CN205231166U - Liquid machine electrolyte recovery system is annotated to lithium electricity - Google Patents

Abstract

The utility model relates to a liquid machine electrolyte recovery system is annotated to lithium electricity, include: the nitrogen gas pipeline, vacuum generator, vacuum tube no. 1, electrolyte main barrel, the electrolyte pipe one, the electrolyte recovery tube one, annotate liquid machine liquid storage pot, vacuum tube no. 2, vacuum source, the electrolyte pipe two, infusion pump, the electrolyte pipe three, annotate liquid needle and electrolyte recovery tube no. 2, a nitrogen gas pipeline and a main barrel interface intercommunication, vacuum generator is parallelly connected with the nitrogen gas pipeline, electrolyte guan yishe is in electrolyte main barrel's inside, the other end and three intercommunications liquid storage pot interface of electrolyte recovery tube no. 1, electrolyte guan eryu infusion pump entry intercommunication is crossed to liquid storage pot interface cross, liquid needle entry intercommunication is annotated through electrolyte guan sanyu to the infusion pump export, annotate the two wherein one end connections of liquid needle exit linkage electrolyte recovery tube, liquid storage pot interface no. 2 is connected to the other end of electrolyte recovery tube no. 2. The utility model discloses can retrieve the electrolyte of annotating liquid machine liquid storage pot and the production of infusion pump exhaust bubble, avoid material loss, practice thrift manufacturing cost.

Description

A kind of lithium electricity filling machine anolyte recovery system

Technical field

The utility model relates to the process units of a kind of lithium electricity note, particularly relates to a kind of lithium electricity filling machine anolyte recovery system.

Background technology

Electrolyte when remodeling in the production of lithium electricity note in filling machine also needs to change electrolyte model; the electrolyte do not used in fluid reservoir needs emptying; topping-up pump to be adjusted to after remodeling and run up; bubble in the emptying pump housing and pipeline; prevent from occurring reservoir quantity instability and dropping liquid when producing; because the particularity of electrolyte itself can not be exposed in surroundings, if the electrolyte unsealing of eliminating is sealed up for safekeeping, cannot use, can material loss be caused.

Summary of the invention

The purpose of this utility model is exactly for the problems referred to above, provides a kind of lithium electricity filling machine anolyte recovery system.

The technical scheme that the utility model adopts is: a kind of lithium electricity filling machine anolyte recovery system, it is characterized in that: comprising: nitrogen pipeline, vacuum generator, vacuum tube one, the main bucket of electrolyte, electrolyte pipe one, electrolyte recovery tube one, filling machine fluid reservoir, vacuum tube two, vacuum source, electrolyte pipe two, topping-up pump, electrolyte pipe three, injection needle, electrolyte recovery tube two, the top of the main bucket of described electrolyte is provided with main bucket pipe joint one and main bucket pipe joint two, main bucket interface one and main bucket interface two are respectively equipped with ball valve, nitrogen pipeline is communicated with main bucket interface one, vacuum generator is in parallel with nitrogen pipeline by vacuum tube one, nitrogen pipeline in parallel is provided with nitrogen pipeline ball valve, vacuum generator discharge duct in parallel is provided with ball valve, electrolyte pipe one is located at the inside of the main bucket of electrolyte and lower end is located at the bottom of the main bucket liquid level of electrolyte, upper end is wherein communicated with one end with electrolyte recovery tube one by main bucket interface two, described filling machine fluid reservoir upper end is provided with fluid reservoir interface one and fluid reservoir interface two, fluid reservoir interface three and fluid reservoir interface four is provided with bottom filling machine fluid reservoir, four fluid reservoir interfaces are respectively equipped with ball valve, fluid reservoir interface one is communicated with vacuum source by vacuum tube two, the other end of electrolyte recovery tube one and fluid reservoir interface tee joint, fluid reservoir interface four is communicated with by electrolyte Guan Eryu topping-up pump entrance, topping-up pump outlet is communicated with by electrolyte Guan Sanyu injection needle entrance, injection needle outlet connects electrolyte recovery tube two and wherein connects one end, the other end of electrolyte recovery tube two connects fluid reservoir interface two.

The beneficial effects of the utility model: the electrolyte that can reclaim filling machine fluid reservoir and the generation of topping-up pump exhaust bubble, avoid material loss, save production cost; Filling machine fluid reservoir electrolyte can be reclaimed, in daily production, do not need to calculate filling machine fluid reservoir liquid volume added, handled easily; The electrolyte that topping-up pump exhaust bubble produces can be reclaimed, in daily production, bubble can be got rid of timely, can not material loss be caused, to ensure topping-up pump stable operation.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of one of them embodiment of the utility model.

Embodiment

As shown in Figure 1, the utility model comprises: nitrogen pipeline 1, vacuum generator 3, vacuum tube 1, the main bucket 4 of electrolyte, electrolyte pipe 1, electrolyte recovery tube 1, filling machine fluid reservoir 7, vacuum tube 28, vacuum source 9, electrolyte pipe 2 10, topping-up pump 11, electrolyte pipe 3 12, injection needle 13, electrolyte recovery tube 2 14, the top of the main bucket of described electrolyte 4 is provided with main bucket pipe joint 1 and main bucket pipe joint 2 42, main bucket interface one and main bucket interface two are respectively equipped with ball valve Q3, Q4, nitrogen pipeline 1 is communicated with main bucket interface one, vacuum generator 3 is in parallel with nitrogen pipeline by vacuum tube 1, nitrogen pipeline in parallel is provided with nitrogen pipeline ball valve Q2, vacuum generator discharge duct in parallel is provided with ball valve Q1, electrolyte pipe 1 is located at the inside of the main bucket of electrolyte and lower end is located at electrolyte main bucket liquid level bottom, upper end is wherein communicated with one end with electrolyte recovery tube 1 by main bucket interface two, described filling machine fluid reservoir 7 upper end is provided with fluid reservoir interface 1 and fluid reservoir interface 2 72, fluid reservoir interface 3 73 and fluid reservoir interface 4 74 is provided with bottom filling machine fluid reservoir 7, four fluid reservoir interfaces are respectively equipped with ball valve Q5, Q6, Q7, Q8, fluid reservoir interface 1 is communicated with vacuum source by vacuum tube 28, the other end of electrolyte recovery tube one is communicated with fluid reservoir interface 3 73, fluid reservoir interface 4 74 is communicated with topping-up pump 11 entrance by electrolyte pipe 2 10, topping-up pump 11 is exported and is communicated with injection needle 13 entrance by electrolyte pipe 3 12, injection needle 13 exports and connects electrolyte recovery tube 2 14 wherein one end connection, the other end of electrolyte recovery tube two connects fluid reservoir interface 2 72.

The utility model is by several electrolyte recovery tubes, and reclaimed by the electrolyte of discharging fluid reservoir in production process, recovery system mainly applies siphon principle.

Native system workflow: filling machine fluid reservoir electrolyte reclaims: electrolyte pipeline 6 and nitrogen tube 1 are inserted on fluid injection owner bucket 4, open Q3, Q4, Q5 and Q6 ball valve.Open Q2 ball valve, the main bucket of electrolyte starts pressurization, the air in emptying electrolyte pipeline 6.Close Q2 ball valve, open Q1 ball valve, make air pressure in the main bucket of electrolyte lower than filling machine fluid reservoir.According to siphon principle: siphonage is that between liquid molecule, gravitation and potential difference can cause.Namely utilize water column pressure poor, make liter waterborne flow to lower again.Because the mouth of pipe water surface bears different atmospheric pressures, water can by pressure large to flow to pressure little, until the atmospheric pressure on both sides is equal, the water surface in container becomes double altitudes, and water will stop flowing.Utilize the electrolyte in siphonage filling machine fluid reservoir all can flow into the main bucket of electrolyte.

Topping-up pump exhaust bubble reclaims: be plugged in injection needle by electrolyte recovery tube 2 14, open Q6 and Q8 ball valve.Running topping-up pump 11, opens electrolyte residual in Q5 ball valve recovery channel after having operated.

Claims (1)

1. a lithium electricity filling machine anolyte recovery system, it is characterized in that: comprise nitrogen pipeline (1), vacuum generator (3), vacuum tube one (2), the main bucket of electrolyte (4), electrolyte pipe one (5), electrolyte recovery tube one (6), filling machine fluid reservoir (7), vacuum tube two (8), vacuum source (9), electrolyte pipe two (10), topping-up pump (11), electrolyte pipe three (12), injection needle (13) and electrolyte recovery tube two (14), the top of the main bucket of described electrolyte (4) is provided with main bucket pipe joint one (41) and main bucket pipe joint two (42), main bucket interface one and main bucket interface two are respectively equipped with ball valve, nitrogen pipeline (1) is communicated with main bucket interface one, vacuum generator (3) is in parallel with nitrogen pipeline by vacuum tube one (2), nitrogen pipeline in parallel is provided with nitrogen pipeline ball valve (Q2), vacuum generator discharge duct in parallel is provided with ball valve (Q1), electrolyte pipe one (5) is located at the inside of the main bucket of electrolyte and lower end is located at the bottom of the main bucket liquid level of electrolyte, upper end is wherein communicated with one end with electrolyte recovery tube one (6) by main bucket interface two, described filling machine fluid reservoir (7) upper end is provided with fluid reservoir interface one (71) and fluid reservoir interface two (72), filling machine fluid reservoir (7) bottom is provided with fluid reservoir interface three (73) and fluid reservoir interface four (74), four fluid reservoir interfaces are respectively equipped with ball valve, fluid reservoir interface one (71) is communicated with vacuum source by vacuum tube two (8), the other end of electrolyte recovery tube one is communicated with fluid reservoir interface three (73), fluid reservoir interface four (74) is communicated with topping-up pump (11) entrance by electrolyte pipe two (10), topping-up pump (11) outlet is communicated with injection needle (13) entrance by electrolyte pipe three (12), injection needle (13) outlet connects electrolyte recovery tube two (14) and wherein connects one end, the other end of electrolyte recovery tube two connects fluid reservoir interface two (72).