CN206535277U - Air driven pump sedimeter - Google Patents

Abstract

The utility model is related to a kind of air driven pump sedimeter, it includes Pneumatic creeping pump, filter and tank body, the Pneumatic creeping pump includes water inlet, delivery port and connects gas port, the tank body is connected with the water inlet of the Pneumatic creeping pump, the filter is connected with the delivery port of Pneumatic creeping pump, the gas port that connects of the Pneumatic creeping pump is connected to air pump and provides power for the Pneumatic creeping pump, connecing for the air pump and pneumatic peristaltic pump is also sequentially provided with manual ball valve and decompression valve between gas port, air inflow and pressure for adjusting the air pump.The utility model is simple and practical, light, can maximum possible avoid the pollution that mechanical seal is brought, air pump completely cuts off completely with liquid in pipeline, export it is controllable, power source is simply easy to control, is worthy to be popularized.

Description

Air driven pump sedimeter

Technical field

The utility model is related to liquid filtration art, asks it to be related to a kind of air driven pump sedimeter.

Background technology

, there is asking for the possible seepage of impeller axle envelope using mechanical pump in the existing more use mechanical pump of sedimeter Topic；Simultaneously when mechanical pump discharge pressure is fixed, it is desirable to use frequency conversion mechanical pump so that whole device cost is uprised.In addition, machine The maintaining cost of tool pump is high and weight is larger moves inconvenience.

Utility model content

In view of this, it is necessary to which a kind of simple in construction, weight of offer is light, it is used as driving power and filtering effect using air pump Really good air driven pump sedimeter.

A kind of air driven pump sedimeter, it includes Pneumatic creeping pump, filter and tank body, the Pneumatic creeping pump bag Include water inlet, delivery port and connect gas port, the tank body is connected with the water inlet of the Pneumatic creeping pump, the filter and gas The delivery port connection of dynamic peristaltic pump, the gas port that connects of the Pneumatic creeping pump is connected to air pump and provided for the Pneumatic creeping pump and moves Connecing for power, the air pump and pneumatic peristaltic pump is also sequentially provided with manual ball valve and decompression valve between gas port, for adjusting State the air inflow and pressure of air pump.

Further, the Pneumatic creeping pump is provided with four mutually perpendicular connecting poles and bindiny mechanism, described to connect gas port Located at bindiny mechanism, four connecting poles constitute the flow channel for filtered fluid.

Further, four connecting poles are followed successively by the first connecting pole, the second connecting pole, the 3rd connecting pole and the 4th company Post is connect, the water inlet is located at the first connecting pole, and the delivery port is located at the second connecting pole.

Further, first connecting pole be arranged in parallel with the second connecting pole, the 3rd connecting pole and the 4th connection Post be arranged in parallel, and the 3rd connecting pole and the 4th connecting pole, which are respectively perpendicular, is communicated in first connecting pole and the second connection Post.

Further, multiple balls are respectively equipped with the 3rd connecting pole and the 4th connecting pole, the ball is the 3rd Rolled in connecting pole and the 4th connecting pole for driving liquid.

Further, the bindiny mechanism connects with the 3rd connecting pole, the 4th connecting pole, the bindiny mechanism, The junction of 3rd connecting pole and the 4th connecting pole is respectively equipped with check valve.

Further, the filter includes filter core and sleeve, and the filter core is in sleeve, and the sleeve is used to protect Filter core.

Further, the sleeve includes the cylinder base for being used to install filter core, and the filter core is fixed on the cylinder base, described Filter core is provided with gasket seal with cylinder base junction.

Further, the air driven pump sedimeter also includes the first diaphragm valve, the second diaphragm valve and the 3rd barrier film Valve, first diaphragm valve is located between tank body and the air inlet of the Pneumatic creeping pump, and second diaphragm valve is located at pneumatic Between the delivery port of peristaltic pump and filter one end, the 3rd diaphragm valve is connected with the filter other end.

Further, the air driven pump sedimeter also include the first rim of a cup connector, the second rim of a cup connector and 3rd rim of a cup connector, the first rim of a cup connector is located between the first diaphragm valve and the water inlet of Pneumatic creeping pump, described Second rim of a cup connector is between the delivery port and the second diaphragm valve of Pneumatic creeping pump, and the 3rd rim of a cup connector is located at gas Move connecing between gas port and decompression valve for peristaltic pump.

Above-mentioned air driven pump sedimeter, using air pump as power, driving is done back and forth located at the ball of Pneumatic creeping pump Motion, the fluid flow for making inflow Pneumatic creeping pump water inlet mouthful reaches balance with the fluid flow flowed out from delivery port, then passes through The filter core of filter is filtered, and now filter core is operated in underload, the service life of extension fixture.The utility model is simple It is practical, light, can maximum possible avoid the pollution that mechanical seal is brought, air pump completely cuts off completely with liquid in pipeline, export it is controllable, Power source is simply easy to control, is worthy to be popularized.

Brief description of the drawings

Fig. 1 is the air driven pump sedimeter structural representation of the utility model embodiment.

Fig. 2 is the air driven pump sedimeter Pneumatic creeping pump configuration schematic diagram of the utility model embodiment.

Embodiment

The utility model is described in detail below with reference to specific embodiments and the drawings.

Fig. 1 and Fig. 2 are referred to, a kind of air driven pump sedimeter 10 is shown, it includes Pneumatic creeping pump 20, filter 30 and tank body 40, the Pneumatic creeping pump 20 includes water inlet 21, delivery port 22 and connects gas port 23, the tank body 40 with it is described The water inlet 21 of Pneumatic creeping pump 20 is connected, and the filter 30 is connected with the delivery port 22 of Pneumatic creeping pump 20, described pneumatic Peristaltic pump 20 connect gas port 23 be connected to air pump 11 for the Pneumatic creeping pump 20 provide power, the air pump 11 and Pneumatic creeping Connecing for pump 20 is also sequentially provided with manual ball valve 12 and decompression valve 13 between gas port 23, the air inlet for adjusting the air pump 11 Amount and pressure, make device 10 stable.

Specifically, in the present embodiment, the Pneumatic creeping pump 20 is provided with four mutually perpendicular connecting poles and connection machine Structure 24, the gas port 23 that connects is located at bindiny mechanism 24, and four connecting poles constitute the flow channel for filtered fluid.It is described Four connecting poles are followed successively by the first connecting pole 25, the second connecting pole 26, the 3rd connecting pole 27 and the 4th connecting pole 28, the water inlet Mouth 21 is located at the first connecting pole 25, and the water inlet 21 is located at the centre position of the first connecting pole 25；The delivery port 22 is set In the second connecting pole 27, the delivery port 22 is located at the second connecting pole centre position, and the liquid of filtering enters from water inlet 21 Enter to first connecting pole 25, the liquid is shunted in the first connecting pole 25, that is, separately flows into the He of the 3rd connecting pole 27 In 4th connecting pole 28, the liquid by the 3rd connecting pole 27 and the 4th connecting pole 28 confluxes in second connecting pole 26, Flowed out again by delivery port 22.

Further, first connecting pole 25 be arranged in parallel with the second connecting pole 26, first connecting pole 25 and The length of two connecting poles 26 is consistent.3rd connecting pole 27 and the 4th connecting pole 28 be arranged in parallel, the 3rd connecting pole 27 It is consistent with the length of the 4th connecting pole 28.3rd connecting pole 27 and the 4th connecting pole 28 be respectively perpendicular be communicated in it is described First connecting pole 25 and the connecting pole of the second connecting pole 26, i.e., four constitute a rectangle or square, and described first connects The connecting pole 26 of post 25 and second is connect to connect with the 3rd connecting pole 27 and the 4th connecting pole 28 respectively.

Further, multiple balls 29, the present embodiment are respectively equipped with the 3rd connecting pole 27 and the 4th connecting pole 28 In, setting connects a ball 29 respectively in the 3rd connecting pole 27 and the 4th connecting pole 28, and the ball 29 is in the 3rd connection Rolled in the connecting pole 28 of post 27 and the 4th for driving required filtered fluid.Specifically, institute's air pump 11 sequentially passes through manual ball valve 12 and decompression valve 13 enter connect gas port 23, can drive the ball 29 in the 3rd connecting pole 27 into the air for connecing gas port 23 Rolled with the 4th connecting pole 28 to drive the liquid in the 3rd connecting pole 27 and the 4th connecting pole 28, adjust the air pump 11 air inflow and pressure, can move back and forth liquid in the 3rd connecting pole 27 and the 4th connecting pole 28 so as to be intake The amount of liquid of mouth 21 and the amount of liquid of the outflow delivery port 22 reach balance.

Further, the bindiny mechanism 24 connects with the 3rd connecting pole 27, the 4th connecting pole 28, in the connection The junction of mechanism 24, the 3rd connecting pole 27 and the 4th connecting pole 28 is respectively equipped with check valve, and the check valve can prevent the 3rd The liquid of the connecting pole 28 of connecting pole 27 and the 4th enters in gas circuit, prevents the generation of failure, it is ensured that the stable operation of device 10.

Further, the filter 30 includes filter core 31 and sleeve 32, and the filter core 31 is in sleeve 32, the set Cylinder 32 is used to protect filter core 31.The sleeve 32 includes the cylinder base for being used to install filter core 21, and the filter core 21 is fixed on the cylinder On seat 32, the filter core 31 is provided with gasket seal with the junction of cylinder base 32.Preferably, the filter core 31 is that polyether sulfone folding declines Multiple filter cores 31 can be provided with hole filter core, the sleeve 32 as needed, multiple filter cores 31 are the filter core 31 of different pore size. In the present embodiment, the multiple filter core 31 is the collapsible micropore filter element 31 of 10 inches of polyether sulfones, and aperture is 0.45 micron of filter Core 31 is used for front end coarse filtration, reuses 0.22 micron of filter core 31 and is used for terminal aseptic filtration, caused by multiple filter cores 31 Filter effect more preferable.The filter core 31 is fixedly mounted on after being rotated through fin on the cylinder base of the sleeve 32, and junction is via sealing Gasket seal；The sleeve and its cylinder base use 316L stainless steel materials.

Further, the air driven pump sedimeter 10 also includes the first diaphragm valve 51, the second diaphragm valve 52 and the The first diaphragm valve 51, described the are provided between the air inlet 21 of three diaphragm valves 53, the tank body 40 and the Pneumatic creeping pump 20 One diaphragm valve 51 is located between tank body 40 and the air inlet 21 of the Pneumatic creeping pump 20, and second diaphragm valve 52 is located at pneumatic Between the delivery port 22 of peristaltic pump 20 and the one end of filter 30, the 3rd diaphragm valve 53 is connected with the other end of filter 30.Institute State the first diaphragm valve 51 be used for control the liquid that is flowed out from the tank body 40, second diaphragm valve 52 is used for control from the gas The liquid that the delivery port 22 of dynamic peristaltic pump 20 flows out.3rd diaphragm valve 53 is used for the liquid for controlling to flow out from the filter 30 Body.

Further, the air driven pump sedimeter 10 also includes the first rim of a cup connector 54, the connection of the second rim of a cup The rim of a cup connector 56 of device 55 and the 3rd, the first rim of a cup connector 54 enters located at the first diaphragm valve 51 and Pneumatic creeping pump 20 Between the mouth of a river 21, the second rim of a cup connector 55 is located between the diaphragm valve 52 of delivery port 22 and second of Pneumatic creeping pump 20, The 3rd rim of a cup connector 56 is connect between gas port 23 and decompression valve 13 located at Pneumatic creeping pump 20.

Operation principle of the present utility model：During work, liquid to be filtered in tank body 40 by Pneumatic creeping pump 20 water inlet Mouth 21 is sucked, and enters filter 30 from the delivery port 22 by the Pneumatic creeping pump 20, the liquid flowed out from delivery port 22 Again filter process is completed by the filter core 31 of filter 30.The power of filtering is provided by the air pump 11, air inflow during filtering By adjusting, manual ball valve 12 and decompression valve 13 are changed with pressure, allow the 3rd connection located at Pneumatic creeping pump 20 Ball 29 in the connecting pole 28 of post 27 and the 4th does reciprocating action so that the amount of liquid for entering institute's water inlet 21 goes out with described in outflow The amount of liquid at the mouth of a river 22 reaches balance so that the device 10 realizes the control of fluid pressure and flow, can be prevented effectively from filter The load of 30 inner filter core superpressures is damaged, the service life of extension fixture.

Above-mentioned air driven pump sedimeter 10, using air pump 11 as power, ball of the driving located at Pneumatic creeping pump 20 29 move reciprocatingly, and reach fluid flow of the fluid flow of inflow Pneumatic creeping pump water inlet mouthful 21 with being flowed out from delivery port 22 Balance, then filtered by the filter core 31 of filter 30, now filter core 31 is operated in underload, the use of extension fixture 10 Life-span.The utility model is simple and practical, light, can maximum possible avoid the pollution that mechanical seal is brought, air pump and liquid in pipeline Body completely cuts off completely, exports controllable, power source is simply easy to control, is worthy to be popularized.

It should be noted that the utility model is not limited to above-mentioned embodiment, essence is created according to of the present utility model God, those skilled in the art can also make other and change, these changes done according to creative spirit of the present utility model, all Should be within the scope of the utility model be claimed.

Claims (10)

1. a kind of air driven pump sedimeter, it is characterised in that including Pneumatic creeping pump, filter and tank body, described pneumatic Peristaltic pump includes water inlet, delivery port and connects gas port, and the tank body is connected with the water inlet of the Pneumatic creeping pump, the mistake Filter is connected with the delivery port of Pneumatic creeping pump, and the gas port that connects of the Pneumatic creeping pump is connected to air pump for the Pneumatic creeping pump There is provided power, connecing for the air pump and pneumatic peristaltic pump is also sequentially provided with manual ball valve and decompression valve between gas port, is used for Adjust the air inflow and pressure of the air pump.

2. air driven pump sedimeter as claimed in claim 1, it is characterised in that the Pneumatic creeping pump is mutual provided with four Perpendicular connecting pole and bindiny mechanism, the gas port that connects is located at bindiny mechanism, and four connecting poles are constituted for filtered fluid The flow channel of body.

3. air driven pump sedimeter as claimed in claim 2, it is characterised in that four connecting poles are followed successively by first Connecting pole, the second connecting pole, the 3rd connecting pole and the 4th connecting pole, the water inlet are located at the first connecting pole, the delivery port Located at the second connecting pole.

4. air driven pump sedimeter as claimed in claim 3, it is characterised in that first connecting pole is connected with second Post be arranged in parallel, and the 3rd connecting pole and the 4th connecting pole be arranged in parallel, the 3rd connecting pole and the 4th the connecting pole difference Vertical connection is in first connecting pole and the second connecting pole.

5. air driven pump sedimeter as claimed in claim 4, it is characterised in that the 3rd connecting pole and the 4th connection Multiple balls are respectively equipped with post, the ball is rolled in the 3rd connecting pole and the 4th connecting pole for driving liquid.

6. air driven pump sedimeter as claimed in claim 3, it is characterised in that the bindiny mechanism connects with the described 3rd Post, the connection of the 4th connecting pole are connect, is respectively equipped with unidirectionally in the junction of the bindiny mechanism, the 3rd connecting pole and the 4th connecting pole Valve.

7. air driven pump sedimeter as claimed in claim 1, it is characterised in that the filter includes filter core and set Cylinder, the filter core is in sleeve, and the sleeve is used to protect filter core.

8. air driven pump sedimeter as claimed in claim 7, it is characterised in that the sleeve includes being used to install filter core Cylinder base, the filter core is fixed on the cylinder base, and the filter core is provided with gasket seal with cylinder base junction.

9. air driven pump sedimeter as claimed in claim 1, it is characterised in that also including the first diaphragm valve, second every Film valve and the 3rd diaphragm valve, first diaphragm valve are located between tank body and the air inlet of the Pneumatic creeping pump, and described second Diaphragm valve is between the delivery port of Pneumatic creeping pump and filter one end, and the 3rd diaphragm valve connects with the filter other end Connect.

10. air driven pump sedimeter as claimed in claim 9, it is characterised in that also including the first rim of a cup connector, Two rim of a cup connectors and the 3rd rim of a cup connector, the first rim of a cup connector enter located at the first diaphragm valve and Pneumatic creeping pump Between the mouth of a river, the second rim of a cup connector is between the delivery port and the second diaphragm valve of Pneumatic creeping pump, described 3rd glass Mouth connector is connect between gas port and decompression valve located at Pneumatic creeping pump.