CN204729318U - Intellisense type Submerged Motor Pumps - Google Patents

Abstract

The utility model discloses a kind of Intellisense type Submerged Motor Pumps.Described Submerged Motor Pumps is provided with the water intake optical fiber transducer (1) for measuring Submerged Motor Pumps lift and water outlet optical fiber transducer (4), described water intake optical fiber transducer (1) is arranged on the water intake of described Submerged Motor Pumps, for responding to the pressure of water suffered by water intake, described water outlet optical fiber transducer (4) is arranged on the water outlet of described Submerged Motor Pumps, for inducing the pressure of water suffered by the mouth of a river; The fibre optic liquid level sensor (6) of its position perception depth of immersion of induction is installed on the top of described Submerged Motor Pumps.The utility model can realize testing at any time at the scene, reading lift and depth of immersion, does not need to arrange special test system.Positive meaning is had to examination Submerged Motor Pumps combination property and safe operation situation.

Description

Intellisense type Submerged Motor Pumps

Technical field

The utility model belongs to environmental protection technical field, particularly a kind of Intellisense type Submerged Motor Pumps.

Background technique

Submerged Motor Pumps is widely used in a series of water supply and sewage work such as city water supply, sewage treatment, urban construction, industrial and mineral dock, field irrigation, power station.Physicochemical properties can be carried to be the liquid of water.Submerged Motor Pumps motor is rotated by transmission shaft impeller, to liquid acting, can increase, thus make the liquid needing quantity, be transported to required eminence by the flow passage components of suction pit through pump or be required the place of certain pressure.Submerged Motor Pumps is divided into centrifugal pump, mixed flow pump and axial-flow pump three kinds of forms by the form of impeller, and its performance parameter difference is very large.Characterize technical data required for the pump and mainly contain flow, lift, rotating speed, net positive suction head, power efficiency etc., and flow and lift are most basic parameters.Examine Submerged Motor Pumps performance as user, need corresponding parameter.As shown in Figure 1, this figure is the testing apparatus of measurement in lab Submerged Motor Pumps performance, and flow directly reads by flowmeter.And lift is that the liquid of sign unit weight is from pump inlet flange to the increment of pump discharge flange energy.The numerical value of its theory calculate is not only relevant apart from water surface elevation with manometric gauge pressure, pressure gauge, but also relevant with the average Water discharge flow speed at pressure tap place, larger to the Accuracy of the calculating of actual lift under following situations.

1., due to the difference of on-the-spot actual conditions and technique, do not possess device or the technology of test relevant parameter, be therefore necessary a kind of simple and practical property device of on-the-spot test correlation performance parameters.

2. lift will be calculated by correlation formula, and field working conditions and technique are in continuous change, and its value, also in continuous change, calculates also more loaded down with trivial details.

3. the theory calculate of lift does not consider water-in flange and between water-output flange and corresponding data point, water head energy loss caused by pipeline rubs, the calculating of this numerical value on lift has certain impact, and its loss of head numerical value under different flows is also different, and calculation of complex.

In addition, the operating conditions of pump has a certain impact to technical data required for the pump tool, and the depth of immersion as pump has very large impact to the Operational Limits of Submerged Motor Pumps and Submerged Motor Pumps safe operation and life-span.The depth of immersion of pump is dynamic change, needs regular inspection and measurement.

Therefore, in engineering practice, need a kind of containing simple and practical, good reliability, can carry out the method for basic parameter measurement at any time to examine the operation of Submerged Motor Pumps.

Summary of the invention

The purpose of this utility model will solve existing Submerged Motor Pumps exactly and test difficulty at the scene, the problem that technical sophistication and testing precision are not high, provides a kind of Intellisense type Submerged Motor Pumps.This Submerged Motor Pumps containing can the basic boot parameter of perception lift and depth of immersion parameter, thus can examine Submerged Motor Pumps performance and operation.This function is simple, reliable and practical, cost is low, and precision is high.

For achieving the above object, the technical solution of the utility model is: Intellisense type Submerged Motor Pumps, described Submerged Motor Pumps is provided with the water intake optical fiber transducer (1) for measuring Submerged Motor Pumps lift and water outlet optical fiber transducer (4), described water intake optical fiber transducer (1) is arranged on the water intake of described Submerged Motor Pumps, for responding to the pressure of water suffered by water intake, described water outlet optical fiber transducer (4) is arranged on the water outlet of described Submerged Motor Pumps, for inducing the pressure of water suffered by the mouth of a river; The fibre optic liquid level sensor (6) of its position perception depth of immersion of induction is installed on the top of described Submerged Motor Pumps.

Described Submerged Motor Pumps is connected with control box (8) by Connectorized fiber optic cabling (7), in described controller (8), be provided with PID instrument; Described water intake optical fiber transducer (1) is connected described PID instrument with described water outlet optical fiber transducer (4), and the pressure it responded to converts electrical signal to, and exports described PID instrument to, draws corresponding force value; Described fibre optic liquid level sensor (6) connects described PID instrument, and the pressure it responded to converts electrical signal to exports described PID instrument to, described PID instrument draws the distance of described fibre optic liquid level sensor (6) position apart from the water surface, namely show that the depth of immersion of described Submerged Motor Pumps is for this reading and described fibre optic liquid level sensor (6) position are apart from water-output flange distance between center line sum.

Described water intake and described water outlet are respectively equipped with water intake flange (2) and water outlet flange (3), and described water intake optical fiber transducer (1) and described water outlet optical fiber transducer (4) are assemblied in described water intake flange (2) respectively with on described water outlet flange (3).

The optical fiber transducer that the utility model utilizes has larger superiority than traditional sensor, by optical-fiber type pressure transducer being implanted to the position needing to carry out long-term monitoring, utilize the relation that the intensity of light carrier is directly proportional to received pressure, convert pressure signal to 4 ~ 20mA, 1 ~ 5VDC electrical signal, and by electrical signal by Optical Fiber Transmission to the PID instrument in control box, draw responded to force value.

The utility model can realize testing at any time at the scene, reading lift and depth of immersion, does not need to arrange special test system, has the advantages such as simple and practical, good reliability.

The utility model adopts optical fiber transmission of signal, and have highly sensitive, electrical insulation properties is good, corrosion-resistant, high temperature resistant, high pressure resistant, has good geometrical shape adaptability.

Accompanying drawing explanation

Fig. 1 is Submerged Motor Pumps laboratory test schematic diagram in prior art;

Wherein, 100 is pressure gauge, and 200 is test pipeline, and 300 is flowmeter, and 400 is flow control valve.

Fig. 2 is existing on-site parameters test schematic diagram;

Wherein, 100 is pressure gauge, and 300 is flowmeter, and 400 is flow control valve.

Fig. 3 is the utility model schematic diagram;

Wherein, 1 is water intake optical fiber transducer, and 2 is water intake flange, and 3 is water outlet flange, and 4 is water outlet optical fiber transducer, and 5 is impeller, and 6 is fibre optic liquid level sensor, and 7 is Connectorized fiber optic cabling, and 8 is control box.

Embodiment

The following description is only exemplary and be not to limit the disclosure, application or purposes in essence.Should be understood that, in whole accompanying drawing, corresponding reference character represents identical or corresponding parts and feature.

The utility model Intellisense type Submerged Motor Pumps as shown in Figure 3, this Submerged Motor Pumps comprises water intake optical fiber transducer 1, water intake flange 2, water outlet flange 3, water outlet optical fiber transducer 4, impeller 5, fibre optic liquid level sensor 6, Connectorized fiber optic cabling 7, control box 8.

Water intake flange and water outlet flange are processed with the tapped hole corresponding with water intake optical fiber transducer 1 and water outlet optical fiber transducer 4 respectively, are processed with the tapped hole of fixed fiber liquid level sensor 6 in the appropriate location, top of Submerged Motor Pumps.

Water intake optical fiber transducer 1 and water outlet optical fiber transducer 4 are assemblied on water intake flange and water outlet flange respectively; At electric pump top assembling fibre optic liquid level sensor 6, this sensor is assemblied in electric pump appearance and liquid comes into contact, is fixed by the Connectorized fiber optic cabling of each sensor and is drawn out in the PID instrument of control box.PID instrument receives the electrical signal that water intake optical fiber transducer 1, water outlet optical fiber transducer 4 and fibre optic liquid level sensor 6 are changed, and directly shows the relevant parameters such as flow, pressure, rotating speed or the degree of depth on its interface.

Start electric pump, transmission shaft impeller 5 High Rotation Speed can increase, thus makes the liquid needing quantity, is transported to required by suction pit through the flow passage components of pump, and the energy of liquid is increased.Optic fiber pressure transducer perception, is converted to 4 ~ 20mA by pressure, and 1 ~ 5VDC electrical signal exports, and directly shows force value in PID instrument.Because lift of pump, namely energy increment is mainly reflected in pressure energy increase, so usually replace with pressure increment liftrepresent.So water outlet pressure and water intake pressure difference are electric lift of pump; Fibre optic liquid level sensor perception, convert hydrostatic pressure to 4 ~ 20mA, 1 ~ 5VDC electrical signal exports, and PID instrument directly shows the distance of test point apart from the water surface, and the depth of immersion of Submerged Motor Pumps is this reading and test point distance water-output flange distance between center line sum.

Regulate the flow control valve in user's drainage system, change the flow of electric pump, its lift also changes thereupon, goes out electric lift of pump and depth of immersion with above-mentioned the same perception.

Other relevant parameters of Submerged Motor Pumps can be obtained according to above parameter and related data, and then examine combination property and the safe operation state of Submerged Motor Pumps.

Described in the utility model, concrete case study on implementation is only better case study on implementation of the present utility model, is not used for limiting practical range of the present utility model.Namely all equivalences done according to the content of the utility model claim change and modify, all should as technology category of the present utility model.

Claims (3)

1. Intellisense type Submerged Motor Pumps, it is characterized in that, described Submerged Motor Pumps is provided with the water intake optical fiber transducer (1) for measuring Submerged Motor Pumps lift and water outlet optical fiber transducer (4), described water intake optical fiber transducer (1) is arranged on the water intake of described Submerged Motor Pumps, and described water outlet optical fiber transducer (4) is arranged on the water outlet of described Submerged Motor Pumps; The fibre optic liquid level sensor (6) of its position perception depth of immersion of induction is installed on the top of described Submerged Motor Pumps.

2. Intellisense type Submerged Motor Pumps according to claim 1, is characterized in that, described Submerged Motor Pumps is connected with control box (8) by Connectorized fiber optic cabling (7), in described controller (8), be provided with PID instrument; Described water intake optical fiber transducer (1) is connected described PID instrument with described water outlet optical fiber transducer (4), and the pressure it responded to converts electrical signal to, and exports described PID instrument to, draws corresponding force value; Described fibre optic liquid level sensor (6) connects described PID instrument, and the pressure it responded to converts electrical signal to exports described PID instrument to, described PID instrument draws the distance of described fibre optic liquid level sensor (6) position apart from the water surface, namely show that the depth of immersion of described Submerged Motor Pumps is for this reading and described fibre optic liquid level sensor (6) position are apart from water-output flange distance between center line sum.

3. Intellisense type Submerged Motor Pumps according to claim 1, it is characterized in that, described water intake and described water outlet are respectively equipped with water intake flange (2) and water outlet flange (3), and described water intake optical fiber transducer (1) and described water outlet optical fiber transducer (4) are assemblied in described water intake flange (2) respectively with on described water outlet flange (3).