阅读说明：本技术 一种混凝土细骨料防堵的振动料仓 (Anti-blocking vibration bin for concrete fine aggregate ) 是由 刘立明 王春芳 李继晓 殷中洋 赵志强 唐久平 白芮良 樊进 于 2021-08-04 设计创作，主要内容包括：本发明公开了一种混凝土细骨料防堵的振动料仓,包括料仓,料仓内部设有至少一个V形拱部,V形拱部的两个外侧壁各自安装有侧壁振动器,内侧壁各自安装有提振组件；提振组件包括提振板、转动支撑件、第一振动杆和第二振动杆,提振板的上端为铰接端,下端为自由端,提振板的自由端外壁固定有用于松动存料区侧壁物料的第一振动杆和用于松动存料区中部物料的第二振动杆。本发明结构设计合理,其在V形拱部的外侧壁设置侧壁振动器的基础上,还于V形拱部的内侧壁增设有提振组件,提振组件中的提振板在侧壁振动器作用下能够产生更大幅度的振动,配合第一振动杆和第二振动杆,能够保障物料顺利进行下料,有效防止物料堵塞等情况的出现。(The invention discloses an anti-blocking vibration storage bin for concrete fine aggregate, which comprises a storage bin, wherein at least one V-shaped arch part is arranged in the storage bin, two outer side walls of the V-shaped arch part are respectively provided with a side wall vibrator, and the inner side walls are respectively provided with a vibration lifting assembly; the vibration lifting assembly comprises a vibration lifting plate, a rotating supporting piece, a first vibrating rod and a second vibrating rod, the upper end of the vibration lifting plate is a hinged end, the lower end of the vibration lifting plate is a free end, and the outer wall of the free end of the vibration lifting plate is fixed with the first vibrating rod used for loosening the side wall material of the material storage area and the second vibrating rod used for loosening the material in the middle of the material storage area. The vibration lifting assembly is arranged on the inner side wall of the V-shaped arch part, and the vibration lifting plate in the vibration lifting assembly can generate vibration with larger amplitude under the action of the side wall vibrator.)

1. The utility model provides a stifled vibration feed bin is prevented to concrete fine aggregate, includes the feed bin, its characterized in that: the storage bin is a row-connected bin body, at least one V-shaped arch part is arranged in the storage bin, the V-shaped arch part divides an inner cavity of the storage bin into a plurality of material storage areas, two outer side walls of the V-shaped arch part are respectively provided with a side wall vibrator, and two inner side walls of the V-shaped arch part are respectively provided with a vibration lifting assembly;

carry the subassembly that shakes including carrying the board that shakes, rotating support piece, first vibrating arm and second vibrating arm, carry the shape of the board that shakes and the inside wall shape of place V-arrangement hunch portion and cooperate, the upper end of carrying the board that shakes is the hinged end, and the lower extreme is the free end, the feed bin is located V-arrangement hunch portion top department and is fixed with the rotating support piece through rotating the support for carrying the board hinged end that shakes, the free end outer wall of carrying the board that shakes is fixed with the first vibrating arm that is used for not hard up deposit district lateral wall material and is used for not hard up deposit district middle part material's second vibrating arm.

2. The anti-blocking vibration silo for concrete fine aggregate according to claim 1, wherein the anti-blocking vibration silo comprises: the bottom of feed bin is close to feed opening department and is fixed with a plurality of deflectors side by side, the length direction of deflector is parallel with the length direction of feed bin, carry the plate body lower part of vibration plate and seted up the guide way with the deflector complex.

3. The anti-blocking vibration silo for concrete fine aggregate according to claim 2, wherein: the first vibrating rod is an angular rod, and the second vibrating rod is a straight rod; the first vibrating rods and the second vibrating rods are distributed in rows respectively, and the fixed positions of the rod bodies and the positions of the guide grooves are staggered mutually.

4. The anti-blocking vibration silo for concrete fine aggregate according to claim 1, wherein the anti-blocking vibration silo comprises: the feed bin is located every stock district bottom feed opening department and installs and keeps off the material cover, push rod assembly is installed separately to two lateral walls of V-arrangement hunch portion, push rod assembly can drive the fender material cover rotation that corresponds in order to open the feed opening that corresponds.

5. The anti-blocking vibration silo for concrete fine aggregate according to claim 4, wherein the vibration silo comprises: the push rod subassembly includes push rod, last articulated elements and articulated elements down, the upper end of push rod is passed through last articulated elements and is rotated with the lateral wall of V-arrangement hunch portion and be connected, the lower extreme of push rod is passed through down the articulated elements and is rotated with the limit portion of keeping off the material cover and be connected.

6. The anti-blocking vibration silo for concrete fine aggregate according to claim 5, wherein the vibration silo comprises: go up articulated elements, lower articulated elements and constitute by connecting block, protruding axle and ear seat respectively, the both ends of connecting block are equipped with the protruding axle, the ear seat seted up with protruding axle complex commentaries on classics groove.

7. The anti-blocking vibration silo for concrete fine aggregate according to claim 4, wherein the vibration silo comprises: the rotary supporting piece is a rotary sleeve, rotary rods are fixed on two sides of the top end of the vibration lifting plate, and the rotary sleeve is fixed at the top end of the V-shaped arch portion.

8. The anti-blocking vibration silo for concrete fine aggregate according to claim 1, wherein the anti-blocking vibration silo comprises: the both ends symmetry of keeping off the material cover is equipped with the hanger plate, lateral wall symmetry is fixed with the back shaft that provides rotation support for the hanger plate around the feed bin.

9. The anti-blocking vibration silo for concrete fine aggregate according to claim 1, wherein the anti-blocking vibration silo comprises: the feed bin is close to upper port department and has welded a plurality of reinforced pipes side by side, the length direction of reinforced pipe is parallel with the width direction of feed bin.

10. The anti-blocking vibration silo for concrete fine aggregate according to claim 1, wherein the anti-blocking vibration silo comprises: the side wall vibrator is an air hammer or an electromagnetic vibrator.

Technical Field

The invention relates to the technical field of vibration storage bins, in particular to an anti-blocking vibration storage bin for concrete fine aggregates.

Background

The concrete is artificial stone which is prepared by taking cement as a main cementing material, adding water, sand, stones and chemical additives and mineral admixtures if necessary, mixing the materials according to a proper proportion, uniformly stirring, densely molding, curing and hardening. Concrete is mainly divided into two stages and states: plastic state before setting and hardening, namely fresh concrete or concrete mixture; hardened, i.e. hardened concrete or concrete.

The concrete production in-process need use the feed bin to save materials such as sand, stone, for preventing to block up, the vibration feed bin has appeared. The traditional vibration storage bin has the defects in use, and is only suitable for the storage bin with a single discharge port and not suitable for the multi-discharge-port parallel discharge storage bin; secondly, an external vibration mechanism is only arranged on the storage bin, so that the vibration anti-blocking effect is not ideal. Therefore, there is a need for an improved and optimized vibrating bunker.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provide an anti-blocking vibration storage bin for concrete fine aggregate.

In order to achieve the technical purpose and achieve the technical effect, the invention is realized by the following technical scheme:

a concrete fine aggregate anti-blocking vibration storage bin comprises a storage bin body, wherein the storage bin body is a row-connected storage bin body, at least one V-shaped arch part is arranged in the storage bin body, the V-shaped arch part divides an inner cavity of the storage bin into a plurality of material storage areas, two outer side walls of the V-shaped arch part are respectively provided with a side wall vibrator, and two inner side walls of the V-shaped arch part are respectively provided with a vibration lifting assembly; carry the subassembly that shakes including carrying the board that shakes, rotating support piece, first vibrating arm and second vibrating arm, carry the shape of the board that shakes and the inside wall shape of place V-arrangement hunch portion and cooperate, the upper end of carrying the board that shakes is the hinged end, and the lower extreme is the free end, the feed bin is located V-arrangement hunch portion top department and is fixed with the rotating support piece through rotating the support for carrying the board hinged end that shakes, the free end outer wall of carrying the board that shakes is fixed with the first vibrating arm that is used for not hard up deposit district lateral wall material and is used for not hard up deposit district middle part material's second vibrating arm.

Furthermore, in the anti-blocking vibration storage bin for the concrete fine aggregate, a plurality of guide plates are fixed at the position, close to the discharge opening, of the bottom of the storage bin in parallel, the length direction of each guide plate is parallel to the length direction of the storage bin, and guide grooves matched with the guide plates are formed in the lower portion of the plate body of each vibration lifting plate.

Further, in the anti-blocking vibration storage bin for the concrete fine aggregate, the first vibration rod is an angular rod, and the second vibration rod is a straight rod; the first vibrating rods and the second vibrating rods are distributed in rows respectively, and the fixed positions of the rod bodies and the positions of the guide grooves are staggered mutually.

Further, among the stifled vibration feed bin is prevented to above-mentioned concrete fine aggregate, the feed bin is located every material stock district bottom feed opening department and installs the fender material cover, push rod assembly is installed separately to two lateral walls of V-arrangement hunch portion, push rod assembly can drive the fender material cover rotation that corresponds in order to open the feed opening that corresponds.

Further, among the stifled vibration feed bin is prevented to above-mentioned concrete fine aggregate, the push rod subassembly includes push rod, last articulated elements and lower articulated elements, the upper end of push rod is passed through the lateral wall of last articulated elements and V-arrangement hunch portion and is rotated and be connected, the lower extreme of push rod is passed through lower articulated elements and is rotated with the limit portion of keeping off the material cover and be connected.

Further, in the stifled vibration feed bin is prevented to above-mentioned concrete fine aggregate, go up articulated elements, lower articulated elements constitute by connecting block, protruding axle and ear seat respectively, the both ends of connecting block are equipped with the protruding axle, the ear seat seted up with protruding axle complex turn trough.

Furthermore, in the anti-blocking vibration storage bin for the concrete fine aggregate, the rotating support piece is a rotating sleeve, rotating rods are fixed on two sides of the top end of the vibration lifting plate, and the rotating sleeve is fixed at the top end of the V-shaped arch part.

Further, in the stifled vibration feed bin is prevented to above-mentioned concrete fine aggregate, the both ends symmetry of keeping off the material cover is equipped with the hanger plate, the lateral wall symmetry is fixed with the back shaft that provides rotation support for the hanger plate around the feed bin.

Further, in the stifled vibration feed bin is prevented to above-mentioned concrete fine aggregate, the feed bin is close to upper port department and has welded a plurality of reinforced pipes side by side, the length direction of reinforced pipe is parallel with the width direction of feed bin.

Further, in the anti-blocking vibration storage bin for the concrete fine aggregate, the side wall vibrator is an air hammer or an electromagnetic vibrator.

The invention has the beneficial effects that:

the vibration lifting assembly is arranged on the inner side wall of the V-shaped arch part, and the vibration lifting plate in the vibration lifting assembly can generate vibration with larger amplitude under the action of the side wall vibrator.

Of course, it is not necessary for any one product that embodies the invention to achieve all of the above advantages simultaneously.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of an angle configuration according to the present invention;

FIG. 2 is a schematic view of another embodiment of the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is a schematic top view of the present invention;

FIG. 5 is a schematic structural view of a portion of the present invention;

FIG. 6 is a schematic view of the vibration-elevating assembly according to the present invention;

in the drawings, the parts are numbered as follows:

1-a storage bin, 2-a V-shaped arch part, 3-a side wall vibrator, 4-a vibration lifting plate, 5-a rotating supporting piece, 6-a first vibrating rod, 7-a second vibrating rod, 8-a guide plate, 9-a guide groove, 10-a reinforcing pipe, 11-a push rod, 12-a material blocking cover, 13-an upper articulated piece and 14-a lower articulated piece.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1-6, the present embodiment is a vibration storage bin for preventing concrete fine aggregate from blocking, which includes a storage bin 1, the storage bin 1 is a row of storage bins, and a V-shaped arch 2 is disposed inside the storage bin. The V-shaped arch part 2 divides the inner cavity of the storage bin 1 into two material storage areas, two outer side walls of the V-shaped arch part 2 are respectively provided with a side wall vibrator 3, the side wall vibrator 3 is an air hammer, and two inner side walls of the V-shaped arch part 2 are respectively provided with a vibration lifting assembly.

In this embodiment, the vibration lifting assembly comprises a vibration lifting plate 4, a rotating support member 5, a first vibrating rod 6 and a second vibrating rod 7, wherein the shape of the vibration lifting plate 4 is matched with the shape of the inner side wall of the V-shaped arch part 4. The upper end of the vibration lifting plate 4 is a hinged end, and the lower end is a free end. The storage bin 1 is located 4 tops of V-arrangement hunch portion and is fixed with for carrying the board hinged end that shakes and pass through rotation support piece 5 that rotates the support, and the free end outer wall of carrying the board 4 that shakes is fixed with the second vibrating arm 7 that is used for not hard up the first vibrating arm 6 of material stock district lateral wall material and is used for not hard up material stock district middle part material. The first vibrating rod 6 is an angular rod, and the second vibrating rod 7 is a straight rod; the first vibratory rod 6 and the second vibratory rod 7 are respectively distributed in rows.

In this embodiment, a plurality of deflectors 8 are fixed in parallel near feed opening department in the bottom of feed bin 1, and the length direction of deflector 8 is parallel with the length direction of feed bin 1, and the plate body lower part of lifting and shaking board 4 is seted up with deflector complex guide way 9. The fixing positions of the first vibrating rod 6 and the second vibrating rod 7 and the position of the guide groove 9 are staggered. First vibrating arm 6 is connected with lifting vibrating plate 4 is perpendicular, and first vibrating arm 6 leans on outer kink under the natural state to offset with the material stock district lateral wall.

In this embodiment, feed bin 1 is located every stock area bottom feed opening department and installs and keeps off material cover 12, and push rod assembly is installed separately to two lateral walls of V-arrangement hunch portion 2, and push rod assembly can drive the rotatory feed opening in order to open the correspondence of the fender material cover 12 that corresponds. The push rod assembly comprises a push rod 11, an upper hinge 13 and a lower hinge 14, the upper end of the push rod 11 is rotatably connected with the outer side wall of the V-shaped arch part 2 through the upper hinge 13, and the lower end of the push rod 11 is rotatably connected with the edge part of the material blocking cover 12 through the lower hinge 14. The upper hinge part 13 and the lower hinge part 14 are respectively composed of a connecting block, a convex shaft and an ear seat, the convex shaft is arranged at two ends of the connecting block, and the ear seat is provided with a rotating groove matched with the convex shaft. The both ends symmetry of keeping off the material cover 12 is equipped with the hanger plate, and the lateral wall symmetry is fixed with the back shaft that provides rotation support for the hanger plate around the feed bin 1.

In this embodiment, the rotating support member 5 is a rotating sleeve, rotating rods are fixed on two sides of the top end of the vibration lifting plate 4, and the rotating sleeve is fixed on the top end of the V-shaped arch portion 2.

In this embodiment, feed bin 1 is close to upper port department and has welded a plurality of reinforced pipes 10 side by side, and the length direction of reinforced pipe 10 is parallel with the width direction of feed bin. The storage bin 1 and the vibration lifting assembly are both made of metal materials, and particularly can be made of stainless steel materials.

One specific application of this embodiment is: this embodiment structural design is reasonable, and it sets up on the basis of lateral wall vibrator 3 at the lateral wall of V-arrangement arch portion 2, still has increased in the inside wall of V-arrangement arch portion 2 and has carried the subassembly that shakes, carries the board 4 that shakes of shaking in carrying the subassembly and can produce vibration by a larger margin under lateral wall vibrator 3 effect, cooperates first vibrating arm 6 and second vibrating arm 7, can ensure that the material carries out the unloading smoothly, effectively prevents the appearance of the condition such as material jam.

Example two

Referring to fig. 1-6, the present embodiment is a vibration storage bin for preventing concrete fine aggregate from blocking, which includes a storage bin 1, the storage bin 1 is a row of storage bins, and a V-shaped arch 2 is disposed inside the storage bin. The V-shaped arch part 2 divides the inner cavity of the storage bin 1 into two material storage areas, two outer side walls of the V-shaped arch part 2 are respectively provided with a side wall vibrator 3, the side wall vibrator 3 is an electromagnetic vibrator, and two inner side walls of the V-shaped arch part 2 are respectively provided with a vibration lifting assembly.

In this embodiment, the vibration lifting assembly comprises a vibration lifting plate 4, a rotating support member 5, a first vibrating rod 6 and a second vibrating rod 7, wherein the shape of the vibration lifting plate 4 is matched with the shape of the inner side wall of the V-shaped arch part 4. The upper end of the vibration lifting plate 4 is a hinged end, and the lower end is a free end. The storage bin 1 is located 4 tops of V-arrangement hunch portion and is fixed with for carrying the board hinged end that shakes and pass through rotation support piece 5 that rotates the support, and the free end outer wall of carrying the board 4 that shakes is fixed with the second vibrating arm 7 that is used for not hard up the first vibrating arm 6 of material stock district lateral wall material and is used for not hard up material stock district middle part material. The first vibrating rod 6 is an angular rod, and the second vibrating rod 7 is a straight rod; the first vibratory rod 6 and the second vibratory rod 7 are respectively distributed in rows.

In this embodiment, a plurality of deflectors 8 are fixed in parallel near feed opening department in the bottom of feed bin 1, and the length direction of deflector 8 is parallel with the length direction of feed bin 1, and the plate body lower part of lifting and shaking board 4 is seted up with deflector complex guide way 9. The fixing positions of the first vibrating rod 6 and the second vibrating rod 7 and the position of the guide groove 9 are staggered. First vibrating arm 6 is connected with lifting vibrating plate 4 is perpendicular, and first vibrating arm 6 is close to outer kink and is 0.5cm with material storage district lateral wall interval under the natural state.

In this embodiment, feed bin 1 is located every stock area bottom feed opening department and installs and keeps off material cover 12, and push rod assembly is installed separately to two lateral walls of V-arrangement hunch portion 2, and push rod assembly can drive the rotatory feed opening in order to open the correspondence of the fender material cover 12 that corresponds. The push rod assembly comprises a push rod 11, an upper hinge 13 and a lower hinge 14, the upper end of the push rod 11 is rotatably connected with the outer side wall of the V-shaped arch part 2 through the upper hinge 13, and the lower end of the push rod 11 is rotatably connected with the edge part of the material blocking cover 12 through the lower hinge 14. The upper hinge part 13 and the lower hinge part 14 are respectively composed of a connecting block, a convex shaft and an ear seat, the convex shaft is arranged at two ends of the connecting block, and the ear seat is provided with a rotating groove matched with the convex shaft. The both ends symmetry of keeping off the material cover 12 is equipped with the hanger plate, and the lateral wall symmetry is fixed with the back shaft that provides rotation support for the hanger plate around the feed bin 1.

In this embodiment, the rotating support member 5 is a rotating sleeve, rotating rods are fixed on two sides of the top end of the vibration lifting plate 4, and the rotating sleeve is fixed on the top end of the V-shaped arch portion 2.

In this embodiment, feed bin 1 is close to upper port department and has welded a plurality of reinforced pipes 10 side by side, and the length direction of reinforced pipe 10 is parallel with the width direction of feed bin. The storage bin 1 and the vibration lifting assembly are both made of metal materials, and particularly can be made of aluminum alloy materials.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.