CN110404757A - A kind of small-sized labour-saving sand sieving machine of interior decoration - Google Patents

Abstract

The invention belongs to decoration technology fields, more particularly to a kind of small-sized labour-saving sand sieving machine of interior decoration, it includes conveyer belt, driving motor, after-poppet, scroll wheel, fore-stock, vibrating mechanism, fixed frame, the small-sized sand sieving machine that the present invention designs, relative to traditional sand sieving machine, the sand sieving machine small volume, it is easy to carry, in the present invention by vibrating mechanism design in two support shafts, space of the output with downside is saved, so that the sand sieving machine becomes more convenient in the handling process；Vibrating mechanism becomes simpler simultaneously, and vibrating effect is more preferable；The small-sized sand sieving machine that the present invention designs, when in use, the lower end of the sand sieving machine structure is inserted directly into sand, during the work time, by the rotation of conveyer belt so that sand is automatically transferred on conveyer belt, processing is filtered to sand by conveyer belt, does not need manually to carry out moving sand, it is relatively labor-saving.

Description

A kind of small-sized labour-saving sand sieving machine of interior decoration

Technical field

The invention belongs to decoration technology field more particularly to a kind of small-sized labour-saving sand sieving machines of interior decoration.

Background technique

When tradition carries out construction, need, because the granular size of sand is different, to need using to sand Artificial screening is carried out according to different situations, the net of traditional sieve sand is exactly slant setting on the side of sand drift, by artificial It holds tool constantly to raise up sand, so that effect of the sand with gravity, when falling on following by the upper surface of sieve, passes through Sieve falls the particle smaller than sieve gap below sieve, and the particle bigger than sieve gap falls in the top of sieve, constantly Repetitive operation.

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 is slipped through the net vibration, is filtered by vibration to sand；Another kind is drum type sand screening machine, passes through motor control Roller rotation, and there are screen holes on roller, sand is filtered by the rotation of roller；But both sand sieving machines make It is slipped through the net in upper or roller with, requiring for unfiltered sand to be transferred in the process plate, in this way in feeding process, people It needs constantly to be bent over, labor intensity is bigger, uses relatively elaborate, it has not been convenient to；So design it is a kind of easily, It does not need not stopping for sand to be transferred to the sand sieving machine that plate is slipped through the net in upper or roller manually to be necessary.

The small-sized labour-saving 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 small-sized labour-saving sieve that the present invention discloses a kind of interior decoration is husky Machine, it adopts the following technical solutions to realize.

A kind of small-sized labour-saving sand sieving machine of interior decoration, it is characterised in that: it include conveyer belt, driving motor, after Bracket, scroll wheel, fore-stock, restriction plate, vibrating mechanism, triangle pushing block, support roller bearing, fixed frame, support shaft, wherein fixing The upper and lower ends of frame are separately installed with a support shaft, and fore-stock is fixedly mounted on the lower end of fixed frame, and after-poppet is by turning Dynamic be fitted in two support shafts is located in the support shaft of upside；The two sides of after-poppet upper end are symmetrically equipped with two A fixture block, two supporting blocks are symmetrically mounted on the two sides of fixed frame upper end, and two supporting blocks and two fixture blocks are one by one Corresponding matching；Two supporting blocks play restriction effect to two fixture blocks, after after-poppet, which is opened, to be propped, pass through two supporting blocks Cooperation with two fixture blocks plays support restriction effect to after-poppet, prevents after-poppet from continuing to swing downwards after stress, influences The normal use of sand sieving machine；Two scroll wheels are separately mounted in two support shafts；There is equally distributed sieve on conveyer belt Hole is selected, conveyer belt is wrapped on two scroll wheels；Driving motor is mounted on the upper end of fixed frame, driving motor control by support ring Make the support shaft rotation for being located at upside in two support shafts；Two vibrating mechanisms are separately mounted to two support shafts On.

Multiple elastic plates are equably installed, one end of every elastic plate is by uniformly dividing on the inner wall of above-mentioned conveyer belt The rivet of cloth is fixedly mounted on the inner wall of conveyer belt, and the screen holes opened on the elastic plate and conveyer belt installed on conveyer belt Corresponding matching, the corresponding row's screen holes of every elastic plate；The other end of elastic plate can carry out swing open, when a wherein bullet Property plate be opened mouth, be turned on the row's screen holes opened on the conveyer belt of this elastic plate cooperation；The present invention is designing When elastic plate, an elastic plate can be designed and correspond to multiple rows of screen holes, and preferably an elastic plate corresponds to multiple rows of screen holes, It arranges more screen holes, makes hole arrangement more and occupied area more shaker screen sand is more efficient.

The lower end of above-mentioned fixed frame is fixedly installed with restriction plate, and restriction plate is located among conveyer belt, restriction plate and transmission With the elastic plate cooperation on inner wall；Restriction plate plays limit to the elastic plate being located on the upside of conveyer belt inner wall close to lower end scroll wheel Production is used.

Triangle pushing block is installed, and triangle pushing block and conveyer belt cooperate on above-mentioned fixed frame, the downside of triangle pushing block with The upper side for being located at the elastic plate of lower portion installation on conveyer belt is in close contact；The effect of triangle pushing block is by position on the move In the two sides for being pushed to conveyer belt by filtered sand on conveyer belt, prevent filtered sand and unfiltered sand mixed Filtering sand drift easy to form in this way is easy to use in turn when contract.

The downside that above-mentioned conveyer belt is located at upper portion is equably equipped with multiple support roller bearings, and conveyer belt is located at following side The downside divided equably is equipped with multiple support roller bearings；Support roller bearing plays a supporting role to conveyer belt.

Above-mentioned vibrating mechanism include reset spring, the first driving wheel, first be slidingly sealed structure, the second driving wheel, driving Teeth are wherein separately installed with a reset spring between one end of scroll wheel and side corresponding on fixed frame；Reset spring Reset response is played to scroll wheel；First is equipped between the other end of scroll wheel and side corresponding on fixed frame to be slidingly sealed Structure, first one end for being slidingly sealed structure are fixedly mounted on scroll wheel, and first is slidingly sealed the fixed peace of the other end of structure On fixed frame；First driving wheel and the second driving wheel structure are identical, for the first driving wheel, first driving wheel one end End face on there are circumferential equally distributed three drivings teeth, the other end of the first driving wheel is fixedly mounted on the end of scroll wheel On face, on the second driving wheel not there is one end of driving teeth to be fixedly mounted on first and is slidingly sealed structure close to fixed frame side Inner face on, the intermeshing of driving gear on the first driving wheel and the second driving wheel；When two support shafts are in rotation When, two support shafts will drive two scroll wheel rotations, and two scroll wheels drive corresponding first driving wheel rotation, because Driving teeth intermeshing between first driving wheel and the second driving wheel, and the second driving wheel is fixed, so first drives Driving wheel can move while rotation along the axis of scroll wheel, and the first driving wheel is mobile to drive corresponding scroll wheel mobile, rolling Driving wheel movement will squeeze corresponding reset spring；It is driven when the most endpoint of the driving teeth on the first driving wheel is turned to second After the most endpoint contact of driving teeth on driving wheel, the first driving wheel, which continues to rotate, will make the first driving wheel in reset spring Under the action of reset, i.e. the first driving wheel moves back and forth while rotation along the axis of corresponding scroll wheel, the first driving Wheel is mobile to drive corresponding scroll wheel mobile, and scroll wheel is mobile to drive conveyer belt mobile, i.e., conveyer belt while rotation along The axis direction of scroll wheel vibrates；First, which is slidingly sealed structure, plays seal protection work to the first driving wheel and the second driving wheel With, prevent the first driving wheel and the second driving wheel during relative rotation, the first driving wheel with respect to the second driving wheel carry out When mobile, sand by the gap of the driving teeth between the first driving wheel and the second driving wheel enter the first driving wheel with Between second driving wheel, the effect of the first driving wheel and the second driving wheel is influenced.

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 on the one end for being located at a support shaft of upside in two support shafts, the first synchronizing wheel and second Pass through the first synchronous band connection between synchronizing wheel；Third synchronizing wheel is fixedly mounted in two support shafts positioned at one of upside One end of shaft is supported, the 4th synchronizing wheel is fixedly mounted on the one of a support shaft for being located at downside in two support shafts End passes through the second synchronous band connection between third synchronizing wheel and the 4th synchronizing wheel.

As the further improvement of this technology, above-mentioned restriction plate is fixedly mounted on by two symmetrical support bars Determine the lower end of frame.

As the further improvement of this technology, above-mentioned reset spring is compressed spring.

As the further improvement of this technology, peace is fixed in above-mentioned first one end for being slidingly sealed structure by welding On fixed frame, first other end for being slidingly sealed structure is fixedly mounted on scroll wheel by welding；First is sliding Movable sealing structure plays the role of seal protection to the first driving wheel and the second driving wheel, prevents the first driving wheel and the second driving wheel During relative rotation, when the first driving wheel is moved relative to the second driving wheel, sand passes through the first driving wheel And the gap of the second driving teeth between driving wheel enters between the first driving wheel and the second driving wheel, influences the first driving wheel With the effect of the second driving wheel.

As the further improvement of this technology, above-mentioned two scroll wheel is symmetrically equipped between corresponding support shaft respectively Two prevent sand from entering scroll wheel and the structure second that is slidingly sealed between shaft are supported to be slidingly sealed structure.

Second, which is slidingly sealed structure, is slidingly sealed structure using common on existing market, such as common slip ring sealer Structure, sliding bearing dual sealing mechanism etc..

As the further improvement of this technology, above-mentioned triangle pushing block is fixedly mounted on fixed frame by mounting blocks.

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 fixed frame；Baffle and conveyer belt it Between have gap；The effect of baffle prevents filtered rough sand and stone from being vibrated in conveyer belt vibration processes to two sides In filtered fine sand；The effect of slanting baffle is that unfiltered sand is fully entered between two baffles, without The outside for moving on to two baffles, the two sides for the conveyer belt for preventing conveyer belt from trickling down sand when vibration are and filtered Sand mixing；Gap between baffle and conveyer belt can prevent conveyer belt from interfering in vibration processes with baffle, although The gap may make be located at upside conveyer belt on sand into cross the gap flow into conveyer belt downside be screened after it is thin Sand mixing, when guaranteeing that 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 small-sized 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 conveyer 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 small-sized 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 small-sized sand sieving machine that the present invention designs It is interior, during the work time, by the rotation of conveyer belt so that sand is automatically transferred on conveyer belt, by conveyer belt to sand Son is filtered processing, does not need manually to carry out moving sand, relatively labor-saving.

4, the small-sized sand sieving machine that the present invention designs has saved output band by vibrating mechanism design in two support shafts The space of downside, so that the sand sieving machine becomes more convenient in the handling process；Vibrating mechanism becomes simpler simultaneously, has Certain vibrating effect.

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 triangle pushing block distribution schematic diagram.

Fig. 5 is driving motor scheme of installation.

Fig. 6 is the first synchronous belt scheme of installation.

Fig. 7 is restriction plate structural schematic diagram.

Fig. 8 is fore-stock and after-poppet scheme of installation.

Fig. 9 is after-poppet structural schematic diagram.

Figure 10 is support roller bearing distribution schematic diagram.

Figure 11 is conveyer belt scheme of installation.

Figure 12 is support roller bearing scheme of installation.

Figure 13 is triangle pushing block structural schematic diagram.

Figure 14 is vibrating mechanism scheme of installation.

Figure 15 is conveyer structure schematic diagram.

Figure 16 is elastic plate distribution schematic diagram.

Figure 17 is elastic plate scheme of installation.

Figure 18 is to be slidingly sealed structure second to be slidingly sealed structure scheme of installation.

Figure 19 is screen holes and elastic plate cooperation schematic diagram.

Figure 20 is scroll wheel scheme of installation.

Figure 21 is elastic plate schematic diagram.

Figure 22 is rivet distribution schematic diagram.

Figure 23 is rivet arrangement schematic diagram.

Figure 24 is vibrating mechanism structural schematic diagram.

Figure 25 is reset spring scheme of installation.

Figure 26 is the first driving wheel and the second driving distribution schematic diagram.

Figure 27 is first to be slidingly sealed structural schematic diagram.

Figure 28 is the first driving wheel and the second driving cooperation cooperation schematic diagram.

Figure 29 is the first driving wheel schematic diagram.

Figure 30 is sand sieving machine operation principle schematic diagram.

Figure label title: 1, conveyer belt；2, driving motor；3, after-poppet；4, scroll wheel；5, fore-stock；6, restriction plate； 7, vibrating mechanism；8, triangle pushing block；9, roller bearing is supported；10, fixed frame；11, shaft is supported；12, support ring；13, first is synchronous Band；14, the first synchronizing wheel；15, the second synchronizing wheel；16, support bar；17, supporting block；18, fixture block；19, the second synchronous belt；35, It is slidingly sealed structure second and is slidingly sealed structure；36, mounting blocks；37, elastic plate；38, screen holes；39, third synchronizing wheel；40, 4th synchronizing wheel；41, rivet；42, reset spring；43, the first driving wheel；44, first it is slidingly sealed structure；45, the second driving Wheel；46, teeth are driven；47, 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 include conveyer belt 1, driving motor 2, after-poppet 3, scroll wheel 4, fore-stock 5, restriction plate 6, Vibrating mechanism 7, triangle pushing block 8, support roller bearing 9, fixed frame 10, support shaft 11, wherein as shown in Fig. 5,8, fixed frame 10 Upper and lower ends are separately installed with a support shaft 11, as shown in figure 8, fore-stock 5 is fixedly mounted on the lower end of fixed frame 10, after Bracket 3, which passes through to be rotatably assorted to be mounted in two support shafts 11, to be located in the support shaft 11 of upside；As shown in figure 9, rear branch The two sides of 3 upper end of frame are symmetrically installed there are two fixture block 18, as shown in figure 8, two supporting blocks 17 are symmetrically mounted at fixed frame On the two sides of 10 upper ends, and two supporting blocks 17 and two fixture blocks 18 correspond cooperation；Two supporting blocks 17 block two Block 18 plays restriction effect, after after-poppet 3, which is opened, to be propped, by the cooperation of two supporting blocks 17 and two fixture blocks 18 to rear Bracket 3 plays support restriction effect, prevents after-poppet 3 from continuing to swing downwards after stress, influences the normal use of sand sieving machine；Two A scroll wheel 4 is separately mounted in two support shafts 11；There are equally distributed screen holes 38, conveyer belt 1 twines on conveyer belt 1 It is wound on two scroll wheels 4；As shown in Fig. 3,5, driving motor 2 is mounted on the upper end of fixed frame 10, driving by support ring 12 Motor 2 controls a support shaft 11 rotation for being located at upside in two support shafts 11；As shown in Figure 2,3, two bobbing machines Structure 7 is separately mounted in two support shafts 11.

As shown in Figure 15,16, multiple elastic plates 37 are equably installed on the inner wall of above-mentioned conveyer belt 1, such as Figure 22,23 Shown, one end of every elastic plate 37 is fixedly mounted on the inner wall of conveyer belt 1 by equally distributed rivet 41, and as schemed 18, shown in 19, the elastic plate 37 installed on conveyer belt 1 and 38 corresponding matching of screen holes opened on conveyer belt 1, such as Figure 17,19 It is shown, the corresponding row's screen holes 38 of every elastic plate 37；As shown in figure 21, the other end of elastic plate 37 can be carried out swinging and be beaten It opens, when a wherein elastic plate 37 is opened mouth, the row's screen holes 38 opened on the conveyer belt 1 cooperated with this elastic plate 37 It is turned on；The present invention can design the corresponding multiple rows of screen holes 38 of an elastic plate 37 when design flexibility plate 37.

As shown in Fig. 5,11, the lower end of above-mentioned fixed frame 10 is fixedly installed with restriction plate 6, and restriction plate 6 is located at conveyer belt 1 Centre, as shown in Figure 10, the elastic plate 37 in restriction plate 6 and 1 inner wall of conveyer belt cooperate；Restriction plate 6 is to close to lower end scroll wheel 4 Be located at 1 inner wall of conveyer belt on the upside of elastic plate 37 play restriction effect.

As shown in Figure 12,13, triangle pushing block 8 is installed, and triangle pushing block 8 and conveyer belt 1 cooperate on above-mentioned fixed frame 10, The upper side for being located at the elastic plate 37 of lower portion installation on the downside of triangle pushing block 8 and conveyer belt 1 is in close contact；Triangle pushes away The effect of block 8 is to prevent the two sides that conveyer belt 1 is pushed to by filtered sand on the move on conveyer belt 1 Sand after filter mixes filtering sand drift easy to form so simultaneously with unfiltered sand and then is easy to use.

As shown in figure 12, the downside that above-mentioned conveyer belt 1 is located at upper portion is equably equipped with multiple support roller bearings 9, passes The downside for sending band 1 to be located at lower portion is equably equipped with multiple support roller bearings 9；Support roller bearing 9 plays support to conveyer belt 1 and makees With.

As shown in figure 24, above-mentioned vibrating mechanism 7 is slidingly sealed structure including reset spring 42, the first driving wheel 43, first 44, the second driving wheel 45, driving teeth 46, wherein as shown in figure 25, one end of scroll wheel 4 and corresponding side on fixed frame 10 Between be separately installed with a reset spring 42；Reset spring 42 plays reset response to scroll wheel 4；As shown in Figure 26,27, rolling It is equipped with first between the other end of driving wheel 4 and corresponding side on fixed frame 10 and is slidingly sealed structure 44, first is slidingly sealed One end of structure 44 is fixedly mounted on scroll wheel 4, and first other end for being slidingly sealed structure 44 is fixedly mounted on fixed frame 10 On；As shown in figure 28, the first driving wheel 43 is identical with 45 structure of the second driving wheel, as shown in figure 29, for the first driving 43 are taken turns, there are circumferential equally distributed three drivings teeth 46 on the end face of 43 one end of the first driving wheel, the first driving wheel 43 The other end is fixedly mounted on the end face of scroll wheel 4, on the second driving wheel 45 not there is one end of driving teeth 46 to be fixedly mounted Structure 44 is slidingly sealed on the inner face of 10 side of fixed frame first, on the first driving wheel 43 and the second driving wheel 45 Drive gear intermeshing；When two support shafts 11 in the rotation, two support shafts 11 will drive two scroll wheels 4 Rotation, two scroll wheels 4 drive corresponding first driving wheel 43 to rotate, because between the first driving wheel 43 and the second driving wheel 45 Driving teeth 46 be intermeshed, and the second driving wheel 45 is fixed, so the first driving wheel 43 can edge while rotation Scroll wheel 4 axis it is mobile, the first driving wheel 43 is mobile to drive corresponding scroll wheel 4 mobile, and 4 movement of scroll wheel will squeeze Corresponding reset spring 42；When the most endpoint of the driving teeth 46 on the first driving wheel 43 turn to on the second driving wheel 45 After driving the most endpoint contact of teeth 46, the first driving wheel 43, which continues to rotate, will make the first driving wheel 43 in reset spring 42 Under the action of reset, i.e. the first driving wheel 43 moves back and forth while rotation along the axis of corresponding scroll wheel 4, and first drives Driving wheel 43 is mobile to drive corresponding scroll wheel 4 mobile, and scroll wheel 4 is mobile to drive conveyer belt 1 mobile, i.e., conveyer belt 1 is in rotation It is vibrated simultaneously along the axis direction of scroll wheel 4；First is slidingly sealed structure 44 to the first driving wheel 43 and the second driving wheel 45 Play the role of seal protection, prevents the first driving wheel 43 and the second driving wheel 45 during relative rotation, the first driving wheel 43 relative to the second driving wheel 45 when moved, and sand passes through the driving between the first driving wheel 43 and the second driving wheel 45 The gap of teeth 46 enters between the first driving wheel 43 and the second driving wheel 45, influences the first driving wheel 43 and the second driving wheel 45 Effect.

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 on the one end for being located at a support shaft 11 of upside in two support shafts 11, the first synchronizing wheel 14 and second is same It is connected between step wheel 15 by the first synchronous belt 13；Third synchronizing wheel 39, which is fixedly mounted in two support shafts 11, is located at upside One support shaft 11 one end, the 4th synchronizing wheel 40 be fixedly mounted on two support shafts 11 in be located at downside a branch The one end for supportting shaft 11 is connected between third synchronizing wheel 39 and the 4th synchronizing wheel 40 by the second synchronous belt 19.

As shown in fig. 7, above-mentioned restriction plate 6 is fixedly mounted under fixed frame 10 by two symmetrical support bars 16 End.

Above-mentioned reset spring 42 is compressed spring.

Above-mentioned first one end for being slidingly sealed structure 44 is fixedly mounted on by welding on fixed frame 10, and first is sliding The other end of movable sealing structure 44 is fixedly mounted on by welding on scroll wheel 4；First is slidingly sealed structure 44 to One driving wheel 43 and the second driving wheel 45 play the role of seal protection, prevent the first driving wheel 43 and the second driving wheel 45 opposite During rotation, when the first driving wheel 43 is moved relative to the second driving wheel 45, sand passes through the first driving wheel 43 And the gap of the second driving teeth 46 between driving wheel 45 enters between the first driving wheel 43 and the second driving wheel 45, influences the The effect of one driving wheel 43 and the second driving wheel 45.

As shown in Figure 18,20, above-mentioned two scroll wheel 4 is symmetrically equipped with two between corresponding support shaft 11 respectively It is a to prevent sand from entering scroll wheel 4 and the structure second that is slidingly sealed between shaft 11 is supported to be slidingly sealed structure 35.

Second, which is slidingly sealed structure 35, is slidingly sealed structure using common on existing market, and such as common slip ring seals Mechanism, sliding bearing dual sealing mechanism etc..

Above-mentioned triangle pushing block 8 is fixedly mounted on fixed frame 10 by mounting blocks 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 9, there are two baffles 47 for the upside installation of above-mentioned fixed frame 10；Have between baffle 47 and conveyer belt 1 Gap；The effect of baffle 47 is the mistake for preventing filtered rough sand and stone in 1 vibration processes of conveyer belt by vibration to two sides In fine sand after filter；The effect of slanting baffle 47 is that unfiltered sand is fully entered between two baffles 47, without The outside that two baffles 47 can be moved on to, the two sides for the conveyer belt 1 for preventing conveyer belt 1 from trickling down sand when vibration, with mistake The sand mixing filtered；Gap between baffle 47 and conveyer belt 1 can prevent conveyer belt 1 from sending out in vibration processes with baffle 47 Raw interference, although the gap may make the sand being located on the conveyer belt of upside into the downside and quilt for crossing gap inflow conveyer belt Fine sand mixing after screening, the sand flowed down when guaranteeing that gap is smaller is also less, will not cause to the fine sand after screening too big Influence.

Specific workflow: when the small-sized 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 supporting blocks 17 on fixed frame 10 contact it is stuck after, as shown in figure 30, the rear end of the sand sieving machine is inserted in and is not filtered Sand in, then start driving motor 2 so that driving motor 2 drive the second synchronizing wheel 15 rotation, the second synchronizing wheel 15 rotation The rotation of the first synchronizing wheel 14 is driven by the first synchronous belt 13；The rotation of first synchronizing wheel 14, which drives in two support shafts 11, to be located at One support shaft 11 of upside rotates, and the support shaft 11 rotation drives corresponding third synchronizing wheel 39 to rotate, and third is synchronous 39 rotation of wheel drives the rotation of the 4th synchronizing wheel 40, and the rotation of the 4th synchronizing wheel 40, which drives in two support shafts 11, is located at the one of downside A support shaft 11 rotates；Two support shaft 11 rotations drive two scroll wheels 4 to rotate, and two rotations of scroll wheel 4 drive and pass Band 1 is sent to rotate；Conveyer belt will be inserted into one end in sand, be located at unfiltered sand on conveyer belt upper wall surface by the rotation of conveyer belt 1 Subband, which moves, to be rotated together, when sand just starts to be driven rotation, the elasticity of 1 downside of conveyer belt as where sand Plate 37 is limited by restriction plate 6, cannot be opened screen holes 38 engaged therewith on conveyer belt 1, under this state, sand is transmitted The drive of band 1 moves up, and after 1 part of conveyer belt where sand is staggered with restriction plate 6, restriction plate 6 is just lost to transmission The restriction effect of elastic plate 37 with 1 downside, elastic plate is on the one hand because on the other hand self gravitation effect is screened 38 mistake of hole Under the action of the sand of filter pushes, so that corresponding elastic plate 37 passes through upside conveyer belt to lower swing, by filtered sand The upper of the elastic plate 37 installed on the upside of the conveyer belt 1 of downside is flowed into, as downside conveyer belt is mobile；It is put when upside conveyer belt pushes After dynamic elastic plate 37 is contacted with the scroll wheel 4 for being located at upper end during rotation, the scroll wheel 4 positioned at upper end will squeeze bullet Property plate 37 so that elastic plate 37 swing reset, when elastic plate 37 through being located at upper end scroll wheel 4 turn to downside after, elasticity Plate 37 is close to the inner wall of conveyer belt 1 under gravity, and the screen holes 38 being located on the position of downside on conveyer belt 1 are kept off Extremely, sand will not be flowed on the ground of 1 downside of conveyer belt by the screen holes 38 on downside conveyer belt 1, so that filtered sand It is sub to be maintained a certain distance with unfiltered sand, avoid mixing；It is installed when filtered sand flows into downside conveyer belt 1 Elastic plate 37 upside after, it is mobile that conveyer belt 1 just will drive filtered sand during rotation, transmits when being located at downside After filtered sand is contacted with triangle pushing block 8 on band 1, as shown in figure 30, under the action of triangle pushing block 8, these sands are just On the ground that 1 two sides of conveyer belt can be pushed, filtering sand drift easy to form in this way is easy to use in turn；And the rough sand filtered out and Stone will be driven by conveyer belt 1 and arrive top side, fall on ground from the top side of conveyer belt 1, in use for some time, The sand not filtered will be reduced, and the sand on conveyer belt is also reduced accordingly, need at this time manually by surrounding not The sand of filtering banks out, and on the position that heap can be transmitted to conveyer belt 1, can also directly move the sand sieving machine, by sieve sand The rear end of machine is inserted in unfiltered sand.

In the present invention when two support shafts 11 in the rotation, two support shafts 11 will drive two scroll wheels 4 Rotation, two scroll wheels 4 drive corresponding first driving wheel 43 to rotate, because between the first driving wheel 43 and the second driving wheel 45 Driving teeth 46 be intermeshed, and the second driving wheel 45 is fixed, so the first driving wheel 43 can edge while rotation Scroll wheel 4 axis it is mobile, the first driving wheel 43 is mobile to drive corresponding scroll wheel 4 mobile, and 4 movement of scroll wheel will squeeze Corresponding reset spring 42；When the most endpoint of the driving teeth 46 on the first driving wheel 43 turn to on the second driving wheel 45 After driving the most endpoint contact of teeth 46, the first driving wheel 43, which continues to rotate, will make the first driving wheel 43 in reset spring 42 Under the action of reset, i.e. the first driving wheel 43 moves back and forth while rotation along the axis of corresponding scroll wheel 4, and first drives Driving wheel 43 is mobile to drive corresponding scroll wheel 4 mobile, and scroll wheel 4 is mobile to drive conveyer belt 1 mobile, i.e., conveyer belt 1 is in rotation It is vibrated simultaneously along the axis direction of scroll wheel 4；The efficiency that sand is filtered by conveyer belt 1 is improved by vibration.

In summary:

The small-sized 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 conveyer 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 small 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 small-sized 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 conveyer belt 1 so that sand is automatically transferred to transmit On band 1, processing is filtered to sand by conveyer belt 1, does not need manually to carry out moving sand, it is relatively labor-saving；The present invention is set The small-sized sand sieving machine of meter has saved space of the output with downside by the design of vibrating mechanism 7 in two support shafts 11, so that The sand sieving machine becomes more convenient in the handling process；Vibrating mechanism 7 becomes simpler simultaneously, imitates with certain vibration Fruit.

Claims (10)

1. a kind of small-sized labour-saving sand sieving machine of interior decoration, it is characterised in that: it includes conveyer belt, driving motor, rear branch Frame, fore-stock, restriction plate, vibrating mechanism, triangle pushing block, support roller bearing, fixed frame, supports shaft at scroll wheel, wherein fixed frame Upper and lower ends be separately installed with a support shaft, fore-stock is fixedly mounted on the lower end of fixed frame, and after-poppet passes through rotation It is fitted in two support shafts and is located in the support shaft of upside；There are two the two sides of after-poppet upper end are symmetrically installed Fixture block, two supporting blocks are symmetrically mounted on the two sides of fixed frame upper end, and two supporting blocks and two fixture blocks one are a pair of It should cooperate；Two scroll wheels are separately mounted in two support shafts；There is equally distributed screen holes, conveyer belt on conveyer belt It is wrapped on two scroll wheels；Driving motor is mounted on the upper end of fixed frame by support ring, and driving motor controls two supports A support shaft in shaft positioned at upside rotates；Two vibrating mechanisms are separately mounted in two support shafts；

Multiple elastic plates are equably installed, one end of every elastic plate passes through equally distributed on the inner wall of above-mentioned conveyer belt Rivet is fixedly mounted on the inner wall of conveyer belt, and the elastic plate installed on conveyer belt and the screen holes opened on conveyer belt are corresponding Cooperation, the corresponding row's screen holes of every elastic plate；

The lower end of above-mentioned fixed frame is fixedly installed with restriction plate, and restriction plate is located among conveyer belt, in restriction plate and conveyer belt Elastic plate cooperation on wall；

Triangle pushing block is installed, and triangle pushing block and conveyer belt cooperate on above-mentioned fixed frame, the downside of triangle pushing block and transmission Take the upper side close contact for being located at the elastic plate of lower portion installation；

The downside that above-mentioned conveyer belt is located at upper portion is equably equipped with multiple support roller bearings, and conveyer belt is located at lower portion Downside is equably equipped with multiple support roller bearings；

Above-mentioned vibrating mechanism include reset spring, the first driving wheel, first be slidingly sealed structure, the second driving wheel, driving teeth, A reset spring is wherein separately installed between one end of scroll wheel and side corresponding on fixed frame；The other end of scroll wheel It is equipped with first between side corresponding on fixed frame and is slidingly sealed structure, first one end for being slidingly sealed structure is fixedly mounted On scroll wheel, first other end for being slidingly sealed structure is fixedly mounted on fixed frame；First driving wheel and the second driving wheel Structure is identical, has circumferential equally distributed three drivings for the first driving wheel, on the end face of first driving wheel one end The other end of teeth, the first driving wheel is fixedly mounted on the end face of scroll wheel, does not have driving teeth on the second driving wheel One end is fixedly mounted on first and is slidingly sealed structure on the inner face of fixed frame side, the first driving wheel and the second driving wheel On driving gear intermeshing.

2. a kind of small-sized labour-saving sand sieving machine of interior decoration according to claim 1, it is characterised in that: second is synchronous Wheel is fixedly mounted on the output shaft of above-mentioned driving motor, and the first synchronizing wheel, which is fixedly mounted in two support shafts, is located at upside A support shaft one end, pass through the first synchronous band connection between the first synchronizing wheel and the second synchronizing wheel；Third synchronizing wheel It is fixedly mounted on the one end for being located at a support shaft of upside in two support shafts, the 4th synchronizing wheel is fixedly mounted on two The one end for being located at a support shaft of downside in shaft is supported, it is synchronous by second between third synchronizing wheel and the 4th synchronizing wheel Band connection.

3. a kind of small-sized labour-saving sand sieving machine of interior decoration according to claim 1, it is characterised in that: above-mentioned limitation Plate is fixedly mounted on the lower end of fixed frame by two symmetrical support bars.

4. a kind of small-sized labour-saving sand sieving machine of interior decoration according to claim 1, it is characterised in that: above-mentioned reset Spring is compressed spring.

5. a kind of small-sized labour-saving sand sieving machine of interior decoration according to claim 1, it is characterised in that: above-mentioned first The one end for being slidingly sealed structure is fixedly mounted on fixed frame by welding, and first other end for being slidingly sealed structure leads to The mode for crossing welding is fixedly mounted on scroll wheel.

6. a kind of small-sized labour-saving sand sieving machine of interior decoration according to claim 1, it is characterised in that: two above-mentioned Symmetrically there are two be slidingly sealed structure second to be slidingly sealed structure for installation between corresponding support shaft respectively for scroll wheel.

7. a kind of small-sized labour-saving sand sieving machine of interior decoration according to claim 1, it is characterised in that: above-mentioned triangle Pushing block is fixedly mounted on fixed frame by mounting blocks.

8. a kind of small-sized labour-saving sand sieving machine of interior decoration according to claim 2, it is characterised in that: as above-mentioned The alternative of first synchronizing wheel and the second synchronizing wheel is chain wheel, and is connected between two chain wheels by chain.

9. a kind of small-sized labour-saving sand sieving machine of interior decoration according to claim 2, it is characterised in that: above-mentioned first The diameter of synchronizing wheel is three times of the second synchronous wheel diameter.

10. a kind of small-sized labour-saving sand sieving machine of interior decoration according to claim 1, it is characterised in that: above-mentioned solid The upside installation of frame is determined there are two baffle, and there is gap between baffle and conveyer belt.