object from feed inlet 12 by thimble 212
Expect channel 11.When the rotation of 22 drive shaft of motor, wheel hub 211 can drive each thimble 212 to rotate, and the thimble rotated
212 can stir material, and material is made equably to be dialed out to material channel 11, formation stream from feed inlet 12.
Further, in an optional embodiment, referring to fig. 2, and Fig. 1 is combined, allocation mechanism 2 can also include setting
In the arc-shaped guide plate 23 in ontology 1, one end of the arc-shaped guide plate 23 is placed at feed inlet 12, the other end towards material channel 11 simultaneously
There is the first gap 24 with material channel 11, the cross sectional shape of arc-shaped guide plate 23 is adapted with the rotational trajectory of thimble 212;Thimble
212 can pass through elastic component 213 and 211 elastic connection of wheel hub;Thimble 212 can contact in rotary course with arc-shaped guide plate 23
And it is in compressive state, it is extend out to the first gap 24 up to its whiz arc-shaped guide plate 23, material is lacked from the first gap 24
Amount equably dials out to material channel 11.
According to above-described embodiment, by the way that arc-shaped guide plate 23, and thimble 212 and 211 elastic connection of wheel hub is arranged, so that pinwheel
Thimble 212 on 21 can arcuately guide plate 23 rotate, and the first gap 24 is extend out to when screwing out arc-shaped guide plate 23, with insertion
Then in material ebb interval or top is snapped down to transferring out a small amount of material particles on material particles from the first gap 24
Pushing mechanism ensure that material successively a small amount of channel, and card resistance, does not block.
In an optional embodiment, referring to Fig. 3 and Fig. 4, it can be placed on 211 outer peripheral surface of wheel hub of aforementioned pinwheel 21
Multiple first grooves 2111;Each thimble 212 in every group of thimble 212 is connected by one end of connecting plate 2121 and elastic component 213
It connects, the other end of elastic component 213 is connect with the slot bottom of each first groove 2111;Pinwheel 21 can also include multiple sealing plates 214,
The inner surface of each sealing plate 214 is provided with compatible with the first groove 2111 raised 2141, in the protrusion 2141 linearly
Multiple second grooves 2142 are placed with, the slot bottom of each second groove 2142 is provided with through-hole 2143;Sealing plate 214 passes through protrusion
2141 are plugged in the first groove 2111, and thimble 212 passes through through-hole 2143, and connecting plate 2121 and elastic component 213 are contained in the
In two grooves 2142, such structure design can make sealing plate 214 by 213 envelope of the connecting plate 2121 of thimble 212 and elastic component
It gets lodged in the first groove 2111, ensure that being reliably connected for thimble 212 and elastic component 213, and pass through connecting plate for thimble 212
The compression of 2121 pairs of elastic components 213 plays guiding role, also effectively prevents the abjection of thimble 212, ensure that allocation mechanism 2
It works normally.Wherein, elastic component 213 can be spring.
In an optional embodiment, referring to Fig. 5, and Fig. 2 is combined, can symmetrically be set in the two lateral walls of ontology 1
It sets there are two the first gap 14, and is symmetrical arranged that there are two slots 15 on the end face of two opposite side walls;The both ends of shaft turn respectively
It is dynamic to be connected in two the first gap 14;The both ends of arc-shaped guide plate 23 are connected separately with plate 231 compatible with slot 15, and
The bottom of plate 231 is provided with the second gap 2311;Arc-shaped guide plate 23 is plugged in slot 15 by plate 231, and second slits
Mouth 2311 is rotatablely connected with shaft.Wherein, the bottom of the first gap 14 and the second gap 2311 all can be arc-shaped;Moreover,
The cross sectional shape of plate 231 can be L shape.
According to above-described embodiment, by the way that arc-shaped guide plate 23 is designed as plugging together by plate 231 and the slot 15 on ontology 1
Connection, moreover, the shaft of pinwheel 21 is positioned by the first gap 14 and the second gap 2311, so that arc-shaped guide plate 23 and sheet
Body 1 is to be detachably connected, and pinwheel 21 and ontology 1 is are detachably connected, and when the arrangement device is after long period use, can be pulled out
Arc-shaped guide plate 23 out, and pinwheel 21 is taken out from the first gap 14, it realizes to the clear of pinwheel 21, arc-shaped guide plate 23 and ontology 1
Reason, successively assembles after cleaning, then by pinwheel 21 and arc-shaped guide plate 23, can come into operation, and uses more convenient, assembling side
Just.
Wherein, the structure type of pusher 3 can there are many, as long as may be implemented liftably to move, by material
The material slid on channel 11 is intermittently sent to discharge port 13, the simplicity for structure and the reliability that uses, one
In optional embodiment, referring to Fig. 6, and combined with Figure 1 and Figure 2, pusher 3 may include driving portion 31, and with driving portion 31
Connection and the push plate 32 for being located at 11 exit of material channel, driving portion 31, will be from for driving push plate 32 to move up and down
The material slid on material channel 11 is intermittently sent to discharge port 13.That is, when driving portion 31 drives push plate 32 to moving down
When dynamic, the material on material channel 11 can be slid to push plate 32, when driving portion 31 drives push plate 32 to move up, push plate
32 move up and are connected to discharge port 13, material are intermittently released to discharge port 13 to realize, and then realize and pick dress according to subsequent
The frequency set releases material, ensure that and picks going on smoothly for work.
In above-described embodiment, the distance (length of push plate 32) that push plate 32 moves up and down can be according to the granularity of material particles
It is designed, to realize in each 32 uphill process of push plate, only the material for meeting certain particle size requirement is sent to discharge port 13, is made
The material of certain particle size requirement must be met to be discharged from discharge port 13, further ensure it is subsequent pick device pick the suitable of work
Benefit carries out.Specifically, driving portion 31 can be motor-driven cam mechanism, i.e. motor 312 drives cam 311 to rotate, rotation
Cam 311 push push plate 32 move up and down, moreover, the operating frequency of cam mechanism can pick choosing for device according to subsequent
Pick frequency setting.
In an optional embodiment, referring to Fig. 6, and Fig. 1 is combined, the fortune along push plate 32 can be set in ontology 1
The guide groove 15 of dynamic direction arrangement, certainly, the quantity of guide groove 15 can be identical as the quantity of push plate 32, and push plate 32 is slideably
It is placed in guide groove 15, and is moved under the driving of driving portion 31 along guide groove 15.Specifically, driving of the push plate 32 in cam
Under, it is moved up and down in guide groove 15, so that guiding role is played in the elevating movement that guide groove 15 is push plate 32, ensure that and push away
The normal pusher of plate 32 works.
Material is pushed to discharge port 13, in an optional embodiment, referring to figure for the ease of the push plate 32 of pusher 3
2, and Fig. 1 is combined, push plate 32 can have pusher face 321, and the pusher face 321 can be the arcwall face of indent;Discharge port 13
Place can be connected obliquely discharging gate 131, and its inclined direction is identical as the inclined direction of material channel 11, discharging gate 131
Inner surface be arcwall face compatible with pusher face 321;When driving portion 31 drives push plate 32 to move upwards, push plate 32 is pushed away
Charge level 321 is flushed with the inner surface of discharging gate 131.By the way that the inner surface in the pusher face 321 of push plate 32 and discharging gate 131 is designed
For the arcwall face of indent, it ensure that the material into 32 face of push plate can all be pushed out discharging gate 131 without trickling down;And
And when the rising of push plate 32, the pusher face 321 of push plate 32 is flushed with the inner surface of discharging gate 131, further ensures material whole
It is pushed out, without catching phenomenon occurs, the push plate 32 for facilitating pusher 3 pushes material to discharge port 13.
In an optional embodiment, referring to figs. 7 and 8, and Fig. 1 is combined, which can also wrap
Feed nozzle 4 is included, which is connected to feed inlet 12, and funnel-shaped;Baffle 5 is connected to the arrival end of feed nozzle 4, tool
Body can be connect by spaced apart connecting rod with feed nozzle 4, and the top and bottom of baffle 5 are tapered surface, and water conservancy diversion
There is the second gap 51 between body 5 and feed nozzle 4;Mounting portion 13 is set to feed nozzle 4, and when sample bottle is installed on mounting portion 13
When, the top surface of baffle 5 can protrude into the bottleneck of sample bottle, and the second gap 51 is connected to sample bottle.
In above-described embodiment, feed nozzle 4 is funnel-shaped structure, and baffle 5 is the structure that top and bottom are tapered surface,
And there is the second gap 51 between baffle 5 and feed nozzle 4, it realizes after sample bottle is mounted on mounting portion 13, sample bottle
Shunting is sequentially formed between bottleneck and the top surface of baffle 5, between the bottom surface and feed nozzle 4 of the second gap 51 and baffle 5
Channel and flow-guiding channel allow material to pass sequentially through the split channel and flow-guiding channel uniformly slide, and are convenient for subsequent material toggling
Mechanism 2 material is uniformly transferred on a small quantity and pusher 3 is released according to certain frequency and meets the object of certain particle size requirement
Material.
In an optional embodiment, referring to Fig. 8, mounting portion 13 can be arranged on 4 entrance face of feed nozzle, and
Ring groove-like structure compatible with the bottleneck of sample bottle, and can be set on the cell wall of the ring groove-like structure and mutually fitted with sample bottle
The screw thread matched.
The specific work process of the material particles arrangement device can be with are as follows: sample bottle can be sent through conveyor belt to specific bit
The mounting portion 13 that overturning is installed on sample bottle is postponed, material particles are dropped out out of sample bottle, by the top surface of baffle 5 and second
After gap 51 is shunted, slid under the guide functions in space between the bottom surface and discharging gate 131 of baffle 5, and in arc
Under the guiding role of guide plate 23, material particles concentrate the arrival end for dropping down onto material channel 11, and continue downwards along material channel 11
It slides, the pinwheel 21 of allocation mechanism 2 rotates clockwise under the drive of the motor, when thimble 212 is by arc-shaped guide plate 23, starts to press
Contracting, thimble 212 is ejected under the action of the spring to the first gap 24 when screwing out guide plate, to be inserted into material ebb interval or push up extremely
On material particles, then with turning to transfer to a small amount of material particles to be snapped down to pushing away for push plate 32 in pusher 3 from the first gap 24
On charge level 321, cam mechanism in pusher 3 under the drive of the motor according to being suitble to the subsequent frequency for picking device to rotate,
And drive push plate 32 to move up and down, and the length of push plate 32 can be designed according to material particles granularity, in each push plate 32
During rising, only meet the material of certain particle size requirement and be discharged from discharge port 13, to realize according to being suitble to subsequent pick dress
The frequency set releases the material for meeting certain particle size requirement, ensure that and picks going on smoothly for work.
Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations;Although
Present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: it still may be used
To modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features;
And these are modified or replaceed, technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution spirit and
Range.
Claims (9)
1. a kind of material particles arrangement device characterized by comprising
Ontology is provided with the material channel of inclination arrangement in the ontology, and the ontology has and the material channel entrance connects
Logical feed inlet and discharge port positioned at material channel outlet top are provided with for installing sample bottle at the feed inlet
Mounting portion;
Allocation mechanism, the allocation mechanism is set in the material channel, for stirring material, so that the material is described
The material stream of uniformly continuous is formed on material channel;
Pusher, the pusher are liftably set to the exit of the material channel, and being used for will be from the material
The material slid on channel is intermittently sent to the discharge port.
2. material particles arrangement device according to claim 1, which is characterized in that the allocation mechanism includes pinwheel and electricity
Machine, the pinwheel include:
Wheel hub, the wheel hub are rotationally connected in the ontology by shaft;
Multiple thimbles are arranged in multiple thimble point multiple groups the outer peripheral surface of the wheel hub, and thimble described in every group is along the wheel
The axial arranging of hub;
The output shaft of the motor is connect with one end of the shaft, for driving the shaft to drive the wheel hub and the top
Needle rotation, so that material is equably dialed out to the material channel from feed inlet by the thimble.
3. material particles arrangement device according to claim 2, which is characterized in that
The allocation mechanism further includes being set to the intrinsic arc-shaped guide plate, one end of the arc-shaped guide plate be placed in it is described into
At material mouth, the other end has the first gap, the section of the arc-shaped guide plate towards the material channel and with the material channel
Shape is adapted with the rotational trajectory of the thimble;
The thimble passes through elastic component and the wheel hub elastic connection;
The thimble can contact with the arc-shaped guide plate in rotary course and be in compressive state, until arc described in its whiz
Shape guide plate and extend out to first gap, the material is equably dialed out into the material from first gap on a small quantity
Channel.
4. material particles arrangement device according to claim 3, which is characterized in that
Multiple first grooves are placed on the outer peripheral surface of the wheel hub;
Each thimble in thimble described in every group is connect by connecting plate with one end of the elastic component, the elastic component it is another
End is connect with the slot bottom of each first groove;
The pinwheel further includes multiple sealing plates, and the inner surface of each sealing plate is provided with compatible convex with first groove
It rises, is linearly placed with multiple second grooves in the protrusion, the slot bottom of each second groove is provided with through-hole;
The sealing plate is plugged in first groove by the protrusion, and the thimble passes through the through-hole, and the connection
Plate and the elastic component are contained in second groove.
5. material particles arrangement device according to claim 3, which is characterized in that
First gap there are two being symmetrical arranged in the two lateral walls of the ontology, and it is symmetrical on the end face of the two relatively described side walls
There are two slots for setting;
The both ends of the shaft are rotationally connected with respectively in two first gap;
The both ends of the arc-shaped guide plate are connected separately with plate compatible with the slot, and the bottom of the plate is provided with
Second gap;
The arc-shaped guide plate is plugged in the slot by the plate, and second gap and shaft rotation connect
It connects.
6. material particles arrangement device according to claim 1, which is characterized in that
The pusher includes driving portion, and connect and be located at the push plate in the material channel exit with the driving portion,
The driving portion intermittently send the material slid from the material channel for driving the push plate to move up and down
To the discharge port.
7. material particles arrangement device according to claim 6, which is characterized in that
The guide groove of the direction of motion arrangement along the push plate is provided in the ontology;
The push plate is slidably positioned in the guide groove, and the guide groove described in the driving lower edge of the driving portion moves.
8. material particles arrangement device according to claim 6, which is characterized in that
The push plate has pusher face, and the pusher face is the arcwall face of indent;
The discharge outlet has been connected obliquely discharging gate, and the inner surface of the discharging gate is arc compatible with the pusher face
Shape face;
When the driving portion drives the push plate to move upwards, the pusher face of the push plate and the inner surface of the discharging gate are neat
It is flat.
9. material particles arrangement device according to claim 1, which is characterized in that further include:
Feed nozzle, the feed nozzle are connected to the feed inlet, and funnel-shaped;
Baffle, the baffle are connected to the arrival end of the feed nozzle, and the top and bottom of the baffle are taper
Face, and there is the second gap between the baffle and the feed nozzle;
The mounting portion is set to the feed nozzle, and when the sample bottle is installed on the mounting portion, the baffle
Top surface can protrude into the sample bottle, and second gap is connected to the sample bottle.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910176797.3A CN110015513B (en) | 2019-03-08 | 2019-03-08 | Material particle cooking device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910176797.3A CN110015513B (en) | 2019-03-08 | 2019-03-08 | Material particle cooking device |
Publications (2)
Publication Number | Publication Date |
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CN110015513A true CN110015513A (en) | 2019-07-16 |
CN110015513B CN110015513B (en) | 2020-09-22 |
Family
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Cited By (5)
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CN110496795A (en) * | 2019-09-06 | 2019-11-26 | 合肥蓝优净环保科技有限公司 | The two-way means for communicating of intelligent material |
CN110508512A (en) * | 2019-09-06 | 2019-11-29 | 合肥蓝优净环保科技有限公司 | Single-roll two-way delivery device |
CN110508508A (en) * | 2019-09-06 | 2019-11-29 | 合肥蓝优净环保科技有限公司 | Intelligent material sorts delivery method |
CN111545326A (en) * | 2020-05-14 | 2020-08-18 | 张雨 | Preparation process of industrial calcium carbonate |
CN113071793A (en) * | 2021-03-30 | 2021-07-06 | 蚌埠学院 | Ejection type food packaging container |
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CN113071793A (en) * | 2021-03-30 | 2021-07-06 | 蚌埠学院 | Ejection type food packaging container |
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