CN115589108A - Temperature monitoring device for ultra-silent generator set water-cooling heat dissipation system - Google Patents

Abstract

The invention relates to the technical field of temperature monitoring, in particular to a temperature monitoring device for a water-cooling heat dissipation system of an ultra-silent generating set, which comprises a set shell, a water-cooling generating set, an engine smoke tube, a smoke exhaust cooling water curtain box, a water outlet temperature detection tube, a water temperature sensor, a heat conduction core rod and an anti-scaling temperature measuring disc, wherein the water-cooling generating set and the smoke exhaust cooling water curtain box are fixedly arranged in the set shell, the water-cooling generating set and the smoke exhaust cooling water curtain box are communicated through the engine smoke tube, the lower part of the smoke exhaust cooling water curtain box is communicated with the water outlet temperature detection tube, and the water temperature sensor is inserted and installed in the water outlet temperature detection tube; according to the temperature monitoring device for the water-cooling heat dissipation system of the ultra-silent generator set, the water blocking structure is arranged, so that the liquid level height of water flow can be increased when the cooling water in the water outlet temperature detection pipe flows out at a low flow rate, the detection of a water temperature sensor is facilitated, and the accuracy of temperature monitoring is improved.

Description

Temperature monitoring device for ultra-silent generator set water-cooling heat dissipation system

Technical Field

The invention relates to the technical field of temperature monitoring, in particular to a temperature monitoring device for a water-cooling heat dissipation system of an ultra-silent generator set.

Background

Super-silent generating set is a power generation facility that utilizes water-cooling to carry out heat dissipation to the engine, high silence performance has, water-cooling heat dissipation system wherein gets into by external low temperature water, absorb behind the engine heat, the high temperature water is discharged, in order to carry out more intelligent control to equipment, generally need set up temperature monitoring device at high temperature drainage pipe way, thereby form the temperature closed loop feedback, the automatic adjustment cooling water flow of being convenient for, prior art is lower, be in the temperature monitoring subassembly in the high temperature drainage pipe way, after long-time the use, can be wrapped up by the incrustation scale completely, thereby make temperature monitoring sensitivity greatly reduced, and when rivers are in little flow state, the water level is lower in the pipeline, it is poor to detect the precision.

Disclosure of Invention

The invention aims to provide a temperature monitoring device for a water-cooling heat dissipation system of an ultra-silent generator set, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the temperature monitoring device comprises a unit shell, a water-cooled generator set, an engine smoke tube, a smoke exhaust cooling water curtain box, a water outlet temperature detection tube, a water temperature sensor, a heat conduction core rod and an anti-scaling temperature measurement disc, wherein the water-cooled generator set and the smoke exhaust cooling water curtain box are fixedly arranged in the unit shell, the water-cooled generator set and the smoke exhaust cooling water curtain box are communicated through the engine smoke tube, the lower part of the smoke exhaust cooling water curtain box is communicated with the water outlet temperature detection tube, the water temperature sensor is inserted in the water outlet temperature detection tube, the heat conduction core rod is arranged at the end of the water temperature sensor in a telescopic mode, the anti-scaling temperature measurement disc is fixedly installed on the surface of the lower end of the heat conduction core rod, a water blocking structure with an automatic opening function is arranged in the water outlet temperature detection tube, a micro-drainage structure with an automatic cleaning function is arranged below the water blocking structure, and the lower surface of the anti-scaling temperature measurement disc can be cleaned.

The water-blocking structure comprises a water-blocking wall ring, a magnetic arc groove, an adsorption magnetic arc, a semicircular normally-closed plate, a swinging lifting lug, a lifting lug column hole and a swinging support column.

The utility model discloses a temperature detection pipe, including the wall that blocks water, the wall that blocks water ring is the semicircle, and fixed mounting is close to the below position on the inner wall surface of going out water temperature detection pipe, the magnetic arc groove has been seted up on the side surface of wall that blocks water ring, the magnetic arc groove is circular-arcly, and the inside in magnetic arc groove inlays to be established and be fixed with and adsorb the magnetic arc, the activity of one side of adsorbing the magnetic arc is provided with semicircle normal close board.

The semicircle board that normally closes is the semicircle dish form, the semicircle board that normally closes with the water blocking wall ring sets up with the axle center, and the diameter of semicircle board that normally closes is less than the inner wall diameter of leaving water temperature detection pipe, is greater than the diameter of magnetic arc groove, the last fixed surface of semicircle board that normally closes is provided with the swing lug, the inside of swing lug is run through and has been seted up lug column hole, the inside interlude in lug column hole is provided with the swing pillar, the both ends of swing pillar are all fixed the inner wall surface position who sets up at a water temperature detection pipe.

The micro-drainage structure comprises a slow drainage groove, a scale removal elastic sheet, an elastic sheet end seat, a scraping and cleaning sheet, a vertical guide plate and a water drive arc plate.

The inner wall surface of slowly draining tank seting up at a water temperature detecting tube is close to lower part position, slowly draining tank will block water wall ring both sides and run through, the inside of slowly draining tank is provided with the scale removal shell fragment, the scale removal shell fragment is rectangular form thin slice, and has elasticity, the fixed inside that sets up at slowly draining tank of shell fragment end holder, the one end and the shell fragment end holder fixed mounting of temperature sensor are kept away from to the scale removal shell fragment, the fixed cleaning piece that strikes off that is provided with of one end that the scale removal shell fragment is close to temperature sensor.

The upper surface of the scraping and cleaning sheet is in scraping contact with the lower surface of the anti-scaling temperature measuring disc, a vertical guide plate is fixedly arranged on one side of the scraping and cleaning sheet, a water-driven arc plate is fixedly arranged on one side of the vertical guide plate, and the water-driven arc plate is bent in a certain radian.

The end part of the water outlet temperature detection pipe is fixedly communicated with a connecting thread sleeve, the water outlet temperature detection pipe is communicated with a drain pipe of the smoke exhaust cooling water curtain box through the connecting thread sleeve, a screwed thread sleeve is fixedly arranged on the surface of the water outlet temperature detection pipe, and the water temperature sensor is spirally and hermetically arranged inside the screwed thread sleeve.

The water temperature sensor is characterized in that a detection heat conduction rod is fixedly arranged at the end part of the water temperature sensor, the detection heat conduction rod is vertically inserted into the water temperature detection tube, a cavity heat conduction groove is formed in the end part of the detection heat conduction rod, the heat conduction core rod is telescopically inserted into the cavity heat conduction groove, the inner wall surface of the cavity heat conduction groove is in close heat conduction contact with the outer surface of the heat conduction core rod, a pressing and holding spring is arranged at the upper end of the heat conduction core rod, and the pressing and holding spring is in a compressed state and is located inside the cavity heat conduction groove.

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

according to the temperature monitoring device for the water-cooling heat dissipation system of the ultra-silent generator set, the water blocking structure is arranged, so that the liquid level height of water flow can be increased when the cooling water in the water outlet temperature detection pipe flows out at a low flow rate, detection of a water temperature sensor is facilitated, the accuracy of temperature monitoring is improved, and in a large flow rate state, the semicircular normally-closed plate can be automatically opened under the action of water pressure, so that the influence on the circulation of the water outlet temperature detection pipe is avoided.

Through the micro-drainage structure who sets up, can shut down the back at equipment, will block up and slowly discharge at the inboard ponding of semicircle normally closed board, avoid rivers to store up for a long time and cause the corruption to detecting the heat conduction stick.

And the micro-drainage structure utilizes the change of water flow, can realize the clearance to slow water drainage tank and scale control temperature measuring dish lower surface simultaneously, avoids the incrustation scale in the rivers to block up slow water drainage tank, avoids the incrustation scale to wrap up the detection metal part of sensor completely simultaneously, causes the problem that the precision descends.

Drawings

Fig. 1 is a schematic view of a water-cooling heat dissipation system of an ultra-silent generator set.

FIG. 2 is a schematic view of the outlet temperature detecting tube.

FIG. 3 is a three-dimensional semi-sectional view of the outlet water temperature detecting tube.

Fig. 4 is an enlarged schematic view of the area a in fig. 3.

FIG. 5 is a semi-sectional view of the wall of the outlet temperature detecting tube.

FIG. 6 is a side view of the outlet temperature sensing tube.

In the figure: 1. a unit housing; 2. water-cooling the generator set; 3. an engine smoke tube; 4. a smoke discharging and cooling water curtain box; 5. an outlet water temperature detection pipe; 6. a water temperature sensor; 7. a heat conducting core rod; 8. an anti-scaling temperature measuring disc; 501. a water blocking wall ring; 502. a magnetic arc groove; 503. adsorbing the magnetic arc; 504. a semicircular normally closed plate; 505. swinging the lifting lug; 506. a lug post hole; 507. a swing post; 508. a slow drainage groove; 509. cleaning the scale elastic sheet; 510. a spring plate end seat; 511. scraping the cleaning sheet; 512. a vertical guide plate; 513. a water-driven arc plate; 514. connecting a threaded sleeve; 515. screwing in the threaded sleeve; 601. detecting the heat conducting rod; 602. a cavity heat conduction groove; 603. and pressing and holding the spring.

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 to 6, the present invention provides a technical solution: the temperature monitoring device comprises a unit shell 1, a water-cooled generator set 2, an engine smoke tube 3, a smoke exhaust cooling water curtain box 4, a water outlet temperature detection tube 5, a water temperature sensor 6, a heat conduction core rod 7 and an anti-scaling temperature measurement disc 8, wherein the water-cooled generator set 2 and the smoke exhaust cooling water curtain box 4 are fixedly arranged inside the unit shell 1, the water-cooled generator set 2 and the smoke exhaust cooling water curtain box 4 are communicated through the engine smoke tube 3, the water outlet temperature detection tube 5 is communicated with the lower portion of the smoke exhaust cooling water curtain box 4, the water temperature sensor 6 is inserted into the water outlet temperature detection tube 5, the heat conduction core rod 7 is arranged at the end portion of the water temperature sensor 6 in a telescopic mode, the anti-scaling temperature measurement disc 8 is fixedly arranged on the surface of the lower end of the heat conduction core rod 7, a water blocking structure with an automatic opening function is arranged inside the water outlet temperature detection tube 5, a micro-drainage structure with an automatic cleaning function is arranged below the water blocking structure, and the micro-drainage structure can clean the lower surface of the anti-scaling temperature measurement disc 8.

The water blocking structure comprises a water blocking wall ring 501, a magnetic arc groove 502, an adsorption magnetic arc 503, a semi-circular normally-closed plate 504, a swinging lifting lug 505, a lifting lug column hole 506 and a swinging support column 507.

The water blocking wall ring 501 is semi-annular, is fixedly installed on the inner wall surface of the water outlet temperature detection pipe 5 close to the lower position, the magnetic arc groove 502 is formed in the side surface of the water blocking wall ring 501, the magnetic arc groove 502 is arc-shaped, an adsorption magnetic arc 503 is embedded and fixed in the magnetic arc groove 502, and a semi-annular normally-closed plate 504 is movably arranged on one side of the adsorption magnetic arc 503.

Semicircle board 504 that normally closes is the semicircle dish-shaped, semicircle board 504 and the coaxial axle center setting of water blocking wall ring 501 that normally closes, and the diameter of semicircle board 504 that normally closes is less than the inner wall diameter of leaving water temperature detecting tube 5, be greater than the diameter of magnetic arc groove 502, the fixed surface of the last of semicircle board 504 that normally closes is provided with swing lug 505, lug post hole 506 has been seted up in the inside of swing lug 505 through, the inside interlude of lug post hole 506 is provided with swing pillar 507, the both ends of swing pillar 507 are all fixed the inner wall surface position who sets up at a water temperature detecting tube 5.

The micro-drainage structure comprises a slow drainage groove 508, a scale cleaning elastic sheet 509, an elastic sheet end seat 510, a scraping cleaning sheet 511, a vertical guide plate 512 and a water-driven arc plate 513, wherein the scale cleaning elastic sheet 509, the scraping cleaning sheet 511, the vertical guide plate 512 and the water-driven arc plate 513 are all made of metal thin sheets, for example, steel sheets and the like, and need to have certain elasticity.

The inner wall surface that slowly drains water tank 508 was seted up at leaving water temperature detecting tube 5 is close to the lower part position, slowly drains water tank 508 and runs through the water wall ring 501 both sides that block, slowly drains the inside of water tank 508 and is provided with scale removal shell fragment 509, scale removal shell fragment 509 is rectangular form thin slice, and has elasticity, shell fragment end socket 510 is fixed to be set up in the inside of slowly draining water tank 508, the one end and the shell fragment end socket 510 fixed mounting that water temperature sensor 6 was kept away from to scale removal shell fragment 509, the fixed cleaning piece 511 that strikes off that is provided with of one end that water temperature sensor 6 is close to scale removal shell fragment 509.

The upper surface of scraping clearance piece 511 scrapes the contact with the lower surface scraping of scale control temperature measuring dish 8, the fixed vertical guide board 512 that is provided with in one side of scraping clearance piece 511, the fixed water drive arc board 513 that is provided with in one side of vertical guide board 512, water drive arc board 513 is certain radian and buckles, as shown in fig. 3, the crooked radian of water drive arc board 513 needs to produce certain contained angle with the flow direction of rivers, thereby make the rivers flow increase the time, can change the pressure that acts on water drive arc board 513, and then arouse the swing of scale removal shell fragment 509.

The end part of the water outlet temperature detection pipe 5 is fixedly communicated with a connecting threaded sleeve 514, the water outlet temperature detection pipe 5 is communicated with a drain pipe of the smoke exhaust cooling water curtain box 4 through the connecting threaded sleeve 514, a screwed threaded sleeve 515 is fixedly arranged on the surface of the water outlet temperature detection pipe 5, and the water temperature sensor 6 is hermetically and spirally arranged inside the screwed threaded sleeve 515.

The end portion of the water temperature sensor 6 is fixedly provided with a detection heat conduction rod 601, the detection heat conduction rod 601 is vertically inserted into the outlet water temperature detection tube 5, the end portion of the detection heat conduction rod 601 is provided with a cavity heat conduction groove 602, the heat conduction core rod 7 is telescopically inserted into the cavity heat conduction groove 602, the inner wall surface of the cavity heat conduction groove 602 is in tight heat conduction contact with the outer surface of the heat conduction core rod 7, the upper end of the heat conduction core rod 7 is provided with a pressing and holding spring 603, and the pressing and holding spring 603 is in a compression state and is located inside the cavity heat conduction groove 602.

In use, as shown in fig. 3, the water temperature sensor 6 in the outlet water temperature detecting pipe 5 is kept upward, so that the semi-circular closing plate 504 is located at the lower half of the inside of the outlet water temperature detecting pipe 5.

When high-temperature cooling water flows out from the outlet water temperature detection pipe 5 at a small flow rate, the semicircular normally-closed plate 504 is kept attracted under the magnetic force, so that the semicircular normally-closed plate 504 blocks water flow, the liquid level of the water flow is raised, the heat conduction rod 601, the heat conduction core rod 7, the anti-scaling temperature measurement disc 8 and other structures can be conveniently detected to conduct heat conduction, and the detection accuracy under a low flow rate is kept.

When high-temperature cooling water flows out of the outlet temperature detection pipe 5 at a large flow rate, the semicircular normally-closed plate 504 is opened by water pressure, and the semicircular normally-closed plate 504 rotates to a horizontal state with the swing strut 507 as an axis, thereby preventing obstruction to the circulation of the cooling water.

In the process of changing the flow of water in the outlet water temperature detection pipe 5, the impact pressure applied to the water-driven arc plate 513 changes, so that the scale cleaning elastic sheet 509 swings back and forth, the slow drainage channel 508 can be cleaned by utilizing the swing of the scale cleaning elastic sheet 509, the blockage of scale in high-temperature water on the slow drainage channel 508 is avoided, and the accumulated water discharge capacity is influenced, meanwhile, in the swing process of the scale cleaning elastic sheet 509, the scraping cleaning sheet 511 swings synchronously and greatly, because the upper surface of the scraping cleaning sheet 511 is in scraping contact with the lower surface of the scale prevention temperature measurement disc 8, the lower surface of the scale prevention temperature measurement disc 8 can be cleaned, the lower surface of the scale prevention temperature measurement disc 8 is kept clean, when the parts such as the detection heat conduction rod 601 and the like are wrapped by scale, the heat of water flow can still efficiently pass through the lower surface of the scale prevention temperature measurement disc 8, the influence of the scale on the temperature detection precision of the sensor is weakened, when the scraping sheet 511 is worn, the heat conduction core rod 7 is pressed down by the elasticity of the pressing spring 603, so that the effect of the scraping on the lower surface of the scale prevention temperature measurement disc 8 is maintained, and the cleaning sheet 511 is maintained, and accordingly.

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 (9)

1. The utility model provides a temperature monitoring device for super-silent generating set water-cooling system, includes unit housing (1), water-cooled generating set (2), engine tobacco pipe (3), cooling water curtain case (4) of discharging fume, goes out water temperature detecting tube (5), temperature sensor (6), heat conduction plug (7) and scale control temperature measuring dish (8), the inside of unit housing (1) is fixed and is provided with water-cooled generating set (2) and cooling water curtain case (4) of discharging fume, water-cooled generating set (2) with cooling water curtain case (4) of discharging fume passes through engine tobacco pipe (3) intercommunication, its characterized in that: the smoke discharging and cooling water curtain box is characterized in that a water outlet temperature detection pipe (5) is communicated with the lower portion of the smoke discharging and cooling water curtain box (4), a water temperature sensor (6) is inserted into the water outlet temperature detection pipe (5), a heat conduction core rod (7) is arranged at the end portion of the water temperature sensor (6) in a telescopic mode, an anti-scaling temperature measurement disc (8) is fixedly installed on the surface of the lower end of the heat conduction core rod (7), a water blocking structure with an automatic opening function is arranged inside the water outlet temperature detection pipe (5), a micro drainage structure with an automatic cleaning function is arranged below the water blocking structure, and the lower surface of the anti-scaling temperature measurement disc (8) can be cleaned through the micro drainage structure.

2. The temperature monitoring device for the water-cooling heat dissipation system of the ultra-silent generator set according to claim 1, characterized in that: the water blocking structure comprises a water blocking wall ring (501), a magnetic arc groove (502), an adsorption magnetic arc (503), a semi-circle normally-closed plate (504), a swinging lifting lug (505), a lifting lug column hole (506) and a swinging support column (507).

3. The temperature monitoring device for the water-cooling heat dissipation system of the ultra-silent generator set according to claim 2, characterized in that: the utility model discloses a temperature measuring device, including temperature measuring pipe (5), baffle wall ring (501), magnetic arc groove (502) have been seted up on the side surface of baffle wall ring (501), baffle wall ring (501) are the semicircle form, and fixed mounting is close to the below position on the inner wall surface of leaving water temperature detecting tube (5), baffle wall ring (501) side surface, magnetic arc groove (502) are circular-arcly, and the inside of magnetic arc groove (502) inlays to be established and is fixed with and adsorbs magnetic arc (503), the activity of one side of adsorbing magnetic arc (503) is provided with semicircle normally closed plate (504).

4. The temperature monitoring device for the water-cooling heat dissipation system of the ultra-silent generator set according to claim 3, characterized in that: semicircle board (504) of normally closing is the semicircle dish form, semicircle board (504) of normally closing with the coaxial setting of waterwall ring (501), and the diameter of semicircle board (504) of normally closing is less than the inner wall diameter of leaving water temperature detecting tube (5), is greater than the diameter of magnetic arc groove (502), the last fixed surface of semicircle board (504) of normally closing is provided with swing lug (505), the inside of swing lug (505) is run through and has been seted up lug column hole (506), the inside of lug column hole (506) is alternated and is provided with swing pillar (507), the both ends of swing pillar (507) are all fixed the inner wall surface position who sets up in leaving water temperature detecting tube (5).

5. The temperature monitoring device for the water-cooling heat dissipation system of the ultra-silent generator set according to claim 3, characterized in that: the micro-drainage structure comprises a slow drainage groove (508), a scale removal elastic sheet (509), an elastic sheet end seat (510), a scraping and cleaning sheet (511), a vertical guide plate (512) and a water drive arc plate (513).

6. The temperature monitoring device for the water-cooling heat dissipation system of the ultra-silent generator set according to claim 5, characterized in that: the inner wall surface that sets up in outlet water temperature detecting tube (5) in slow water drainage tank (508) is close to the lower part position, slow water drainage tank (508) will block water wall ring (501) both sides and run through, the inside of slow water drainage tank (508) is provided with scale removal shell fragment (509), scale removal shell fragment (509) are rectangular form thin slice, and have elasticity, shell fragment end socket (510) are fixed to be set up in the inside of slow water drainage tank (508), the one end and shell fragment end socket (510) fixed mounting of water temperature sensor (6) are kept away from in scale removal shell fragment (509), the one end that water temperature sensor (6) were close to in scale removal shell fragment (509) is fixed to be provided with and strikes off cleaning sheet (511).

7. The temperature monitoring device for the water-cooling heat dissipation system of the ultra-silent generator set according to claim 6, characterized in that: the scale prevention temperature measuring device is characterized in that the upper surface of the scraping cleaning sheet (511) is in scraping contact with the lower surface of the scale prevention temperature measuring disc (8), a vertical guide plate (512) is fixedly arranged on one side of the scraping cleaning sheet (511), a water-driven arc plate (513) is fixedly arranged on one side of the vertical guide plate (512), and the water-driven arc plate (513) is bent in a certain radian.

8. The temperature monitoring device for the water-cooling heat dissipation system of the ultra-silent generator set according to claim 1, characterized in that: the end part of the water outlet temperature detection pipe (5) is fixedly communicated with a connecting threaded sleeve (514), the water outlet temperature detection pipe (5) is communicated with a drain pipe of the smoke exhaust cooling water curtain box (4) through the connecting threaded sleeve (514), a screwed threaded sleeve (515) is fixedly arranged on the surface of the water outlet temperature detection pipe (5), and the water temperature sensor (6) is arranged in the screwed threaded sleeve (515) in a sealing and spiral mode.

9. The temperature monitoring device for the water-cooling heat dissipation system of the ultra-silent generator set according to claim 1, characterized in that: the water temperature sensor is characterized in that a detection heat conduction rod (601) is fixedly arranged at the end part of the water temperature sensor (6), the detection heat conduction rod (601) is vertically inserted into the water outlet temperature detection pipe (5), a cavity heat conduction groove (602) is formed in the end part of the detection heat conduction rod (601), the heat conduction core rod (7) is telescopically inserted into the cavity heat conduction groove (602), the inner wall surface of the cavity heat conduction groove (602) is in tight heat conduction contact with the outer surface of the heat conduction core rod (7), a pressing and holding spring (603) is arranged at the upper end of the heat conduction core rod (7), and the pressing and holding spring (603) is in a compressed state and is located inside the cavity heat conduction groove (602).

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