Automatic off-line gas-water combined-washing membrane bioreactor (MBR)

Abstract

The invention discloses an automatic off-line gas-water combined-washing membrane bioreactor, comprising a PLC automation control cabinet, a MBR reactor, a MBR membrane assembly, a rotating hood, an annular guide rail, a lifting device, a washing pipe network, an external interface, a gas washing pipe, a water washing pipe, a gas pump and a water pump, wherein the gas pump, the water pump and the three-way change valve are all connected with the PLC automation control cabinet, the washing pipe network is provided with several nozzles. The present invention adopts a full PLC automation control system, the PLC automation control cabinet controls a pressure washing pump (gas pump and water pump), and gas or water is injected into the washing pipe network by flexibly adjusting the three-way change valve, so that the operation is simple, the cleaning is complete, and the manual operation load is reduced.

Claims

1. An automatic off-line gas-water combined-washing membrane bioreactor (MBR) comprising: a PLC automation control cabinet, a MBR reactor, a MBR membrane assembly arranged in the MBR reactor, and a rotating hood arranged at the top of the MBR reactor, wherein, an annular guide rail is arranged at the top of the MBR reactor, with the rotating hood rotatably arranged on the annular guide rail, a lifting device capable of lifting the MBR membrane assembly to elevate it to the inside of the rotating hood is arranged above the MBR reactor, a washing pipe network is arranged on an inner wall of the rotating hood, which is provided with an external interface at an outer side of the rotating hood, the external interface is connected with a gas washing pipe and a water washing pipe by a three-way change valve, the gas washing pipe is externally connected with a gas pump, and the water washing pipe is externally connected with a water pump, the three-way change valve is a magnetic exchange valve, the gas pump, the water pump and the three-way change valve are all connected with the PLC automation control cabinet, the washing pipe network is provided with several nozzles obliquely pointing to the inside of the rotating hood, and the nozzles can produce a reactive thrust to drive the rotating hood to rotate along the annular guide rail when ejecting gas or water.

2. The automatic off-line gas-water combined-washing membrane bioreactor (MBR) according to claim 1, characterized in that: a microporous aerator is arranged below the MBR membrane assembly in the MBR reactor.

3. The automatic off-line gas-water combined-washing membrane bioreactor (MBR) according to claim 1, characterized in that: a sludge pipe is arranged at the bottom of the MBR reactor, the sludge pipe is provided with a sludge pump outside the MBR reactor, and the sludge pump is connected with the PLC automation control cabinet.

4. The automatic off-line gas-water combined-washing membrane bioreactor (MBR) according to claim 3, characterized in that: a tapered sludge tank is formed at the bottom of the MBR reactor.

5. The automatic off-line gas-water combined-washing membrane bioreactor (MBR) according to claim 1, characterized in that: the MBR membrane assembly is externally connected with a water producing pipe, the water producing pipe is provided with a water producing pump outside the MBR reactor, and the water producing pump is connected with the PLC automation control cabinet.

6. The automatic off-line gas-water combined-washing membrane bioreactor (MBR) according to claim 5, characterized in that: a negative pressure gauge is arranged on the water producing pipe between the MBR membrane assembly and the water producing pump, the water producing pipe externally connected with the water producing pump is provided with a water producing flowmeter, and the negative pressure gauge is connected with the PLC automation control cabinet.

7. The automatic off-line gas-water combined-washing membrane bioreactor (MBR) according to claim 1, characterized in that: a liquid level meter is arranged in the MBR reactor.

8. The automatic off-line gas-water combined-washing membrane bioreactor (MBR) according to claim 1, characterized in that: the lifting device comprises a winding engine, a diverting pulley arranged above the MBR reactor and a pulling cable connected with the MBR membrane assembly after introducing by the winding engine and passing around the diverting pulley, a travel switch is arranged at the bottom of the diverting pulley, and both the winding engine and the travel switch are connected with the PLC automation control cabinet.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The present invention is further illustrated with reference to drawings thereinafter.

(2) FIG. 1 is a structural schematic diagram of the present invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS

(3) Referring to FIG. 1, it shows the specific structure of the preferable embodiment of the present invention. The structure feature of various elements of the present invention will be illustrated in details hereinafter; while if describing directions (up, down, left, right, front and rear), a structure as shown in FIG. 1 is referred description, but the actual directions used in the present invention are not limited to these.

(4) The present invention provides an automatic off-line gas-water combined-washing membrane bioreactor (MBR), comprising a MBR reactor 1, a MBR membrane assembly 2 arranged in the MBR reactor 1 and a rotating hood 3 arranged at the top of the MBR reactor 1, wherein a liquid level meter 4 is arranged in the MBR reactor 1, and a microporous aerator 5 is arranged below the MBR membrane assembly 2 in the MBR reactor 1. An annular guide rail 6 is arranged at the top of the MBR reactor 1, the rotating hood 3 is rotatably arranged on the annular guide rail 6, a wheel set or a lubricating oil film is arranged between the rotating hood 3 and the annular guide rail 6, a lifting device capable of lifting the MBR membrane assembly 2 to elevate it to the inside of the rotating hood 3 is arranged above the MBR reactor 1, the lifting device comprises a winding engine, a diverting pulley 7 arranged above the MBR reactor 1 and a pulling cable 8 connected with the MBR membrane assembly 2 after introducing by the winding engine and passing around the diverting pulley 7, and the winding engine can lift up or down the MBR membrane assembly 2 through the pulling cable 8. A washing pipe network 9 is arranged on an inner wall of the rotating hood 3, the washing pipe network 9 is provided with an external interface at an outer side of the rotating hood 3, the external interface is connected with a gas washing pipe and a water washing pipe by a three-way change valve 10, the gas washing pipe is externally connected with a gas pump, the water washing pipe is externally connected with a water pump, the washing pipe network 9 is provided with several nozzles obliquely pointing to the inside of the rotating hood, and the nozzles can produce a reactive thrust applied to drive the rotating hood 3 to rotate along the annular guide rail 6 (clockwise or anticlockwise) when ejecting gas or water.

(5) A tapered sludge tank 11 is formed at the bottom of the MBR reactor 1, and sludge produced by water treatment is deposited in the sludge tank 11. A sludge pipe 12 is arranged at the bottom of the MBR reactor 1 the sludge pipe 12 is provided with a sludge pump 13 outside the MBR reactor 1, and the sludge pump 13 discharges the sludge in the sludge tank 11 continuously or intermittently.

(6) The MBR membrane assembly 2 is externally connected with a water producing pipe 14, and the water producing pipe 14 is provided with a water producing pump 15 outside the MBR reactor 1. A negative pressure gauge 16 is arranged on the water producing pipe 14 between the MBR membrane assembly 12 and the water producing pump 15, and the water producing pipe 14 externally connected with the water producing pump 15 is provided with a water producing flowmeter 17.

(7) The three-way change valve 10 is a magnetic exchange valve, the membrane bioreactor further comprises a PLC automation control cabinet 18 and a travel switch arranged at the bottom of the diverting pulley 7, and the winding engine, the negative pressure gauge 16, the water producing pump 15, the sludge pump 13, the travel switch, the gas pump, the water pump and the three-way change valve 10 are all connected with the PLC automation control cabinet 18.

(8) The device is controlled by a full PLC automation control system, a signal of the negative pressure gauge 16 is linked with the winding engine of the lifting device, the water producing pump 15 works, an alarm 19 automatically gives an alarm when a pressure date of the negative pressure gauge 16 reaches a set value, the other accessory devices (such as the water producing pump 15, the sludge pump 13 and the like) of the MBR are stopped at this moment, the signal of the negative pressure gauge 16 is fed back to the PLC automation control cabinet 18, a signal of an automatic control system is fed back to the lifting device to access to an automatic off-line high-pressure washing stage; the MBR membrane assembly 2 is lifted by the winding engine to a certain altitude and stops lifting up until touching the travel switch, the travel switch feeds back a signal to the PLC automation control cabinet 18 at this moment, the PLC automation control cabinet 18 feeds back the signal to a pressure washing pump (gas pump and water pump), the pressure washing pump is started, an automatic backwash program starts, automatic backwash water washing is performed for 8 min, the water pump stops, automatic gas washing starts for 2 min, the time can be adjusted flexibly; the rotating hood 3 automatically rotates under the function of a reactive thrust when the nozzle ejects the gas or water, so that the washing is performed completely without a dead angle; a gas-water combined-washing mode is adopted in the present invention, the washing mode can be firstly gas washing, water washing and then water-gas combined-washing, also can be firstly water washing, gas washing and then water-gas combined-washing, or can be water-gas combined-washing and then water washing and gas washing in a separate way, various orders are not limited on condition that the final washing is clean.

(9) After washing completely, the PLC automation control cabinet starts the lifting device according to the set process, the MBR membrane assembly 2 is dropped down, which can rerun the system. The present invention adopts the PLC programming setting, the system washing completion is executed by a PLC automatic control program, thus reducing a personal error; the system is combined-controlled by the transmission of the negative pressure gauge 16 and the liquid level meter 4, thereby reducing a program error; the alarm 19 can alert various running programs of the system, thus reminding the operator of paying attention to the running state of the system, and solving the emergent problem in time.

(10) Obviously, the present invention is not limited to the above implementation manner. Equivalent modifications or substitutions can further be made by those skilled in the art without departing from the spirit of the present invention and shall all fall within the scope limited by the claims of the present application.