CN118179911A - A modular screen plate with a discharge end slope - Google Patents

Abstract

The invention relates to the technical field of screening equipment, in particular to a modularized screen plate with a slope at a discharge end, which comprises a screen and a supporting structure for supporting the screen, wherein the screens are spliced in a row plane, the front end of the screen in the rear row is lapped at the rear end of the top surface of the screen in the front row, a strip-shaped slope part is transversely fixed at the front side edge of the lapped position of two adjacent rows of screens, and the bottom end of the strip-shaped slope part corresponding to the slope is positioned at the rear edge of the screen surface of the screen in the front row; the rear end of the screen is transversely provided with a plurality of connecting grooves which extend longitudinally respectively, the strip-shaped slope piece comprises triangular ribs and a plurality of clamping blocks, the front parts of the top surfaces of the clamping blocks are fixed on the bottom surfaces of the triangular ribs and are matched with the connecting grooves in a longitudinally sliding clamping manner, and the front end surfaces of the screens in the rear row are attached to the rear walls of the triangular ribs; the problems of large screening blind area, low screen surface opening ratio and low screening efficiency of the modularized screen plate are well solved.

Description

Modularized screen plate with slope of discharge end

Technical Field

The invention relates to the technical field of screening equipment, in particular to a modularized screen plate with a slope at a discharge end.

Background

The vibrating screen is a screen mesh device which uses the excitation principle of a vibrating motor to throw materials on a screen surface and simultaneously makes linear motion forwards to reasonably match the materials. Wherein, the screen plate is one of the most important constituent structures, and the quality of the performance directly determines the screening effect of the vibrating screen.

At present, a common vibrating screen is generally assembled into a planar or radian modularized screen plate structure by a plurality of screen meshes in a screen box, and a supporting structure is used for supporting the screen plate structure. The modularized screen plate structure often has the problem of large screening blind area, and the aperture ratio of the screen surface is low; in addition, the phenomenon of accumulated materials easily exists at the screening blind area, so that the screening efficiency is influenced, and the screening of powdery materials is more serious.

Therefore, there is a need to improve the structure of the existing modularized screen plate to reduce the screening blind area, increase the screen surface aperture ratio and improve the screening efficiency.

Disclosure of Invention

The invention aims to provide a modularized screen plate with a slope at a discharge end, which is used for solving the problems of large screening blind area, low screen surface aperture ratio and low screening efficiency of the modularized screen plate in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a take modularization sieve on discharge end slope, includes the screen cloth and is used for supporting the bearing structure of screen cloth, the screen cloth is arranged the plane concatenation, and the later row the screen cloth front end overlap joint is in the preceding row the rear end of screen cloth top surface, adjacent two rows the front side of screen cloth overlap joint department is followed transversely and is fixed with bar slope spare, the bottom that bar slope spare corresponds the inclined plane is located the preceding row the screen surface trailing edge of screen cloth, wherein, the screen surface is the region that sets up the sieve mesh.

Preferably, the supporting structure comprises a plurality of supporting beams with two ends respectively fixed at the bottom of the inner wall of the screen box, a plurality of supporting angle steels respectively fixed at the top of the supporting beams and uniformly arranged along the transverse direction, and longitudinal fixing pieces fixed at the top surfaces of the supporting angle steels and matched with two sides of the bottom of the screen in a corresponding clamping manner.

Preferably, the supporting beams are lifted from front to back one by one, each supporting beam comprises a beam body, end plates fixed at two ends of the beam body and fixedly connected with the inner wall of the screen box, and a plurality of supporting pieces uniformly fixed on the top surface of the beam body along the transverse direction, each supporting piece comprises a first supporting plate and a second supporting plate which are arranged in pairs, the front half parts of the top ends of the first supporting plate and the second supporting plate are lower than the rear half parts, the rear ends of the bottom of the supporting angle steel are fixed between the front half parts of the first supporting plate and the second supporting plate correspondingly, and the front ends of the bottom of the supporting angle steel are fixed between the rear half parts of the first supporting plate and the second supporting plate correspondingly.

Preferably, the vertical mounting is including being fixed in the supporting lath of supporting angle steel top surface and along vertical even locating a plurality of joint protruding of supporting lath top surface center both sides, the screen cloth bottom surface is close to both sides position and is equipped with respectively with the joint protruding joint matching draw-in groove.

Preferably, the rear end of screen cloth is along transversely being equipped with a plurality of spread grooves along vertically extension respectively, bar slope spare includes triangle rib and top surface front portion be fixed in triangle rib bottom surface and with spread groove is along a plurality of fixture blocks of longitudinal sliding joint matching, the latter row the preceding terminal surface of screen cloth with the laminating of the back wall of triangle rib.

Preferably, the connecting groove comprises rectangular slot at top and half slot at bottom, the fixture block comprises cuboid piece at top and half cylinder piece at bottom, the first half of cuboid piece top surface is fixed in the bottom surface of triangle rib, cuboid piece slip joint rectangular inslot, half cylinder piece slip joint in half slot, the diameter that the half cylinder piece corresponds equals the twice of cuboid piece width.

Preferably, the screen comprises a plate and a plurality of screen holes which are arranged in the middle of the top surface of the plate and form a screen surface, the clamping grooves are arranged at positions, close to two sides, of the bottom surface of the plate, and the connecting grooves are arranged at the rear end of the plate.

Preferably, the bottom surface of the plate is provided with a groove corresponding to the screen surface, and a plurality of rib plates respectively extending longitudinally and transversely are arranged in the groove.

Preferably, the both sides of supporting lath are equipped with step structure, plate bottom both sides be equipped with step structure joint matching's reverse step structure, reverse step structure front end back contract in the front end of plate, and back contract the distance equals rectangular channel longitudinal length's half, bellied one side of joint is equipped with the cambered surface recess along vertically, draw-in groove inner chamber one side wall be equipped with the bar arch of cambered surface recess joint matching.

Preferably, the top end of the second support plate is higher than the top end of the first support plate, the height difference is equal to the thickness of the top plate of the support angle steel, the vertical plate at the bottom of the support angle steel is fixed between the corresponding first support plate and the corresponding second support plate by using a suture bolt, and the support lath is fixed on the top plate of the support angle steel by using a bolt.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the modularized sieve plate with the slope at the material outlet end, as the lap joint relation exists at the edge of the sieve, the blind area is reduced to a large extent, the aperture ratio of the sieve surface is greatly increased, and the sieving efficiency is improved.

2. According to the modularized sieve plate with the slope at the discharge end, through the arrangement of the strip-shaped slope piece, a binding point of loose materials can be formed at the lap joint of the sieve plate, the screening state of the materials can be effectively changed, fine materials are promoted to pass through the sieve as soon as possible, namely, a free sedimentation screening principle is applied to the discharge end of each sieve plate, a large amount of fine particles are conveniently and rapidly removed, the free sedimentation screening prevents accumulation and formation of a material bed by means of the steep inclination of the strip-shaped slope piece and a high-efficiency linear stroke almost perpendicular to a screening machine, no material bed is blocked, each fine particle can pass through the screening surface as soon as possible, and therefore screening efficiency of fine particle materials is greatly improved.

Drawings

FIG. 1 is a schematic perspective view of the whole structure of the present invention;

FIG. 2 is a schematic perspective view of a support beam of the present invention;

FIG. 3 is a schematic perspective view of a support angle of the present invention;

FIG. 4 is a schematic perspective view of a longitudinal fastener of the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4A according to the present invention;

FIG. 6 is a first perspective view of a screen according to the present invention;

FIG. 7 is a second perspective view of the screen of the present invention;

FIG. 8 is a schematic view of a first perspective view of a bar ramp of the present invention;

FIG. 9 is a second perspective view of the bar ramp of the present invention;

Fig. 10 is an enlarged schematic view of the structure of fig. 9 at I according to the present invention.

In the figure: 1-supporting a cross beam; 1.1-a beam body; 1.2-end plates; 1.3-first support plate; 1.4-a second support plate;

2-supporting angle steel;

3-a longitudinal fixing member; 3.1-supporting the lath; 3.1.1-step structure; 3.2-clamping protrusions; 3.2.1-cambered surface grooves;

4-screening; 4.1-plate members; 4.2-rib plates; 4.3-clamping grooves; 4.4-bar-shaped protrusions; 4.5-connecting grooves; 4.5.1-rectangular grooves; 4.5.2-semicircular grooves; 4.6-reverse-order structure; 4.7-sieve pores;

5-bar-shaped ramp members; 5.1-triangular ribs; 5.2-clamping blocks; 5.2.1-cuboid blocks; 5.2.2-semi-cylindrical blocks.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the invention provides a technical scheme, a modularized screen plate with a slope at a discharge end, which comprises a screen 4 and a supporting structure for supporting the screen 4, wherein the screens 4 are spliced in a row in a plane, the front ends of the screens 4 in the rear row are lapped at the rear ends of the top surfaces of the screens 4 in the front row, strip-shaped slope members 5 are transversely fixed at the front sides of the lapped positions of two adjacent rows of screens 4, and the bottom ends of the corresponding slopes of the strip-shaped slope members 5 are positioned at the rear edges of the screen surfaces of the screens 4 in the front row.

The supporting structure comprises a plurality of supporting beams 1, the front end bottom and the rear end bottom of which are respectively fixed at the bottoms of the inner walls of the screen box, a plurality of supporting angle steels 2 and longitudinal fixing pieces 3, wherein the supporting beams 2 are respectively and correspondingly fixed at the tops of the supporting beams 1 and are uniformly arranged along the transverse direction, and the longitudinal fixing pieces 3 are fixed on the top surfaces of the supporting angle steels 2, and the tops of the longitudinal fixing pieces are correspondingly clamped and matched with the two sides of the bottom of the screen 4. For the supporting beam 1, a plurality of supporting beams 1 are lifted one by one from front to back, each supporting beam 1 comprises a beam body 1.1, end plates 1.2 fixed at two ends of the beam body 1.1 and fixedly connected with the inner wall of a screen box, and a plurality of supporting pieces transversely and uniformly fixed on the top surface of the beam body 1.1, each supporting piece comprises a first supporting plate 1.3 and a second supporting plate 1.4 which are arranged in pairs, the front half parts of the top ends of the first supporting plate 1.3 and the second supporting plate 1.4 are lower than the rear half parts, the rear end of the bottom of each supporting angle steel 2 is fixed between the front half parts of the corresponding first supporting plate 1.3 and the second supporting plate 1.4, and the front end of the bottom of each supporting angle steel 2 is fixed between the rear half parts of the corresponding first supporting plate 1.3 and the second supporting plate 1.4. The vertical fixing piece 3 comprises a supporting lath 3.1 fixed on the top surface of the supporting angle steel 2 and a plurality of clamping bulges 3.2 which are uniformly arranged on two sides of the center of the top surface of the supporting lath 3.1 along the longitudinal direction, clamping grooves 4.3 which are matched with the clamping bulges 3.2 in a clamping way are respectively arranged on the positions, close to the two sides, of the bottom surface of the screen 4, the top end of the supporting lath II 1.4 is higher than the top end of the supporting lath I1.3, the height difference is equal to the thickness of the top plate of the supporting angle steel 2, the vertical plate at the bottom of the supporting angle steel 2 is fixed between the corresponding supporting lath I1.3 and the supporting lath II 1.4 by using suture bolts, so that after the supporting angle steel 2 is installed, the top plate of the supporting angle steel 2 is lapped on the top end of the supporting lath I1.3, and the top surface of the supporting lath II 1.4 is flush with the top surface of the supporting lath II 1.4; the support strips 3.1 are fastened to the top plate of the support angle 2 using bolts. The top end rear half parts of the first row of support plates 1.3 and the second row of support plates 1.4 are flush with the top end front half parts of the first row of support plates 1.3 and the second row of support plates 1.4.

The rear end of screen cloth 4 transversely is equipped with a plurality of spread grooves 4.5 along vertically extending respectively, and bar slope spare 5 includes triangle rib 5.1 and the front portion of top surface is fixed in triangle rib 5.1 bottom surface and with spread groove 4.5 along a plurality of fixture blocks 5.2 of longitudinal sliding joint matching, the preceding terminal surface of back row screen cloth 4 is laminated with the back wall of triangle rib 5.1. The connecting groove 4.5 is composed of a rectangular groove 4.5.1 at the top and a semicircular groove 4.5.2 at the bottom, the clamping block 5.2 is composed of a cuboid block 5.2.1 at the top and a semicylindrical block 5.2.2 at the bottom, the front half part of the top surface of the cuboid block 5.2.1 is fixed on the bottom surface of the triangular prism 5.1, the cuboid block 5.2.1 is in sliding clamping connection with the rectangular groove 4.5.1, the semicylindrical block 5.2.2 is in sliding clamping connection with the semicircular groove 4.5.2, and the diameter corresponding to the semicylindrical block 5.2.2 is equal to twice the width of the cuboid block 5.2.1.

The screen 4 comprises a plate 4.1 and a plurality of screen holes 4.7 which are arranged in the middle of the top surface of the plate 4.1 and form a screen surface, the clamping grooves 4.3 are arranged at positions close to two sides of the bottom surface of the plate 4.1, and the connecting grooves 4.5 are arranged at the rear end of the plate 4.1. The bottom surface of the plate 4.1 is provided with a groove corresponding to the screen surface, and a plurality of rib plates 4.2 which extend longitudinally and transversely are arranged in the groove.

In order to further improve the stable supporting effect of the longitudinal fixing piece 3 on the screen 4, step structures 3.1.1 are arranged on two sides of the supporting lath 3.1, inverted step structures 4.6 matched with the step structures 3.1.1 in a clamping mode are arranged on two sides of the bottom of the plate 4.1, the front end of each inverted step structure 4.6 is retracted to the front end of the corresponding plate 4.1, the retracted distance is equal to half of the longitudinal length of the rectangular groove 4.5.1, an arc-shaped groove 3.2.1 is formed in one side of the clamping protrusion 3.2 in the longitudinal direction, and a strip-shaped protrusion 4.4 matched with the arc-shaped groove 3.2.1 in a clamping mode is arranged on one side wall of an inner cavity of the clamping groove 4.3.

In summary, when the modularized screen plate structure is installed, two ends of the supporting beam 1 are fixed at the bottom of the inside of the screen box through the end plates 1.2 and bolts; the height difference of the supporting beam 1 gradually rising from front to back is matched with the rear end of the screen 4 so as to adapt to the overlapping relation of the front and rear rows of screen 4.

The supporting angle 2 and the longitudinal fixing member 3 are then installed in sequence. When the screen 4 is installed, the screen is installed in rows in sequence from front to back; the screens 4 in each row are spliced in a plane; a strip-shaped slope piece 5 is arranged, namely a clamping block 5.2 is clamped into a connecting groove 4.5 at the rear end of the screen 4, so that each row of screen 4 forms a whole; the clamping grooves 4.3 of the row of screens 4 are clamped with the corresponding clamping protrusions 3.2, and after the row of screens 4 are installed, the screens 4 on the left side and the right side are tightly attached. The rear row of screens 4 are sequentially installed, the front end faces of the screens are attached to the rear wall of the triangular prism 5.1, and the rear ends of the top faces of the front row of screens 4 and the rear half parts of the cuboid blocks 5.2.1 are pressed and fixed.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a take modularization sieve in discharge end slope, includes screen cloth (4) and is used for supporting bearing structure of screen cloth (4), its characterized in that: the screen cloth (4) are spliced in a row plane, the front end of the screen cloth (4) of the latter row is lapped at the rear end of the top surface of the screen cloth (4) of the former row, the front side edge of the lapped position of the screen cloth (4) of two adjacent rows is transversely fixed with a strip-shaped slope piece (5), and the bottom of the corresponding inclined plane of the strip-shaped slope piece (5) is positioned at the rear edge of the screen surface of the screen cloth (4) of the former row.

2. A modular screen deck with a discharge end ramp as defined in claim 1 wherein: the supporting structure comprises a supporting beam (1) with two ends respectively fixed at the bottom of the inner wall of the screen box, a plurality of supporting angle steels (2) with the front end and the rear end respectively fixed at the top of the supporting beam (1) and uniformly arranged along the transverse direction, and longitudinal fixing pieces (3) fixed on the top surface of the supporting angle steels (2) and the top of which are correspondingly clamped and matched with two sides of the bottom of the screen cloth (4).

3. A modular screen deck with a discharge end ramp as defined in claim 2 wherein: the supporting beams (1) are lifted from front to back one by one, the supporting beams (1) comprise beam bodies (1.1), end plates (1.2) which are fixed at two ends of the beam bodies (1.1) and fixedly connected with the inner walls of the screen box, and a plurality of supporting pieces which are transversely and uniformly fixed on the top surfaces of the beam bodies (1.1), each supporting piece comprises a first supporting plate (1.3) and a second supporting plate (1.4) which are arranged in pairs, the front half parts of the top ends of the first supporting plate (1.3) and the second supporting plate (1.4) are lower than the rear half parts, the rear ends of the bottoms of the supporting angle steels (2) are fixed between the front half parts of the corresponding first supporting plate (1.3) and the second supporting plate (1.4), and the front ends of the bottoms of the supporting angle steels (2) are fixed between the rear half parts of the corresponding first supporting plate (1.3) and the second supporting plate (1.4).

4. A modular screen deck with a discharge end ramp as defined in claim 3 wherein: the vertical mounting (3) is including being fixed in supporting lath (3.1) of supporting angle steel (2) top surface and along vertical evenly locating a plurality of joint protruding (3.2) of supporting lath (3.1) top surface center both sides, screen cloth (4) bottom surface be close to both sides position be equipped with respectively with draw-in groove (4.3) that joint protruding (3.2) joint matches.

5. The modular screening deck with a discharge end ramp of claim 4, wherein: the rear end of screen cloth (4) is equipped with a plurality of spread grooves (4.5) along transversely respectively along vertical extension, bar slope spare (5) are fixed in triangle rib (5.1) bottom surface and with spread groove (4.5) are along a plurality of fixture blocks (5.2) of longitudinal sliding joint matching including triangle rib (5.1) and top surface front portion, the latter row the preceding terminal surface of screen cloth (4) with the laminating of the back wall of triangle rib (5.1).

6. The modular screening deck with a discharge end ramp of claim 5, wherein: the connecting groove (4.5) comprises a rectangular groove (4.5.1) at the top and a semicircular groove (4.5.2) at the bottom, the clamping block (5.2) comprises a cuboid block (5.2.1) at the top and a semicylindrical block (5.2.2) at the bottom, the front half part of the top surface of the cuboid block (5.2.1) is fixed on the bottom surface of the triangular rib (5.1), the cuboid block (5.2.1) is in sliding clamping connection with the rectangular groove (4.5.1), the semicylindrical block (5.2.2) is in sliding clamping connection with the semicircular groove (4.5.2), and the diameter corresponding to the semicylindrical block (5.2.2) is equal to twice the width of the cuboid block (5.2.1).

7. The modular screening deck with a discharge end ramp of claim 6, wherein: the screen cloth (4) include plate (4.1) and locate a plurality of sieve meshes (4.7) of plate (4.1) top surface middle part and constitution screening surface, draw-in groove (4.3) are located be close to both sides position of plate (4.1) bottom surface, spread groove (4.5) are located the rear end of plate (4.1).

8. The modular screening deck with a discharge end ramp of claim 7, wherein: grooves are formed in the bottom surface of the plate (4.1) corresponding to the positions of the screen surfaces, and a plurality of rib plates (4.2) extending longitudinally and transversely are arranged in the grooves.

9. The modular screening deck with a discharge end ramp of claim 8, wherein: the utility model discloses a supporting plate for the solar panel, including supporting plate strip (3.1), plate (4.1), back bench structure (4.6) are equipped with step structure (3.1.1) both sides are equipped with in plate (4.1) bottom both sides with the reverse bench structure (4.6) of step structure (3.1) joint matching, the front end of reverse bench structure (4.6) back contract in the front end of plate (4.1), and back contract the distance equal to rectangular channel (4.5.1) longitudinal length's half, one side of joint protruding (3.2) is equipped with cambered surface recess (3.2.1) along vertically, draw-in groove (4.3) inner chamber side wall be equipped with strip protruding (4.4) of cambered surface recess (3.2.1) joint matching.

10. The modular screening deck with a discharge end ramp of claim 4, wherein: the top of the support plate II (1.4) is higher than the top of the support plate I (1.3), the height difference is equal to the thickness of the top plate of the support angle steel (2), the vertical plate at the bottom of the support angle steel (2) is fixed between the support plate I (1.3) and the support plate II (1.4) which correspond to each other by using a suture bolt, and the support lath (3.1) is fixed on the top plate of the support angle steel (2) by using a bolt.