WO2019221505A1 - Dispositif de traitement de vêtement - Google Patents

Dispositif de traitement de vêtement Download PDF

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Publication number
WO2019221505A1
WO2019221505A1 PCT/KR2019/005822 KR2019005822W WO2019221505A1 WO 2019221505 A1 WO2019221505 A1 WO 2019221505A1 KR 2019005822 W KR2019005822 W KR 2019005822W WO 2019221505 A1 WO2019221505 A1 WO 2019221505A1
Authority
WO
WIPO (PCT)
Prior art keywords
cabinet
inner case
blowing agent
hot air
air supply
Prior art date
Application number
PCT/KR2019/005822
Other languages
English (en)
Korean (ko)
Inventor
최준영
남완식
박성후
박혜용
Original Assignee
엘지전자 주식회사
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 엘지전자 주식회사 filed Critical 엘지전자 주식회사
Priority to RU2020141252A priority Critical patent/RU2752576C1/ru
Priority to CN201980032265.0A priority patent/CN112119186B/zh
Priority to EP19804016.4A priority patent/EP3795737A4/fr
Priority to JP2020562714A priority patent/JP7450553B2/ja
Priority to AU2019270066A priority patent/AU2019270066B2/en
Priority to US17/052,917 priority patent/US11686038B2/en
Priority claimed from KR1020190056813A external-priority patent/KR20190131442A/ko
Publication of WO2019221505A1 publication Critical patent/WO2019221505A1/fr
Priority to JP2022148993A priority patent/JP7472218B2/ja

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Classifications

    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F58/00Domestic laundry dryers
    • D06F58/10Drying cabinets or drying chambers having heating or ventilating means
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F58/00Domestic laundry dryers
    • D06F58/20General details of domestic laundry dryers 

Definitions

  • the present invention relates to a laundry treatment apparatus.
  • a clothing processing apparatus is a device that performs various operations related to clothing (laundry, drying, deodorization, wrinkle removal, etc.).
  • the laundry treatment apparatus has been developed to solve the washing, drying, deodorization and wrinkle removal of clothing with a single device.
  • the clothes treating apparatus uses a drum in which clothes are accommodated and a driving device for rotating the drum, there is a lack of deodorization or wrinkle removal of clothes.
  • the inner case 200 having a receiving space for mounting the clothing, and the inner case
  • the clothes treating apparatus including a hot air supply unit (not shown) for supplying hot air or moisture from the lower portion, and a cabinet 100 provided outside the inner case and the hot air supply unit to form an appearance have appeared.
  • the conventional clothing processing apparatus is provided with hot air supplied to a hot air supply unit (not shown) located under the cabinet in a state in which clothes are placed in an accommodation space provided in the inner case 200, or pressing clothes to remove wrinkles and remove wrinkles at the same time.
  • a hot air supply unit not shown located under the cabinet in a state in which clothes are placed in an accommodation space provided in the inner case 200, or pressing clothes to remove wrinkles and remove wrinkles at the same time.
  • hot air or moisture is supplied in the state in which the clothes are unfolded by their own weight in the cabinet, so that deodorization and wrinkles of the clothes can be removed without a separate device.
  • the conventional clothing treatment apparatus further includes a frame 10 to fix the shape of the inner case 200, the hot air supply unit, and the cabinet 100 and to ensure durability.
  • the frame 10 includes a plurality of vertical frames 11 provided in a height direction and a plurality of horizontal frames 12 connecting the vertical frames 11 in a width direction to stabilize the inner case 200. It was accommodated in, and was able to effectively support the vibration generated in the hot air supply (not shown).
  • the clothes treating apparatus assembles the horizontal frame 12 and the vertical frame 11 in the manufacturing process, fixes the inner case 200 and the hot air supply unit to the assembled frame 10, and the cabinet. There was a hassle of having to couple 100 to frame 10 again. In particular, when the cabinet 100 is provided with a side surface 120, a back surface 110, and an upper surface 101, respectively, there was a hassle that each configuration must be coupled to the frame 10.
  • the conventional clothing processing apparatus has a problem that the cabinet is relatively higher than other household appliances are easily bent by the external force.
  • the present invention is to solve the problem to provide a clothes treatment apparatus that can omit the assembly process by fixing the internal configuration through a foaming agent or a foam insulation (hereinafter, foaming agent).
  • the present invention is to solve the problem to provide a garment treatment apparatus that can prevent deformation and maintain the rigidity even if the frame is replaced with a foaming agent.
  • the present invention is to solve the problem to provide a clothes treatment apparatus that can ensure a sufficient internal space even if the frame is replaced with a foaming agent.
  • the present invention is to solve the problem to provide a clothing treatment apparatus that can ensure the durability by inducing the foam is evenly filled in the gap between the internal configuration.
  • the present invention is to solve the problem to provide a clothes treatment apparatus that can prevent interference with the internal configuration even if the frame is replaced with a foaming agent.
  • the present invention is to solve the problem to provide a clothes treatment apparatus that can be prevented deformation by an external force even if the cabinet is provided larger than other household appliances.
  • An object of the present invention is to provide a clothes treating apparatus capable of maintaining the shape of a cabinet while a blowing agent is injected into or filled into the cabinet.
  • the present invention is to solve the problem to provide a clothes treatment apparatus that can maintain the shape of the cabinet even when the foaming agent expands in the process of solidifying inside the cabinet.
  • the present invention is to solve the problem to provide a clothing treatment apparatus that can reduce the defective rate by replacing the frame with a foaming agent.
  • the present invention is to solve the problem to provide a clothing treatment apparatus that can ensure the durability by inducing the filling of the blowing agent evenly.
  • the present invention is to solve the problem to provide a clothes treatment apparatus that can enhance the binding force between the internal configuration and the blowing agent.
  • the present invention is to solve the problem to provide a clothes treatment apparatus that can maintain the rigidity and chemical stability in a high temperature and high humidity environment.
  • An object of the present invention is to provide a clothes treating apparatus capable of maintaining the shape of a cabinet while a blowing agent is injected into or filled into the cabinet.
  • the present invention is to solve the problem to provide a clothes treatment apparatus that can maintain the shape of the cabinet even when the foaming agent expands in the process of solidifying inside the cabinet.
  • the present invention provides a cabinet having an opening in front, a door rotatably provided in front of the opening to open and close the opening, and an accommodation space provided in the cabinet to accommodate clothes.
  • a hot air supply unit provided at a lower portion of the inner case to supply at least one of hot air and moisture to the accommodation space, wherein the inner case maintains adhesion to the blowing agent injected into the cabinet.
  • a laundry treatment apparatus provided with a resin.
  • the blowing agent is injected not only between the cabinet and the inner case, but also between the inner case and the hot air supply part, so that the strength and shape can be maintained when the blowing agent is hardened.
  • the cabinet may include an injection port through which the blowing agent is injected, and a plurality of vent holes for discharging air between the cabinet and the inner case and between the inner case and the hot air supply unit.
  • the blowing agent may further include a hollow part provided as an empty space between the upper surface of the cabinet and the upper surface of the inner case without entering the blowing agent.
  • the mounting portion may be provided to be installed inside the hollow portion.
  • the present invention may further include a gripping portion that is provided to protrude or recess toward the cabinet from the inner body and is coupled with a foaming agent filling a space between the cabinet and the inner body.
  • the gripping part may include a gripping case protruding toward the cabinet from the inner body and providing a space for accommodating the blowing agent therein, and a gripping opening provided on one surface of the gripping case to introduce the blowing agent into the space.
  • the gripping portion may include a gripping beam protruding from the inner body toward the cabinet and combined with the blowing agent.
  • the gripping portion may include a gripping protrusion protruding toward the cabinet from the inner body and through which the blowing agent is coupled.
  • the gripping portion may include a gripping protrusion protruding from one surface of the inner case and accommodated in the foaming agent.
  • the present invention further includes a hinge unit for rotatably coupling the door to the cabinet, and a base provided below the hot air supply unit to support the inner case and the hot air supply unit. It may include. At least one of the hinge part and the base may be fixed together to the cabinet when the inner case and the hot air supply part are fixed with a blowing agent.
  • the base is provided at the bottom of the hot air supply unit to form a bottom surface of the cabinet, a body coupling portion provided on the base body and the hot air supply is seated, and from the body coupling portion to both sides of the cabinet It may include extending to prevent leakage of the blowing agent.
  • the hot air supply unit and the leakage preventing unit may be simultaneously fixed.
  • the hinge portion may include a lower hinge coupled to the base body so that the door is rotatably coupled.
  • the lower hinge has a lower body coupled to the base body, a hinge body coupled to the lower body to be rotatably coupled to the lower body, and a lower hinge shaft extending upward from the hinge body to form a rotation axis of the door. It may include.
  • the hinge portion may include an upper hinge to which the door is rotatably coupled.
  • the upper hinge may be inserted through the inner case and the cabinet to be fixed with the foaming agent.
  • the present invention has the effect of providing a clothing treatment apparatus that can omit the assembly process by fixing the internal configuration through a foaming agent or a foam insulation (hereinafter, foaming agent).
  • the present invention has the effect of providing a garment treatment apparatus that can prevent deformation and maintain rigidity even if the frame is replaced with a foaming agent.
  • the present invention has the effect of providing a clothes treatment apparatus that can secure a sufficient internal space even if the frame is replaced with a foaming agent.
  • the present invention has the effect of providing a clothing treatment apparatus that can ensure durability by inducing the blowing agent is evenly filled in the gap between the internal configuration.
  • the present invention has the effect of providing a clothes treatment apparatus that can prevent interference with the internal configuration even if the frame is replaced with a foaming agent.
  • the present invention has the effect of providing a clothing treatment apparatus that can ensure durability by inducing the blowing agent is evenly filled in the gap between the internal configuration.
  • the present invention has the effect of providing a laundry treatment apparatus that can be prevented deformation by an external force even if the cabinet is provided larger than other household appliances.
  • the present invention has the effect of maintaining the shape of the cabinet in the process of the blowing agent is injected or filled into the cabinet.
  • the present invention has the effect of maintaining the shape of the cabinet even if the foaming agent expands in the process of solidifying inside the cabinet.
  • the present invention has the effect of providing a clothing treatment apparatus that can reduce the defective rate by replacing the frame with a foaming agent.
  • the present invention has the effect of providing a clothing treatment apparatus that can ensure durability by inducing the blowing agent is evenly filled in the gap between the internal configuration.
  • the present invention has the effect of producing an inner case that can enhance the bonding strength and adhesion to the blowing agent.
  • the present invention has the effect of providing a clothes treatment apparatus that can maintain the durability and chemical stability in a high temperature and high humidity environment even if the inner case is combined with a blowing agent.
  • the present invention has the effect of maintaining the shape of the cabinet in the process of the blowing agent is injected or filled into the cabinet.
  • the present invention has the effect of maintaining the shape of the cabinet even if the foaming agent expands in the process of solidifying inside the cabinet.
  • Figure 1 shows an assembly structure of a conventional clothes treatment apparatus.
  • Figure 2 shows the structure of the laundry treatment apparatus of the present invention.
  • Figure 3 illustrates a structure in which the present invention clothes handling apparatus can be fixed with a blowing agent.
  • Figure 4 illustrates a structure for inducing the blowing agent to be evenly filled even between the internal configuration.
  • Figure 5 shows the process of manufacturing a clothes treatment apparatus with a foaming agent.
  • FIG. 6 illustrates a structure in which deformation may occur when the inside is filled with a blowing agent.
  • FIG. 7 shows an embodiment in which the shape can be maintained even when the inside is filled with a blowing agent and the interference of the internal structure can be prevented.
  • Figure 8 shows the internal structure of the laundry treatment apparatus when the filling of the blowing agent is completed.
  • Figure 9 shows another embodiment capable of maintaining the shape and preventing interference of the internal configuration even when the interior is filled with a blowing agent.
  • Figure 10 shows the internal structure of the laundry treatment apparatus when the filling of the blowing agent is completed.
  • FIG 11 shows the possibility that the cabinet of the present invention clothing processing apparatus can be deformed due to the blowing agent.
  • Figure 12 shows the structure of the deformation preventing portion that can prevent deformation of the cabinet.
  • Figure 13 shows another structure of the deformation preventing portion that can prevent deformation of the cabinet.
  • Figure 14 shows a structure that can strengthen the coupling force of the cabinet and the inner case.
  • Figure 16 shows the gripping portion in which the blowing agent can maintain the bonding force with the inner case.
  • Figure 17 shows another embodiment of the gripping portion in which the blowing agent can maintain the bonding force with the inner case.
  • FIG. 18 shows a structure in which the hinge portion and the base are simultaneously coupled with a foaming agent.
  • Fig. 19 shows another structure in which the hinge portion and the base are simultaneously coupled with the blowing agent.
  • Figure 2 shows the structure of the clothes treating apparatus of the present invention.
  • the clothes handling apparatus of the present invention is a cabinet 100 having an opening 130 in the front, the door 180 is rotatably provided in front of the opening to open and close the opening 180, the cabinet It is provided in the inner case 200 to form an accommodation space in which the clothing is accommodated, provided on one side of the inner case includes a hot air supply unit 400 for supplying one or more of hot air or moisture to the accommodation space.
  • the door 180 may be provided to seal the opening 130 to induce hot air or moisture supplied to the accommodation space to be completely exposed to clothes without leaking to the outside.
  • Clothing may be mounted on the upper portion of the inner case 200, or a mounting portion 300 may be provided with the clothing to be evenly exposed to the hot air or moisture.
  • the cradle 300 may include a cradle 310 coupled to an upper surface of the inner case 200, on which clothes are mounted, and an excitation device 320 for vibrating the cradle 310.
  • the excitation device 320 may include a motor for vibrating the cradle 310, and a transmission unit coupled to the cradle 310 to transfer power of the motor to the cradle 310, the cradle 310 If it can vibrate it may be provided in any shape.
  • the hot air supply unit 400 Since the hot air supply unit 400 generates hot air having a relatively low density, it is preferable that the hot air supply unit 400 is provided below the inner case 200 so that the hot air can be easily supplied to the garment.
  • the inner case 200 may include at least one communication hole 212 communicating with the hot air supply unit 400 at a lower surface thereof.
  • the communication hole 212 is provided in plurality, any one communication hole (212a) is provided so that the hot air is discharged, the other communication hole (212b) is the hot air to dry, wrinkle removal of the clothes After performing a refresh to perform a deodorization, it may be provided to be discharged back to the hot air supply (400).
  • the hot air supply unit 400 is a heat pump 450 for supplying at least one of hot air or moisture to the receiving space, and the receiving space is provided at the lower portion of the heat pump 450 It may include a receiving body (410) for receiving).
  • the receiving body communicates with the communication hole 212 to supply air to the heat pump 450 or the communication port for discharging the hot air supplied from the heat pump 450 to the receiving space (401, see Fig. 3) It may include.
  • the receiving body 410 may include a through part 420 provided so that the heat pump 450 may be exposed to either the front or the rear. Thus, the user can easily access the heat pump 450 or the like only by opening the door 180.
  • the hot air supply unit 400 supports the heat pump 450 and may be drawn out of the through part 420.
  • the user can easily maintain and repair the heat pump 450 by drawing it out of the cabinet 100, and separately prepare the heat pump 450 to install the hot air supply unit 400 in a modular manner. .
  • the lead portion 460 may be provided in a plate shape, and may be provided in a 'L' shape to shield the lead-out hole 190 provided on the rear surface of the cabinet.
  • the guide 413 may be provided with a roller or a rail for supporting and directing the lead portion 460.
  • the heat pump 450 includes an evaporator that cools the air introduced from the accommodation space to condense moisture contained in the air, a compressor that compresses and heats the refrigerant passing through the evaporator, and a refrigerant discharged to the compressor. It may include a condenser for heating the cooled air to generate hot air, and a valve for reducing the temperature by expanding the refrigerant passing through the condenser.
  • the heat pump 450 may further include a steam generating unit for generating steam or mist in a portion in which the air flows, and may further include a blowing fan for providing power for circulating the hot air.
  • the heat pump 450 may include a flow duct through which the air received in the inner case 200 may be supplied to the inner case 200 again without being discharged to the outside through the evaporator and the condenser.
  • the flow duct may be provided in communication with the communication port 401, the blowing fan may be installed in the flow duct.
  • Figure 3 illustrates a configuration in which the present invention clothes processing apparatus can be produced through a foam without omitting the frame.
  • the cabinet 100 may be provided in a box shape, and the inner case 200 and the hot air supply unit 400 may be connected to each other to be inserted into and fixed to the opening 130.
  • the foaming agent is introduced through the rear surface of the cabinet 100 to fill a space inside the cabinet 100 and the outside of the inner case 120 and the hot air supply unit 400.
  • the foaming agent may be provided as a heat insulating material, and may be provided in a liquid state. 100) fills the space it forms and hardens as it cools down over time.
  • the blowing agent may fix the positions of the inner case 200 and the hot air supply unit 400 while contacting both the outer surface of the inner case 200 and the hot air supply unit 400 and the inner surface of the cabinet 100.
  • the shape of the cabinet 100 may be maintained while filling the space inside the cabinet 100, and even if a shock or vibration occurs in the outside, a certain amount may be absorbed to ensure durability.
  • the present invention clothes processing apparatus 10 can fix the inner case 200 and the hot air supply unit 400 even if the frame 10 is omitted, it is possible to omit the assembly process of the coupling member such as bolts and nuts. And the overall weight can be reduced.
  • the inner case 200 has an inner body 210 having an inlet 211 into which the clothing is introduced into the accommodation space, and extends from the outer circumferential surface of the inlet to the opening 130 to form the foaming agent. It may include a shielding rib 220 to prevent leakage.
  • the cabinet 100 may be provided with a coupling rib extending from the inlet 131 toward the inlet 211 of the inner body.
  • the inner body 210 and the cabinet 100 may be provided in any shape and structure as long as the inner body 210 and the cabinet 100 can be prevented from being exposed to the front.
  • the hot air supply unit 400 may further include a prevention rib 430 extending from the outer circumferential surface of the through part 420 to the opening 130 to prevent the outflow of the blowing agent.
  • the shielding rib 220 and the prevention rib 220 may shield the opening 130 to prevent the blowing agent introduced into the cabinet 100 from flowing out through the opening 130.
  • the shielding rib 220 provided at the lower end of the inlet 221 and the prevention rib 220 provided at the upper end of the through part 420 is provided to be in close contact with the inner case 200 and the hot air supply ( The blowing agent introduced between 400 may be prevented from leaking to the outside.
  • the accommodating body 410 of the hot air supply unit 400 is further extended to the rear than the inner case 200 so that the blowing agent (s) to the rear of the through part 420 can be blocked. Can be.
  • the receiving body 410 may be provided to extend until it is in contact with or coupled to the rear surface of the cabinet 100. .
  • the length of the front and rear directions of the accommodation body 410 may be longer than the length of the front and rear directions of the inner case 200.
  • the lead portion 460 may be withdrawn from the cabinet 100 without colliding with the blowing agent.
  • the laundry treatment apparatus 10 of the present invention is provided under the hot air supply unit to form a bottom surface of the cabinet 100 or is accommodated in the cabinet 100 to accommodate the inner case 200 and the hot air supply unit 400.
  • a base 500 supporting the) may be provided.
  • the base 500 is provided with a material for absorbing vibration to prevent the vibration from being transmitted to the outside of the clothing treatment apparatus 10.
  • the foaming agent (S) may be filled up between the bottom surface of the cabinet 100 to fix the base 500.
  • the base 500 may be provided to be drawn out of the cabinet 100.
  • the base 500 may also serve as the lead portion 460.
  • the inner case 200 may be provided with a PP (polypropylene, polypropylene) resin that is commonly used.
  • PP polypropylene, polypropylene
  • the PP resin is excellent in fluidity and dimensional stability, so that it is easy to mold and has excellent strength.
  • the inner case 200 is a high temperature and high humidity environment due to hot air or moisture supplied from the hot air supply unit 400, it may be difficult to ensure the strength of the PP resin.
  • the PP resin has a problem that the adhesive force is not excellent with the blowing agent, it may be impossible for the inner case 200 to be formed of the PP resin. This is because the inner case 200 may flow or escape from the cabinet 100 if the adhesive force of the blowing agent is not secured.
  • the clothes treating apparatus 10 of the present invention needs to apply a material capable of maintaining adhesion and adhesion to the foaming agent even in a high temperature and high humidity environment to the inner case 200.
  • the laundry treatment apparatus 10 of the present invention may include the inner case 200 as a styrene resin which can maintain adhesion to the blowing agent S.
  • the styrene resin is an aromatic hydrocarbon having a structure in which one hydrogen in a benzene ring is substituted with a vinyl group.
  • the styrene resin is a resin of polystyrene, which is a kind of a chemical-based thermoplastic resin, and is a polymer of a liquid styrene unit formed by reacting ethylene and benzene.
  • the styrene resin is known to have excellent adhesion to the blowing agent, and the boiling point of 145 degrees Celsius or more can maintain its natural properties even in a high temperature and high humidity environment.
  • the inner case 200 may be provided with the styrene resin to maintain a certain level of durability even in a high temperature and high humidity environment, to maintain a blowing agent and adhesive force, and to be stably fixed to the cabinet 100.
  • the inner case 200 may be provided with an acrylonitrile butadiene styrene copolymer (ABS) resin that can guarantee strength by maintaining excellent adhesion to the blowing agent in the styrene resin and excellent impact resistance.
  • ABS acrylonitrile butadiene styrene copolymer
  • the ABS resin is a styrene resin composed of three components of styrene, acrylonitrile, and butadiene, which is easy to process, and has higher impact resistance than general styrene resin and is excellent in heat resistance.
  • the ABS resin has a superior heat resistance of 16 percent and an impact resistance of at least 5.6 times that of the PP resin. Therefore, the ABS resin can maintain its natural properties even in a high temperature and high humidity environment such as the inner case 200, and has excellent adhesion to the foaming agent so that the strength and rigidity can be maintained even in the process of being in close contact with the foaming agent and in the state of being in close contact with the blowing agent. have.
  • the inner case 200 is made of an ABS material and can be fixed to the cabinet 100 by being adhered to the foaming agent regardless of when the foaming agent is in a liquid state and a solid state.
  • the ABS resin is excellent in rigidity and heat deformation temperature, the ABS resin can be prevented from being physically deformed and denatured even when exposed to a high temperature and high humidity environment.
  • the inner case 200 is easily exposed to various secretions such as sweat and saliva discharged from clothes and external foreign matter.
  • the color may vary or there may be a problem in which the hygiene and stability of the inner case 200 cannot be guaranteed.
  • the inner case 200 may need to be made of a resin having excellent color retention and strength than the ABS resin, and a resin having excellent heat resistance, chemical resistance, and thermal stability.
  • the laundry treatment apparatus 10 of the present invention may be provided with the inner case 200 made of ASA resin in styrene resin.
  • the ASA resin is an acrylate-styrene-acrylonitrile copolymer (ASA).
  • ASA resin does not include an unstable double bond in a polymer such as ABS, weather resistance, chemical resistance, chemical resistance, heat resistance, etc. It is known to be very good.
  • the ASA resin may not be changed physically or chemically even when exposed to organic substances including secretions or inorganic substances including foreign substances and hot air and moisture, respectively or all.
  • the inner case 200 when the inner case 200 is provided with the ASA resin, chemical reaction with the fluid inside the accommodation space may be prevented even when exposed to hot air or moisture. As a result, not only the strength of the inner case 200 can be guaranteed, but also the odor is adsorbed.
  • the mounting portion 300 is installed on the upper portion of the inner case 200, it is necessary to prevent the inflow of the blowing agent.
  • the laundry treatment apparatus 10 of the present invention is to block the flow of the blowing agent so that the mounting portion 300 is installed between the upper surface 101 of the cabinet and the inner case 200, the empty space It may further include a hollow portion 240 to form.
  • the hollow part 240 is fitted to the upper surface of the cabinet 100 and the upper surface of the inner case 200 to a jig (JIG) for fixing the cabinet 100 and the inner case 200 in the foaming process.
  • JIG jig
  • the paper may be formed with a molding.
  • the hollow part 240 may be generated by inserting a separate case between the cabinet 100 and the inner case 200, injecting a foaming agent, and then removing the case after a predetermined time.
  • the hollow part 240 extends from the inner surface of the cabinet 100 to the inner case 200, or ribs and the case extending from the inner case 200 to the inner surface of the cabinet 100 are provided separately. Can be formed.
  • the hollow part 240 may prevent the mounting part 300 from interfering with the foaming agent even when the foaming agent is introduced into the cabinet 100. Convenience can be guaranteed.
  • the hollow part 240 may be provided in a hexahedral shape, as shown, but may be provided corresponding to the outer shape of the mounting part 300, and in another shape in which the mounting part 300 may be accommodated. It may be provided.
  • the hollow portion 240 may be provided in any shape and volume as long as it can install the mounting portion without filling the blowing agent.
  • the laundry treatment apparatus 10 of the present invention may be coupled to the upper surface of the inner case 200 and include a blocking case 241 for blocking the inflow of the blowing agent to generate the hollow sphere 240. .
  • the blocking case 241 is provided at an interval corresponding to the upper surface 101 of the cabinet from the upper surface of the inner case 200 to be fitted to the inner case 200 and the upper surface 101 of the cabinet. It may be provided.
  • the blocking case 241 may be provided integrally with the inner case 200.
  • the blocking case 241 may be provided in a hexahedral shape, as shown, but may be provided corresponding to the outer shape of the mounting part 300, and in another shape to secure the hollow part 240. It may be provided.
  • the blocking case 241 may be provided in any shape and volume as long as it is possible to install the mounting portion without filling the blowing agent.
  • the cabinet 100, the inner case 200, and the hot air supply unit 400 may include a plurality of vent holes 700 through which air in the cabinet 100 may be discharged.
  • the vent hole 700 may be provided with a diameter through which only air is discharged without being discharged to the outside even when a liquid blowing agent is contacted. That is, since the liquid blowing agent has a relatively strong viscosity, when the diameter of the vent hole 700 is small, the liquid blowing agent may not be discharged to the outside of the vent hole 700 even when the vent hole 700 is introduced or contacted with the vent hole 700. .
  • the diameter of the vent hole 700 may be 0.5mm to 1.5mm. As a result, only the air is discharged to the vent hole 700, and the foaming liquid may be prevented from being discharged.
  • the blowing agent may be derived to effect the approach to the vent hole 700. Therefore, the vent hole 700 may also play a role of inducing the blowing agent to approach and fill the vent hole.
  • the vent when the foam is filled through the cabinet 100, such as the back of the cabinet 100, the vent so that the foam is evenly filled to the front of the inner case 200, the front of the hot air supply unit 400.
  • the hole 700 may be provided in at least one of the shielding rib 220 and the prevention rib 430.
  • the vent hole 700 may be provided through a plurality of the shielding ribs 220 and the prevention ribs 430 in the longitudinal direction.
  • the shielding rib 220 is provided on the outer circumferential surface of the inlet 211, and the blocking rib 430 is provided on the outer circumferential surface of the through part 420, so that the blowing agent 700 causes the foaming agent.
  • the inside of the cabinet 100 and the outside of the inner body 210 and the receiving body 410 may be filled with a blowing agent.
  • the communication port 401 provided on the upper surface 412 of the receiving body 410 and the communication hole 212 of the lower surface of the inner body 210 need to communicate with the communication duct 230.
  • the communication duct 230 may be coupled to the inner body 210 and the receiving body 410 before the blowing agent is injected.
  • the communication duct 230 may also serve to prevent the blowing agent from flowing into the communication port 401 and the communication hole (212).
  • the communication duct 230 extends from one end of the duct body 231 communicating with the inner case 200 and the hot air supply unit 400, and the inner case 200. It may include a duct seating portion 232 is provided to be seated on the lower surface of the duct insertion portion 233 is extended from the other end of the duct body is inserted into the hot air supply (400).
  • the duct body 231 may be provided in a shape corresponding to at least one of the heat pump 450, the communication hole 212, and the communication port 401, and the air is formed by forming a hollow therein. Space can be secured.
  • the duct insertion portion 233 is provided with the same diameter as the duct body 231, or is provided a little larger so as to be forced or inserted into at least one of the communication hole 212 and the communication port 401. It may be provided.
  • the duct seating portion 232 is provided to be much larger than the diameter of the duct body 231 is seated on the lower end of the inner body 210 or the upper end of the communication hole 212, the position of the duct body 231 Can be determined.
  • the duct insertion part 233 is inserted through the communication hole 212 and the communication port 401 at the same time until the duct seating part 232 is seated in the communication hole 212, thereby allowing the heat. It may be in communication with the pump 450. That is, the communication duct 230 may be fixed to the inner case 200 and the hot air supply unit 400 in communication with each other before the foam liquid is injected. The communication duct 230 may be provided in plurality in correspondence with the number of the communication holes 212 and the communication port 401 is provided.
  • the communication duct 230 is provided with a material having a soft or elasticity of the duct inserting portion 233 and the duct seating portion 232 to be easily installed in the communication port 401 and the communication hole 212. Can be.
  • Figure 4 shows the structure for injection of the foaming liquid to the present invention clothing processing apparatus.
  • the cabinet 100 may include an injection hole 140 into which the blowing agent is injected. At least one injection hole 140 may be provided on a rear surface of the injection hole 140 to spray the foam liquid toward the front of the cabinet.
  • the injection hole 140 may be provided on at least one of the side surface, the upper surface, and the lower surface (if present) of the cabinet 100.
  • the injection hole 140 is provided on the back surface of the cabinet 100. This is to ensure that the blowing agent is evenly filled without biasing any one of the inner case 200 and the hot air supply unit 400.
  • the injection port 170 is provided on the back of the cabinet 100 is provided with a plurality of foams may be evenly filled in the entire area of the interior of the cabinet (100).
  • the aesthetics is dropped, and a number of separate members for shielding the injection port 170 may be required.
  • the injection hole 170 may be provided adjacent to each other in the center portion of the rear surface of the cabinet 100.
  • the foaming agent s can be uniformly supplied to the upper and lower portions of the cabinet 100, and the finishing treatment can be easily performed.
  • the laundry treatment apparatus 10 of the present invention may further include a gap maintaining unit 170 for maintaining a gap between the inner case 200 and the cabinet 100.
  • the gap maintaining unit 170 may be provided as a rib provided along the side of the cabinet, or may be provided in the shape of a rod contacting both the rear surface of the cabinet and the rear surface of the inner case.
  • the gap maintaining unit 170 may be provided integrally with the cabinet 100 or may be separately inserted between the cabinet 100 and the inner case 200.
  • the injection hole 140 may be provided with the gap maintaining unit 170 therebetween.
  • the injection port 140 may be provided symmetrically in the gap maintaining unit 170.
  • the spacing maintaining unit 170 may be omitted.
  • the blowing agent (s) is not only a space between the rear surface of the inner case 200 and the rear surface of the cabinet 100, but also the side surface of the inner case 200 and hot air supply unit 400 and the cabinet 100 Between the side surfaces of the inner case 200 and the hot air supply unit 400 needs to be evenly supplied to the entire area.
  • the blowing agent (S) when the blowing agent (S) is injected from the injection port 140, the upper surface of the inner case 200 and the lower surface of the cabinet 100, the region between the inner case 200 and the hot air supply unit 400
  • the inner case 200 and the side surface of the hot air supply unit and the side surface of the cabinet 100 may be more difficult to fill the foaming agent (S) than between the rear surface of the inner case 200 and the rear surface of the cabinet 100. have.
  • the clothes treating apparatus 10 of the present invention the air inside the cabinet is discharged to the side of the cabinet 100 so that the blowing agent (s) is evenly filled in the entire area, A plurality of vent holes 700 for inducing movement of the blowing agent may be provided. As a result, the plurality of vent holes 700 may induce the blowing agent S to flow deeper in the direction away from the injection hole 140 while discharging the air inside the cabinet 100 to the outside.
  • the plurality of vent holes 700 are more densely spaced toward the front (opening) of the cabinet 100, or more are provided in front of the rear than the rear, so that the blowing agent (S) is the cabinet ( 100 to the side and front.
  • the plurality of vent holes 700 correspond to a portion corresponding to the interval between the inner case 200 and the hot air supply unit 400 and between the inner case 200 and the upper surface of the cabinet 100. It is preferable to be provided in at least one of the parts.
  • the blowing agent (s) may be injected into the interior of the cabinet 100 with the rear surface of the cabinet 100 facing upward. (See FIG. 5) Therefore, even if the blowing agent s is injected from the rear surface of the cabinet 100 and filled to the front or the opening 101 of the cabinet 100, the blowing agent s is supplied to the cabinet 100. It may be difficult to attach easily to the back of the panel.
  • the clothes treating apparatus 10 of the present invention may further include a vent hole 700 so that the blowing agent s can be easily attached to the rear surface of the cabinet 100.
  • a vent hole 700 so that the blowing agent s can be easily attached to the rear surface of the cabinet 100.
  • the vent hole 700 may be provided between the upper surface of the cabinet 100 and the upper surface of the inner case 200 and at a position corresponding to the inner case 200 and the hot air supply unit 400. Can be. As a result, the foaming agent (s) introduced into the region may be filled to reach the rear surface of the cabinet 100.
  • vent hole 700 may be provided at both ends of the rear surface of the cabinet.
  • the foaming agent s may be filled to an area where the rear surface of the cabinet 100 and the side surface of the cabinet 100 are adjacent to each other.
  • the foaming agent (s) may not be easily introduced into the edge of the region of the back surface of the cabinet 100 in which the injection holes 140 face each other. Therefore, the vent hole 700 may be further provided to allow the blowing agent s to flow into the region.
  • the back of the cabinet 100 may be further provided with a withdrawal hole 190 for the withdrawal portion 460 is drawn out. Since the receiving body 410 is provided to contact the withdrawal hole 190 at the rear thereof, the blowing agent 190 may be prevented from entering the blowing agent (s).
  • the filling of the blowing agent (S) in the hollow portion 240 may be blocked.
  • FIG. 5 shows the process of filling the blowing agent (s) in the clothing treatment apparatus 10 of the present invention.
  • FIGS. 5 (b), 5 (e) and 5 (g) show cross-sectional views of the clothes treating apparatus 10 of the present invention
  • 5 (f) and 5 (h) show a rear view of the clothes treating apparatus 10 of the present invention.
  • the inner case 200, the hot air supply unit 400, and the base 500 may be inserted into and fixed to the cabinet 100 in a combined state.
  • the inner case 200 and the hot air supply unit 400 may be fixedly coupled through a separate jig.
  • blowing agent s may flow into the rear surface of the cabinet 100 through the injection hole 140.
  • the blowing agent (s) may move along the rear surface of the inner case 200 while a part thereof may move downward along the side surface of the inner case 200.
  • the blowing agent s may be more smoothly introduced into the empty space formed by the cabinet 100, the inner case 200, and the hot air supply unit 400.
  • the foaming agent ( s) may smoothly enter the shielding ribs 220 and the prevention ribs 430.
  • the shielding rib 220 and the blocking rib 430 may face the self-weight of the blowing agent s. Can be introduced.
  • vent hole 700 When the vent hole 700 is provided on the rear surface of the cabinet 100, air flows out into the vent hole 700 so that the blowing agent s may move toward the rear surface of the cabinet 100.
  • the blowing agent (s) may be further supplied to fill the air by pushing the air toward the vent hole 700 toward the rear surface of the cabinet 100, and in the state in which the additional supply is stopped, the heating or natural As it cools and swells, it may rise toward the back of the cabinet 100.
  • the foaming agent s may be filled up to a region where filling is not completed, thereby filling an empty space.
  • the blowing agent (s) is introduced into the side of the receiving body 410 and the base 500 to be introduced into the empty space formed by the receiving body 410 or the base 500 and the cabinet 100. Can be.
  • blowing agent s when the blowing agent s is heated or swelled while being hardened, or when the blowing agent s is further supplied, the blowing agent s is applied to the cabinet 100. It may flow into the area where the filling is not completed on the back of the).
  • the foaming agent (s) may be slow to be supplied to the area where the edges of the cabinet 100 meet or the area where the injection hole 140 faces, so that the foaming agent (s) may be finally filled in the area. Can be.
  • vent hole 700 is provided in the area where the edges of the cabinet 100 meet or in the area where the injection hole 140 faces, the cabinet 100 as the vent hole 700. As the air inside is finally discharged, filling of the blowing agent s into the cabinet 100 may be completed.
  • the foaming agent s may be completely filled in the space formed by the inside of the cabinet 100, the outside of the inner case 200, and the outside of the hot air supply unit 400.
  • the foaming agent (s) when the foaming agent (s) is hardened, the inner case 200, the hot air supply unit 400, and the base 500 may be stably fixed to the cabinet 100.
  • the withdrawal unit 460 may be withdrawn to the withdrawal hole 190 provided on the rear surface of the cabinet.
  • the hollow portion 240 is formed by preventing the blowing agent s from filling in a predetermined region between the upper surface of the cabinet 100 and the upper surface of the inner case 200.
  • the hollow part 240 is provided with a blocking case 241 extending from the inner surface of the cabinet 100 to the inner case 200 or extending from the inner case 200 to the inner surface of the cabinet 100. Can be formed.
  • the hollow part 240 is a part of the jig (JIG, not shown) for fixing the cabinet 100 and the inner case 200 in the foaming process is the cabinet 100 and the inner case 200 It can be generated by fixing through the upper surface of the.
  • the jig may be formed with a molding that can be fitted to the upper surface of the cabinet 100 and the upper surface of the inner case 200.
  • the hollow part 240 is a separate housing is inserted between the cabinet 100 and the inner case 200 and after the injection of a blowing agent, and after a predetermined time to open the upper surface of the cabinet 100, The housing may be removed and produced.
  • the laundry treatment apparatus of the present invention simplifies the assembly process by omitting the frame with a blowing agent (s) and can ensure durability and heat insulation.
  • FIG. 6 is a sectional view of the laundry treatment apparatus 10 in which the process of FIG. 5 is completed.
  • all of the interior of the cabinet 100, the inner case 200, and the hot air supply unit 400 may be filled with the blowing agent s.
  • the foaming agent (s) is filled in the space in which the frame is installed, the process of assembling the frame by omitting the frame, the process of combining the frame and the cabinet, inner case, etc. may be omitted.
  • the laundry treatment apparatus of the present invention does not need a complete heat insulation, such as a refrigerator, and does not need to have the thickness (L) as thick as a refrigerator in order to secure the maximum volume of the inner receiving space.
  • the laundry treatment apparatus of the present invention may have a height (H) longer than the refrigerator so that the clothes can be accommodated in the receiving space without folding.
  • the thickness of the foaming agent (S) is relatively thin and long, which may significantly reduce durability.
  • the thin and long filled blowing agent (S) by the bending force as the blowing agent (S) is hardened there is a risk that the shape is variable.
  • the laundry treatment apparatus of the present invention is not only a vertical space between the side of the cabinet and the inner case side and the hot air supply, but also between the inner case and the hot air supply.
  • the foaming agent (S) can be filled integrally in the horizontal space of the.
  • the foaming agent (S) is not provided only in the height direction of the clothing treatment apparatus, but is integrally filled from the inside of the clothing treatment apparatus to the width direction, so that the foaming agent (S) can be structurally secured. Therefore, the rigidity and strength of the clothing treatment apparatus as well as the blowing agent (S) can be reinforced.
  • the foaming agent S is firmly fixed in an 'H' shape, and thus it may be prevented from being damaged or deformed. .
  • the blowing agent (s) is fixed to the inner case 200 and the hot air supply unit 400, and serves to maintain the shape and rigidity of the clothing treatment apparatus 10 itself, the inner case 200 And it may be sufficient if only the side (including the back) of the hot air supply unit 400 is filled.
  • the excitation part 300 may be installed on the upper surface of the inner case 200
  • the hollow part 240 needs to be installed on the upper part of the inner case 200 as described above.
  • the base 500 or the withdrawal part 460 may be withdrawn to the outside as needed, and when the foaming agent (S) is filled in the lower portion of the cabinet 100, the level may not be maintained according to the shape of the foaming agent. Can be. Therefore, it may be more efficient to omit the foaming agent s in the lower portion of the cabinet 100.
  • the laundry treatment apparatus 10 of the present invention may not flow the blowing agent s into a predetermined region of the upper portion of the inner case 200 and the lower portion of the base 500.
  • the blowing agent (S) may be provided in an H structure in which a predetermined region of the upper and lower portions are opened in the clothes treating apparatus, so that the installation of the excitation part 300 or the extraction of the heat pump 465 may be easy. have.
  • Figure 7 is another embodiment of the laundry treatment apparatus 10 of the present invention, the upper portion of the inner case 200 and the lower portion of the base 500 is provided with a structure to prevent the blowing agent (s) from entering It is shown.
  • the inner case 200 is a hollow part to secure the space provided with the mounting portion 300 on the upper surface and to prevent the blowing agent (s) in contact with the mounting portion 300 ( 240 may be provided.
  • the hollow part 240 of the laundry treatment apparatus illustrated in FIG. 7 may be formed as a blocking rib 242 provided between the upper edge of the inner case 200 and the upper surface of the cabinet.
  • the blocking rib 242 may be provided to contact both the upper edge of the inner case 200 and the upper surface of the cabinet 100 provided on the upper edge.
  • the blocking rib 242 may be provided to extend to contact the upper surface of the cabinet 100 from the upper edge of the inner case 200.
  • the blocking rib 242 may be blocked from being introduced into the upper surface of the inner case 200 by the blowing agent s flowing from the injection hole 170.
  • the base 500 of the laundry treatment apparatus 10 extends further to the side of the cabinet at a portion supporting the receiving body 410 so that the blowing agent introduced into the cabinet flows out into the lower portion of the cabinet 100. It may further include a leakage preventing portion 530 to prevent the.
  • the leakage preventing part 530 may be in contact with the inner circumferential surface of the bottom surface of the cabinet 100 to prevent the foaming agent s from leaking into the cabinet 100.
  • the blowing agent (s) can be prevented from flowing into the lower surface of the base 500 at the source. Due to the base 500, the cabinet 100 may not have a bottom surface.
  • the base 500 may extend to contact the bottom of the cabinet 100 to replace the bottom surface of the cabinet 100. That is, the cabinet 100 may be mounted on the leakage preventing part 530 of the base 400.
  • FIG. 8 illustrates a structure in which a foaming agent (s) is filled in the clothes treating apparatus of FIG.
  • FIG. 8 (a) shows a side cross-sectional view of the clothes treating apparatus 10
  • FIG. 8 (b) shows a front view of the clothes treating apparatus 10
  • FIG. 8 (c) shows the clothes treating process.
  • the back view of the device 10 is shown.
  • the blowing agent s may be filled and provided in the remaining areas except the upper portion of the inner case 200 and the lower portion of the base 400. As a result, a space in which the excitation part 300 may be installed may be secured, and the upper or lower part may be prevented from bending in the process of hardening the blowing agent s.
  • the blowing agent of another embodiment of the laundry treatment apparatus 10 of the present invention may be provided to be filled in the cabinet 100 in the 'H' shape. Therefore, the heat inside the inner case 200 is prevented from leaking to the side or the back of the cabinet 100 while maintaining the basic rigidity, the shape of the top and bottom of the cabinet 100 is deformed or unnecessary compression force, etc. It can be prevented from occurring.
  • the blowing agent s may be excluded from the area where the lead portion 460 is drawn out due to the penetration portion 420 of the base 500 and the receiving body 410. Can be.
  • FIG 9 shows another embodiment of the laundry treatment apparatus 10 of the present invention.
  • the hollow part 240 extends from the upper edge of the inner case 200 to the side of the base cabinet 100 to block the vane 243 from blocking the blowing agent s from flowing into the upper surface of the inner case. Can be generated as
  • the blocking vanes 243 are softened in a direction away from the inner case 200 at corners of the inner surface of the inner case 200 except for the blocking ribs 220, and thus, of the cabinet 100. It may be provided to contact the inside.
  • the blocking vane 243 may fundamentally block the blowing agent s introduced from the injection hole 140 in contact with the upper surface of the inner case 200, and may be disposed on the upper portion of the inner case 200. By securing a wider space can be made easy to install the mounting portion (300).
  • the blocking vanes 243 may be provided to be convex upward unlike the blocking ribs 242 to accommodate a part of the blowing agent s.
  • the blocking vanes 243 and the blowing agent s may be strengthened to induce the blowing agent s to be firmly coupled to and adhered to the inner case 200.
  • the laundry treatment apparatus of the present invention may further include a plurality of vent holes 700 to penetrate the blocking vanes 243 to induce contact with the blowing agent to the blocking vanes.
  • the blocking vanes 243 extend outward from the upper surface of the inner case 200, the lower ends of the blocking vanes 243 are provided to contact the foaming agent s. Therefore, the vent hole 700 is provided on the blocking vane 243, and the air in the cabinet 100 is discharged to the blocking vane 243, so that the blowing agent s reaches the blocking vane 243. It can be induced to flow easily.
  • the vent hole 700 may be provided in plural along the longitudinal direction of the blocking vane 243.
  • FIG. 10 illustrates that the blowing agent s is filled in the clothes treating apparatus 10 equipped with the blocking vanes 243.
  • blowing agent (s) is introduced to the blocking vane 243 due to the vent hole 700 provided in the blocking vane (243).
  • the empty space is further extended on the upper surface of the inner tape 200, the mounting portion 300 can be easily installed or repaired.
  • the blocking vanes 243 and the base 500 may form the foaming agent s in the H shape in the cabinet 100.
  • the blocking vane 243 may accommodate the upper end of the blowing agent (s) to be more firmly bonded to the blowing agent (s).
  • the blocking vane 243 may distribute the force along an area to support internal stress. As a result, durability and installation stability of the clothes treating apparatus 10 may be further improved.
  • the thicker the thickness of the blowing agent (s) may be advantageous in securing rigidity and shape retention, but there may be a problem that the internal space becomes narrow.
  • the thinner the blowing agent s the thinner the receiving space of the hot air supply unit 400 and the inner case 200 may be, but the rigidity may be weakened.
  • the laundry treatment apparatus 10 of the present invention may be provided relatively higher than household appliances such as a refrigerator due to the presence of the hot air supply unit 400 provided at the bottom of the present invention, and may support or support the foaming agent.
  • the range of the thickness of (s) needs to be determined.
  • the ratio of the height of the clothes treating apparatus 10 of the present invention and the thickness of the blowing agent (s) should be larger than 60 to secure the minimum accommodation space and smaller than 95 to secure the minimum rigidity.
  • the thickness of the blowing agent (s) is preferably provided between 20mm ⁇ 30mm.
  • the ratio of the height of the clothes treating apparatus 10 and the thickness of the blowing agent (s) is less than 60, it means that the blowing agent (s) is provided so thick that the heat pump 450 is installed at least The space may be limited and the manufacture of the clothes treating apparatus 10 may not be possible.
  • blowing agent (S) may be pulverized by the weight of).
  • the ratio of the height of the present invention clothes processing apparatus 10 and the thickness of the blowing agent (s) is 61 or more than 93 is regarded as the minimum necessary range for the normal production and operation of the present invention clothes processing apparatus 10. Can be.
  • the thickness of the blowing agent (s) is the interval between the side of the inner case 200 and the side of the cabinet 100, or the interval between the back of the inner case 200 and the back of the cabinet 100. It may correspond to at least one of the.
  • the thickness of the blowing agent (s) may correspond to the gap between the side of the hot air supply unit 400 and the side of the cabinet 100.
  • the inner case 200 and the hot air supply unit 400 may be spaced apart by an interval corresponding to 1/90 to 1/60 of the height of the cabinet 100 and the cabinet 100, respectively.
  • FIG 11 illustrates a case in which the cabinet 100 of the clothes treating apparatus 10 of the present invention is bent by an external force.
  • the clothes treating apparatus 10 of the present invention has a high height of the receiving space in order to accommodate clothes without being folded into the inner case 200, and the hot air supply unit 400 is also located under the inner case 200.
  • the height of 100 is provided larger than other home appliances. Therefore, the rear and side surfaces of the cabinet 100 may be relatively weak in rigidity or strength and may be easily bent by external force.
  • the blowing agent (s) is filled in the empty space of the cabinet 100 while the volume is expanded in the process of heating or solidifying when the injection is completed in the cabinet (100). Therefore, even if the blowing agent s is not injected into the entire area of the cabinet 100, the blowing agent s may fill the entire inner region of the cabinet 100 while expanding in the process of hardening.
  • the cabinet 100 may be deformed by the expansion force of the blowing agent (s) if the strength or rigidity of the cabinet 100 is not sufficient. Can be.
  • the back or side of the cabinet 100 is provided with a relatively longer than the upper surface may be more severe swelling due to the weak rigidity.
  • the cabinet 100 When the cabinet 100 is inflated, it may not only unnecessarily expand the space occupied by the clothes treatment apparatus 10, but also may cause a problem that the foaming agent s does not reach the intended area.
  • the cabinet 100 may have a larger rigidity or strength required in the case of the present invention of the laundry treatment apparatus 10 in which the foaming agent s replaces the frame.
  • FIG. 12 illustrates an embodiment capable of enhancing the strength or rigidity of the cabinet 100.
  • the clothes treating apparatus 10 of the present invention is provided or coupled to the inner peripheral surface of the cabinet 100 is fixed to the inner case 200 and the hot air supply unit 400 and the foaming agent filling the empty space is It may further include a deformation preventing part 160 to maintain the shape of the cabinet 100 even when inflated.
  • the deformation preventing part 160 may include a width coupling part 161 that is coupled in the width direction of both side surfaces 120 and the rear surface 110 of the cabinet 100 to prevent the cabinet 100 from bending. .
  • the width coupling part 161 may be provided in a 'c' shape or a 'c' shape so as to be coupled to the inner circumferential surface of the cabinet 100 along the width direction.
  • the width coupling portion 161 may be provided in a quadrangular cross section so as to secure the maximum contact area with the cabinet 100 and maintain rigidity.
  • the width coupling portion 161 is coupled to the rear surface 110 of the cabinet by extending from one end of the first coupling portion 1611 and the first coupling portion 1611 to which the cabinet is coupled to one side 120.
  • the second coupling part 1612 and a third coupling part 1613 coupled to the other side surface 120 of the cabinet at one end of the second coupling part 1612.
  • the first coupling part 1611, the second coupling part 1612, and the third coupling part 1613 may be provided in a rod shape and have a length corresponding to each surface of the cabinet 100.
  • the first coupling part 1611, the second coupling part 1612, and the third coupling part 1613 may be welded and coupled to an inner surface of the cabinet 100, and may be coupled to a separate bolt or nut. Can be coupled through the member, it can be fitted by interference fit and fixed by the blowing agent (S) can be combined.
  • the first coupling part 1611, the second coupling part 1612, and the third coupling part 1613 prevent the movement of the blowing agent S injected into the cabinet 100.
  • the thickness may be provided.
  • the foaming agent (S) may further include a plurality of guide holes (1614) to move easily inside the cabinet (100). That is, the guide hole 1614 may be provided in plural along the longitudinal direction of the first coupling part 1611, the second coupling part 1612, and the third coupling part 1613, and a foaming agent (S). ) May be provided with a larger diameter than the vent hole 700 to be introduced and moved.
  • the guide hole 1614 is provided so as not to limit the movement of the blowing agent (S), the first coupling portion 1611, the second coupling portion 1612, the third coupling portion 1613 It is preferable to penetrate in the height direction of the cabinet 100.
  • the bonding force between the blowing agent (S) and the cabinet 100 can be further improved to prevent the cabinet 100 from being arbitrarily bent. .
  • the width coupling part 161 is coupled to all of the inner circumferential surface of the cabinet 100 to support the cabinet 100, thereby arbitrarily inflating any one of the rear surface 110 and the side surface 120 of the cabinet 100. Can be prevented or bent.
  • the width coupling part 161 may be coupled to the center part based on the height direction of the cabinet 100. . However, the width coupling portion 161 may be provided in plurality, spaced apart along the height direction of the cabinet 100 as necessary.
  • the injection hole 140 may be provided spaced apart from the width coupling portion 161. As a result, it is possible to prevent the injection of the blowing agent (S) due to the width coupling portion 161 is prevented.
  • the injection hole 140 may be provided between the width coupling portions 161 and may be provided between the width coupling portions 161.
  • FIG. 13 shows another embodiment of the deformation preventing part that can enhance the strength or rigidity of the cabinet 100.
  • the deformation preventing part 160 of the present invention may include an uneven part 163 recessed or protruded along the height direction of the cabinet 100.
  • the uneven portion 163 may be manufactured in a manner of forming a three-dimensional effect on the surface of the cabinet 100 by press molding after the cabinet 100 is manufactured.
  • the concave-convex portion 163 When the concave-convex portion 163 is recessed in one surface of the cabinet 100, the concave-convex portion 163 is provided to a depth to prevent contact with the inner case 200 so as not to disturb the flow of the blowing agent s. It is preferable. Specifically, since the uneven portion 163 is provided to reinforce the rigidity of the cabinet 100, it may be provided with a depth or height of 2 ⁇ 5mm.
  • the uneven portion 163 may be prevented from bending the cabinet 100 is provided long in the height direction.
  • the height is provided longer than the width.
  • the uneven portion 163 may be provided on at least one side surface 120 of the cabinet and a rear surface 110 of the cabinet. However, it is preferable that both sides of the cabinet 120 and the rear surface 110 are provided for rigid reinforcement.
  • the uneven portion 163 is the air discharged inside the cabinet 100
  • a plurality of vent holes 700 may be provided.
  • the deformation preventing part 160 may include a height coupling part 162 coupled along the height direction of the cabinet 100 to prevent bending of the cabinet.
  • the height coupling part 162 is coupled to the inner surface of the cabinet 100 in the height direction to reinforce the rigidity of the cabinet 100, thereby preventing the cabinet 100 from bending outward or inward.
  • the height coupling portion 162 may be provided by welding one or more of the side surface 120 or the rear surface 110 of the cabinet 100, it may be coupled to a separate coupling member. In addition, the height coupling portion 162 may be provided to be coupled to a plurality of spaced apart from the side surface 120 and the rear surface 110 of the cabinet 100, respectively, the side surface 120 and the rear surface 110 of the cabinet It may be provided coupled to one by one.
  • the height coupling portion 162 may be coupled to any number in any position as long as it can maintain the shape of the cabinet 100.
  • the height coupling portion 162 and the concave-convex portion 163 may be provided together. That is, the height coupling part 162 is provided between the uneven parts 163 to reliably prevent the shape of the cabinet 100 from being deformed.
  • only one of the height coupling part 162 and the uneven part 163 can be sufficiently prevented from bending the cabinet 100, only one of the height coupling part 162 and the uneven part 163 is provided. It may be provided in the cabinet 100.
  • FIG. 13 illustrates that the height coupling part 162 provided in various shapes is coupled to the cabinet 100, but this is for illustrative purposes only and may be combined in one unified shape.
  • the height coupling part 162 may be contact ribs 1621 contacting along the height direction of the rear surface 110 or side surface 120 of the cabinet, and extension ribs 1622 to reinforce the rigidity of the contact ribs 1621. It may include.
  • the extension rib 1622 is integrally provided with the contact rib 1621 to prevent the contact rib 1621 from bending, and extends the contact area with the blowing agent s to bond to the blowing agent s. You can also strengthen.
  • the height coupling part 162 may maintain the coupling force between the cabinet 100 and the blowing agent s while preventing the cabinet 100 from bending.
  • the height coupling part 162 may include a contact duct 1623 contacting along the height direction of the rear surface 110 or the side surface 120 of the cabinet, and a reinforcing hole 1624 provided in the contact duct 1623. It may include.
  • the contact duct 1623 has a rectangular cross section to secure an area contacting the cabinet 100 and to maintain its rigidity to prevent the cabinet 100 from bending.
  • the reinforcing hole 1624 is provided inside the contact duct 1623 to reduce the weight of the contact duct 1623 and to enhance the durability of the contact duct 1623.
  • the height coupling portion 162 may include a contact tube 1625 contacting along the height direction of the rear surface 110 or the side surface 120 of the cabinet, and a hollow 1626 provided inside the contact tube. Can be. Since the contact tube 1625 is grounded with the cabinet 100 in a line, an area combined with the cabinet 100 may be minimized.
  • the process of coupling the contact tube 1625 to the cabinet 100 by welding or the like may be simplified, and the cabinet 100 may be sufficiently prevented from bending.
  • the height coupling portion 162 is in contact with the contact table 1626 along the height direction of the rear surface 110 or side surface 120 of the cabinet, both ends of the contact table 1626 toward the inner case It may include a guide rib (1627) extending to be combined with the blowing agent.
  • the contact table 1626 may be sufficiently secured in contact with the cabinet 100 to prevent the cabinet 100 from bending.
  • the guide rib 1627 has a receiving groove 1628 that can be combined with the blowing agent (s) therein can also enhance the contact force with the blowing agent (s), the contact point (1626) is bent It is possible to reliably prevent the cabinet 100 from bending.
  • the laundry treatment apparatus 10 of the present invention may maintain the shape of the cabinet 100 even when the foaming agent s generates an expanding force in a state introduced into the cabinet 100. Accordingly, the filling of the blowing agent s can be smoothly completed into the empty space of the cabinet 100.
  • the above-described deformation preventing unit 160 may be coupled to the outside of the cabinet 100 to prevent the cabinet 100 from inflating to the outside.
  • Figure 14 shows an embodiment to strengthen the coupling force of the cabinet 100 and the inner case 200.
  • the shielding rib 220 of the inner case 200 may be opened with the cabinet 100 so that the blowing agent (s) may flow out to the outer circumferential surface of the shielding rib 220.
  • the cabinet 100 may further include a coupling rib 131 that may extend or contact the shielding rib 220 on an inner circumferential surface thereof.
  • the coupling rib 131 may extend inwardly from the opening 130.
  • the coupling rib 131 may be provided to be fixed to each other when the shielding rib 220 is in contact with the shielding rib 220 and the blowing agent s is introduced.
  • the laundry treatment apparatus 10 of the present invention may further include a coupling part 800 which is mounted inside the coupling rib 131 to accommodate the free end of the shielding rib 220.
  • the coupling part 800 may include a coupling ring 810 having an input surface on which one surface of the shielding rib 220 is accommodated, and a pressing piece 810 for pressing the coupling ring 810. Can be.
  • the blowing agent (s) is introduced to the coupling ring 820 and the pressing piece By pressing 810, the shielding rib 220 may be firmly pressed.
  • the cabinet 100 may be provided with a recessed portion to be in contact with the outer peripheral surface of the coupling portion 800 on the side.
  • the coupling may be fixed by the foaming agent s through the coupling piece 800, and the foaming agent s is expanded to the Even if a force for pushing the cabinet 100 to the outside occurs, the shielding rib 220 and the cabinet 100 may be prevented from being opened.
  • the blowing agent (S) and the inner case 200 may have a weak adhesion. Therefore, when the blowing agent (S) is attached to the inner case 200 at the time of the injection, the blowing agent (S) may be spaced apart from the inner case 200 in the process of hardening and shrinking. Therefore, since the hollow is formed between the inner case 200 and the blowing agent (S), the durability of the inner case 200 can be significantly reduced. In addition, the heat inside the inner case 200 may be released into the space spaced apart from the blowing agent (S) may cause a problem that the thermal efficiency is reduced.
  • Figure 16 shows an embodiment of the present invention that can continuously secure the bonding force of the inner case 200 and the blowing agent (S).
  • the clothes treating apparatus 10 of the present invention is provided to be protruded or recessed from the inner body 210 toward the cabinet, and grips 250 coupled to a foaming agent filling a space between the cabinet and the inner body 210. It may include.
  • the holding part 250 may be provided integrally with the inner body 210 or may be provided in combination with the inner vida 210.
  • the gripping portion 250 is provided with a separate space to accommodate or combine the blowing agent (S) to maintain the bond with the blowing agent (S), to prevent the blowing agent (S) and the inner body 210 is separated. can do.
  • the gripping portion 250 may be formed of a material different from that of the inner body 210, and may be formed of a material having excellent adhesive strength with the blowing agent (S). In addition, even if the holding part 250 is made of the same material as the inner body 210, the shape can hold the foaming agent (S) can maintain the bond with the foaming agent (S).
  • FIG. 16 (a) shows various shapes and structures of the gripping part 250
  • FIG. 16 (b) shows yet another shape and structure of the gripping part 250.
  • the gripping part 250 may be provided with at least one of the structures illustrated in FIGS. 16 (a) and 16 (b).
  • the grip part 250 may include a grip case 251 protruding from the inner body 210 toward the cabinet to provide a space in which the foaming agent S is accommodated. have.
  • the holding case 251 is provided so as not to contact the cabinet 100 in the inner body 210 may not prevent the blowing agent (S) from flowing.
  • the gripping case 251 is coupled to or extends from the inner body 210 to provide a case body 251a having the space, and a case opening part in which a foaming agent flows into the space provided on one surface of the case body 251a. 251b.
  • the case body 251a may be provided with the remaining portions shielded except for the case opening portion 251b.
  • liquid foaming agent (S) When the liquid foaming agent (S) is introduced into the gripping case 251, it may be solidified with the foaming agent (S) provided outside the gripping case 251.
  • the remaining surfaces except for the gripping opening 251b of the gripping case 251 may be brought into contact with the blowing agent S, and at the same time, the gripping agent s may be grasped.
  • the gripping opening 251b may be provided in a direction parallel to one surface of the inner body 210. Therefore, since the gripping case 241 is buried inside the blowing agent S, it is impossible to separate the blowing agent S from the gripping case 241. As a result, the blowing agent S may be separated from the inner case. Coupling with 200) may be maintained.
  • the gripping portion 250 may include a gripping beam 253 protruding from the inner body 210 toward the cabinet 100 to be combined with the blowing agent (S).
  • the holding beam 253 includes an extension rib 253a protruding from the inner body 210 toward the cabinet, a first holding rib 253b extending obliquely from the extension rib 253a, and the extension rib ( A second gripping rib 253c extending in a direction different from the first gripping rib 253b may be included in 253a.
  • the first gripping rib 253b and the second gripping rib 253c may extend in opposite directions from free ends of the extension rib 253a and may be provided in a T-shape.
  • the first gripping rib 253b and the second gripping rib 253c may be bent and provided differently from each other, and may be inclined toward the inner body 210.
  • first gripping rib 253b and the second gripping rib 253c may extend in parallel with one surface of the inner body 210 at the free end of the extension rib 253a, or the inner body It may extend in a direction away from 210, it may be provided to extend toward the inner body (210).
  • the inner body 210 it is preferable to extend toward the inner body 210 so as to maximize the bonding force between the gripping ribs 253 and the blowing agent (S), it may be provided in a convex upward configuration.
  • first gripping ribs 253b and the second gripping ribs 253c may be provided in plural numbers to be separated from each other at the free ends of the extension ribs 253a, and provided in the extension ribs 253a symmetrically. May be
  • the liquid blowing agent S may be filled and solidified by surrounding the extension rib 253a, the first gripping rib 253b, and the second gripping rib 253c. Therefore, the blowing agent S may be prevented from moving in a direction parallel to one surface of the inner body 210 due to the extension rib 253a, and the first and second grip ribs 253b and the second grip ribs. Due to 253c, movement in a direction away from the inner body 210 may be prevented.
  • the gripper 250 may include a gripper 252 protruding from the inner body 210 toward the cabinet so that the blowing agent S penetrates and is coupled thereto.
  • the gripper 252 may be provided through a penetrating shape to have a handle shape.
  • the gripper 252 is a ring body 252a and 'C' shape protruding from the inner body 210 and the blowing agent (s) is provided in the ring body 252a It may include a ring hole 252b that can be introduced.
  • the blowing agent flows into the outside of the gripping 252 to be hardened in a state in which the gripping 252 is accommodated, and the gripping 252 is provided in a state buried in the blowing agent S. Can be. Therefore, the foaming agent (S) may maintain the bonding force with the inner body 210 by maintaining the state coupled with the gripper 252 even when the adhesive force with the inner body 210 is released.
  • the gripping 252 Since the gripping 252 is provided with a small volume, it may not prevent the blowing agent S from flowing.
  • the grip part 250 may include an anchor 254 protruding from the inner body 210 toward the cabinet 100.
  • the anchor may include a support 254b and a receiving portion 254a extending bilaterally from the pillar.
  • the support 254b is provided with a curved outer circumferential surface to induce the blowing agent (s) to move smoothly in contact with, the anchor (254a) is provided so as to narrow the width toward the end of the blowing agent (s) When accommodated in, the blowing agent (s) may be provided to fix the inside.
  • the blowing agent s and the inner body 210 may be strongly fixed.
  • the anchor 254 may be provided a plurality of spaced apart a predetermined distance along one surface of the inner body (210).
  • the gripping part 250 may include a plurality of extensions 255 protruding from the inner body 210.
  • the extension 255 is provided with a cylindrical or oval cylinder with a cross section to induce the blowing agent (s) to flow easily, the cross section is provided with a polygon is accommodated in the blowing agent (s) when the blowing agent (s ) And fixing force can be improved.
  • the extension 255 has no area for accommodating the blowing agent s, but has an advantage of being easily molded or combined, and when provided in plural, the bonding force with the blowing agent s may be sufficiently ensured.
  • the grip part 250 may include a grip vane 257 provided to be bent toward the cabinet 100 from the inner body 210.
  • the phage vane 257 may be provided with one end coupled to the inner body 210 and the other end extending toward the inner body 210 or the space between the cabinet and the inner body.
  • the blowing agent (s) can be contacted and coupled at various angles to improve the bonding strength of the blowing agent (s) and the inner body (210).
  • the gage vanes 275 may be provided in plural in the inner body 210, and the width thereof may correspond to the thickness of the inner body 210 or may be smaller than the inner body 210.
  • the gripping portion 250 may include a gripping hook 257 protruding from the inner body 210 is accommodated in the blowing agent (s) and fixed.
  • the gripping hook 257 may be provided to be narrow in width while extending from the inner body 210, and may be provided to be inclined or curved at an angle.
  • the gripping hook 257 may be provided in plurality in the inner body 210, and may be provided symmetrically with respect to the injection hole 170.
  • the gripping hook 257 may protrude more than two branches from the inner body 210 and extend.
  • the gripping hook 257 is fixed to the blowing agent (s) when the blowing agent (s) is fixed by being accommodated in the blowing agent (s) without interfering with the movement of the blowing agent (s). It can be prevented from separating.
  • Fig. 17 shows another embodiment of the gripping portion.
  • the gripping portion 250 may include a gripping protrusion 254 protruding from one surface of the inner case 200 and accommodated in the foaming agent.
  • the gripping protrusion 254 includes an extension pillar 2542 protruding from one surface of the inner body 210, and a head 2551 provided larger than the diameter of the extension pillar at a free end of the extension pillar 2542. can do.
  • the gripping protrusion 254 may not interfere with the flow of the blowing agent S because the volume of the extension pillars 2252 and the head 2541 is not large.
  • the head (2541) is in contact with and easily accommodated in the blowing agent (S) so that the blowing agent (S) in the direction parallel to the inner body 210 in the head (2541) and in the inner body (210) It can prevent the separation in the direction away.
  • the gripping protrusions 254 may be provided in a plurality of spaced apart from the side or the rear surface of the inner body 210, may be provided in combination with the inner body 210, may be provided integrally injected.
  • the gripping portion 250 may include a gripping hole 255 that is recessed in the inner body 210 and the blowing agent is introduced and fixed.
  • the gripping hole 255 is provided with an inlet hole (2551) recessed in the inner body 210 and larger than the diameter of the inlet hole at the end of the inlet hole (2551) to provide a space in which the blowing agent flows in It may include a groove 2552.
  • the liquid blowing agent may penetrate the inlet hole (2551) to fill the receiving groove (2552).
  • part of the blowing agent (S) is accommodated in the inner body 210 and coupled, so that the blowing agent (S) can be prevented from being separated from the inner body (210).
  • the gripping hole 255 may be provided in a plurality of spaced apart from the side or the rear surface of the inner body 210, the inner body at the end of the receiving groove (2552) so that the blowing agent (S) is easily introduced
  • a vent hole (not shown) may be further provided toward the surface of the 210.
  • the inner case 200 of the present invention may maintain the bonding force with the foaming agent (S) because the inner case 200 is made of a material in which the foaming agent (S) and the adhesive strength are not guaranteed.
  • FIG. 18 illustrates a structure in which the hinge part 600 and the base 400 of the clothes treating apparatus 10 of the present invention are fixed to the cabinet 100 at the same time as the inner case 200 and the hot air supply unit 400 with the foaming agent s. It is shown.
  • the laundry treatment apparatus 10 of the present invention has a hinge portion 600 to couple the door 180 and the cabinet for opening and closing the opening. At this time, when the hinge part 600 is coupled to the cabinet 100 after the foaming process is completed, there is a hassle of additional assembly process.
  • a crack may occur in the foaming agent s provided in the cabinet 100. There may be concerns.
  • the hinge part 600 and the base 400 may also be coupled to or fixed with the foaming agent s so as to simplify the assembly process to improve productivity and ensure durability of the foaming agent s. .
  • the laundry treatment apparatus 10 of the present invention may further include a hinge part 600 which rotatably couples the door 180 to the cabinet 100.
  • a hinge part 600 which rotatably couples the door 180 to the cabinet 100.
  • at least one of the hinge part 600 and the base 500 is fixed to the cabinet 100 when the inner case 200 and the hot air supply part 400 are fixed with the blowing agent s. It may be provided.
  • a process of separately assembling and combining the hinge part 600 and the base 500 may be omitted, and insertion of a coupling member such as a bolt into the foaming agent s may be prevented.
  • the base 500 may include a base body 510 provided below the hot air supply unit 400 to form a bottom surface of the cabinet 100.
  • the base body 510 may be provided in a plate shape and may be provided in an elastic material, or may be provided in a resin or a metal material.
  • the base body 510 may include a body coupling part 520 on which the hot air supply unit 400 is seated.
  • the body coupling part 520 may be provided to be in surface contact with the receiving body 410 as an area where the lower surface of the receiving body 410 is seated.
  • the lower surface of the receiving body 410 may be provided as a groove to be completely inserted and fixed. As a result, the base 500 and the hot air supply unit 400 may be stably coupled.
  • the base body 510 may include a leakage preventing part 530 that extends further from the body coupling part 520 to the side surface of the cabinet 100. That is, the leakage preventing part 530 may be a portion extending further to the side in the region where the receiving body 410 is seated among the base body 510.
  • the leakage preventing part 530 may be provided so that the foaming agent S may be seated and coupled to an upper portion thereof to prevent the foaming agent s from leaking out of the cabinet 100. Furthermore, the leakage preventing part 530 may further include a foam accommodating groove 531 in which the foaming agent S is inserted and accommodated so as to strengthen the bonding force with the foaming agent s.
  • a plurality of vent holes 700 may be provided to induce that the foaming agent s is introduced into the foam receiving groove 531.
  • the blowing agent s may be introduced into the injection hole 140 to simultaneously reach the outer side of the receiving body 410 and the base 500. Thereafter, the blowing agent s may be further introduced from the outside of the receiving body 410 to reach the leakage preventing part 530.
  • the hot air supply unit 400 and the base 500 by the blowing agent (s) may be coupled to the cabinet 100 at the same time, it may be omitted to assemble with a separate bolt or the like.
  • the hinge portion 600 may include an upper hinge 610 coupled to the upper region of the cabinet so that the door is rotatably coupled.
  • the upper hinge 610 may be coupled to the inner case 200 or directly coupled to the cabinet 100.
  • the upper hinge 610 may be inserted and coupled between the inner case 200 and the cabinet 100 to reinforce the coupling force.
  • the upper hinge 610 may be inserted through the inner case 200 and the cabinet 100 to be fixed with the foaming agent s.
  • the upper portion of the chaferib 220 may include an upper through hole 630 through which the upper hinge 610 may be inserted.
  • the upper hinge 610 may be inserted into the upper through hole 630 before the foaming agent s contacts the shielding rib 220, thereby fixing its position.
  • the upper hinge 610 may include an upper body 611 inserted into the upper through hole 630 and an upper hinge shaft 615 extending to the lower portion of the upper body to be rotatably coupled to the door. .
  • the upper body 611 may also be fixed when the foaming agent s fixes the inner case 200. That is, the upper body 611 may be completely accommodated in the blowing agent (s) and combined.
  • the upper body 611 may further include an upper recess 612 for receiving and seating the shielding rib 220 so that the position of the foaming agent s is not changed in the expansion process.
  • the upper recess 612 may be provided to have a width corresponding to the thickness of the shielding rib 220 to accommodate a portion of the shielding rib 220.
  • the upper body 611 may further include a first coupling guide surface 613 having an uneven shape on the outer surface to enhance the bonding force with the blowing agent (s) to improve the frictional force.
  • the coupling guide surface 613 may be provided in the same shape as the upper groove portion 612, it may be provided different width and width than the upper groove portion 612.
  • the coupling guide surface 613 may expand a contact area with the blowing agent s and may partially accommodate the blowing agent s to improve a bonding force to which the upper hinge 610 is fixed to the blowing agent s. .
  • the laundry treatment apparatus 10 of the present invention includes a lower hinge 620 is coupled to the front of the hot air supply unit 400 is rotatably coupled to the door 10, the lower hinge 620 is It may be coupled between the hot air supply unit 400 and the cabinet 100.
  • the lower hinge 620 may be inserted into the hot air supply unit 400 and the cabinet 100 to be fixed to the foaming agent s.
  • the hot air supply unit 400 may include a lower through hole 640 into which the lower hinge 620 may be inserted at the lower portion of the prevention rib 430.
  • the lower through hole 640 may be provided to be connected to the upper surface of the base body 510. Thus, when the lower hinge 620 is inserted into the lower through hole 640, the lower surface of the lower hinge 620 may be seated and supported by the base body 610.
  • the lower hinge 620 includes a lower body 621 inserted into the lower through hole 640 and a lower hinge shaft 625 extending upwardly of the lower body 621 to which the door is rotatably coupled. It may include.
  • the lower body 621 may further include a lower recess 622 that can be seated by receiving the prevention ribs 430 so that the position is not changed in the process of expanding the blowing agent (S).
  • the lower recess 622 may be provided to have a width corresponding to the thickness of the prevention rib 430 to accommodate a portion of the prevention rib 430.
  • the upper body 611 may further include a second bonding guide surface 623 which is provided on the outer surface to improve the frictional force so as to further enhance the bonding force with the blowing agent (s).
  • the second coupling guide surface 623 may be provided in the same shape as the lower recess 622, or may be provided in another shape.
  • the foaming agent S may be fixed together when fixing the receiving body 410 and the base 500. That is, the lower hinge 620 may be fixed to the lower body 621 is accommodated in the blowing agent (s).
  • the hinge portion 600 and the base 500 may be fixed with the blowing agent (S), and a separate assembly fixing may be omitted.
  • Fig. 19 shows another embodiment of the laundry treatment apparatus 10 of the present invention.
  • the upper body 611 of the upper hinge 610 is inserted into the upper through-hole 630 and the second body 6112, which can be in contact with the blocking rib 220, and bent to the second body lower It may include a first body (6111) that can be provided with the upper hinge shaft (625).
  • the first body 6111 and the second body 61112 may be provided bent at 90 degrees. As a result, when the second body 6112 is in close contact with the blocking rib 220 and the blowing agent s is coupled, the second body 6112 may be in close contact with the blocking rib 220 to improve the bonding force of the upper hinge 610.
  • first body 6111 and the second body 6112 may be bent so that the upper body 611 can be easily inserted and rotated.
  • the lower hinge 620 may be provided coupled to the base body 500 separately.
  • the lower hinge 620 is coupled to the first lower body 620a and the second lower body coupled to the first lower body 620a and provided with the lower hinge shaft 625. 620b).
  • the first lower body 620a extends forward from the coupling table 6211 and the coupling table 6121 coupled to the base body to form a space into which the second lower body 620b is inserted. 622 may be included.
  • the coupling table 6211 and the accommodation coupling portion 622 may be provided in the '' 'or' C 'shape.
  • the second lower body 620b is inserted into and coupled to the insertion coupling portion 6224 and the insertion coupling portion 6224 and extended to the receiving coupling portion 6222 so that the lower hinge shaft 625 is extended. It may include a shaft extending portion 6203 is provided.
  • the shaft extension portion 6203 and the insertion coupling portion 6224 may be provided bent at 90 degrees.
  • the lower hinge 620 may be coupled to a separate coupling member 800 to stably support the load of the door 180.

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Detail Structures Of Washing Machines And Dryers (AREA)

Abstract

La présente invention concerne un dispositif de traitement de vêtement permettant de supprimer un cadre pour relier structurellement un boîtier interne et une armoire en mettant un agent moussant entre le boîtier interne et l'armoire formant un aspect. Le dispositif de traitement de vêtement comprend : une armoire ayant une ouverture à l'avant de celle-ci ; une porte qui est placée rotative à l'avant de l'ouverture pour ouvrir et fermer l'ouverture ; un boîtier interne qui est placé dans l'armoire pour former un espace de réception dans lequel des vêtements sont reçus ; et une unité d'alimentation en air chaud qui est placée au niveau de la partie inférieure du boîtier intérieur pour fournir de l'air chaud et/ou de l'humidité à l'espace de réception, le boîtier interne étant formé d'une résine de styrène qui maintient l'adhérence à l'agent moussant injecté dans la partie interne de l'armoire.
PCT/KR2019/005822 2018-05-16 2019-05-15 Dispositif de traitement de vêtement WO2019221505A1 (fr)

Priority Applications (7)

Application Number Priority Date Filing Date Title
RU2020141252A RU2752576C1 (ru) 2018-05-16 2019-05-15 Устройство для обработки белья
CN201980032265.0A CN112119186B (zh) 2018-05-16 2019-05-15 衣物处理设备
EP19804016.4A EP3795737A4 (fr) 2018-05-16 2019-05-15 Dispositif de traitement de vêtement
JP2020562714A JP7450553B2 (ja) 2018-05-16 2019-05-15 衣類処理装置
AU2019270066A AU2019270066B2 (en) 2018-05-16 2019-05-15 Clothing treatment device
US17/052,917 US11686038B2 (en) 2018-05-16 2019-05-15 Clothing treatment device
JP2022148993A JP7472218B2 (ja) 2018-05-16 2022-09-20 衣類処理装置

Applications Claiming Priority (12)

Application Number Priority Date Filing Date Title
KR10-2018-0055928 2018-05-16
KR10-2018-0055929 2018-05-16
KR20180055929 2018-05-16
KR10-2018-0055927 2018-05-16
KR20180055927 2018-05-16
KR10-2018-0055930 2018-05-16
KR10-2018-0055931 2018-05-16
KR20180055931 2018-05-16
KR20180055928 2018-05-16
KR20180055930 2018-05-16
KR1020190056813A KR20190131442A (ko) 2018-05-16 2019-05-15 의류처리장치
KR10-2019-0056813 2019-05-15

Publications (1)

Publication Number Publication Date
WO2019221505A1 true WO2019221505A1 (fr) 2019-11-21

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20090124596A (ko) 2008-05-30 2009-12-03 한국건설기술연구원 내화성 조립식 패널
KR101053630B1 (ko) * 2009-12-15 2011-08-04 엘지전자 주식회사 의류처리장치
KR20130015240A (ko) * 2011-08-02 2013-02-13 주식회사 보루네오가구 의류 관리기
KR20130017029A (ko) * 2011-08-09 2013-02-19 코웨이 주식회사 의류의 주름 개선을 위한 의류 처리 장치
KR20160001539A (ko) * 2014-06-27 2016-01-06 서울바이오시스 주식회사 의류 처리 장치 및 이의 구동 방법
JP2016209467A (ja) * 2015-05-13 2016-12-15 アクア株式会社 衣類処理装置

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20090124596A (ko) 2008-05-30 2009-12-03 한국건설기술연구원 내화성 조립식 패널
KR101053630B1 (ko) * 2009-12-15 2011-08-04 엘지전자 주식회사 의류처리장치
KR20130015240A (ko) * 2011-08-02 2013-02-13 주식회사 보루네오가구 의류 관리기
KR20130017029A (ko) * 2011-08-09 2013-02-19 코웨이 주식회사 의류의 주름 개선을 위한 의류 처리 장치
KR20160001539A (ko) * 2014-06-27 2016-01-06 서울바이오시스 주식회사 의류 처리 장치 및 이의 구동 방법
JP2016209467A (ja) * 2015-05-13 2016-12-15 アクア株式会社 衣類処理装置

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Title
See also references of EP3795737A4

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