CN114876044A - Cooling reservoir water replenishing device with suspension sensing mechanism and method thereof - Google Patents

Abstract

The invention discloses a water replenishing device and a water replenishing method for a cooling reservoir with a suspension sensing mechanism, and relates to the field of reservoir water replenishing, the device comprises the suspension sensing mechanism, an adjusting component and a water replenishing component, the suspension sensing mechanism is fixedly arranged at the outer side of the reservoir, the reservoir is fixedly arranged on a ground plane, the adjusting component is arranged at one side of the suspension sensing mechanism far away from the reservoir, the bottom of the reservoir is communicated with the bottom of the suspension sensing mechanism through a connecting pipe, the water replenishing component is arranged on the reservoir, and the water replenishing component is used for replenishing water in the reservoir, and the device further comprises the following steps: detect water level, pump machine moisturizing, retest water level and adjusting pump machine output, through suspension sensing mechanism and adjusting part, can carry out real-time supervision to the water yield in the cistern, can carry out different output's regulation to the moisturizing subassembly according to the measuring result, do not cause the waste when guaranteeing that the water yield is sufficient in the cistern.

Description

Cooling reservoir water replenishing device with suspension sensing mechanism and method thereof

Technical Field

The invention relates to the technical field of reservoir water replenishing, in particular to a cooling reservoir water replenishing device with a suspension sensing mechanism and a method thereof.

Background

The water storage tank is a water storage facility which is built by artificial materials and has an anti-seepage effect, and is an important rainwater accumulation important engineering facility. The building material can be built on the ground or underground according to the terrain and soil conditions, namely divided into an open type and a closed type, and divided into a round type and a rectangular type according to the shape characteristics, and the building material can be divided into the following types: brick pools, masonry pools, concrete pools, and the like. The arrangement principle of the water storage tank is basically the same as that of the water cellar, the water storage tank for cooling is generally built on the ground, and the water storage tank needs to ensure that the water quantity in the water storage tank is kept sufficient and needs to be supplemented in time when the water storage tank is used for cooling.

Replenishing the cistern water yield among the prior art mainly adopts the manual work to open the valve and annotate, and intensity of labour is great and can not in time replenish when the evaporation of water yield is great and the use amount is great, to the condition of constantly filling at present, may cause the water source extravagant.

In order to solve the problems, the invention provides a water replenishing device of a cooling reservoir with a suspension sensing mechanism and a method thereof.

Disclosure of Invention

The invention aims to provide a cooling reservoir water supplementing device with a suspension sensing mechanism and a method thereof.

In order to achieve the purpose, the invention provides the following technical scheme: cooling cistern moisturizing device with suspension sensing mechanism, including suspension sensing mechanism, adjusting part and moisturizing subassembly, suspension sensing mechanism fixed mounting is in the outside of cistern, cistern fixed mounting is on the ground of the field face, the last one side of keeping away from the cistern of suspension sensing mechanism installs the adjusting part, the bottom of cistern passes through the connecting pipe and the bottom intercommunication of suspension sensing mechanism, install the moisturizing subassembly on the cistern, the moisturizing subassembly is used for carrying out the moisturizing in the cistern, be provided with high water level line and low water level line on the cistern, be high water level between the top of high water level line and cistern, be low water level between the bottom of low water level line and cistern, be the safety interval between high water level line and the low water level line.

Further, the water replenishing assembly comprises a water collecting box, a hollow disc and a water pump, the water collecting box is fixedly arranged at the bottom in the reservoir, the water pump is fixedly arranged at the outer side of the reservoir, the output end of the water pump is communicated with the water collecting box through a liquid guide pipe, the input end of the water pump is connected with a water inlet pipe, a hollow circular pipe is rotatably arranged on the water collecting box, the hollow disc is fixedly arranged at the top of the hollow circular pipe, a plurality of groups of flow guide pipes are circumferentially arranged on the hollow disc, the adjacent included angles and the distances between the flow guide pipes and the center of the hollow disc are equal, the inclination angles of the groups of flow guide pipes on the hollow disc are equal and are in the anticlockwise direction, the hollow disc and the water collecting box are communicated through the hollow circular pipe, when water in the water collecting box is discharged through the flow guide pipes on the hollow disc, the hollow disc and the hollow circular pipe can rotate around the water collecting box, the box is fixedly arranged at the outer side of the reservoir, be provided with control module and adjustment module in the box, the adjustment module is used for the output of direct control water pump, the control module carries out the current adjustment through suspension sensing mechanism and adjusting part's feedback to the adjustment module.

Further, the suspension sensing mechanism comprises a sealing pipe, a floating block and a lifting block, the sealing pipe is fixedly arranged on the outer side of the water reservoir, the bottom of the sealing tube is connected with a connecting tube, the top of the sealing tube is provided with an air hole, a floating block is matched in the sealing tube in a sliding way, a corrugated pipe is connected between the bottom of the floating block and the bottom of the sealing pipe, a convex block is fixedly arranged on the floating block, guide grooves are arranged on two sides in the sealing tube, a lifting block is in sliding fit in the sealing tube, one side of the lifting block, which is far away from the reservoir, is connected with the adjusting component, the bottom of the lifting block is provided with a groove, the convex block is positioned in the groove, the groove is internally provided with a pressure sensor, the pressure sensor is used for collecting pressure signals between the convex block and the lifting block and sending the signals to the control module, and a lifting assembly is arranged at the top in the sealing pipe.

Further, the regulating part includes protection housing, resistance stick and electrically conductive slider, one side of the cistern is kept away from to protection housing fixed mounting on the sealed tube, the resistance stick passes through the support mounting on the protection housing, sliding fit has insulating slider in the guide way, one side of keeping away from the cistern on the sealed tube is provided with the open slot that communicates with the guide way, fixed mounting has electrically conductive slider on the insulating slider, electrically conductive slider and resistance stick sliding fit, first terminal block is installed to the bottom of resistance stick, fixed mounting has the second terminal block on the electrically conductive slider, and first terminal block and second terminal block pass through wire and adjustment module intercommunication.

Further, the height of the resistance rod is equal to the height difference of the high water level line and the low water level line in the vertical direction, and an insulating circular platform block is fixedly mounted at the top of the resistance rod.

Further, lifting unit includes electronic receipts spool, wire wheel and flexible rope, electronic receipts spool fixed mounting is at the interior top of sealed tube, the rotation of top installs the wire wheel in the sealed tube, the wire wheel is located the cross-section centroid department of sealed tube, a plurality of groups installation round pin are installed to circumference on the elevator, and is adjacent contained angle between the installation round pin equals and equals apart from the centroid distance of elevator and equals, the output of electronic receipts spool is connected with the spool, around having flexible rope on the spool, flexible rope and wire wheel normal running fit, flexible rope's tail end divide into the isometric end of a plurality of groups, end of a thread fixed mounting is on the installation round pin.

Further, the control module group includes signal processing module, signal reception module, instruction feedback module and signal emission module, signal reception module is used for receiving the pressure signal that pressure sensor sent and with signal transmission to signal processing module, signal processing module compares with the pressure value of predetermineeing in the signal processing module after receiving the pressure signal that signal reception module sent, and signal processing module sends feedback instruction signal to instruction feedback module and signal emission module, instruction feedback module is connected with the wiring end of electronic receipts spool, signal emission module is used for sending the feedback instruction signal that signal processing module sent to mobile terminal.

Further, the adjustment module includes circuit board, current regulation module, overflows relay and electric energy output module, the circuit board is installed in the box, embedded power module, current regulation module, the relay and the electric energy output module of overflowing of installing on the circuit board, power module's positive pole end constitutes series circuit with current regulation module, the relay that overflows, electric energy output module and power module's negative pole in proper order, power module is connected with external power source and is used for supplying power to whole device electrical component, current regulation module is connected with first lug and second lug, the relay that overflows is used for protecting series circuit, electric energy output module is connected with the water pump.

The water replenishing method of the cooling reservoir with the suspension sensing mechanism comprises the following steps of:

step 1: detecting the water level;

step 2: supplementing water by a pump;

step 3: re-measuring the water level;

step 4: and regulating the output power of the pump.

Further, detect the pressure signal that series circuit and control module group received in the water level of using in the water level and the retest water level step, pump machine moisturizing and adjusting pump machine output power's step is realized through moisturizing subassembly and control module group.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the cooling reservoir water replenishing device with the suspension sensing mechanism, provided by the invention, the water quantity in the reservoir can be monitored in real time through the suspension sensing mechanism and the adjusting component, the water replenishing component can be adjusted with different output powers according to the measurement result, and the water quantity in the reservoir is ensured to be sufficient while no waste is caused.

2. According to the method for supplementing water to the cooling reservoir with the suspension sensing mechanism, manual intervention can be reduced through measurement and water supply circulation, so that the water level in the reservoir is kept in dynamic balance.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a hollow disk of the present invention;

FIG. 3 is a schematic view of the suspension sensing mechanism of the present invention;

FIG. 4 is a schematic view of the elevator block of the present invention;

FIG. 5 is a schematic view of the mounting pin of the present invention;

FIG. 6 is a schematic view of a conductive slider of the present invention;

FIG. 7 is a schematic diagram of a control module of the present invention;

FIG. 8 is a schematic diagram of an adjusting module according to the present invention;

FIG. 9 is a schematic circuit diagram of an adjusting module according to the present invention;

FIG. 10 is a schematic view of a water replenishing method according to the present invention.

In the figure: 1. a reservoir; 11. a high water line; 12. a low waterline; 13. a connecting pipe; 14. a box body; 2. a suspension sensing mechanism; 21. a sealing tube; 22. floating blocks; 23. a bellows; 24. a guide groove; 25. an open slot; 26. a bump; 27. a lifting block; 28. a pressure sensor; 29. mounting a pin; 3. an adjustment assembly; 31. a protective housing; 32. an insulating slider; 33. a resistance rod; 34. a first junction block; 35. an insulating round table block; 36. a conductive slider; 37. a second junction block; 4. a water replenishing assembly; 41. a water collection box; 42. a hollow circular tube; 43. a hollow disc; 44. a flow guide pipe; 45. a water pump; 46. a water inlet pipe; 47. a catheter; 5. a control module; 51. a signal processing module; 52. a signal receiving module; 53. an instruction feedback module; 54. a signal transmitting module; 6. an adjusting module; 61. a circuit board; 62. a power supply module; 63. a current regulation module; 64. an overcurrent relay; 65. an electric energy output module; 7. a lifting assembly; 71. an electric take-up shaft; 72. a wire guide wheel; 73. a flexible cord.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 and 2, the cooling reservoir water replenishing device with a suspension sensing mechanism comprises a suspension sensing mechanism 2, an adjusting component 3 and a water replenishing component 4, wherein the suspension sensing mechanism 2 is fixedly installed at the outer side of a reservoir 1, the reservoir 1 is fixedly installed on a ground plane, the adjusting component 3 is installed at one side, far away from the reservoir 1, of the suspension sensing mechanism 2, the bottom of the reservoir 1 is communicated with the bottom of the suspension sensing mechanism 2 through a connecting pipe 13, so that the liquid level height in the suspension sensing mechanism 2 is equal to the liquid level height in the reservoir 1, the water replenishing component 4 is installed on the reservoir 1, the water replenishing component 4 is used for replenishing water in the reservoir 1, the water replenishing component 4 can accelerate the flow of water in the reservoir 1 while replenishing water to the reservoir 1 through the rotation of a water outlet end of the water replenishing component 4, can make the temperature in the cistern 1 more even, be provided with high water level line 11 and low water level line 12 on the cistern 1, for high water level interval between the top of high water level line 11 and cistern 1, the moisturizing of water supplement subassembly 4 in to cistern 1 is suspended when the water level is in high water level interval in cistern 1, for low water level interval between the bottom of low water level line 12 and cistern 1, need moisturizing subassembly 4 full power to carry out the moisturizing in the cistern 1, for the safety interval between high water level line 11 and the low water level line 12, need moisturizing subassembly 4 to carry out different output's moisturizing according to the water level in the cistern 1 in the safety interval in the water level is in cistern 1, reach high water level line 11 and stop the moisturizing until 1 interior water level of cistern.

The water supplementing assembly 4 comprises a water collecting box 41, a hollow disc 43 and a water pump 45, the water collecting box 41 is fixedly arranged at the bottom in the water storage tank 1, the water pump 45 is fixedly arranged at the outer side of the water storage tank 1, the output end of the water pump 45 is communicated with the water collecting box 41 through a liquid guide pipe 47, the input end of the water pump 45 is connected with a water inlet pipe 46, the water pump 45 can guide an external water source into the water collecting box 41 through the water inlet pipe 46, a hollow circular pipe 42 is rotatably arranged on the water collecting box 41, the hollow disc 43 is fixedly arranged at the top of the hollow circular pipe 42, a plurality of groups of guide pipes 44 are circumferentially arranged on the hollow disc 43, the adjacent guide pipes 44 and the center of the hollow disc 43 have the same included angle and the same distance, the inclination angles of the groups of the guide pipes 44 on the hollow disc 43 are equal in size and are in the anticlockwise direction, the hollow disc 43 and the water collecting box 41 are communicated through the hollow circular pipe 42, the water in the header box 41 can make cavity disc 43 and hollow pipe 42 rotate around the header box 41 when discharging through honeycomb duct 44 on the cavity disc 43, can disturb the velocity of water in the cistern 1, accelerates the velocity of water in the cistern 1 and realizes the radiating rate who accelerates the cistern 1 water-logging, the outside fixed mounting of cistern 1 has box 14, be provided with control module 5 and adjustment module 6 in the box 14, adjustment module 6 is used for the output of direct regulation water pump 45, control module 5 carries out current control to adjustment module 6 through the feedback of suspension sensing mechanism 2 and adjusting part 3, can indirectly realize the adjustment to water pump 45 output.

Referring to fig. 3-6, the suspension sensing mechanism 2 includes a sealing tube 21, a floating block 22 and a lifting block 27, the sealing tube 21 is fixedly installed at the outer side of the water reservoir 1, the bottom of the sealing tube 21 is connected with a connecting tube 13, an air hole is formed at the top of the sealing tube 21, so as to ensure that the liquid level in the sealing tube 21 is equal to the liquid level in the water reservoir 1, the floating block 22 is slidably fitted in the sealing tube 21, a corrugated tube 23 is connected between the bottom of the floating block 22 and the bottom of the sealing tube 21, a sealed cavity is formed among the floating block 22, the corrugated tube 23 and the sealing tube 21, the floating block 22 can float up and down in the sealing tube 21 by water pressure and the expansion of the corrugated tube 23 when water in the water reservoir 1 is introduced into the sealing tube 21 through the connecting tube 13, a convex block 26 is fixedly installed on the floating block 22, guide grooves 24 are formed at two sides in the sealing tube 21, and the lifting block 27 is slidably fitted in the sealing tube 21, one side that cistern 1 was kept away from to elevator block 27 is connected with adjusting part 3, and the part that drives on the adjusting part 3 through reciprocating of elevator block 27 in cistern 1 moves on the vertical direction, the bottom of elevator block 27 is provided with the recess, lug 26 is located the recess, be provided with pressure sensor 28 in the recess, pressure sensor 28 is used for gathering the pressure signal between lug 26 and the elevator block 27 and with signal transmission to control module 5, the top is provided with lifting unit 7 in the sealed tube 21, drives elevator block 27 through control module 5 to lifting unit 7's feedback and reciprocates in sealed tube 21, guarantees that lug 26 floats all the time on the surface of water in sealed tube 21 to the liquid level in accurate feedback cistern 1 and the sealed tube 21.

Regulating module 3 includes protecting sheathing 31, resistance rod 33 and electrically conductive slider 36, protecting sheathing 31 fixed mounting keeps away from one side of cistern 1 on sealed tube 21, resistance rod 33 passes through the support mounting on protecting sheathing 31, sliding fit has insulating slider 32 in the guide way 24, one side of keeping away from cistern 1 on sealed tube 21 is provided with the open slot 25 that communicates with guide way 24, fixed mounting has electrically conductive slider 36 on the insulating slider 32, electrically conductive slider 36 and resistance rod 33 sliding fit, first junction block 34 is installed to the bottom of resistance rod 33, fixed mounting has second junction block 37 on the electrically conductive slider 36, and first junction block 34 and second junction block 37 pass through the wire and communicate with adjustment module 6, can adjust the electric current in the adjustment module 6.

The height of the resistance rod 33 is equal to the height difference of the high water level line 11 and the low water level line 12 in the vertical direction, the insulating circular platform block 35 is fixedly mounted at the top of the resistance rod 33, the insulating circular platform block 35 can provide guidance in the process of moving the conductive slider 36 up and down, and the phenomenon that the conductive slider 36 is clamped at the end of the resistance rod 33 to cause the device to be incapable of operating can be avoided.

The lifting assembly 7 comprises an electric take-up shaft 71, a wire guide wheel 72 and a flexible rope 73, the electric take-up shaft 71 is fixedly arranged at the top in the sealing tube 21, the wire guide wheel 72 is rotatably installed at the top inside the sealing tube 21, the wire guide wheel 72 is positioned at the section centroid of the sealing tube 21, a plurality of groups of mounting pins 29 are circumferentially arranged on the lifting block 27, the included angles between adjacent mounting pins 29 are equal, the distances from the centroid of the lifting block 27 are equal, the output end of the electric wire-rewinding shaft 71 is connected with a spool, a flexible rope 73 is wound on the spool, the flexible rope 73 is matched with the wire guide wheel 72 in a rotating way, the wire guide wheel 72 has a guiding function on the flexible rope 73, the tail end of the flexible rope 73 is divided into a plurality of groups of equal-length wire heads which are fixedly arranged on the mounting pin 29, the lifting block 27 can be lifted and lowered by the rotation of the electric take-up shaft 71.

Referring to fig. 7, the control module 5 includes a signal processing module 51, a signal receiving module 52, an instruction feedback module 53 and a signal transmitting module 54, the signal receiving module 52 is configured to receive a pressure signal sent by the pressure sensor 28 and send the signal to the signal processing module 51, the signal processing module 51 compares the received pressure signal sent by the signal receiving module 52 with a preset pressure value in the signal processing module 51, when the pressure value is greater than zero, the signal processing module 51 sends a feedback instruction signal to the instruction feedback module 53 and the signal transmitting module 54, the instruction feedback module 53 is connected to a terminal of the electric winding shaft 71, the flexible rope 73 is lifted by electrifying the electric winding shaft 71, and when the pressure sensor 28 does not send the pressure signal, the instruction feedback module 53 sends a reverse rotation instruction to the electric winding shaft 71 until the signal receiving module 52 receives the pressure signal, the circulation can ensure that the lifting block 27 is always above the bump 26 but not in contact with the bump 26, the bump 26 can float freely according to the change of the water level in the impounding reservoir 1, the signal transmitting module 54 is used for transmitting the feedback instruction signal transmitted by the signal processing module 51 to the mobile terminal, and the technical personnel can conveniently master the running condition of the device in real time.

Referring to fig. 8 and 9, the adjusting module 6 includes a circuit board 61, a current adjusting module 63, an overcurrent relay 64 and an electric energy output module 65, the circuit board 61 is installed in the box 14, a power supply module 62, a current adjusting module 63, an overcurrent relay 64 and an electric energy output module 65 are embedded in the circuit board 61, an anode end of the power supply module 62 sequentially forms a series circuit with the current adjusting module 63, the overcurrent relay 64, the electric energy output module 65 and a cathode of the power supply module 62, the power supply module 62 is connected with an external power supply and is used for supplying power to electrical components of the whole device, the current adjusting module 63 is connected with the first wiring block 34 and the second wiring block 37 to realize dynamic adjustment of resistance, the overcurrent relay 64 is used for protecting the series circuit and preventing the electric current from damaging the electric energy output module 65, and the electric energy output module 65 is connected with the water pump 45, the output power of the water pump 45 is changed in the same direction as the current in the series circuit is changed.

Referring to fig. 10, a water replenishing method for a cooling reservoir with a suspension sensing mechanism includes:

step 1: detecting the water level, wherein the height of the water level in the impounding reservoir 1 can be reflected by the magnitude of the current in the series circuit in the adjusting module 6, when the water level in the impounding reservoir 1 is reduced, the current in the adjusting module 6 is increased, otherwise, the current in the adjusting module 6 is reduced;

step 2: water is replenished to the pump, and the control module 5 is used for adjusting the pump with different powers, so that the water can be quickly replenished into the reservoir 1;

step 3: re-measuring the water level, and measuring the height of the water level in the reservoir 1 through the current in the re-measuring adjusting module 6;

step 4: adjusting the output power of the pump, adjusting the output power of the water pump 45 by the control module 5 according to different water level heights in the reservoir 1, repeating step1 again to complete one working cycle, and realizing dynamic adjustment of the water level height in the reservoir 1.

Detect the pressure signal that uses series circuit and control module 5 receipt in the adjustment module 6 in the water level and the retest water level step, can realize acquireing the real-time water level in the cistern 1, pump machine moisturizing and adjusting pump machine output realize through moisturizing subassembly 4 and control module 5 in the step, realize the high dynamic balance of water level in the cistern 1.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. Cooling cistern moisturizing device with suspension sensing mechanism, including suspension sensing mechanism (2), adjusting part (3) and moisturizing subassembly (4), its characterized in that: the suspension sensing mechanism (2) is fixedly arranged at the outer side of the water storage tank (1), the water storage tank (1) is fixedly arranged on a ground plane, an adjusting component (3) is arranged on one side of the suspension sensing mechanism (2) far away from the reservoir (1), the bottom of the reservoir (1) is communicated with the bottom of the suspension sensing mechanism (2) through a connecting pipe (13), the water replenishing component (4) is arranged on the water storage tank (1), the water replenishing component (4) is used for replenishing water in the water storage tank (1), the water reservoir (1) is provided with a high water level line (11) and a low water level line (12), a high water level area is arranged between the high water level line (11) and the top of the water reservoir (1), a low water level area is arranged between the low water level line (12) and the bottom of the water storage tank (1), a safety interval is arranged between the high water level line (11) and the low water level line (12).

2. The cooling reservoir refill device with a suspension sensing mechanism of claim 1, wherein: moisturizing subassembly (4) are including water-collecting box (41), cavity disc (43) and water pump (45), water-collecting box (41) fixed mounting is bottom in cistern (1), the outside fixed mounting of cistern (1) has water pump (45), the output of water pump (45) passes through catheter (47) and water-collecting box (41) intercommunication, the input of water pump (45) is connected with inlet tube (46), rotate on water-collecting box (41) and install cavity pipe (42), the top fixed mounting of cavity pipe (42) has cavity disc (43), circumference is installed a plurality of groups honeycomb duct (44) on cavity disc (43), and is adjacent honeycomb duct (44) equals with the contained angle and the distance at cavity disc (43) center, the inclination of each group honeycomb duct (44) on cavity disc (43) is the same size and is counter-clockwise, cavity disc (43) and water collection box (41) are through cavity pipe (42) intercommunication, and water in water collection box (41) can make cavity disc (43) and cavity pipe (42) rotate around water collection box (41) when honeycomb duct (44) on through cavity disc (43) are discharged, the outside fixed mounting of cistern (1) has box (14), be provided with control module (5) and adjustment module (6) in box (14), adjustment module (6) are used for the output of direct control water pump (45), control module (5) carry out current control to adjustment module (6) through the feedback of suspension sensing mechanism (2) and adjusting part (3).

3. The cooling reservoir refill device with a suspension sensing mechanism of claim 2, wherein: suspension sensing mechanism (2) is including sealed tube (21), floating block (22) and elevator (27), sealed tube (21) fixed mounting is in the outside of cistern (1), the bottom of sealed tube (21) is connected with connecting pipe (13), the top of sealed tube (21) is provided with the gas pocket, sliding fit has floating block (22) in sealed tube (21), be connected with bellows (23) between the bottom of floating block (22) bottom and sealed tube (21), fixed mounting has lug (26) on floating block (22), both sides are provided with guide way (24) in sealed tube (21), sliding fit has elevator (27) in sealed tube (21), one side that cistern (1) was kept away from in elevator (27) is connected with adjusting part (3), the bottom of elevator (27) is provided with the recess, lug (26) are located the recess, be provided with pressure sensor (28) in the recess, pressure sensor (28) are used for gathering the pressure signal between lug (26) and elevator block (27) and with signal transmission to control module (5), top is provided with lifting unit (7) in sealed tube (21).

4. The cooling reservoir refill device with a suspension sensing mechanism of claim 3, wherein: the adjusting component (3) comprises a protective casing (31), a resistance rod (33) and a conductive sliding block (36), the protective cover shell (31) is fixedly arranged on one side of the sealing tube (21) far away from the water reservoir (1), the resistance rod (33) is arranged on the protective housing (31) through a bracket, the guide groove (24) is in sliding fit with an insulating slider (32), an open slot (25) communicated with the guide slot (24) is arranged on one side of the sealing tube (21) far away from the water reservoir (1), a conductive sliding block (36) is fixedly arranged on the insulating sliding block (32), the conductive sliding block (36) is in sliding fit with the resistance rod (33), first terminal block (34) is installed to the bottom of resistance stick (33), fixed mounting has second terminal block (37) on electrically conductive slider (36), and first terminal block (34) and second terminal block (37) pass through the wire and communicate with adjustment module (6).

5. The cooling reservoir refill device with a suspension sensing mechanism of claim 4, wherein: the height of the resistance rod (33) is equal to the height difference of the high water level line (11) and the low water level line (12) in the vertical direction, and an insulating circular platform block (35) is fixedly mounted at the top of the resistance rod (33).

6. The cooling reservoir refill device with a suspension sensing mechanism of claim 5, wherein: the lifting component (7) comprises an electric take-up shaft (71), a wire guide wheel (72) and a flexible rope (73), the electric wire-rewinding shaft (71) is fixedly arranged at the inner top of the sealing tube (21), the wire guide wheel (72) is rotatably arranged at the inner top of the sealing tube (21), the wire guide wheel (72) is positioned at the section centroid of the sealing tube (21), a plurality of groups of mounting pins (29) are circumferentially mounted on the lifting block (27), the included angles between adjacent mounting pins (29) are equal, and the distances from the centroid of the lifting block (27) are equal, the output end of the electric wire-rewinding shaft (71) is connected with a wire spool, a flexible rope (73) is wound on the wire spool, the flexible rope (73) is in running fit with the wire guide wheel (72), the tail end of the flexible rope (73) is divided into a plurality of groups of equal-length wire ends, and the wire ends are fixedly installed on the installation pins (29).

7. The cooling reservoir refill device with a suspension sensing mechanism of claim 6, wherein: the control module (5) comprises a signal processing module (51), a signal receiving module (52), an instruction feedback module (53) and a signal transmitting module (54), the signal receiving module (52) is used for receiving the pressure signal sent by the pressure sensor (28) and sending the signal to the signal processing module (51), the signal processing module (51) compares the pressure signal sent by the signal receiving module (52) with a preset pressure value in the signal processing module (51), the signal processing module (51) sends a feedback instruction signal to the instruction feedback module (53) and the signal transmitting module (54), the instruction feedback module (53) is connected with the terminal of the electric take-up shaft (71), the signal transmitting module (54) is used for transmitting the feedback instruction signal sent by the signal processing module (51) to the mobile terminal.

8. The cooling reservoir refill device with a suspension sensing mechanism of claim 7, wherein: the adjusting module (6) comprises a circuit board (61), a current adjusting module (63), an overcurrent relay (64) and an electric energy output module (65), the circuit board (61) is installed in the box body (14), a power supply module (62), the current adjusting module (63), the overcurrent relay (64) and the electric energy output module (65) are installed on the circuit board (61) in an embedded mode, the anode end of the power supply module (62) sequentially forms a series loop with the current adjusting module (63), the overcurrent relay (64), the electric energy output module (65) and the cathode of the power supply module (62), the power supply module (62) is connected with an external power supply and used for supplying power to electric elements of the whole device, the current adjusting module (63) is connected with the first wiring block (34) and the second wiring block (37), and the overcurrent relay (64) is used for protecting the series loop, the electric energy output module (65) is connected with the water pump (45).

9. The water replenishing method of the cooling reservoir with the suspension sensing mechanism is characterized in that: the method comprises the following steps:

step 1: detecting the water level;

step 2: supplementing water by a pump;

step 3: re-measuring the water level;

step 4: and regulating the output power of the pump.

10. The method of replenishing cooling reservoir with suspension sensing mechanism of claim 9, wherein: detect the pressure signal that serial circuit and control module (5) received in adjusting module (6) in water level and the retest water level step, realize through moisturizing subassembly (4) and control module (5) in the step of pump machine moisturizing and adjusting pump machine output.

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