CN114245627B - Intelligent management system for engineering monitoring equipment - Google Patents
Intelligent management system for engineering monitoring equipment Download PDFInfo
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- CN114245627B CN114245627B CN202111263894.XA CN202111263894A CN114245627B CN 114245627 B CN114245627 B CN 114245627B CN 202111263894 A CN202111263894 A CN 202111263894A CN 114245627 B CN114245627 B CN 114245627B
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/20009—Modifications to facilitate cooling, ventilating, or heating using a gaseous coolant in electronic enclosures
- H05K7/20136—Forced ventilation, e.g. by fans
- H05K7/20145—Means for directing air flow, e.g. ducts, deflectors, plenum or guides
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16F—SPRINGS; SHOCK-ABSORBERS; MEANS FOR DAMPING VIBRATION
- F16F15/00—Suppression of vibrations in systems; Means or arrangements for avoiding or reducing out-of-balance forces, e.g. due to motion
- F16F15/02—Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems
- F16F15/023—Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems using fluid means
- F16F15/0237—Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems using fluid means involving squeeze-film damping
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K5/00—Casings, cabinets or drawers for electric apparatus
- H05K5/02—Details
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K5/00—Casings, cabinets or drawers for electric apparatus
- H05K5/02—Details
- H05K5/0217—Mechanical details of casings
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/20009—Modifications to facilitate cooling, ventilating, or heating using a gaseous coolant in electronic enclosures
- H05K7/20209—Thermal management, e.g. fan control
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
Abstract
The invention discloses an intelligent management system of engineering monitoring equipment, which comprises a case and a central processing unit, wherein a cover plate is fixed at the upper end of the case through bolts, a pumping box is fixed on the side wall of the case, an air supply mechanism is arranged in the pumping box, an annular heat exchange tube is fixed on the inner wall of the case, an air inlet pipe and an air outlet pipe are symmetrically inserted into the side wall of the case in a penetrating way, the air inlet pipe and the air outlet pipe are communicated with the inside of the heat exchange tube, the other end of the air inlet pipe penetrates through the side wall of the pumping box and is communicated with the inside of the pumping box, and two air storage bottles are fixed on the side wall of the case. The advantages are that: in this device, the inside heat of quick-witted case can be taken away by the inside gas absorption of heat exchange tube, and then makes the inside temperature of machine case obtain reducing to machine case inside is located external environment and directly switches on, thereby can not receive the influence of external sand wind, can accomplish the effective regulation and control to the inside temperature of machine case through the regulation of matching formula.
Description
Technical Field
The invention relates to the technical field of engineering monitoring, in particular to an intelligent management system of engineering monitoring equipment.
Background
In the construction process of the building engineering, the safety of the engineering construction can be ensured only by effectively monitoring the materials at all parts of the engineering in the equipment state, so that the risk is reduced;
at present, the monitoring of each position is mostly carried out through the mode of manual inspection, the mode is not only inefficiency, can't accomplish real-time supervision simultaneously, monitoring effect is poor, use equipment to detect also needs to carry out centralized management to equipment, generally detect through the sensor, gather the collection box again, and then get into the system and carry out analytical processing, current equipment lacks the collection analytic system, the collection box is usually installed in the eminence simultaneously, and need face abominable construction environment, therefore the collection box is usually totally enclosed treatment, this has just led to collection box inside temperature uncontrollable, the operation of inside electronic component is influenced to easy overheated, and the low temperature environment also will influence the operation effect, so current collection box can't adapt to abominable environment.
Disclosure of Invention
The invention aims to solve the problem of poor monitoring effect in the prior art, and provides an intelligent management system for engineering monitoring equipment.
In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides an engineering monitoring facilities intelligent management system, includes quick-witted case and central processing unit, the upper end of machine case has the apron through bolt fastening, the lateral wall of machine case is fixed with the pump gas case, the inside of pump gas case is equipped with air supply mechanism, the inner wall of machine case is fixed with annular heat exchange tube, the lateral wall symmetry of machine case runs through and inserts and be equipped with intake pipe and blast pipe, intake pipe and blast pipe all with the inside switch-on of heat exchange tube, the other end of intake pipe runs through the lateral wall of pump gas case and the inside switch-on of pump gas case, the lateral wall of machine case is fixed with two gas cylinders, two the upper end of gas cylinder all is equipped with aerifys slow descent mechanism, the bottom of machine case is equipped with and aerifys buffer gear, the inside of machine case is fixed with the control box, the upper end of control box is fixed with prevents weighing down the case, the inside of control box is equipped with accuse temperature and connects electric mechanism, the inside of preventing weighing down the case is equipped with and emptys response mechanism.
In the above-mentioned engineering monitoring facilities intelligent management system, air supply mechanism includes two piston boards with pump gas case inner wall sealing sliding connection, two the piston board is all fixed with reset spring jointly with the inner wall of pump gas case, two the lateral wall of piston board has all run through and has seted up the transfer hole, two inlet ports have been run through to the lateral wall of pump gas case, the inside of inlet port and transfer hole all is equipped with the check valve, the inside of pump gas case is fixed with the electric bar, the inner wall of machine case is fixed with the motor, the output shaft of motor runs through the lateral wall of machine case and pump gas case and is fixed with the bull stick, the lateral wall of bull stick is fixed with the striking piece, the bull stick is located the intermediate position of two piston boards.
In the above-mentioned engineering monitoring facilities intelligent management system, aerify slow descending mechanism including penetrating the bleed pipe that is equipped with in two gas bomb upper ends, the inside of bleed pipe is equipped with the solenoid valve, the lateral wall of quick-witted case is fixed with two middle covers, two the bleed pipe respectively with the inside intercommunication of two middle covers, two the inner wall of middle cover is all sealed sliding connection has the slide, two the upper end of slide is all run through and is inserted the gas tube, the upper end of apron offsets has the flotation bladder, two the other end of gas tube all is put through with the inside of flotation bladder.
In the intelligent management system of engineering monitoring equipment, the inflation buffer mechanism comprises a protection groove formed in the bottom of the case, a protection bag is fixed on the inner wall of the protection groove, an air injection pipe penetrates through and is fixed on the side wall of the protection bag, the other end of the air injection pipe is communicated with the inside of the exhaust pipe, and an electromagnetic valve is arranged at the end part of the exhaust pipe.
In the intelligent management system of the engineering monitoring equipment, the temperature control electric receiving mechanism comprises a push plate which is in sealing sliding connection with the inner wall of the control box, a connecting spring is fixed on the push plate and the inner wall of the control box together, an electric receiving block is fixed at the end part of the push plate, two electric receiving resistors are fixed on the inner wall of the control box, a pair of heating contacts and a pair of heat transfer contacts are fixed on the inner wall of the control box, temperature control fluid is filled in the control box, and the temperature control fluid is formed by mixing liquid dichloromethane at normal temperature and gaseous dimethylamine at normal temperature.
In the intelligent management system of engineering monitoring equipment, the dumping induction mechanism comprises a liquid storage barrel fixed at the inner bottom of the anti-falling box, two partition blocks are fixed on the side wall of the liquid storage barrel and the inner wall of the anti-falling box together, water falling holes are formed in the upper ends of the partition blocks in a penetrating mode, two groups of symmetrically arranged power connection sheets are fixed on the inner wall of the anti-falling box, electromagnetic valves are arranged in the water falling holes, the power connection sheets are located at the lower portions of the partition blocks, the upper ends of the partition blocks are inclined planes, and conducting liquid is filled in the liquid storage barrel.
In the intelligent management system of engineering monitoring equipment, the central processing unit is electrically connected with the data acquisition module, the database module and the visual output module, the data acquisition module comprises an automatic warehousing unit, a manual entry unit, a data filtering and calculating unit and a qualitative rapid evaluation unit, the database module comprises a data reduction unit, a data maintenance unit and a data compiling unit, and the visual output module comprises a graph output unit and a report output unit.
In the intelligent management system for engineering monitoring equipment, the automatic warehouse entry unit is electrically connected with a centralized unit, and the centralized unit is electrically connected with a plurality of sensors.
Compared with the prior art, the invention has the advantages that:
1. in the device, heat in the case can be absorbed and taken away by gas in the heat exchange tube, so that the temperature in the case is reduced, and the case is directly connected with the external environment, so that the influence of external wind and sand is avoided, and the effective regulation and control of the temperature in the case can be completed through matched regulation;
2. in the device, at low temperature, the electric heating rod is started to generate heat, and the motor is started to pump air, so that hot air flow can pass through the heat exchange tube, further, the heating treatment of the internal environment of the case is realized, and the internal elements of the case are kept in a high-efficiency working state;
3. in this device, the flotation cell is inflated fast and is expanded to be located the top of quick-witted case, form the structure of parachute, thereby effectually alleviate the speed of falling of quick-witted case, reach the purpose of protection machine case, the protection cell can be constantly aerifyd and expand, and then can protect the bottom of quick-witted case, obtain the buffering when its final contact ground, effectively protect the quick-witted case.
Drawings
FIG. 1 is a schematic diagram of an intelligent management system for engineering monitoring equipment according to the present invention;
FIG. 2 is a side view of an intelligent management system for engineering monitoring equipment according to the present invention;
FIG. 3 is a half cross-sectional view of an intelligent management system for engineering monitoring equipment according to the present invention;
FIG. 4 is a schematic structural diagram of the anti-falling box and the control box in the intelligent management system of the engineering monitoring equipment;
FIG. 5 is a schematic diagram of the structure of the middle sleeve part in the intelligent management system of the engineering monitoring equipment;
fig. 6 is a system block diagram of an intelligent management system for engineering monitoring equipment according to the present invention.
In the figure: 1 machine case, 2 apron, 3 motors, 4 pump gas tanks, 5 bull stick, 6 heat exchange tubes, 7 intake pipes, 8 blast pipes, 9 gas injection pipes, 10 gas storage bottles, 11 gas release pipes, 12 middle sleeves, 13 sliding plates, 14 gas injection pipes, 15 floating bags, 16 anti-falling boxes, 17 liquid storage cylinders, 18 spacer blocks, 19 water falling holes, 20 electric connection sheets, 21 impact blocks, 22 return springs, 23 piston plates, 24 air inlet holes, 25 transfer holes, 26 electric heating rods, 27 control boxes, 28 connecting springs, 29 push plates, 30 electric connection blocks, 31 electric connection resistors, 32 heating contacts, 33 heat transfer contacts, 34 protection grooves and 35 protection bags.
Detailed Description
The following examples are for illustrative purposes only and are not intended to limit the scope of the invention.
Examples
Referring to fig. 1-6, an intelligent management system for engineering monitoring equipment comprises a case 1 and a central processing unit, wherein a cover plate 2 is fixed at the upper end of the case 1 through bolts, a pumping box 4 is fixed at the side wall of the case 1, an air supply mechanism is arranged in the pumping box 4, an annular heat exchange tube 6 is fixed at the inner wall of the case 1, an air inlet pipe 7 and an air outlet pipe 8 are symmetrically and penetratingly arranged at the side wall of the case 1, the air inlet pipe 7 and the air outlet pipe 8 are communicated with the inside of the heat exchange tube 6, the other end of the air inlet pipe 7 penetrates through the side wall of the pumping box 4 and is communicated with the inside of the pumping box 4, two gas cylinders 10 are fixed at the side wall of the case 1, an air inflation slow descent mechanism is arranged at the upper ends of the two gas cylinders 10, an air inflation buffer mechanism is arranged at the bottom of the case 1, a control box 27 is fixed at the inside of the case 1, an anti-falling box 16 is fixed at the upper end of the control box 27, a temperature control power connection mechanism is arranged in the control box 27, and an anti-falling box 16 is arranged inside the anti-falling box 16.
The air supply mechanism comprises two piston plates 23 which are in sealing sliding connection with the inner wall of the air pumping box 4, the two piston plates 23 are fixedly provided with a reset spring 22 together with the inner wall of the air pumping box 4, the side walls of the two piston plates 23 are provided with a transfer hole 25 in a penetrating mode, the side walls of the air pumping box 4 are provided with two air inlets 24 in a penetrating mode, check valves are arranged in the air inlets 24 and the transfer hole 25, an electric heating rod 26 is fixed in the air pumping box 4, a motor 3 is fixed on the inner wall of the machine box 1, an output shaft of the motor 3 penetrates through the side walls of the machine box 1 and the air pumping box 4 and is fixedly provided with a rotary rod 5, the side walls of the rotary rod 5 are fixedly provided with impact blocks 21, and the rotary rod 5 is located in the middle position of the two piston plates 23.
The inflation slow descending mechanism comprises a deflation pipe 11 which is penetrated and arranged at the upper ends of two gas cylinders 10, an electromagnetic valve is arranged in the deflation pipe 11, two middle sleeves 12 are fixed on the side wall of the case 1, the two deflation pipes 11 are respectively communicated with the interiors of the two middle sleeves 12, sliding plates 13 are respectively connected with the inner walls of the two middle sleeves 12 in a sealing sliding manner, the upper ends of the two sliding plates 13 are respectively penetrated and inserted with an inflation pipe 14, a floating bag 15 is propped against the upper end of the cover plate 2, and the other ends of the two inflation pipes 14 are communicated with the interiors of the floating bag 15.
The inflatable buffer mechanism comprises a protection groove 34 arranged at the bottom of the chassis 1, a protection bag 35 is fixed on the inner wall of the protection groove 34, an air injection pipe 9 is fixedly penetrated through the side wall of the protection bag 35, the other end of the air injection pipe 9 is communicated with the inside of the exhaust pipe 8, and an electromagnetic valve is arranged at the end part of the exhaust pipe 8.
The temperature control electric receiving mechanism comprises a push plate 29 which is in sealed sliding connection with the inner wall of a control box 27, a connecting spring 28 is fixed on the push plate 29 and the inner wall of the control box 27 together, an electric receiving block 30 is fixed at the end part of the push plate 29, two electric receiving resistors 31 are fixed on the inner wall of the control box 27, a pair of heating contacts 32 and a pair of heat transfer contacts 33 are fixed on the inner wall of the control box 27, temperature control fluid is filled in the control box 27, the temperature control fluid is formed by mixing liquid methylene dichloride at normal temperature and gaseous dimethylamine at normal temperature, the methylene dichloride is gasified at high temperature, the dimethylamine is liquefied at low temperature, and the pressure difference formed at two sides of the push plate 29 can be used for driving the push plate 29 to move, the heat transfer contacts 33 control the starting of a motor 3, and the heating contacts 32 control the starting of an electric heating rod 26.
The dumping induction mechanism comprises a liquid storage barrel 17 fixed at the inner bottom of an anti-falling box 16, two partition blocks 18 are jointly fixed on the side wall of the liquid storage barrel 17 and the inner wall of the anti-falling box 16, water falling holes 19 are formed in the upper ends of the partition blocks 18 in a penetrating mode, two groups of symmetrically arranged electric connection pieces 20 are fixed on the inner wall of the anti-falling box 16, electromagnetic valves are arranged in the water falling holes 19, the electric connection pieces 20 are located at the lower portions of the partition blocks 18, the upper ends of the partition blocks 18 are inclined planes, conducting liquid is filled in the liquid storage barrel 17, the conducting liquid is any conducting liquid, the electromagnetic valves in the water falling holes 19 are in a closed state when the case 1 is not used, conducting liquid is prevented from flowing in the transportation process, the upper ends of the partition blocks 18 are inclined planes, after triggering, equipment can be inverted, the electromagnetic valves are closed, the flowing conducting liquid returns to the liquid storage barrel 17 again, two groups of electric connection pieces 20 are arranged, and the effective protection of the case 1 can be ensured regardless of the dumping of the side of the state of the case 1.
The central processing unit is electrically connected with a data acquisition module, a database module and a visual output module, wherein the data acquisition module comprises an automatic warehousing unit, a manual input unit, a data filtering and calculating unit and a qualitative rapid evaluation unit, the database module comprises a data calculation unit, a data maintenance unit and a data compiling unit, and the visual output module comprises a graph output unit and a report output unit; the automatic warehousing unit is electrically connected with a centralized unit, the centralized unit is electrically connected with a plurality of sensors, the sensors are arranged at all positions and used for detecting the states of all positions, then signals are transmitted to the centralized unit, the centralized unit further enters the automatic warehousing unit, and then data are compared and analyzed, so that effective monitoring of all positions is realized, multiple groups of data are recorded, and a database can be expanded.
In the invention, after the chassis 1 is installed, the chassis 1 is sealed by the bolt fixing of the cover plate 2, so that the interior of the chassis 1 is in a fully sealed state, the influence of the external severe environment on the internal structure of the chassis 1 can be avoided, after the electric equipment in the chassis 1 works for a long time, the temperature in the chassis 1 is increased, the interior of the chassis 1 is sealed, the heat cannot be timely diffused, the heat in the chassis 1 is greatly absorbed by methylene dichloride in the control box 27, the methylene dichloride absorbs heat and gasifies, the pressure on one side of the push plate 29 is increased, the push plate 29 can drive the power receiving block 30 to move, the power receiving block 30 electrically connects the two power receiving resistors 31, the motor 3 is electrified after the two power receiving resistors 31 are connected, the motor 3 can drive the rotary rod 5 to rotate, and the rotary rod 5 drives the impact block 21 to rotate, the impact block 21 is intermittently contacted with the two piston plates 23, the piston plates 23 are pushed to move in the contact process, the piston plates 23 do reciprocating motion in cooperation with the reset spring 22, when the piston plates 23 approach the rotating rod 5, external air is sucked through the air inlet holes 24, when the piston plates 23 are extruded by the impact block 21 to be far away from the rotating rod 5, the sucked air is extruded into the air inlet pipe 7 through the transfer holes 25 by the piston plates 23, and finally is transferred into the heat exchange pipe 6 through the air inlet pipe 7 and then is discharged through the air outlet pipe 8, the process can realize continuous flow of the air inside the heat exchange pipe 6, so that heat inside the case 1 can be absorbed and taken away by the air inside the heat exchange pipe 6, the temperature inside the case 1 is reduced, and the inside of the case 1 is directly connected with the external environment, so that the influence of external wind and sand can not be caused;
the higher the internal temperature of the case 1 is, the larger the gasification amount of dichloromethane is, the longer the pushing plate 29 is pushed to move, so that the calculated resistance value of the power connection resistor 31 is smaller, the higher the output power of the motor 3 is, the faster the airflow velocity is, the higher the heat dissipation efficiency is, and therefore the effective regulation and control of the internal temperature of the case 1 can be completed through the matched regulation;
when the external environment temperature is lower, the internal temperature of the case 1 is also reduced, the output power of electric equipment is influenced by the excessively low temperature, so that the operation effect is influenced, and when the temperature is excessively low, dimethylamine in the control box 27 is liquefied, so that the air pressure on one side of the push plate 29 is reduced, the push plate 29 is moved under the action of air pressure difference, the electric connection block 30 is led to connect the pair of heating contacts 32 and the pair of heat transfer contacts 33, so that the electric heating rod 26 starts to generate heat, the motor 3 starts to pump air, hot air flows can pass through the heat exchange tube 6, and further the heating treatment on the internal environment of the case 1 is realized, so that the internal elements of the case 1 keep a high-efficiency working state;
since the case 1 is usually installed at a high place, when the case 1 is impacted or loose, the case is easy to fall from the high place, when the case 1 falls from the high place, the case 1 is definitely heavy on one side because the internal elements of the case 1 cannot be uniformly distributed, and the case 1 is overturned to a certain extent in the process of displacement caused by the impact, so that certain inclination and even overturning can be avoided in the process of falling off the case 1;
after the case 1 is inclined, the conductive liquid in the liquid storage barrel 17 flows out of the liquid storage barrel 17, so that the conductive liquid passes through the water falling hole 19, and the two power connection pieces 20 are electrically connected, so that the electromagnetic valve in the air release pipe 11 is opened, the compressed gas in the air storage bottle 10 is quickly diffused into the middle sleeve 12, and then enters the floating bag 15 through the air charging pipe 14, and meanwhile, the sliding plate 13 is pushed to move upwards, so that the floating bag 15 is quickly inflated and unfolded, and is positioned above the case 1, so that a parachute structure is formed, the falling speed of the case 1 is effectively relieved, and the purpose of protecting the case 1 is achieved;
moreover, the connection of the electric connection piece 20 also enables the motor 3 to be electrically started, and the electromagnetic valve inside the exhaust pipe 8 is started, so that the exhaust pipe 8 is closed, external air flow can be pumped into the air injection pipe 9, and then the air flow is continuously filled into the protective bag 35, so that the protective bag 35 can be continuously inflated to expand, the bottom of the case 1 can be protected, buffering is achieved when the protective bag finally contacts the ground, and the case 1 is effectively protected.
The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.
Claims (5)
1. The intelligent management system for engineering monitoring equipment comprises a case (1) and a central processing unit, and is characterized in that a cover plate (2) is fixed at the upper end of the case (1) through bolts, a pumping box (4) is fixed on the side wall of the case (1), an air supply mechanism is arranged in the pumping box (4), an annular heat exchange tube (6) is fixed on the inner wall of the case (1), an air inlet pipe (7) and an air outlet pipe (8) are symmetrically penetrated and penetrated through the side wall of the case (1), the air inlet pipe (7) and the air outlet pipe (8) are communicated with the inside of the heat exchange tube (6), two air bottles (10) are fixed on the side wall of the case (1), an air-charging slow-descent mechanism is arranged at the upper end of the air bottle (10), an air-charging buffer mechanism is arranged at the bottom of the case (1), a control box (27) is fixed in the case (1), an upper end of the control box (27) is fixedly connected with the inside of the heat exchange tube (6), and an induction mechanism (16) is fixedly connected with the inside of the control box (16); the air supply mechanism comprises two piston plates (23) which are in sealed sliding connection with the inner wall of the air pumping box (4), wherein the two piston plates (23) and the inner wall of the air pumping box (4) are fixedly provided with return springs (22) together, the side walls of the two piston plates (23) are provided with through holes (25), the side walls of the air pumping box (4) are provided with through holes (24), the inside of the through holes (24) and the inside of the through holes (25) are provided with check valves, the inside of the air pumping box (4) is fixedly provided with an electric heating rod (26), the inner wall of the machine box (1) is fixedly provided with a motor (3), the output shaft of the motor (3) penetrates through the side walls of the machine box (1) and the air pumping box (4) and is fixedly provided with a rotary rod (5), the side walls of the rotary rod (5) are fixedly provided with impact blocks (21), and the rotary rod (5) is located at the middle position of the two piston plates (23); the inflatable slow descending mechanism comprises a deflation pipe (11) penetrating through the upper ends of two gas storage bottles (10), an electromagnetic valve is arranged in the deflation pipe (11), two middle sleeves (12) are fixed on the side wall of the case (1), the deflation pipe (11) is respectively communicated with the interiors of the two middle sleeves (12), sliding plates (13) are hermetically and slidingly connected to the inner walls of the two middle sleeves (12), the upper ends of the two sliding plates (13) are respectively penetrated and inserted with an inflation pipe (14), a floating bag (15) is propped against the upper end of the cover plate (2), and the other ends of the two inflation pipes (14) are communicated with the interiors of the floating bags (15); the inflatable buffer mechanism comprises a protection groove (34) formed in the bottom of the chassis (1), a protection bag (35) is fixed on the inner wall of the protection groove (34), an air injection pipe (9) is fixedly penetrated through the side wall of the protection bag (35), the other end of the air injection pipe (9) is communicated with the inside of the exhaust pipe (8), and an electromagnetic valve is arranged at the end part of the exhaust pipe (8).
2. The intelligent management system of engineering monitoring equipment according to claim 1, wherein the temperature control electric receiving mechanism comprises a push plate (29) which is in sealing sliding connection with the inner wall of a control box (27), a connecting spring (28) is jointly fixed on the push plate (29) and the inner wall of the control box (27), an electric receiving block (30) is fixed on the end part of the push plate (29), two electric receiving resistors (31) are fixed on the inner wall of the control box (27), a pair of heating contacts (32) and a pair of heat transfer contacts (33) are fixed on the inner wall of the control box (27), and a temperature control fluid is filled in the control box (27) and consists of liquid dichloromethane at normal temperature and gaseous dimethylamine at normal temperature in a mixed mode.
3. The intelligent management system of engineering monitoring equipment according to claim 1, wherein the dumping induction mechanism comprises a liquid storage barrel (17) fixed at the inner bottom of an anti-falling box (16), two partition blocks (18) are jointly fixed on the side wall of the liquid storage barrel (17) and the inner wall of the anti-falling box (16), water falling holes (19) are formed in the upper ends of the partition blocks (18) in a penetrating mode, two groups of symmetrically arranged power connection sheets (20) are fixed on the inner wall of the anti-falling box (16), electromagnetic valves are arranged in the water falling holes (19), the power connection sheets (20) are located at the lower portions of the partition blocks (18), the upper ends of the partition blocks (18) are inclined planes, and conductive liquid is filled in the liquid storage barrel (17).
4. The intelligent management system of engineering monitoring equipment according to claim 1, wherein the central processing unit is electrically connected with a data acquisition module, a database module and a visual output module, the data acquisition module comprises an automatic warehousing unit, a manual entry unit, a data filtering and calculating unit and a qualitative rapid evaluation unit, the database module comprises a data calculation unit, a data maintenance unit and a data compiling unit, and the visual output module comprises a graph output unit and a report output unit.
5. The intelligent management system of an engineering monitoring device according to claim 4, wherein the automatic warehouse entry unit is electrically connected with a centralized unit, and the centralized unit is electrically connected with a plurality of sensors.
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| CN202111263894.XA CN114245627B (en) | 2021-10-27 | 2021-10-27 | Intelligent management system for engineering monitoring equipment |
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| CN202111263894.XA CN114245627B (en) | 2021-10-27 | 2021-10-27 | Intelligent management system for engineering monitoring equipment |
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| CN114245627B true CN114245627B (en) | 2023-08-18 |
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| CN113270803A (en) * | 2021-06-28 | 2021-08-17 | 国网湖北省电力有限公司鄂州供电公司 | Power transformation cabinet for electric power and electric power transmission and transformation |
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| CN209462755U (en) * | 2018-12-03 | 2019-10-01 | 同济大学浙江学院 | A kind of intelligent data acquisition unit |
| CN210296425U (en) * | 2019-02-22 | 2020-04-10 | 东莞市合一新能源有限公司 | Integrated temperature self-adaptive polymer lithium battery intelligent device |
| CN111712090A (en) * | 2020-07-27 | 2020-09-25 | 马鞍山威莎自动化设备科技有限公司 | Electric automation equipment overhauls protector |
| CN112234480A (en) * | 2020-10-17 | 2021-01-15 | 苏正智能电气有限公司 | Low-voltage switch cabinet with equipment connecting mechanism |
| CN213240127U (en) * | 2020-10-19 | 2021-05-18 | 黎金 | Portable water quality monitoring device |
| CN112506315A (en) * | 2020-11-16 | 2021-03-16 | 周泉火 | Computer host preheating system |
| CN112467536A (en) * | 2020-11-19 | 2021-03-09 | 河北卓越电气有限责任公司 | Shockproof heavy current switch cabinet with heat dissipation and pressure relief device |
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| CN213751304U (en) * | 2020-11-27 | 2021-07-20 | 瑞安市匠心精密五金有限公司 | Cover plate with protection function |
| CN113270803A (en) * | 2021-06-28 | 2021-08-17 | 国网湖北省电力有限公司鄂州供电公司 | Power transformation cabinet for electric power and electric power transmission and transformation |
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| CN114245627A (en) | 2022-03-25 |
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