CN207876070U - A kind of particle positioning delivery device - Google Patents
A kind of particle positioning delivery device Download PDFInfo
- Publication number
- CN207876070U CN207876070U CN201820057589.2U CN201820057589U CN207876070U CN 207876070 U CN207876070 U CN 207876070U CN 201820057589 U CN201820057589 U CN 201820057589U CN 207876070 U CN207876070 U CN 207876070U
- Authority
- CN
- China
- Prior art keywords
- drum
- particle
- negative pressure
- transfer
- grain forming
- 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
Abstract
The utility model discloses a kind of particle positioning delivery device, including launching charging basket, launching feeding unit, grain forming drum and molding transfer drum, it launches the setting of charging basket bottom and launches feeding unit, the output end for launching feeding unit is located at the inside of grain forming drum, and molding transfer drum is set to grain forming and rouses side.Particle, which is released to be sent by dispensing charging basket, launches feeding unit, utilize the rotation of feeding spring, particle quantitative is gradually sent to particle dispensing port, and the particle positioning formed between grain forming drum and molding transfer drum is fallen at particle dispensing port and is launched on station, under the suction function of molding transfer drum, after particle attachment takes shape in first material layer surface, sent out by molding transfer drum and compound with second material layer.The utility model can realize quick dispensing of the particle on protection pad product, and effectively particle grammes per square metre be maintained to stablize, and placement position is accurate, effectively reduces cost of labor, largely improves the process velocity of integrated artistic.
Description
Technical field
The utility model is related to health product manufacturing technology field, more particularly to a kind of particle positions delivery device.
Background technology
Protection pad with particle packet is emerging currently on the market health product, as people propose product quality requirement
Height, market demand also increasingly increase.But when such current protection pad product manufacturing, due to launching process to particle, there is no special
Equipment carries out, so particle dispensing is all made of artificial dispensing, this is easy for the particle weight for occurring contained on protection pad product
Unstable, its placement position also not accurate enough phenomenon is measured, while high labor cost, working efficiency are low, largely limit
The promotion of integrated artistic process velocity, cost of goods manufactured are unable to get effective control, and the manufacturing speed of product also cannot be satisfied
The market demand.
Utility model content
The purpose of the utility model is to overcome the deficiencies in the prior art to provide one for the production technology of protection pad product
Kind particle positions delivery device, which can realize quick dispensing of the particle on protection pad product, and effectively maintain particle grammes per square metre
Stablize, placement position is accurate.
The technical solution of the utility model is:A kind of particle positioning delivery device, including launch charging basket, launch feeding list
Member, grain forming drum and molding transfer drum, launch the setting of charging basket bottom and launch feeding unit, launch the output end of feeding unit
Positioned at the inside of grain forming drum, molding transfer drum is set to grain forming and rouses side;
Dispensing feeding unit is spring feed mechanism, including Integral mounting base, feeding spring drive shaft, particle feeding
Seat, feeding spring, particle feed tube and feeding pipe mounting seat, the top surface of Integral mounting base are fixedly connected with charging basket is launched, particle
Material feeding seat is installed below Integral mounting base, and Integral mounting base is equipped with first through hole, particle material feeding seat is equipped with the second through-hole,
Inner cavity, first through hole and the second through-hole for launching charging basket are sequentially communicated, and feeding spring passes through the second through-hole on particle material feeding seat
Afterwards, stretching out particle send the part of seat to be set to inside particle feed tube, one end of particle feed tube by feeding pipe mounting seat with
The side of grain material feeding seat is fixedly connected, and the other end of particle feed tube is equipped with particle dispensing port, and feeding spring is located at particle feeding
One end in seat drives axis connection with feeding spring.
Wherein, particle dispensing port is located at the inside of grain forming drum as the output end for launching feeding unit;Feeding bullet
A part for spring drive shaft is stretched into particle material feeding seat and is connect with feeding spring, is located at the part outside particle material feeding seat, is passed through tune
Mandrel holds the lower section for being installed on Integral mounting base.
Grain forming drum and the opposite rotation of molding transfer drum, molding transfer drum are equipped with first material layer, particle at
Guide roller is equipped with below the joint of type drum and molding transfer drum, guide roller connects with molding transfer drum, and guide roller is equipped with the
Two material layers;First material layer grain forming drum and molding transfer drum joint adsorption particle after, molding transfer drum with
The joint of guide roller is covered in surface by second material layer and fixes particle.Wherein, first material layer and second material layer
Nonwoven cloth material can be used.
The grain forming drum includes assembly drum drum body and assembly drum transmission shaft, one end of assembly drum transmission shaft and assembly drum
The middle part connection of drum body;Assembly drum rouses the cylinder-like structure that body is one end open, is distributed on the cylindrical surface of assembly drum drum body more
The shape of a grain forming slot, each grain forming slot is consistent with protection pad shape of product, and each grain forming slot corresponds to one
The inside that assembly drum rouses body is stretched into station, the output end for launching feeding unit from the open end of assembly drum drum body.Wherein, it is molded
The middle part of drum transmission shaft is installed on particle by bearing block and positions on the supporting rack of delivery device.
The molding transfer drum includes transfer drum transmission shaft, drum body component and negative pressure component, and drum body component is in integrally one end
The cylinder-like structure of opening, negative pressure component are set in the inner cavity that drum body component is formed, and shift drum transmission shaft one end and drum body component
Middle part connection.
The bulging body component includes transfer drum drum body, stainless (steel) wire and transfer transfer module, shifts drum drum body and is opened for one end
The cylinder-like structure of mouth, stainless (steel) wire and transfer transfer module are ring-shaped structure, shift drum and rouse body, stainless (steel) wire and transfer
Transfer module is socketed successively from inside to outside;The cylindrical surface of transfer drum drum body is equipped with the first station straight slot, shifts transfer module
Anchor ring is equipped with second station straight slot, the first station straight slot and second station straight slot a pair inside and outside stainless (steel) wire
It answers, and the shape of the first station straight slot and second station straight slot is consistent with protection pad shape of product.When grain forming drum and at
Type transfer drum rotation when, grain forming slot with the first station straight slot, second station straight slot is corresponding and runs simultaneously, formation one
Station is launched in the particle positioning of protection pad product.Wherein, the first station straight slot mainly coordinates negative pressure component to use, and makes entire particle
Positioning launches station and forms negative pressure, and first material layer surface is adsorbed in order to particle stabilized;Stainless (steel) wire is layed in transfer drum
Between drum body and transfer transfer module, it can prevent molding from shifting bulging negative pressure and being adsorbed first material layer and particle to be recessed into and turn
It moves in the inner cavity of drum drum body;Second station straight slot is mainly used for realizing that transfer of the particle after first material layer surface forming is handed over
It connects.
The negative pressure component includes negative pressure cavity ontology and negative pressure pipe fitting, and negative pressure cavity ontology is set to the interior of transfer drum drum body
Side forms the negative pressure chamber of semi-annular shape between negative pressure cavity ontology and transfer drum drum body, when rousing body component rotation, second station is logical
When slot goes to negative pressure chamber surface, second station straight slot is connected to negative pressure chamber;Multiple negative tubes are distributed on negative pressure cavity ontology
A negative pressure pipe fitting is arranged on each negative pressure interface tube for interface.Wherein, negative pressure cavity ontology is installed on the internal side of transfer drum drum and leans on
At nearly grain forming drum, negative pressure cavity ontology is fixed, and is not rotated with the rotation of drum body component, is shifted and pass through in the middle part of drum transmission shaft
Bearing block is connect with negative pressure cavity outer body, and the end for shifting drum transmission shaft is connect with transfer drum drum body, to which mobilization rouses
Drum body, stainless (steel) wire and transfer transfer module rotation;Each negative pressure pipe fitting makes negative pressure chamber by the external negative pressure device of negative tube
Inside persistently keep negative pressure state.
The dispensing charging basket includes cylinder, agitating shaft, the first stirring blade, the second stirring blade, cover board and decelerating motor,
Cylinder body bottom is equipped with third through-hole, and third through-hole is sequentially communicated with the first through hole and the second through-hole for launching feeding unit;Cover board
At the top of cylinder, after agitating shaft passes through cover board, agitating shaft upper end is connect with decelerating motor, agitating shaft lower end and the first paddle
Piece connects, and is located in the middle part of the agitating shaft below cover board and is equipped with the second stirring blade, and the first stirring blade is located at the of cylinder body bottom
Three through holes, the second stirring blade are located in the middle part of cylinder.Wherein, the effect of the second stirring blade is to entering the particle in cylinder
It is stirred and breaks up, prevent particle from caking;The effect of first stirring blade be to will enter launch feeding unit particle into
Row, which futher stirs, to be broken up, it is ensured that particle smoothly steadily enters and launches in feeding unit.The output end of decelerating motor with stir
The connection of axis upper end is mixed, the upper end of agitating shaft is also installed on particle by bearing block and positions on the supporting rack of delivery device, and slow down electricity
Machine is installed on particle also by motor mount and positions on the supporting rack of delivery device.
It is also associated with spring feeder on the dispensing charging basket, launches and is provided with feed inlet on the cover board of charging basket, spring feeding
The output end of machine is connect with feed inlet.The existing spring feeder in market can be used in the spring feeder, can pass through adjusting
The rotating speed of spring and spacing adjust the injected volume of particle, and for granular material, which, which can realize, stablizes,
Even feeding.
The lower section of the molding transfer drum is additionally provided with particle recovery tube, and one end of particle recovery tube is equipped with particle recovery port,
Particle recovery port shifts drum surface, the external negative-pressure recovery device of the other end of particle recovery tube close to molding.Wherein, negative pressure is returned
Receiving apparatus uses the existing negative-pressure air fan in market.Status requirement set by particle recovery port is located above guide roller, effect
It is then to be recycled, prevented by the suction function at particle recovery port when partial particulate is not formed transfer drum absorption and takes away
Only material waste, but vacuum force requires the vacuum force being less than in molding transfer drum herein.
It can realize that a kind of particle positions put-on method by above-mentioned apparatus, specially:Particle is released by dispensing charging basket and is sent into
Feeding unit is launched gradually to send particle quantitative to particle dispensing port, and in particle dispensing port using the rotation of feeding spring
Place falls into the particle positioning formed between grain forming drum and molding transfer drum and launches on station, makees in the negative pressure of molding transfer drum
Under, after particle attachment takes shape in first material layer surface, sent out by molding transfer drum and compound with second material layer.
Above-mentioned particle positioning delivery device and method are in use, its principle is:Particle is sent by spring feeder and launches material
After bucket, it is stored in and launches in charging basket;When needing positioning molding, particle is released to be sent by dispensing charging basket and be launched when on protection pad product
Feeding unit launches the rotation that feeding unit utilizes feeding spring, particle quantitative is gradually sent to particle dispensing port;In particle
On the corresponding position of dispensing port, the grain forming slot on grain forming drum shifts the first station straight slot on rousing, second with molding
Station straight slot corresponds and forms the particle positioning dispensing station of a protection pad product, and first material layer shifts drum band by molding
It positions and is launched on station to the particle, using the suction function in molding transfer drum, the shape for launching station is positioned according to particle,
Particle adheres to and takes shape in first material layer surface, and during being somebody's turn to do, the particle partly fallen can be returned by particle recovery tube
It receives;Adsorption has the first material layer of particle to be carried over the rotation of molding transfer drum, and with second at guide roller
Material layer is compound, ultimately forms particle packet.During being somebody's turn to do, the groove passed through on suction function and particle positioning dispensing station is made
With, and the quantitative conveying effect of feeding unit feeding spring is launched, it can effectively ensure that particle region on each protection pad product
The stability of position and grammes per square metre realizes that precise positioning of particle during high speed transfer is launched.
The utility model compared with the existing technology, has the advantages that:
This particle positions delivery device and method can realize quick dispensing of the particle on protection pad product, and effectively maintenance
Grain grammes per square metre is stablized, and placement position is accurate.Cost of labor can be effectively reduced simultaneously, improves working efficiency, largely improved
The process velocity of integrated artistic, makes cost of goods manufactured be effectively controlled, and the manufacturing speed of product also can preferably meet city
Field demand.
This particle positions in delivery device, is acted on using the quantitative conveying for launching feeding unit feeding spring, connecting shaping
The groove effect on the suction function and particle positioning dispensing station of drum is shifted, can effectively ensure that particle on each protection pad product
The stability of regional location and grammes per square metre realizes that precise positioning of particle during high speed transfer is launched.
This particle positions in delivery device, by launching setting Multi-stage stirring leaf (i.e. above-mentioned first paddle in charging basket
With the second paddle), preferably particle can be stirred and broken up, particle from caking is prevented;Ensure particle smoothly and steadily into
Enter to launch in feeding unit.
Description of the drawings
Fig. 1 is the overall structure diagram that this particle positions delivery device.
Fig. 2 is the structural schematic diagram for launching feeding unit.
Fig. 3 is the exploded view that each building block in feeding unit is launched in Fig. 2.
Fig. 4 is the structural schematic diagram of grain forming drum.
Fig. 5 is the structural schematic diagram of molding transfer drum.
Fig. 6 is the exploded view of each building block in molding transfer drum in Fig. 5.
Fig. 7 is the position relationship schematic diagram for launching feeding unit, grain forming drum and molding transfer drum three.
Fig. 8 is the directions the A view of Fig. 7.
Fig. 9 is the exploded view for launching each building block in charging basket.
Figure 10 is the position relationship schematic diagram of molding transfer drum and particle recovery tube.
Specific implementation mode
With reference to embodiment, the utility model is described in further detail, but the embodiment of the utility model
It is without being limited thereto.
Embodiment
A kind of particle of the present embodiment positions delivery device, as shown in Figure 1, including launch charging basket 1, launch feeding unit 2,
Grain assembly drum 3 and molding transfer drum 4, launch the setting of charging basket bottom and launch feeding unit, launch the output end position of feeding unit
In the inside of grain forming drum, molding transfer drum is set to grain forming and rouses side;Grain forming drum and molding transfer drum turn in opposite directions
Dynamic, molding shifts drum and is equipped with first material layer 5, and grain forming drum and molding, which are shifted, is equipped with guide roller 6 below the joint of drum,
Guide roller connects with molding transfer drum, and guide roller is equipped with second material layer 7;First material layer turns in grain forming drum and molding
After moving the joint adsorption particle of drum, being covered in surface by second material layer in the joint of molding transfer drum and guide roller will
Particle is fixed.Wherein, nonwoven cloth material can be used in first material layer and second material layer.It launches and is also associated with spring on charging basket
Feeder 8 is launched and is provided with feed inlet on the cover board of charging basket, and the output end of spring feeder is connect with feed inlet.The spring feeding
The existing spring feeder in market can be used in machine, and the dispensing of particle can be adjusted by the rotating speed and spacing of adjustment spring
Amount, for granular material, which can realize stable, uniform feeding.
The concrete structure of above-mentioned each unit is as follows:
As shown in Figure 2 or Figure 3, it is spring feed mechanism, including Integral mounting base 9, feeding spring to launch feeding unit
Drive shaft 10, particle material feeding seat 11, feeding spring 12, particle feed tube 13 and feeding pipe mounting seat 14, the top of Integral mounting base
Face is fixedly connected with charging basket is launched, and particle material feeding seat is installed below Integral mounting base, and Integral mounting base is equipped with first through hole
15, particle material feeding seat is equipped with the second through-hole (not shown), launches inner cavity, first through hole and the second through-hole of charging basket successively
Connection after feeding spring passes through the second through-hole on particle material feeding seat, stretches out particle and the part of seat is sent to be set in particle feed tube
The one end in portion, particle feed tube is fixedly connected by feeding pipe mounting seat with the side of particle material feeding seat, particle feed tube it is another
One end is equipped with particle dispensing port 16, and feeding spring is located at one end in particle material feeding seat and drives axis connection with feeding spring.Wherein,
Particle dispensing port is located at the inside of grain forming drum as the output end for launching feeding unit (as shown in Fig. 7 or Fig. 8);It send
A part for material spring drive shaft stretches into particle material feeding seat to be connect with feeding spring, is located at the part outside particle material feeding seat, is led to
Cross the lower section that self-aligning bearing 17 is installed on Integral mounting base.
As shown in figure 4, grain forming drum includes assembly drum drum body 18 and assembly drum transmission shaft 19, the one of assembly drum transmission shaft
The middle part for rousing body with assembly drum is held to connect;Assembly drum rouses the cylinder-like structure that body is one end open, and assembly drum rouses the cylindrical surface of body
On multiple grain forming slots 20 are distributed with, the shape of each grain forming slot is consistent with protection pad shape of product, each grain forming
Slot corresponds to a station, and the output end for launching feeding unit is stretched into from the open end of assembly drum drum body in assembly drum drum body
Side.Wherein, the middle part of assembly drum transmission shaft is installed on particle by bearing block 21 and positions on the supporting rack of delivery device.
As shown in Figure 5 or Figure 6, molding transfer drum includes transfer drum transmission shaft 22, drum body component and negative pressure component, drum body group
Part is in integrally the cylinder-like structure of one end open, and negative pressure component is set in the inner cavity that drum body component is formed, and shifts drum transmission shaft one
The middle part with drum body component is held to connect.Drum body component includes transfer drum drum body 23, stainless (steel) wire 24 and transfer transfer module 25, is turned
The cylinder-like structure that drum drum body is one end open is moved, stainless (steel) wire and transfer transfer module are ring-shaped structure, shift drum drum
Body, stainless (steel) wire and transfer transfer module are socketed successively from inside to outside;The cylindrical surface of transfer drum drum body is logical equipped with the first station
Slot 26, the anchor ring for shifting transfer module are equipped with second station straight slot 27, and the first station straight slot and second station straight slot be not
Rust steel mesh inside and outside correspond, and the shape of the first station straight slot and second station straight slot with protection pad shape of product phase
Unanimously.When grain forming drum and molding transfer drum rotation, as shown in Fig. 7 or Fig. 8, grain forming slot and the first station straight slot,
Second station straight slot is corresponding and runs simultaneously, and station is launched in the particle positioning for forming a protection pad product.Wherein, the first station
Straight slot mainly coordinates negative pressure component to use, and so that entire particle positioning is launched station and forms negative pressure, in order to particle stabilized absorption
On first material layer surface;Stainless (steel) wire is layed between transfer drum drum body and transfer transfer module, can prevent molding transfer drum
Negative pressure first material layer and particle adsorbed are recessed into the inner cavity of transfer drum drum body;Second station straight slot is mainly used for reality
Transfer handing-over of the existing particle after first material layer surface forming.Negative pressure component includes negative pressure cavity ontology 28 and negative pressure pipe fitting
29, negative pressure cavity ontology is set to the inside of transfer drum drum body, and the negative of semi-annular shape is formed between negative pressure cavity ontology and transfer drum drum body
Chamber is pressed, when drum body component rotates, when second station straight slot goes to negative pressure chamber surface, second station straight slot connects with negative pressure chamber
It is logical;Multiple negative pressure interface tubes 30 are distributed on negative pressure cavity ontology, a negative pressure pipe fitting is set on each negative pressure interface tube.Its
In, negative pressure cavity ontology is installed on the internal side of transfer drum drum at grain forming drum, and negative pressure cavity ontology is fixed, not with drum body component
Rotation and rotate, the middle part for shifting drum transmission shaft connect by bearing block with negative pressure cavity outer body, the bulging transmission shaft of transfer
End is connect with transfer drum drum body, to mobilization drum drum body, stainless (steel) wire and transfer transfer module rotation;Each negative tube connects
Head makes persistently to keep negative pressure state in negative pressure chamber by the external negative pressure device of negative tube.
As shown in figure 9, launch charging basket include cylinder 31, agitating shaft 32, the first stirring blade 33, the second stirring blade 34,
Cover board 35 and decelerating motor 36, cylinder body bottom are equipped with third through-hole, third through-hole and the first through hole for launching feeding unit and the
Two through-holes are sequentially communicated;Cover board is set at the top of cylinder, and after agitating shaft passes through cover board, agitating shaft upper end is connect with decelerating motor, is stirred
It mixes axis lower end to connect with the first stirring blade, is located in the middle part of the agitating shaft below cover board and is equipped with the second stirring blade, the first stirring
Blade is located at the third through-hole of cylinder body bottom, and the second stirring blade is located in the middle part of cylinder.Wherein, the effect of the second stirring blade
It is to be broken up to being stirred into the particle in cylinder, prevents particle from caking;The effect of first stirring blade is to that will enter
The particle of dispensing feeding unit, which futher stirs, to be broken up, it is ensured that particle smoothly steadily enters and launches in feeding unit.
The output end of decelerating motor is connect with agitating shaft upper end, and the upper end of agitating shaft is also installed on particle positioning by bearing block and launches dress
On the supporting rack set, decelerating motor is installed on particle also by motor mount 37 and positions on the supporting rack of delivery device.
As shown in Fig. 1 or Figure 10, the lower section of molding transfer drum is additionally provided with particle recovery tube 38, and one end of particle recovery tube is set
There are particle recovery port 39, particle recovery port to shift drum surface, the external negative pressure recycling of the other end of particle recovery tube close to molding
Device.Wherein, negative-pressure recovery device uses the existing negative-pressure air fan in market.Status requirement set by particle recovery port, which is located at, leads
Above to roller, effect is then to pass through the negative pressure at particle recovery port when partial particulate is not formed transfer drum absorption and takes away
Effect is recycled, and prevents material waste, but vacuum force requires the vacuum force being less than in molding transfer drum herein.
It can realize that a kind of particle positions put-on method by above-mentioned apparatus, specially:Particle is released by dispensing charging basket and is sent into
Feeding unit is launched gradually to send particle quantitative to particle dispensing port, and in particle dispensing port using the rotation of feeding spring
Place falls into the particle positioning formed between grain forming drum and molding transfer drum and launches on station, makees in the negative pressure of molding transfer drum
Under, after particle attachment takes shape in first material layer surface, sent out by molding transfer drum and compound with second material layer.
Above-mentioned particle positioning delivery device and method are in use, its principle is:Particle is sent by spring feeder and launches material
After bucket, it is stored in and launches in charging basket;When needing positioning molding, particle is released to be sent by dispensing charging basket and be launched when on protection pad product
Feeding unit launches the rotation that feeding unit utilizes feeding spring, particle quantitative is gradually sent to particle dispensing port;In particle
On the corresponding position of dispensing port, the grain forming slot on grain forming drum shifts the first station straight slot on rousing, second with molding
Station straight slot corresponds and forms the particle positioning dispensing station of a protection pad product, and first material layer shifts drum band by molding
It positions and is launched on station to the particle, using the suction function in molding transfer drum, the shape for launching station is positioned according to particle,
Particle adheres to and takes shape in first material layer surface, and during being somebody's turn to do, the particle partly fallen can be returned by particle recovery tube
It receives;Adsorption has the first material layer of particle to be carried over the rotation of molding transfer drum, and with second at guide roller
Material layer is compound, ultimately forms particle packet.During being somebody's turn to do, the groove passed through on suction function and particle positioning dispensing station is made
With, and the quantitative conveying effect of feeding unit feeding spring is launched, it can effectively ensure that particle region on each protection pad product
The stability of position and grammes per square metre realizes that precise positioning of particle during high speed transfer is launched.
As described above, the utility model can be realized preferably, above-described embodiment is only the preferable implementation of the utility model
Example is not used for limiting the scope of the utility model;It is i.e. all according to equivalent changes and modifications made by the utility model content,
All covered by the utility model claims range claimed.
Claims (9)
1. a kind of particle positions delivery device, which is characterized in that including launch charging basket, launch feeding unit, grain forming drum and
Molding transfer drum launches the setting of charging basket bottom and launches feeding unit, and the output end for launching feeding unit is located at grain forming drum
Inside, molding transfer drum be set to grain forming rouse side;
Dispensing feeding unit is spring feed mechanism, including Integral mounting base, feeding spring drive shaft, particle material feeding seat, is sent
Expect that spring, particle feed tube and feeding pipe mounting seat, the top surface of Integral mounting base are fixedly connected with charging basket is launched, particle material feeding seat
It is installed below Integral mounting base, Integral mounting base is equipped with first through hole, particle material feeding seat is equipped with the second through-hole, launches material
Inner cavity, first through hole and the second through-hole of bucket are sequentially communicated, and after feeding spring passes through the second through-hole on particle material feeding seat, are stretched out
Particle send the part of seat to be set to inside particle feed tube, and one end of particle feed tube passes through feeding pipe mounting seat and particle material feeding seat
Side be fixedly connected, the other end of particle feed tube is equipped with particle dispensing port, and feeding spring is located at one in particle material feeding seat
End drives axis connection with feeding spring.
2. a kind of particle positions delivery device according to claim 1, which is characterized in that the grain forming drum and molding turn
Drum rotation in opposite directions is moved, transfer drum is molded and is set equipped with first material layer, grain forming drum and the joint lower section for being molded transfer drum
There are guide roller, guide roller to connect with molding transfer drum, guide roller is equipped with second material layer.
3. a kind of particle positions delivery device according to claim 1, which is characterized in that the grain forming drum includes molding
One end of drum drum body and assembly drum transmission shaft, assembly drum transmission shaft is connect with the middle part of assembly drum drum body;It is one that assembly drum, which rouses body,
The cylinder-like structure of end opening, assembly drum drum body cylindrical surface on multiple grain forming slots, the shape of each grain forming slot is distributed with
Shape is consistent with protection pad shape of product, and each grain forming slot corresponds to a station, launch the output end of feeding unit from
The inside of assembly drum drum body is stretched into the open end of assembly drum drum body.
4. a kind of particle positions delivery device according to claim 1, which is characterized in that the molding transfer drum includes transfer
Drum transmission shaft, drum body component and negative pressure component, drum body component are in integrally the cylinder-like structure of one end open, and negative pressure component is set to drum
In the inner cavity that body component is formed, shifts drum transmission shaft one end and connect with the middle part of drum body component.
5. a kind of particle positions delivery device according to claim 4, which is characterized in that the bulging body component includes that transfer is roused
Drum body, stainless (steel) wire and transfer transfer module shift the cylinder-like structure that drum drum body is one end open, and stainless (steel) wire and transfer are handed over
Connection module is ring-shaped structure, shifts drum drum body, stainless (steel) wire and transfer transfer module and is socketed successively from inside to outside;Transfer drum
The cylindrical surface of drum body is equipped with the first station straight slot, and the anchor ring for shifting transfer module is equipped with second station straight slot, the first work
Position straight slot and second station straight slot correspond inside and outside stainless (steel) wire, and the first station straight slot and second station straight slot
Shape it is consistent with protection pad shape of product.
6. a kind of particle positions delivery device according to claim 5, which is characterized in that the negative pressure component includes negative pressure cavity
Ontology and negative pressure pipe fitting, negative pressure cavity ontology are set to the inside of transfer drum drum body, shape between negative pressure cavity ontology and transfer drum drum body
At the negative pressure chamber of semi-annular shape, when drum body component rotates, when second station straight slot goes to negative pressure chamber surface, second station is logical
Slot is connected to negative pressure chamber;Multiple negative pressure interface tubes are distributed on negative pressure cavity ontology, setting one is negative on each negative pressure interface tube
Pressure pipe joint.
7. a kind of particle positions delivery device according to claim 1, which is characterized in that the dispensing charging basket include cylinder,
Agitating shaft, the first stirring blade, the second stirring blade, cover board and decelerating motor, cylinder body bottom are equipped with third through-hole, third through-hole
It is sequentially communicated with the first through hole and the second through-hole for launching feeding unit;Cover board is set at the top of cylinder, after agitating shaft passes through cover board,
Agitating shaft upper end is connect with decelerating motor, and agitating shaft lower end is connect with the first stirring blade, is located in the agitating shaft below cover board
Portion is equipped with the second stirring blade, and the first stirring blade is located at the third through-hole of cylinder body bottom, and the second stirring blade is located at cylinder
Middle part.
8. a kind of particle positions delivery device according to claim 7, which is characterized in that be also associated on the dispensing charging basket
Spring feeder is launched and is provided with feed inlet on the cover board of charging basket, and the output end of spring feeder is connect with feed inlet.
9. a kind of particle positions delivery device according to claim 1, which is characterized in that the lower section of the molding transfer drum is also
Equipped with particle recovery tube, one end of particle recovery tube is equipped with particle recovery port, and particle recovery port shifts drum surface close to molding,
The external negative-pressure recovery device of the other end of particle recovery tube, wherein negative-pressure recovery device uses the existing negative-pressure air fan in market.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820057589.2U CN207876070U (en) | 2018-01-12 | 2018-01-12 | A kind of particle positioning delivery device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820057589.2U CN207876070U (en) | 2018-01-12 | 2018-01-12 | A kind of particle positioning delivery device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207876070U true CN207876070U (en) | 2018-09-18 |
Family
ID=63506430
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820057589.2U Active CN207876070U (en) | 2018-01-12 | 2018-01-12 | A kind of particle positioning delivery device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207876070U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108190073A (en) * | 2018-01-12 | 2018-06-22 | 广州市兴世机械制造有限公司 | A kind of particle positioning delivery device and method |
-
2018
- 2018-01-12 CN CN201820057589.2U patent/CN207876070U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108190073A (en) * | 2018-01-12 | 2018-06-22 | 广州市兴世机械制造有限公司 | A kind of particle positioning delivery device and method |
CN108190073B (en) * | 2018-01-12 | 2023-08-08 | 广州市兴世机械制造有限公司 | Particle positioning and delivering device and method |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN206315984U (en) | A kind of terminal automatic dispensing machine | |
CN209699488U (en) | A kind of brick production molding assistant feeding device | |
CN207876070U (en) | A kind of particle positioning delivery device | |
CN212915393U (en) | Ethyl cellulose dissolving device | |
CN208700062U (en) | A kind of general suction device of multichannel powder particles material | |
CN202315779U (en) | Powder homogenizing bin | |
CN201421818Y (en) | Automation lamp blue-plated device | |
CN108190073A (en) | A kind of particle positioning delivery device and method | |
CN206324152U (en) | Betel nut full automatic point halogen machine | |
CN205471737U (en) | Slider -crank formula powder transportation device | |
CN106000200B (en) | A kind of stirring means of brake block premix arc blade type stirrer | |
CN205257487U (en) | A material lifting equipment for fertile production of liquid | |
CN216683257U (en) | Stirring and sucking hopper | |
CN109110522A (en) | A kind of vibrating feeder | |
CN211109581U (en) | Efficient biological particle conveying device | |
CN201557529U (en) | Egg product slurry covering and ash wrapping machine | |
CN112223648A (en) | Centralized feeding system for granular materials | |
CN220095242U (en) | Foam curing bin | |
CN207219991U (en) | A kind of cake skin automatic conveyor | |
CN207711047U (en) | Ceramic body powder is homogenized production line and its homogenization installation | |
CN109260983A (en) | A kind of the aquatic feeds hybrid process device and its processing method of fresh-water carp | |
CN217471720U (en) | Bubble water machine | |
CN211937417U (en) | Vibration unloading centrifugal device | |
JP5146881B2 (en) | Powder feeder | |
CN208745118U (en) | A kind of pipeline processing uniform discharge device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |