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CN-224227507-U - Condensate blocking mechanism and garment steamer

CN224227507UCN 224227507 UCN224227507 UCN 224227507UCN-224227507-U

Abstract

The utility model relates to the technical field of garment steamer, in particular to a condensate blocking mechanism and a garment steamer brush, which comprises a holding module, a brush head, a condensate guiding module, a retaining box and a steam guiding module, wherein the holding module is internally provided with a first pipeline and a second pipeline for conducting steam and condensate, and an opening and closing unit capable of controlling the opening and closing of the first pipeline, the brush head is detachably arranged at the front end of the holding module, the condensate guiding module is fixedly arranged in the brush head and is close to the bottom of the brush head, the retaining box is arranged on the condensate guiding module and can be used for temporarily storing steam, the front ends of the first pipeline and the second pipeline are communicated with the retaining box, the steam guiding module is embedded on the surface of the brush head and is close to the top of the brush head, and the input end of the steam guiding module is communicated with the retaining box.

Inventors

  • XUE SHENGLI

Assignees

  • 宁波德晶元电器有限公司

Dates

Publication Date
20260512
Application Date
20250522

Claims (6)

  1. 1. The congeal water separates fender mechanism, its characterized in that includes: The device comprises a holding module (1), wherein a first pipeline (11) and a second pipeline (12) for conducting steam and condensed water and an opening and closing unit (13) capable of controlling the opening and closing of the first pipeline (11) are arranged in the holding module (1); The brush head (2) is detachably arranged at the front end of the holding module (1); The device comprises a brush head (2), a condensate flow guide module (4), a first pipeline (11) and a second pipeline (12), wherein the condensate flow guide module (4) is fixedly arranged in the brush head (2) and is close to the bottom of the brush head (2), the condensate flow guide module (4) is provided with a retention box (41) for temporary storage of steam, the front ends of the first pipeline (11) and the second pipeline (12) are communicated with the retention box (41), and when the steam enters the retention box (41), the steam with heavier specific gravity can be automatically deposited at the bottom of the retention box (41); The steam guiding-out module (3), the steam guiding-out module (3) is embedded on the surface of the brush head (2) and is arranged close to the top of the brush head (2), and the input end of the steam guiding-out module (3) is communicated with the retaining box (41); The condensate flow guiding module (4) further comprises a transmission hose (42) capable of guiding condensate into the second pipeline (12) and a limiting part (43) capable of continuously limiting the suction end of the transmission hose (42) to the bottom of the retaining box (41).
  2. 2. The condensate baffle mechanism according to claim 1, wherein the steam guiding-out module (3) comprises a gas collecting unit (31) capable of guiding steam directionally and a guiding-out unit (32) capable of guiding out steam transversely; The guiding-out unit (32) is embedded in the brush head (2) in a horizontal state through a fixing plate; The gas collecting unit (31) is fixedly arranged at the gas inlet end of the guiding-out unit (32), and the gas collecting unit (31) is provided with a guide ring (311) capable of allowing condensed water to flow back.
  3. 3. The condensate barrier mechanism of claim 2, wherein the gas collection unit (31) further comprises a guide seat (312), a guide groove (313), a through hole (314) and a return gas inlet ring (315); The guide seat (312) is fixedly arranged at the air inlet end of the guiding-out unit (32), and a guide groove (313) capable of guiding steam directionally is formed in one side, close to the guiding-out unit (32), of the guide seat (312); the through hole (314) is penetrated and arranged in the guide groove (313) for guiding steam; The guide ring (311) is centrally arranged in the guide groove (313) and forms an annular cavity with the guide groove (313), and the annular cavity is communicated with the through hole (314) and is used for guiding steam to flow back; The backflow air inlet ring (315) is fixedly arranged on the other side, far away from the guiding-out unit (32), of the guiding seat (312) in a vertical state and is communicated with the through hole (314).
  4. 4. The condensate blocking mechanism according to claim 2, wherein the guiding-out unit (32) comprises a limiting panel (321), a plurality of groups of steam spray holes (322) arranged on the limiting panel (321) and air inlet pipes (323) corresponding to the plurality of groups of steam spray holes (322) and vertically arranged on the other side of the limiting panel (321); The steam spray holes (322) are arranged on the limiting panel (321) in parallel along the long-side direction of the top of the brush head (2); The air inlet pipe (323) is vertically arranged on one side, close to the air collecting unit (31), of the limiting panel (321).
  5. 5. The condensate baffle mechanism as claimed in claim 4, wherein the opening and closing unit (13) is a pressure check valve.
  6. 6. Garment steamer brush, characterized in that it comprises a condensation barrier mechanism according to any one of claims 1-5.

Description

Condensate blocking mechanism and garment steamer Technical Field The utility model relates to the technical field of garment steamer, in particular to a condensate blocking mechanism and a garment steamer brush. Background The garment steamer is used as daily clothes care equipment, and high-temperature steam is used for softening clothes fibers so as to realize efficient ironing and wrinkle removal. However, during actual use, as the steam is affected by temperature changes during the pipe transfer, part of the steam condenses to form condensed water due to cooling. When the comdenstion water is sprayed out from the steam jet along with steam, not only can reduce the ironing effect of steam, still probably leave the water stain on the clothing surface, influence use experience, lead to high temperature comdenstion water to splash even, there is the scald risk. Therefore, how to effectively isolate condensed water and ensure the stability and the dryness of steam injection is an important direction of the technical optimization of garment steamer equipment. The existing garment steamer usually adopts a simple diversion structure or drain holes to drain condensed water, but the methods often have the defects of untimely condensed water drainage, accumulated water retention or small amount of condensed water mixed into steam. Furthermore, some devices employ inclined lines or gravity separation, but may affect the effective drainage of condensate when operating at different angles, resulting in unstable steam injection. Disclosure of Invention To above-mentioned problem, provide congeal water and separate fender mechanism, through providing one kind can not only be in the garment steamer in-process high efficiency separation comdenstion water and can with the garment steamer brush of comdenstion water initiative suction to solve current garment steamer brush when using comdenstion water can together be spouted from the steam vent, easily leave the water stain and with the direct technical problem who leads to the fact the scald risk of getting rid of high temperature comdenstion water on the clothing surface. The utility model provides a condensate blocking mechanism, which comprises a holding module, a brush head, a condensate guiding module, a retaining box and a steam guiding module, wherein the holding module is internally provided with a first pipeline and a second pipeline for conducting steam and condensate and an opening and closing unit capable of controlling the opening and closing of the first pipeline, the brush head is detachably arranged at the front end of the holding module, the condensate guiding module is fixedly arranged in the brush head and is close to the bottom of the brush head, the retaining box is arranged on the condensate guiding module and can be used for temporarily storing steam, the front ends of the first pipeline and the second pipeline are communicated with the retaining box, when steam enters the retaining box, the steam with heavy specific gravity is automatically deposited at the bottom of the retaining box, the steam guiding module is arranged on the surface of the brush head in an embedded mode and is close to the top of the brush head, and the input end of the steam guiding module is communicated with the retaining box. Preferably, the condensate water diversion module further comprises a transmission hose capable of introducing condensate water into the second pipeline and a limiting part capable of continuously limiting the suction end of the transmission hose to the bottom of the retention box. The steam guiding-out module comprises a gas collecting unit capable of guiding steam in a directional mode and a guiding-out unit capable of guiding the steam transversely, wherein the guiding-out unit is arranged in the brush head in an embedded mode in a horizontal mode through a fixing plate, the gas collecting unit is fixedly arranged at the gas inlet end of the guiding-out unit, and the gas collecting unit is provided with a guide ring capable of enabling condensate water to flow back. The gas collecting unit further comprises a guide seat, a guide groove, a through hole and a backflow gas inlet ring, wherein the guide seat is fixedly arranged at the gas inlet end of the guiding-out unit, one side, close to the guiding-out unit, of the guide seat is further provided with the guide groove capable of guiding steam in a directional mode, the through hole is formed in the guide groove in a penetrating mode and used for guiding steam in a penetrating mode, the guide ring is arranged in the guide groove in a centering mode and is communicated with the guide groove to form an annular cavity, the annular cavity is communicated with the through hole and used for guiding steam to flow back, and the backflow gas inlet ring is fixedly arranged on the other side, far away from the guiding-out unit, of the guide seat in a vertical mode and is communicated with the through hole. Pref