CN203955515U - A kind of vibratory sieve for FERRITE CORE particle production line - Google Patents

Abstract

The utility model discloses a kind of vibratory sieve for FERRITE CORE particle production line, comprise screen cloth, three discharge nozzles, electric machine support, motor, two eccentric blocks and bracket for vibrating screen, in screen cloth, be provided with 40 order nets and 200 order nets from top to bottom, three discharge nozzles are separately positioned on screen cloth sidewall between screen cloth sidewall, 40 order nets and 200 order nets more than 40 order nets and the screen cloth sidewall below 200 order nets; Screen cloth and electric machine support are arranged on bracket for vibrating screen, and are provided with spring between described screen cloth and bracket for vibrating screen; Motor is arranged in electric machine support by motor cover plate, and the two ends of motor are equipped with shaft coupling, two eccentric blocks respectively by shaft coupling with the two end axles of motor to being connected; Eccentric block is made up of a segment and a rectangular body, and segment is provided with two manholes that connect both sides, and rectangular body is provided with an ellipse hole that connects both sides, and the thickness of eccentric block is 33～43mm.

Description

A kind of vibratory sieve for FERRITE CORE particle production line

Technical field

The utility model relates to the production equipment for FERRITE CORE particle manufacture, has been specifically related to a kind of vibratory sieve for FERRITE CORE particle production line.

Background technology

In recent years, vibratory sieve is widely used in the processing of manganese-zinc-ferrite powder particle, can filter out different grain size distributed granule, has changed mouldability and the briquettability of particle, has met miniaturization manganese-zinc ferrite core Production requirement; But along with the development of magnetic material manganese-zinc ferrite, product is constantly updated, require also to improve constantly, except electromagnetic performance, the physical property of blank particle requires also to improve constantly; As the granularity of Mn-Zn ferrite particles becomes normal distribution, bulky grain and fine powder can not wait more, in order to meet different demands; We have used vibratory sieve now to screen spray-dired particle, but because the power of shaking of vibratory sieve is now inadequate, after the particulate material of producing at spray drying tower, vibratory sieve has little time particulate material to sift out, cause particulate material time of staying in vibratory sieve long, Particle Breakage, causes the situation that occurs that Mn-Zn ferrite particles finished particle is few, fine powder is many, has reduced the yield rate of Mn-Zn ferrite particles.

Utility model content

For solving the problems of the technologies described above, we have proposed a kind of vibratory sieve for FERRITE CORE particle production line, its object: the power of shaking of vibratory sieve is strong, and particulate material time of staying in vibratory sieve is short.

For achieving the above object, the technical solution of the utility model is as follows:

A kind of vibratory sieve for FERRITE CORE particle production line, comprise screen cloth, three discharge nozzles, electric machine support, motor, eccentric block and bracket for vibrating screens, in screen cloth, be provided with 40 order nets and 200 order nets from top to bottom, three discharge nozzles are separately positioned on screen cloth sidewall between screen cloth sidewall, 40 order nets and 200 order nets more than 40 order nets and the screen cloth sidewall below 200 order nets;

Screen cloth and electric machine support are arranged on bracket for vibrating screen, and are provided with spring between described screen cloth and bracket for vibrating screen;

Motor is arranged in electric machine support by motor cover plate, and the two ends of motor are equipped with shaft coupling, and the quantity of eccentric block is two, two described eccentric blocks respectively by shaft coupling with the two end axles of motor to being connected;

Eccentric block is made up of a segment and a rectangular body, and segment is provided with two manholes that connect both sides, and rectangular body is provided with an ellipse hole that connects both sides, and the thickness of eccentric block is 33～43mm.

Preferably, the thickness of eccentric block is 38mm.

Pass through technique scheme, the 23mm original gauge of eccentric block is increased to 33～43mm, and change the entirety composition structure of motor and eccentric block, to originally only have motor one end to be provided with eccentric block, be transformed into motor two ends and be equipped with eccentric block, strengthened the power of shaking of vibratory sieve, and the power of the shaking size of vibratory sieve can keep the normal operating condition of vibratory sieve; Reduced the time of staying of spray-dried granules at vibration screen, feed back has lacked, and finished particle is many, and the utilization rate of raw material brings up to 90% by original 80%, and the yield rate of Mn-Zn ferrite particles has improved greatly, thereby has reduced production cost.

Brief description of the drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structural representation of a kind of vibratory sieve for FERRITE CORE particle production line disclosed in the utility model;

Fig. 2 is the schematic top plan view of the eccentric block of a kind of vibratory sieve for FERRITE CORE particle production line disclosed in the utility model;

Fig. 3 is motor and the eccentric block entirety composition structural representation of a kind of vibratory sieve for FERRITE CORE particle production line disclosed in the utility model.

Numeral and the represented corresponding component title of letter in figure:

1. screen cloth 2. discharge nozzle 3. spring 4. electric machine support 5. motor 51. motor cover plate 52. shaft coupling 6. eccentric block 61. manhole 62. ellipse hole 7. bracket for vibrating screens

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

Below in conjunction with schematic diagram, detailed description of the invention of the present utility model is described in further detail.

As shown in figures 1 and 3, a kind of vibratory sieve for FERRITE CORE particle production line, comprise screen cloth 1, three discharge nozzles 2, electric machine support 4, motor 5, eccentric block 6 and bracket for vibrating screen 7, in screen cloth 1, be provided with 40 order nets and 200 order nets from top to bottom, three discharge nozzles 2 are separately positioned on screen cloth 1 sidewalls more than 40 order nets, screen cloth 1 sidewall between 40 order nets and 200 order nets and screen cloth 1 sidewall below 200 order nets, guarantee that this vibratory sieve can transport out finished product and feed back after screening in time, wherein feed back is to rest on the online particle of 40 orders and the particle through 200 order nets.

Screen cloth 1 and electric machine support 4 are arranged on bracket for vibrating screen 7, and are provided with spring 3 between described screen cloth 1 and bracket for vibrating screen 7, have guaranteed that screen cloth 1 can not bump with electric machine support 4 in the time of vibration.

Motor 5 is arranged in electric machine support 4 by motor cover plate 51, the two ends of motor 5 are equipped with shaft coupling 52, the quantity of eccentric block 6 is two, two described eccentric blocks 6 respectively by shaft coupling 52 with the two end axles of motor 5 to being connected, on original basis, increase an eccentric block 6 to motor 5, increased screening dynamics.

As shown in Figure 2, eccentric block 6 is made up of a segment and a rectangular body, segment is provided with two manholes 61 that connect both sides, and rectangular body is provided with an ellipse hole 62 that connects both sides, when the thickness of eccentric block 6 is 38mm, screening effect is best, as following table one:

The asynchronous flour extraction difference of table one eccentric block gauge

From the Data Comparison of table one, what yield rate was the highest is the eccentric block 6 of 38mmm, and distribution of particles is good again simultaneously, meets client's requirement.

By adjustment and the trial run of above-mentioned data, when the gauge of having determined eccentric block 6 is 38mm, can ensure the power of the shaking best results of vibratory sieve, the Chen Pin particulate material of sifting out is many, and distribution of particles is good, produces a desired effect,

The gauge of eccentric block 6 is increased to 38mm by original 23mm, and change the entirety composition structure of motor 5 and eccentric block 6, to originally only have motor 5 one end to be provided with eccentric block 6, be transformed into motor 5 two ends and be equipped with eccentric block 6, strengthened the power of shaking of vibratory sieve, and the power of the shaking size of vibratory sieve can keep the normal operating condition of vibratory sieve; Reduced the time of staying of spray-dried granules at vibration screen, feed back has lacked, and finished particle is many, and the utilization rate of raw material brings up to 90% by original 80%, and the yield rate of Mn-Zn ferrite particles has improved greatly, thereby has reduced production cost.

Above-described is only preferred embodiment of the present utility model; it should be pointed out that for the person of ordinary skill of the art, do not departing under the prerequisite of the utility model creation design; can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Claims (2)

1. the vibratory sieve for FERRITE CORE particle production line, it is characterized in that, comprise screen cloth (1), three discharge nozzles (2), electric machine support (4), motor (5), eccentric block (6) and bracket for vibrating screen (7), in screen cloth (1), be provided with 40 order nets and 200 order nets from top to bottom, three discharge nozzles (2) are separately positioned on screen cloth (1) sidewall between screen cloth (1) sidewall, 40 order nets and 200 order nets more than 40 order nets and screen cloth (1) sidewall below 200 order nets;

It is upper that screen cloth (1) and electric machine support (4) are arranged on bracket for vibrating screen (7), and be provided with spring (3) between described screen cloth (1) and bracket for vibrating screen (7);

Motor (5) is arranged in electric machine support (4) by motor cover plate (51), the two ends of motor (5) are equipped with shaft coupling (52), the quantity of eccentric block (6) is two, described two eccentric blocks (6) respectively by shaft coupling (52) with the two end axles of motor (5) to being connected;

Eccentric block (6) is made up of a segment and a rectangular body, segment is provided with two manholes (61) that connect both sides, rectangular body is provided with an ellipse hole (62) that connects both sides, and the thickness of eccentric block (6) is 33～43mm.

2. a kind of vibratory sieve for FERRITE CORE particle production line according to claim 1, is characterized in that, the thickness of eccentric block (6) is 38mm.