CN210045565U - Vertical laminar vibration screening device - Google Patents

Abstract

The utility model relates to a vertical laminar vibration screening plant. The device is including being the tube-shape casing that radius platform form set up, the interval is equipped with a plurality of annular convex shoulders on the tube-shape casing inner wall, each annular convex shoulder all sets up with the tube-shape casing is coaxial, the scarf joint has a plurality of rotations steel balls on each annular convex shoulder, each rotates the up end setting that the steel ball protrusion corresponds annular convex shoulder, each rotates the steel ball and uses annular convex shoulder center pin to be the radioactivity distribution as the center, still including driving motor, the driving motor output shaft sets up downwards, and the rigid coupling has coaxial connecting rod, the interval interlude rigid coupling has circular filter screen net on the connecting rod, each circular filter screen net edge overlap joint is on the rotation steel ball that corresponds annular convex shoulder, the circular filter screen net aperture in upper strata is greater than the circular filter screen aperture in lower floor in two adjacent circular. Because driving motor and circular filter screen cooperate, each circular filter screen is rotatory for the tube-shape casing, sieves the material, because circular filter screen and annular shoulder overlap joint again, the screening is high-efficient and get the material convenient.

Description

Vertical laminar vibration screening device

Technical Field

The utility model relates to a screening plant technical field especially relates to a vertical laminar vibration screening plant.

Background

The patent of a multilayer screening device is disclosed in the existing Chinese patent database, the patent application number is 201820960015.6, the application date is 2018.06.21, the grant publication number is CN208695604U, the grant publication date is 2019.04.05, the device has a blanking hopper, at least two layers of screening mechanisms, the screening mechanisms are vertically arranged from top to bottom, each screening mechanism is composed of a single-layer screen and a positive and negative motor, the two ends of the screen are respectively connected with the corresponding positive and negative motors, the positive and negative motors at one end of the screen are butted with the inclined blanking slide rail, the screen is in a V-shaped loosening state during working, the screen is dragged back and forth by the two positive and negative motors, the screen is in a horizontal tensioning state after working, and the positive and negative motors at one end of the butted blanking slide rails drag the discharging. The disadvantages are that: every layer of screen cloth of above-mentioned device all needs corresponding positive and negative motor, and the cost is too high, and not only the energy consumption is great, and screening efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a simple structure, the vertical laminar vibration screening device of screening efficient to the not enough of prior art existence.

In order to achieve the above object, the utility model relates to a technical scheme that vertical laminar vibration screening device adopted:

the utility model provides a vertical stratiform vibration screening plant, including the tube-shape casing that is the setting of radius platform form, the interval is equipped with a plurality of annular convex shoulders on the tube-shape shells inner wall, each annular convex shoulder all sets up with the tube-shape casing is coaxial, the scarf joint has a plurality of rotation steel balls on each annular convex shoulder, each rotates the up end setting that the steel ball protrusion corresponds annular convex shoulder, each rotates the steel ball and uses annular convex shoulder center pin to be the radioactivity distribution as the center, still including the driving motor of vertical setting, driving motor's output shaft sets up downwards, and the rigid coupling has coaxial connecting rod, the interval rigid coupling has circular filter screen net sieve on the connecting rod, each circular filter screen sieve all sets up with the connecting rod is coaxial, the edge overlap joint of each circular filter screen sieve is on the rotation steel ball that corresponds annular convex shoulder, the aperture of upper circular filter screen sieve is greater than the aperture of lower floor circular.

The utility model discloses the during operation, the material that will treat the screening is emptyd on the circular filter screen of tube-shape casing opening part, and operating personnel grasps miniature driving motor and holds the portion, starts driving motor, and it is rotatory that the connecting rod carries each circular filter screen, sieves the material, and after the screening finishes, closes driving motor, carries circular filter screen with driving motor and takes out the material from the tube-shape casing in.

Compared with the prior art, the beneficial effects of the utility model are that: because driving motor and circular filter screen cooperate, each circular filter screen is rotatory for the tube-shape casing, sieves the material, because circular filter screen and annular shoulder overlap joint again, the screening is high-efficient and get the material convenient.

The cylindrical shell is positioned below the vertical frame, and the driving motor is suspended on the vertical frame through an elastic rope. The material on the circular screen sieve is rocked by the elastic rope, the material is sieved, and the difficulty of disassembling the driving motor is reduced.

The circular mesh screen comprises a circular truncated cone-shaped filter screen fixedly connected with the connecting rod, the edge of the circular truncated cone-shaped filter screen is connected with an annular filter screen, and the annular filter screen and the connecting rod are coaxially arranged.

The upper edge of the annular filter screen is connected with a pipe shell in an inverted circular truncated cone shape, the pipe shell and the connecting rod are coaxially arranged, annular flanges are arranged on the upper edge of the pipe shell, and the annular flanges are lapped on the rotating steel balls corresponding to the annular convex shoulders.

And the upper end surface of each annular convex shoulder is provided with an annular groove, each annular groove and the connecting rod are coaxially arranged, and the rotating steel balls are arranged in the corresponding annular grooves in a rolling manner.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

The device comprises a cylindrical shell 1, an annular shoulder 101, a rotating steel ball 102, an annular groove 103, a driving motor 2, a connecting rod 3, a circular screen sieve 4, a truncated cone-shaped screen sieve 401, an annular screen sieve 402, a pipe shell 403, an annular flanging 404, a vertical frame 5 and an elastic rope 6.

Detailed Description

As shown in figure 1, the vertical layered vibrating screen device comprises a cylindrical shell 1 which is arranged in an inverted circular truncated cone shape, a plurality of annular shoulders 101 are arranged on the inner wall of the cylindrical shell 1 at intervals, each annular shoulder 101 is coaxially arranged with the cylindrical shell 1, a plurality of rotating steel balls 102 are embedded on each annular shoulder 101, each rotating steel ball 102 protrudes and is arranged corresponding to the upper end face of each annular shoulder 101, each rotating steel ball 102 is radially distributed by taking the central shaft of each annular shoulder 101 as the center, the vertical driving motor 2 is also included, the output shaft of the driving motor 2 is downwards arranged and fixedly connected with a coaxial connecting rod 3, a circular screen 4 is fixedly inserted and fixedly connected onto the connecting rod 3 at intervals, each circular screen 4 is coaxially arranged with the connecting rod 3, the edge of each circular screen 4 is overlapped and connected onto the rotating steel ball 102 corresponding to the annular shoulder 101, the aperture of the upper circular screen 4 in two adjacent circular screens 4 is larger than that of the lower circular screen 4, circular filter screen 4 includes the round platform form filter screen 401 with connecting rod 3 rigid coupling, round platform form filter screen 401 edge connection has annular filter screen 402, annular filter screen 402 sets up with connecting rod 3 is coaxial, the edge connection has the pipe casing 403 that is the round platform form on the annular filter screen 402, pipe casing 403 sets up with connecting rod 3 is coaxial, pipe casing 403 upper edge is equipped with annular turn-ups 404, each annular turn-ups 404 overlap joint is on the rotation steel ball 102 that corresponds annular shoulder 101, the annular groove 103 has been seted up on each annular shoulder 101 up end, each annular groove 103 sets up with connecting rod 3 is coaxial, it rolls and sets up in the annular groove 103 that corresponds to rotate steel ball 102, still including vertical frame 5, tube-shape casing 1 is located under vertical frame 5, driving motor 2 suspends in midair on vertical frame 5 through elastic rope 6. The material on the circular screen 4 is shaken under the elastic rope 6, and the material is screened, and the difficulty of detaching the driving motor 2 is reduced.

In operation, the material that will wait to sieve is emptyd on the circular filter screen 4 of 1 opening part of tube-shape casing, operating personnel grasps 2 portions of holding of miniature driving motor, start driving motor 2, connecting rod 3 carries each circular filter screen 4 rotatory, the screening material, close driving motor 2, grasp 2 portions of holding of driving motor, rock elastic rope 6, the circular filter screen 4 of rocking from top to bottom will wait to sieve the material and loosen, break up, restart driving motor 2, the screening material, after the screening finishes, close driving motor 2, carry circular filter screen 4 with driving motor 2 and take out the material from tube-shape casing 1.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some replacements and transformations for some technical features without creative labor according to the disclosed technical contents, and these replacements and transformations are all within the protection scope of the present invention.

Claims (5)

1. The utility model provides a vertical stratiform vibration screening device, is including being the tube-shape casing that the radius platform form set up, its characterized in that: the interval is equipped with a plurality of annular convex shoulders on the tube-shape shells inner wall, each annular convex shoulder all sets up with the tube-shape shells is coaxial, the scarf joint has a plurality of rotations steel balls on each annular convex shoulder, each rotates the upper end setting that the steel ball protrusion corresponds annular convex shoulder, each rotates the steel ball and uses annular convex shoulder center pin to be the radioactivity distribution as the center, still including the driving motor of vertical setting, driving motor's output shaft sets up downwards, and the rigid coupling has coaxial connecting rod, the interval interlude rigid coupling has circular filter screen on the connecting rod, each circular filter screen all sets up with the connecting rod is coaxial, the edge overlap joint of each circular filter screen is on the rotation steel ball that corresponds annular convex shoulder, the aperture of upper round filter screen among two adjacent circular filter screens is greater than the aperture of lower floor's circular filter screen.

2. A vertical laminar vibratory screening apparatus as set forth in claim 1, wherein: the cylindrical shell is positioned below the vertical frame, and the driving motor is suspended on the vertical frame through an elastic rope.

3. A vertical laminar vibratory screening device according to claim 1 or 2, wherein: the circular mesh screen comprises a circular truncated cone-shaped filter screen fixedly connected with the connecting rod, the edge of the circular truncated cone-shaped filter screen is connected with an annular filter screen, and the annular filter screen and the connecting rod are coaxially arranged.

4. A vertical laminar vibratory screening apparatus as set forth in claim 3 wherein: the upper edge of the annular filter screen is connected with a pipe shell in an inverted circular truncated cone shape, the pipe shell and the connecting rod are coaxially arranged, annular flanges are arranged on the upper edge of the pipe shell, and the annular flanges are lapped on the rotating steel balls corresponding to the annular convex shoulders.

5. A vertical laminar vibratory screening apparatus as set forth in claim 4 wherein: and the upper end surface of each annular convex shoulder is provided with an annular groove, each annular groove and the connecting rod are coaxially arranged, and the rotating steel balls are arranged in the corresponding annular grooves in a rolling manner.

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