A kind of storehouse series connection of pumps induction system for powder conveying
Technical field
This utility model is related to a kind of storehouse series connection of pumps induction system, more particularly to a kind of storehouse pump string for powder conveying
Connection induction system, belongs to powder conveying technical field.
Background technology
Powder conveying technology is a kind of powder conveying technology being proposed with respect to low concentration diluted phase transport technology, many institute's weeks
Know, powder conveying technology typically has that energy consumption is low, conveying capacity big, conveying scope is wide, pipeline and material abrasion are little, save carrier gas
The feature consume with pneumatic power source, saving pipeline material consumption, meanwhile, also helps the generation reducing pipeline electrostatic,
Improve and convey inflammable, explosive material safety, to the occasion having heat demand, the few feature of load volume means the heat being pulled away
Amount reduces, and is conducive to keeping temperature, reduces fuel consumption.However, the storehouse pump delivery system for powder conveying of the prior art
System also has various disadvantages, and this system structure is complicated, and system is huge, and operate have high demands loaded down with trivial details be difficult to grasp, run continuous
Property, stability poor, low production efficiency, high cost, and then affect the energy consumption of storehouse pump induction system, conveying capacity, conveying scope, pipe
Road and material abrasion etc..
Utility model content
Main purpose of the present utility model is that the structure of the storehouse pump induction system presence in order to solve current powder conveying is multiple
Miscellaneous, system is huge, complex operation, has high demands and is difficult to grasp, and runs that seriality, stability are poor, and low production efficiency, cost height etc. are asked
Topic, provides a kind of storehouse series connection of pumps induction system for powder conveying.
The purpose of this utility model can be reached by adopting the following technical scheme that:
A kind of storehouse series connection of pumps induction system for powder conveying, including the first feed bin, two the second feed bins being arranged in series
The 3rd feed bin being arranged in parallel with two, the two described second feed bin side of the going to upper and lower settings being arranged in series, and set between upper and lower
There is an automatic blow off valve, above two described second feed bins being arranged in series, be equipped with pressure of silo detector, described first feed bin
Outfan be connected with the input of described second feed bin above by relief valve, described second feed bin above
On be additionally provided with storehouse external pressure tension gauge, the upper end of two described second feed bins being arranged in series also passes through two other relief valve respectively
It is connected with described first feed bin with a filter, the outfan of underlying described second feed bin passes through a ball valve and multiple mistake
Described 3rd feed bin that filter is arranged in parallel with two respectively is connected, the lower end of underlying described second feed bin successively with filtration
Device, tee ball valve, relief valve, direct current pneumatic ball valve, stop valve connect, and described direct current pneumatic ball valve is tight with same connecting pipe
Pipeline between the relief valve of adjacent described direct current pneumatic ball valve passes through a deafener and another relief valve and positioned at described ball valve, institute
The pipeline stated between filter connects, and described tee ball valve is by the output of another pipeline and underlying described second feed bin
End connects, and pipeline between described stop valve and described direct current pneumatic ball valve passes through another relief valve respectively and is arranged in series with two
The upper end of described second feed bin connects.
Further, connect two described second feed bins being arranged in series to be arranged on the described filter of described first feed bin
Near one end of described first feed bin, described relief valve is positioned close to one end of described second feed bin.
Further, described first feed bin is provided with the first high charge level meter and the first low level-sensing device, described first high charge level
Meter is arranged on the top of the described first low level-sensing device.
Further, two described second feed bins being arranged in series are equipped with the second high charge level meter and the second low level-sensing device,
Described second high charge level meter is arranged on the top of the described second low level-sensing device.
Further, two described 3rd feed bins being arranged in parallel are equipped with three-hypers level-sensing device and the 3rd low level-sensing device,
Described three-hypers level-sensing device is arranged on the top of described 3rd low level-sensing device.
Further, between the described filter being connected with described second feed bin being arranged below and described tee ball valve
It is provided with a deafener.
Further, the multiple described filter being connected with described ball valve is sequentially connected, away from described ball after being sequentially connected
It is connected by flow meters between described 3rd feed bin that the described filter of valve is arranged in parallel with two.
Further, the pipeline between the outfan of described tee ball valve and underlying described second feed bin is provided with
One pressure detecting instrument.
Further, two described 3rd feed bins being arranged in parallel further respectively have a display instrument, a pneumatic operated valve and one section
Only valve.
Advantageous Effects of the present utility model:Storehouse series connection of pumps induction system for powder conveying of the present utility model,
Solve the complex structure that current storehouse pump induction system exists, system is huge, complex operation, have high demands and be difficult to grasp, the company of operation
Continuous property, stability are poor, the problems such as low production efficiency, high cost, reduce the energy consumption of storehouse pump induction system, improve conveying energy
Power, expands conveying scope, reduces pipeline and material abrasion.
Brief description
Fig. 1 is used for the storehouse series connection of pumps induction system schematic diagram of powder conveying for this utility model.
In figure:1- first feed bin, 2- the first high charge level meter, the low level-sensing device of 3- first, 4- relief valve, 5- second feed bin, 6-
Pressure of silo detector, 7- storehouse external pressure tension gauge, the low level-sensing device of 8- second, 9- the second high charge level meter, 10- filter, 11- cuts
Only valve, 12- direct current pneumatic ball valve, 13- tee ball valve, 14- pressure detecting instrument, 15- ball valve, 16- effusion meter, 17- the 3rd feed bin,
18- three-hypers level-sensing device, the low level-sensing device of 19- the 3rd.
Specific embodiment
For making those skilled in the art more clear and clear and definite the technical solution of the utility model, with reference to embodiment and
Accompanying drawing is described in further detail to this utility model, but embodiment not limited to this of the present utility model.
As shown in figure 1, a kind of storehouse series connection of pumps induction system for powder conveying, it is arranged in series including the first feed bin 1, two
The second feed bin 5 and two the 3rd feed bins 17 being arranged in parallel, two described second feed bin, 5 sides of the going to upper and lower settings being arranged in series, and
It is provided with an automatic blow off valve between upper and lower, above two described second feed bins 5 being arranged in series, be equipped with pressure of silo detector
6, the outfan of described first feed bin 1 is connected with the input of described second feed bin 5 above by relief valve 4, is located at
It is additionally provided with storehouse external pressure tension gauge 7, the upper end of two described second feed bins 5 being arranged in series is also on described second feed bin 5 of top
Pass through two other relief valve 4 respectively and a filter 10 is connected with described first feed bin 1, underlying described second feed bin
5 outfan is connected by described 3rd feed bin 17 that a ball valve 15 and multiple filter 10 are arranged in parallel with two respectively, is located at
Lower section described second feed bin 5 lower end successively with filter 10, tee ball valve 13, relief valve 4, direct current pneumatic ball valve 12, cut
Only valve 11 connects, and is close to the relief valve 4 of described direct current pneumatic ball valve 12 in described direct current pneumatic ball valve 12 and same connecting pipe
Between pipeline pass through a deafener and another relief valve 4 and the pipeline that is located between described ball valve 15, described filter 10 even
Connect, described tee ball valve 13 is connected with the outfan of underlying described second feed bin 5 by another pipeline, described stop valve
Described second feed bin that pipeline between 11 and described direct current pneumatic ball valve 12 is arranged in series with two by another relief valve 4 respectively
5 upper end connects.
Further, as shown in figure 1, connecting the described of two described second feed bins 5 that are arranged in series and described first feed bin 1
Filter 10 is positioned close to one end of described first feed bin 1, and described relief valve 4 is positioned close to the one of described second feed bin 5
End, described first feed bin 1 is provided with the first high charge level meter 2 and the first low level-sensing device 3, and described first high charge level meter 2 is arranged on institute
State the top of the first low level-sensing device 3, two described second feed bins 5 being arranged in series are equipped with the second high charge level meter 9 and second low
Level-sensing device 8, described second high charge level meter 9 is arranged on the top of the described second low level-sensing device 8.
Further, as shown in figure 1, being equipped with three-hypers level-sensing device 18 He on two described 3rd feed bins 17 being arranged in parallel
3rd low level-sensing device 19, described three-hypers level-sensing device 18 is arranged on the top of the described 3rd low level-sensing device 19, and is arranged below
The described filter 10 that connects of described second feed bin 5 and described tee ball valve 13 between be provided with a deafener, with described ball valve
The multiple described filters 10 of 15 connections are sequentially connected, after being sequentially connected away from described ball valve 15 described filter 10 and two simultaneously
Connect by flow meters 16 between described 3rd feed bin 17 of connection setting, described tee ball valve 13 and underlying described the
Pipeline between the outfan of two feed bins 5 is provided with a pressure detecting instrument 14, on two described 3rd feed bins 17 being arranged in parallel also
It is respectively equipped with a display instrument, a pneumatic operated valve and a stop valve.
In sum, the storehouse series connection of pumps induction system for powder conveying that the present embodiment provides, solves current storehouse pump
The complex structure that induction system exists, system is huge, complex operation, has high demands and is difficult to grasp, and it is poor to run seriality, stability,
The problems such as low production efficiency, high cost, reduce the energy consumption of storehouse pump induction system, improve conveying capacity, expand conveying model
Enclose, reduce pipeline and material abrasion.
The above, only this utility model further embodiment, but protection domain of the present utility model does not limit to
In this, any those familiar with the art in scope disclosed in the utility model, according to of the present utility model
Technical scheme and its design in addition equivalent or change, broadly fall into protection domain of the present utility model.