CN103359489B - The uninterrupted vacuum powder-supply system of twin-bucket and using method thereof - Google Patents
The uninterrupted vacuum powder-supply system of twin-bucket and using method thereof Download PDFInfo
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- CN103359489B CN103359489B CN201310238895.8A CN201310238895A CN103359489B CN 103359489 B CN103359489 B CN 103359489B CN 201310238895 A CN201310238895 A CN 201310238895A CN 103359489 B CN103359489 B CN 103359489B
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Abstract
The invention discloses the uninterrupted vacuum powder-supply system of a kind of twin-bucket, it is characterized in that, comprise the first powder storehouse, the second powder storehouse, the first powder container, the second powder container, four-way vacuum valve, vacuumize blower fan, wherein, first powder storehouse is connected with the first powder container by flexible pipe, second powder storehouse is connected with the second powder container by flexible pipe, four-way vacuum valve comprises two admission ports and an air extractor duct, described two admission ports are connected with the second powder container flexible pipe with the first powder container respectively, described air extractor duct by flexible pipe with vacuumize blower fan and be connected.Twin-bucket of the present invention uninterrupted vacuum powder-supply system and using method thereof can continual alternately carrying out vacuum to two powder containers takes out powder, makes vacuum blower always in running order, not freely waits for, substantially increases powder efficiency.
Description
Technical field
The invention belongs to powder packaging apparatus field, be specifically related to carry out vacuum powder-supply system and the using method thereof that twin-bucket supplies powder and uninterrupted duty simultaneously.
Background technology
In milk powder package production, to need a large amount of powders, from the powder container above powder storehouse is evacuated to powder stower, generally to adopt the way vacuumized powder container inside, make to form negative pressure in powder container, thus from powder storehouse inspiration powder.General only have when vacuumizing by single pass vacuum valve independent powder container to be vacuumized thus to enter powder, because powder container is limited, when in powder container, powder reaches higher limit, vacuum valve and vacuum blower will quit work thus stop upper powder, need wait until that the powder of storage is filled to after in iron flask by stower, more again vacuumize and carry out upper powder.Whole upper powder process has wait time, thus whole upper powder efficiency is not high, waste resource.
Summary of the invention
The object of this invention is to provide one and can carry out alternately uninterrupted upper powder to two powder containers, for powder efficiency greatly promote twin-bucket vacuum powder-supply system and using method.
For achieving the above object, present invention employs following technical scheme:
The uninterrupted vacuum powder-supply system of a kind of twin-bucket, it is characterized in that, comprise the first powder storehouse, the second powder storehouse, the first powder container, the second powder container, four-way vacuum valve, vacuumize blower fan, wherein, first powder storehouse is connected with the first powder container by flexible pipe, second powder storehouse is connected with the second powder container by flexible pipe, four-way vacuum valve comprises two admission ports and an air extractor duct, described two admission ports are connected with the second powder container flexible pipe with the first powder container respectively, described air extractor duct by flexible pipe with vacuumize blower fan and be connected.
Further, described four-way vacuum valve comprises a valve body, and described valve body has an internal cavities, and described internal cavities is provided with the first admission port, the second admission port, the 3rd admission port and air extractor duct; Also comprise through the first gas flow path the first admission port and air extractor duct with through the second gas flow path the second admission port and air extractor duct;
Have the first cylinder, it can adjust between the aperture position of the first admission port and off position;
Have the second cylinder, it can adjust between the aperture position of the second admission port and off position;
Have the 3rd cylinder, it can adjust between the aperture position of the 3rd admission port and off position.
Further, described internal cavities is rectangular configuration, and described first admission port and the second admission port divide the upper end being located at the rectangular configuration left and right sides, and the 3rd admission port is located at the upper end in the middle of rectangular configuration, and described air extractor duct is located at the lower end in the middle of rectangular configuration.
Further, described air extractor duct connection vacuumizes blower fan, and described first admission port and the second admission port are connected the first powder container and the second powder container respectively, and the 3rd admission port is communicated with air.
Further, described first cylinder is laterally arranged on the left side of internal cavities rectangular configuration, and the aperture position that described first cylinder moves right to the first admission port can block the first admission port; Described second cylinder is laterally arranged on the right side of valve body rectangular configuration, and the aperture position that described second cylinder moves to the second admission port left can block the second admission port; Described 3rd cylinder is vertically arranged on the aperture position of the 3rd admission port, and described 3rd cylinder moves downward can open the 3rd admission port.
The using method of the uninterrupted vacuum powder-supply system of twin-bucket as above, is characterized in that, comprise the steps:
(1) when first powder container need vacuumize carry out upper powder time, second cylinder of four-way vacuum valve advances and blocks the second admission port, 3rd cylinder is motionless blocks the 3rd admission port, the blower fan that vacuumizes that air extractor duct connects starts to vacuumize from the first gas flow path the first powder container, after forming negative pressure in first powder container, the powder stored in the first powder storehouse is inhaled in the first powder container;
(2) when second powder container need vacuumize carry out upper powder time, first cylinder of four-way vacuum valve advances and blocks the first admission port, 3rd cylinder is motionless blocks the 3rd admission port, the blower fan that vacuumizes that air extractor duct connects starts to vacuumize from the second gas flow path the second powder container, after forming negative pressure in second powder container, the powder stored in the second powder storehouse is inhaled in the second powder container;
(3) when the first powder container and the second powder container do not need to vacuumize upper powder, first cylinder of four-way vacuum valve and the second cylinder block the first admission port and the second admission port respectively simultaneously, 3rd cylinder declines and opens the 3rd admission port, internal cavities is communicated with air, vacuumizes blower fan and can take out air and work on; When the first powder container and the second powder container need to vacuumize, the 3rd cylinder rollback to initial position blocks the 3rd admission port makes internal cavities airtight, repeats step (1) or step (2).
Invention advantage:
Twin-bucket of the present invention uninterrupted vacuum powder-supply system and using method thereof can continual alternately carrying out vacuum to two powder containers takes out powder, make vacuum blower always in running order, not free wait, substantially increase powder efficiency, upper powder per hour can reach more than 5 tons, is original twice.
Accompanying drawing explanation
Fig. 1 is the structural representation of the uninterrupted vacuum powder-supply system of twin-bucket of the present invention and using method thereof.
Fig. 2 is the structural representation of four-way vacuum valve in system of the present invention.
Wherein, the 1, first admission port; 2, the second admission port; 3, the 3rd admission port; 4, the first cylinder; 5, the second cylinder; 6, the 3rd cylinder; 7, air extractor duct; 8, internal cavities; 81, the first gas flow path; 82, the second gas flow path; 9, four-way vacuum valve, 10, flexible pipe, the 11, first powder storehouse, the 12, second powder storehouse, the 13, first powder container, the 14, second powder container, 15, vacuumize blower fan.
Detailed description of the invention
Below in conjunction with accompanying drawing and a preferred embodiment, technical scheme of the present invention is further described.
Embodiment:
As shown in Figure 1:
The uninterrupted vacuum powder-supply system of a kind of twin-bucket, comprise the first powder storehouse 11, second powder storehouse 12, first powder container 13, second powder container 14, four-way vacuum valve 9, vacuumize blower fan 15, wherein, first powder storehouse 11 is connected with the first powder container 13 by flexible pipe 10, second powder storehouse 12 is connected with the second powder container 14 by flexible pipe 10, four-way vacuum valve 9 comprises two admission ports and an air extractor duct, described two admission ports are connected with the second powder container 14 flexible pipe 10 with the first powder container 13 respectively, described air extractor duct by flexible pipe 10 with vacuumize blower fan 15 and be connected.
Described four-way vacuum valve 9 comprises a valve body, and described valve body has an internal cavities 8, and described internal cavities 8 is provided with the first admission port 1, second admission port 2, the 3rd admission port 3 and air extractor duct 7; Also comprise through the first gas flow path 81 the first admission port 1 and air extractor duct 7 with through the second gas flow path 82 the second admission port 2 and air extractor duct 7;
Have the first cylinder 4, it can adjust between the aperture position of the first admission port 1 and off position;
Have the second cylinder 5, it can adjust between the aperture position of the second admission port 2 and off position;
Have the 3rd cylinder 6, it can adjust between the aperture position of the 3rd admission port 3 and off position.
Described internal cavities 8 is rectangular configuration, and described first admission port 1 and the second admission port 2 points are located at the upper end of the rectangular configuration left and right sides, and the 3rd admission port 3 is located at the upper end in the middle of rectangular configuration, and described air extractor duct 7 is located at the lower end in the middle of rectangular configuration.
Described air extractor duct 7 connection vacuumizes blower fan 15, and described first admission port 1 and the second admission port 2 are connected the first powder container 13 respectively and the second powder container the 14, three admission port 3 is communicated with air.
Described first cylinder 4 is laterally arranged on the left side of internal cavities rectangular configuration, and the aperture position that described first cylinder 4 moves right to the first admission port 1 can block the first admission port 1; Described second cylinder 5 is laterally arranged on the right side of valve body rectangular configuration, and the aperture position that described second cylinder 5 moves to the second admission port 2 left can block the second admission port 2; Described 3rd cylinder 6 is vertically arranged on the aperture position of the 3rd admission port 3, and described 3rd cylinder 6 moves downward can open the 3rd admission port 3.
The application process of the uninterrupted vacuum powder-supply system of twin-bucket as above and using method thereof, is characterized in that, comprise the steps:
(1) when the first powder container 13 connected when the first admission port 1 needs to vacuumize, second cylinder 5 advances and blocks the second admission port 2,3rd cylinder 6 is motionless blocks the 3rd admission port 3, and the vacuum blower that air extractor duct 7 connects starts to vacuumize from the first gas flow path 81 leakproof tank that the first admission port 1 connects; After forming negative pressure in first powder container 13, the powder stored in the first powder storehouse 11 is inhaled in the first powder container 13;
(2) when the second powder container 14 connected when the second admission port 2 needs to vacuumize, first cylinder 4 advances and blocks the first admission port 1,3rd cylinder 6 is motionless blocks the 3rd admission port 3, the blower fan 15 that vacuumizes that air extractor duct 7 connects starts to vacuumize from the second gas flow path 82 leakproof tank that the second admission port 2 connects, after forming negative pressure in second powder container 14, the powder stored in the second powder storehouse 12 is inhaled in the second powder container 14;
(3) when the first powder container 13 and the second powder container 14 do not need to vacuumize, first cylinder 4 and the second cylinder 5 block the first admission port 1 and the second admission port 2 respectively simultaneously, 3rd cylinder 6 declines and opens the 3rd admission port 3, internal cavities 8 is communicated with air, vacuumizes blower fan 15 and can take out air and work on; When the first powder container 13 and the second powder container 14 need to vacuumize, the 3rd cylinder 6 rollback to initial position blocks the 3rd admission port 3 makes internal cavities 8 airtight, repeats step (1) or step (2).Thus uninterruptedly can replace and carry out vacuumizing for powder to the first powder container 13 and the second powder container 14.
It is to be noted; as described above is only the preferred embodiment explaining the present invention; not attempt does any restriction in form to the present invention according to this; be with; all any modification or changes having the relevant the present invention that does under identical invention spirit, all must be included in the category that the invention is intended to protection.
Claims (5)
1. the uninterrupted vacuum powder-supply system of twin-bucket, it is characterized in that, comprise the first powder storehouse, the second powder storehouse, the first powder container, the second powder container, four-way vacuum valve, vacuumize blower fan, wherein, first powder storehouse is connected with the first powder container by flexible pipe, second powder storehouse is connected with the second powder container by flexible pipe, four-way vacuum valve comprises two admission ports and an air extractor duct, described two admission ports are connected with the second powder container flexible pipe with the first powder container respectively, described air extractor duct by flexible pipe with vacuumize blower fan and be connected;
Described four-way vacuum valve comprises a valve body, and described valve body has an internal cavities, and described internal cavities is provided with the first admission port, the second admission port, the 3rd admission port and air extractor duct; Also comprise through the first gas flow path the first admission port and air extractor duct with through the second gas flow path the second admission port and air extractor duct;
Have the first cylinder, it can adjust between the aperture position of the first admission port and off position;
Have the second cylinder, it can adjust between the aperture position of the second admission port and off position;
Have the 3rd cylinder, it can adjust between the aperture position of the 3rd admission port and off position.
2. the uninterrupted vacuum powder-supply system of twin-bucket according to claim 1, it is characterized in that, described internal cavities is rectangular configuration, described first admission port and the second admission port divide the upper end being located at the rectangular configuration left and right sides, 3rd admission port is located at the upper end in the middle of rectangular configuration, and described air extractor duct is located at the lower end in the middle of rectangular configuration.
3. the uninterrupted vacuum powder-supply system of twin-bucket according to claim 2, it is characterized in that, described air extractor duct connection vacuumizes blower fan, and described first admission port and the second admission port are connected the first powder container and the second powder container respectively, and the 3rd admission port is communicated with air.
4. the uninterrupted vacuum powder-supply system of twin-bucket according to claim 3, it is characterized in that, described first cylinder is laterally arranged on the left side of internal cavities rectangular configuration, and the aperture position that described first cylinder moves right to the first admission port can block the first admission port; Described second cylinder is laterally arranged on the right side of valve body rectangular configuration, and the aperture position that described second cylinder moves to the second admission port left can block the second admission port; Described 3rd cylinder is vertically arranged on the aperture position of the 3rd admission port, and described 3rd cylinder moves downward can open the 3rd admission port.
5. the using method of the uninterrupted vacuum powder-supply system of the twin-bucket as described in any one of Claims 1 to 4, is characterized in that, comprise the steps:
(1) when first powder container need vacuumize carry out upper powder time, second cylinder of four-way vacuum valve advances and blocks the second admission port, 3rd cylinder is motionless blocks the 3rd admission port, the blower fan that vacuumizes that air extractor duct connects starts to vacuumize from the first gas flow path the first powder container, after forming negative pressure in first powder container, the powder stored in the first powder storehouse is inhaled in the first powder container;
(2) when second powder container need vacuumize carry out upper powder time, first cylinder of four-way vacuum valve advances and blocks the first admission port, 3rd cylinder is motionless blocks the 3rd admission port, the blower fan that vacuumizes that air extractor duct connects starts to vacuumize from the second gas flow path the second powder container, after forming negative pressure in second powder container, the powder stored in the second powder storehouse is inhaled in the second powder container;
(3) when the first powder container and the second powder container do not need to vacuumize upper powder, first cylinder of four-way vacuum valve and the second cylinder block the first admission port and the second admission port respectively simultaneously, 3rd cylinder declines and opens the 3rd admission port, internal cavities is communicated with air, vacuumizes blower fan and can take out air and work on; When the first powder container and the second powder container need to vacuumize, the 3rd cylinder rollback to initial position blocks the 3rd admission port makes internal cavities airtight, repeats step (1) or step (2).
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CN106743679B (en) * | 2016-12-07 | 2023-10-31 | 四川亿欣新材料有限公司 | Powder material conveying system |
CN106956930A (en) * | 2017-04-28 | 2017-07-18 | 湖南三德科技股份有限公司 | Power cabinet for sample pneumatic conveyer system |
CN107697655A (en) * | 2017-11-09 | 2018-02-16 | 安庆巨元高分子材料科技有限公司 | A kind of solid polyamide resin conveying device |
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