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CN-121972043-A - Ammonia water partial shipment and ammonia recycle mechanism

CN121972043ACN 121972043 ACN121972043 ACN 121972043ACN-121972043-A

Abstract

The invention discloses an ammonia water split charging and ammonia gas recycling mechanism which comprises a sealing plate, a flexible sealing plate, a clamping groove and a release assembly, wherein a sealing cavity is formed between the sealing plate and a barrel body, the clamping groove is formed at the upper end of the barrel body, the flexible sealing plate is in a bending state when the release assembly is used for fixing the flexible sealing plate, the flexible sealing plate is in an unfolding state by utilizing the elasticity of the release assembly when the release assembly is used for releasing the flexible sealing plate and is clamped in the clamping groove, an inlet pipe and an outlet pipe, a diffusion assembly and a circulating pipe, the diffusion assembly and the circulating pipe are arranged at the bottom of the barrel body, the circulating pump is used for driving ammonia gas in the barrel body to circulate from bottom to top, and the ammonia gas is contacted with desalted water through the diffusion assembly in the circulation process from bottom to top. The ammonia water filling device has the beneficial effects that the ammonia water filling device enables the barrel body to keep a sealing state with the outside when ammonia water is filled through the effect of the plugging plate, so that ammonia gas leakage is avoided, and the flexible sealing plate can quickly plug the opening above the barrel body after the ammonia water is filled, so that the ammonia gas is prevented from diffusing into the air.

Inventors

  • HAN SHULIANG
  • CHEN JIANQIANG
  • CHANG YAFEI
  • Chen Heijun

Assignees

  • 邯郸市华阳环保科技有限公司

Dates

Publication Date
20260505
Application Date
20260206

Claims (8)

  1. 1. Aqueous ammonia partial shipment and ammonia recycling mechanism, including demineralized water (1), ammonia (2), aqueous ammonia (3), jar body (4), staving (5), circulating pump (6) and support (7), its characterized in that still includes: The sealing device comprises a sealing plate (8), a flexible sealing plate (9), a clamping groove (10) and a release assembly, wherein a sealing cavity is formed between the sealing plate (8) and the barrel body (5), the clamping groove (10) is arranged at the upper end of the barrel body (5), the flexible sealing plate (9) is in a bending state when the release assembly is used for fixing the flexible sealing plate (9), and the flexible sealing plate (9) is in an unfolding state by utilizing the elasticity of the release assembly when the release assembly is used for releasing the flexible sealing plate (9) and is clamped in the clamping groove (10); The device comprises an inlet pipe (11) and an outlet pipe (12), wherein the inlet pipe (11) is used for injecting ammonia water (3), the outlet pipe (12) is used for discharging ammonia (2), and the inlet pipe (11) and the outlet pipe (12) avoid a flexible sealing plate (9); the circulating pump (6) is arranged on the circulating pipe (13), the diffusing component is arranged at the bottom of the tank body (4), the circulating pump (6) drives ammonia gas (2) in the tank body (4) to circulate from bottom to top, and the ammonia gas (2) is contacted with desalted water (1) through the diffusing component in the process of circulating from bottom to top.
  2. 2. The ammonia water split charging and ammonia gas recycling mechanism according to claim 1, wherein a hydraulic rod (21) is installed on the support (7), the plugging plate (8) is installed at the telescopic end of the hydraulic rod (21), a sealing ring (22) is installed on the lower surface of the plugging plate (8), the diameter of the sealing ring (22) is the same as that of the opening of the barrel body (5), and a diffuser cover (23) is installed at the outer ring of the plugging plate (8).
  3. 3. The ammonia water split charging and ammonia gas recycling mechanism according to claim 2, wherein the release assembly comprises a hard tube (31) arranged on the lower surface of the plugging plate (8), a sucker (32) is arranged at the lower end of the hard tube (31), the sucker (32) is used for fixing the flexible sealing plate (9), and a flow converging tube (33) is arranged at the upper end of the hard tube (31).
  4. 4. The ammonia water split charging and ammonia gas recycling mechanism according to claim 3, wherein the lower ends of the inlet pipe (11) and the outlet pipe (12) are semicircular, the inlet pipe (11) and the outlet pipe (12) penetrate through the plugging plate (8), and the inlet pipe (11) is communicated with an external storage bin.
  5. 5. The ammonia water split charging and ammonia gas recycling mechanism according to any one of claims 1 to 4, wherein the diffusion assembly comprises an L-shaped pipe (51) arranged at the lower end of the tank body (4), the L-shaped pipe (51) is inserted into the tank body (4), a first hole (52) is formed in the lower end of the side wall of the L-shaped pipe (51), a second hole (53) is formed in the middle of the side wall of the L-shaped pipe (51), a third hole (54) is formed in the upper end of the side wall of the L-shaped pipe (51), a first cone (55) is arranged at the upper end of the first hole (52), a second cone (56) is arranged at the upper end of the second hole (53), and a third cone (57) is arranged at the upper end of the third hole (54).
  6. 6. The ammonia dispensing and ammonia recycling mechanism according to claim 5, wherein the diffusion assembly further comprises a baffle plate (61), and a fourth hole (62) is formed in the baffle plate (61), and the fourth hole (62) has a diameter smaller than the first hole (52), the second hole (53) and the third hole (54).
  7. 7. The ammonia water split charging and ammonia gas recycling mechanism according to claim 6, wherein the upper end of the circulating pipe (13) is communicated with the tank body (4), the lower end of the circulating pipe (13) is communicated with the L-shaped pipe (51), the circulating pump (6) is arranged at the upper end of the circulating pipe (13), the upper end of the circulating pipe (13) is provided with a first valve (63), two ends of the first valve (63) are communicated with the circulating pipe (13), the first valve (63) is also communicated with the outlet pipe (12), and a second valve (64) is arranged at the lower end of the circulating pipe (13).
  8. 8. The ammonia water split charging and ammonia gas recycling mechanism according to claim 7, wherein a conveying mechanism (81) is arranged below the bracket (7), and the barrel body (5) is placed on the conveying mechanism (81).

Description

Ammonia water partial shipment and ammonia recycle mechanism Technical Field The invention relates to the technical field of ammonia water split charging, in particular to an ammonia water split charging and ammonia gas recycling mechanism. Background Ammonia is an aqueous solution formed by dissolving ammonia in water, is colorless and transparent, has strong and pungent smell, is subpackaged according to requirements during production and transportation, and is recovered through a hollow outer tube in the prior art, for example, the ammonia generated in the subpackaging process is dissolved in desalted water in a mode of spraying desalted water in the literature with the application number of CN 202310291654.3; The method has the following defects that 1, the recycling operation can be completed in the prior art, but after the hollow outer tube is inserted into the barrel body, gaps are formed between the hollow outer tube and the barrel body, part of ammonia gas can diffuse out through the gaps, and when the hollow outer tube is fully filled with ammonia water, the hollow outer tube is separated from the barrel body, and ammonia gas still diffuses into the air, 2, desalted water is mixed with ammonia gas in a spraying mode, and the practically utilized space of the mixed desalted water and the ammonia gas is only occupied by the falling of desalted water, so that the space utilization rate is low, and the mixing efficiency is low. Disclosure of Invention The invention aims at the defects and provides an ammonia water split charging and ammonia gas recycling mechanism which solves the problems. In order to achieve the above purpose, the present invention adopts the following technical scheme: Ammonia water partial shipment and ammonia recycling mechanism, including demineralized water, ammonia, aqueous ammonia, jar body, staving, circulating pump and support, still include: the flexible sealing plate is in a bending state when the flexible sealing plate is fixed by the release component, and is in an unfolding state by utilizing the elasticity of the release component when the flexible sealing plate is released and is clamped in the clamping groove; The inlet pipe is used for ammonia water injection, the outlet pipe is used for ammonia gas discharge, and the inlet pipe and the outlet pipe avoid the flexible sealing plate; The circulating pump is arranged on the circulating pipe, the diffusion assembly is arranged at the bottom of the tank body, the circulating pump drives ammonia in the tank body to circulate from bottom to top, and the ammonia is contacted with desalted water through the diffusion assembly in the process of circulating from bottom to top. Further, a hydraulic rod is arranged on the support, the plugging plate is arranged at the telescopic end of the hydraulic rod, a sealing ring is arranged on the lower surface of the plugging plate, the diameter of the sealing ring is the same as that of the opening of the barrel body, and a mouth expanding cover is arranged at the outer ring of the plugging plate. Further, the release assembly comprises a hard tube arranged on the lower surface of the plugging plate, a sucker is arranged at the lower end of the hard tube, the flexible sealing plate is fixed by the sucker, and a flow converging tube is arranged at the upper end of the hard tube. Furthermore, the lower ends of the inlet pipe and the outlet pipe are semicircular, the inlet pipe and the outlet pipe penetrate through the plugging plate, and the inlet pipe is communicated with the external storage bin. Further, the diffusion assembly comprises an L-shaped pipe arranged at the lower end of the tank body, the L-shaped pipe is inserted into the tank body, a first hole is formed in the lower end of the side wall of the L-shaped pipe, a second hole is formed in the middle of the side wall of the L-shaped pipe, a third hole is formed in the upper end of the side wall of the L-shaped pipe, a first cone is arranged at the upper end of the first hole, a second cone is arranged at the upper end of the second hole, and a third cone is arranged at the upper end of the third hole. Further, the diffusion assembly further comprises a separation baffle plate, and a hole IV is formed in the separation baffle plate, and the diameter of the hole IV is smaller than that of the hole I, the hole II and the hole III. Further, the upper end of the circulating pipe is communicated with the tank body, the lower end of the circulating pipe is communicated with the L-shaped pipe, the circulating pump is arranged at the upper end of the circulating pipe, the upper end of the circulating pipe is provided with a valve I, two ends of the valve I are communicated with the circulating pipe, the valve I is also communicated with the outlet pipe, and the lower end of the circulating pipe is provided with a valve II. Further, a conveying mechanism is arranged below the bracket, and the barrel body is placed on the conveying mec