CN104998524A - Parallel type continuous moisture absorber device and use method thereof - Google Patents
Parallel type continuous moisture absorber device and use method thereof Download PDFInfo
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- CN104998524A CN104998524A CN201510451193.7A CN201510451193A CN104998524A CN 104998524 A CN104998524 A CN 104998524A CN 201510451193 A CN201510451193 A CN 201510451193A CN 104998524 A CN104998524 A CN 104998524A
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Abstract
The invention relates to a parallel type continuous moisture absorber device and a use method thereof. The parallel type continuous moisture absorber device comprises an H-shaped four-way pipe, one connector at the upper end of the four-way pipe is connected with an oil conservator pipeline of an oil-filled transformer, the other connector at the upper end of the four-way pipe is connected with an oil conservator pipeline of an on-load voltage regulation switch of the oil-filled transformer, one connector at the lower end of the four-way pipe is connected with a moisture absorbing pipe which is arranged below the connector and penetrates through a first moisture absorbing tank through a first magnetic valve, and the other connector at the lower end of the four-way pipe is connected with a moisture absorbing pipe which is arranged below the connector and penetrates through a second moisture absorbing tank through a second magnetic valve; the first moisture absorbing tank and the second moisture absorbing tank are each internally provided with drying agents and an electrothermic component layer, a pipeline between the first magnetic valve and the first moisture absorbing tank is communicated with a connecting pipe of which the other end is communicated with a pipeline between the second magnetic valve and the second moisture absorbing tank, a third magnetic valve and a fourth magnetic valve are arranged on the connecting pipe, and a vacuum pump used for pumping water vapor in the first moisture absorbing tank and the second moisture absorbing tank is connected with and located between the third magnetic valve and the fourth magnetic valve. According to the moisture absorber device, the structure is simple, and drying of equipment such as oil-filled electrical equipment is convenient.
Description
Technical field
The present invention relates to a kind of parallel lasting moisture absorber device and using method thereof, be applied to oil-filled electric equipment, as equipment such as transformer, on-load voltage regulating switch, distribution transforming, capacitor, breakers.
Background technology
The filling transformer of existing charging operation and the dehydrating breather project organization of on-load voltage regulating switch bottom also exist defect.The hygroscopic agent of dehydrating breather inside approximately used about six months, will lose efficacy because absorption air moisture content is saturated; If change hygroscopic agent not in time, the moist moisture content air of the long-term moisture absorption of electrical equipment, inside electric appliance is entered through hygroscopic agent, because the insulating oil temperature on installation for transformer top is low, moisture content in air is easily attracted to insulating oil on the surface, the moisture content in transformer oil Long-term absorption air cause dielectric strength reduce or electrical equipment bottom ponding too much.And every summer often meet thunderstorm weather or peak times of power consumption, inside transformer temperature is high, and moisture content is dissolved in that insulating oil makes dielectric strength reduce easily to discharge, explode, burnout failure rate improves greatly.Hygroscopic agent in dehydrating breather is changed in frequent power failure, needs to drop into a large amount of human and material resources, financial resources.Meanwhile, have a power failure and bring very big inconvenience to the life of resident, cause great direct or indirect economic loss even to some electricity consumptions user, factory, enterprise.
Transform dehydrating breather although also have on the market, or it is dry fast and effectively that hygroscopic agent cannot be made to obtain, drying is thorough not.
Summary of the invention
The object of the present invention is to provide a kind of parallel lasting moisture absorber device and using method thereof, this moisture absorber device not only structure is simple, the equipment such as convenience oil-filled electric equipment is dry, and drier in moisture absorption tank can rapid draing, and method of operating is convenient simultaneously.
Technical program of the present invention lies in: a kind of parallel lasting moisture absorber device, comprise the four-way pipe that is H-shaped, upper end one interface of described four-way pipe is connected with the conservator pipeline of filling transformer, another interface of the upper end of four-way pipe is connected with the conservator pipeline of filling transformer on-load voltage regulating switch, lower end one interface of four-way pipe through the first magnetic valve with to be arranged at below it and the moisture absorption pipe running through the first moisture absorption tank is connected, another interface of the lower end of four-way pipe through the second magnetic valve with to be arranged at below it and the moisture absorption pipe running through the second moisture absorption tank is connected, described first, drier and electric-heating assembly layer is respectively arranged with in second moisture absorption tank, the tube connector that pipeline connection between described first magnetic valve and the first moisture absorption tank has the other end to be connected with the pipeline between the second magnetic valve and the second moisture absorption tank, described tube connector is provided with the 3rd, 4th magnetic valve, be positioned at the 3rd, be connected with between 4th magnetic valve for extracting first out, the vacuum pumping pump of water vapour in second moisture absorption tank.
Further, the both sides outer wall of described first moisture absorption tank and the second moisture absorption tank is respectively clear glass outer wall, described electric-heating assembly layer is arranged between clear glass outer wall and moisture absorption pipe, and described drier is filled in clear glass outer wall and electric-heating assembly layer and between electric-heating assembly layer and moisture absorption pipe.
Further, in described electric-heating assembly layer, be provided with some electric heating assemblies for bake drying agent from top to bottom, be also provided with top in electric-heating assembly layer and pass the first or second moisture absorption tank in order to detect the warm and humid sensor of the warm and humid situation of corresponding tank interior.
Further, described first, the moisture absorption pipe of the second moisture absorption tank comprises the air-guide section being positioned at tank body and the free segment be positioned at outside tank body, the top of described air-guide section is spaced apart is provided with some gas ports, the moisture absorption pipe lower end first spring reset assembly being positioned at free segment is connected with a moisture absorption pipe shrouding, described first, bottom on second moisture absorption tank between electric-heating assembly layer and moisture absorption pipe is provided with air inlet, the second spring reset assembly through being positioned at tank interior on described air inlet is connected with exhaust shrouding, described first, the bottom of the second moisture absorption tank is also provided with exhaust outlet, the 3rd spring reset assembly through being positioned at tank body outside on described exhaust outlet is connected with air inlet shrouding.
Further, the air inlet being positioned at moisture absorption pipe side is connected with the U-tube be connected with the air inlet being positioned at moisture absorption pipe opposite side, and described U-tube bottom is connected with longitudinal pipe, described longitudinal pipe is provided with the 5th magnetic valve.
Further, described first spring reset assembly comprises the first adjusting bolt bar that two symmetries are bolted in moisture absorption pipe lower end, two first described adjusting bolt bars are slidably connected with one end of moisture absorption pipe shrouding respectively, are provided with the first reseting pressuring spring for oppressing moisture absorption pipe shrouding capping moisture absorption pipe lower end between the termination of described moisture absorption pipe shrouding and the first adjusting bolt bar; Described second spring reset assembly comprises two symmetries and is bolted in the second adjusting bolt bar in the tank base of air inlet both sides, two second described adjusting bolt bars are slidably connected with one end of exhaust shrouding respectively, are provided with for oppressing the second reseting pressuring spring being vented shrouding capping air inlet between the termination of described exhaust shrouding and the second adjusting bolt bar; Described 3rd spring reset assembly comprises two symmetries and is bolted in the 3rd adjusting bolt bar in the tank base of exhaust outlet both sides, described two the 3rd adjusting bolt bars are slidably connected with one end of air inlet shrouding respectively, are provided with the 3rd reseting pressuring spring for oppressing air inlet shrouding capping exhaust outlet between the termination of described air inlet shrouding and the 3rd adjusting bolt bar.
Further, be also provided with air inlet and exhaust outlet and the separated stainless steel and iron silk screen of drier in first, second moisture absorption tank described.
Further, the sealing of described moisture absorption pipe shrouding, exhaust shrouding and air inlet shrouding is in the trapezoidal protuberance being beneficial to sealing.
Further, describedly to be sealed by sealing ring between first, second moisture absorption tank and moisture absorption pipe, described drier is silica-gel desiccant, and described electric heating assembly is infrared heater or microwave applicator.
A using method for parallel lasting moisture absorber device, comprises the following steps:
1) open first, second, the 5th magnetic valve, close the 3rd, the 4th magnetic valve, make first, second moisture absorption tank respectively in running order;
2) when the first moisture absorption tank makes moist need drying, close the 5th magnetic valve of the first, the 4th magnetic valve and the first moisture absorption tank bottom, open electric-heating assembly layer, the moisture in the drier of the first moisture absorption tank is heated into water vapour, start vacuum pumping pump simultaneously, water vapour is extracted out the first moisture absorption tank;
3) when the second moisture absorption tank makes moist need drying, close second, third and magnetic valve and the second moisture absorption tank bottom the 5th magnetic valve, open electric-heating assembly layer, the moisture in the drier of the second moisture absorption tank is heated into water vapour, start vacuum pumping pump simultaneously, water vapour is extracted out the second moisture absorption tank.
Compared with prior art, the present invention has the following advantages: structure of the present invention is simple, and conveniently the moisture of the drier inside in moisture absorption tank is heated into water vapour, and is extracted out by vacuum pumping pump, rate of drying is fast; The heating-up temperature adopted is low, and drier chemical analysis is not easy to destroy, long service life; Facilitate for equipment dehumidifying such as filling transformer and filling transformer on-load voltage regulating switch simultaneously; It is convenient that this device manufactures, and cost is lower, effectively can stop outside air moisture and enter into transformer, support equipment safety; Filling transformer and filling transformer on-load voltage regulating switch continuous service can also be ensured, reduce operating cost.
Accompanying drawing explanation
Fig. 1 is structural representation of the present invention;
Fig. 2 is the structural representation of moisture absorption tank of the present invention.
Detailed description of the invention
For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and coordinate accompanying drawing, be described in detail below, but the present invention is not limited to this.
With reference to figure 1 and Fig. 2
A kind of parallel lasting moisture absorber device, comprise the four-way pipe 1 that is H-shaped, the upper end one interface 1-1 of described four-way pipe is connected with the conservator pipeline of filling transformer 2, the upper end of four-way pipe another interface 1-2 is connected with the conservator pipeline of filling transformer on-load voltage regulating switch 3, lower end one interface of four-way pipe through the first magnetic valve 4 with to be arranged at below it and the moisture absorption pipe 6 running through the first moisture absorption tank 5 is connected, the lower end of four-way pipe another interface 1-4 through the second magnetic valve 7 with to be arranged at below it and the moisture absorption pipe running through the second moisture absorption tank 8 is connected, described first, drier 15 and electric-heating assembly layer 14 is respectively arranged with in second moisture absorption tank, the tube connector 9 that pipeline connection between described first magnetic valve and the first moisture absorption tank has the other end to be connected with the pipeline between the second magnetic valve and the second moisture absorption tank, described tube connector is provided with the 3rd magnetic valve 10, 4th magnetic valve 11, be positioned at the 3rd, be connected with between 4th magnetic valve for extracting first out, the vacuum pumping pump 12 of water vapour in second moisture absorption tank.
In the present embodiment, the both sides outer wall of described first moisture absorption tank and the second moisture absorption tank is respectively clear glass outer wall, described electric-heating assembly layer 14 is arranged between clear glass outer wall and moisture absorption pipe, and described drier 15 is filled in clear glass outer wall and electric-heating assembly layer and between electric-heating assembly layer and moisture absorption pipe.
In the present embodiment, some electric heating assembly 14-1 for bake drying agent are provided with from top to bottom in described electric-heating assembly layer, also be provided with top in electric-heating assembly layer and pass the first or second moisture absorption tank in order to detect the warm and humid sensor 14-2 of the warm and humid situation of corresponding tank interior, so that the temperature detected in moisture absorption tank and wetness, provide data foundation for when electric-heating assembly layer works.
In the present embodiment, described first, the moisture absorption pipe of the second moisture absorption tank comprises the air-guide section being positioned at tank body and the free segment be positioned at outside tank body, the top of described air-guide section is spaced apart is provided with some gas port 6-1, the moisture absorption pipe lower end first spring reset assembly being positioned at free segment is connected with a moisture absorption pipe shrouding 16, described first, bottom on second moisture absorption tank between electric-heating assembly layer and moisture absorption pipe is provided with air inlet 17, the second spring reset assembly through being positioned at tank interior on described air inlet is connected with exhaust shrouding 18, described first, the bottom of the second moisture absorption tank is also provided with exhaust outlet 19, the 3rd spring reset assembly through being positioned at tank body outside on described exhaust outlet is connected with air inlet shrouding 20, enter in moisture absorption tank through air inlet to prevent outside humid air.
In the present embodiment, the air inlet being positioned at moisture absorption pipe side is connected with the U-tube 23 be connected with the air inlet being positioned at moisture absorption pipe opposite side, described U-tube bottom is connected with longitudinal pipe 24, described longitudinal pipe is provided with the 5th magnetic valve 25, thus prevents from the operationally outside humid air of vacuum pumping pump from entering in moisture absorption tank through air inlet affecting desiccant dryness effect.
In the present embodiment, described first spring reset assembly comprises the first adjusting bolt bar 26-1 that two symmetries are bolted in moisture absorption pipe lower end, two first described adjusting bolt bars are slidably connected with one end of moisture absorption pipe shrouding respectively, are provided with the first reseting pressuring spring 26-2 for oppressing moisture absorption pipe shrouding capping moisture absorption pipe lower end between the termination of described moisture absorption pipe shrouding and the first adjusting bolt bar; Described second spring reset assembly comprises two symmetries and is bolted in the second adjusting bolt bar 27-1 in the tank base of air inlet both sides, two second described adjusting bolt bars are slidably connected with one end of exhaust shrouding respectively, are provided with for oppressing the second reseting pressuring spring 27-2 being vented shrouding capping air inlet between the termination of described exhaust shrouding and the second adjusting bolt bar; Described 3rd spring reset assembly comprises two symmetries and is bolted in the 3rd adjusting bolt bar 28-1 in the tank base of exhaust outlet both sides, described two the 3rd adjusting bolt bars are slidably connected with one end of air inlet shrouding respectively, are provided with the 3rd reseting pressuring spring 28-2 for oppressing air inlet shrouding capping exhaust outlet between the termination of described air inlet shrouding and the 3rd adjusting bolt bar.
In the present embodiment, in order to prevent drier from blocking air inlet and exhaust outlet, be also provided with air inlet and exhaust outlet and the separated stainless steel and iron silk screen 13 of drier in first, second moisture absorption tank described.
In the present embodiment, in order to better capping moisture absorption pipe, exhaust outlet and air inlet, the sealing of described moisture absorption pipe shrouding, exhaust shrouding and air inlet shrouding is in the trapezoidal protuberance being beneficial to sealing.
In the present embodiment, describedly to be sealed by sealing ring between first, second moisture absorption tank and moisture absorption pipe, described drier is silica-gel desiccant, activated alumina desiccant or calcium chloride drier, and described electric heating assembly is infrared heater or microwave applicator.
3) when the second moisture absorption tank makes moist need drying, close second, third and magnetic valve and the second moisture absorption tank bottom the 5th magnetic valve, open the first magnetic valve and electric-heating assembly layer, moisture in the drier of the second moisture absorption tank is heated into water vapour, start vacuum pumping pump simultaneously, water vapour is extracted out the second moisture absorption tank.
In specific implementation process, course of normal operation is as follows:
First, second, the 5th magnetic valve opens, the 3rd, the 4th closed electromagnetic valve, two moisture absorption tanks are in running order respectively.
When the first moisture absorption tank makes moist needs drying, close the 5th magnetic valve of the first, the 4th and first moisture absorption tank bottom, open the electric heating assembly in the 3rd magnetic valve and the first moisture absorption tank, electric heating assembly is made to heat silica-gel desiccant, the moisture in silica-gel desiccant is made to flash to water vapour, open vacuum pumping pump simultaneously, water vapour is extracted out the first moisture absorption tank.
When the second moisture absorption tank makes moist needs drying, close second, third and the second moisture absorption tank bottom the 5th magnetic valve, open the electric heating assembly in the 4th magnetic valve and the second moisture absorption tank, electric heating assembly is made to heat silica-gel desiccant, make the water evaporates in silica-gel desiccant become water vapour, open vacuum pumping pump simultaneously.Water vapour is extracted out by vacuum pumping pump, thus realizes the drier rapid draing in moisture absorption tank, to reach recycling.
When oil-filled electric equipment operating load increases, as inside transformer temperature raises, insulating oil volume becomes large, and transformer upper end conservator inner air enters in air through the exhaust outlet of moisture absorption tank; When oil-filled electric equipment operating load reduces, as inside transformer temperature reduces, insulating oil temperature reduces, smaller volume, extraneous air is then passed into by the air inlet of moisture absorption tank, and the drier in moisture absorption tank is then by the moisture absorption in air and by dried air flow device interior; When oil-filled electric equipment breaks down or accident needs Quick air-discharge to arrange insulating oil, or when analyzing the various gas of insulating oil high temperature, realize inside electric appliance fast decompression and efflux gas or oil body by the door open structure of moisture absorption pipe lower end.Opened and closed by the shrouding regulating the elastic force of back-moving spring can realize under different conditions, thus meet the demand of above-mentioned implementation process.
The foregoing is only preferred embodiment of the present invention, for the ordinary skill in the art, according to instruction of the present invention, design multi-form parallel lasting moisture absorber device and using method does not need performing creative labour, all equalizations made according to the present patent application the scope of the claims change, revise, replace and modification without departing from the principles and spirit of the present invention, all should belong to covering scope of the present invention.
Claims (10)
1. a parallel lasting moisture absorber device, comprise the four-way pipe that is H-shaped, it is characterized in that, upper end one interface of described four-way pipe is connected with the conservator pipeline of filling transformer, another interface of the upper end of four-way pipe is connected with the conservator pipeline of filling transformer on-load voltage regulating switch, lower end one interface of four-way pipe through the first magnetic valve with to be arranged at below it and the moisture absorption pipe running through the first moisture absorption tank is connected, another interface of the lower end of four-way pipe through the second magnetic valve with to be arranged at below it and the moisture absorption pipe running through the second moisture absorption tank is connected, described first, drier and electric-heating assembly layer is respectively arranged with in second moisture absorption tank, the tube connector that pipeline connection between described first magnetic valve and the first moisture absorption tank has the other end to be connected with the pipeline between the second magnetic valve and the second moisture absorption tank, described tube connector is provided with the 3rd, 4th magnetic valve, be positioned at the 3rd, be connected with between 4th magnetic valve for extracting first out, the vacuum pumping pump of water vapour in second moisture absorption tank.
2. the parallel lasting moisture absorber device of one according to claim 1, it is characterized in that, the both sides outer wall of described first moisture absorption tank and the second moisture absorption tank is respectively clear glass outer wall, described electric-heating assembly layer is arranged between clear glass outer wall and moisture absorption pipe, and described drier is filled in clear glass outer wall and electric-heating assembly layer and between electric-heating assembly layer and moisture absorption pipe.
3. the parallel lasting moisture absorber device of one according to claim 1 and 2, it is characterized in that, be provided with some electric heating assemblies for bake drying agent from top to bottom in described electric-heating assembly layer, be also provided with top in electric-heating assembly layer and pass the first or second moisture absorption tank in order to detect the warm and humid sensor of the warm and humid situation of corresponding tank interior.
4. according to claim 1, the parallel lasting moisture absorber device of one described in 2 or 3, it is characterized in that, described first, the moisture absorption pipe of the second moisture absorption tank comprises the air-guide section being positioned at tank body and the free segment be positioned at outside tank body, the top of described air-guide section is spaced apart is provided with some gas ports, the moisture absorption pipe lower end first spring reset assembly being positioned at free segment is connected with a moisture absorption pipe shrouding, described first, bottom on second moisture absorption tank between electric-heating assembly layer and moisture absorption pipe is provided with air inlet, the second spring reset assembly through being positioned at tank interior on described air inlet is connected with exhaust shrouding, described first, the bottom of the second moisture absorption tank is also provided with exhaust outlet, the 3rd spring reset assembly through being positioned at tank body outside on described exhaust outlet is connected with air inlet shrouding.
5. the parallel lasting moisture absorber device of one according to claim 4, it is characterized in that, the air inlet being positioned at moisture absorption pipe side is connected with the U-tube be connected with the air inlet being positioned at moisture absorption pipe opposite side, described U-tube bottom is connected with longitudinal pipe, described longitudinal pipe is provided with the 5th magnetic valve.
6. the parallel lasting moisture absorber device of one according to claim 4, it is characterized in that, described first spring reset assembly comprises the first adjusting bolt bar that two symmetries are bolted in moisture absorption pipe lower end, two first described adjusting bolt bars are slidably connected with one end of moisture absorption pipe shrouding respectively, are provided with the first reseting pressuring spring for oppressing moisture absorption pipe shrouding capping moisture absorption pipe lower end between the termination of described moisture absorption pipe shrouding and the first adjusting bolt bar; Described second spring reset assembly comprises two symmetries and is bolted in the second adjusting bolt bar in the tank base of air inlet both sides, two second described adjusting bolt bars are slidably connected with one end of exhaust shrouding respectively, are provided with for oppressing the second reseting pressuring spring being vented shrouding capping air inlet between the termination of described exhaust shrouding and the second adjusting bolt bar; Described 3rd spring reset assembly comprises two symmetries and is bolted in the 3rd adjusting bolt bar in the tank base of exhaust outlet both sides, described two the 3rd adjusting bolt bars are slidably connected with one end of air inlet shrouding respectively, are provided with the 3rd reseting pressuring spring for oppressing air inlet shrouding capping exhaust outlet between the termination of described air inlet shrouding and the 3rd adjusting bolt bar.
7. the parallel lasting moisture absorber device of the one according to claim 5 or 6, is characterized in that, is also provided with air inlet and exhaust outlet and the separated stainless steel and iron silk screen of drier in first, second moisture absorption tank described.
8. the parallel lasting moisture absorber device of one according to claim 4, is characterized in that, the sealing of described moisture absorption pipe shrouding, exhaust shrouding and air inlet shrouding is in the trapezoidal protuberance being beneficial to sealing.
9. the parallel lasting moisture absorber device of one according to claim 3, it is characterized in that, describedly sealed by sealing ring between first, second moisture absorption tank and moisture absorption pipe, described drier is silica-gel desiccant, and described electric heating assembly is infrared heater or microwave applicator.
10. a using method for parallel lasting moisture absorber device as claimed in claim 5, is characterized in that, comprise the following steps:
1) open first, second, the 5th magnetic valve, close the 3rd, the 4th magnetic valve, make first, second moisture absorption tank respectively in running order;
2) when the first moisture absorption tank makes moist need drying, close the 5th magnetic valve of the first, the 4th magnetic valve and the first moisture absorption tank bottom, open electric-heating assembly layer, the moisture in the drier of the first moisture absorption tank is heated into water vapour, start vacuum pumping pump simultaneously, water vapour is extracted out the first moisture absorption tank;
3) when the second moisture absorption tank makes moist need drying, close second, third and magnetic valve and the second moisture absorption tank bottom the 5th magnetic valve, open electric-heating assembly layer, the moisture in the drier of the second moisture absorption tank is heated into water vapour, start vacuum pumping pump simultaneously, water vapour is extracted out the second moisture absorption tank.
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CN108362605B (en) * | 2018-04-28 | 2024-02-02 | 华中科技大学 | Automatic change integrated form air humidity measuring device |
CN112255036A (en) * | 2020-10-21 | 2021-01-22 | 国网新疆电力有限公司奎屯供电公司 | Dampproofing getter device of high-pressure oil charge type sleeve sample |
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CN113274848A (en) * | 2021-07-23 | 2021-08-20 | 北京国电天元电气设备有限公司 | Automatic control system for moisture absorber |
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