CN2146305Y - High-frequency vibration heavy metal concentrating machine - Google Patents

Abstract

The utility model relates to a high-frequency vibration heavy metal concentrating machine which belongs to the technical field of concentrating machines and can be widely used in initial separation of various heavy metallic ores. The concentrating machine is composed of a ribbon type stepless transmission, a stepless adjusting amplitude device, a slope angle adjusting and positioning plate, etc. The utility model adopts the stepless speed regulation frequency and the stepless adjusting amplitude, and arbitrarily adjusted chute bed surface slop angles from 0 DEG to 15 DEG, which are caused to arbitrarily form different matching points to reach the best mineral concentration effect. The utility model has the advantages of high output rate and recovery rate, extract mineral concentration, and capability of tailing disposal. The utility model is not only a device with multiple purposes in labs, but also a more flexible and convenient device in the operation of metal concentration in different areas.

Description

High-frequency vibration heavy metal concentrating machine

The utility model relates to heavy metal ore separators technical field.When can being widely used in the primary election of each heavy metal species ore deposit, it uses.

At present, employed various preparation equipments have cylinder screening machine, shaking table etc. in the domestic heavy metal technique of preparing, but pass through contrast test in actual use, all exist serious weak point, its productivity ratio, rate of recovery aspect efficient are lower, and especially ore dressing precision is relatively poor, the raw ore high to effective component content, there do not have corresponding apparatus to carry out again to be selected, thereby cause great waste.

The purpose of this utility model provides the dither heavy metal ore separators of a kind of productivity ratio and rate of recovery height, ore dressing essence.

The utility model is achieved in that according to rib shape substrate riverbed and current geologic process thereof the geology principle to carrying, deposition and the enrichment of various heavy metallic minerals and designs, adopt the method for rib shape chute bed, dither and mechanical stepless speed-regulating, improved the ore dressing productivity ratio and the rate of recovery significantly; According to parameters such as the grade of different heavy metallic minerals, breeze granularities, adopt in stepless speed regulation frequency, stepless adjustment amplitude and 0 °-15 ° and adjust chute bed surface slope angle arbitrarily, make and can form different match points between the three arbitrarily, thereby reach best ore dressing effect.For this reason, in frame, be provided with variable v-belt drive, to realize the stepless speed regulation frequency; One carriage is installed on frame, and this carriage top is provided with the chute bed, and the carriage rear portion is provided with stepless adjustment amplitude device, and the connecting rod of this stepless adjustment amplitude device connects with the chute rear portion, is used to drive the chute bed and moves back and forth; For chute bed slope angle can be adjusted, on carriage, be provided with a belt axis, the chute bed is rotating shaft with the axis, adjusts chute bed slope angle in 0 °-15 °; Be connected with slope angle in bracket front part and adjust location-plate, the chute bed after setting up can be locked with locknut.

For realizing the instructions for use of stepless adjustment amplitude, in stepless adjustment amplitude device, be provided with a conical eccentric axle, this eccentric shaft cooperates socket to fix with eccentric taper sleeve, and the conical eccentric axle equates with the offset of eccentric taper sleeve; Adjust eccentric taper sleeve, can to certain limit, adjust rotation off-centre at 0 °, thereby realize the purpose of stepless adjustment chute bed amplitude.

For chute height of bed frequency vibration is moved back and forth steadily; Be provided with track base on carriage, be provided with guide rail in track base, linear bearing is equipped with at these guide rail two ends respectively, and linear bearing connects with fishplate bar at the bottom of the chute bed respectively again, supports the chute bed by linear bearing, and moves back and forth along guide rail.

According to conditions such as different beneficiating conditions, metal species, can adopt arc rib dress chute bed or plumage rib shape chute bed, thereby constituting different preparation equipments, promptly is a tractor serves several purposes ideal equipment in a kind of laboratory, is again preparation equipment more flexible when the ore-dressing practice of different regions.

Compared with the prior art the utility model has stepless adjustment vibration frequency, amplitude, chute bed slope angle, makes its arbitrarily combination, coupling, and reaches best ore dressing effect, productivity ratio and rate of recovery height, ore dressing essence and have advantage such as the mine tailing of processing ability.

Below in conjunction with accompanying drawing the utility model is further described

Fig. 1 is the utility model master TV structure signal section;

Fig. 2 is Fig. 1 plan structure schematic diagram;

Fig. 3 is Fig. 1 left side TV structure schematic diagram;

Fig. 4 is that Fig. 1 D-D is to structural representation;

Fig. 5 is that Figure 1A-A is to structural representation;

Fig. 6 is a plumage rib shape chute bed schematic diagram;

Fig. 7 is Fig. 6 schematic top plan view;

Referring to accompanying drawing: belt stepless speed adjusting gear 2 is installed in frame 1, one carriage 14 is set on frame 1, arc rib shape chute bed 9 is housed on carriage 14 tops, stepless adjustment amplitude device 5 is equipped with at carriage 14 rear portions, the connecting rod 7 of this device 5 connects with chute bed 9 rear portions, one belt axis 4 also is installed on carriage 14, and carriage 14 front portions are connected with slope angle and adjust location-plate 15, (seeing Fig. 1, Fig. 2, Fig. 3); The belt pulley of belt stepless speed adjusting gear 2 connects with belt axis 4 by belt 3, is rotated by the belt pulley 6 that belt 8 drives stepless adjustment amplitude device by axis 4; For making the vibration of chute bed steadily, four track bases 11 are installed on carriage 14, in per two track bases, a guide rail 10 is installed, linear bearing 13 is equipped with at these guide rail 10 two ends respectively, linear bearing connects with fishplate bar 12 at the bottom of the chute bed respectively again, (sees Fig. 1, Fig. 5); Stepless adjustment amplitude device is provided with a conical eccentric axle 18 in it, this eccentric shaft 18 cooperates socket with eccentric taper sleeve 17, fixing by bolt 16, (see figure 4), the offset of this eccentric shaft 18 equates with the offset of eccentric taper sleeve 17, when the two offset was respectively 2.5mm, then total offset of conical eccentric axle 18 and eccentric taper sleeve 17 was 5mm.Adjust eccentric taper sleeve 17, the chute bed is selected in 0-10mm toward complex amplitude; For adapting to different beneficiating conditions, this chute bed can be made into plumage rib shape chute bed 20(and sees Fig. 6, Fig. 7).

Claims (5)

1, a kind of dither heavy metal ore separators, organic frame, motor, hopper, chute bed, it is characterized in that, be provided with variable v-belt drive in frame, a carriage is installed on frame, this carriage top is provided with the chute bed, the carriage rear portion is provided with stepless adjustment amplitude device, the connecting rod of this stepless adjustment amplitude device connects with chute bed rear portion, is provided with a belt axis on carriage, is provided with slope angle in bracket front part and adjusts location-plate.

2, dither heavy metal ore separators as claimed in claim 1 is characterized in that, described stepless adjustment amplitude device is provided with a conical eccentric axle in it, and this eccentric shaft cooperates socket with eccentric taper sleeve, and the conical eccentric axle equates with the offset of eccentric taper sleeve.

3, dither heavy metal ore separators as claimed in claim 2 is characterized in that carriage is provided with track base, is provided with guide rail in track base, and linear bearing is equipped with at these guide rail two ends respectively, and linear bearing connects with fishplate bar at the bottom of the chute bed respectively.

4, dither heavy metal ore separators as claimed in claim 3 is characterized in that, described chute bed is an arc rib shape chute bed.

5, dither heavy metal ore separators as claimed in claim 3 is characterized in that, described chute bed is a plumage rib shape chute bed.

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