CN205640240U - Integrated form automatic filtration drainage vacuum feed station - Google Patents

Abstract

The utility model discloses an integrated form automatic filtration drainage vacuum feed station, including gas storage module, vacuum pump, inlet tube, drainage structures and controller, the gas storage module includes vacuum gas holder, first connecting pipe and first drain pipe, and drainage structures includes a plurality of manual ball valves, the first input end electricity of vacuum gas holder and controller is connected, and the vacuum pump is connected with the second input of controller is electric, the output of controller and the vacuum pump is electric is connected, and the top of vacuum pump and vacuum gas holder communicates with each other, the inlet tube communicates with each other with the one end of first connecting pipe, and the other end of first connecting pipe communicates with each other with the lateral part of vacuum gas holder, and first drain pipe setting is in the bottom of vacuum gas holder, and opening of first connecting pipe and first drain pipe or closure are controlled respectively to a plurality of manual ball valves. The utility model discloses an inside atmospheric pressure of gas storage module and water storage module can reach dynamic balance, realizes freely switching of two kinds of evacuation row water feeding mode and the two, has simple, with low costs, the small characteristics of installation.

Description

Integrated form automatic fitration draining vacuum feed station

Technical field

This utility model relates to vacuum drainage technical field, particularly relates to a kind of integrated form automatic fitration draining vacuum feed station.

Background technology

At present, vacuum technique uses vacuum pump and vacuum tank, and metal negative pressure line is connected, and uses PLC to control to realize supply and the draining of automatic vacuum.Owing to this mode assembly is many, therefore installing complexity, non-dismountable the causing of existing vacuum tank cannot be cleared up, and service life is short, controls complexity, and cost is high, complete machine bulky, the problems such as drainage efficiency is low, inconvenient maintenance.

Summary of the invention

For weak point present in above-mentioned technology, this utility model provides a kind of simple in construction, easy to operate integrated form automatic fitration draining vacuum feed station.

In order to achieve the above object, this utility model one integrated form automatic fitration draining vacuum feed station, including gas storage module, vacuum pump, water inlet pipe, discharge structure and controller, described gas storage module includes vacuum air storage tank, the first connecting tube and first row water pipe, and described discharge structure includes multiple manual ball valve；Described vacuum air storage tank electrically connects with the first input end of controller, and described vacuum pump electrically connects with the second input of controller, and the outfan of described controller electrically connects with vacuum pump, and described vacuum pump communicates with the top of vacuum air storage tank；One end of described water inlet pipe and the first connecting tube communicates, the described other end of the first connecting tube communicates with the sidepiece of vacuum air storage tank, described first row water pipe is arranged on the bottom of vacuum air storage tank, and the plurality of manual ball valve controls the first connecting tube and the closure or openness of first row water pipe respectively.

Wherein, this vacuum feed station also includes that water storage module, described water storage module include the first water tank, the second connecting tube and second row water pipe, and described discharge structure also includes the first three-way valve and the second three-way valve；First valve end of described first three-way valve is connected with water inlet pipe, second valve end of described first three-way valve communicates with one end of the first connecting tube, 3rd valve end of described first three-way valve communicates with the sidepiece of the first water tank, and the 3rd valve end manually ball valve of described first three-way valve controls its closure or openness；First valve end of described second three-way valve communicates with the first valve end of the first three-way valve, second valve end of described second three-way valve communicates with the sidepiece of vacuum air storage tank, 3rd valve end of described second three-way valve communicates with one end of the second connecting tube, the other end of described second connecting tube and the top of the first water tank communicate, and the 3rd valve end manually ball valve of described second three-way valve controls its closure or openness；Described second row water pipe is arranged on the bottom of the first water tank, and described second row water pipe controls its closure or openness by controller.

Wherein, described water storage module also includes the second water tank, displacement can and the 3rd connecting tube, the bottom of described first water tank is connected with the top side detachable of the second water tank, the described bottom of the second water tank communicates with the top of displacement can, the bottom of described displacement can communicates with second row water pipe, and controls closure or openness by controller between described second water tank and displacement can；Described one end of 3rd connecting tube communicates with the sidepiece of the first water tank, and the other end of described 3rd connecting tube communicates with the sidepiece of displacement can, and described 3rd connecting tube controls its closure or openness by controller.

Wherein, described discharge structure also includes the first control valve, the second control valve and the 3rd control valve, described first control valve is arranged between the second water tank and displacement can, and described second control valve is arranged on second row water pipe, and described 3rd control valve is arranged in the 3rd connecting tube；The outfan of described controller electrically connects with the first control valve, the second control valve and the 3rd control valve respectively, and described controller controls the first control valve, the second control valve and the closure or openness of the 3rd control valve three.

Wherein, the sidepiece of described displacement can is provided with gas hole, and described gas hole connects blowning installation, and displacement can is blown by described blowning installation by gas hole.

Wherein, described gas storage module also includes position, Manual-cleaning hole, and position, described Manual-cleaning hole is detachably connected on the sidepiece of vacuum air storage tank.

The beneficial effects of the utility model are:

Compared with prior art, integrated form automatic fitration draining vacuum feed station of the present utility model, air pressure signal in vacuum air storage tank processes in being delivered to controller by first input end, and the signal of vacuum pump is delivered in controller by the second input, when needing draining, owing to the sidepiece of vacuum air storage tank and the other end of the first connecting tube connect, and first one end of connecting tube be connected with water inlet pipe, controller controls vacuum pump to vacuum air storage tank evacuation, negative pressure is formed in making vacuum air storage tank, water is flowed into by water inlet pipe, and store in entering vacuum air storage tank by the first connecting tube, first row water pipe is opened as necessary by manual ball valve, water in vacuum air storage tank is discharged by first row water pipe due to self gravitation, realize evacuation draining.

Additionally, integrated form automatic fitration draining vacuum feed station of the present utility model, the top of the first water tank is connected with the sidepiece of vacuum air storage tank by the second connecting tube, close the manual ball valve in the first connecting tube, and vacuum pump is to vacuum air storage tank evacuation, it is respectively formed negative pressure in vacuum air storage tank and the first water tank, water is entered in the first water tank from water inlet pipe store, control second row water pipe as necessary by controller to open, water in first water tank is discharged by second row water pipe due to self gravitation, it is achieved evacuation draining.

Integrated form automatic fitration draining vacuum feed station of the present utility model have simple in construction, draining can be realized by evacuation, volume is little and integration degree is high feature.

Accompanying drawing explanation

Fig. 1 is the structural representation at this utility model integrated form automatic fitration draining vacuum feed station.

Main element symbol description is as follows:

1, gas storage module 2, vacuum pump

3, water inlet pipe 4, discharge structure

5, controller 6, water storage module

11, vacuum air storage tank 12, the first connecting tube

13, first row water pipe 14, position, Manual-cleaning hole

41, manual ball valve 42, the first three-way valve

43, the second three-way valve 44, the first control valve

45, the second control valve 46, the 3rd control valve

61, the first water tank 62, the second connecting tube

63, second row water pipe 64, the second water tank

65, displacement can 66, the 3rd connecting tube

651, gas hole.

Detailed description of the invention

In order to more clearly state this utility model, below in conjunction with the accompanying drawings this utility model is further described.

Refering to Fig. 1, this utility model integrated form automatic fitration draining vacuum feed station, including gas storage module 1, vacuum pump 2, water inlet pipe 3, discharge structure 4 and controller 5, gas storage module 1 includes vacuum air storage tank the 11, first connecting tube 12 and first row water pipe 13, and discharge structure 4 includes multiple manual ball valve 41；Vacuum air storage tank 11 electrically connects with the first input end of controller 5, and vacuum pump 2 electrically connects with the second input of controller 5, and the outfan of controller 5 electrically connects with vacuum pump 2, and vacuum pump 2 communicates with the top of vacuum air storage tank 11；Water inlet pipe 3 communicates with one end of the first connecting tube 12, the other end of the first connecting tube 12 communicates with the sidepiece of vacuum air storage tank 11, first row water pipe 13 is arranged on the bottom of vacuum air storage tank 11, and multiple manual ball valve 41 controls the first connecting tube 12 and the closure or openness of first row water pipe 13 respectively.

nullCompared with prior art，Integrated form automatic fitration draining vacuum feed station of the present utility model，Air pressure signal in vacuum air storage tank 11 processes in being delivered to controller 5 by first input end，And the signal of vacuum pump 2 is delivered in controller 5 by the second input，When needing draining，Owing to the sidepiece of vacuum air storage tank 11 and the other end of the first connecting tube 12 connect，And first one end of connecting tube 12 be connected with water inlet pipe 3，Controller 5 controls vacuum pump 2 to vacuum air storage tank 11 evacuation，Negative pressure is formed in making vacuum air storage tank 11，Water is flowed into by water inlet pipe 3，And store in entering vacuum air storage tank 11 by the first connecting tube 12，First row water pipe 13 is opened as necessary by manual ball valve 41，Water in vacuum air storage tank 11 is discharged by first row water pipe 13 due to self gravitation，Realize evacuation draining.

Integrated form automatic fitration draining vacuum feed station of the present utility model have simple in construction, draining can be realized by evacuation, volume is little and integration degree is high feature.

In the present embodiment, this vacuum feed station also includes that water storage module 6, water storage module 6 include the first water tank the 61, second connecting tube 62 and second row water pipe 63, and discharge structure 4 also includes the first three-way valve 42 and the second three-way valve 43；First valve end of the first three-way valve 42 is connected with water inlet pipe 3, second valve end of the first three-way valve 42 communicates with one end of the first connecting tube 12,3rd valve end of the first three-way valve 42 communicates with the sidepiece of the first water tank 61, and the 3rd valve end manually ball valve 41 of the first three-way valve 42 controls its closure or openness；First valve end of the second three-way valve 43 communicates with the first valve end of the first three-way valve 42, second valve end of the second three-way valve 43 communicates with the sidepiece of vacuum air storage tank 11,3rd valve end of the second three-way valve 43 communicates with one end of the second connecting tube 62, the other end of the second connecting tube 62 and the top of the first water tank 61 communicate, and the 3rd valve end manually ball valve 41 of the second three-way valve 43 controls its closure or openness；Second row water pipe 63 is arranged on the bottom of the first water tank 61, and second row water pipe 63 controls its closure or openness by controller 5.

The top of the first water tank 61 is connected with the sidepiece of vacuum air storage tank 11 by the second connecting tube 62, close the manual ball valve 41 in the first connecting tube 12, and vacuum pump 2 is to vacuum air storage tank 11 evacuation, it is respectively formed negative pressure in vacuum air storage tank 11 and the first water tank 61, water is entered in the first water tank 61 from water inlet pipe 3 store, control second row water pipe 63 as necessary by controller 5 to open, water in first water tank 61 is discharged by second row water pipe 63 due to self gravitation, it is achieved evacuation draining.

In the present embodiment, water storage module 6 also includes the second water tank 64, displacement can 65 and the 3rd connecting tube 66, the bottom of the first water tank 61 is connected with the top side detachable of the second water tank 64, the bottom of the second water tank 64 communicates with the top of displacement can 65, the bottom of displacement can 65 communicates with second row water pipe 63, and controls closure or openness by controller 5 between the second water tank 64 and displacement can 65；One end of 3rd connecting tube 66 communicates with the sidepiece of the first water tank 61, and the other end of the 3rd connecting tube 66 communicates with the sidepiece of displacement can 65, and the 3rd connecting tube 66 controls its closure or openness by controller 5.

In the present embodiment, discharge structure 4 also includes the first control valve the 44, second control valve 45 and the 3rd control valve 46, first control valve 44 is arranged between the second water tank 64 and displacement can 65, and the second control valve 45 is arranged on second row water pipe 63, and the 3rd control valve 46 is arranged in the 3rd connecting tube 66；The outfan of controller 5 electrically connects with first control valve the 44, second control valve 45 and the 3rd control valve 46 respectively, and controller 5 controls the first control valve the 44, second control valve 45 and closure or openness of the 3rd control valve 46 three.

In the present embodiment, the sidepiece of displacement can 65 is provided with gas hole 651, and gas hole 651 connects blowning installation, and displacement can 65 is blown by blowning installation by gas hole 651.Air blowing can accelerate the drainage speed of displacement can 65 so that water is quickly discharged from second row water pipe 63.

In the present embodiment, gas storage module 1 also includes position, Manual-cleaning hole 14, and position, Manual-cleaning hole 14 is detachably connected on the sidepiece of vacuum air storage tank 11.Manually vacuum air storage tank 11 can be carried out by clean-out opening position 14 so that this supply station is long for service life.

The first evacuation discharging mode specific works of the present utility model is as follows: vacuum pump 2 carries out evacuation to vacuum air storage tank 11, and first three-way valve 42 the 3rd valve end and the 3rd valve end the most manually ball valve 41 of the second three-way valve 43 close respectively, water is from water inlet pipe 3, first connecting tube 12 sequentially enters in vacuum air storage tank 11, and water is stored by vacuum air storage tank 11, when the air pressure in controller 5 detects vacuum air storage tank 11 reaches the negative pressure value manually set, controller 5 controls vacuum pump 2 and stops evacuation, and open the manual ball valve 41 on first row water pipe 13, water is discharged by bottom and the first row water pipe 13 of vacuum air storage tank 11.

The second evacuation discharging mode specific works of the present utility model is as follows: vacuum pump 2 carries out evacuation to vacuum air storage tank 11, and first three-way valve 42 the 3rd valve end and the 3rd valve end the most manually ball valve 41 of the second three-way valve 43 open respectively, first valve end of the first three-way valve 42 and first row water pipe 13 the most manually ball valve 41 is closed, controller 5 controls the first control valve 44 and the second control valve 45 is closed, and controller 5 controls the 3rd control valve 46 and opens, make the air pressure balance between the first water tank 61 and vacuum air storage tank 11, water is directly entered in the first water tank 61 from water inlet pipe 3, and first water tank 61 by water store；When the air pressure in vacuum air storage tank 11 reaches the negative pressure value that manually sets, and when reaching the water discharge time set, controller 5 controls the first control valve 44 and opens, and control the 3rd control valve 46 close, the deadweight of water makes water sequentially enter in the second water tank 64 and displacement can 65 from the first water tank 61, complete the draining of the first water tank 61, after water enters in displacement can 65, controller 5 controls the first control valve 44 and the 3rd control valve 46 is closed, and control the second control valve 45 open, water is directly discharged from second row water pipe 63, and circulate work successively, realize automatic vacuum draining.

Advantage of the present utility model is:

1) manually ball valve 41 and the second connecting tube 62, it is achieved the balance pressure between vacuum air storage tank 11 and the first water tank 61；

2) deadweight utilizing water realizes both of which evacuation draining；

3) less assembly controller the 5, first control valve the 44, second control valve 45 and the 3rd control valve 46 is utilized to realize manual evacuation draining and the control of automatic vacuum draining；

4) being demountable structure between the first water tank 61 and the second water tank 64, and manual ball valve 41 etc. is demountable structure, installing simple, dismounting is simple and is easy to maintenance；

5) can freely switch between two kinds of evacuation discharging modes；

6) manually vacuum air storage tank 11 can be carried out by clean-out opening position 14 so that this long product lifecycle.

Only several specific embodiments of the present utility model disclosed above, but this utility model is not limited to this, and the changes that any person skilled in the art can think of all should fall into protection domain of the present utility model.

Claims (6)

1. an integrated form automatic fitration draining vacuum feed station, it is characterized in that, including gas storage module, vacuum pump, water inlet pipe, discharge structure and controller, described gas storage module includes vacuum air storage tank, the first connecting tube and first row water pipe, and described discharge structure includes multiple manual ball valve；Described vacuum air storage tank electrically connects with the first input end of controller, and described vacuum pump electrically connects with the second input of controller, and the outfan of described controller electrically connects with vacuum pump, and described vacuum pump communicates with the top of vacuum air storage tank；One end of described water inlet pipe and the first connecting tube communicates, the described other end of the first connecting tube communicates with the sidepiece of vacuum air storage tank, described first row water pipe is arranged on the bottom of vacuum air storage tank, and the plurality of manual ball valve controls the first connecting tube and the closure or openness of first row water pipe respectively.

Integrated form automatic fitration draining vacuum feed station the most according to claim 1, it is characterized in that, this vacuum feed station also includes that water storage module, described water storage module include the first water tank, the second connecting tube and second row water pipe, and described discharge structure also includes the first three-way valve and the second three-way valve；First valve end of described first three-way valve is connected with water inlet pipe, second valve end of described first three-way valve communicates with one end of the first connecting tube, 3rd valve end of described first three-way valve communicates with the sidepiece of the first water tank, and the 3rd valve end manually ball valve of described first three-way valve controls its closure or openness；First valve end of described second three-way valve communicates with the first valve end of the first three-way valve, second valve end of described second three-way valve communicates with the sidepiece of vacuum air storage tank, 3rd valve end of described second three-way valve communicates with one end of the second connecting tube, the other end of described second connecting tube and the top of the first water tank communicate, and the 3rd valve end manually ball valve of described second three-way valve controls its closure or openness；Described second row water pipe is arranged on the bottom of the first water tank, and described second row water pipe controls its closure or openness by controller.

Integrated form automatic fitration draining vacuum feed station the most according to claim 2, it is characterized in that, described water storage module also includes the second water tank, displacement can and the 3rd connecting tube, the bottom of described first water tank is connected with the top side detachable of the second water tank, the described bottom of the second water tank communicates with the top of displacement can, the bottom of described displacement can communicates with second row water pipe, and controls closure or openness by controller between described second water tank and displacement can；Described one end of 3rd connecting tube communicates with the sidepiece of the first water tank, and the other end of described 3rd connecting tube communicates with the sidepiece of displacement can, and described 3rd connecting tube controls its closure or openness by controller.

Integrated form automatic fitration draining vacuum feed station the most according to claim 3, it is characterized in that, described discharge structure also includes the first control valve, the second control valve and the 3rd control valve, described first control valve is arranged between the second water tank and displacement can, described second control valve is arranged on second row water pipe, and described 3rd control valve is arranged in the 3rd connecting tube；The outfan of described controller electrically connects with the first control valve, the second control valve and the 3rd control valve respectively, and described controller controls the first control valve, the second control valve and the closure or openness of the 3rd control valve three.

Integrated form automatic fitration draining vacuum feed station the most according to claim 3, it is characterised in that the sidepiece of described displacement can is provided with gas hole, described gas hole connects blowning installation, and displacement can is blown by described blowning installation by gas hole.

Integrated form automatic fitration draining vacuum feed station the most according to claim 1, it is characterised in that described gas storage module also includes position, Manual-cleaning hole, and position, described Manual-cleaning hole is detachably connected on the sidepiece of vacuum air storage tank.