CN114653583B - Artificial marble waste powder screening device and use method - Google Patents

Abstract

The invention discloses a screening device for waste powder of artificial marble and a use method thereof, and relates to the technical field of marble. The automatic blanking and automatic screening device can complete the automatic blanking and automatic screening functions by only installing one motor, greatly shortens the cost, screens in multiple working procedures, meets multiple screening working procedures while the screening speed is high, and screens more thoroughly.

Description

Artificial marble waste powder screening device and use method

Technical Field

The invention relates to the technical field of marble, in particular to a screening device for waste powder of artificial marble and a using method thereof.

Background

Because the current screening device needs more motors to mutually cooperate to achieve the functions of automatic discharging and automatic screening, the cost is higher for small enterprises, the screening speed is low, the screening has residues, and the requirements can be met only by repeated screening for many times, so the artificial marble waste powder screening device and the using method thereof are provided

Disclosure of Invention

The invention provides a screening device for waste powder of artificial marble and a using method thereof, which solve the problems that the current screening device needs more motors to be matched with each other to achieve the functions of automatic discharging and automatic screening, the cost is high for small enterprises, the screening speed is low, the screening is residual, and the requirement can be met only by repeated screening for many times.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides an artificial marble waste powder sieving mechanism and application method, includes the supporting leg, the top of supporting leg is fixed with the mount, the inside of mount is fixed with unloading mechanism, the bottom of mount is equipped with power unit, the bottom of mount is equipped with first sieve material mechanism and secondary sieve material mechanism, the inside of mount is equipped with receiving mechanism.

Preferably, the blanking mechanism comprises a material box fixed with a fixed frame, a slope block is fixed on the inner wall of the bottom of the material box, a discharge hole is formed in the bottom of the material box, and a telescopic blanking square pipe is fixed in the discharge hole.

Preferably, the power mechanism comprises a motor fixed with the bottom of the blanking box, a rotating shaft is fixed at the output end of the motor, and a triangular wheel is fixed outside the rotating shaft.

Preferably, the first screening mechanism comprises a plurality of first springs fixed with the bottom of the blanking box, a plurality of first springs are fixed with an inverted U-shaped fixing frame at the bottom of the first springs, the telescopic blanking square tube is fixed with the inside of the inverted U-shaped fixing frame, two W-shaped screening hoppers are fixed on the inner wall of the inverted U-shaped fixing frame and positioned below, and two V-shaped receiving hoppers are fixed at the bottom of the W-shaped screening hoppers.

Preferably, the secondary screening mechanism comprises two first connecting plates fixedly connected with the W-shaped screening hopper at the top, springs II are fixed at the bottoms of the first connecting plates, a plane screen I is fixed at the bottoms of the springs II, two second connecting plates are fixed at the bottoms of the W-shaped screening hopper below, a spring III is fixed at the bottoms of the second connecting plates, and a plane screen II is fixed at the bottoms of the springs III.

Preferably, the material receiving mechanism comprises a powder material receiving box sleeved outside the plane screen mesh I and a particle material receiving box sleeved outside the plane screen mesh II, push rod motors are fixed at the bottoms of the powder material receiving box and the particle material receiving box, and a bottom plate is fixed outside the push rod motors.

Preferably, the method comprises the following steps:

step 1): the power mechanism is started, the motor drives the rotating shaft and the triangular wheels to rotate, the triangular wheels rotate to strike the inverted U-shaped fixing frame, the inverted U-shaped fixing frame vibrates to cause spring vibration, the inverted U-shaped fixing frame drives the two W-shaped sieve hoppers to vibrate, and the two W-shaped sieve hoppers vibrate to drive the first connecting plate, the second spring, the first plane screen, the second plane screen, the third spring and the second connecting plate which are connected with the inverted U-shaped fixing frame to vibrate.

Step 2): and (3) blanking, namely, the slope in the blanking box assists the internal marble waste to be blanked, the waste enters the telescopic blanking square tube, and the telescopic blanking square tube is driven to stretch and creep by the spring to shrink, so that the blanking speed can be improved, and the blanking is assisted.

Step 3): screening materials, the granules of beating after the material falls on the W type sieve fill of top can slide the concave part of both sides along the slope of W type, along with shake powder and granule fall on the W type sieve fill of below along the W type slope, the granule of below W type sieve fill both sides falls into on the V type connects the hopper, slide on the plane screen cloth second in the granule connects the workbin along the V type and connect the hopper, plane screen cloth second filters the material of inside once more, the granule is stayed on plane screen cloth second, the powder falls into the inside that the granule connects the workbin, the powder on the W type sieve fill of below can fall into the powder and connect the workbin, the plane screen cloth first of inside filters it once more.

Step 4): and after the material is received and sieved, starting a push rod motor to move the particle receiving box and the powder receiving box downwards, so that the first plane screen and the second plane screen are moved out, and then taking out the materials in the particle receiving box and the powder receiving box.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the blanking mechanism, the primary screening mechanism, the secondary screening mechanism and the receiving mechanism are arranged, wherein the plurality of mechanisms can finish the functions of blanking, multi-screening and the like by only driving one motor, so that the device is low in cost and suitable for popularization.

To sum up, this equipment modern design, easy operation, this equipment only installs a motor and just can accomplish automatic unloading, and the autofilter's of autofilter function has shortened the cost greatly, and multichannel process filters, satisfies multichannel screening process when the screening material is fast, and the screening is more thorough.

Drawings

Fig. 1 is a schematic diagram of a front view structure of an artificial marble waste screening device and a using method thereof;

FIG. 2 is a schematic view of a left front top perspective view of an artificial marble waste screening device and a method of using the same;

fig. 3 is a schematic perspective view of a primary screening mechanism and a secondary screening mechanism of the artificial marble waste screening device and the using method thereof;

fig. 4 is a schematic left-view structure diagram of an artificial marble waste screening device and a using method thereof.

In the figure: 1. support legs; 2. a fixing frame; 3. a feed box; 4. telescoping blanking square tubes; 5. a spring; 6. an inverted U-shaped fixing frame; 7. w-shaped sieve hopper; 8. triangular wheels; 9. a first connecting plate; 10. a second spring; 11. a second connecting plate; 12. a third spring; 13. a plane screen II; 14. a plane screen I; 15. a V-shaped receiving hopper; 16. a bottom plate; 17. a push rod motor; 18. a particle receiving box; 19. a powder receiving box; 20. a motor; 21. a rotating shaft.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Example 1

Referring to fig. 1-3: the utility model provides an artificial marble waste powder sieving mechanism and application method, includes supporting leg 1, and the supporting leg has four, and is more stable, and the top of supporting leg 1 is fixed with mount 2, and the inside of mount 2 is fixed with unloading mechanism, and the bottom of mount 2 is equipped with power unit, and the bottom of mount 2 is equipped with first sieve material mechanism and secondary sieve material mechanism, and the inside of mount 2 is equipped with receiving mechanism.

According to the invention, the blanking mechanism comprises a feed box 3 fixed with a fixed frame 2, a slope block is fixed on the inner wall of the bottom of the feed box 3, the top of the slope block is a smooth plane, a discharge hole is formed in the bottom of the feed box 3, a telescopic blanking square pipe 4 is fixed in the discharge hole, and the discharge hole is communicated with the telescopic blanking square pipe.

In the invention, the power mechanism comprises a motor 20 fixed with the bottom of the discharging box 3, a rotating shaft 21 is fixed at the output end of the motor 20, a triangular wheel 8 is fixed outside the rotating shaft 21, and a plurality of triangular wheels can improve the integral vibration frequency.

According to the invention, the primary screening mechanism comprises a plurality of first springs 5 fixed with the bottom of a blanking box 3, an inverted U-shaped fixing frame 6 is fixed at the bottom of the first springs 5, a telescopic blanking square tube 4 is fixed inside the inverted U-shaped fixing frame 6, two W-shaped screening hoppers 7 are fixed on the inner wall of the inverted U-shaped fixing frame 6, two V-shaped receiving hoppers 15 are fixed at the bottoms of the lower W-shaped screening hoppers 7, and the V-shaped receiving hoppers are arranged below concave parts of the W-shaped screening hoppers.

Example 2

Referring to fig. 2, 3, 4: in the embodiment, the secondary screening mechanism comprises two first connecting plates 9 fixedly connected with a top W-shaped screening bucket 7, springs II 10 are fixed at the bottoms of the first connecting plates 9, a plane screen I14 is fixed at the bottoms of the two springs II 10, two second connecting plates 11 are fixed at the bottoms of the lower W-shaped screening buckets 7, a spring III 12 is fixed at the bottoms of the second connecting plates 11, a plane screen II 13 is fixed at the bottoms of the two springs III 12, and the spring III shakes along with the shaking frequency of the top W-shaped screening buckets without driving by other power mechanisms.

According to the invention, the material receiving mechanism comprises a powder receiving box 19 sleeved outside the first plane screen 14 and a particle receiving box 18 sleeved outside the second plane screen 13, wherein push rod motors 17 are fixed at the bottoms of the powder receiving box 19 and the particle receiving box 18, a bottom plate 16 is fixed at the outer parts of the plurality of push rod motors 17, the push rod motors stretch out and draw back the internal plane screen, and the internal materials are conveniently collected.

The invention comprises the following steps:

step 1): the power mechanism is started, the motor 20 drives the rotating shaft 21 and the triangular wheels 22 to rotate, the triangular wheels rotate 22 to strike the inverted U-shaped fixing frame 6, the inverted U-shaped fixing frame vibrates to cause spring vibration, the inverted U-shaped fixing frame 6 drives the two W-shaped sieve hoppers 7 to vibrate, and the two W-shaped sieve hoppers 7 vibrate to drive the first connecting plate 9, the second spring 10, the first plane screen 14, the second plane screen 13, the third spring 12 and the second connecting plate 11 connected with the inverted U-shaped fixing frame vibrate.

Step 2): and (3) discharging, namely discharging marble waste in the slope auxiliary inside the discharging box 3, wherein the waste enters the telescopic discharging square tube 4, and the first spring 5 contracts to drive the telescopic discharging square tube 4 to perform telescopic peristaltic motion, so that the discharging speed can be improved by the telescopic peristaltic motion, and the discharging is assisted.

Step 3): the screen material, the granule of beating after the material falls on the W type sieve fill 7 of top will slide the concave recess of both sides along the slope of W type, along with shake powder and granule fall on the W type sieve fill 7 of below along the slope of W type, the granule of below W type sieve fill 7 both sides falls on the V type connects hopper 15, slide on the plane screen cloth second 13 in the granule connects the workbin 18 along V type connects hopper 15, plane screen cloth second 13 filters the material of inside again, the granule remains on plane screen cloth second 13, the powder falls into the inside of granule connects the workbin 18, the powder on the W type sieve fill 7 of below can fall into the powder and connect the workbin, inside plane screen cloth first 14 is to it again.

Step 4): after the material is received and sieved, the push rod motor 17 is started to move the particle receiving bin 18 and the powder receiving bin 19 downwards, so that the first plane screen 14 and the second plane screen 13 are moved out, and then the materials in the particle receiving bin 18 and the powder receiving bin 19 are taken out.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (2)

1. The utility model provides an artificial marble waste powder sieving mechanism, includes supporting leg (1), its characterized in that, the top of supporting leg (1) is fixed with mount (2), the inside of mount (2) is fixed with unloading mechanism, the bottom of mount (2) is equipped with power unit, the bottom of mount (2) is equipped with first sieve material mechanism and secondary sieve material mechanism, the inside of mount (2) is equipped with receiving mechanism;

the blanking mechanism comprises a feed box (3) fixed with a fixing frame (2), a slope block is fixed on the inner wall of the bottom of the feed box (3), a discharge hole is formed in the bottom of the feed box (3), and a telescopic blanking square tube (4) is fixed in the discharge hole;

the power mechanism comprises a motor (20) fixed with the bottom of the blanking box (3), a rotating shaft (21) is fixed at the output end of the motor (20), and a triangle wheel (8) is fixed outside the rotating shaft (21);

the primary screening mechanism comprises a plurality of first springs (5) fixed with the bottom of a blanking box (3), an inverted U-shaped fixing frame (6) is fixed at the bottom of each first spring (5), a telescopic blanking square tube (4) is fixed inside the inverted U-shaped fixing frame (6), two W-shaped screening hoppers (7) are fixed on the inner wall of the inverted U-shaped fixing frame (6), and two V-shaped receiving hoppers (15) are fixed at the bottoms of the W-shaped screening hoppers (7) located below;

the secondary screening mechanism comprises two first connecting plates (9) fixedly connected with the W-shaped screening hopper (7) at the top, springs II (10) are fixed at the bottoms of the first connecting plates (9), a plane screen I (14) is fixed at the bottoms of the two springs II (10), two second connecting plates (11) are fixed at the bottoms of the W-shaped screening hoppers (7) below, a spring III (12) is fixed at the bottoms of the two connecting plates II (11), and a plane screen II (13) is fixed at the bottoms of the two springs III (12);

the material receiving mechanism comprises a powder receiving box (19) sleeved outside a plane screen I (14) and a particle receiving box (18) sleeved outside a plane screen II (13), push rod motors (17) are fixed at the bottoms of the powder receiving box (19) and the particle receiving box (18), and a plurality of push rod motors (17) are fixed on the bottom plate (16) outside.

2. The method of using an artificial marble waste screening device according to claim 1, comprising the steps of:

step one): the power mechanism is started, the motor (20) drives the rotating shaft (21) and the triangular wheels (8) to rotate, the triangular wheels (8) rotate to strike the inverted U-shaped fixing frame (6), the inverted U-shaped fixing frame vibrates to cause spring vibration, the inverted U-shaped fixing frame (6) drives the two W-shaped sieve hoppers (7) to vibrate, and the two W-shaped sieve hoppers (7) vibrate to drive the first connecting plate (9), the second spring (10), the first plane screen (14), the second plane screen (13), the third spring (12) and the second connecting plate (11) connected with the motor;

step two): discharging, namely discharging marble waste in a slope in a discharging box (3) in an auxiliary manner, enabling the waste to enter a telescopic discharging square pipe (4), enabling a first spring (5) to shrink to drive the telescopic discharging square pipe (4) to stretch and creep, enabling the telescopic creep to improve discharging speed, enabling the waste in the discharging box (3) to enter the telescopic discharging square pipe (4) through the peristaltic motion of the telescopic discharging square pipe (4), and enabling the waste to enter the telescopic discharging square pipe (4) in an auxiliary manner;

step three): large particles slide to concave parts on two sides along the slope of the W type after the materials fall on the W-shaped sieve hopper (7) above, along with shaking powder and particles falling on the W-shaped sieve hopper (7) below along the slope of the W type, the particles on two sides of the W-shaped sieve hopper (7) below fall on the V-shaped receiving hopper (15), slide on the plane screen II (13) in the particle receiving bin (18) along the V-shaped receiving hopper (15), the plane screen II (13) filters the materials in the particle receiving bin again, the particles remain on the plane screen II (13), the powder falls into the particle receiving bin (18), the powder on the W-shaped sieve hopper (7) below falls into the powder receiving bin, and the plane screen I (14) in the particle receiving bin screens the powder again;

step four): after the material is received and sieved, a push rod motor (17) is started to move the particle receiving box (18) and the powder receiving box (19) downwards, so that the plane screen I (14) and the plane screen II (13) are moved out, and then the materials in the particle receiving box (18) and the powder receiving box (19) are taken out.