CN205932469U - A storehouse parallel connection of pumps conveying system for powder transport - Google Patents

Abstract

The utility model discloses a storehouse parallel connection of pumps conveying system for powder transport belongs to powder transport technical field, including first feed bin, two parallelly connected second feed bins that set up and the two parallelly connected third feed bins that set up, first feed bin passes through the ball valve and is connected with the second feed bin respectively, two second feed bins pass through the flowmeter and are connected with two third feed bins, two second feed bins still are connected with first feed bin through relief valve and filter respectively, two second feed bins all with safe stop valve, secondary filter and direct current pneumatic ball valve connect, one of them direct current pneumatic ball valve is connected with the stop valve, direct current pneumatic ball valve's front end is connected with the second feed bin through safe stop valve, the muffler is passed through to direct current pneumatic ball valve's rear end and safety relief valve is connected with the reverse filtering ware, two second feed bins are connected with a plurality of reverse filtering wares through the ball valve respectively. The utility model discloses the operation is stable in succession, has reduced the energy consumption, has improved the transmitting capacity, has enlarged defeated material scope, has reduced the wearing and tearing of pipeline and material.

Description

A kind of storehouse parallel connection of pumps induction system for powder conveying

Technical field

This utility model is related to a kind of storehouse parallel connection of pumps induction system, and more particularly to a kind of storehouse pump for powder conveying is simultaneously 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 parallel 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 parallel connection of pumps induction system for powder conveying, including the first feed bin, two the second feed bins being arranged in parallel The 3rd feed bin being arranged in parallel with two, the outfan of described first feed bin be arranged in parallel with two respectively by a ball valve described The input of two feed bins connects, and the outfan of two described second feed bins being arranged in parallel passes through flow meters and is arranged in parallel with two The input of described 3rd feed bin connects, and two described second feed bins being arranged in parallel also pass through two relief valve and a filter respectively Be connected with described first feed bin, two described second feed bins being arranged in parallel all with safety shutoff valve, aflter-fillter and direct current gas Dynamic ball valve connects, and described safety shutoff valve is arranged between described aflter-fillter and described direct current pneumatic ball valve, with wherein one The described direct current pneumatic ball valve that individual described second feed bin connects also is connected with a stop valve, and the front end of described direct current pneumatic ball valve leads to Cross a safety shutoff valve to be connected with described second feed bin, the rear end of described direct current pneumatic ball valve passes through a deafener and a safety is let out Pressure valve is connected with reverse filtration device, and the outfan of two described second feed bins being arranged in parallel passes through ball valve and multiple reverse mistakes respectively Filter connect, be sequentially connected between multiple described reverse filtration devices, and the described reverse filtration device of least significant end pass through effusion meter with The input of two described 3rd feed bins being arranged in parallel connects.

Further, described filter is arranged on described first feed bin and described in two between relief valve.

Further, described first feed bin is provided with high charge level meter and low level-sensing device, and described high charge level meter is arranged on described The top of low level-sensing device, the input of described second feed bin that described first feed bin is arranged in parallel with two by Safety control valve respectively End connects.

Further, two described second feed bins being arranged in parallel are equipped with high charge level meter and low level-sensing device, described high material Position meter is arranged on the top of described low level-sensing device, and two described second feed bins being arranged in parallel also are equipped with pressure of silo detection Instrument.

Further, two described 3rd feed bins being arranged in parallel also are equipped with high charge level meter and low level-sensing device, described height Level-sensing device is arranged on the top of described low level-sensing device.

Further, it is additionally provided with a deafener and a three-way ball between described safety shutoff valve and described aflter-fillter Valve, described tee ball valve is individually connected with described ball valve by a pressure detecting instrument, and described pressure detecting instrument is provided with display instrument Table.

Advantageous Effects of the present utility model：Storehouse parallel 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 parallel connection of pumps induction system schematic diagram of powder conveying for this utility model.

In figure：1- first feed bin, 2- high charge level meter, the low level-sensing device of 3-, 4- filter, 5- relief valve, 6- Safety control valve, 7- pressure of silo detector, 8- second feed bin, 9- safety shutoff valve, 10- high charge level meter, the low level-sensing device of 11-, 12- ends safely Valve, 13- aflter-fillter, 14- direct current pneumatic ball valve, 15- stop valve, 16- display instrument, 17- pressure detecting instrument, 18- ball valve, 19- safety relief valve, 20- reverse filtration device, 21- effusion meter, 22- the 3rd feed bin, 23- high charge level meter, the low level-sensing device of 24-.

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 parallel connection of pumps induction system for powder conveying, it is arranged in parallel including the first feed bin 1, two The second feed bin 8 and two the 3rd feed bins 22 being arranged in parallel, the outfan of described first feed bin 1 passes through a ball valve respectively with two simultaneously The input of described second feed bin 8 of connection setting connects, and the outfan of two described second feed bins 8 being arranged in parallel passes through a flow The input of described 3rd feed bin 22 that meter 21 is arranged in parallel with two is connected, and two described second feed bins 8 being arranged in parallel also are distinguished It is connected with described first feed bin 1 by two relief valve 5 and a filter 4, the equal and safety of described second feed bins 8 that two are arranged in parallel Stop valve 12, aflter-fillter 13 and direct current pneumatic ball valve 14 connect, and described safety shutoff valve 12 is arranged on described secondary filter Between device 13 and described direct current pneumatic ball valve 14, the described direct current pneumatic ball valve 14 that is connected with one of described second feed bin 8 Also it is connected with a stop valve 15, a safety shutoff valve 9 is passed through with described second feed bin 8 even in the front end of described direct current pneumatic ball valve 14 Connect, the rear end of described direct current pneumatic ball valve 14 passes through a deafener and a safety relief valve 19 is connected with reverse filtration device 20, two The outfan of described second feed bin 8 being arranged in parallel is connected with multiple reverse filtration devices 20 by ball valve 18 respectively, multiple described It is sequentially connected between reverse filtration device 20, and the described reverse filtration device 20 of least significant end passes through effusion meter 21 and is arranged in parallel with two The input of described 3rd feed bin 22 connects.

Further, as shown in figure 1, described filter 4 is arranged on described in described first feed bin 1 and two between relief valve 5, Described first feed bin 1 is provided with high charge level meter 2 and low level-sensing device 3, and described high charge level meter 2 is arranged on the upper of described low level-sensing device 3 Side, the input of described second feed bin 8 that described first feed bin 1 is arranged in parallel with two by Safety control valve 6 respectively is connected, and two It is equipped with high charge level meter 10 and low level-sensing device 11, described high charge level meter 10 is arranged on institute on described second feed bin 8 being arranged in parallel State the top of low level-sensing device 11, two described second feed bins 8 being arranged in parallel also are equipped with pressure of silo detector 7.

Further, as shown in figure 1, high charge level meter 23 and low is also equipped with two described 3rd feed bins 22 being arranged in parallel Level-sensing device 24, described high charge level meter 23 is arranged on the top of described low level-sensing device 24, and described safety shutoff valve 12 is secondary with described It is additionally provided with a deafener and a tee ball valve, described tee ball valve passes through the independent and institute of a pressure detecting instrument 17 between filter 13 State ball valve 18 to connect, described pressure detecting instrument 17 is provided with display instrument 16.

In sum, the storehouse parallel 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.

Claims (6)

1. a kind of storehouse parallel connection of pumps induction system for powder conveying it is characterised in that：Set including the first feed bin (1), two parallel connections The 3rd feed bin (22) that the second feed bin (8) put and two is arranged in parallel, the outfan of described first feed bin (1) is divided by a ball valve The input of described second feed bin (8) not being arranged in parallel with two is connected, the output of two described second feed bins (8) being arranged in parallel Hold the input of described 3rd feed bin (22) being arranged in parallel with two by flow meters (21) to be connected, two be arranged in parallel described Second feed bin (8) also passes through two relief valve (5) respectively and a filter (4) is connected with described first feed bin (1), and two are arranged in parallel Described second feed bin (8) be all connected with safety shutoff valve (12), aflter-fillter (13) and direct current pneumatic ball valve (14), described Safety shutoff valve (12) is arranged between described aflter-fillter (13) and described direct current pneumatic ball valve (14), with one of institute State the described direct current pneumatic ball valve (14) that the second feed bin (8) connects also to be connected with a stop valve (15), described direct current pneumatic ball valve (14) front end is connected with described second feed bin (8) by a safety shutoff valve (9), the rear end of described direct current pneumatic ball valve (14) It is connected with reverse filtration device (20) by a deafener and a safety relief valve (19), two described second feed bins being arranged in parallel (8) outfan is connected with multiple reverse filtration devices (20) by ball valve (18) respectively, multiple described reverse filtration devices (20) it Between be sequentially connected, and described 3rd material that the described reverse filtration device (20) of least significant end is arranged in parallel with two by effusion meter (21) The input in storehouse (22) connects.

2. a kind of storehouse parallel connection of pumps induction system for powder conveying according to claim 1 it is characterised in that：Described mistake Filter (4) is arranged between described first feed bin (1) and relief valve described in two (5).

3. a kind of storehouse parallel connection of pumps induction system for powder conveying according to claim 1 it is characterised in that：Described One feed bin (1) is provided with high charge level meter (2) and low level-sensing device (3), and described high charge level meter (2) is arranged on described low level-sensing device (3) Top, described first feed bin (1) passes through the defeated of Safety control valve (6) and two described second feed bins (8) being arranged in parallel respectively Enter end to connect.

4. a kind of storehouse parallel connection of pumps induction system for powder conveying according to claim 1 it is characterised in that：Two is in parallel High charge level meter (10) and low level-sensing device (11), described high charge level meter (10) setting are equipped with described second feed bin (8) of setting In the top of described low level-sensing device (11), two described second feed bins (8) being arranged in parallel also are equipped with pressure of silo detector (7).

5. a kind of storehouse parallel connection of pumps induction system for powder conveying according to claim 1 it is characterised in that：Two is in parallel Also it is equipped with high charge level meter (23) and low level-sensing device (24), described high charge level meter (23) sets on described 3rd feed bin (22) of setting Put the top in described low level-sensing device (24).

6. a kind of storehouse parallel connection of pumps induction system for powder conveying according to claim 1 it is characterised in that：Described peace It is additionally provided with a deafener and a tee ball valve, described tee ball valve leads between full cut-off valve (12) and described aflter-fillter (13) Cross a pressure detecting instrument (17) to be individually connected with described ball valve (18), described pressure detecting instrument (17) is provided with display instrument (16).