CN210845488U - Sand and stone separator feed arrangement - Google Patents

Abstract

The utility model discloses a sand-stone separator feeding device, which relates to the technical field of sand-stone separation equipment, and the technical scheme is characterized in that the feeding device comprises a feeding seat, the lower end of the feeding seat is provided with a discharging pipe, the inside of the feeding seat is rotatably connected with a roller which is driven by a motor and has two ends penetrating through, the roller is gradually inclined towards the direction close to the discharging pipe from top to bottom, and the lower end of the roller faces towards the discharging pipe; a vertical feed hopper is arranged on the outer side wall of the upper end of the feeding seat, and the lower end of the feed hopper is inserted from an upper end opening of the roller; the roller is sequentially provided with a smooth surface area, a stirring area and a filtering area from top to bottom, a circumferentially surrounding stirring plate is arranged in the stirring area, and the stirring plate is spirally arranged along the direction of the roller; a large number of meshes are formed in the filtering area; the utility model discloses have and to avoid the grit mixture to block up the discharging pipe, make the grit mixture can follow discharging pipe exhaust effect smoothly.

Description

Sand and stone separator feed arrangement

Technical Field

The utility model relates to a sand and stone splitter's technical field, more specifically says that it relates to a sand and stone separator feed arrangement.

Background

The sand-stone separator mainly comprises six parts, namely a feeding tank, a stirring separator, a water supply system, a screening system, a slurry-water homogenizing system, a recycling system and a waste slurry recycling system. And after the residual concrete and water enter the trough, continuously injecting circulating water, and allowing the mixed slurry to enter a separator along with a water feeding hole under the impact of water flow so as to sufficiently clean the residual concrete.

Chinese patent with publication number CN205887143U discloses a feed arrangement for sand-stone separator among the prior art, including the discharge frame that is equipped with the blowpit, be equipped with the axis of rotation along discharge frame length direction in the blowpit, the axis of rotation rotates to be connected in the discharge frame, be equipped with a plurality of bails along circumference in the axis of rotation, the blowpit still is equipped with the water pipe that is connected with the force pump, the spout that just sets up to the bail inner wall is seted up to the water pipe. Through adopting above-mentioned technical scheme, the ladle converts spout spun water into the power of axis of rotation to its impact force to it is rotatory to drive the axis of rotation, stirs the concrete, makes the concrete mixing good, has made things convenient for next grit separation. The rotation of the rotating shaft can be realized without a motor, and the effects of energy conservation and emission reduction are realized.

However, above-mentioned patent is in the in-service use process, because water pipe spun water is limited to the drive force of ladle for the axis of rotation is difficult to carry out intensive mixing with the grit mixture, because the viscosity of grit mixture is great, and easily takes place to condense the solidification, and the grit mixture of stewing in case condenses into great cubic mixture, and cubic mixture will block up the discharge gate, thereby leads to subsequent unable smooth discharge from the discharge gate of grit mixture.

SUMMERY OF THE UTILITY MODEL

The utility model provides a sand and stone separator feed arrangement has and to avoid the grit mixture to block up the discharging pipe, makes the grit mixture can follow discharging pipe exhaust effect smoothly to prior art exists not enough.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a feeding device of a sand-stone separator comprises a feeding seat, wherein a discharging pipe is arranged at the lower end of the feeding seat, a roller which is driven by a motor and penetrates through two ends of the feeding seat is rotatably connected inside the feeding seat, the roller is gradually inclined towards the direction close to the discharging pipe from top to bottom, and the lower end of the roller faces the discharging pipe; a vertical feed hopper is arranged on the outer side wall of the upper end of the feeding seat, and the lower end of the feed hopper is inserted from an upper end opening of the roller; the roller is sequentially provided with a smooth surface area, a stirring area and a filtering area from top to bottom, a circumferentially surrounding stirring plate is arranged in the stirring area, and the stirring plate is spirally arranged along the direction of the roller; the filtering area is provided with a large number of meshes.

By adopting the technical scheme, the roller rotates under the driving of the motor, when the sand and stone mixture flows into the roller from the feed hopper, the sand and stone mixture firstly flows to the smooth surface area, and the smooth surface area can help the sand and stone mixture to flow to the lower part of the roller more smoothly because the inner side wall of the smooth surface area is smoother; then the sand-stone mixture flows to the stirring area, the sand-stone mixture can be fully stirred by the stirring plate, so that the large sand-stone mixture is smashed by the stirring plate, and meanwhile, the sand-stone mixture can be prevented from being coagulated and solidified, and the sand-stone mixture is kept in a separated state; finally, the sand-gravel mixture flows downwards to the filtering area, and the massive mixture with relatively large volume and muddy water can be separated and filtered through meshes arranged on the filtering area, so that the muddy water can be preferentially discharged from the discharge pipe, and the blockage of the discharge pipe can be effectively avoided; and blocky mixture is under the rotation of cylinder, through the collision with the cylinder inside wall, and the volume also will reduce gradually, finally also can be smooth follow the discharging pipe outflow.

The utility model discloses further set up to: the feeding seat is internally and rotatably connected with a rotating shaft driven by a motor, and the rotating shaft is positioned at the lower end of the roller and close to the discharging pipe; the periphery of the outer side of the rotating shaft is surrounded by a material shifting plate, and a gap is reserved between the lower end of the material shifting plate and the inner bottom surface of the feeding seat.

By adopting the technical scheme, after the motor is started, the lower end of the stirring plate is driven by the rotating shaft to circularly rotate towards the direction close to the discharge pipe, and after the sand and stone mixture flows out of the lower end of the roller, the stirring plate can help the sand and stone mixture to flow towards the discharge pipe; especially for some blocky mixtures, the blocky mixtures can be smoothly fed into the discharge pipe under the action of the shifting plate.

The utility model discloses further set up to: the lower end of the kick-out plate is gradually bent towards the direction close to the discharge pipe to form a digging spoon.

Through adopting above-mentioned technical scheme, when stirring blocky mixture, can be with blocky mixture spoon through forming the ladle that digs at the switch plate lower extreme to send it to discharging pipe department, avoid blocky mixture to form and pile up, thereby strengthened the group material ability of switch plate, make the grit mixture homoenergetic smooth discharge from the discharging pipe.

The utility model discloses further set up to: and a flushing pipe positioned at the lower end of the feed hopper is inserted into the upper end of the feed seat, and the tail end of the flushing pipe is inserted from an upper opening of the roller.

Through adopting above-mentioned technical scheme, when the grit mixture that gets into in the cylinder is dry, let in water to the wash pipe in, can wash the inside grit mixture of cylinder through the wash pipe, because the pipe diameter of wash pipe is great relatively, can be with remaining in the inside grit mixture of cylinder rushing out in the cylinder under the effect of wash pipe, can also break away massive mixture simultaneously, avoid the mixture to take place to condense the solidification.

The utility model discloses further set up to: the feeding seat is hinged with a cover plate, and a handle is arranged on the upper surface of the cover plate.

By adopting the technical scheme, the muddy water on the outer side of the roller can splash under the action of the centrifugal force when the roller rotates, and the cover plate can shield the upper part of the feeding seat, so that a relatively closed space is formed in the feeding seat, and the muddy water can be effectively prevented from splashing outwards; and the handle arranged on the cover plate can facilitate the user to turn the cover plate outwards, so that the design is more humanized.

The utility model discloses further set up to: the cover plate is provided with spray pipes facing the roller, and the spray pipes are sequentially arranged along the direction of the roller.

By adopting the technical scheme, water is introduced into the spray pipe, and the outer side wall of the roller can be cleaned through the spray pipe; the spray pipes are sequentially arranged along the direction of the roller, so that the cleaning effect of the spray pipes on the roller is improved, and the cleaning is more comprehensive; when cleaning, the spraying pipe can be used for cleaning the roller in a surrounding manner by starting the roller, so that a better cleaning effect is achieved.

The utility model discloses further set up to: the stirring area comprises a turning plate, one end of the turning plate is hinged to the roller, the other end of the turning plate is rotatably connected with a butterfly bolt, and the turning plate is screwed on the roller through the butterfly bolt.

Through adopting above-mentioned technical scheme, owing to be provided with the stirring board that circumference encircleed in the stirring district, the grit mixture very easily forms between the stirring board and gathers, when wasing the cylinder, through twisting out butterfly bolt from the cylinder, will turn over the board again and outwards turn over round articulated department to just can conveniently in time clear up the stirring board in the stirring district, improve the cleaning performance to the stirring board.

The utility model discloses further set up to: the height of the inner bottom surface of the feeding seat is gradually reduced towards the direction of the discharging pipe.

Through adopting above-mentioned technical scheme, when the grit mixture flows out to the base in the feeding from the cylinder lower extreme, the interior bottom surface of slope enables the grit mixture and flows more smoothly and quick discharging pipe direction, reduces the amount that the grit mixture solidifies in the bottom surface.

To sum up, the utility model discloses following beneficial effect has:

the roller is driven by the motor to rotate, when the sand and stone mixture flows into the roller from the feed hopper, the sand and stone mixture firstly flows to the smooth surface area, and the smooth surface area can help the sand and stone mixture to flow to the lower part of the roller more smoothly because the inner side wall of the smooth surface area is smoother; then the sand-stone mixture flows to the stirring area, the sand-stone mixture can be fully stirred by the stirring plate, so that the large sand-stone mixture is smashed by the stirring plate, and meanwhile, the sand-stone mixture can be prevented from being coagulated and solidified, and the sand-stone mixture is kept in a separated state; finally, the sand-gravel mixture flows downwards to the filtering area, and the massive mixture with relatively large volume and muddy water can be separated and filtered through meshes arranged on the filtering area, so that the muddy water can be preferentially discharged from the discharge pipe, and the blockage of the discharge pipe can be effectively avoided; and blocky mixture is under the rotation of cylinder, through the collision with the cylinder inside wall, and the volume also will reduce gradually, finally also can be smooth follow the discharging pipe outflow.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic sectional view showing the inner part of the feeding base;

fig. 3 is an enlarged schematic view of a structure at a in fig. 2.

Reference numerals: 1. a feeding seat; 2. a discharge pipe; 3. a feed hopper; 4. a drum; 5. a light area; 6. a stirring zone; 7. a filtration zone; 8. a stirring plate; 9. mesh openings; 10. a rotating shaft; 11. a kick-out plate; 12. a flush tube; 13. a cover plate; 14. a handle; 15. a shower pipe; 16. turning over a plate; 17. a butterfly bolt; 18. digging a spoon; 19. a supporting foot.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in figure 1, a sand and stone separator feed arrangement, including being rectangular feeding seat 1, four supporting legss 19 of 1 lower extreme fixedly connected with of feeding seat, fixedly connected with is vertical feeder hopper 3 of placing on the lateral wall of 1 upper end of feeding seat, and 3 lower extremes of feeder hopper insert to feeding seat 1 inside from 1 lateral wall of feeding seat.

As shown in fig. 1 and 2, a discharge pipe 2 penetrating through the outer side wall is fixedly installed at the lower end of the feed seat 1, and the discharge pipe 2 is communicated with the interior of the feed seat 1. The discharging pipe 2 and the feeding hopper 3 are respectively positioned on the side walls of the feeding base 1 which deviate from each other. The feeding seat 1 is hinged with a rectangular cover plate 13, when the cover plate 13 is covered on the feeding seat 1, the cover plate 13 can shield the upper part of the feeding seat 1, so that a relatively closed space is formed inside the feeding seat 1. A handle 14 which is convenient for turning the cover plate 13 outwards is fixedly arranged on the upper surface of the cover plate 13.

As shown in fig. 1 and 2, a roller 4 is rotatably connected to the inside of the charging stand 1 along the axial direction of the long shaft, and the left and right ends of the roller 4 are communicated with each other. The outer side wall of the feeding seat 1 is fixedly provided with a motor for driving the roller 4 to rotate, and the motor realizes transmission with the central shaft of the roller 4 through a belt. The roller 4 inclines towards the direction close to the discharge pipe 2 from top to bottom gradually, the upper opening of the roller 4 faces the feed hopper 3, and the lower opening of the roller 4 faces the discharge pipe 2.

As shown in figures 1 and 2, the lower end of the feed hopper 3 penetrates from the outer side wall of the feed base 1 and then is inserted from the upper opening of the roller 4, and the sand mixture flows into the roller 4 from the lower end of the feed hopper 3. The roller 4 is sequentially provided with a smooth surface area 5, a stirring area 6 and a filtering area 7 from top to bottom. The inner side wall of the smooth surface area 5 is relatively smooth, the inner side wall of the stirring area 6 is sequentially and fixedly provided with a stirring plate 8 which circumferentially surrounds, and the stirring plate 8 is spirally arranged on the inner side wall of the stirring area 6 along the axial lead of the roller 4. When the sandstone mixture flows into the stirring area 6, the sandstone mixture can be fully stirred by the stirring plate 8, so that the large sandstone mixture is smashed, and the sandstone mixture can be prevented from coagulating and solidifying. The filtering area 7 is positioned at the tail end of the roller 4, a large number of uniformly distributed meshes 9 are arranged on the surface of the filtering area 7, and when the sand-stone mixture flows into the filtering area 7, the meshes 9 can separate and filter the massive mixture with relatively large volume from mud and water.

As shown in fig. 1 and 2, a flushing pipe 12 located at the lower end of the feed hopper 3 is fixedly inserted into the upper end of the feed base 1, and after the flushing pipe 12 penetrates through the outer side wall of the feed base 1, the tail end of the flushing pipe 12 is inserted into the roller 4 from the upper opening of the roller 4. A plurality of shower pipes 15 are inserted into the cover plate 13 and face the lower end drum 4, and the shower pipes 15 are sequentially arranged in the direction in which the drums 4 are placed.

As shown in fig. 2, the stirring area 6 includes an arc-shaped turning plate 16 hinged on the drum 4, the other end of the turning plate 16 is rotatably connected with a butterfly bolt 17, the butterfly bolts 17 are respectively located at two ends of the turning plate 16, the drum 4 is correspondingly provided with two mounting holes for screwing the butterfly bolts 17, and the turning plate 16 is screwed on the drum 4 through the butterfly bolts 17.

As shown in fig. 2 and 3, a rotating shaft 10 opposite to the lower end of the roller 4 is rotatably connected inside the feeding base 1, a motor is fixedly installed on the outer side wall of the feeding base 1, and an output shaft of the motor is fixedly connected with the rotating shaft 10. The outer side of the rotating shaft 10 is circumferentially surrounded with a material shifting plate 11 along the axial lead direction, and the material shifting plate 11 is fixedly arranged on the rotating shaft 10. The kick-out plate 11 is close to one side of the discharge pipe 2, and a gap is reserved between the lower end of the kick-out plate 11 and the inner bottom surface of the feed base 1. The lower ends of the kick-out plates 11 are gradually bent towards the direction close to the discharge pipe 2 to form scoops 18, and the lower ends of the kick-out plates 11 are driven by the motor to rotate towards the discharge pipe 2.

As shown in fig. 2, the inner bottom surface of the charging socket 1 is formed in a circular arc shape, and the height of the inner bottom surface of the charging socket 1 is gradually reduced toward the discharging pipe 2.

The specific effects of the embodiment are as follows:

the cylinder 4 will take place to rotate under the drive of motor, and when the grit mixture flowed into cylinder 4 in from feeder hopper 3, the grit mixture will flow to plain noodles district 5 at first, because the 5 inside walls of plain noodles district are comparatively smooth, and plain noodles district 5 can help the grit mixture more smooth to the flow of cylinder 4 below. The sand-gravel mixture will then flow to the stirring zone 6, and the sand-gravel mixture can be sufficiently stirred by the stirring plate 8, so that the large-sized sand-gravel mixture is crushed by the stirring plate 8, and the sand-gravel mixture can be prevented from coagulating and solidifying by the stirring of the stirring plate 8, so that the sand-gravel mixture is kept in a separated state. And finally, the sand-gravel mixture flows downwards to the filtering area 7, and the massive mixture with relatively large volume and muddy water can be separated and filtered through the meshes 9 arranged on the filtering area 7, so that the muddy water can be preferentially discharged from the discharge pipe 2, and the blockage of the discharge pipe 2 can be effectively avoided. And the blocky mixture is collided with the inner side wall of the roller 4 under the rotation of the roller 4, the volume is gradually reduced, and finally the blocky mixture can be smoothly discharged from the discharge pipe 2.

The above description is only the preferred embodiment of the present invention, and is not intended to limit the present invention, any modification, equivalent replacement, or improvement made within the design concept of the present invention should be included within the protection scope of the present invention.

Claims (8)

1. The utility model provides a sand and stone separator feed arrangement, includes feeding seat (1), and feeding seat (1) lower extreme is provided with discharging pipe (2), characterized by: the feeding seat (1) is internally and rotatably connected with a roller (4) which is driven by a motor and has two ends penetrating through, the roller (4) gradually inclines towards the direction close to the discharging pipe (2) from top to bottom, and the lower end of the roller (4) faces towards the discharging pipe (2); a vertical feed hopper (3) is arranged on the outer side wall of the upper end of the feed seat (1), and the lower end of the feed hopper (3) is inserted from an upper end opening of the roller (4); the roller (4) is sequentially provided with a smooth surface area (5), a stirring area (6) and a filtering area (7) from top to bottom, a stirring plate (8) which is circumferentially surrounded is arranged in the stirring area (6), and the stirring plate (8) is spirally arranged along the direction of the roller (4); the filtering area (7) is provided with a large number of meshes (9).

2. The sand separator feeding device according to claim 1, wherein: a rotating shaft (10) driven by a motor is rotatably connected inside the feeding seat (1), and the rotating shaft (10) is positioned at the lower end of the roller (4) and close to the discharging pipe (2); the material shifting plate (11) is circumferentially wound on the outer side of the rotating shaft (10), and a gap is reserved between the lower end of the material shifting plate (11) and the inner bottom surface of the feeding seat (1).

3. A sand separator feed apparatus as claimed in claim 2, wherein: the lower end of the kick-out plate (11) is gradually bent towards the direction close to the discharge pipe (2) to form a digging spoon (18).

4. A sand separator feed apparatus as claimed in claim 3, wherein: a flushing pipe (12) positioned at the lower end of the feed hopper (3) is inserted into the upper end of the feed seat (1), and the tail end of the flushing pipe (12) is inserted from an upper opening of the roller (4).

5. The sand separator feeding device according to claim 1, wherein: a cover plate (13) is hinged above the feeding seat (1), and a handle (14) is arranged on the upper surface of the cover plate (13).

6. The sand separator feeding device according to claim 5, wherein: the cover plate (13) is provided with spray pipes (15) facing the roller (4), and the spray pipes (15) are sequentially arranged along the direction of the roller (4).

7. The sand separator feeding device according to claim 6, wherein: the stirring area (6) comprises a turning plate (16) with one end hinged on the roller (4), the other end of the turning plate (16) is rotatably connected with a butterfly bolt (17), and the turning plate (16) is screwed on the roller (4) through the butterfly bolt (17).

8. The sand separator feeding device according to claim 1, wherein: the height of the inner bottom surface of the feeding seat (1) is gradually reduced towards the direction of the discharging pipe (2).

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