CN104668084A - Semi-automatic concentrating machine - Google Patents

Abstract

The invention discloses a semi-automatic concentrating machine. An upper frame part and a lower frame part are arranged on the machine frame, a first driving shaft part is positioned at one side of the upper frame part, a first connecting rod is positioned at the lower side of the first driving shaft part, a second driving shaft part is positioned at one side of the upper frame part, a second connecting rod is positioned at the lower part of the second driving shaft part, a middle frame part is positioned at the upper side of the lower frame part, a cloth inserted rubber film is positioned between the lower frame part and the middle frame part, a flange press plate, a first screw bolt, a first spring gasket and a second screw nut are positioned on the lower frame part, a third connecting rod is positioned at the lower side of the upper frame part, a second screw bolt, a second spring gasket and a second screw nut are positioned on the upper frame part, a primary transmission part is positioned on the machine frame, a connecting seat and a guide device are positioned on the lower frame part, a protection cover is positioned on the machine frame, and a third driving shaft part is positioned at one end of the upper frame part. The semi-automatic concentrating machine has the advantages that the problem of lever balance is effectively solved, and flexibility, convenience, practicability and high efficiency are realized.

Description

Semi-automatic ore separators

Technical field

The present invention relates to sand washer field, be specially semi-automatic ore separators.

Background technology

Sand washer is the washing appliance of sandstone (artificial husky, natural sand).Sand washer is widely used in the washing to material in the industries such as sandstone field, mine, building materials, traffic, chemical industry, water conservancy and hydropower, concrete mixing plant.Sand washer can be divided into two types: XS type and XL type.It can remove the impurity covering sandstone surface, destroys the steam layer of coated sand grains simultaneously, is beneficial to dehydration, plays efficient washed-out sand cleaning action.Traditional gravity water concentrator ubiquity high energy consumption, inefficient problem, traditional gravity water concentrator yields poorly.

Summary of the invention

Technical problem solved by the invention is to provide semi-automatic ore separators, to solve the problem.

Technical problem solved by the invention realizes by the following technical solutions:

Semi-automatic ore separators, comprises frame, first axle shaft section, added portion, first connecting rod, second axle shaft section, second connecting rod, middle frame portion, lower frame part, folder cloth glued membrane, flange, first bolt, first spring washer, second nut, third connecting rod, second bolt, second spring washer, second nut, primary transmission portion, first classical V-belt, 3rd bolt, 3rd spring washer, 3rd nut, secondary transmission portion, electromagnetic adjustable speed motor, 4th bolt, 4th spring washer, 4th nut, cable, automatically controlled frame, first belt wheel, 5th bolt, shaft end ring, 5th spring washer, second classical V-belt, 6th bolt, 7th bolt, 6th spring washer, 6th nut, 8th bolt, Connection Block, guider, protective cover, 3rd axle shaft section, described frame is provided with added portion and lower frame part, described first axle shaft section is positioned at the side in added portion, described first connecting rod is positioned at the downside of the first axle shaft section, described second axle shaft section is positioned at the side in added portion, and described second connecting rod is positioned at the downside of the second axle shaft section, and described middle frame portion is positioned at the upside of lower frame part, described folder cloth glued membrane between lower frame part and middle frame portion, described flange, first bolt, first spring washer, second nut is positioned on lower frame part, and described third connecting rod is positioned at the downside in added portion, described second bolt, second spring washer, second nut is positioned in added portion, and described primary transmission portion is positioned in frame, and described first classical V-belt is connected with primary transmission portion, described 3rd bolt, 3rd spring washer, 3rd nut is positioned in frame, and described secondary transmission portion is positioned in frame, and described electromagnetic adjustable speed motor is positioned at the side in secondary transmission portion, and described automatically controlled frame is by the 4th bolt, 4th spring washer, 4th nut is positioned in frame, and described cable is positioned on the downside of electromagnetic adjustable speed motor, and described first belt wheel is positioned at the side of cable, and described second classical V-belt is connected with the first belt wheel, described 5th bolt, shaft end ring, 5th spring washer is positioned on the first belt wheel, and described 6th bolt is positioned at the upside of the second classical V-belt, described 7th bolt, 6th spring washer, 6th nut is positioned at secondary transmission subordinate side, and described 8th bolt is positioned on the downside of the second classical V-belt, described Connection Block, guider is positioned on lower frame part, and described protective cover is positioned in frame, and described 3rd axle shaft section is positioned at the one end in added portion.

As preferably, the model that described first bolt adopts is M10 × 65, the model that described second bolt adopts is M18 × 90, the model that described 3rd bolt adopts is M18 × 80, the model that described 4th bolt adopts is M22 × 90, and the model that described 5th bolt adopts is M8 × 80, and described 6th bolt adopts M20 × 200, described 7th bolt adopts M20 × 80, and described 8th bolt adopts M16 × 200.

As preferably, the operation principle of described sand washer is: adopt lever principle, by rough for upper strata sorting former and later two independently combine with lower floor's thin ore deposit sorting former and later two independently combine the position, front and back two of suspending in midair respectively and being connected to pedestal lever drive and combining, two that make can not to realize balancing the up and down modes being independently combined through front and back synchronous backward complementation, utilize anterior-posterior balance to realize the balance of complete machine.

The present invention efficiently solves the balance of lever, achieves efficient energy-saving, increases hydraulic pressure, steadily current, in direct increase ore dressing storehouse, hydraulic pressure is to the penetration power of ore bed, promotes mineral and production capacity, improve the rate of recovery because ore bed thickens, decrease mine tailing to run off, rough thin ore deposit becomes ore deposit by qualitative classification, improves ore deposit valency, regulates ore separators ore dressing amplitude and speed according to different mineral, random control ore dressing production capacity and quality, flexible, practical, efficient.

Accompanying drawing explanation

Fig. 1 is front view of the present invention.

Fig. 2 is top view of the present invention.

Detailed description of the invention

In order to make actualizing technology means of the present invention, creation characteristic, reach object and effect is easy to understand, below in conjunction with concrete diagram, set forth the present invention further.

As shown in Figure 1-2, semi-automatic ore separators, comprises frame 1, first axle shaft section 2, added portion 3, first connecting rod 4, second axle shaft section 5, second connecting rod 6, middle frame portion 7, lower frame part 8, folder cloth glued membrane 9, flange 10, first bolt 11, first spring washer 12, second nut 13, third connecting rod 14, second bolt 15, second spring washer 16, second nut 17, primary transmission portion 18, first classical V-belt 19, 3rd bolt 20, 3rd spring washer 21, 3rd nut 22, secondary transmission portion 23, electromagnetic adjustable speed motor 24, 4th bolt 25, 4th spring washer 26, 4th nut 27, cable 28, automatically controlled frame 29, first belt wheel 30, 5th bolt 31, shaft end ring 32, 5th spring washer 33, second classical V-belt 34, 6th bolt 35, 7th bolt 36, 6th spring washer 37, 6th nut 38, 8th bolt 39, Connection Block 40, guider 41, protective cover 42, 3rd axle shaft section 43, described frame 1 is provided with added portion 3 and lower frame part 8, described first axle shaft section 2 is positioned at the side in added portion 3, described first connecting rod 4 is positioned at the downside of the first axle shaft section 2, described second axle shaft section 5 is positioned at the side in added portion 3, and described second connecting rod 6 is positioned at the downside of the second axle shaft section 5, and described middle frame portion 7 is positioned at the upside of lower frame part 8, described folder cloth glued membrane 9 between lower frame part 8 and middle frame portion 7, described flange 10, first bolt 11, first spring washer 12, second nut 13 is positioned on lower frame part 8, and described third connecting rod 14 is positioned at the downside in added portion 3, described second bolt 15, second spring washer 16, second nut 17 is positioned in added portion 3, and described primary transmission portion 18 is positioned in frame 1, and described first classical V-belt 19 is connected with primary transmission portion 18, described 3rd bolt 20, 3rd spring washer 21, 3rd nut 22 is positioned in frame 1, and described secondary transmission portion 23 is positioned in frame 1, and described electromagnetic adjustable speed motor 24 is positioned at the side in secondary transmission portion 23, and described automatically controlled frame 29 is by the 4th bolt 25, 4th spring washer 26, 4th nut 27 is positioned in frame 1, and described cable 28 is positioned on the downside of electromagnetic adjustable speed motor 24, and described first belt wheel 30 is positioned at the side of cable 28, and described second classical V-belt 34 is connected with the first belt wheel 30, described 5th bolt 31, shaft end ring 32, 5th spring washer 33 is positioned on the first belt wheel 30, and described 6th bolt 35 is positioned at the upside of the second classical V-belt 34, described 7th bolt 36, 6th spring washer 37, 6th nut 38 is positioned on the downside of secondary transmission portion 23, and described 8th bolt 39 is positioned on the downside of the second classical V-belt 34, described Connection Block 40, guider 41 is positioned on lower frame part 8, and described protective cover 42 is positioned in frame 1, and described 3rd axle shaft section 43 is positioned at the one end in added portion 3.

As preferably, the model that described first bolt 11 adopts is M10 × 65, the model that described second bolt 15 adopts is M18 × 90, the model that described 3rd bolt 20 adopts is M18 × 80, the model that described 4th bolt 25 adopts is M22 × 90, and the model that described 5th bolt 31 adopts is M8 × 80, and described 6th bolt 35 adopts M20 × 200, described 7th bolt 36 adopts M20 × 80, and described 8th bolt 39 adopts M16 × 200.

As preferably, the operation principle of described sand washer is: adopt lever principle, by rough for upper strata sorting former and later two independently combine with lower floor's thin ore deposit sorting former and later two independently combine the position, front and back two of suspending in midair respectively and being connected to pedestal lever drive and combining, two that make can not to realize balancing the up and down modes being independently combined through front and back synchronous backward complementation, utilize anterior-posterior balance to realize the balance of complete machine.

The present invention efficiently solves the balance of lever, achieves efficient energy-saving, increases hydraulic pressure, steadily current, in direct increase ore dressing storehouse, hydraulic pressure is to the penetration power of ore bed, promotes mineral and production capacity, improve the rate of recovery because ore bed thickens, decrease mine tailing to run off, rough thin ore deposit becomes ore deposit by qualitative classification, improves ore deposit valency, regulates ore separators ore dressing amplitude and speed according to different mineral, random control ore dressing production capacity and quality, flexible, practical, efficient.

More than show and describe general principle of the present invention and principal character and advantage of the present invention.The technical staff of the industry should understand; the present invention is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.Claimed scope of the present invention is defined by appending claims and equivalent thereof.

Claims (2)

1. semi-automatic ore separators, comprises frame, first axle shaft section, added portion, first connecting rod, second axle shaft section, second connecting rod, middle frame portion, lower frame part, folder cloth glued membrane, flange, first bolt, first spring washer, second nut, third connecting rod, second bolt, second spring washer, second nut, primary transmission portion, first classical V-belt, 3rd bolt, 3rd spring washer, 3rd nut, secondary transmission portion, electromagnetic adjustable speed motor, 4th bolt, 4th spring washer, 4th nut, cable, automatically controlled frame, first belt wheel, 5th bolt, shaft end ring, 5th spring washer, second classical V-belt, 6th bolt, 7th bolt, 6th spring washer, 6th nut, 8th bolt, Connection Block, guider, protective cover, 3rd axle shaft section, it is characterized in that: described frame is provided with added portion and lower frame part, described first axle shaft section is positioned at the side in added portion, described first connecting rod is positioned at the downside of the first axle shaft section, described second axle shaft section is positioned at the side in added portion, and described second connecting rod is positioned at the downside of the second axle shaft section, and described middle frame portion is positioned at the upside of lower frame part, described folder cloth glued membrane between lower frame part and middle frame portion, described flange, first bolt, first spring washer, second nut is positioned on lower frame part, and described third connecting rod is positioned at the downside in added portion, described second bolt, second spring washer, second nut is positioned in added portion, and described primary transmission portion is positioned in frame, and described first classical V-belt is connected with primary transmission portion, described 3rd bolt, 3rd spring washer, 3rd nut is positioned in frame, and described secondary transmission portion is positioned in frame, and described electromagnetic adjustable speed motor is positioned at the side in secondary transmission portion, and described automatically controlled frame is by the 4th bolt, 4th spring washer, 4th nut is positioned in frame, and described cable is positioned on the downside of electromagnetic adjustable speed motor, and described first belt wheel is positioned at the side of cable, and described second classical V-belt is connected with the first belt wheel, described 5th bolt, shaft end ring, 5th spring washer is positioned on the first belt wheel, and described 6th bolt is positioned at the upside of the second classical V-belt, described 7th bolt, 6th spring washer, 6th nut is positioned at secondary transmission subordinate side, and described 8th bolt is positioned on the downside of the second classical V-belt, described Connection Block, guider is positioned on lower frame part, and described protective cover is positioned in frame, and described 3rd axle shaft section is positioned at the one end in added portion.

2. semi-automatic ore separators according to claim 1, it is characterized in that: the model that described first bolt adopts is M10 × 65, the model that described second bolt adopts is M18 × 90, the model that described 3rd bolt adopts is M18 × 80, the model that described 4th bolt adopts is M22 × 90, and the model that described 5th bolt adopts is M8 × 80, and described 6th bolt adopts M20 × 200, described 7th bolt adopts M20 × 80, and described 8th bolt adopts M16 × 200.