CN209189186U - A kind of building material automation vibration screening device - Google Patents
A kind of building material automation vibration screening device Download PDFInfo
- Publication number
- CN209189186U CN209189186U CN201821870001.1U CN201821870001U CN209189186U CN 209189186 U CN209189186 U CN 209189186U CN 201821870001 U CN201821870001 U CN 201821870001U CN 209189186 U CN209189186 U CN 209189186U
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- CN
- China
- Prior art keywords
- sieve plate
- matrix
- plate
- vibration motor
- screening device
- 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.)
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Abstract
The utility model discloses a kind of building materials to automate vibration screening device, including pedestal, matrix, vibration motor, the upper end of the pedestal is internally provided with vibration motor, vibration motor is mounted on the inner cavity of vibrating body, the upper end of vibrating body, which is bolted, is equipped with matrix, the upper end of matrix offers feed pipe, the inside of matrix, which is successively assigned, is fixed with aperture sieve plate, mesoporous sieve plate and macroporous plate, aperture sieve plate, the side of mesoporous sieve plate and macroporous plate is provided with feeder pipe, heat sink is set, the structures such as fan, realize the function of radiating to vibration motor, reduce the temperature of vibration motor after working long hours, prevent high temperature excessively scald cause short circuit and so on, also extend the service life of vibration motor simultaneously, fixed link is set, fixed block, the structures such as interlocking bar and motion bar, it realizes and is convenient for changing The function of sieve plate disposably all removes three sieve plates, not only fast but also conveniently.
Description
Technical field
The utility model relates to building material material sieving technology fields more particularly to a kind of building material to automate vibrosieve
Device.
Background technique
Vibrosieve equipment utilization vibration motor exciting is tossed building material on sieve, simultaneously as vibration source
It is for linear motion forward.Building material generates the oversize of several specifications, screenings by multilayer screen cloth, respectively from it is respective go out
Mouth discharge.To guarantee that building material is moved in a straight line along defined direction, certain inclination angle should be arranged in sieve.It is different types of to build
Building raw material has strict requirements to sifting-bed inclination, if inclination angle is too small, the direction of motion of building material is changeable;If inclination angle mistake
Greatly, material is directly discharged from outlet, does not have the purpose of screening.But vibration motor can generate big calorimetric after having worked long
Not situations such as amount does not go out if dissipated, can most probably make vibration motor that short circuit occur, and general screening plant replacement sieve plate is all
It is more troublesome.
Utility model content
Purpose of the utility model is to solve disadvantages existing in the prior art, and a kind of building material proposed is certainly
Dynamicization vibration screening device.
To achieve the goals above, the utility model adopts the technical scheme that
A kind of building material automation vibration screening device, including pedestal, matrix, vibration motor, the upper end of the pedestal
It is internally provided with vibration motor, vibration motor is mounted on the inner cavity of vibrating body, and the upper end of vibrating body is bolted peace
Equipped with matrix, the upper end of matrix offers feed pipe, and the inside of matrix, which is successively assigned, is fixed with aperture sieve plate, mesoporous sieve plate and big
Hole sieve plate, one end of aperture sieve plate, mesoporous sieve plate and macroporous plate by being welded with fixed block, and mesoporous sieve plate and
The matrix inner wall of the other end of macroporous plate is equipped with motion bar by being welded with fixing groove, the internal activity of fixing groove,
The two sides of one end of motion bar are welded with fixture block, and the rod handle side of motion bar is connected by the side of interlocking bar and fixed block
It connects, the side of aperture sieve plate, mesoporous sieve plate and macroporous plate is provided with feeder pipe, and feeder pipe is fixed by welding in matrix
Between inner wall.
Preferably, the two sides of the pedestal, which are bolted, is equipped with heat sink, and the two sides of heat sink are provided with
Strainer, and the inside of heat sink is mounted on fan.
Preferably, the inner cavity of the vibrating body is equipped with vibration motor, and the upper end of vibration motor is equipped with top weight
Hammer, and the lower end of vibration motor is equipped with lower part weight.
Preferably, the aperture sieve plate, mesoporous sieve plate and macroporous plate are made of stainless steel material.
Preferably, the bottom end side of described matrix is cased with filter by being welded with drainage conduit, the nozzle side of drainage conduit
Net.
Preferably, the diameter of the feeder pipe on the left of the aperture sieve plate is less than the diameter of the feeder pipe on the left of mesoporous sieve plate,
The diameter of feeder pipe on the left of mesoporous sieve plate is less than the diameter of the feeder pipe on the left of macroporous plate.
Preferably, the interlocking bar is mounted on the side of fixed link by the movable tip, and fixed link is fixed by welding in base
The side wall of body.
Preferably, by being welded with buffer spring, the other end of buffer spring passes through for the two sides bottom end of vibrating body
It is weldingly fixed on the upper end of pedestal.
The beneficial effects of the utility model are:
1, the utility model realizes the function of radiating to vibration motor by structures such as setting heat sink, fans,
Reduce work long hours after vibration motor temperature, prevent high temperature excessively scald cause short circuit and so on, while also extend shake
The service life of dynamic motor.
2, the utility model is realized and is convenient for changing by structures such as setting fixed link, fixed block, interlocking bar and motion bars
The function of sieve plate, the twitch by controlling aperture sieve plate make mesoporous sieve plate and macroporous plate link outside removal matrix, disposably
Three sieve plates are all removed, not only fast but also conveniently.
Detailed description of the invention
Fig. 1 be the utility model proposes a kind of building material automate vibration screening device structural schematic diagram;
Fig. 2 be the utility model proposes a kind of building material automate vibration screening device local A structural schematic diagram;
Fig. 3 be the utility model proposes a kind of building material automate vibration screening device local B structure schematic diagram.
In figure: 1 pedestal, 2 matrixes, 3 vibration motors, 4 buffer springs, 5 heat sinks, 6 fans, 7 vibrating bodies, 8 aperture sieve plates,
9 mesoporous sieve plates, 10 macroporous plates, 11 fixed links, 12 fixed blocks, 13 fixing grooves, 14 motion bars, 15 interlocking bar, 16 feeder pipes, 17
Drainage conduit.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.
Referring to Fig.1-3, a kind of building material automates vibration screening device, including pedestal 1, matrix 2, vibration motor 3, base
The upper end of seat 1 is internally provided with vibration motor 3, and vibration motor 3 is that matrix 2 provides exciting source, and vibration motor 3 is mounted on vibrating body
7 inner cavity, vibrating body 7 are to make the more preferable of the vibration of matrix 2, and the upper end of vibration motor 3 is equipped with top weight, and
The lower end of vibration motor 3 is equipped with lower part weight, and the upper end of vibrating body 7, which is bolted, is equipped with matrix 2, vibrating body 7
By being welded with buffer spring 4, buffer spring 4 plays the role of flexibly supporting vibrating body 7 for two sides bottom end, makes matrix 2
Vibrating effect it is more preferable, the other end of buffer spring 4 is fixed by welding in the upper end of pedestal 1, the upper end of matrix 2 offer into
Expects pipe, the inside of matrix 2, which is successively assigned, is fixed with aperture sieve plate 8, mesoporous sieve plate 9 and macroporous plate 10, aperture sieve plate 8, mesoporous
Sieve plate 9 and macroporous plate 10 are to carry out screening raw material, and one end of aperture sieve plate 8, mesoporous sieve plate 9 and macroporous plate 10 is logical
It crosses and is welded with fixed block 12, and 2 inner wall of matrix of the other end of mesoporous sieve plate 9 and macroporous plate 10 is by being welded and fixed
There is fixing groove 13, fixing groove 13 is in order to which for 14 activity of motion bar, the internal activity of fixing groove 13 is equipped with motion bar 14, activity
Bar 14 is to remove mesoporous sieve plate 9 and macroporous plate 10 outside matrix 2, and the two sides of one end of motion bar 14 are welded with card
The rod handle side of block, motion bar 14 is connect by interlocking bar 15 with the side of fixed block 12, and fixed block 12 is to drive linkage
Bar 15 rotates, and interlocking bar 15 is mounted on the side of fixed link 11 by the movable tip, and fixed link 11 is fixed by welding in matrix 2
Side wall, the side of aperture sieve plate 8, mesoporous sieve plate 9 and macroporous plate 10 are provided with feeder pipe 16, and feeder pipe 16 is to make point
From raw material fall, feeder pipe 16 is fixed by welding between the inner wall of matrix 2, the feeder pipe 16 in the left side of aperture sieve plate 8
Diameter is less than the diameter of the feeder pipe 16 in 9 left side of mesoporous sieve plate, and the diameter of the feeder pipe 16 in 9 left side of mesoporous sieve plate is less than griddle
The diameter of the feeder pipe 16 in the left side of plate 10, the bottom end side of matrix 2 by being welded with drainage conduit 17, drainage conduit 17 be in order to
Make last remaining raw material discharge, the nozzle side of drainage conduit 17 is cased with strainer, and the two sides of pedestal 1 are bolted installation
Have a heat sink 5, the two sides of heat sink 5 are provided with strainer, and the inside of heat sink 5 is mounted on fan 6, fan 6 be for
It radiates to vibration motor 3.
Embodiment one, when work, pedestal 1 plays the role of support substrate 2, and buffer spring 4 plays resilient support vibrating body 7
Effect, keep the vibrating effect of matrix 2 more preferable, vibration motor 3 is that matrix 2 provides exciting source, 3 upper/lower terminal of vibration motor peace
Equipped with eccentric hammer, the rotary motion of vibration motor 3 is changed into horizontal, vertical, inclined three-D and is moved, then this is transported
It is dynamic to pass to matrix 2, make raw material continuous shaking-sieving in matrix 2, first pours into raw material in matrix 2 by feed pipe
Portion, raw material are fallen in first in the cavity of 10 top of macroporous plate, and starting shock motor 3 makes vibration motor 3 that vibrating body 3 be driven to shake
Dynamic, vibrating body 3 carries out spin vibration sieve point with the sieve plate vibration inside kinetoplast 2, to raw material, and for raw material in screening, larger particles are former
Material is separated, is arranged after feeder pipe 16 is discharged under the action of 2 centrifugal force of matrix due to the blocking by macroporous plate 10
Out, the raw material not separated falls to cavity above mesoporous sieve plate 9 from macroporous plate 10, is divided medium raw material by mesoporous sieve plate 9
From, the feeder pipe 16 of the medium grain raw material isolated therefrom 9 side of hole sieve plate is discharged, do not have then isolated raw material continuation from
Mesoporous sieve plate 9 falls to 8 top cavity of aperture sieve plate, is separated smaller particle raw material by aperture sieve plate 8, make to isolate compared with
Little particle raw material is discharged from the feeder pipe 16 of 8 side of aperture sieve plate, finally, other remaining fine particle raw materials are through aperture sieve plate
8 fall to bottom end and are discharged from drainage conduit 17, after, close vibration motor 3.
Embodiment two when replacing filter plate, pulls the fixed block 12 on 8 right side of aperture sieve plate to pull out manually, passes through linkage
Bar 15 is pushed into the motion bar 14 on 9 right side of mesoporous sieve plate in fixing groove 13, and mesoporous sieve plate 9 is pushed (fixing groove to the left
13 side offers the through-hole stretched out for motion bar 14), so that it is removed matrix 2, mesoporous sieve plate 9 moves to the left, so that its
The fixed block 12 in left side is also moved to the left, and the motion bar 14 in 10 left side of macroporous plate is pushed into fixing groove 13 by interlocking bar 15
It is interior, and punching sieve plate 10 is pushed to the right, so that it is removed matrix 2, the rod handle of the motion bar 14 on 9 right side of hole sieve plate moves in the middle
When 13 cell wall of fixing groove, the rod handle of the motion bar 14 in 10 left side of macroporous plate also moves to 13 cell wall of fixing groove at this time, backs out fixation
The movable button (side that interlocking bar 15 is mounted on motion bar 14 and fixed block 12 by activity button) of interlocking bar 15, then proceedes to
It successively extracts aperture sieve plate 8, mesoporous sieve plate 9 and macroporous plate 10 out, replaces with new aperture sieve plate 8, mesoporous sieve plate 9 and griddle
Plate 10 is simultaneously inserted into matrix 2 and then interlocking bar 15 is fixed on fixed block 12 and motion bar 14 again.
The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not
It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this
Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model
Within enclosing.
Claims (8)
1. a kind of building material automates vibration screening device, including pedestal (1), matrix (2), vibration motor (3), feature exists
In the upper end of the pedestal (1) is internally provided with vibration motor (3), and vibration motor (3) is mounted on the interior intracavitary of vibrating body (7)
Portion, the upper end of vibrating body (7), which is bolted, to be equipped with matrix (2), and the upper end of matrix (2) offers feed pipe, matrix (2)
Inside successively assign and be fixed with aperture sieve plate (8), mesoporous sieve plate (9) and macroporous plate (10), aperture sieve plate (8), middle hole sizer
One end of plate (9) and macroporous plate (10) is by being welded with fixed block (12), and mesoporous sieve plate (9) and macroporous plate
(10) by being welded with fixing groove (13), the internal activity of fixing groove (13) is equipped with matrix (2) inner wall of the other end
Motion bar (14), the two sides of one end of motion bar (14) are welded with fixture block, and the rod handle side of motion bar (14) passes through linkage
Bar (15) is connect with the side of fixed block (12), and the side of aperture sieve plate (8), mesoporous sieve plate (9) and macroporous plate (10) is all provided with
It is equipped with feeder pipe (16), feeder pipe (16) is fixed by welding between the inner wall of matrix (2).
2. a kind of building material according to claim 1 automates vibration screening device, which is characterized in that the pedestal
(1) two sides, which are bolted, to be equipped with heat sink (5), and the two sides of heat sink (5) are provided with strainer, and heat sink
(5) inside is mounted on fan (6).
3. a kind of building material according to claim 1 automates vibration screening device, which is characterized in that the vibrating body
(7) inner cavity is equipped with vibration motor (3), and the upper end of vibration motor (3) is equipped with top weight, and vibration motor
(3) lower end is equipped with lower part weight.
4. a kind of building material according to claim 1 automates vibration screening device, which is characterized in that the small hole sizer
Plate (8), mesoporous sieve plate (9) and macroporous plate (10) are made of stainless steel material.
5. a kind of building material according to claim 1 automates vibration screening device, which is characterized in that described matrix
(2) by being welded with drainage conduit (17), the nozzle side of drainage conduit (17) is cased with strainer for bottom end side.
6. a kind of building material according to claim 1 automates vibration screening device, which is characterized in that the small hole sizer
The diameter of feeder pipe (16) on the left of plate (8) is less than the diameter of the feeder pipe (16) on the left of mesoporous sieve plate (9), mesoporous sieve plate (9)
The diameter of the feeder pipe (16) in left side is less than the diameter of the feeder pipe (16) on the left of macroporous plate (10).
7. a kind of building material according to claim 1 automates vibration screening device, which is characterized in that the interlocking bar
(15) side of fixed link (11) is mounted on by the activity tip, fixed link (11) is fixed by welding in the side wall of matrix (2).
8. a kind of building material according to claim 1 automates vibration screening device, which is characterized in that the vibrating body
(7) by being welded with buffer spring (4), the other end of buffer spring (4) is fixed by welding in base for two sides bottom end
The upper end of seat (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821870001.1U CN209189186U (en) | 2018-11-14 | 2018-11-14 | A kind of building material automation vibration screening device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821870001.1U CN209189186U (en) | 2018-11-14 | 2018-11-14 | A kind of building material automation vibration screening device |
Publications (1)
Publication Number | Publication Date |
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CN209189186U true CN209189186U (en) | 2019-08-02 |
Family
ID=67411464
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Application Number | Title | Priority Date | Filing Date |
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CN201821870001.1U Expired - Fee Related CN209189186U (en) | 2018-11-14 | 2018-11-14 | A kind of building material automation vibration screening device |
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CN (1) | CN209189186U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111389081A (en) * | 2020-03-29 | 2020-07-10 | 生合生物科技(扬州)有限公司 | Filtering device for whey fermentation liquor processing and using method thereof |
-
2018
- 2018-11-14 CN CN201821870001.1U patent/CN209189186U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111389081A (en) * | 2020-03-29 | 2020-07-10 | 生合生物科技(扬州)有限公司 | Filtering device for whey fermentation liquor processing and using method thereof |
CN111389081B (en) * | 2020-03-29 | 2021-11-05 | 生合生物科技(扬州)有限公司 | Filtering device for whey fermentation liquor processing and using method thereof |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190802 Termination date: 20211114 |