CN214052465U - Linear vibration screening device for non-magnetic iron - Google Patents

Abstract

The utility model discloses a rectilinear vibration screening plant for non-magnetic iron, including the rectangle frame base, the top four corners position of rectangle frame base has the support according to fixed mounting, and the equal slidable mounting in top of four supports has the traveller, and the top fixed mounting of four travelers has same box, from last to fixed mounting in proper order down has macroporous screen cloth and aperture screen cloth on one side inner wall of box, the bottom fixed mounting of box has two bobbing machines that the symmetry set up, one side fixed mounting of rectangle frame base has the mount pad, and one side fixed mounting of mount pad has the base, and the top fixed mounting of base has the installation bucket that the slope was placed, defeated silo has been seted up at the top of installation bucket. The utility model discloses than the screening plant of traditional artifical transport or mechanical transport raw materials, degree of automation is high, and artifical intensity is low, sparingly transports the time of fortune material, has improved the screening efficiency to non-magnetic iron greatly.

Description

Linear vibration screening device for non-magnetic iron

Technical Field

The utility model relates to a screening plant especially relates to a rectilinear vibration screening plant for non-magnetic iron.

Background

The linear vibrating screen is a vibrating screen machine with a cuboid appearance, and can screen materials in a wide range. The number of layers of the screen is 1 to 6, and the screen generally comprises a screen cover, a box body, a screen frame, a screen, a support, a spring, a vibrating motor and the like, and the linear vibrating screen can be designed into a single-layer or multi-layer screen according to the requirements of customers and can screen materials with different grades in 2-7. The manufacturing material can be made of various materials such as common steel, stainless steel and the like according to the screening requirement, and can be designed to be common carbon steel, stainless steel material of a contact material part and full stainless steel material.

The existing linear vibration screening device for screening nonmagnetic iron needs to manually move the screened raw materials to a feeding hole in the top of the screening device, the manual strength is high, the feeding time is long, and the screening efficiency is influenced, so that the linear vibration screening device for the nonmagnetic iron is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a feeding of being convenient for in order to solve above-mentioned problem, reduce feeding intensity, improve the straight line vibration screening plant that is used for non-magnetic iron of screening efficiency.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a linear vibration screening device for nonmagnetic iron comprises a rectangular frame base, wherein four corners of the top of the rectangular frame base are fixedly provided with support seats, the tops of the four support seats are respectively provided with a sliding column in a sliding manner, the tops of the four sliding columns are fixedly provided with the same box body, the inner wall of one side of the box body is fixedly provided with a large-hole screen and a small-hole screen from top to bottom in sequence, two symmetrically arranged vibrating machines are fixedly arranged at the bottom of the box body, a mounting seat is fixedly arranged at one side of the rectangular frame base, a base is fixedly arranged on one side of the mounting seat, an obliquely arranged mounting barrel is fixedly arranged on the top of the base, the top of the mounting barrel is provided with a material conveying groove, the inner wall of the top of the box body is hermetically communicated with a material feeding channel, and the top of the feeding channel is hermetically communicated with a material conveying chamber, and a material conveying assembly is arranged in the material conveying chamber.

In order to provide certain buffering effort, the life of extension device body, the equal fixed cover in the outside of four supports is equipped with the sleeve, and the spout has all been seted up at the top of four supports, the bottom of four travellers runs through four telescopic inside respectively and respectively with four sleeve sliding connection, and the bottom of four travellers extends to the inside of four spouts respectively, the equal fixed mounting in four telescopic tops has buffer spring, four buffer spring are respectively around establishing the outside at four travellers, and four buffer spring's top respectively with the outside fixed mounting of four travellers.

In order to conveniently realize the screening and collection work of the nonmagnetic irons with different particle sizes, a first inclined plate and a second inclined plate are respectively and fixedly installed at the bottoms of the large-hole screen and the small-hole screen, a first blanking chamber and a second blanking chamber which are internally and hollow are fixedly installed at one side of the box body, and one sides of the first inclined plate and the second inclined plate respectively extend to the interiors of the first blanking chamber and the second blanking chamber.

In order to realize the automatic conveying work of non-magnetic iron, reduce artifical intensity, improve the efficiency of screening, defeated material subassembly includes the transmission motor of fixed mounting on defeated material room one side inner wall, rotates on the one side inner wall of defeated material room and installs driving shaft and driven shaft, driving shaft and driven shaft transmission are connected with same belt, the one end of belt is located feedstock channel directly over.

In order to conveniently convey nonmagnetic iron to the inside of a feeding channel at a high position and improve conveying efficiency, a driving motor is fixedly mounted on the inner wall of the bottom of the conveying groove, a conveying shaft is fixedly mounted at the top of an output shaft of the driving motor, the top of the conveying shaft extends to the top of the mounting barrel, a spiral blade is fixedly mounted on the outer side of the conveying shaft, the end part of the upper side of the spiral blade is positioned right above a belt, and a hopper communicated with the conveying groove in a sealing mode is fixedly mounted on the mounting barrel.

The beneficial effects of the utility model reside in that:

the utility model discloses top at the box sets up feedstock channel, feedstock channel is last to have set up defeated material room and installing bucket, the installing bucket sets up the one side at the rectangle frame base, via the driving motor and the transmission motor that set up, can carry the raw materials of low department to the inside large pore sieve of box on, raw materials on the large pore sieve can be linear motion under the effect of bobbing machine, when the granularity of raw materials is less than the sieve mesh of large pore sieve, can fall into on the small pore sieve, realize the screening work of non-magnetic iron via the first swash plate and the second swash plate that set up at last, than the screening plant of traditional manual handling or mechanical transport raw materials, degree of automation is high, the intensity of labor is low, the time of transporting material is saved, the screening efficiency to non-magnetic iron has been improved greatly.

Drawings

FIG. 1 is a partial structural three-dimensional view of a linear vibratory screening apparatus for non-magnetic iron in accordance with the present invention;

fig. 2 is a schematic front view of a linear vibrating screening device for non-magnetic iron according to the present invention;

fig. 3 is an enlarged schematic view of a part a of fig. 2 of the linear vibrating screen device for non-magnetic iron according to the present invention.

In the figure: 1-rectangular frame base, 2-support, 3-sleeve, 4-sliding column, 5-buffer spring, 6-box, 7-vibrator, 8-large-hole screen, 9-small-hole screen, 10-first inclined plate, 11-second inclined plate, 12-first blanking chamber, 13-second blanking chamber, 14-mounting barrel, 15-driving motor, 16-conveying shaft, 17-helical blade, 18-conveying motor, 19-driving shaft, 20-belt, 21-feeding channel and 22-mounting seat.

Detailed Description

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

as shown in figures 1-3, the utility model relates to a linear vibration screening device for non-magnetic iron, which comprises a rectangular frame base 1, wherein four corners of the top of the rectangular frame base 1 are all fixedly provided with a support 2, the tops of the four supports 2 are all slidably provided with a sliding column 4, in order to provide a certain buffering acting force and prolong the service life of the device body, the outer sides of the four supports 2 are all fixedly sleeved with a sleeve 3, the tops of the four supports 2 are all provided with a sliding chute, the bottoms of the four sliding columns 4 respectively penetrate through the inner parts of the four sleeves 3 and are respectively slidably connected with the four sleeves 3, the bottom parts of the four sliding columns 4 respectively extend to the inner parts of the four sliding chutes, the tops of the four sleeves 3 are all fixedly provided with a buffer spring 5, the four buffer springs 5 are respectively wound on the outer sides of the four sliding columns 4, and the tops of the four buffer springs 5 are respectively fixedly arranged with the outer sides of the four sliding columns 4, the top of the four sliding columns 4 is fixedly provided with the same box body 6, the inner wall of one side of the box body 6 is fixedly provided with a large-hole screen 8 and a small-hole screen 9 from top to bottom in sequence, in order to conveniently realize the screening and collecting work of nonmagnetic irons with different particle sizes, the bottoms of the large-hole screen 8 and the small-hole screen 9 are respectively fixedly provided with a first inclined plate 10 and a second inclined plate 11, one side of the box body 6 is fixedly provided with a first blanking chamber 12 and a second blanking chamber 13 which are arranged in a hollow manner, one sides of the first inclined plate 10 and the second inclined plate 11 respectively extend into the first blanking chamber 12 and the second blanking chamber 13, the bottom of the box body 6 is fixedly provided with two symmetrically arranged vibrating machines 7, one side of a rectangular frame base 1 is fixedly provided with a mounting seat 22, one side of the mounting seat 22 is fixedly provided with a base, the top of the base is fixedly provided with a mounting barrel 14 which is placed in an inclined manner, and the top of the mounting barrel 14 is provided with a material conveying groove, the inner wall of the top of the box body 6 is hermetically communicated with a feeding channel 21, the top of the feeding channel 21 is hermetically communicated with a conveying chamber, a conveying assembly is arranged in the conveying chamber, in order to realize the automatic conveying work of non-magnetic iron, reduce the labor intensity and improve the screening efficiency, the conveying assembly comprises a conveying motor 18 fixedly arranged on the inner wall of one side of the conveying chamber, a driving shaft 19 and a driven shaft are rotatably arranged on the inner wall of one side of the conveying chamber, the driving shaft 19 and the driven shaft are in transmission connection with a same belt 20, one end of the belt 20 is positioned right above the feeding channel 21, in order to convey the non-magnetic iron to the interior of the feeding channel 21 at a high position conveniently, the conveying efficiency is improved, a driving motor 15 is fixedly arranged on the inner wall of the bottom of the conveying groove, a conveying shaft 16 is fixedly arranged at the top of an output shaft of the driving motor 15, and the top of the conveying shaft 16 extends to the upper part of the mounting barrel 14, the outer side of the conveying shaft 16 is fixedly provided with a helical blade 17, the upper end part of the helical blade 17 is positioned right above the belt 20, and the mounting barrel 14 is fixedly provided with a hopper which is communicated with the material conveying groove in a sealing way.

Fig. 2 also shows the feed opening arranged on the inner wall of the bottom of the feeding chamber, the feed opening is positioned right above the feeding channel 21, when the raw material is separated from the belt 20, the raw material just can fall into the box 6 through the arranged feed opening and the feeding channel 21, fig. 2 also shows the large-hole screen 8 and the small-hole screen 9 fixedly arranged on the inner wall of one side of the box 6, the fixed arrangement of the punching screen 8 and the small-hole screen 9 and the inner wall of one side of the box 6 can be selected according to actual requirements, which is not important, so that the screen is not shown, the number of the screens can be properly increased according to actual screening requirements, only two screens are arranged, and the vibrating machine 7 is two transversely arranged.

As shown in fig. 1-3, when non-magnetic iron needs to be sieved, the non-magnetic iron is added into the feeding chute through the arranged hopper, the switch of the driving motor 15 and the transmission motor 18 is pressed, the output shaft of the driving motor 15 drives the transmission shaft 16 and the helical blade 17 to rotate, the non-magnetic iron is conveyed obliquely upwards, when the non-magnetic iron is separated from the helical blade 17, the non-magnetic iron just falls into the top of the belt 20, meanwhile, the output shaft of the transmission motor 18 drives the driving shaft 19 to rotate, the purpose of transversely conveying the non-magnetic iron can be realized through the transmission connection relationship between the arranged driving shaft 9 and the driven shaft, when the non-magnetic iron is separated from the belt 20, the non-magnetic iron just falls onto the large-hole screen 8 through the arranged feeding channel 21, the raw material on the large-hole screen 8 moves linearly under the action of the vibrator 7, and the granularity of the raw material is smaller than the sieve mesh of the large-hole screen 8, fall onto the small-hole screen 9, and finally realize the screening work of nonmagnetic iron through the arranged first inclined plate 10, the second inclined plate 11, the first blanking chamber 12 and the second blanking chamber 13.

The purpose of the buffer spring 5 is to provide buffer force for the device body during the working process of the vibration machine 7, reduce abrasion and prolong the service life of the device body.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and is not to the limitation of the technical solution of the present invention, as long as the technical solution can be realized on the basis of the above-mentioned embodiment without creative work, all should be regarded as falling into the protection scope of the right of the present invention.

Claims (5)

1. The utility model provides a rectilinear vibrating screen device for non-magnetic iron, includes rectangle frame base (1), its characterized in that: the device is characterized in that the four corners of the top of the rectangular frame base (1) are fixedly provided with supports (2), the tops of the four supports (2) are slidably provided with sliding columns (4), the tops of the four sliding columns (4) are fixedly provided with a same box body (6), the inner wall of one side of the box body (6) is sequentially and fixedly provided with a large-hole screen (8) and a small-hole screen (9) from top to bottom, the bottom of the box body (6) is fixedly provided with two symmetrical vibrating machines (7), one side of the rectangular frame base (1) is fixedly provided with a mounting seat (22), one side of the mounting seat (22) is fixedly provided with a base, the top of the base is fixedly provided with a mounting barrel (14) which is obliquely arranged, the top of the mounting barrel (14) is provided with a material conveying groove, the inner wall of the top of the box body (6) is hermetically communicated with a feeding channel (21), and the top of the feeding channel (21) is hermetically communicated with a material conveying chamber, the inside of defeated material room is provided with defeated material subassembly.

2. A linear vibratory screening apparatus for non-magnetic irons as set forth in claim 1 wherein: the outside of four supports (2) is all fixed the cover and is equipped with sleeve (3), and the spout has all been seted up at the top of four supports (2), the bottom of four traveller (4) runs through the inside of four sleeve (3) respectively and respectively with four sleeve (3) sliding connection, and the bottom of four traveller (4) extends to the inside of four spouts respectively, the equal fixed mounting in top of four sleeve (3) has buffer spring (5), four buffer spring (5) are respectively around establishing the outside at four traveller (4), and the top of four buffer spring (5) respectively with the outside fixed mounting of four traveller (4).

3. A linear vibratory screening apparatus for non-magnetic irons as set forth in claim 1 wherein: the bottom of macroporous screen cloth (8) and aperture screen cloth (9) is fixed mounting respectively has first swash plate (10) and second swash plate (11), one side fixed mounting of box (6) has first unloading room (12) and second unloading room (13) that inside cavity set up, one side of first swash plate (10) and second swash plate (11) extends to the inside of first unloading room (12) and second unloading room (13) respectively.

4. A linear vibratory screening apparatus for non-magnetic irons as set forth in claim 1 wherein: defeated material subassembly includes transmission motor (18) of fixed mounting on defeated material room one side inner wall, rotates on the one side inner wall of defeated material room and installs driving shaft (19) and driven shaft, driving shaft (19) and driven shaft transmission are connected with same belt (20), the one end of belt (20) is located feedstock channel (21) directly over.

5. A linear vibratory screening apparatus for non-magnetic irons as set forth in claim 1 wherein: fixed mounting has driving motor (15) on the bottom inner wall of defeated silo, the top fixed mounting of driving motor (15) output shaft has carries axle (16), and carries the top of axle (16) to extend to the top of installing bucket (14), the outside fixed mounting who carries axle (16) has helical blade (17), and the top tip of helical blade (17) is located belt (20) directly over, fixed mounting has the hopper that is linked together with defeated silo is sealed on installing bucket (14).

Images