CN209465325U - A kind of vibration sand-stone separator - Google Patents

Abstract

The utility model discloses a kind of vibration sand-stone separators, it is related to aggregate screening equipment technical field, its key points of the technical solution are that: including the sieve being inclined to set, it is splicing groove positioned at the higher one end of sieve, it is discharging chute positioned at the lower one end of sieve, the sieve is provided with side baffle on the two sidewalls along splicing groove to discharging chute direction, the vibrating motor for driving sieve to carry out vibrosieve is provided on the side baffle, the splicing groove upper end is also provided with loading hopper, the loading hopper includes guide section and the feed zone that is connected to below guide section, guide section is arranged towards the direction close to splicing groove in necking, the guide section and feed zone towards discharging chute side side wall flush with each other and in being vertically arranged.Loading hopper is set, so that it is guaranteed that discarded concrete can enter sieve from splicing groove, so that reducing discarded concrete sieves situation not in place, so that discarded concrete screening is more abundant.

Description

A kind of vibration sand-stone separator

Technical field

The utility model relates to aggregate screening equipment technical fields, more specifically, it relates to which a kind of vibration sandstone separates Machine.

Background technique

Sand-stone separator is also known as sand sieving machine, is chiefly used in sieving sandstone, to be recycled discarded concrete.

The Chinese utility model patent that existing such as Authorization Notice No. is CN207371849U discloses a kind of sandstone separation Machine includes plate, and screen box is provided with above plate, has two layer screen separation structure in screen box, every layer of screening structure includes several steel Beam and screen frame equipped with sieve, and positioned at screening locations of structures higher end splicing groove, be located at screening locations of structures The discharging chute of lower one end.Wheel is installed below plate, plate movement can be drawn with vehicle, screen box is provided with vibration excitor, Drive assembly is equipped with by screen box, drive assembly has motor, and motor driven vibration excitor, which works, makes its drive screen box vibration, in screen box With sieve, pours into the concrete waste material in screen box and isolate sandstone under effect of vibration.

Using above-mentioned sand-stone separator, the discarded concrete for needing to be recycled is crushed hypsokinesis down at splicing groove, so It is sieved afterwards by sieve, but when toppling over, is easy directly to be poured onto discarded concrete at discharging chute, cause Abundant screening of the discarded concrete without screen box is just directly discharged from discharging chute, causes to sieve discarded concrete not in place Situation has much room for improvement.

Utility model content

In view of the deficienciess of the prior art, the utility model provides a kind of vibration sand-stone separator, having ensures to give up It abandons concrete and enters sieve from splicing groove, so that discarded concrete sieves abundant advantage.

To achieve the above object, the utility model provides following technical solution:

A kind of vibration sand-stone separator, including the sieve being inclined to set, being located at the higher one end of sieve is splicing groove, position It is discharging chute in the lower one end of sieve, the sieve is provided on the two sidewalls along splicing groove to discharging chute direction Side baffle is provided with the vibrating motor for driving sieve to carry out vibrosieve, the splicing groove upper end on the side baffle Also it is provided with loading hopper, the loading hopper includes guide section and the feed zone that is connected to below guide section, and guide section is towards leaning on The direction of proximity hopper is arranged in necking, and the guide section and feed zone are towards the side wall flush with each other of discharging chute side and equal In being vertically arranged.

Through the above technical solutions, setting loading hopper, is sieved when needing that discarded concrete is added to sand-stone separator Timesharing can be fed by loading hopper, and concrete is leaned on along guide section inclined sliding to guide section is contradicted Then the side of nearly discharging chute makes concrete just fall on one end of sieve splicing groove, then coagulation by feed zone again Soil can glide along sieve, and be sieved on sieve.Loading hopper is set, so that it is guaranteed that discarded concrete can be from splicing Sieve is entered at slot, so that reducing discarded concrete sieves situation not in place, so that discarded concrete screening is more filled Point.

Further, the regulating device for adjusting feed zone charging rate, the tune are additionally provided in the feed zone If regulating device include the rotation axis for being rotationally connected with feed zone, along the circumferentially distributed dryer feed baffle of rotation axis and be set into Driving motor in material section for driving rotation axis to rotate.

Through the above technical solutions, rotation axis rotation is driven by driving motor, so that charging baffle is driven to be overturn, Concrete material on loading hopper can be stirred drive along the overturning of rotation axis and sieved to sieve by charging baffle.When When needing to adjust charging rate, can the dead revolving speed appropriate for changing rotation axis, to achieve the effect that adjust charging rate.If Regulating device is set, is adjusted by charging rate of the regulating device to loading hopper, it can be according to the reality of concrete on sieve Border amount is adjusted, and the charging of appropriate loading hopper is more flexible, but also the screening effect of sand-stone separator is more stable.

Further, the charging baffle is arranged in arc plate, and the feedboard is towards the direction of rotation arc of rotation axis Face bending setting.

Through the above technical solutions, charging baffle is arranged in arc plate, so that charging baffle can also be right while rotation Concrete material in loading hopper is taken, and allows concrete sliding by the gap between two neighboring charging baffle It falls.

Further, the charging baffle is additionally provided with guide part far from one end of rotation axis, and the guide part is towards far Direction from charging baffle extends, and the area of section of guide part is gradually reduced towards the direction far from charging baffle.

Through the above technical solutions, setting guide part, is oriented to taking for baffle of charging by guide part, reduces Charging baffle takes resistance, so that taking for charging baffle is more convenient.

Further, the delivery apparatus for dredging concrete, the delivery apparatus packet are additionally provided on the guide section It includes and is rotationally connected with the agitating shaft of guide section, be axially uniformly distributed along agitating shaft for stirring several stirring rings dredged, it is described Agitating shaft is arranged in parallel with rotation axis, and the agitating shaft is located at the top setting of rotation axis.

Through the above technical solutions, the rotation of agitating shaft can drive stirring ring to be stirred, so that stirring ring is to charging Concrete at funnel guide section is broken up, and reducing concrete mutual extrusion leads to the case where being stuck in guide section, to make The charging for obtaining loading hopper is more stable.

Further, it is provided with first gear in the rotation axis, is provided on the agitating shaft and the first gear The second gear of engagement.

Through the above technical solutions, can be by a driving motor, while driving rotation axis and agitating shaft to rotate, and stir Mixing axis can rotate backward with rotation axis, allow the concrete material between regulating device and delivery apparatus in inertia force Lower offset, so that whole blanking effect is more stable.

Further, the axis of the agitating shaft being arranged radially by stirring ring, the stirring ring is along agitating shaft Axis direction helically shifts to install.

Through the above technical solutions, stirring ring helically shifts to install, so that whole stirring is not synchronous progress, so that The whole mixing effect of sample agitating shaft axial direction is more preferable so that delivery apparatus to break up effect more preferable.

Further, the guide funnel for being oriented to concrete after collection is filtered is provided with below the sieve.

Through the above technical solutions, guide funnel can be oriented to the concrete for leaking through sieve, then pass through guiding The lower end outlet discharge of funnel is collected, so that the collection of concrete is more convenient.

Compared with prior art, the utility model has the beneficial effects that

(1) by setting loading hopper, so that it is guaranteed that discarded concrete can enter sieve from splicing groove, to reduce Discarded concrete sieves situation not in place, so that discarded concrete screening is more abundant；

(2) it by setting regulating device, is adjusted by charging rate of the regulating device to loading hopper, it can basis The actual amount of concrete is adjusted on sieve, and the charging of appropriate loading hopper is more flexible, but also the sieve of sand-stone separator Divide effect more stable；

(3) by setting delivery apparatus, concrete is broken up by delivery apparatus, reduces concrete mutual extrusion Lead to the case where being stuck in guide section, so that the charging of loading hopper is more stable.

Detailed description of the invention

Fig. 1 is the overall schematic of embodiment；

Fig. 2 is the schematic cross-sectional view of embodiment；

Fig. 3 is the schematic diagram of internal structure of the loading hopper of embodiment；

Fig. 4 is the structural schematic diagram of the regulating device of embodiment.

Appended drawing reference: 1, sieve；2, splicing groove；3, discharging chute；4, side baffle；5, vibrating motor；6, guide funnel；7, Loading hopper；71, guide section；72, feed zone；8, regulating device；81, rotation axis；82, baffle is fed；83, driving motor；9, Delivery apparatus；91, agitating shaft；92, ring is stirred；10, guide part；11, first gear；12, second gear.

Specific embodiment

With reference to the accompanying drawings and examples, the utility model is described in detail.

Embodiment:

A kind of vibration sand-stone separator, as shown in Figure 1, including the sieve 1 being inclined to set for being erected at ground, sieve 1 It is splicing groove 2 positioned at higher one end, it is discharging chute 3 that sieve 1, which is located at lower one end,.The bracket and ground stationary phase of sieve 1 Even, sieve 1 is provided with side baffle 4 on the two sidewalls along splicing groove 2 to 3 direction of discharging chute, and two side baffles 4 are mutually flat Row setting, and one end that two side baffles 4 are located above is higher by the setting of sieve 1 for stopping concrete to leak out.Two side blocks Vibrating motor 5 is provided on the end face that plate 4 is away from each other, when discarded concrete is sieved by sieve 1, vibrating motor 5 It can be used for that sieve 1 is driven to be vibrated, so that screening effect is more preferable.

As shown in Figure 1 and Figure 2, the lower section of sieve 1 is additionally provided with guide funnel 6, and the upper end of guide funnel 6 covers at sieve 1 Lower end surface, and guide funnel 6 towards far from sieve 1 one end in necking setting.Guide funnel 6 is fixedly connected on sieve 1, when When sieve 1 carries out screening work, guide funnel 6 can be oriented to the concrete for leaking through sieve 1, then pass through guide funnel 6 lower end outlet discharge is collected, so that the collection of concrete is more convenient.And guide funnel 6 can follow sieve 1 to shake It is dynamic, so that the discharging of guide funnel 6 is more quick.

2 upper end of splicing groove is also provided with loading hopper 7, and loading hopper 7 includes guide section 71 and is connected under guide section 71 The feed zone 72 of side, guide section 71 are arranged towards the direction close to splicing groove 2 in necking, and feed zone 72 is in side's annular setting, and into Material section 72, which is aligned above splicing groove 2, to be arranged.Guide section 71 and feed zone 72 towards 3 side of discharging chute side wall flush with each other simultaneously It is in be vertically arranged.

As shown in Figure 2, Figure 4 shows, regulating device 8 is additionally provided in feed zone 72, regulating device 8 can be used for adjusting feed zone 72 charging rates.Regulating device 8 includes the rotation axis 81 for being rotationally connected with feed zone 72, along circumferentially distributed several of rotation axis 81 It feeds baffle 82 and is set to the driving motor 83 on feed zone 72 for driving rotation axis 81 to rotate.Feed baffle 82 along The length direction of rotation axis 81 extends, and charging baffle 82 is in arc plate setting, and feedboard is towards the direction of rotation of rotation axis 81 Cambered surface bending setting.

As shown in figure 3, charging baffle 82 is additionally provided with guide part 10 far from one end of rotation axis 81, guide part 10 is towards remote Direction from charging baffle 82 extends, and the area of section of guide part 10 is gradually reduced towards the direction far from charging baffle 82.

As shown in Figure 2, Figure 4 shows, the top of regulating device 8 is additionally provided with delivery apparatus 9, and delivery apparatus 9 is set to guide section For dredging the concrete in guide section 71 in 71.Delivery apparatus 9 includes the agitating shaft for being rotationally connected with guide section 71 91, it is axially uniformly distributed for stirring several stirring rings 92 dredged along agitating shaft 91.Agitating shaft 91 is parallel with rotation axis 81 to be set It sets, and agitating shaft 91 is located at the top setting of rotation axis 81.It stirs ring 92 to be arranged in circular ring shape, the axis of agitating shaft 91 passes through Stirring ring 92 is arranged radially, and several stirring rings 92 are helically shifted to install along the axis direction of agitating shaft 91.

As Figure 1 and Figure 4, it is additionally provided with first gear 11 in rotation axis 81, is provided on agitating shaft 91 and first gear The second gear 12 of 11 engagements, when driving motor 83 drives rotation axis 81 to rotate, the rotation of rotation axis 81 is able to drive stirring Axis 91 is rotated backward with it.When regulating device 8 in your loading hopper 7 concrete carry out blanking adjusting when, delivery apparatus 9 Agitating shaft 91 can with rotation axis 81 occur direction rotate so that stirring ring 92 in time to 7 guide section 71 of loading hopper The concrete at place is broken up, and reducing concrete mutual extrusion leads to the case where being stuck in guide section 71, so that charging leakage The charging of bucket 7 is more stable.

The working principle of the present embodiment is:

When carrying out discarded concrete screening using above-mentioned sand-stone separator, broken discarded concrete is poured into first Then loading hopper 7 starts vibrating motor 5, so that sieve 1 starts to vibrate, then start driving motor 83,83 band of driving motor Turn moving axis 81 rotates, so that the concrete material in loading hopper 7 is fallen at splicing groove 2, and with sliding under sieve 1 Row screening, the little particle concrete screened can be collected via the guiding of guide funnel 6 again by sieve 1, bulky grain Concrete can be discharged along discharging chute 3, so as to again be crushed use.

The above is only the preferred embodiment of the utility model, and the protection scope of the utility model is not limited merely to Above-described embodiment, technical solution belonging to the idea of the present invention belong to the protection scope of the utility model.It should refer to Out, for those skilled in the art, it is without departing from the principle of the utility model it is several improvement and Retouching, these improvements and modifications also should be regarded as the protection scope of the utility model.

Claims (8)

1. a kind of vibration sand-stone separator, including the sieve (1) being inclined to set, being located at sieve (1) higher one end is splicing Slot (2), being located at sieve (1) lower one end is discharging chute (3), and the sieve (1) arrives discharging chute along splicing groove (2) (3) it is provided with side baffle (4), is provided on the side baffle (4) for driving sieve (1) to carry out on the two sidewalls in direction The vibrating motor (5) of vibrosieve, it is characterised in that: splicing groove (2) upper end is also provided with loading hopper (7), it is described into Funnel (7) includes guide section (71) and the feed zone (72) being connected to below guide section (71), and guide section (71) is towards by proximity The direction of hopper (2) is arranged in necking, and the guide section (71) and feed zone (72) are towards the side wall phase of discharging chute (3) side It is mutually concordant and be in be vertically arranged.

2. a kind of vibration sand-stone separator according to claim 1, it is characterised in that: also set up in the feed zone (72) There is the regulating device (8) for adjusting feed zone (72) charging rate, the regulating device (8) includes being rotationally connected with feed zone (72) rotation axis (81), along rotation axis (81) if circumferentially distributed dryer feed baffle (82) and being set on feed zone (72) Driving motor (83) for driving rotation axis (81) to rotate.

3. a kind of vibration sand-stone separator according to claim 2, it is characterised in that: the charging baffle (82) is in circular arc Plate setting, and the direction of rotation cambered surface of charging baffle (82) towards rotation axis (81) is bent setting.

4. a kind of vibration sand-stone separator according to claim 3, it is characterised in that: the charging baffle (82) is separate to be turned One end of moving axis (81) is additionally provided with guide part (10), and the direction that the guide part (10) is directed away from charging baffle (82) is prolonged It stretches, and the area of section of guide part (10) is gradually reduced towards the direction far from charging baffle (82).

5. a kind of vibration sand-stone separator according to claim 2, it is characterised in that: also set up on the guide section (71) There is the delivery apparatus (9) for dredging concrete, the delivery apparatus (9) includes the agitating shaft for being rotationally connected with guide section (71) (91), be axially uniformly distributed along agitating shaft (91) for stir several stirring rings (92) dredged, the agitating shaft (91) with turn Moving axis (81) is arranged in parallel, and the agitating shaft (91) is located at the top setting of rotation axis (81).

6. a kind of vibration sand-stone separator according to claim 5, it is characterised in that: be provided on the rotation axis (81) First gear (11) is provided with the second gear (12) engaged with the first gear (11) on the agitating shaft (91).

7. a kind of vibration sand-stone separator according to claim 5, it is characterised in that: the axis of the agitating shaft (91) is logical Being arranged radially for stirring ring (92) is crossed, stirring ring (92) helically shifts to install along the axis direction of agitating shaft (91).

8. a kind of vibration sand-stone separator according to claim 1, it is characterised in that: the lower section of the sieve (1) is arranged There is the guide funnel (6) for being oriented to concrete after collection is filtered.