CN107377367B - High-efficient rose box - Google Patents

Abstract

The invention discloses a high-efficiency filter box, and belongs to the technical field of filter boxes. The filtering contact area of the existing filtering device and materials is small, and the filtering efficiency is low. Aiming at the problems in the prior art, the invention discloses a high-efficiency filter box, wherein a filter screen group is arranged in the filter box, the filter screen group comprises a first filter screen, a plurality of layers of second filter screens and a plurality of scraping rods, the first filter screen is obliquely arranged, the layers of second filter screens are mutually parallel and are arranged above the first filter screen in parallel, the scraping rods are arranged in parallel and are fixed on the first filter screen, and the scraping rods penetrate through the layers of second filter screens; the filter screen group is divided into a plurality of layers along the vertical direction, and the first filter screens in each layer of filter screen group are mutually parallel; from one side of the box body to the other side, the first filter screens in the two adjacent layers of filter screen groups are all obliquely arranged. The multi-directional three-dimensional filtering box can realize multi-directional three-dimensional filtering of materials, and has the advantages of large filtering area, good filtering effect, high filtering efficiency and the like.

Description

High-efficient rose box

Technical Field

The invention relates to a filter box, in particular to a high-efficiency filter box, and belongs to the technical field of filter boxes.

Background

In the field of production, for powdery and granular articles such as cement, fertilizer, flour and the like, a bagged storage and transportation mode is generally adopted. For these bagged articles, manual bag removal is generally required to collect the materials during use. However, for products with larger disposable requirements, if manual bag opening is still adopted, the production efficiency is low, the production cannot be met, and for dust generation or materials which are toxic per se, the manual operation not only pollutes the environment, but also can harm the health of staff.

Patent application number 201310276714.0 discloses an bale breaker, including bale breaker, feed end subassembly, sieving mechanism, discharging device and transmission, and this bale breaker utilizes biax multitool piece cross cutting, and the principle of screen drum rotation type transport separation has realized automatic bale breaking and automatic discharge. But the drum screen that this bale breaker used only one deck sieve mesh, the tiny silk ribbon that mixes in the material sieves out along with the material very easily, and the filter effect is poor, and the drum screen is the cambered surface with the filtration contact surface of material moreover, and filtration area is little, and filtration efficiency is low, and in addition, the material is difficult to spill in the sieve mesh because receiving centripetal force effect at the rotatory in-process of drum screen, and the drum screen easily takes place to block up, need clear up whole drum screen after the jam, cost of maintenance is high. The patent application number 201410290147.9 discloses a can dismantle medicine granule and shake sieve soon, it includes the feed inlet, filter screen and locates the vibrating motor who shakes soon in the sieve, wherein the filter screen in this shakes soon has the three-layer, and the filter effect is good, and the filter screen is detachable structure, when the phenomenon of stifled hole takes place, only need dismantle the one deck of stifled hole alone and clear up, cost of maintenance reduces, however, this filter screen still has the filtration area of contact little, the problem that filtration efficiency is low.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a high-efficiency filter box so as to improve the filtering efficiency of the filter box.

In order to achieve the technical purpose, the technical scheme of the invention is as follows:

the utility model provides a high-efficient rose box, including the feeder hopper, box and play hopper, the feeder hopper sets up in box top, the play hopper sets up in the bottom half, the inside filter screen group that is provided with of box, the filter screen group includes first filter screen, a plurality of layers of second filter screen and a plurality of wire scraping rod, first filter screen slope sets up and fixes on the filter box inner wall, each layer of second filter screen is parallel to each other, and be on a parallel with first filter screen, every layer of second filter screen all sets up the top of first filter screen, wire scraping rod parallel arrangement, wire scraping rod is fixed on first filter screen, and pass each layer of second filter screen, the filter screen group distributes along vertical direction a plurality of layers, the first filter screen in every layer of filter screen group is parallel to each other; from box one side to opposite side, the first filter screen in two-layer adjacent filter screen group all inclines to set up, and wherein the first filter screen of one deck filter screen group inclines up, and the first filter screen of another deck inclines down. This rose box can realize the multi-direction solid filtration to the material, and every layer of filter screen group in the rose box all presents the cockscomb structure with the filtration contact surface of material, and filtration area is big, and filtration efficiency is high, and a plurality of layers of filter screen group in the vertical direction constitutes the zigzag filtration passageway, and the filter effect is good.

As the preferred scheme, first filter screen bottom is provided with the draw-in groove, and first filter screen inserts in the draw-in groove, and the draw-in groove is fixed on the rose box inner wall, and the draw-in groove is used for realizing the fixed of filter screen group and dismantles, pulls out first filter screen and can wash the maintenance to the filter screen group of jam.

As the preferable scheme, the filter screen group is contacted with the filter screen group on the adjacent upper layer, so that the influence of the direct falling of materials from the gap on the filtering effect is prevented.

As a further preferred aspect, the wire scraping rod at the top of the filter screen group is in contact with the filter screen group at the adjacent upper layer.

As a further preferable scheme, the filter screen group is contacted with the clamping groove at the bottom of the first filter screen on the adjacent upper layer, so that the influence of the direct falling of materials from the gap on the filtering effect is prevented.

As a further preferable scheme, the scraping wire rod at the top of the filter screen group is contacted with the clamping groove at the bottom of the first filter screen at the adjacent upper layer.

As a further preferable scheme, the filter screen group is contacted with clamping grooves at the bottoms of two adjacent first filter screens on the adjacent upper layers, so that the influence of the falling of materials from the gaps on the filtering effect is further prevented.

As a further preferable scheme, the wire scraping rod and the first filter screen at the top of the filter screen group are respectively contacted with clamping grooves at the bottoms of two adjacent first filter screens at the adjacent upper layers.

As a further preferable scheme, the included angle between the first filter screen and the vertical direction is 30-60 degrees, so that the material can fall down uniformly and rapidly.

As a further preferable scheme, the included angle of the corresponding wire scraping rods in the two adjacent layers of filter screen groups is 60-120 degrees.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is an enlarged view of a portion of the present invention;

FIG. 3 is a schematic view of the structure of the filter screen assembly of the present invention;

reference numerals: 1. the feeding hopper 2, the box 3, the vibration motor 4, the discharging hopper 5, the spring damper 6, the filter screen group 7, the first filter screen 8, the second filter screen 9, the wire scraping rod 10 and the clamping groove

Detailed Description

One embodiment of the present invention will be described in detail with reference to fig. 1 to 3, but does not limit the claims of the present invention in any way.

The utility model provides a high-efficient rose box, including feeder hopper 1, box 2, vibration motor 3, ejection of compact fight 4, spring damping 5 and filter screen group 6, feeder hopper 1 sets up in box 2 top, vibration motor 3 sets up in box 2 both sides, vibration motor 3 is arranged in driving filter screen group 6 vibrations, make the material fall into fast behind the filtration of filter screen group 6 and go out in hopper 4, ejection of compact fight 4 sets up in box 2 bottom, spring damping 5 sets up the four corners department in box 2 bottom, spring damping 5 is used for absorbing the energy of vibrations, keep the stability of box 2 bottom, filter screen group 6 sets up in box 2 inside, filter screen group 6 includes first filter screen 7, second filter screen 8 and scrapes silk stick 9, first filter screen 7 slope sets up, be 30 ~ 60 with vertical direction contained angle, second filter screen 8 is on a parallel with first filter screen 7 and set up in the top of first filter screen 7, scrape silk stick 9 and set up 6 lines and length the same (like figure 2, wherein scrape the silk stick and can also set up other line numbers), scrape silk stick 9 and all perpendicular to fix on first filter screen 7 and the second filter screen 8 and pass the first filter screen 7 card slot 10 and filter screen 7 and insert 10 in the first filter screen slot, the filter screen group is the first filter screen 10 is realized, the filter screen is fixed to the filter screen is the first filter screen is fixed in the first filter screen group 10, the filter screen is the filter tank is kept down, the first filter screen 10 is kept down, the bottom is kept clean.

The filter screen group 6 is divided into an upper layer and a lower layer, and each layer comprises 7 filter screen groups, wherein the filter screen groups can be arranged in multiple layers, the number of the filter screen groups in each layer is not limited, and the first filter screens in each layer of filter screen groups are parallel to each other; the first filter screens of the upper layer filter screen group are obliquely arranged upwards from the left side to the right side of the box body in the figure 1, the first filter screens of the lower layer filter screen group are obliquely arranged downwards, the included angle between the wire scraping rods in the upper layer filter screen group and the corresponding wire scraping rods in the lower layer filter screen group is 60-120 degrees, and the upper layer first filter screen and the lower layer first filter screen are distributed in a staggered inverted splayed shape; in order to prevent the material from directly falling from the gap between the upper layer and the lower layer and influencing the filtering effect, the scraping rod 9 at the top of the lower layer filter screen group and the first filter screen are respectively contacted with the clamping grooves 10 at the bottoms of the two adjacent first filter screens at the upper layer, wherein the scraping rod at the top of the lower layer filter screen group can be contacted with the filter screen group at the upper layer, and other parts of the lower layer filter screen group can be contacted with the upper layer filter screen group or the clamping grooves.

In order to prevent the wire scraping rod 9 from colliding with the adjacent filter screen groups on the same layer when the vibration motor vibrates, the length of the wire scraping rod 9 is slightly smaller than the distance between the adjacent filter screen groups on the same layer.

The material to be filtered enters the box body 2 from the feed hopper 1, a part of the material is filtered and falls down by the first filter screen or the second filter screen, and a part of the material falls down from the filter holes formed by the scraping rod and the second filter screen, so that multidirectional three-dimensional filtration of the material is realized. Wherein, every layer of filter screen group all presents the cockscomb structure with the filtration contact surface of material, and filtration area is big, and filtration efficiency is high, and upper and lower two-layer filter screen group constitutes side "V" shape filtration passageway, and the filtration degree of depth is long, and the filter effect is good. In addition, the filter holes formed by the scraping rod and the second filter screen are large, so that the materials can be dredged layer by layer to prevent blockage, and the filter screen has the function of accelerating the filtering speed.

In summary, the invention has the following advantages:

1. the multi-direction three-dimensional filtration to the material can be realized to this rose box, and filtration area is big, and the filter effect is good, efficient.

2. The filter box can realize the disassembly and the assembly of the filter screen group, and is easy to clean and maintain.

It is to be understood that the foregoing detailed description of the invention is merely illustrative of the invention and is not limited to the embodiments of the invention. It will be understood by those of ordinary skill in the art that the present invention may be modified or substituted for elements thereof to achieve the same technical effects; as long as the use requirement is met, the invention is within the protection scope of the invention.

Claims (8)

1. The utility model provides a high-efficient rose box, including the feeder hopper, box and play hopper, the feeder hopper sets up in box top, play hopper sets up in the bottom half, a serial communication port, the inside filter screen group that is provided with of box, filter screen group includes first filter screen, a plurality of layers of second filter screen and a plurality of wire scraping rod, first filter screen slope sets up and fixes on the rose box inner wall, each layer of second filter screen is parallel to each other, and be on a parallel with first filter screen, every layer of second filter screen all sets up the top at first filter screen, wire scraping rod parallel arrangement, wire scraping rod is fixed on first filter screen, and pass each layer of second filter screen, the filter screen group divides a plurality of layers along vertical direction, the first filter screen in every layer of filter screen group is parallel to each other; the first filter screens in two adjacent layers of filter screen groups are obliquely arranged from one side of the box body to the other side, wherein the first filter screen of one layer of filter screen group is inclined upwards, the first filter screen of the other layer of filter screen group is inclined downwards, the filter screen group is contacted with the filter screen group of the adjacent upper layer, and the upper layer of filter screen group and the lower layer of filter screen group form a side V-shaped filter channel; the filtering contact surface of each layer of filtering net group and the material is in a zigzag shape; the bottom of the first filter screen is provided with a clamping groove, the first filter screen is inserted into the clamping groove, and the clamping groove is fixed on the inner wall of the filter tank.

2. A high efficiency filter housing as defined in claim 1, wherein the wire scraping bars at the top of the filter screen assembly are in contact with the adjacent upper filter screen assembly.

3. A high efficiency filter housing as defined in claim 2, wherein said filter screen assembly is in contact with a catch groove in the bottom of the first screen adjacent the upper layer.

4. A high efficiency filter housing as defined in claim 3, wherein the wire scraping bars at the top of the filter screen assembly contact the slots at the bottom of the first filter screen adjacent the upper layer.

5. The high efficiency filter housing of claim 4, wherein said filter screen assembly is in contact with the catch grooves of the bottoms of two adjacent first filter screens of adjacent upper layers.

6. The high-efficiency filter box as claimed in claim 5, wherein the wire scraping rod and the first filter screen at the top of the filter screen group are respectively contacted with the clamping grooves at the bottoms of two adjacent first filter screens at the adjacent upper layers.

7. A high efficiency filter housing as defined in any one of claims 1 to 6, wherein said first screen is angled from 30 ° to 60 ° from vertical.

8. A high efficiency filter housing as defined in claim 7, wherein said adjacent two filter screen sets have respective doctor bars at an angle of 60 ° to 120 °.