CN108529237A - Convenient for the building powder storing mechanism of accumulation - Google Patents

Abstract

The present invention provides a kind of building powder storing mechanisms convenient for accumulation, belong to Architectural Equipment manufacturing technology field.It solves the problems such as prior art design is unreasonable.This includes feed pipe and material storage tube convenient for the building powder storing mechanism of accumulation, and one end of feed pipe is connected to the top of material storage tube, and feed pipe is equipped at least one feed pump, it is characterised in that：It is equipped with wind guiding component, choke component and absorbent assembly etc. in material storage tube successively from top to bottom.This is convenient for the advantages of building powder storing mechanism of accumulation to be：Convenient for the gas rapid rundown in material storage tube, the setting of choke component substantially reduces the speed that gas in material storage tube flows downward for the setting of wind guiding component, and the accumulation of powder, the setting of absorbent assembly is convenient for be convenient for the powder of sedimentation being accumulated to material storage tube lower part.

Description

Convenient for the building powder storing mechanism of accumulation

Technical field

The invention belongs to Architectural Equipment manufacturing technology fields, are stored more particularly, to a kind of building powder convenient for accumulation Mechanism.

Background technology

Building powder will be stored in material storage tube, it is necessary to be stamped with air pump, the storage of existing storage building powder Barrel, during powder carry, the powder being transported in material storage tube inside can be stirred constantly, be rolled, and be unfavorable for powder and existed Accumulation in material storage tube, the conveying equipment to also be unfavorable for building powder smoothly convey the powder in material storage tube.

Invention content

Regarding the issue above, the present invention provides a kind of reasonable design, solves into the powder in material storage tube The building powder storing mechanism convenient for accumulation for the problem of cannot accumulating well.

In order to achieve the above objectives, present invention employs following technical proposals：The building powder convenient for accumulation of the present invention is used Storing mechanism, including feed pipe and material storage tube, one end of feed pipe are connected to the top of material storage tube, and feed pipe is equipped at least one A feed pump, it is characterised in that：It is equipped with wind guiding component, choke component and absorbent assembly in material storage tube successively from top to bottom.Wind-guiding Convenient for the gas rapid rundown in material storage tube, the setting of choke component substantially reduces gas in material storage tube for the setting of component The speed to flow downward is convenient for the accumulation of powder, the setting of absorbent assembly to be convenient for being accumulated to the powder of sedimentation under material storage tube Portion.

Preferably, wind guiding component include set on the several in the wind-guiding shaft being arranged vertically downwards of material storage tube inside top, One end per wind-guiding shaft is stretched out at the top of material storage tube to be connect with wind guide motor, is equipped with successively from top to bottom in every wind-guiding shaft several The wind-guiding rotation ribbon being set in distance；Choke component includes the erecting bed being tightly connected with material storage tube inner circumferential, erecting bed At least one installation through-hole is offered, there are one choke screens per setting in installation through-hole；Absorbent assembly includes the suction in flared Material cover, suction cover are tightly connected with respect to the end side of big end with material storage tube, port of the suction cover with respect to big end and erecting bed phase It is adjacent.Wind-guiding shaft is driven by wind guide motor to drive wind-guiding rotation ribbon to be thereon rotated, in wind-guiding The suction inlet of a relatively low pressure has been formd at shaft, has been flowed into from the suction inlet convenient for gas, has been stored up to reach gas being oriented to The function of opposing lower portions in barrel, not only the downward flow velocity of gas has been delayed in resistance for the setting of choke screen, while making to sink in gas The powder to lower by sieve pore in choke screen enter lower section absorbent assembly in, it is simple in structure, convenient for manufacture, flared The powder that the setting of suction cover is convenient for receiving flowing into the choke screen sieve pore on erecting bed from the upper side.

Preferably, the length for several wind-guidings rotation ribbon being arranged in every wind-guiding shaft is different and along wind-guiding shaft Vertically downward direction is successively decreased distribution in length.It flows downward convenient for preferably controlling gas.

Preferably, several wind-guidings rotation ribbon being arranged in every wind-guiding shaft is in evenly spaced spiral shape along wind-guiding shaft Setting.It is hollow structure so that wind-guiding shaft is formed the inside of a back taper when driving wind-guiding rotation ribbon rotation, into one Step is conducive to being directed downwardly into for gas.

Preferably, the center line of choke screen is equipped with the choke shaft that installation through-hole adjacent thereto is rotatablely connected；Peace It fills platform and is equipped with 4 choke screens, all choke screens are uniformly arranged on the outside of the central part of erecting bed, all resistances in interval Wind screen shape, size are identical；The quantity of the wind-guiding shaft is 4 and is suspended at 4 choke screens one by one respectively just Top.Be conducive to more powders while enhancing wind-guiding, choke effect and it is settled down to by the sieve pore in multiple choke screens In the absorbent assembly of lower section.

Preferably, erecting bed is back taper and inside is hollow-core construction, and choke shaft is tilted down setting.Utilize height Difference facilitates the rotation of choke screen.

Preferably, choke screen is made of burlap, and choke screen includes at least one layer of burlap, the sieve pore of burlap be 40 mesh extremely 55 mesh.Be conducive to the collection of powder.

Preferably, it is the cross-sectional area of the port of small end relatively with respect to the cross-sectional area of the port of big end on suction cover 2.2 times to 3.5 times.Convenient for powder preferably to be sucked to the lower part of material storage tube.

Preferably, suction cover is equipped with the rewinding set made of burlap communicated therewith with respect to small end, and rewinding covers opposing lower end Port be less than opposite upper port.The powder that the setting that rewinding made of burlap covers greatly reduces material storage tube lower part is reversed Flow into material storage tube top.

Preferably, it is designed with vibrator on choke component and absorbent assembly.Convenient for being deposited in choke component and absorbent assembly Powder can smoothly flow into the lower part of material storage tube.

Compared with prior art, this is convenient for the advantages of building powder storing mechanism of accumulation to be：Wind guiding component is set It sets convenient for the gas rapid rundown in material storage tube, the setting of choke component substantially reduces gas in material storage tube and flows downward Speed, be convenient for the sedimentation of powder, the setting of absorbent assembly is convenient for by the powder of sedimentation converging to material storage tube lower part.

Description of the drawings

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with Obtain other attached drawings according to these attached drawings.

Fig. 1 provides the structural schematic diagram in the embodiment of the present invention.

Fig. 2 provides the vertical view signal of erecting bed, installation through-hole, choke screen and choke shaft in the embodiment of the present invention Figure.

In figure, feed pipe 1, material storage tube 2, feed pump 3, erecting bed 501, installation through-hole 502, choke screen 503, choke turn Axis 504, suction cover 505, rewinding set 506, vibrator 507, wind-guiding shaft 601, wind guide motor 602, wind-guiding rotate ribbon 603.

Specific implementation mode

The present invention is described in further detail below in conjunction with the accompanying drawings and by embodiment, and following embodiment is to this hair Bright explanation and the invention is not limited in following embodiments.

As shown in Fig. 1 to 2, this is convenient for the building powder storing mechanism of accumulation, including feed pipe 1 and material storage tube 2, charging One end of pipe 1 is connected to the top of material storage tube 2, and feed pipe 1 is equipped at least one feed pump 3, it is characterised in that：Material storage tube 2 Inside it is equipped with wind guiding component, choke component and absorbent assembly successively from top to bottom, the setting of wind guiding component is convenient for the gas in material storage tube 2 The setting of body rapid rundown, choke component substantially reduces the speed that gas flows downward in material storage tube 2, convenient for powder Accumulation, the setting of absorbent assembly are convenient for the powder of sedimentation being accumulated to 2 lower part of material storage tube.

Specifically, wind guiding component here includes being led in what is be arranged vertically downwards set on the several of 2 inside top of material storage tube Wind shaft 601, one end per wind-guiding shaft 601 is stretched out 2 top of material storage tube and is connect with wind guide motor 602, per in wind-guiding shaft 601 It is equipped with several wind-guiding rotation ribbons 603 being set in distance successively from top to bottom, choke component includes and 2 inner circumferential of material storage tube The erecting bed 501 of sealed connection, erecting bed 501 offer at least one installation through-hole 502, interior per installation through-hole 502 to be equipped with one A choke screen 503, absorbent assembly include the suction cover 505 in flared, end side of the suction cover 505 with respect to big end and storage Barrel 2 is tightly connected, and suction cover 505 is adjacent with erecting bed 501 with respect to the port of big end, and wind-guiding is driven by wind guide motor 602 Shaft 601 is to drive wind-guiding rotation ribbon 603 to be thereon rotated, to be formd at wind-guiding shaft 601 The suction inlet of one relatively low pressure flows into convenient for gas from the suction inlet, to reach by gas be oriented in material storage tube 2 relatively under The function in portion, not only the downward flow velocity of gas has been delayed in resistance for the setting of choke screen 503, while making the powder to settle down in gas By sieve pore in choke screen 503 enter lower section absorbent assembly in, it is simple in structure, convenient for manufacture, the suction cover of flared It is arranged convenient for receiving the powder to be flowed into the choke screen sieve pore on erecting bed from the upper side；Here every wind-guiding shaft The length for several wind-guidings rotation ribbon 603 being arranged on 601 is different and is in length along 601 vertically downward direction of wind-guiding shaft Distribution of successively decreasing is spent, is flowed downward convenient for preferably controlling gas；Here several wind-guidings rotation being arranged in every wind-guiding shaft 601 Ribbon 603 is arranged along wind-guiding shaft 601 in evenly spaced spiral shape, makes wind-guiding shaft 601 that wind-guiding driven to rotate ribbon 603 The inside that a back taper is formed when rotation is hollow structure, is further conducive to being directed downwardly into for gas；Here choke The center line of screen 503 is equipped with the choke shaft 504 that installation through-hole 502 adjacent thereto is rotatablely connected, and is set on erecting bed 501 There are 4 choke screens 503, all choke screens 503 to be uniformly arranged on the outside of the central part of erecting bed 501 in interval, owns 503 shape of choke screen, size are identical, and the quantity of the wind-guiding shaft 601 is 4 and is suspended at 4 chokes one by one respectively The surface of screen 503 is conducive to more powders and passes through in multiple choke screens 503 while enhancing wind-guiding, choke effect Sieve pore be settled down in absorbent assembly below；Here erecting bed 501 is back taper and inside is hollow-core construction, and choke turns The setting that is tilted down of axis 504 facilitates the rotation of choke screen 503 using difference in height；Here choke screen 503 is by fiber crops Cloth is made, and choke screen 503 includes at least one layer of burlap, and the sieve pore of burlap is 40 mesh to 55 mesh, is conducive to the collection of powder.

Further, it is the port of opposite small end with respect to the cross-sectional area of the port of big end on suction cover 505 here 2.2 times to 3.5 times of cross-sectional area, convenient for powder preferably to be sucked to the lower part of material storage tube 2；Here suction cover 505 Opposite small end is equipped with the set of the rewinding made of burlap 506 communicated therewith, and the port that rewinding covers 506 opposing lower ends is less than on relatively The port at end, the powder that the setting of rewinding set made of burlap greatly reduces 2 lower part of material storage tube reversely flow on material storage tube 2 Portion；Here it is designed with vibrator 507 on choke component and absorbent assembly, convenient for being deposited in the powder of choke component and absorbent assembly Material can smoothly flow into the lower part of material storage tube, and preferred vibrator 507 is arranged on suction cover 505 and choke screen 503.

Specific embodiment described herein is only an example for the spirit of the invention.Technology belonging to the present invention is led The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Although feed pipe 1, material storage tube 2, feed pump 3, erecting bed 501, installation through-hole 502, resistance is used more herein Wind screen 503, choke shaft 504, suction cover 505, rewinding set 506, vibrator 507, wind-guiding shaft 601, wind guide motor 602, Wind-guiding rotates the terms such as ribbon 603, but it does not preclude the possibility of using other terms.The use of these items is only for more Easily describe and explain the essence of the present invention；Being construed as any one of the additional limitations all is and spirit of that invention phase It violates.

Claims (10)

1. a kind of building powder storing mechanism convenient for accumulation, including feed pipe（1）And material storage tube（2）, the feed pipe （1）One end and material storage tube（2）Top connection, the feed pipe（1）It is equipped at least one feed pump（3）, feature It is：The material storage tube（2）Inside it is equipped with wind guiding component, choke component and absorbent assembly successively from top to bottom.

2. the building powder storing mechanism according to claim 1 convenient for accumulation, which is characterized in that the wind-guiding group Part includes being set to material storage tube（2）Inside top it is several in the wind-guiding shaft being arranged vertically downwards（601）, turn per the wind-guiding Axis（601）One end stretch out material storage tube（2）Top and wind guide motor（602）Connection, per the wind-guiding shaft（601）On from upper It is equipped with several wind-guiding rotation ribbons being set in distance successively under（603）；Choke component includes and material storage tube（2）Inner circumferential The erecting bed of sealed connection（501）, the erecting bed（501）Offer at least one installation through-hole（502）, per the peace Fill through-hole（502）Choke screen there are one inside setting（503）；Absorbent assembly includes the suction cover in flared（505）, the suction Material cover（505）The end side of opposite big end and material storage tube（2）It is tightly connected, the suction cover（505）The end of opposite big end Mouth and erecting bed（501）It is adjacent.

3. the building powder storing mechanism according to claim 2 convenient for accumulation, which is characterized in that per the wind-guiding Shaft（601）Several wind-guidings of upper setting rotate ribbon（603）Length it is different and along wind-guiding shaft（601）Vertically to Successively decrease distribution in length in lower direction.

4. the building powder storing mechanism according to claim 3 convenient for accumulation, which is characterized in that per the wind-guiding Shaft（601）Several wind-guidings of upper setting rotate ribbon（603）Along wind-guiding shaft（601）It is arranged in evenly spaced spiral shape.

5. the building powder storing mechanism according to claim 2 convenient for accumulation, which is characterized in that the choke filter Sieve（503）Center line be equipped with installation through-hole adjacent thereto（502）The choke shaft of rotation connection（504）；The peace Fill platform（501）It is equipped with 4 choke screens（503）, all choke screens（503）It is uniformly arranged on erecting bed in interval （501）Central part outside, all choke screens（503）Shape, size are identical；The wind-guiding shaft（601） Quantity be 4 and to be suspended at 4 choke screens one by one respectively（503）Surface.

6. the building powder storing mechanism according to claim 5 convenient for accumulation, which is characterized in that the erecting bed （501）It is hollow-core construction for back taper and inside, the choke shaft（504）Be tilted down setting.

7. the building powder storing mechanism according to claim 2 convenient for accumulation, which is characterized in that the choke filter Sieve（503）It is made of burlap, the choke screen（503）Including at least one layer of burlap, the sieve pore of the burlap be 40 mesh extremely 55 mesh.

8. according to any building powder storing mechanism convenient for accumulation of claim 2 to 7, which is characterized in that described Suction cover（505）The cross-sectional area of the port of upper opposite big end is 2.2 times of the cross-sectional area of the port of opposite small end To 3.5 times.

9. the building powder storing mechanism according to claim 8 convenient for accumulation, which is characterized in that the suction cover （505）Opposite small end is equipped with the rewinding set made of burlap communicated therewith（506）, the rewinding set（506）Opposing lower end Port be less than opposite upper port.

10. the building powder storing mechanism according to claim 8 convenient for accumulation, which is characterized in that the choke group It is designed with vibrator on part and absorbent assembly（507）.