CN209476693U - A kind of dual-axis vibration classifying screen - Google Patents

Abstract

The utility model discloses a kind of dual-axis vibration classifying screens, including frame, the first side part is provided in the frame, and first is provided with sliding groove structure in side part, convex block is provided in first side part, and there are four convex block settings, upper screen cloth is provided on the convex block, and the two sides of upper screen cloth are provided with convex block, the side of the convex block is provided with the second side part, and second is provided with the first side part on the left of side part, the second outfeed platforms are provided in the frame, and second the lower ends of outfeed platforms be provided with lower screen cloth, and the lower end of the second outfeed platforms is provided with the first outfeed platforms.The dual-axis vibration classifying screen is slided in the sliding groove structure in the first side part and the second side part using the convex block of upper screen cloth two sides, screening object can sufficiently be sieved by upper screen cloth in this way, then the screening object after sieving can sieved again by lower screen cloth, so that sieving object can be discharged from the opening of the second outfeed platforms and the first outfeed platforms two sides.

Description

A kind of dual-axis vibration classifying screen

Technical field

The utility model relates to classifying screen equipment technical field, specially a kind of dual-axis vibration classifying screen.

Background technique

Vibrating screen is vibrated using reciprocating rotary type caused by oscillator exciting and is worked, and the upper rotation weight of oscillator makes to sieve Face generates plane whirling vibration, and lower rotation weight then makes compass screen surface generate conical surface rotary vibration, and the effect of synergy then makes Compass screen surface generates again rotation type and vibrates, and oscillation trajectory is a complicated space curve, which is projected as a circle in horizontal plane, and On the vertical plane be projected as an ellipse, adjust the exciting force of upper and lower rotation weight, thus it is possible to vary amplitude.And it adjusts upper and lower The space phase angle of weight then can change the curve shape of compass screen surface motion profile and change the motion profile of material on compass screen surface, And dual-axis vibration classifying screen is then one kind of vibrating screen.

Dual-axis vibration classifying screen currently on the market carry out using when cannot adequately be sieved, to not be able to satisfy The use of people.

Utility model content

It is mentioned above in the background art to solve the purpose of this utility model is to provide a kind of dual-axis vibration classifying screen Dual-axis vibration classifying screen carry out using when cannot adequately be sieved the problem of.

To achieve the above object, the utility model provides the following technical solutions: a kind of dual-axis vibration classifying screen, including frame Frame is provided with the first side part in the frame, and is provided with sliding groove structure in the first side part, is provided in first side part convex Block, and there are four convex block settings, upper screen cloth is provided on the convex block, and the two sides of upper screen cloth are provided with convex block, the convex block Side be provided with the second side part, and be provided with the first side part on the left of the second side part, the second discharging be provided in the frame Platform, and the lower end of the second outfeed platforms is provided with lower screen cloth, and the lower end of the second outfeed platforms is provided with the first discharging and puts down Platform, the lower end of first outfeed platforms is provided with spring, and the side of spring is provided with vibrating motor, and on vibrating motor End is provided with the first outfeed platforms.

Preferably, the lower end of the spring is provided with pedestal, and spring is distributed between the first outfeed platforms and pedestal.

Preferably, the upper screen cloth is slided in the sliding groove structure in the first side part and the second side part by convex block.

Preferably, the mesh diameter of the upper screen cloth is greater than the mesh diameter of lower screen cloth.

Preferably, the right side opening of second outfeed platforms is equipped with hatch frame, and the lower end of the second outfeed platforms is under Sieve is corresponding.

Compared with prior art, the utility model has the beneficial effects that the dual-axis vibration classifying screen uses upper screen cloth two sides Convex block slided in the sliding groove structure in the first side part and the second side part, in this way by upper screen cloth can will screening object obtain To abundant screening, the screening object after then sieving can sieved again by lower screen cloth, so that sieving object can be from second The opening of outfeed platforms and the first outfeed platforms side is discharged.

Detailed description of the invention

Fig. 1 is a kind of dual-axis vibration classifying screen main view of the utility model；

Fig. 2 is a kind of dual-axis vibration classifying screen top view of the utility model.

In figure: 1, the first side part, 2, frame, 3, convex block, the 4, first outfeed platforms, 5, spring, 6, upper screen cloth, 7, vibration electricity Machine, the 8, second outfeed platforms, 9, lower screen cloth, 10, pedestal, the 11, second side part.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

The utility model provides a kind of technical solution referring to FIG. 1-2: a kind of dual-axis vibration classifying screen, including frame 2, It is provided with the first side part 1, frame 2 and the first side part 1 in frame 2 to be attached by welding, and is provided with cunning in the first side part 1 Slot structure offers sliding groove structure in the first side part 1, convex block 3 is provided in the first side part 1, and there are four the settings of convex block 3, convex It is provided with upper screen cloth 6, convex block 3 and upper screen cloth 6 on block 3 to be attached by welding, upper screen cloth 6 is by convex block 3 in the first side part 1 It is slided in the sliding groove structure in the second side part 11, this structure makes when carrying out the screening of sieve object, can will be ready Screening object is put into upper screen cloth 6, and then vibrating motor 7 can vibrate frame 2, and then the upper screen cloth 6 in frame 2 can lead to It crosses convex block 3 to be slided in the first side part 1 and the second side part 11, so that the screening object in upper screen cloth 6 can slide up and down It sieving, can make to sieve the more uniform of object screening in this way, the mesh diameter of upper screen cloth 6 is greater than the mesh diameter of lower screen cloth 9, this Structure carries out screening object after being sieved by upper screen cloth 6, and object, which can be fallen on lower screen cloth 9, after then sieving carries out again Secondary screening, in this way screening object can carry out repeatedly sieving, and the two sides of upper screen cloth 6 are provided with convex block 3, the side of convex block 3 It is provided with the second side part 11, convex block 3 and the second side part 11 are attached by welding, and the left side of the second side part 11 is provided with the One side part 1 is provided with the second outfeed platforms 8, frame 2 and the second outfeed platforms 8 in frame 2 and is attached by welding, and second The right side opening of outfeed platforms 8 is equipped with hatch frame, and the lower end of the second outfeed platforms 8 is corresponding with lower screen cloth 9, this structure makes After screening object is sieved by lower screen cloth 9, the object after screening can be discharged by the first outfeed platforms 4, and second The lower end of outfeed platforms 8 is provided with lower screen cloth 9, the second outfeed platforms 8 and lower screen cloth 9 and is attached by welding, and second The lower end of outfeed platforms 8 is provided with the first outfeed platforms 4, and the lower end of the first outfeed platforms 4 is provided with spring 5, and the first discharging is flat Platform 4 and spring 5 are attached by welding, and the lower end of spring 5 is provided with pedestal 10, spring 5 and pedestal 10 and is carried out by welding Connection, and spring 5 is distributed between the first outfeed platforms 4 and pedestal 10, this structure makes when sieving to screening object, can Frame 2 is vibrated by vibrating motor 7, then frame 2 can be by the convex block 3 on upper screen cloth 6 in 1 second side of the first side part Groove structure on part 11 is slided, and screening object so is just effectively sieved, and the side of spring 5 is provided with vibration Motor 7, and 7 upper end of vibrating motor is provided with the first outfeed platforms 4, and this structure makes the dual-axis vibration classifying screen using upper sieve The convex block 3 of 6 two sides of net is slided in the sliding groove structure in the first side part 1 and the second side part 11, so just by upper screen cloth 6 Screening object can sufficiently be sieved, the screening object after then sieving can be sieved again by lower screen cloth 9, to sieve Object can be discharged from the opening of 4 side of the second outfeed platforms 8 and the first outfeed platforms.

Working principle: when using the dual-axis vibration classifying screen, first check that the device is damaged with the presence or absence of part or connects Loosely the case where, check it is errorless after carry out again using, then the object for being ready to sieve is placed into upper screen cloth 6, Then vibrating motor 7 is started, then vibrating motor 7 can drive frame 2 to be shaken on spring 5, and then frame 2 can Upper screen cloth 6 is driven to be shaken, then upper screen cloth 6 can pass through sliding groove structure of the convex block 3 in the first side part 1 and the second side part 11 It is inside slided, screening object can be slided up and down abundant screening by such upper screen cloth 6, so that upper screen cloth 6 is in spring 5 and vibration It is slided in the first side part 1 and the second side part 11 under the action of dynamic motor 7, screening object is then driven to carry out up and down sufficiently vibration, Then the object after being sieved by upper screen cloth 6 can be fallen on the second outfeed platforms 8, and the object after then sieving can go out from second The opening discharge for expecting 8 right side of platform, then sieving object can be sieved again by lower screen cloth 9, the object after then sieving Body is fallen on the first outfeed platforms 4, and then sieving object can be discharged from the opening in 4 left side of the first outfeed platforms, here it is The working principle of the dual-axis vibration classifying screen.

Although the utility model is described in detail with reference to the foregoing embodiments, come for those skilled in the art Say, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic into Row equivalent replacement, within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on should all It is included within the scope of protection of this utility model.

Claims (5)

1. a kind of dual-axis vibration classifying screen, it is characterised in that: including frame (2), be provided with the first side part in the frame (2) (1), it and in the first side part (1) is provided with sliding groove structure, is provided with convex block (3) in first side part (1), and convex block (3) is set There are four setting, it is provided with upper screen cloth (6) on the convex block (3), and the two sides of upper screen cloth (6) are provided with convex block (3), the convex block (3) side is provided with the second side part (11), and the first side part (1) is provided on the left of the second side part (11), the frame (2) It is inside provided with the second outfeed platforms (8), and the lower end of the second outfeed platforms (8) is provided with lower screen cloth (9), and the second discharging is flat The lower end of platform (8) is provided with the first outfeed platforms (4), and the lower end of first outfeed platforms (4) is provided with spring (5), and bullet The side of spring (5) is provided with vibrating motor (7), and vibrating motor (7) upper end is provided with the first outfeed platforms (4).

2. a kind of dual-axis vibration classifying screen according to claim 1, it is characterised in that: the lower end of the spring (5) is arranged Have pedestal (10), and spring (5) is distributed between the first outfeed platforms (4) and pedestal (10).

3. a kind of dual-axis vibration classifying screen according to claim 1, it is characterised in that: the upper screen cloth (6) passes through convex block (3) it is slided in the sliding groove structure in the first side part (1) and the second side part (11).

4. a kind of dual-axis vibration classifying screen according to claim 1, it is characterised in that: the mesh of the upper screen cloth (6) is straight Diameter is greater than the mesh diameter of lower screen cloth (9).

5. a kind of dual-axis vibration classifying screen according to claim 1, it is characterised in that: second outfeed platforms (8) Right side opening is equipped with hatch frame, and the lower end of the second outfeed platforms (8) is corresponding with lower screen cloth (9).