CN214391065U - Building solid waste particle screening device - Google Patents

Abstract

The utility model discloses a building solid waste particle screening plant, screening plant includes feed bin, frame, motor, dead lever, transmission and screening subassembly. The frame has constituted whole screening plant's peripheral structure, and whole frame from top to bottom sets up feed bin, screening subassembly, transmission respectively. The screening component comprises a first hopper, a second hopper and a bottom bin which are arranged from top to bottom, and the bottom bin is connected with a transmission device so as to drive the screening component to screen, so that waste can be screened into different grades of particles to meet the production of different types of concrete; the bottom compartment in this device is fixed on the frame and the sieve fill is not fixed with the frame, and the sieve is fought and is all the gomphosis setting of moving between the sieve fill and between sieve fill and the underframe for drive sieve fill that transmission can be fine sieves, and different sieve fill can replace, and the assembly is simple, the operation of being convenient for.

Description

Building solid waste particle screening device

Technical Field

The utility model belongs to building solid useless regeneration plant raw concrete apparatus for producing field, in particular to building solid waste particle screening plant.

Background

Plant living type ecological concrete as a neotype ecological slope protection material, can have side slope protection and ecological protection's dual function concurrently, the solid useless regeneration plant living concrete of building uses building solid waste as the aggregate, cooperates the ecological cement of low basicity, prepares out the plant living type ecological concrete that is fit for vegetation.

Need break into the tiny particle with building solid waste in planting living type ecological concrete block production process, then the screening is divided into different grain gradation grades, just can be used for planting living type concrete's production, consequently the utility model provides a building solid waste particle screening plant.

SUMMERY OF THE UTILITY MODEL

To the problem, the utility model provides a building solid waste particle screening plant.

The screening plant includes feed bin, frame, motor, dead lever, transmission and screening subassembly, the frame has constituted screening plant's peripheral structure, the frame is inside from top to bottom sets gradually feed bin, screening subassembly and transmission.

The screening plant periphery by a three-dimensional square is constituteed to the frame, the frame comprises perpendicular roof beam and the crossbeam of connecting perpendicular roof beam, the feed bin sets up on short crossbeam.

The screening component comprises a first screening hopper, a second screening hopper and a bottom bin, wherein the first screening hopper, the second screening hopper and the bottom bin are sequentially arranged in parallel from top to bottom in the frame and are all included angles of 5-10 degrees with the horizontal direction, and the bottom bin is fixedly connected with a top cross beam of the frame through a fixing rod. The first sieve hopper consists of a first sieve frame plate and a first sieve at the bottom, a first discharge hole is formed in one side of the first sieve frame plate, and an opening above the first sieve frame plate faces to an outlet of the storage bin; the lower part of the first screen frame plate is provided with an embedded part which is embedded with the upper part of the second screen frame plate, the lower part of the second screen frame plate is provided with an embedded part which is embedded with the upper part of the bottom bin, one side of the second screen frame plate is provided with a second discharge hole, and the second screen hopper is separated from the bottom bin through a second screen; the bottom bin is composed of a bottom bin plate at the bottom and a bottom bin frame plate above the bottom bin plate, and a third discharge hole is formed in one side of the bottom bin frame plate.

The transmission device is of a crankshaft structure and comprises a transmission crankshaft, and the transmission crankshaft is composed of connecting rods in different axial directions and bearings mounted on the connecting rods. The input of transmission bent axle is connected with the gear reduction, first fixing bearing fixes on the frame, transmission bent axle fixes on the frame through first fixing bearing, transmission bent axle's output fixed connection transfer line, the lower surface at the end storehouse is fixed to the other end of transfer line, transmission bent axle's connecting rod junction sets up the bracing piece, the bracing piece is fixed on transmission bent axle through second fixing bearing, the bracing piece other end is fixed on the lower tip crossbeam of frame.

The periphery of the speed reducing wheel is provided with a belt, the belt is connected with the output end of the motor, and the motor is installed on a cross beam at the lower end part of the frame.

Further, the feed bin has trilateral closure, the feed bin upper end is the opening, feed bin opposite side opening is inside towards the frame, the feed bin opening with form an contained angle that is greater than 90 between the crossbeam.

Furthermore, the vertical beams arranged at the same end of the frame are consistent in height, the vertical beams arranged at different ends are inconsistent in height, the vertical beams at different ends are different in distance, universal wheels are mounted at the lower end parts of the vertical beams, and the universal wheels have a braking function.

Further, the first discharge port, the second discharge port and the third discharge port are respectively arranged on one side of the first sieve hopper, the second sieve hopper and the bottom bin, wherein the first sieve hopper, the second sieve hopper and the bottom bin are inclined downwards, and meshes of the first sieve are larger than meshes of the second sieve.

The utility model has the advantages that:

the utility model discloses a design of multilayer sieve fill, and the screen cloth size of every layer of sieve fill from top to bottom reduces in proper order, makes the discarded object sieve become the granule of different grades in order to satisfy the production of the concrete of different models;

the utility model has the advantages that the bottom bin is connected with the transmission device, the bottom bin is fixed on the frame, the sieve hopper is not fixed with the frame, and the movable embedded devices are respectively arranged between the sieve hopper and between the sieve hopper and the bottom frame, so that the transmission device can well drive the sieve hopper to sieve, and different sieve hoppers can be replaced, and the assembly is simple;

the utility model discloses a with the end storehouse, the slope of screen hopper sets up and the discharge gate sets up in one side of downward sloping for the discarded object granule is derived from the discharge gate more easily.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1: a schematic diagram of a construction solid waste particle screening device;

FIG. 2: a schematic diagram of a construction solid waste particle screening device;

FIG. 3: a first screen bucket front view of a building solid waste particle screening device;

FIG. 4: a top view of a first screen bucket of a construction solid waste particle screening device;

FIG. 5: a second screen hopper front view of a construction solid waste particle screening device;

FIG. 6: a second screen bucket top view of the building solid waste particle screening device;

FIG. 7: a front view of a bottom bin of a construction solid waste particle screening device;

FIG. 8: a top view of a bottom bin of a construction solid waste particle screening device;

FIG. 9: a front view of a construction solid waste particle screening device transmission;

FIG. 10: a front view of a stationary rod of a construction solid waste particle screening device.

In the figure: 1. a storage bin; 2. a frame; 3. an electric motor; 4. a transmission device; 41. a speed reducing wheel; 42. a first fixed bearing; 43. a drive crankshaft; 44. a transmission rod; 45. a second fixed bearing; 46. a support bar; 5. a first sieve hopper; 51. a first screen; 52. a first screen frame plate; 53. a first discharge port; 6. a second sieve hopper; 61. a second screen; 62. a second screen frame plate; 63. a second discharge port; 7. a bottom bin; 71. a bottom bin plate; 72. a bottom bin frame plate; 73. a third discharge port; 8. fixing the rod; 9. a universal wheel.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 10, a construction solid waste particle screening device includes a bin 1, a frame 2, a motor 3, a fixing rod 8, a transmission device 4, and a screening assembly. Frame 2 has constituted whole screening plant's peripheral structure, and whole frame 2 from top to bottom sets up feed bin 1, screening subassembly, transmission 4 respectively.

Referring to fig. 2, the periphery of the screening device is formed into an irregular three-dimensional square by a frame 2, and the frame 2 is formed by vertical beams and cross beams. The vertical beams are four and perpendicular to the ground, the upper portions of the cross beams are four, and the lower portions of the cross beams are five. The irregular three-dimensional square irregularity is that the vertical beams arranged at the same end of the frame 2 are consistent in height, the vertical beams arranged at different ends are inconsistent in height, and the vertical beams at different ends are different in interval. This arrangement causes the whole frame 2 to have a tendency of being high on one side and low on the other side, and the lengths of the cross beams between the upper ends of the vertical beams are not uniform. The lower end of each vertical beam is provided with a universal wheel 9, so that the whole frame 2 can move in the process of traveling, and the universal wheels 9 have a braking function.

Referring to fig. 1, the bin 1 is arranged on a shorter cross beam, the bin 1 is three-side closed, the upper end of the bin 1 is open, the other side of the bin 1 is open towards the inside of the frame 2, and an included angle larger than 90 degrees is formed between the opening of the bin 1 and the cross beam, so that solid waste can enter the screening assembly more easily.

Referring to fig. 1-8, the screen assembly includes a first screen hopper 5, a second screen hopper 6, and a bottom bin 7. The first sieve hopper 5, the second sieve hopper 6 and the bottom bin 7 are sequentially arranged in parallel from top to bottom in the frame 2 and form an included angle of 5-10 degrees with the horizontal direction. The bottom bin 7 is fixed on the frame 2 through the fixing rods 8, the number of the fixing rods 8 is four, two pairs of the fixing rods are correspondingly arranged on two sides of a top cross beam of the frame 2, one end of each fixing rod 8 is fixed on the top cross beam of the frame 2, and the other end of each fixing rod is fixedly connected with the bottom of a bottom bin plate 71 of the bottom bin 7, so that the bottom bin 7 can swing back and forth. First sieve 5 is become by first screen frame board 52 and the first screen cloth 51 of bottom, first discharge gate 53 is seted up to first screen frame board 52 one side, first screen frame board 52 top opening is towards the export of feed bin 1. The lower portion of the first sieve frame plate 52 is provided with an embedded portion which is embedded with the upper portion of the second sieve frame plate 62, a second discharge port 63 is formed in one side of the second sieve frame plate 62, the lower portion of the second sieve frame plate 62 is provided with an embedded portion which is embedded with the upper portion of the bottom bin 7, the second sieve hopper 6 is separated from the bottom bin 7 through the second sieve mesh 61, the bottom bin 7 is composed of a bottom bin plate 71 at the bottom and a bottom bin frame plate 72 above the bottom bin plate 71, and a third discharge port 73 is formed in one side of the bottom bin frame plate 72. The first discharge hole 53, the second discharge hole 63 and the third discharge hole 73 are respectively arranged at one side of the first sieve hopper 5, the second sieve hopper 6 and the bottom bin 7 which are inclined downwards.

Referring to fig. 9, the transmission device 4 is a crankshaft structure, and a first fixed bearing 42 and a second fixed bearing 45 are respectively mounted on a transmission crankshaft 43 of the transmission device 4. The transmission crankshaft 43 is composed of connecting rods in different axial directions, the input end of the transmission crankshaft 43 is connected with the speed reducing wheel 41, the first fixing bearing 42 is fixed on the frame 2, the transmission crankshaft 43 is fixed on the frame 2 through the first fixing bearing 42, one end of the supporting rod 46 is fixed at the connecting rod joint of the transmission crankshaft 43 by the second fixing bearing 45, the other end of the supporting rod 46 is fixed on a lower end beam of the frame 2, the output end of the transmission crankshaft 43 is connected with the transmission rod 44, and the other end of the transmission rod 44 is fixed on the lower surface of the bottom bin 7.

Referring to fig. 1, a belt is disposed around the deceleration wheel 41, the belt is connected to the output end of the motor 3, and the motor 3 is mounted on two cross beams at the lower end of the frame 2.

The utility model discloses the quantity that well sieve was fought can set up the multilayer according to the screen cloth size to be not only two-layer, and upper screen cloth mesh is greater than the mesh of lower floor.

The utility model discloses a working method:

during the use, starter motor 3, the gear reducer 41 begins the operation and drives transmission crankshaft 43 motion to drive end storehouse 7, first sieve fill 5 and the common fore-and-aft swing of second sieve fill 6, pour the building solid waste after the breakage into feed bin 1, then dial the building solid waste granule in feed bin 1 on the sieve is fought, through the screening of first sieve fill 5 and second sieve fill 6, obtain the building solid waste granule of different particle diameters, lead out the building solid waste granule of different particle diameters from the discharge gate or pour from the sieve fill.

Although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (9)

1. A screening device for solid waste particles of construction is characterized in that,

the screening device comprises a storage bin (1), a frame (2), a motor (3), a fixing rod (8), a transmission device (4) and a screening component, wherein the frame (2) forms an outer peripheral structure of the screening device, and the storage bin (1), the screening component and the transmission device (4) are sequentially arranged inside the frame (2) from top to bottom.

2. The screening device of construction solid waste particles according to claim 1,

the periphery of the screening device is formed into a three-dimensional square by the frame (2), and the frame (2) is formed by vertical beams and cross beams connected with the vertical beams;

the height of vertical beams arranged at the same end of the frame (2) is consistent, the height of vertical beams arranged at different ends is inconsistent, the distance between the vertical beams at different ends is different, universal wheels (9) are mounted at the lower end parts of the vertical beams, and the universal wheels (9) have a braking function.

3. The screening device of construction solid waste particles according to claim 1,

feed bin (1) sets up on the short-span beam, feed bin (1) has trilateral closure, feed bin (1) upper end is the opening, feed bin (1) another side opening orientation inside frame (2), feed bin (1) opening with form an contained angle that is greater than 90 between the crossbeam.

4. The screening device of construction solid waste particles according to claim 1,

screening subassembly includes first sieve fill (5), and second sieve fill (6) and end storehouse (7), first sieve fill (5), second sieve fill (6) and end storehouse (7) are followed frame (2) inside from the top parallel arrangement in proper order, and all be 5-10 contained angles with the horizontal direction, end storehouse (7) are passed through the top crossbeam fixed connection of dead lever (8) and frame (2).

5. The screening device of construction solid waste particles according to claim 4,

the first sieve hopper (5) consists of a first sieve frame plate (52) and a first sieve screen (51) at the bottom, a first discharge hole (53) is formed in one side of the first sieve frame plate (52), and an opening above the first sieve frame plate (52) faces to an outlet of the storage bin (1);

the lower part of the first sieve frame plate (52) is provided with an embedded part which is embedded with the upper part of a second sieve frame plate (62), the lower part of the second sieve frame plate (62) is provided with an embedded part which is embedded with the upper part of the bottom bin (7), one side of the second sieve frame plate (62) is provided with a second discharge hole (63), and the second sieve hopper (6) is separated from the bottom bin (7) through a second sieve mesh (61);

the bottom bin (7) is composed of a bottom bin plate (71) at the bottom and a bottom bin frame plate (72) above the bottom bin plate (71), and a third discharge hole (73) is formed in one side of the bottom bin frame plate (72).

6. A construction solid waste particle screening device according to claim 5, wherein the first discharge port (53), the second discharge port (63) and the third discharge port (73) are respectively arranged at one side of the first sieve hopper (5), the second sieve hopper (6) and the bottom bin (7) which are inclined downwards.

7. The screening device of construction solid waste particles according to claim 1,

the transmission device (4) is of a crankshaft structure, the transmission device (4) comprises a transmission crankshaft (43), and the transmission crankshaft (43) is composed of connecting rods in different axial directions and bearings mounted on the connecting rods.

8. The construction solid waste particle screening device of claim 7,

the transmission crankshaft (43) is fixed on the frame (2) through a first fixing bearing (42), the input end of the transmission crankshaft (43) is connected with a speed reducing wheel (41), the output end of the transmission crankshaft (43) is fixedly connected with a transmission rod (44), the other end of the transmission rod (44) is fixed on the lower surface of the bottom bin (7), a support rod (46) is arranged at the joint of the connecting rod of the transmission crankshaft (43), the support rod (46) is fixed on the transmission crankshaft (43) through a second fixing bearing (45), and the other end of the support rod (46) is fixed on a lower end cross beam of the frame (2).

9. The screening device of claim 8, wherein the screening device comprises a screen,

the periphery of the speed reducing wheel (41) is provided with a belt, the belt is connected with the output end of the motor (3), and the motor (3) is installed on a cross beam at the lower end part of the frame (2).

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