CN203174348U - Superheated vapor energy circulation recycling device - Google Patents

Abstract

The utility model provides a superheated vapor energy circulation recycling device which comprises a first electrical heating vapor pressure container, a second electrical heating vapor pressure container and a heat storage tank. A three-way pipe, a four-way pipe, a first non-return pipe and a second non-return pipe are arranged between the first electrical heating vapor pressure container and the second electrical heating vapor pressure container. The first electrical heating vapor pressure container is connected with the heat storage tank through a first pipeline, and the second electrical heating vapor pressure container is connected with the heat storage tank through a second pipeline. One end of the first non-return pipe and one end of the second non-return pipe are connected with the first electrical heating vapor pressure container, and the other end of the first non-return pipe and the other end of the second non-return pipe are connected with the second electrical heating vapor pressure container. The superheated vapor energy circulation recycling device has the advantages that heat energy generated in vapor generated after a vapor tank is heated can be effectively recycled, moreover, the recycled heat energy is effectively utilized in the next heating process, production cost is greatly reduced, and resource waste is reduced.

Description

Vapours energy recycling device

Technical field

The utility model relates to the light industry and machinery field, relates in particular to a kind of heat energy recycling device of the heat energy recycle after yarn steaming machine work is finished.

Background technology

Along with the progress of society, wool spinning has already obtained bigger development.In the wool spinning process, need carry out steam shaping to wool yarn, way is that the wool yarn winding is formed the tube yarn at reel usually, the weaving of tube yarn is also moved on the tube creel in the tube yarn typing steam box carry out the high-temperature steam typing then.It is comparatively strict to the requirement of tube yarn typing steam box to finish above-mentioned processing step, tube yarn typing steam box not only needs to produce enough steam, guarantee enough temperature, guarantee that again steam can reach the technological temperature of standard simultaneously, therefore need constantly in steam box, to inject heat energy.

Steam and the direct emission treatment of hot water after the work of existing spinning steam box have formed the significant wastage of resource.

The utility model content

The purpose of this utility model provides a kind of heat energy that can effectively reclaim in the steam that produces after the steam box heating, and is effectively used in the process of heating next time, reduces production costs greatly, has reduced the heat energy recycling device of the wasting of resources.

According to an aspect of the present utility model, a kind of heat energy recycling device is provided, comprise the first electrical heating steam pressure container, second electrical heating steam pressure container and the heat storage can, be provided with three-way pipe, four-way pipe, the first non-return pipe and the second non-return pipe between the first electrical heating steam pressure container and the second electrical heating steam pressure container, the first electrical heating steam pressure container is connected with heat storage can by first pipeline, and the second electrical heating steam pressure container is connected with heat storage can by second pipeline; One end of the first non-return pipe, the second non-return pipe is communicated with the first electrical heating steam pressure container, and the other end is communicated with the second electrical heating steam pressure container; Three-way pipe one end is communicated with the first electrical heating steam pressure container, and an end is communicated with the second electrical heating steam pressure container, and a remaining end is communicated with four-way pipe; Four-way pipe one end is connected with the first electrical heating steam pressure container, and an end is connected with the second electrical heating steam pressure container, and an end is connected with heat storage can in the two ends in addition, and an end is connected with three-way pipe.

In some embodiments, three-way pipe and four-way pipe two ends and the first electrical heating steam pressure container, the second electrical heating steam pressure container joint all are provided with first pneumatic operated valve; The first non-return pipe and the second non-return pipeline two ends and the first electrical heating steam pressure container, the second electrical heating steam pressure container joint all are provided with first check-valves; First pipeline and the first electrical heating steam pressure container junction are provided with second check-valves, and second pipeline and the second electrical heating steam pressure container junction are provided with the 3rd check-valves.First pneumatic operated valve is in order to control the break-make of three-way pipe and four-way pipe, and when first pneumatic operated valve was opened, the steam in the first electrical heating steam pressure container and the second electrical heating steam pressure container can circulate mutually by three-way pipe and four-way pipe.First check-valves is in order to controlling the break-make of the first non-return pipe and the second non-return pipe, and first check-valves can prevent from returning in the first electrical heating steam pressure container after the steam in the first electrical heating steam pressure container from entering the first non-return pipe and the second non-return pipe.In addition, can control the break-make of second pipeline by the 3rd pneumatic operated valve.

In some embodiments, all be respectively equipped with vavuum pump on the pipeline of three-way pipe near the first electrical heating steam pressure container and the second electrical heating steam pressure container.Vavuum pump is in order to before technical process begins and technical process when carrying out, and the first electrical heating steam pressure container, the second electrical heating steam pressure container, heat storage can and the pipeline that connects between them are vacuumized.

In some embodiments, the first pipeline pipeline is provided with first water pump, and the second pipeline pipeline is provided with second water pump.Also be provided with first water pump on first pipeline, first water pump is in order to in the hot water suction first electrical heating steam pressure container in the heat storage can, also be provided with second water pump on second pipeline, second water pump is in order to in the hot water suction second electrical heating steam pressure container in the heat storage can.

In some embodiments, the heat storage can tank body is stainless steel, the heat storage can tank interior is provided with support member from the bottom to the top, it is outside and decide the water water-supply-pipe with heat storage can tank body outside cold and join that support member one end stretches out tank body, support member is not decided the end that the water water-supply-pipe joins and is arranged at the heat storage can tank interior and extends to heat storage can tank body top with cold, support member is not decided the end that the water water-supply-pipe joins and is provided with waste-heat recoverer with cold, and the support member outer disk is wound with the steam buffer radiator coil tube.Support member is in order to support the heat storage can internal structure.After entering the steam buffer radiator coil tube, steam contacts with steam buffer radiator coil tube tube wall, and condensation, form the cold water of deciding.

In some embodiments, also be provided with muffler between support member and steam buffer radiator coil tube, steam buffer radiator coil tube one end opening place is provided with steam inlet, and other end opening part is provided with steam (vapor) outlet, steam (vapor) outlet and coldly decide the water water-supply-pipe and join.Steam heat release meeting discharges a large amount of noises, and long-term operation meeting has caused certain infringement to operating personnel, and muffler can reduce heat storage can noise at work greatly.Steam inlet and steam (vapor) outlet make steam can not leak in the process of circulation in order to dredge steam.

In some embodiments, offer the gas outlet on the tank body of heat storage can top, have cooling water inlet on the heat storage can tank skin.Unnecessary hot gas is discharged from the gas outlet, avoids the more surplus vapours in pipeline heat storage can tank body or residual in the pipeline, influences heat storage can pipeline operate as normal.In technical process, cold water enters in the heat storage can jar by cooling water inlet, and cooling water inlet is set, and can observe and control water level in the heat storage can jar at any time.

In some embodiments, also be provided with level sensor on the heat storage can tank skin.Level sensor induction tank interior liquid level.When tank interior reaches preset height, send the break-make of signal and by-pass valve control.

Description of drawings

Fig. 1 is the structural representation of vapours energy recycling device in the utility model one embodiment;

Fig. 2 is the structural representation of heat storage can in the vapours energy recycling device shown in Figure 1.

The specific embodiment

Below in conjunction with drawings and the specific embodiments the utility model is described in further detail explanation.

Fig. 1 has schematically shown the vapours energy recycling device according to the utility model one embodiment, device comprises the first electrical heating steam pressure container 10, second electrical heating steam pressure container 20 and the heat storage can 30, the first electrical heating steam pressure container 10 and second 20 in the electrical heating steam pressure container are provided with three-way pipe 40, four-way pipe 50, the first non-return pipe 60 and the second non-return pipe, 70, the first electrical heating steam pressure containers 10 and the second electrical heating steam pressure container 20 are by three-way pipe 40, four-way pipe 50, the first non-return pipe 60 and the second non-return pipe 70 connect.Three-way pipe 40 connects the first electrical heating steam pressure container 10 and second electrical heating steam pressure container 20 and the four-way pipe 50 respectively, and four-way pipe 50 connects the first electrical heating steam pressure container 10, the second electrical heating steam pressure container 20, heat storage can 30 and three-way pipe 40 respectively.Three-way pipe 40 all is provided with first pneumatic operated valve 401 with four-way pipe 50 pipe ends and the first electrical heating steam pressure container 10, the second electrical heating steam pressure container, 20 joints, first pneumatic operated valve 401 is in order to control the break-make of three-way pipe 40 and four-way pipe 50, when first pneumatic operated valve 401 was opened, the steam in the first electrical heating steam pressure container 10 and the second electrical heating steam pressure container 20 can circulate mutually by three-way pipe 40 and four-way pipe 50.The first non-return pipe 60 and the second non-return pipe, 70 pipe ends and the first electrical heating steam pressure container 10, the second electrical heating steam pressure container, 20 joints all are provided with first check-valves 601, first check-valves 601 is in order to control the break-make of the first non-return pipe 60 and the second non-return pipe 70, and first check-valves 601 can prevent from returning in the first electrical heating steam pressure container 10 after the first electrical heating steam pressure container, 10 interior steam enter the first non-return pipe 60 and the second non-return pipe 70.Be respectively arranged with vavuum pump 403 on the pipeline of three-way pipe 40 near the first electrical heating steam pressure container 10 and the second electrical heating steam pressure container 20, vavuum pump 403 is in order to before technical process begins and technical process when carrying out, and the first electrical heating steam pressure container 10, the second electrical heating steam pressure container 20, heat storage can 30 and the pipeline that connects between them are vacuumized.

The first electrical heating steam pressure container 10 links to each other with heat storage can 30 with second pipeline 90 by symmetrically arranged first pipeline 80 respectively with the second electrical heating steam pressure container 20.First pipeline 80 connects the first electrical heating steam pressure container 10 and connects the second electrical heating steam pressure container 20 and heat storage can 30 with heat storage can 30, the second pipelines 90.First pipeline 80 and the first electrical heating steam pressure container, 10 junctions are provided with second check-valves, 801, the second check-valves 801 and enter in order to prevent hot water that first pipeline is after 80s to be got back to the first electrical heating steam pressure container 10 in the first electrical heating steam pressure container 10.The end pipeline that first pipeline 80 is provided with second check-valves 801 is provided with second pneumatic operated valve 803, can control the break-make of first pipeline 80 by second pneumatic operated valve 803.The end that first pipeline 80 is not connected with the first electrical heating steam pressure container 10 is connected with the steam inlet 301 on the heat storage can 30.Also be provided with first water pump 805 on first pipeline 80, first water pump 805 is in order to in the hot water suction first electrical heating steam pressure container 10 in the heat storage can 30, also be provided with second water pump, 901, the second water pumps 901 on second pipeline 90 in order to in the hot water suction second electrical heating steam pressure container 20 in the heat storage can 30.

Heat storage can 30 tank bodies are stainless steel, and heat storage can 30 comprises steam buffer radiator coil tube 303, muffler 305, level sensor 307, steam inlet 301, steam (vapor) outlet 311, gas outlet 313, waste-heat recoverer 315 and coldly decides water water-supply-pipe 317.Also be provided with water gauge on heat storage can 30 tank skins, in order to water level situation in 30 jars of heat storage can 30 visual observation heat storage cans.

Heat storage can 30 tank body bottoms are provided with support member 319, support member 319 is long straight tube-like, support member 319 vertically arranges, it is outside and decide water water-supply-pipe 317 with heat storage can 3 external body cold and join that support member 319 1 ends stretch out tank body, support member 319 and coldly decide water water-supply-pipe 317 joints and be provided with the cold water delivery valve 321 of deciding; Support member 319 is not decided the end that water water-supply-pipe 317 joins and is arranged at heat storage can 30 tank interior with cold, and runs through heat storage can 30 tank bodies to heat storage can 30 tank body tops, and support member 319 is not decided the end that water water-supply-pipe 317 joins and is provided with waste-heat recoverer 315 with cold.Muffler 305 is arranged in heat storage can 30 tank bodies, and muffler 305 is wrapped up in and is located at support member 319 main body outsides.Steam buffer radiator coil tube 303 coiling mufflers 305 arrange, steam buffer radiator coil tube 303 1 ends are connected with steam inlet 301, the other end is connected with steam (vapor) outlet 311, and steam (vapor) outlet 311 and heat storage can 30 tank body outsides cold decided the end that water water-supply-pipe 317 is not connected with support member 319 and be connected.

Also be provided with cooling water inlet 323 on the tank skin of heat storage can 30 tank bodies top, outside cold water can enter tank interior by cooling water inlet 323.Also be provided with the first water pump interface 325 on heat storage can 30 tank skins, the first water pump interface 325 is connected with second pipeline 90, second pipeline 90 connects heat storage can 30 and the second electrical heating steam pressure container 20, the end pipeline opening place that second pipeline 90 and the second electrical heating steam pressure container 20 join is provided with the 3rd check-valves 903, the three check-valves 903 and gets back in the heat storage can 30 after hot water from entering the second electrical heating steam pressure container 20 in the heat storage can 30 in order to preventing.The end pipeline that second pipeline 90 is provided with the 3rd check-valves 903 is provided with the 3rd pneumatic operated valve 905, can control the break-make of second pipeline 90 by the 3rd pneumatic operated valve 905.Heat storage can 30 tops also are provided with gas outlet 313.

Before technology begins, open the case lid of the first electrical heating steam pressure container 10, and put into and treat yarn steaming cloth.Control first pneumatic operated valve 401, first check-valves 601, second pneumatic operated valve 803, second check-valves 801, the 3rd pneumatic operated valve 905 and the 3rd check-valves 903 are opened, close gas outlet 313, keep the first electrical heating steam pressure container 10, form air circulation in the second electrical heating steam pressure container 20 and the heat storage can 30, open vavuum pump 403 this moment, with the first electrical heating steam pressure container 10, the second electrical heating steam pressure container 20, air in the heat storage can 30 vacuumizes, and guarantees three-way pipe 40 simultaneously, four-way pipe 50, the first non-return pipe 60, the second non-return pipe 70 and first pipeline 80, there are not residual steam or impurity in second pipeline 90.

After preparation is finished, controlling first pneumatic operated valve 401, first check-valves 601 and second check-valves 801 closes, vacuum in this moment first electrical heating steam pressure container 10, then the first electrical heating steam pressure container 10 is carried out the electromagnetism heating, constantly produce steam in the electromagnetism heating process, after the gauze in the first electrical heating steam pressure container 10 is finished heating, in the first electrical heating steam pressure container 10, form the steam of four pressure.Control first check-valves 601 and open this moment, the steam in the first electrical heating steam pressure container 10 then, enter in the first non-return pipe 60 by first check-valves 601, and enter the second electrical heating steam pressure container 20 by the first non-return pipe 60, after after a while, steam fully merges in the first electrical heating steam pressure container 10 and the second electrical heating steam pressure container 20, finally make in the electrical heating steam pressure container 10 of winning to have the steam of two pressure, and also have the steam of two pressure in the second electrical heating steam pressure container 20.Simultaneously, inject cold water in heat storage can 30, cold water enters heat storage can 30 tank interior and fills with tank body by cooling water inlet 323, level sensor 307 detect water level arrive predetermined water level the time, then control cooling water inlet and close, no longer water filling.

Open second check-valves 801 and second pneumatic operated valve 803, then the steam of two pressure in the first electrical heating steam pressure container 10 enters first pipeline 80 by second check-valves 801 and second pneumatic operated valve 803, and enters in the heat storage can 30 by first pipeline 80.Because fill with cold water in advance in the heat storage can 30, cold water fully contacts with steam buffer radiator coil tube 303, the interior outer temperature of pipe of pipe and the cold water temperature of coil pipe are consistent.The steam of two pressure enters the steam buffer radiator coil tube 303 of tank interior from steam inlet 301, when steam touches steam buffer radiator coil tube 303 inwalls, steam is condensed into water droplet, water droplet accumulates current and forms and coldly decide water and flow down in steam buffer radiator coil tube 303, finally flow to steam (vapor) outlet 311, and enter Leng Dingshui water-supply-pipe 317 from steam (vapor) outlet 311, then enter support member 319, and final waste-heat recoverer 315 ejections from support member 319 tops, waste-heat recoverer 315 is connected the top with support member 319, the waste heat recovery phase 315 comprises a plurality of shower nozzles, coldly decide water and arrive the waste heat recovery phase 315 through support member, in a plurality of shower nozzles of waste heat recovery phase 315 settings, spray again, get back in the heat storage can.A large amount of noises that muffler 305 produces when eliminating cooling, unnecessary steam gas is discharged heat storage can 30 from the gas outlet 313 of heat storage can 30 tank bodies top.The heat of steam and the heat of hot water enter in the tank body, and then the absorption of the cold water in tank body heat becomes hot water.

Bubble in heat storage can 30 reduces gradually, when the liquid level in the tank body is stablized gradually, illustrates that then the steam of the first electrical heating steam pressure container, 10 interior two pressure enters in the tank body, and has fully discharged heat energy.Close second check-valves 801 and second pneumatic operated valve 803 this moment, open first pneumatic operated valve 401, make vavuum pump work again, residual steam in the first electrical heating steam pressure container 10, the second electrical heating steam pressure container and the pipeline is found time, burnt by vapours when avoiding operating personnel to open the first electrical heating steam pressure container 10.After the first electrical heating steam pressure container 10 vacuumizes, open the chamber door of the first electrical heating steam pressure container 10, and take out the gauze machine, close chamber door after refilling gauze to be heated.

Open the chamber door of the second electrical heating steam pressure container 20, close chamber door after being positioned over gauze to be heated in the second electrical heating steam pressure container 20, control first pneumatic operated valve 401, first check-valves 601, second check-valves 801 of the first electrical heating steam pressure container, 10 1 sides and close this moment, and open first pneumatic operated valve 401, first check-valves 601 and the 3rd check-valves 903 of the second electrical heating steam pressure container, 20 1 sides, make again and vavuum pump 403 work will vacuumize in the second electrical heating steam pressure container 20 and the pipeline.

Controlling the 3rd check-valves 903 and the 3rd pneumatic operated valve 905 of the second electrical heating steam pressure container, 20 1 sides opens, 901 work of second water pump, make the hot water in the heat storage can 30 pass through second pipeline 90, enter the second electrical heating steam pressure container 20 through the 3rd pneumatic operated valve 905 and the 3rd check-valves 903, carry out electromagnetism heating to the second electrical heating steam pressure container 20 this moment, utilize the heat energy of hot water, play the effect of recovery, when level sensor 307 is sensed water level and reached preset height, then close second water pump 901 and stop pumping.After heating is finished, form the steam of four pressure in the second electrical heating steam pressure container 20.Open first check-valves 601 this moment, makes that the steam in the second electrical heating steam pressure container 20 enters the first non-return pipe 60 by first check-valves 601, and arrive in the first electrical heating steam pressure container 10.After after a while, steam fully merges in the first electrical heating steam pressure container 10 and the second electrical heating steam pressure container 20, finally make there is the steam of two pressure in the second electrical heating steam pressure container 20, and also have the steam of two pressure in the first electrical heating steam pressure container 10.

Open first check-valves 601 of the second electrical heating steam pressure container, 20 1 sides, close first check-valves 601 of the first electrical heating steam pressure container, 10 1 sides, steam enters the first non-return pipe 60 by first check-valves 601 of the second electrical heating steam pressure container, 20 1 sides, and by second pipeline, 90 arrival heat storage cans, 30 tank interior, finally enter steam buffer radiator coil tube 303.Subsequently according to above-mentioned steps constantly repeatedly.

The steam that heating produces in the first electrical heating steam pressure container 10, a part enters in the second electrical heating steam pressure container 20.Steam in the first electrical heating steam pressure container 10 is by contacting with cold water in the heat storage can 30, energy recovery with steam, cold water heat absorption is injected in the second electrical heating steam pressure container 20 after becoming hot water, required hot water when can be used as 20 heating of the second electrical heating steam pressure container.Steam in the second electrical heating steam pressure container 20 when finishing heating process, reclaims and has utilized the heat energy that produces in the first electrical heating steam pressure container, 10 heating processes in conjunction with the hot water in the heat storage can 30.The steam that produces after 20 heating of the second electrical heating steam pressure container are finished, a part enters in the first electrical heating steam pressure container 10.Steam in the second electrical heating steam pressure container 20 is by condensation in the heat storage can 30, energy recovery with steam, water in the heat storage can 30 absorb heats and also inject in the first electrical heating steam pressure container 10, can be used as the first electrical heating steam pressure container 10 required hot water when heating again.Said process can be saved the heat energy that consumes in the electromagnetism heating process greatly repeatedly, and the steam thermal energy that produces in the electromagnetism heating process has been carried out effective recycling.When steam box when being square, energy-conservation 65% compared to existing technology, when steam box when being circular, compared to existing technology energy-conservation 50%.Recycle steam, also avoid discharge of steam pollution to weather and environment to the atmosphere.

Be to be understood that, though this specification is described according to embodiment, but be not that each embodiment only comprises an independently technical scheme, this narrating mode of specification only is for clarity sake, those skilled in the art should make specification as a whole, technical scheme among each embodiment also can form other embodiment that it will be appreciated by those skilled in the art that through appropriate combination.

Above listed a series of detailed description only is specifying at feasibility embodiment of the present utility model; they are not in order to limiting protection domain of the present utility model, allly do not break away from equivalent embodiment of the present utility model or change all should be included within the protection domain of the present utility model.

Claims (8)

1. vapours energy recycling device, it is characterized in that, device comprises the first electrical heating steam pressure container (10), the second electrical heating steam pressure container (20) and heat storage can (30), be provided with three-way pipe (40) between the described first electrical heating steam pressure container (10) and the described second electrical heating steam pressure container (20), four-way pipe (50), the first non-return pipe (60) and the second non-return pipe (70), the described first electrical heating steam pressure container (10) links to each other with described heat storage can (30) by first pipeline (80), and the described second electrical heating steam pressure container (20) links to each other with described heat storage can (30) by second pipeline (90); One end of the described first non-return pipe (60), the second non-return pipe (70) is communicated with the described first electrical heating steam pressure container (10), and the other end is communicated with the described second electrical heating steam pressure container (20); Described three-way pipe (40) one ends are communicated with the described first electrical heating steam pressure container (10), and an end is communicated with the described second electrical heating steam pressure container (20), and a remaining end is communicated with described four-way pipe (50); Described four-way pipe (50) one ends are connected with the described first electrical heating steam pressure container (10), one end is connected with the described second electrical heating steam pressure container (20), an end is connected with described heat storage can (30) in the two ends in addition, and an end is connected with described three-way pipe (40).

2. vapours energy recycling device according to claim 1, it is characterized in that described three-way pipe (40) all is provided with first pneumatic operated valve (401) with described four-way pipe (50) two ends and the described first electrical heating steam pressure container (10), second electrical heating steam pressure container (20) joint; The described first non-return pipe (60) all is provided with first check-valves (601) with described second non-return pipe (70) pipe ends and the described first electrical heating steam pressure container (10), second electrical heating steam pressure container (20) joint; Described first pipeline (80) is provided with second check-valves (801) with described first electrical heating steam pressure container (10) junction, and described second pipeline (90) is provided with the 3rd check-valves (903) with described second electrical heating steam pressure container (20) junction.

3. vapours energy recycling device according to claim 2, it is characterized in that, all be respectively equipped with vavuum pump (403) on the pipeline of described three-way pipe (40) near the described first electrical heating steam pressure container (10) and the described second electrical heating steam pressure container (20).

4. vapours energy recycling device according to claim 2 is characterized in that, described first pipeline (80) pipeline is provided with first water pump (805), and described second pipeline (90) pipeline is provided with second water pump (901).

5. vapours energy recycling device according to claim 2, it is characterized in that, described heat storage can (30) tank body is stainless steel, described heat storage can (30) tank interior is provided with support member (319) to the top from the bottom, it is outside and decide water water-supply-pipe (317) with described heat storage can (30) tank body outside cold and join that described support member (319) one ends stretch out tank body, described support member (319) is not coldly decided the end that water water-supply-pipe (317) joins and is arranged at described heat storage can (30) tank interior and extends to described heat storage can (30) tank body top with described, described support member (319) is not coldly decided the end that water water-supply-pipe (317) joins and is provided with waste-heat recoverer (315) with described, and described support member (319) outer disk is wound with steam buffer radiator coil tube (303).

6. vapours energy recycling device according to claim 5, it is characterized in that, also be provided with muffler (305) between described support member (319) and described steam buffer radiator coil tube (303), described steam buffer radiator coil tube (303) one end opening places are provided with steam inlet (301), other end opening part is provided with steam (vapor) outlet (311), and described steam (vapor) outlet (311) is coldly decided water water-supply-pipe (317) and joined with described.

7. vapours energy recycling device according to claim 6 is characterized in that, offers gas outlet (313) on the tank body of described heat storage can (30) top, has cooling water inlet (323) on described heat storage can (30) tank skin.

8. vapours energy recycling device according to claim 7 is characterized in that, also is provided with level sensor (307) on described heat storage can (30) tank skin.

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