CN209228649U - A kind of remotely intelligently monitoring pumping plant - Google Patents

Abstract

The utility model discloses a kind of remotely intelligently monitoring pumping plant, including textile machine and fork lift truck, the bottom of textile machine is equipped with shock-absorbing supporting device, and textile machine is connect with fork lift truck by shock-absorbing supporting device.This kind of remotely intelligently monitoring pumping plant passes through setting buffer spring, buffer spring connects pedestal and footstock, when top textile machine, which works, to be shaken, pass through the elastic force of buffer spring, dissolve the vibration and shake at top, bottom base will not be shaken, bumper and absorbing shock is carried out to the textile machine at top, prevent textile machine from shifting because of shake, it is with good stability, solving previous textile machine support member only has simple support leg to constitute, when textile machine running speed is fast, textile machine has the phenomenon that shake vibration, it can be shifted when shake, and ground can be caused to damage, the problem of stationarity difference.

Description

A kind of remotely intelligently monitoring pumping plant

Technical field

The utility model relates to pumping plant technical field, specially a kind of remotely intelligently monitoring pumping plant.

Background technique

In water supply project scene, often there is water supply well, pumping plant dispersion, distance management center is remote, depends merely on manpower and goes to now Field turn on pump closes pump, will expend a large amount of man power and material, and since distance is remote, it is distributed dispersion, is relatively difficult to by way of wiring It realizes, and often water supply in most cases, if the water supply of waterworks, power plant, large chemical plant needs to monitor in real time again, Therefore water supply tele-control system will accomplish the function of wireless, real time monitoring, management water supply well.

For existing some water pumps when drawing water, water inlet pipe inlet easily sucks various sundries, the biggish sundries of volume It can be gathered in water inlet pipe, cause into water blockage, and in water supply project scene, often there is water supply well, pumping plant dispersion, distance Administrative center is remote, depends merely on manpower and goes to live turn on pump, closes pump, will expend a large amount of man power and material, and due to water supply well and pump From remote, distribution dispersion is relatively difficult to realize stop spacing by way of wiring.

Utility model content

The utility model solve the technical issues of be to overcome the remotely intelligently monitoring pumping plant defect of the prior art, and It is proposed a kind of remotely intelligently monitoring pumping plant.The camera real-time video distal end monitoring pump working state.

To achieve the above object, the utility model provides the following technical solutions: a kind of remotely intelligently monitoring pumping plant, packet It includes pedestal, water feed apparatus, casing, intelligent controlling device, signal receiver, signal projector, electronic pressure gage, flowmeter, go out The mouth of a river and station end supervisor, the top seamless welding of the pedestal have casing, and the left side seamless welding of the casing, which has into water, to be filled It sets, the inside left of the water feed apparatus is connected with shaft by nut, is connected in the shaft by nut The middle part of mixing blade, the shaft is connected with water wheels by nut, and the both ends of the shaft pass through nut activity respectively It is connected with bearing, water inlet pipe is provided through on the right side of the bearing, discharge hole, institute are provided through on the right side of the water inlet pipe It states the right side inside water feed apparatus and arc filter screen, the upper and lower ends insertion of the arc filter screen is fixedly connected with by nut It is provided with the first groove, the middle part insertion of first groove is provided with link block, the left and right sides of first inside grooves It is fixedly connected with spring stack by nut, the inner wall two sides of the water inlet pipe, which are embedded in, is provided with first through hole, the water inlet dress The right side seamless welding set has pump power control cabinet, and there are two cameras for the inner wall insertion setting of the water feed apparatus, described The top seamless welding of casing has intelligent controlling device, is consolidated respectively by nut at left and right sides of the top of the intelligent controlling device Surely it is connected with signal receiver and signal projector, the front insertion of the casing is provided with electronic pressure gage and flowmeter, institute The right side seamless welding for stating casing has water outlet, and the front insertion of the station end supervisor is provided with subsystem of video, the intelligence It can control device, signal receiver, signal projector, electronic pressure gage, flowmeter, stand end supervisor and camera and water pump Power controling box is electrically connected by power supply line.

Preferably, the signal receiver and signal projector are connected with station end supervisor signal by tetra- area's net of Zhan Nei It connects.

Preferably, the signal receiver and signal projector are electrically connected with pump power control cabinet by power supply line It connects.

Preferably, the intelligent controlling device and pump power control cabinet are electrically connected.

Preferably, the electronic pressure gage and flowmeter are electrical by pump power control cabinet with pump power control cabinet Connection.

Preferably, there are four the mixing blade settings.

Compared with prior art, the utility model has the beneficial effects that

1. it is practical by the way that water pump is realized long-range control to water pump by station end supervisor and is monitored in real time, in casing It is equipped with electronic pressure gage, flowmeter and intelligent controlling device, and the top of intelligent controlling device is provided with signal receiver And signal projector, the side of casing are equipped with outlet pipe, the other side of casing is equipped with water feed apparatus, water feed apparatus include shaft, Mixing blade, water wheels, bearing, water inlet pipe, arc filter screen, link block and spring stack, by by electronic pressure gage and flowmeter The data measured are transferred to intelligent controlling device, transfer data to station end pipe reason by the signal projector of intelligent controlling device Data after operation are transferred to the signal receiver of intelligent controlling device, make intelligent control by machine by the operation for end supervisor of standing Device processed voluntarily starts water pump by the data received and drains outward, has ensured the safety of engineering site.

2. a practical one end by water inlet pipe is connected to side of the casing far from outlet pipe, the two sides inner wall of water inlet pipe On be provided with first through hole, discharge hole and the first groove, discharge hole is between first through hole and the first groove, first through hole position In side of the water inlet pipe far from casing, bearing is installed in first through hole, is connected with shaft between two bearings, shaft is equipped with Four mixing blade and water wheels, and mixing blade is located at the two sides of water wheels, is equipped with link block in first groove, link block Two sides are connect by spring stack with the inner wall of the first groove, and arc filter screen is equipped between two link blocks, when water flow drives water Wheel rotates in shaft, and shaft drives mixing blade rotation, and mixing blade cuts the sundries in sewage, prevents it from blocking up Strainer is filled in, the time that sewage pump continues working is increased significantly, improves work efficiency, extend the service life of sewage pump.

To sum up, a kind of remotely intelligently monitoring pumping plant has to the long-range control of water pump and real time monitoring, and by stirring It mixes blade to cut the sundries in sewage, it is prevented to increase the time that sewage pump continues working significantly from blocking strainer, It improves work efficiency, extends the service life of sewage pump, there is preferable promotional value in the market.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model；

Fig. 2 is the water feed apparatus schematic diagram of internal structure of the utility model；

Fig. 3 is the first inside grooves structural schematic diagram of the utility model；

Fig. 4 is the circuit control flow chart of the utility model.

Figure label: 1, pedestal；2, water feed apparatus；201, shaft；202, mixing blade；203, water wheels；204, bearing； 205, water inlet pipe；206, discharge hole；207, arc filter screen；208, the first groove；209, link block；2010, spring stack； 2011, first through hole；2012, pump power control cabinet；2013, camera；3, casing；4, intelligent controlling device；5, signal connects Receive device；6, signal projector；7, electronic pressure gage；8, flowmeter；9, water outlet；10, it stands end supervisor；1001, video subsystem System.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-4 is please referred to, the utility model provides a kind of a kind of technical solution: 3. remotely intelligently monitoring pumping plants, packet Include pedestal 1, water feed apparatus 2, casing 3, intelligent controlling device 4, signal receiver 5, signal projector 6, electronic pressure gage 7, stream Meter 8, water outlet 9 and station end supervisor 10, the top seamless welding of pedestal 1 have casing 3, and the left side seamless welding of casing 3 has The inside left of water feed apparatus 2, water feed apparatus 2 is connected with shaft 201 by nut, passes through nut activity in shaft 201 It is connected with mixing blade 202, the middle part of shaft 201 is connected with water wheels 203 by nut, and the both ends of shaft 201 lead to respectively It crosses nut and is connected with bearing 204, the right side of bearing 204 is provided through water inlet pipe 205, and the right side of water inlet pipe 205 is run through It is provided with discharge hole 206, the right side inside water feed apparatus 2 is fixedly connected with arc filter screen 207, arc filter screen by nut 207 upper and lower ends insertion is provided with the first groove 208, and the middle part of the first groove 208, which is embedded in, is provided with link block 209, and first The left and right sides inside groove 208 is fixedly connected with spring stack 2010 by nut, and the inner wall two sides of water inlet pipe 205, which are embedded in, to be set It is equipped with first through hole 2011, the right side seamless welding of water feed apparatus 2 has pump power control cabinet 2012, the inner wall of water feed apparatus 2 There are two camera 2013, the top seamless welding of casing 3 has intelligent controlling device 4, the top of intelligent controlling device 4 for insertion setting The end left and right sides is fixedly connected with signal receiver 5 and signal projector 6, the front insertion setting of casing 3 by nut respectively There are electronic pressure gage 7 and flowmeter 8, the right side seamless welding of casing 3 has water outlet 9, and the front insertion for end supervisor 10 of standing is set Be equipped with subsystem of video 1001, intelligent controlling device 4, signal receiver 5, signal projector 6, electronic pressure gage 7, flowmeter 8, Stand end supervisor 10 and camera 2013 passes through power supply line with pump power control cabinet 2012 and is electrically connected, signal receiver 5 It is connect with station 10 signal of end supervisor with signal projector 6 by tetra- area's net of Zhan Nei, by signal projector 6 by the number of water pump According to transmission arrive at a station end pipe reason machine, by stand end supervisor operation, make signal receiver 5 receive through stand 10 operation of end supervisor Data afterwards, operate electric pump, and signal receiver 5 and signal projector 6 pass through electricity with pump power control cabinet 2012 Source line is electrically connected, and the data after end pipe reason 10 operation of machine of missing the stop arrange water pump by pump power control cabinet 2012 Water, intelligent controlling device 4 and pump power control cabinet 2012 are electrically connected, and intelligent controlling device 4 is made to be constantly in operating condition, Preferably to pass through the water level value that the real-time video distal end that camera 2013 transmits monitors the ground such as water pump state, cable floor, work as water When place value reaches preset value, if pumping drainage can be started automatically, if water pump is inactive, the unlatching of manually controllable water pump, electricity Sub- pressure gauge 7 and flowmeter 8 are electrically connected with pump power control cabinet 2012 by pump power control cabinet 2012, and electronics is made Pressure gauge 7 and flowmeter 8 can in real time be monitored water pump, and give the data feedback monitored to station end supervisor 10, make Staff can more accurately know the data of water pump, and there are four the settings of mixing blade 202, when water flow drives water wheels 203 turning It is rotated on axis 201, shaft 201 drives four mixing blade 202 to rotate, and cuts mixing blade 202 to the sundries in sewage It cuts, prevents it from blocking strainer, increase the time that sewage pump continues working significantly, improve work efficiency.

Working principle: when the utility model is used, firstly, checking the signal receiver 5 and signal of intelligent controlling device 4 Transmitter 6 whether with station end supervisor normally connect, such as check it is errorless, then, pass through camera 2013 and station end supervisor 10 It realizes to the long-range control of water pump and real time monitoring, electronic pressure gage 7, flowmeter 8 and intelligent controlling device is equipped on casing 3 4, and the top of intelligent controlling device 4 is provided with signal receiver 5 and signal projector 6, the right side of casing 3 is equipped with water outlet 9, the other side of casing 3 is equipped with water feed apparatus 2, and water feed apparatus 2 includes shaft 201, mixing blade 202, water wheels 203, bearing 204, water inlet pipe 205, arc filter screen 207, link block 209 and spring stack 2010, by by electronic pressure gage 7 and flowmeter 8 The data measured are transferred to intelligent controlling device 4, transfer data to station end by the signal projector 6 of intelligent controlling device 4 Data after operation are transferred to the signal receiver of intelligent controlling device 4 by the operation for end supervisor 10 of standing by supervisor 10 5, so that intelligent controlling device 4 is passed through the data that receive and is voluntarily started water pump and drain outward, and the setting of first through hole 2011 into One end of water pipe 205 is connected to side of the casing 3 far from water outlet 9, and it is logical that first is provided on the two sides inner wall of water inlet pipe 205 Hole, discharge hole 206 and the first groove 208, discharge hole 206 are located between first through hole and the first groove 208, and first through hole is located at Side of the water inlet pipe 205 far from casing 3 is equipped with bearing 204 in first through hole, is connected with shaft between two bearings 204 201, set that there are four mixing blade 202 and water wheels 203 in shaft 201, and mixing blade 202 is located at the two sides of water wheels 203, it is described Link block 209 is equipped in first groove 208, the two sides of link block 209 are connected by the inner wall of spring stack 2010 and the first groove 208 Connect, between two link blocks 209 be equipped with arc filter screen 207, when water flow drive water wheels 203 rotated in shaft 201, shaft 201 drive mixing blade 202 to rotate, and mixing blade 202 cuts the sundries in sewage, prevent it from blocking arc filtering Net 207 increases the time that sewage pump continues working significantly, improves work efficiency, and extends the service life of sewage pump, tool There is preferable promotional value, above is exactly the working principle of the utility model.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of remotely intelligently monitoring pumping plant, including pedestal (1), water feed apparatus (2), casing (3), intelligent controlling device (4), signal receiver (5), signal projector (6), electronic pressure gage (7), flowmeter (8), water outlet (9) He Zhanduan supervisor (10), it is characterised in that: the top seamless welding of the pedestal (1) has casing (3), the left side seamless welding of the casing (3) Have water feed apparatus (2), the inside left of the water feed apparatus (2) is connected with shaft (201), the shaft by nut (201) it is connected with mixing blade (202) on by nut, the middle part of the shaft (201) is connected with by nut Water wheels (203), the both ends of the shaft (201) pass through nut respectively and are connected with bearing (204), the bearing (204) Right side is provided through water inlet pipe (205), is provided through discharge hole (206), the water inlet on the right side of the water inlet pipe (205) The internal right side of device (2) is fixedly connected with arc filter screen (207) by nut, above and below the arc filter screen (207) Both ends insertion is provided with the first groove (208), and the middle part insertion of first groove (208) is provided with link block (209), described The internal left and right sides of first groove (208) is fixedly connected with spring stack (2010) by nut, the water inlet pipe (205) it is interior Wall two sides, which are embedded in, to be provided with first through hole (2011), and the right side seamless welding of the water feed apparatus (2) has pump power control Case (2012), the inner wall insertion setting of the water feed apparatus (2) there are two camera (2013), the top of the casing (3) without Seam weld is connected to intelligent controlling device (4), is fixedly connected respectively by nut at left and right sides of the top of the intelligent controlling device (4) There are signal receiver (5) and signal projector (6), the front insertion of the casing (3) is provided with electronic pressure gage (7) and flow It counts (8), the right side seamless welding of the casing (3) has water outlet (9), and the front insertion of station end supervisor (10) is provided with Subsystem of video (1001), the intelligent controlling device (4), signal receiver (5), signal projector (6), electronic pressure gage (7), flowmeter (8), stand end supervisor (10) and camera (2013) passes through power supply line with pump power control cabinet (2012) It is electrically connected.

2. a kind of remotely intelligently monitoring pumping plant according to claim 1, it is characterised in that: the signal receiver (5) it is connect with station end supervisor (10) signal with signal projector (6) by tetra- area's net of Zhan Nei.

3. a kind of remotely intelligently monitoring pumping plant according to claim 2, it is characterised in that: the signal receiver (5) it is electrically connected with pump power control cabinet (2012) by power supply line with signal projector (6).

4. a kind of remotely intelligently monitoring pumping plant according to claim 3, it is characterised in that: the intelligent controlling device (4) it is electrically connected with pump power control cabinet (2012).

5. a kind of remotely intelligently monitoring pumping plant according to claim 1, it is characterised in that: the electronic pressure gage (7) it is electrically connected with pump power control cabinet (2012) by pump power control cabinet (2012) with flowmeter (8).

6. a kind of remotely intelligently monitoring pumping plant according to claim 1, it is characterised in that: the mixing blade (202) there are four setting.