CN203006483U

CN203006483U - Single efficient continuous delivery pump

Info

Publication number: CN203006483U
Application number: CN 201220617706
Authority: CN
Inventors: 黄申
Original assignee: TIANJIN CITY SHIDA ELECTRIC POWER EQUIPMENT CO Ltd
Current assignee: TIANJIN CITY SHIDA ELECTRIC POWER EQUIPMENT CO Ltd
Priority date: 2012-11-21
Filing date: 2012-11-21
Publication date: 2013-06-19
Anticipated expiration: 2022-11-21

Abstract

The utility model discloses a single efficient continuous delivery pump, which is high in efficiency and low in cost and saves energy sources. A charging pump is communicated with a terminal storage bin via a delivery pump upward leading material pipeline; a discharging valve of the charging pump is arranged on the delivery pump discharging pipeline; the bottom of the charging pump is communicated with a delivery gas source pipeline via a charging pump gasification air valve, the side upper part of the charging pump is communicated with the delivery gas source pipeline via a delivery pump auxiliary air valve; between the charging pump and the discharging valve, the delivery pump upward leading material pipeline are respectively communicated with the delivery gas source pipeline via a delivery pump main air intake valve and a delivery pump air outtake valve; and between the discharging valve and the terminal storage bin, the delivery pump upward leading material pipeline is communicated with the delivery gas source pipeline via a delivery pump pipeline main gas valve; and the air input of the delivery pump pipeline main gas valve is equal to sum of the air input of the charging pump gasification air valve, the delivery pump auxiliary air valve, the delivery pump main air intake valve and the delivery pump air intake valve.

Description

A kind of separate unit high-efficiency and continuous transmission pump

Technical field

The utility model relates to a kind of transmission pump.

Background technology

Continuous transfer pump has extensive application as a kind of feedway commonly used, mainly be divided into single-pump system and double pump system, the single-pump system cost is low, but single pump transmission pump of the prior art is because charging and conveying need to be carried out successively, first by carrying the gas source pipe exhaust, feed in fill pump (transmission pump), after stopping exhaust, close inlet valve.Open bleeder valve, by carrying the gas source pipe air inlet, the beginning material conveying after carrying end, is closed bleeder valve.Open again inlet valve, beginning exhaust and charging.So periodic duty, charging and discharging are carried out respectively, so efficient is lower.Double pump system can be feeded simultaneously and carry, but its system cost is high.Research and develop a kind of cost is low, efficient is high continuous transfer pump and be people in the urgent need to.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art part, provides that a kind of transport efficiency is high, cost is low, the separate unit high-efficiency and continuous transmission pump of energy savings.

Separate unit high-efficiency and continuous transmission pump of the present utility model comprises draws pipe material and terminal feed bin on feed bin, fill pump inlet valve, fill pump, fill pump bleeder valve, transmission pump;

The discharging opening of feed bin is communicated with by fill pump inlet valve and fill pump, draw pipe material on the side upper end connection transmission pump of fill pump, fill pump is communicated with the terminal feed bin by drawing pipe material on transmission pump, and the fill pump bleeder valve is arranged at draws on pipe material on transmission pump;

The bottom of fill pump is communicated with carrying gas source pipe by fill pump gasification air valve, and the upper lateral part of fill pump is communicated with carrying gas source pipe by the transmission pump additional air valve;

Draw pipe material and be communicated with carrying gas source pipe by transmission pump master air admission valve and transmission pump outlet air valve respectively on transmission pump between fill pump and bleeder valve, draw pipe material and be communicated with carrying gas source pipe by transmission pump pipeline total air valve on transmission pump between bleeder valve and terminal feed bin;

The suction quantity sum of the suction quantity of transmission pump pipeline total air valve and fill pump gasification air valve, transmission pump additional air valve, transmission pump master air admission valve and transmission pump outlet air valve is suitable.

Preferably, the suction quantity of transmission pump pipeline total air valve equates with the free air capacity sum of fill pump gasification air valve, transmission pump additional air valve, transmission pump master air admission valve and transmission pump outlet air valve.

Preferably, the fill pump pneumatic control valve is by carrying gas source pipe to control, and the instrument of fill pump is by the instrument air pipe control.

Description of drawings

Fig. 1 is the structural representation of separate unit high-efficiency and continuous transmission pump of the present utility model.

The specific embodiment

In order to make those skilled in the art can more clearly understand the technical scheme of separate unit high-efficiency and continuous transmission pump of the present utility model, be described in further detail its specific embodiment below in conjunction with accompanying drawing.

As shown in Figure 1, separate unit high-efficiency and continuous transmission pump of the present utility model comprises and draws pipe material 9 and terminal feed bin 11 on feed bin 10, fill pump inlet valve 1, fill pump 2, fill pump bleeder valve 3, transmission pump.As the continuous transfer pump that single pump is arranged, only comprise a pump in this continuous transfer pump system, namely fill pump 2, and the function that it possesses simultaneously charging and carries is namely namely as fill pump, also as transmission pump.

The discharging opening of feed bin 10 is communicated with by fill pump inlet valve 1 and fill pump 2, draw pipe material 9 on the side upper end connection transmission pump of fill pump 2, fill pump 2 is communicated with terminal feed bin 11 by drawing pipe material on transmission pump, and fill pump bleeder valve 3 is arranged at draws on transmission pump on pipe material 9.

Fill pump 3 pneumatic control valves are by carrying gas source pipe 12 to control, and the instrument of fill pump 3 is controlled by instrument air pipeline 13.

The bottom of fill pump 2 is communicated with carrying gas source pipe 12 by fill pump gasification air valve 4, and the upper lateral part of fill pump 2 is communicated with carrying gas source pipe 12 by transmission pump additional air valve 5.

Draw pipe material 9 and be communicated with carrying gas source pipe 12 by transmission pump master air admission valve 6 and transmission pump outlet air valve 7 respectively on transmission pump between fill pump 2 and bleeder valve 3, draw pipe material 9 and be communicated with carrying gas source pipe 12 by transmission pump pipeline total air valve 8 on transmission pump between bleeder valve 3 and terminal feed bin 11.

The suction quantity sum of the suction quantity of transmission pump pipeline total air valve 8 and fill pump gasification air valve 4, transmission pump additional air valve 5, transmission pump master air admission valve 6 and transmission pump outlet air valve 7 is suitable.Preferably, the suction quantity of transmission pump pipeline total air valve 8 equates with the suction quantity sum of fill pump gasification air valve 4, transmission pump additional air valve 5, transmission pump master air admission valve 6 and transmission pump outlet air valve 7.

The mode of operation of separate unit high-efficiency and continuous transmission pump of the present utility model is:

Fill pump 2 is responsible for simultaneously charging and is carried, transmission pump pipeline total air valve 8 is responsible for air inlet, when this transmission pump pipeline total air valve 8 air inlet, fill pump 2 can through bleeder valve 3 and by drawing pipe material 9 on transmission pump to terminal feed bin 11 material conveying, be carried out the material conveying process.

Fill pump gasification air valve 4, transmission pump additional air valve 5, transmission pump master air admission valve 6 and transmission pump outlet air valve 7 are responsible for exhaust, and when above-mentioned valve exhaust, in feed bin 10, material namely enters fill pump 2 through inlet valve, carries out charging process.

And 8 air inlets of transmission pump pipeline total air valve and fill pump gasification air valve 4, transmission pump additional air valve 5, transmission pump master air admission valve 6 and 7 exhausts of transmission pump outlet air valve are carried out simultaneously, and therefore charging and material conveying are also carried out simultaneously.

Because the suction quantity sum of the suction quantity of transmission pump pipeline total air valve 8 and fill pump gasification air valve 4, transmission pump additional air valve 5, transmission pump master air admission valve 6 and transmission pump outlet air valve 7 is suitable, when therefore charging and material conveying are carried out at the same time, the balance that has kept input and output material, therefore transmission pump that should the list pump keeps continuous feed status, thereby has greatly improved transport efficiency.

The beneficial effect of separate unit high-efficiency and continuous transmission pump of the present utility model is:

Transmission pump is in feed status all the time, has removed the sky that consumes the gas maximum in the course of conveying and has blown the stage.

Charging is carried out simultaneously with conveying, greatly raises the efficiency energy savings.

Conveying output capacity is large, and under identical transmission pump volume, it is 2 times of exerting oneself of load transfer device in the market that this utility model equipment is exerted oneself; Diameter of conveying pipe is little, and under the identical requirement of exerting oneself, its caliber is less by 1/3 than existing caliber.

Single pump is realized carrying; Utilize the air inlet of pipeline upper outlet to replace pump housing exhaust, reach continuous conveying purpose; Flow of Goods and Materials is arranged in pipeline all the time; Arrangement is not limit.

The specific embodiment of below by reference to the accompanying drawings the utility model being done is described in detail; but it only is used for describing the technical solution of the utility model; those skilled in the art can carry out various apparent improvement and modification to the utility model, and it all includes protection domain of the present utility model in.

Claims

1. a separate unit high-efficiency and continuous transmission pump, comprise and draw pipe material and terminal feed bin on feed bin, fill pump inlet valve, fill pump, fill pump bleeder valve, transmission pump, it is characterized in that,

2. separate unit high-efficiency and continuous transmission pump as claimed in claim 1, it is characterized in that, the suction quantity of transmission pump pipeline total air valve equates with the free air capacity sum of fill pump gasification air valve, transmission pump additional air valve, transmission pump master air admission valve and transmission pump outlet air valve.

3. separate unit high-efficiency and continuous transmission pump as claimed in claim 1 or 2, is characterized in that, the fill pump pneumatic control valve is by carrying gas source pipe to control, and the instrument of fill pump is by the instrument air pipe control.