CN206534101U - A kind of feed cooling device - Google Patents
A kind of feed cooling device Download PDFInfo
- Publication number
- CN206534101U CN206534101U CN201621369543.1U CN201621369543U CN206534101U CN 206534101 U CN206534101 U CN 206534101U CN 201621369543 U CN201621369543 U CN 201621369543U CN 206534101 U CN206534101 U CN 206534101U
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- China
- Prior art keywords
- feed
- rotary shaft
- block piece
- cooling device
- cooling
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Abstract
The utility model discloses a kind of feed cooling device, the feed cooling device includes frame, the body being located in frame, the body is provided with charging aperture, discharging opening, air inlet and air outlet, and charging aperture is located at the top of body, discharging opening and air inlet are located at the bottom of body, air outlet is located at the middle and upper part of body, and the inside of the body is provided with feed block piece, and the part in body is divided into independent temporary storage cavity and the cooling chamber below temporary storage cavity by the feed block piece;The feed block piece is rotatably connected on internal body by rotary shaft, when feed block piece is rotated, the distance between side wall of side adjacent with rotary shaft on feed block piece and body increases and left between the two for the passage by feed, have the advantages that fed batch cooling, feed and cooling contacted with wind fully, good cooling results, cooling effectiveness it is high.
Description
Technical field
The utility model is related to feed-processing equipment field, more particularly to a kind of feed cooling device.
Background technology
In production, feed is often the condition of high temperature after processing, if at this moment directly packed, can make feed in the short time
Endometamorphism is addled, so the refrigerating work procedure of feed after processing is very necessary.Feed cooling device is used as a kind of special use
A part essential in current feed production technology has been increasingly becoming to carry out the device of feed cooling.
Publication No. CN205321157U, publication date disclosed a kind of particle feeding for the Chinese patent of on 06 22nd, 2016
Expect cooling device, it includes casing, blanking funnel, one group of buffering blanking device, one group of blower fan, one group of circulation discharge pipe and master and followed
Ring discharge pipe, the upper and lower ends of the casing are opening, and both sides are respectively equipped with one group of air inlet and air outlet, the blanking leakage
Bucket is provided with one group of air inlet and one group of air outlet, and blanking funnel is fixedly mounted in casing by support, one group of buffering
Blanking device is equidistantly mounted in blanking funnel from top to bottom, and the buffering blanking device is by rotating shaft and one group of buffering blade group
Into.
Prior art needs to set multiple parallel buffering blanking devices when cooling down feed so that hold inside cooling device
Feed of receiving fall space diminish, when single be passed through feed it is more when easily cause blocking, be matched, need to subtract in right amount
The amount of few high temperature feed being passed through every time so that the processing speed of cooling device slows down, and production efficiency is reduced to a certain extent.
Utility model content
The purpose of this utility model is to provide a kind of feed cooling device, which solves the feeding of feed cooling device inner containment
Expect the less problem in space of whereabouts, fed batch enters cooling with feed droping space inside feed cooling device enough
The preferable advantage of chamber cooling effect.
Above-mentioned technical purpose of the present utility model technical scheme is that:
A kind of feed cooling device, including frame, the body that is located in frame, the body is provided with charging aperture, discharging
Mouth, air inlet and air outlet, and charging aperture is located at the top of body, discharging opening and air inlet are located at the bottom of body, air outlet
Positioned at the middle and upper part of body, the inside of the body is provided with feed block piece, and internal body is separated into independence by the feed block piece
Temporary storage cavity and the cooling chamber below temporary storage cavity;The feed block piece is rotatably connected on internal body by rotary shaft, when
The distance between side wall of the side adjacent with rotary shaft and body increase and both it on feed block piece when feed block piece is rotated
Between leave for the passage by feed.
Using said structure, internal body is provided with rotatable feed block piece, and body is divided into two parts so that feed from
When charging aperture enters temporary storage cavity, temporarily first it can rest on inside temporary storage cavity, after a certain amount of feed is stored, feed block piece is rotated
So that feed enters cooling chamber, feed leaves feed block piece after feed block piece and recovers origin-location, continues buildup of feed, feed exists
Contacted and cooled down with wind with cooling in cooling chamber.Such set causes fed batch to enter cooling chamber, and single enters cooling chamber
Interior forage volume is less, and only one feed baffle plate ensure that feed drop is longer so that feed and cooling wind
Contact is more abundant, improves cooling effectiveness.
More preferably:The feed block piece is that correspondence eccentric disk is provided with limited block on eccentric disk, the body, institute
State limited block and be in same level with rotary shaft.
Using said structure, the center of gravity of eccentric disk is not in the geometric center of flat board, and the one side being inclined in eccentric disk center of gravity is set
Limited location block, eccentric disk has the trend being connected on limited block all the time.Fallen on partially after feed enters in temporary storage cavity from charging aperture
When on core, with gradually increasing for feed, eccentric disk can rotate because of the pressure of feed, so that the feed above eccentric disk
Slid from eccentric disk and enter cooling chamber.
More preferably, the feed block piece is made up of multiple four-bladed vanes, and four support plate size shapes of four-bladed vane are equal
It is identical and it is orthogonal set, exist between the circumscribed circle of adjacent four-bladed vane, between the circumscribed circle of four-bladed vane and body inwall
Gap and the gap pass through insufficient for complete feed grain;Four-bladed vane and rotary shaft correspond set and four-bladed vane around with
Its corresponding rotary shaft is rotated.
Using said structure, four-bladed vane constitutes feed block piece, and four-bladed vane is rotated around rotary shaft so that when four-bladed vane rotates
Feed on four-bladed vane enters cooling chamber from temporary storage cavity, and four support plates of four-bladed vane constitute four separate cavities, when four-bladed vane
When one separate cavities is entered in cooling chamber, have another separate cavities and enter temporary storage cavity so that can only enter every time in cooling chamber
Feed a part, so that feed is more comprehensively contacted with cooling with wind, improves the efficiency of cooling.And adjacent four-bladed vane
There is gap between circumscribed circle, between the circumscribed circle of four-bladed vane and body inwall, reduce adjacent four-bladed vane to mutually rotating
Influence.
More preferably, each rotary shaft is located at the sidepiece midpoint of corresponding four-bladed vane, and one end of rotary shaft is set
There is the synchronous sprocket wheel of synchronous rotation;The body is provided with motor, and the motor shaft of motor is provided with same with it
Walk the drive sprocket rotated, between drive sprocket and synchronous sprocket wheel, between adjacent sync sprocket wheel by with drive sprocket, all
The synchronization chain transmission that synchronous sprocket wheel is meshed.
Using said structure, rotary shaft is located at the midpoint of four-bladed vane sidepiece so that four-bladed vane is around its sidepiece central rotation.Drive
The setting of movable sprocket, synchronous sprocket wheel and synchronization chain so that drive sprocket is driven coupled by synchronization chain when rotating
It can be also driven between synchronous sprocket wheel synchronous axial system, adjacent synchronous sprocket wheel by synchronization chain, finally realize drive sprocket and institute
Some synchronous sprocket wheel synchronous axial systems.In this way, so that motor unlatching when rotate all four-bladed vane continued synchronizations, make
The rotation for obtaining four-bladed vane is more controllable, is easy to the speed and quantity for controlling feed to enter cooling chamber.
More preferably, the rotary shaft penetrates body setting.
Using said structure, rotary shaft penetrates body setting so that rotary shaft rotation can drive coupled bias
The rotation of plate or four-bladed vane.So that the rotation of feed block piece is manually controllable, charging aperture is set to stop after charging, can be by manual
The feed of residual above feed block piece is moved into cooling chamber by mode, or when material baffle rotates abnormal, manual mode can be used
Simply adjusted.
More preferably, the body is provided with observation window, and the observation window is located near feed baffle plate and and body
It is hinged.
Using said structure, the setting of observation window causes user more to facilitate the situation of observation internal body, more accurate
True judges whether there is residual material above material baffle, more facilitates and checks whether material baffle is abnormal.
More preferably, the body inner surface is provided with some drying chambers that Open Side Down, the drying chamber and is provided with
Drier, body outer surface correspondence drying chamber is hinged with the window that reloads.
Using said structure, the drying chamber containing drier set in body so that internal body relatively dry weakens
Because temperature reduce may caused by internal body moisture situation about increasing so that the feed water content after cooling will not be too high,
Improve quality of the fodder after cooling.
In summary, the utility model has the advantages that:Internal body is provided with feed block piece so that material is from entering
Material mouth enters after body, and entrance cooling chamber that can in batches is cooled down so that the cooled amount of feed single is less, and only sets
One feed baffle plate make it that the distance of fall of feed is longer, so that feed contacts more abundant with cooling with wind, cooling effect
More preferably, and it is difficult because a large amount of aggregations of feed cause situation about blocking in body.Can be by observation window and rotary shaft in outer shroud
Part in border, the rotation of control feed block piece and observes the situation of internal body manually so as to the control of feed block piece more
Plus flexibly.Internal body is provided with drying chamber, reduces the feelings that the internal body moisture being likely to occur in cooling procedure increases
Shape so that the water content after feed cooling is reduced, and improves quality of the fodder after cooling.
Brief description of the drawings
Fig. 1 is the dimensional structure diagram of embodiment 1;
Fig. 2 is the diagrammatic cross-section of embodiment 1;
Fig. 3 is the dimensional structure diagram of embodiment 2;
Fig. 4 is the diagrammatic cross-section of embodiment 2;
Fig. 5 is synchronous sprocket wheel on the body of embodiment 2, drive sprocket, the structural representation of synchronization chain;
Fig. 6 is that embodiment 2 removes the structural representation after body outer wall on the outside of motor.
In figure, 1, frame;2nd, body;3rd, charging aperture;4th, discharging opening;5th, air inlet;6th, air outlet;7th, temporary storage cavity;8th, it is cold
But chamber;9th, eccentric disk;10th, four-bladed vane;1001st, support plate;1002nd, separate cavities;11st, synchronous sprocket wheel;12nd, drive sprocket;13rd, it is synchronous
Chain;14th, rotary shaft;15th, observation window;16th, drying chamber;17th, reload window;18th, limited block;19th, motor;1901st, motor
Axle.
Embodiment
The utility model is described in further detail below in conjunction with accompanying drawing.
This specific embodiment is only to explain of the present utility model, is not to limitation of the present utility model, this area
Technical staff can make the modification without creative contribution to the present embodiment as needed after this specification is read, but only
All to be protected in protection domain of the present utility model by Patent Law.
Embodiment 1:A kind of feed cooling device, as depicted in figs. 1 and 2, including frame 1, the body 2 in frame 1 is located at,
The bottom of body 2 is connected with pressure fan provided with discharging opening 4 and air inlet 5, air inlet 5(Not shown in figure), the side of body 2 be provided with
Observation window 15 that body 2 is hinged, reload window 17 and air outlet 6, and the top of body 2 is provided with charging aperture 3.
Referring to Figures 1 and 2, if the inside of body 2 provided with dry feed block piece will be divided into inside body 2 temporary storage cavity 7 of top with
The cooling chamber 8 of lower section, feed block piece is multiple eccentric disks 9, and the two ends of eccentric disk 9 are provided with rotary shaft 14, and eccentric disk 9 passes through rotary shaft
14 are rotatably connected on inside body 2, and rotary shaft 14 penetrates body 2 and set, the place of the every piece of center of gravity of eccentric disk 9 of correspondence of body 2
While provided with limited block 18.Multiple drying chambers that Open Side Down 16 are provided with body 2, the inside of drying chamber 16 is provided with drier and does
Dry chamber 16 is connected with the window 17 that reloads.
The course of work:
Open pressure fan(Not shown in figure)So that pressure fan(Not shown in figure)From air inlet 5 to the delivered inside of body 2
Cooling wind, cooling wind is discharged by air outlet 6.Feed now is initially added into from charging aperture 3, feed is entered by charging aperture 3
Enter the upper surface that eccentric disk 9 is fallen under temporary storage cavity 7.As feed constantly falls, the feed gross weight of the upper surface of eccentric disk 9 is gradually
Increase, when the feed relative of the upper surface of eccentric disk 9 is sufficiently large, eccentric disk 9 is begun turning so that eccentric disk 9 and eccentric disk 9 it
Between space, the space of eccentric disk 9 and the inner surface of body 2 gradually increases so that feed slides from eccentric disk 9 and falls into cooling
In chamber 8.When feed leaves eccentric disk 9, eccentric disk 9 is connected to limited block 18 after being reversely rotated because of the center of gravity that itself offsets
On reach horizontality continue stop from charging aperture 3 enter feed, until again the weight of feed reaches critical value.Feed is fallen into
After cooling chamber 8, contacted in cooling chamber 8 with cooling with wind and reach cooling effect, final feed falls into discharging opening 4, pass through discharging
Mouth 4 leaves cooling chamber 8.
After charging aperture 3 is no longer fed, open observation window 15 and confirm whether there is feed residual on eccentric disk 9, if there is feed residual
Stay, by rotating the exposed one end in external environment of rotary shaft 14 so that eccentric disk 9 rotates, make the feed remained on eccentric disk 9
Fall into cooling chamber 8.
When discharging obstructed, the state of the observation eccentric disk 9 of observation window 15 and feed is opened, if eccentric disk 9 is blocked up by feed
Plug, can rotate the eccentric disk 9 by the exposed one end in external environment of rotary shaft 14 so that the inclination angle increase of eccentric disk 9, alleviate stifled
Plug problem.When needing to change drier, the i.e. replaceable drier of window 17 that reloads is opened.
Embodiment 2:A kind of feed cooling device, such as Fig. 3 and Fig. 4 show, including frame 1, are located at the body 2 in frame 1, machine
The bottom of body 2 is connected with pressure fan provided with discharging opening 4 and air inlet 5, air inlet 5(Not shown in figure), the side of body 2 is provided with and machine
Observation window 15 that body 2 is hinged, reload window 17 and air outlet 6, and the top of body 2 is provided with charging aperture 3.
Reference picture 3, Fig. 4, Fig. 5, Fig. 6, feed block piece are made up of multiple four-bladed vanes 10, four support plates 1001 of four-bladed vane 10
A separate cavities 1002 are formed between size shape all same and orthogonal setting, the two neighboring support plate 1001 of four-bladed vane 10,
Two separate cavities 1002 are located at another two separate cavities 1002 in temporary storage cavity 7 and are located in cooling chamber 8 when four-bladed vane 10 is static, and adjacent ten
There is gap and the gap between the circumscribed circle of letter stencil 10, between the circumscribed circle of four-bladed vane 10 and the inwall of body 2 to be insufficient to allow
The feed grain obtained completely passes through, and the sidepiece midpoint of four-bladed vane 10 is provided with rotary shaft 14, and four-bladed vane 10 can be rotated around rotary shaft 14, revolves
Rotating shaft 14 is provided with the synchronous sprocket wheel 11 of synchronous rotation, and rotary shaft 14 penetrates body 2 and set.Body 2 is provided with driving
Motor 19, the motor shaft 1901 of motor 19 is provided with the drive sprocket 12 of synchronous rotation, drive sprocket 12 with it is synchronous
Between sprocket wheel 11, it is driven between adjacent sync sprocket wheel 11 by synchronization chain 13, synchronization chain 13 is with drive sprocket 12 and together
Step sprocket wheel 11 is meshed.Multiple drying chambers that Open Side Down 16 are provided with body, the inside of drying chamber 16 is provided with drier and does
Dry chamber 16 is connected with the window 17 that reloads.
The course of work:
Open pressure fan(Not shown in figure)So that pressure fan(Not shown in figure)From air inlet 5 to the delivered inside of body 2
Cooling wind, cooling wind is discharged by air outlet 6.The power supply of motor 19 is opened, the motor shaft 1901 of motor 19 revolves
Turn, so as to drive drive sprocket 12 to rotate, the rotation of drive sprocket 12 drives synchronization chain 13 to rotate, and synchronization chain 13 drives synchronization
Sprocket wheel 11 rotates, so that the synchronous rotary of each four-bladed vane 10, is now initially added into feed from charging aperture 3, feed passes through charging
Mouth 3 drops down onto four-bladed vane 10 in two separate cavities 1002 in temporary storage cavity 7 into temporary storage cavity 7, and four-bladed vane 10 is in contorted
State, the feed when a separate cavities 1002 enter in cooling chamber 8 in the separate cavities 1002 is skidded off out of this separate cavities 1002;This
When there is another separate cavities 1002 to enter temporary storage cavity 7, the feed fallen into from charging aperture 3 can be fallen into the separate cavities 1002.Cross
Persistently rotation causes cooling device to repeat above procedure to plate 10.Feed is fallen into after cooling chamber 8, with cooling wind in cooling chamber 8
Contact reaches cooling effect, and final feed falls into discharging opening 4, and cooling chamber 8 is left by discharging opening 4.
After charging aperture 3 is no longer fed, motor 19 is kept to work on a period of time, it is ensured that all on four-bladed vane 10
Feed enters cooling chamber 8.Close after motor 19, observation window 15 can be opened and be confirmed whether still there is feed residual, if having
Feed is remained then by rotating the exposed one end in external environment of rotary shaft 14 so that four-bladed vane 10 rotates, and makes residual in rotary shaft 14
The feed stayed falls into cooling chamber 8.
When discharging obstructed, the state that observation window 15 observes four-bladed vane 10 is opened, if four-bladed vane 10 is blocked by feed, is closed
Close after motor 19, blockage problem can be alleviated by rotating the exposed one end rotary cross plate 10 in external environment of rotary shaft 14.
When needing to change drier, the i.e. replaceable drier of window 17 that reloads is opened.
Claims (7)
1. a kind of feed cooling device, including frame (1), the body (2) that is located in frame (1), the body (2) be provided with into
Material mouth (3), discharging opening (4), air inlet (5) and air outlet (6), and charging aperture (3) is located at the top of body (2), discharging opening (4)
It is located at the bottom of body (2) with air inlet (5), air outlet (6) is located at the middle and upper part of body (2), it is characterised in that the body
(2) inside is provided with feed block piece, and the feed block piece will be separated into independent temporary storage cavity (7) inside body (2) and positioned at temporary
Deposit the cooling chamber (8) below chamber (7);The feed block piece is rotatably connected on body (2) inside by rotary shaft (14), works as feed
The distance between side wall of side adjacent with rotary shaft (14) on feed block piece and body (2) increases and both when block piece is rotated
Between leave for the passage by feed.
2. a kind of feed cooling device according to claim 1, it is characterised in that the feed block piece is eccentric disk (9),
Correspondence eccentric disk (9) is provided with limited block (18) on the body, and the limited block (18) is in same water with rotary shaft (14)
Plane.
3. a kind of feed cooling device according to claim 1, it is characterised in that the feed block piece is by multiple four-bladed vanes
(10) constitute, four support plate (1001) size shape all sames of four-bladed vane (10) and orthogonal setting, adjacent four-bladed vane
(10) there is gap and the gap between circumscribed circle, between the circumscribed circle of four-bladed vane (10) and body (2) inwall to be not enough to
So that complete feed grain passes through;Four-bladed vane (10) and rotary shaft (14) correspond setting and four-bladed vane (10) is around corresponding
Rotary shaft (14) rotate.
4. a kind of feed cooling device according to claim 3, it is characterised in that it is right with it that each rotary shaft (14) is located at
The sidepiece midpoint for the four-bladed vane (10) answered, one end of rotary shaft (14) is provided with the synchronous sprocket wheel (11) of synchronous rotation;It is described
Body (2) is provided with motor (19), and the motor shaft (1901) of motor (19) is provided with the driving of synchronous rotation
Sprocket wheel (12), between drive sprocket (12) and synchronous sprocket wheel (11), between adjacent sync sprocket wheel (11) by with drive sprocket
(12) synchronization chain (13) transmission that, all synchronous sprocket wheels (11) are meshed.
5. a kind of feed cooling device according to claim 1, it is characterised in that the rotary shaft (14) penetrates body
(2) set.
6. a kind of feed cooling device according to claim 1, it is characterised in that the body (2) is provided with observation window
(15), the observation window (15) is located at feed baffle plate nearby and is hinged with body (2).
7. a kind of feed cooling device according to claim 1, it is characterised in that the body (2) is if inner surface is provided with
Drier, the outer surface correspondence drying chamber of body (2) are provided with the dry drying chamber (16) that Open Side Down, the drying chamber (16)
(16) it is hinged with the window that reloads (17).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621369543.1U CN206534101U (en) | 2016-12-14 | 2016-12-14 | A kind of feed cooling device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621369543.1U CN206534101U (en) | 2016-12-14 | 2016-12-14 | A kind of feed cooling device |
Publications (1)
Publication Number | Publication Date |
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CN206534101U true CN206534101U (en) | 2017-10-03 |
Family
ID=59938277
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Application Number | Title | Priority Date | Filing Date |
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CN201621369543.1U Expired - Fee Related CN206534101U (en) | 2016-12-14 | 2016-12-14 | A kind of feed cooling device |
Country Status (1)
Country | Link |
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CN (1) | CN206534101U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110631402A (en) * | 2019-09-23 | 2019-12-31 | 宋从俊 | Cooling device of feed particles |
-
2016
- 2016-12-14 CN CN201621369543.1U patent/CN206534101U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110631402A (en) * | 2019-09-23 | 2019-12-31 | 宋从俊 | Cooling device of feed particles |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20171003 Termination date: 20181214 |
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CF01 | Termination of patent right due to non-payment of annual fee |