A kind of interim sand sieving machine of interior decoration
Technical field
The invention belongs to decoration technology field more particularly to a kind of interim sand sieving machines of interior decoration.
Background technique
When general progress construction, need using to sand, the granular size of sand is different, according to different feelings
Condition needs to carry out artificial screening, and the net of traditional sieve sand is exactly slant setting on the side of sand drift, by manually holding tool
Constantly raise up sand, so that effect of the sand with gravity, when falling on following by the upper surface of sieve, by sieve, makes
It obtains the particle smaller than sieve gap to fall below sieve, the particle bigger than sieve gap falls in the top of sieve, continuous weight
Multiple operation is to obtain suitable sand.
The sand sieving machine that interior decoration at present uses is generally divided into two kinds, and one of which is flat sand sieving machine of slipping through the net, and passes through
Motor control plate, which slips through the net to vibrate, is filtered screening to sand;Another kind is drum type sand screening machine, passes through motor control roller
Rotation, and there is filter hole on roller, sand is screened by the rotation of roller;But both sand sieving machines were using
Cheng Zhong requires for unfiltered sand to be transferred to plate and slips through the net in upper or roller, and in this way in feeding process, people need
It is constantly bent over, labor intensity is bigger, uses relatively elaborate, it has not been convenient to;So designing, one kind is convenient and fast, is not required to
It is necessary for sand being manually transferred to the sand sieving machine that plate is slipped through the net above or in roller.
The interim sand sieving machine that the present invention designs a kind of interior decoration solves the problems, such as above.
Summary of the invention
To solve drawbacks described above in the prior art, the present invention discloses a kind of interim sand sieving machine of interior decoration, it is
It is realized using following technical scheme.
A kind of interim sand sieving machine of interior decoration, it is characterised in that: it includes transmission belt, driving motor, after-poppet, rolling
Wheel, fore-stock, shield, vibrating mechanism, baffle, support shaft, mounting rack, fixed rotating shaft, wherein the upper and lower ends of mounting rack are divided
One fixed rotating shaft is not installed, fore-stock is fixedly mounted on the lower end of mounting rack, and after-poppet is mounted on two by being rotatably assorted
In a fixed rotating shaft on the fixed rotating shaft of upside;The two sides of after-poppet upper end are symmetrically installed there are two fixture block, and two limit
Position block is symmetrically mounted on the two sides of mounting rack upper end, and two limited blocks and two fixture blocks correspond cooperation;Two
Limited block plays restriction effect to two fixture blocks respectively, after after-poppet, which is opened, to be propped, is blocked by two limited blocks and two
The cooperation of block plays support restriction effect to after-poppet, prevents after-poppet from continuing to swing downwards after stress, influences sand sieving machine
Normal use;Two idler wheels are separately mounted on two fixed rotating shafts, and the both ends of two idler wheels are mounted on a fixed disk, and
Fixed disk and idler wheel are rotatably assorted;Two fixed plates are symmetrically mounted in four fixed disks installed on two idler wheels;Idler wheel
It will not influence fixed disk during rotation, that is, will not influence two fixed plates being mounted in fixed disk;Have in transmission belt
Equally distributed filter hole, transmission belt are wrapped on two idler wheels;Driving motor is mounted on the upper of mounting rack by motor support
End, driving motor control the fixed rotating shaft rotation for being located at upside in two fixed rotating shafts;Vibrating mechanism is mounted on mounting rack
On.
Multiple blend stops are equably installed, one end of every blend stop is sticked to biography by glue on the inner wall of above-mentioned transmission belt
On the inner wall of defeated band, and the filter hole corresponding matching opened on the blend stop and transmission belt installed in transmission belt, every blend stop are corresponding
One is drained through filter opening;The other end of blend stop can carry out swing open, when a wherein blend stop is opened mouth, cooperate with this blend stop
Transmission belt on opened one be drained through filter opening and be turned on;The present invention can design a blend stop pair when designing blend stop
Multiple rows of filter hole is answered, and preferably a blend stop corresponds to multiple rows of filter hole, arranges more screen holes, make hole arrangement more and occupied
Area more shaker screen sand is more efficient.
The lower end of above-mentioned mounting rack is fixedly installed with shield, and shield is between transmission belt upper layer and lower layer, shield and passes
The defeated blend stop cooperation on inner wall, shield play limitation to the blend stop being located on the upside of transmission belt inner wall close to lower end idler wheel and make
With.
Baffle is installed, and baffle and transmission belt cooperate between two above-mentioned fixed plates, the downside of baffle with
The upper side for being located at the blend stop of lower portion installation in transmission belt is in close contact;The effect of baffle is to be located at biography on the move
The defeated two sides that transmission belt is pushed to by filtered sand taken, prevent filtered sand from mixing together with unfiltered sand
When filtering sand drift easy to form in this way and then be easy to use.
The downside that above-mentioned transmission belt is located at upper portion is equably equipped with multiple support shafts, and transmission belt is located at lower portion
Downside multiple support shafts are equably installed, support shaft plays a supporting role to transmission belt.
Above-mentioned vibrating mechanism includes the first cone tooth, first rotating shaft, driving wheel, second bevel gear, flexible swing rod, second turn
Axis, trunnion, wherein first rotating shaft supports the downside for being mounted on mounting rack by two second, has in first bevel gear circumferential equal
The edentulous area of even distribution, two first bevel gears are fixedly mounted on the both ends of first rotating shaft;Two the second shafts pass through respectively
One first support is mounted on the both ends on the downside of mounting rack, and two second bevel gears are respectively and fixedly installed to two the second shafts
One end, and two second bevel gears correspond with two first bevel gears and cooperate;One of them in two first bevel gears
Edentulous area when the upper region with teeth of one bevel gear is engaged with corresponding second bevel gear, in another first bevel gear
Mated condition is in corresponding second bevel gear;Two driving wheels are separately mounted to the other end of two the second shafts, and two
Trunnion is symmetrically mounted in two fixed plates, and the upper end of two flexible swing rods is pacified by the way that hinged mode is one-to-one respectively
On two trunnions, the lower end of two flexible swing rods is respectively and fixedly installed on the periphery of two driving wheels;Driving motor
Control two first bevel gear rotations;When being located at the fixed rotating shaft rotation of upper end in two fixed rotating shafts, this is solid
Determining shaft will drive the 4th synchronizing wheel rotation mounted thereto, and the rotation of the 4th synchronizing wheel drives third same by the second synchronous belt
Step wheel rotation, the rotation of third synchronizing wheel drive first rotating shaft rotation, and first rotating shaft rotation drives two first bevel gear rotations, by
When region with teeth in one of first bevel gear is engaged with corresponding second bevel gear in two first bevel gears,
Edentulous area in another first bevel gear is in mated condition with corresponding second gear;So when two first bevel gears
When rotation, it will drive corresponding second bevel gear with the first bevel gear that second bevel gear is in meshing state and rotate, the cone tooth
Wheel rotation drives corresponding second shaft rotation, and second shaft rotation drives corresponding driving wheel rotation, driving wheel rotation
Corresponding flexible swing rod is driven to swing, which, which swings, drives two fixed plates mobile, and two fixed plates are mobile to drive two
A idler wheel moves on two fixed rotating shafts, and two idler wheels are mobile to drive transmission belt to move toward the direction along the axis of idler wheel
It is dynamic, when being originally in the edentulous area in the first bevel gear of meshing state with second bevel gear and second bevel gear cooperates,
Toothed region in another first bevel gear will be engaged with corresponding second bevel gear, and in this state, transmission belt is just
It can move backward along the axis of idler wheel towards another direction, successively transmit, which can be driven while rotation
Move back and forth along the axis direction of idler wheel, i.e., transmission belt has vibrating function.
As the further improvement of this technology, the second synchronizing wheel is fixedly mounted on the output shaft of above-mentioned driving motor, the
One synchronizing wheel is fixedly mounted in two fixed rotating shafts positioned at one end of a fixed rotating shaft of upside, the first synchronizing wheel and second
Pass through the first synchronous band connection between synchronizing wheel.
As the further improvement of this technology, above-mentioned shield is fixedly mounted on installation by two symmetrical support plates
The lower end of frame.
As the further improvement of this technology, the 4th synchronizing wheel, which is fixedly mounted in above-mentioned two fixed rotating shaft, is located at upside
A fixed rotating shaft one end, third synchronizing wheel is fixedly mounted on one end of first rotating shaft, and third synchronizing wheel is synchronous with the 4th
Pass through the second synchronous band connection between wheel.
As the further improvement of this technology, above-mentioned flexible swing rod includes flexible interior bar, flexible housing, wherein flexible housing
One end be fixedly mounted on the periphery of corresponding driving wheel, the upper end nesting of flexible interior bar is mounted in flexible housing, is stretched
The lower end of interior bar is connected with corresponding trunnion by revolute pair;The effect of flexible swing rod is to prevent flexible swing rod from putting by flexible
It is interfered during dynamic with two fixed plates moved along roller axis direction.
As the further improvement of this technology, above-mentioned two idler wheel is symmetrically installed between corresponding fixed rotating shaft respectively
There are two prevent from sand from entering between idler wheel and fixed rotating shaft to be slidingly sealed structure;Structure is slidingly sealed using on existing market
Common is slidingly sealed structure, such as common slip ring sealing mechanism, sliding bearing dual sealing mechanism etc..
As the further improvement of this technology, above-mentioned baffle is fixedly mounted in two fixed plates by mounting bar.
It is chain as the alternative of above-mentioned first synchronizing wheel and the second synchronizing wheel as the further improvement of this technology
Wheel, and connected between two chain wheels by chain.
As the further improvement of this technology, the diameter of above-mentioned first synchronizing wheel is three times of the second synchronous wheel diameter;It reaches
To the effect of deceleration torque increase.
As the further improvement of this technology, there are two baffles for the upside installation of above-mentioned mounting rack;Baffle and transmission belt it
Between have gap;Baffle prevents filtered rough sand and stone from being vibrated in transmission belt vibration processes to the filtered of two sides
In fine sand;The effect of slanting baffle is that unfiltered sand is fully entered between two baffles, without moving on to two
The outside of baffle, the two sides for the transmission belt for preventing transmission belt from trickling down sand when vibration, mixes with filtered sand;
Gap between baffle and transmission belt can prevent transmission belt from interfering in vibration processes with baffle;Although the gap may
So that the sand being located in the transmission belt of upside is mixed into the downside for crossing gap inflow transmission belt with the fine sand after being screened, protecting
When card gap is smaller, the sand flowed down is also less, will not cause too much influence to the fine sand after screening.
Relative to traditional decoration technology, what the present invention designed is had the beneficial effect that:
1, the interim sand sieving machine that the present invention designs, relative to traditional sand sieving machine, the sand sieving machine small volume, easy to carry, In
When use, after-poppet opening is propped, so that the transmission belt of filtering sand forms an angle with ground;Do not use when
It waits, after-poppet is turned up, so that the sand sieving machine constitutes tabular, easy to carry and carrying.
2, after-poppet opening is directly propped when in use, is not needed by the interim sand sieving machine that the present invention designs
Other operation bidirectionals, the sand sieving machine structure is easy to operate, while facilitating arrangement when in use.
3, the lower end of the sand sieving machine structure is inserted directly into sand when in use by the interim sand sieving machine that the present invention designs
It is interior, during the work time, by the rotation of transmission belt so that sand is automatically transferred in transmission belt, by transmission belt to sand
Son is filtered processing, does not need manually to carry out moving sand, relatively labor-saving.
Detailed description of the invention
Fig. 1 is global facility appearance diagram.
Fig. 2 is global facility distribution schematic diagram.
Fig. 3 is global facility distribution plane schematic diagram.
Fig. 4 is baffle distribution schematic diagram.
Fig. 5 is driving motor scheme of installation.
Fig. 6 is the first synchronous belt scheme of installation.
Fig. 7 is shield structure schematic diagram.
Fig. 8 is fore-stock and after-poppet scheme of installation.
Fig. 9 is after-poppet structural schematic diagram.
Figure 10 is vibrating mechanism structural schematic diagram.
Figure 11 is vibrating mechanism scheme of installation.
Figure 12 is first bevel gear and second bevel gear distribution schematic diagram.
Figure 13 is first bevel gear and second bevel gear cooperation schematic diagram.
Figure 14 is flexible swing rod structure schematic diagram.
Figure 15 is support shaft distribution schematic diagram.
Figure 16 is transmission belt scheme of installation.
Figure 17 is support shaft scheme of installation.
Figure 18 is idler wheel scheme of installation.
Figure 19 is baffle scheme of installation.
Figure 20 is baffle structural schematic diagram.
Figure 21 is transmission belt structural schematic diagram.
Figure 22 is blend stop distribution schematic diagram.
Figure 23 is blend stop scheme of installation.
Figure 24 is to be slidingly sealed structure scheme of installation.
Figure 25 is filter hole and blend stop cooperation schematic diagram.
Figure 26 is idler wheel scheme of installation.
Figure 27 is rib construction schematic diagram.
Figure 28 is sand sieving machine operation principle schematic diagram.
Figure label title: 1, transmission belt;2, driving motor;3, after-poppet;4, idler wheel;5, fore-stock;6, shield;7, it shakes
Motivation structure;8, baffle;9, support shaft;10, mounting rack;11, fixed rotating shaft;12, motor support;13, the first synchronous belt;14,
First synchronizing wheel;15, the second synchronizing wheel;16, support plate;17, limited block;18, fixture block;19, driving wheel;20, first bevel gear;
21, first rotating shaft;22, third synchronizing wheel;23, the second synchronous belt;24, the first support;25, the second support;26, the 4th is synchronous
Wheel;27, second bevel gear;28, stretch swing rod;29, the second shaft;30, edentulous area;31, trunnion;32, flexible interior bar;33,
Flexible housing;34, fixed plate;35, it is slidingly sealed structure;36, mounting bar;37, blend stop;38, filter hole;39, fixed disk;40,
Baffle.
Specific embodiment
With reference to the accompanying drawings and examples, specific embodiments of the present invention will be described in further detail.Implement below
Example or attached drawing are not intended to limit the scope of the invention for illustrating the present invention.
As shown in Figure 1, 2, it includes transmission belt 1, driving motor 2, after-poppet 3, idler wheel 4, fore-stock 5, shield 6, vibration
Mechanism 7, baffle 8, support shaft 9, mounting rack 10, fixed rotating shaft 11, wherein as shown in Fig. 5,8, the upper and lower ends of mounting rack 10
It is separately installed with a fixed rotating shaft 11, as shown in Fig. 3,5, fore-stock 5 is fixedly mounted on the lower end of mounting rack 10, after-poppet 3
It is mounted in two fixed rotating shafts 11 on the fixed rotating shaft 11 of upside by being rotatably assorted;As shown in figure 9, on after-poppet 3
The two sides at end are symmetrically installed there are two fixture block 18, as shown in figure 8, two limited blocks 17 are symmetrically mounted at 10 upper end of mounting rack
Two sides on, and two limited blocks 17 and two fixture blocks 18 correspond cooperation;Two limited blocks 17 are respectively to two fixture blocks
18 play restriction effect, after after-poppet 3, which is opened, to be propped, by the cooperation of two limited blocks 17 and two fixture blocks 18 to rear branch
Frame 3 plays support restriction effect, prevents after-poppet 3 from continuing to swing downwards after stress, influences the normal use of sand sieving machine;Such as figure
4, shown in 10, two idler wheels 4 are separately mounted on two fixed rotating shafts 11, and as shown in figure 26, the both ends of two idler wheels 4 are respectively mounted
There is a fixed disk 39, and fixed disk 39 and idler wheel 4 are rotatably assorted;As shown in Figure 18,19, two fixed plates 34 are symmetrically installed
In four fixed disks 39 installed on two idler wheels 4;Idler wheel 4 will not influence fixed disk 39 during rotation, i.e., will not shadow
Ring two fixed plates 34 being mounted in fixed disk 39;As shown in Figure 15,16, there is equally distributed filter hole in transmission belt 1
38, transmission belt 1 is wrapped on two idler wheels 4;As shown in figure 5, driving motor 2 is mounted on mounting rack 10 by motor support 12
Upper end, driving motor 2 control a fixed rotating shaft 11 rotation for being located at upside in two fixed rotating shafts 11;As shown in Figure 1,3, it shakes
Motivation structure 7 is mounted on mounting rack 10.
As shown in Figure 21,22, multiple blend stops 37 are equably installed on the inner wall of above-mentioned transmission belt 1, such as Figure 23,27 institutes
Show, one end of every blend stop 37 is sticked on the inner wall of transmission belt 1 by glue, and as shown in Figure 24,25, is installed in transmission belt 1
Blend stop 37 and transmission belt 1 on 38 corresponding matching of filter hole opened, every blend stop 37 corresponding one is drained through filter opening 38;Blend stop 37
The other end can carry out swing open, when a wherein blend stop 37 is opened mouth, institute in the transmission belt 1 cooperated with this blend stop 37
One opened is drained through filter opening 38 and is turned on;It is multiple rows of can to design the correspondence of blend stop 37 when designing blend stop 37 by the present invention
Filter hole 38.
As shown in Figure 1,5, the lower end of above-mentioned mounting rack 10 is fixedly installed with shield 6, and shield 6 is located at about 1 transmission belt
Between two layers, the blend stop 37 on shield 6 and 1 inner wall of transmission belt cooperates, and shield 6 is to being located in transmission belt 1 close to lower end idler wheel 4
Blend stop 37 on the upside of wall plays restriction effect.
As shown in figure 19, baffle 8 is installed, and baffle 8 and transmission belt 1 cooperate between two above-mentioned fixed plates 34,
The upper side for being located at the blend stop 37 of lower portion installation on the downside of baffle 8 and transmission belt 1 is in close contact;Baffle 8
Effect is to prevent the two sides that transmission belt 1 is pushed to by filtered sand on the move in transmission belt 1 filtered
Sand mixes filtering sand drift easy to form so simultaneously with unfiltered sand and then is easy to use.
As shown in Figure 15,17, the downside that above-mentioned transmission belt 1 is located at upper portion is equably equipped with multiple support shafts 9, passes
The downside that defeated band 1 is located at lower portion is equably equipped with multiple support shafts 9, and support shaft 9 plays a supporting role to transmission belt 1.
As shown in Figure 10,11, above-mentioned vibrating mechanism 7 includes the first cone tooth, first rotating shaft 21, the cone tooth of driving wheel 19, second
Wheel 27, flexible swing rod 28, the second shaft 29, trunnion 31, wherein as shown in Figure 11,12, first rotating shaft 21 passes through two second
Support 25 is mounted on the downside of mounting rack 10, has circumferential equally distributed edentulous area as shown in figure 13, in first bevel gear 20
30, two first bevel gears 20 are fixedly mounted on the both ends of first rotating shaft 21;Two the second shafts 29 pass through one first respectively
Support 24 is mounted on the both ends of 10 downside of mounting rack, and as shown in Figure 12,13, two second bevel gears 27 are respectively and fixedly installed to two
One end of a second shaft 29, and two second bevel gears 27 and two first bevel gears 20 correspond and cooperate;Two first
It is another when region with teeth in one of first bevel gear 20 is engaged with corresponding second bevel gear 27 in bevel gear 20
Edentulous area 30 in a first bevel gear 20 is in mated condition with corresponding second bevel gear 27;Two driving wheels 19 are distinguished
It is mounted on the other end of two the second shafts 29, two trunnions 31 are symmetrically mounted in two fixed plates 34, two flexible pendulum
The upper end of bar 28 is mounted on two trunnions 31 correspondingly respectively by hinged mode, the lower end of two flexible swing rods 28
It is respectively and fixedly installed on the periphery of two driving wheels 19;Driving motor 2 controls two first bevel gears 20 and rotates;When two
When in fixed rotating shaft 11 positioned at a fixed rotating shaft 11 rotation of upper end, which will drive mounted thereto
The rotation of 4th synchronizing wheel 26, the rotation of the 4th synchronizing wheel 26 drive third synchronizing wheel 22 to rotate by the second synchronous belt 23, and third is same
22 rotation of step wheel drives first rotating shaft 21 to rotate, and the rotation of first rotating shaft 21 drives two first bevel gears 20 to rotate, due to two
When region with teeth in one of first bevel gear 20 is engaged with corresponding second bevel gear 27 in first bevel gear 20,
Edentulous area 30 in another first bevel gear 20 is in mated condition with corresponding second gear;So when two first cones
When gear 20 rotates, corresponding second bevel gear 27 will drive with the first bevel gear 20 that second bevel gear 27 is in meshing state
Rotation, bevel gear rotation drive corresponding second shaft 29 to rotate, and second shaft 29 rotation drives corresponding driving wheel 19
Rotation, the driving wheel 19 rotation drive corresponding flexible swing rod 28 to swing, which, which swings, drives two fixed plates 34
Mobile, two fixed plates 34 are mobile to drive two idler wheels 4 to move on two fixed rotating shafts 11, and mobile drive of two idler wheels 4 passes
Defeated band 1 moves toward the direction along the axis of idler wheel 4, when the first cone for being originally in meshing state with second bevel gear 27
When edentulous area 30 on gear 20 and second bevel gear 27 cooperate, toothed region in another first bevel gear 20 will be with
Corresponding second bevel gear 27 engages, and in this state, transmission belt 1 will be along the axis of idler wheel 4 towards another direction
Reverse movement, is successively transmitted, which can be moved back and forth by driving along the axis direction of idler wheel 4 while rotation, i.e.,
Transmission belt 1 has vibrating function.
As shown in fig. 6, the second synchronizing wheel 15 is fixedly mounted on the output shaft of above-mentioned driving motor 2, the first synchronizing wheel 14
It is fixedly mounted in two fixed rotating shafts 11 positioned at one end of a fixed rotating shaft 11 of upside, the first synchronizing wheel 14 and second is same
It is connected between step wheel 15 by the first synchronous belt 13.
As shown in fig. 7, above-mentioned shield 6 is fixedly mounted under mounting rack 10 by two symmetrical support plates 16
End.
As shown in figure 11, the 4th synchronizing wheel 26 is fixedly mounted on solid positioned at one of upside in above-mentioned two fixed rotating shaft 11
Determine one end of shaft 11, third synchronizing wheel 22 is fixedly mounted on one end of first rotating shaft 21, and third synchronizing wheel 22 is synchronous with the 4th
It is connected between wheel 26 by the second synchronous belt 23.
As shown in figure 14, above-mentioned flexible swing rod 28 includes flexible interior bar 32, flexible housing 33, wherein the one of flexible housing 33
End is fixedly mounted on the periphery of corresponding driving wheel 19, and the upper end nesting of flexible interior bar 32 is mounted in flexible housing 33, is stretched
The lower end of contracting interior bar 32 is connected with corresponding trunnion 31 by revolute pair;The effect of flexible swing rod 28 is to prevent from stretching by flexible
Swing rod 28 is interfered with two fixed plates 34 moved along 4 axis direction of idler wheel during the swing.
As shown in Figure 24,25, above-mentioned two idler wheel 4 respectively between corresponding fixed rotating shaft 11 symmetrically installation there are two
It prevents sand from entering between idler wheel 4 and fixed rotating shaft 11 and is slidingly sealed structure 35;Structure 35 is slidingly sealed using existing market
It is upper it is common be slidingly sealed structure, such as common slip ring sealing mechanism, sliding bearing dual sealing mechanism etc..
As shown in Figure 19,20, above-mentioned baffle 8 is fixedly mounted in two fixed plates 34 by mounting bar 36.
It is chain wheel as the alternative of above-mentioned first synchronizing wheel 14 and the second synchronizing wheel 15, and between two chain wheels
It is connected by chain.
The diameter of above-mentioned first synchronizing wheel 14 is three times of 15 diameter of the second synchronizing wheel;Have the function that deceleration torque increase.
As shown in Figure 1, there are two baffles 40 for the upside installation of above-mentioned mounting rack 10;The bottom of baffle 40 has tiltedly gear
Plate has gap between baffle 40 and transmission belt 1;The effect of baffle is to prevent filtered rough sand and stone from shaking in transmission belt 1
By in the filtered fine sand of vibration to two sides during dynamic;The effect of slanting baffle be allow unfiltered sand all into
Enter between two baffles 40, the outside without moving on to two baffles 40, prevents transmission belt 1 from trickling down sand when vibration
Transmission belt 1 two sides, mixed with filtered sand;Gap between baffle 40 and transmission belt 1 can prevent transmission belt 1 from existing
It is interfered in vibration processes with baffle 40;Although the gap may make the sand being located in the transmission belt of upside into the gap excessively
The downside for flowing into transmission belt is mixed with the fine sand after being screened, but when guaranteeing that gap is smaller, the sand flowed down is also less, no
Too much influence can be caused to the fine sand after screening.
Specific workflow: when the interim sand sieving machine designed using the present invention, before the use first by the sand sieving machine
It moves designated position to, then opens the after-poppet 3 on the sand sieving machine, when two fixture blocks 18 and peace being mounted on after-poppet 3
Two limited blocks 17 on mounting rack 10 contact it is stuck after, as shown in figure 28, the rear end of the sand sieving machine is inserted in and is not filtered
Sand in, the sand sieving machine can normal use, then start driving motor 2 so that driving motor 2 drive it is second synchronous
15 rotation of wheel, the rotation of the second synchronizing wheel 15 drive the rotation of the first synchronizing wheel 14 by the first synchronous belt 13;First 14 turns of synchronizing wheel
Dynamic that a fixed rotating shaft 11 for being located at upside in two fixed rotating shafts 11 is driven to rotate, the fixed rotating shaft 11 rotation drives corresponding
Idler wheel 4 rotates, and the rotation of idler wheel 4 drives transmission belt 1 to rotate, and on the one hand the rotation of transmission belt 1 drives another idler wheel 4 to rotate, another
The rotation of aspect transmission belt 1 will will be inserted into one end, the unfiltered sand on transmission belt upper wall surface in sand in transmission belt 1
It drives and rotates together, when sand just starts to be driven rotation, the blend stop 37 of 1 downside of transmission belt as where sand
It is limited, the filter hole 38 cooperated in transmission belt 1 with blend stop 37 cannot be opened, under this state, sand is by transmission belt by shield 6
1 drive moves up, and after 1 part of transmission belt where sand is staggered with shield 6, shield 6 is just lost to 1 downside of transmission belt
Blend stop 37 restriction effect, shield is on the one hand because of self gravitation effect, on the other hand under the sand that filter hole 38 filters
Under the action of pressure, so that corresponding blend stop 37 passes through the biography that upside transmission belt flows into downside to lower swing, by filtered sand
The upside for the blend stop 37 installed on defeated band 1, as downside transmission belt is mobile;Turning when upside transmission belt pushes the blend stop 37 swung
After contacting during dynamic with the idler wheel 4 for being located at upper end, the idler wheel 4 positioned at upper end will squeeze blend stop 37, so that blend stop is swung again
Position, when blend stop 37 is after being located at the idler wheel 4 of upper end and turning to downside, blend stop 37 is close to transmission belt 1 under gravity
Inner wall, by transmission belt 1 be located at downside position on filter hole 38 keep off extremely, sand will not be by downside transmission belt 1
Filter hole 38 flows on the ground of 1 downside of transmission belt, so that filtered sand is maintained a certain distance with unfiltered sand,
Avoid mixing;After filtered sand flows into the upside for the blend stop 37 installed in the transmission belt 1 of downside, transmission belt 1 is turning
It is mobile just to will drive filtered sand during dynamic, is contacted when being located in downside transmission belt 1 filtered sand with baffle 8
Afterwards, as shown in figure 28, under the action of baffle 8, these sands will be pushed on the ground of 1 two sides of transmission belt, be held in this way
It easily forms filtering sand drift and then is easy to use;And the rough sand and stone filtered out will be driven by transmission belt 1 to top side, from biography
The top side of defeated band 1 is fallen on ground;In use for some time, the sand not filtered will be reduced, and be located at conveyer belt
On sand also reduce accordingly, need manually to bank out the unfiltered sand of surrounding at this time, heap can be passed to conveyer belt 1
On the position sent, the sand sieving machine can also be directly moved, the rear end of the sand sieving machine is inserted in unfiltered sand.
When being located at a fixed rotating shaft 11 rotation of upper end in two fixed rotating shafts 11, which can band
The 4th synchronizing wheel 26 rotation mounted thereto is moved, the rotation of the 4th synchronizing wheel 26 drives third synchronizing wheel by the second synchronous belt 23
22 rotations, the rotation of third synchronizing wheel 22 drive first rotating shaft 21 to rotate, and the rotation of first rotating shaft 21 drives two first bevel gears 20
Rotation, due to region with teeth in one of first bevel gear 20 in two first bevel gears 20 and corresponding second bevel gear
When 27 engagement, the edentulous area 30 in another first bevel gear 20 is in mated condition with corresponding second gear;Institute
Will drive with the first bevel gear 20 that second bevel gear 27 is in meshing state corresponding when two first bevel gears 20 rotate
Second bevel gear 27 rotate, bevel gear rotation drives corresponding second shaft 29 to rotate, and second shaft 29 rotation drives
Corresponding driving wheel 19 rotates, and the driving wheel 19 rotation drives corresponding flexible swing rod 28 to swing, which swings band
Dynamic two fixed plates 34 are mobile, and two fixed plates 34 are mobile to drive two idler wheels 4 to move on two fixed rotating shafts 11, two rollings
Wheel 4 is mobile to drive transmission belt 1 to move toward the direction along the axis of idler wheel 4, nibbles when being originally in second bevel gear 27
When edentulous area 30 and second bevel gear 27 in the first bevel gear 20 of conjunction state cooperate, in another first bevel gear 20
Toothed region will be engaged with corresponding second bevel gear 27, and in this state, transmission belt 1 will be along the axis of idler wheel 4
It moves backward towards another direction, successively transmits, which can be driven axis along idler wheel 4 while rotation
Direction moves back and forth, i.e., transmission belt 1 has vibrating function, improves the efficiency that sand is filtered by transmission belt 1 by vibration.
In summary:
The interim sand sieving machine that the present invention designs, relative to traditional sand sieving machine, the sand sieving machine small volume is easy to carry, makes
With when, by after-poppet 3 opening prop so that the transmission belt 1 of filtering sand forms an angle with ground;Do not use when
It waits, after-poppet 3 is turned up, so that the sand sieving machine constitutes tabular, easy to carry and carrying;The interim sieve that the present invention designs is husky
The opening of after-poppet 3 is directly propped when in use, is not needed other operation bidirectionals, the sand sieving machine structure operation side by machine
Just, while when in use facilitate arrangement;The interim sand sieving machine that the present invention designs, when in use, by the sand sieving machine structure
Lower end be inserted directly into sand, during the work time, by the rotation of transmission belt 1 so that sand is automatically transferred to transmit
On band 1, processing is filtered to sand by transmission belt 1, in use for some time, the sand not filtered will be reduced,
Sand on conveyer belt is also reduced accordingly, needs manually to bank out the unfiltered sand of surrounding at this time, heap to biography
On the position for sending band 1 that can transmit, the sand sieving machine can also be directly moved, the rear end of the sand sieving machine is inserted in unfiltered sand
It is interior.It uses relatively labor-saving.