WO2010145521A1 - 可转动的电熨斗及具有可转动电熨斗的挂烫机 - Google Patents

可转动的电熨斗及具有可转动电熨斗的挂烫机 Download PDF

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Publication number
WO2010145521A1
WO2010145521A1 PCT/CN2010/073886 CN2010073886W WO2010145521A1 WO 2010145521 A1 WO2010145521 A1 WO 2010145521A1 CN 2010073886 W CN2010073886 W CN 2010073886W WO 2010145521 A1 WO2010145521 A1 WO 2010145521A1
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WO
WIPO (PCT)
Prior art keywords
grip
electric iron
outer casing
groove
guiding cylinder
Prior art date
Application number
PCT/CN2010/073886
Other languages
English (en)
French (fr)
Inventor
潘建志
蔡瑞锋
Original Assignee
漳州灿坤实业有限公司
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 漳州灿坤实业有限公司 filed Critical 漳州灿坤实业有限公司
Priority to EP10788917.2A priority Critical patent/EP2444543A4/en
Publication of WO2010145521A1 publication Critical patent/WO2010145521A1/zh

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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
    • D06F75/00Hand irons
    • D06F75/36Casings
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F75/00Hand irons
    • D06F75/34Handles; Handle mountings

Definitions

  • the invention relates to an electric iron and a ironing machine.
  • the body of the electric iron includes a bottom plate and an electric heater, and the electric iron grip is fixedly mounted on the outer casing of the main body for lifting and pulling operation.
  • the axis of the grip coincides with the axis of the body.
  • the grip of the electric iron can be rotated relative to the body.
  • the position of the existing electric iron grip relative to the body is fixed and cannot meet the above requirements of people.
  • the existing ironing machine supplies steam to the electric iron through a gas pipe from a boiler including a water tank and a heater, and the boiler is provided with a hanger to removably support the electric iron.
  • the handle is fixedly mounted on the outer casing of the body of the electric iron; the axis in the longitudinal direction of the grip is perpendicular to the axis in the longitudinal direction of the body.
  • the body of the electric iron is covered with a brush cover.
  • the steam delivered by the gas pipe is ejected from the air outlet of the bottom plate of the main body after being heated by the main body in the electric iron.
  • the electric iron is moved on the body of the electric iron as the user moves the clothes hanging on the boiler hanger.
  • the brush of the brush cover is matched with steam to make the clothes quickly flatten.
  • the user wants to directly iron the electric iron, even if the brush cover on the main body is removed, it is sometimes inconvenient to use. Therefore, the user wants to improve the existing electric iron and the ironing machine so that the grip of the electric iron can be rotated relative to the body, thereby having more use modes and functions.
  • the present invention is directed to a rotatable electric iron that can be rotationally adjusted in accordance with the needs of the user to iron the garment.
  • Another object of the present invention is to provide a ironing machine having a rotatable electric iron, the grip of the electric iron being rotatable relative to the body, thereby providing more use and functions.
  • the technical proposal of the invention is: a rotatable electric iron, the body having the electric heater is provided with a casing, a rotating body rotatably connects the body and the grip, and a limiting mechanism for limiting the rotation amplitude is provided between the body and the grip And an elastic positioning mechanism that locks the position of the rotation angle.
  • the rotating body is a box-shaped rotating cover; a corresponding rotating cover is opened on the outer casing; the rotating cover is mounted under the outer casing, and the rotating cover and the upper grip of the outer casing are fixedly connected through the window through the fastener; An annular groove is engaged between the lower surface of the outer casing at the window and the upper surface of the rotating cover and the annular flange; the outer surface of the outer casing at the window and the lower surface of the grip are also annular The slot cooperates with the annular flange to form a rotational connection between the grip and the rotating cover and the outer casing.
  • a rotary connection is formed between the grip and the outer casing to cooperate with the annular ring, and a circular connection between the outer ring and the rotary cover is provided, and the rotary joint is matched with the annular flange, and the grip is further
  • the fixed connection with the rotating cover enables the grip to be stably and reliably rotated relative to the outer casing, that is, the body, so that the user can perform the corresponding ironing operation.
  • the structure is simple and easy to assemble.
  • the axis of the rotating cover is perpendicular to the bottom surface of the body, and the axis of the rotating cover is located 1/3 to 1/2 of the length direction of the body.
  • the elastic positioning mechanism includes at least two sockets disposed on the inner wall of the rotating cover and elastic pieces fixed on the body, and the telescopic end of the elastic piece It is stuck in any of the above mentioned sockets.
  • the limiting mechanism includes an arcuate groove provided on the body and a limit provided on the lower surface of the rotating cover and into the arcuate groove
  • the bit block, the arc groove corresponds to the motion track of the limit block.
  • a limiting mechanism suitable for automatic rotation includes a trapezoidal rotary guide groove disposed on an outer circumferential surface of the guiding cylinder and is disposed on the grip and penetrates the a limiting block in the trapezoidal rotary guide groove;
  • the guiding cylinder is mounted on the gripper via a rotating shaft, the two parallel sides of the trapezoidal rotary guiding groove are parallel to the axis of the guiding cylinder, and the limiting block is in the trapezoidal rotary guiding groove
  • the trajectories of the movements in the oblique sides correspond to the amplitudes of the positive and negative rotations of the guide cylinder relative to the grip.
  • the structure of the recommended elastic positioning mechanism is: the elastic positioning mechanism comprises a spring which is arranged on the rotating shaft of the guiding cylinder and pushes the guiding cylinder, and is arranged in the trapezoidal rotary guiding groove of the guiding cylinder.
  • the bottom point of the edge blocks the positioning bump of the grip limiting block, the sliding key of the lower part of the outer circumferential surface of the guiding cylinder, and the guiding hole for accommodating the guiding cylinder and the sliding key thereof on the outer casing; the sliding key on the guiding cylinder and the guiding hole on the outer casing
  • the sliding key groove cooperates to make the guiding cylinder and the body form a joint that can be mutually translated and rotate together; the spring pushing the guiding cylinder causes the limiting block of the grip to be stuck at the lowest point of the oblique side of the trapezoidal rotary guide groove or the lowest of the upper oblique side Point to locate the bump.
  • the upper end surface of the guiding cylinder is provided with at least two continuous "V" shaped grooves along the periphery, and a lever type button is arranged on the grip, and the front end of the button is placed at the top end
  • the guide cylinder is in any of the above-mentioned "V” shaped grooves. Applying pressure to the rear half of the button, the front end of the button presses down the lower surface of the first "V" shaped groove of the guiding cylinder, causing the guiding cylinder to translate downward, the spring in the guiding cylinder is compressed, and the front end of the grip is limited.
  • the block rises to the highest point along the long straight edge of the trapezoidal rotary guide groove; and the front end of the rear button moves obliquely downward along the descending surface of the first "V” shaped groove to the lowest point of the first "V” shaped groove, and the guide cylinder follows Rotation.
  • the button is released, the restoring force of the spring pushes up the guiding cylinder upward; the limiting block at the front end of the grip moves obliquely downward along the oblique side of the trapezoidal rotary guide groove of the guiding cylinder, and the guiding cylinder rotates accordingly.
  • the front end of the button moves diagonally upward along the rising surface of the first "V" shaped groove.
  • the position block passes over the positioning bump of the oblique side of the trapezoidal rotary guide groove; the guide cylinder 600 continues to rotate slightly. Then, the front end of the button moves obliquely downward along the descending surface of the second "V" shaped groove, and the limit block stops at the upper end of the short straight side of the trapezoidal rotary guide groove.
  • the button is released, the restoring force of the spring pushes up the guiding cylinder upward; the limiting block at the front end of the grip moves downward along the short straight side of the trapezoidal rotary guide groove of the guiding cylinder.
  • the spring continues to push up the guiding cylinder upward, and the limiting block moves to the lowest point along the lower oblique side of the trapezoidal rotary guide groove, and the guiding cylinder rotates in the opposite direction.
  • the front end of the button moves diagonally upward along the descending surface of the second "V” shaped groove and over the falling surface of the second "V” shaped groove into the raised surface of the first "V” shaped groove.
  • the limit block moves along the lower oblique side of the trapezoidal rotary guide groove to the lowest point and is blocked by the long straight side, and stops, and the spring does not elongate.
  • the guide cylinder is rotated in the opposite direction by a predetermined angle to return to the initial position.
  • the front end of the button has reached the upper portion of the lowering surface of the first "V" shaped groove, ready for the next rotation cycle. Therefore, the user can quickly control the forward or reverse rotation of the guide cylinder by using the button, that is, the grip is flexibly rotated relative to the body to meet the needs of the ironing operation.
  • the invention has a ironing machine for a rotatable electric iron, and the boiler including the water tank and the heater sends steam to the electric iron through the gas pipe; the boiler is provided with a hanger to removably support the electric iron; the electric iron has an electric heater
  • the body is provided with a casing, a rotating body rotatably connects the body and the grip, and a limiting mechanism for limiting the rotation amplitude and an elastic positioning mechanism for locking the rotational angular position are provided between the body and the grip; a hose is connected The air inlet tube and the air inlet hole of the body; the body is detachably provided with a brush cover.
  • the grip can be rotated relative to the body, and the electric iron is used as a steam iron in a state where the relative position of the grip and the body is locked; the electric iron is used as a steam brush after the brush cover is set on the body.
  • the rotating body is a box-shaped rotating cover; a corresponding rotating cover is opened on the outer casing; the rotating cover is mounted under the outer casing, and the rotating cover and the upper grip of the outer casing are fixedly connected through the window through the fastener; An annular groove is engaged between the lower surface of the outer casing at the window and the upper surface of the rotating cover and the annular flange; the outer surface of the outer casing at the window and the lower surface of the grip are also annular The slot cooperates with the annular flange to form a rotational connection between the grip and the rotating cover and the outer casing.
  • the elastic positioning mechanism includes at least two sockets disposed on the inner wall of the rotating cover and elastic pieces fixed on the body, and the telescopic end of the elastic piece It is stuck in any of the above mentioned sockets.
  • the limiting mechanism includes an arcuate groove provided on the body and a limit provided on the lower surface of the rotating cover and into the arcuate groove
  • the bit block, the arc groove corresponds to the motion track of the limit block.
  • a limiting mechanism suitable for automatic rotation includes a guiding groove disposed on an outer circumferential surface of the guiding cylinder and is disposed on the grip and penetrates the trapezoidal rotation a limiting block in the guiding groove;
  • the guiding cylinder is mounted on the gripper via a rotating shaft, and the two parallel sides of the trapezoidal rotating guiding groove are parallel to the axis of the guiding cylinder, and the limiting block is at two oblique sides of the trapezoidal rotary guiding groove
  • the trajectory of the middle movement corresponds to the amplitude of the positive and negative rotations of the guiding cylinder relative to the grip.
  • the structure of the recommended elastic positioning mechanism is: the elastic positioning mechanism comprises a spring which is arranged on the rotating shaft of the guiding cylinder and pushes the guiding cylinder, and is arranged in the trapezoidal rotary guiding groove of the guiding cylinder.
  • the bottom point of the edge blocks the positioning bump of the grip limiting block, the sliding key of the lower part of the outer circumferential surface of the guiding cylinder, and the guiding hole for accommodating the guiding cylinder and the sliding key thereof on the outer casing; the sliding key on the guiding cylinder and the guiding hole on the outer casing
  • the sliding key groove cooperates to make the guiding cylinder and the body form a joint that can be mutually translated and rotate together; the spring pushing the guiding cylinder causes the limiting block of the grip to be stuck at the lowest point of the oblique side of the trapezoidal rotary guide groove or the lowest of the upper oblique side Point to locate the bump.
  • the upper end surface of the guiding cylinder is provided with at least two continuous "V" shaped grooves along the periphery, and a lever type button is arranged on the grip, and the front end of the button is placed at the top end
  • the guide cylinder is in any of the above-mentioned "V" shaped grooves.
  • the elastic electric iron of the present invention can flex the selected position after the rotation to facilitate the user to perform the corresponding ironing operation, or can be in any non-locking position after the rotation.
  • Use, and easy to adjust and position It is satisfied that the relative angle state of the longitudinal axis of the grip and the longitudinal axis of the body is temporarily adjusted and locked as required by the user when ironing the clothes, thereby obtaining the desire of two ironing widths.
  • the use of the electric iron is more flexible, so that the parts that were not easily ironed can be ironed smoothly, and the ironing quality is higher.
  • the brush cover is set on the body, so that the electric iron can be used as a steam brush, and the angle of the brush cover and the grip can be flexibly adjusted, thereby being freely adjusted.
  • the ironing machine with the rotatable electric iron adopts the above-mentioned rotatable electric iron, and can adjust the ironing width by changing the angle between the longitudinal direction of the body and the length direction of the grip; that is, it can be used as a steam brush or as an electric iron. Iron use. Therefore, the ironing machine has the advantages of using more methods and having stronger functions.
  • FIG. 1 is a perspective view showing the unfolded structure of a portion related to a grip rotating device in Embodiment 1 of a rotatable electric iron according to the present invention.
  • FIG. 2 is a schematic plan view of the top view of FIG. 1.
  • FIG. 3 is a schematic cross-sectional view of FIG. 1.
  • Fig. 4 is a schematic view showing the assembly relationship of the grip rotating device in the first embodiment.
  • FIG. 5 is a schematic view showing the assembly relationship between the base on the body and the elastic piece and the pressure plate in the embodiment 1.
  • Fig. 6 is a schematic view showing the assembly relationship between the rotary cover and the elastic piece and the pressure plate in the first embodiment.
  • FIG. 7 is a schematic view showing the assembly relationship between the rotary cover and the base on the main body and the elastic piece and the pressure plate in the embodiment 1.
  • Figure 8 is a perspective view showing the structure of the portion related to the grip rotating device in the first embodiment when the lower grip is in the normal position.
  • Fig. 9 is a perspective view showing the structure of the portion related to the grip rotating device in the first embodiment when the lower grip is rotated by 90°.
  • Figure 10 is a top plan view of the embodiment 1 with the grip in a normal position.
  • Fig. 11 is a top plan view showing the embodiment 1 in which the brush cover is placed on the body and the grip is rotated by 90°.
  • Figure 12 is a schematic cross-sectional view showing the second embodiment of the rotatable electric iron of the present invention.
  • Fig. 13 is a schematic exploded view showing the structure of the second embodiment.
  • Figure 14 is a schematic view showing the structure of the portion related to the grip rotating device in the initial position in the second embodiment.
  • Figure 15 is a schematic view showing the structure of the portion related to the grip rotating device in the forward rotation in the second embodiment.
  • Fig. 16 is a view showing the structure of the portion related to the grip rotating device in the second embodiment in the forward rotation end position.
  • Figure 17 is a schematic view showing the structure of the portion related to the grip rotating device in the reverse rotation in the second embodiment.
  • Figure 18 is a top plan view showing the second embodiment when the grip is in a normal position.
  • Fig. 19 is a top plan view showing the embodiment 2 in which the brush cover is placed on the body and the grip is rotated by 90°.
  • Figure 20 is a schematic view showing the structure of a third embodiment of a ironing machine having a rotatable electric iron according to the present invention.
  • Figure 21 is a schematic view showing the structure of a fourth embodiment of a ironing machine having a rotatable electric iron according to the present invention.
  • the structure of an embodiment of the rotatable electric iron of the present invention is shown in Figs. 8 and 10.
  • the body 1 having an electric heater is fixedly mounted on the casing 3, and a box-shaped rotating body -
  • the rotary cover 2 is rotatably mounted on the body 1.
  • a limiting mechanism for limiting the rotational amplitude and a positioning mechanism for locking the positional relationship between the rotating cover 2 and the body 1 are provided.
  • the rotary cover 2 is fixedly coupled to the lower grip 4.
  • the lower grip 4 is fixedly mounted with the upper grip 6 to form a complete grip.
  • a hose 7 enters the inside of the grip from the rear ends of the upper grip 6 and the lower grip 4, and sends the steam to the main body 1 through the rotary cover 2 and the outer casing 3 for secondary heating and then ejected outward.
  • the body 1, the rotary cover 2, the outer casing 3 and the lower grip 4 constitute a grip rotating device, and the unfolding structure of the grip rotating device is as shown in FIG.
  • the body 1 has an olive-shaped plate shape and an electric heater is installed inside.
  • the upper surface of the body 1 is provided with two studs 11 for mounting the outer casing 3.
  • the center of the upper surface of the body 1 is provided with an upwardly convex truncated cone base 12.
  • the periphery of the upper surface of the base 12 extends upwardly from an annular vertical wall 121 having a slit 123.
  • a stud 124 is disposed at the center of the upper surface of the base 12, and a bump 122 is disposed on each side of the stud 124.
  • the upper surfaces of the two bumps 122 are respectively oppositely disposed with the card slots 1221 for mounting the elastic pieces 13.
  • An air inlet hole 125 is defined in the base 12 between the two protrusions 122 and the vertical wall 121. The hose 7 is inserted into the air inlet hole 125 to deliver steam into the body 1.
  • the elastic piece 13 has a U shape, and the bottom portion thereof is a protruding telescopic end 131; the root portions on both sides of the opening respectively extend outwardly from two convex points, and a latching groove 132 is formed between the two convex points.
  • a pressing plate 14 presses the roots on both sides of the opening of the elastic piece 13 into the slots 1221 of the two protrusions 122 of the base 12, and the tabs 141 at the two ends of the pressing plate 14 are respectively engaged with the corresponding slots of the elastic piece 13. 132.
  • a screw 15 is locked in the stud 124 on the upper surface of the base 12 through the through hole 142 in the center of the pressure plate 14, so that the elastic piece 13 cannot be moved and the telescopic end 131 of the elastic piece 13 is slightly higher than the vertical wall 121 of the base 12.
  • the rotating cover 2 has a shallow circular box shape, and the bottom is evenly distributed with three mounting holes 21 near the periphery; the center of the bottom is opened with a circular inner hole 22; and two side walls 23 are provided on the side wall of the inner hole 22. The angle between the two pockets 23 is 90°.
  • An annular upper flange 24 extends upwardly from the periphery of the upper surface of the rotary cover 2.
  • the lower surface of the rotary cover 2 is provided with a limiting block 25 extending downward, as shown in FIG.
  • the outer casing 3 is an olive-shaped case that is open at the bottom and has an outer size corresponding to the body 1.
  • the upper end surface of the outer casing 3 is provided with two mounting holes 31 corresponding to the corresponding studs 11 on the body 1.
  • a circular window 32 is provided in the center of the upper end surface of the outer casing 3; the periphery of the window 32 is raised upward to form a boss 33.
  • the upper surface of the upper wall of the boss 33 is provided with a snap ring 34 and a circular groove 35 is provided on the lower surface. Please refer to FIG.
  • the lower grip 4 has a curved portion 41 that is coupled to the upper grip 6.
  • the front end of the lower grip 4 is provided with a circular through hole 42.
  • Three upwardly extending studs 43 are uniformly distributed around the circumference of the circular through hole 42, and the three studs 43 respectively correspond to the mounting holes 21 on the rotary cover 2.
  • a circular groove 44 is formed in the outer periphery of the lower surface of the lower grip 42 at the lower surface of the lower grip 4.
  • the lower grip 4 is disposed above the outer casing 3 along the axis 5.
  • a snap ring 34 on the upper surface of the upper end wall of the boss 33 of the outer casing 3 is caught in the annular groove 44 of the lower surface of the lower grip 4.
  • the rotary cover 2 is disposed along the axis 5 below the window 32 of the outer casing 3.
  • the upper flange 24 of the rotary cover 2 is caught in the annular groove 35 on the lower surface of the upper end wall of the boss 33 of the outer casing 3.
  • the three screws as fasteners pass through the corresponding mounting holes 21 of the rotating cover 2 from below and through the window 32 of the outer casing 3, and are locked on the corresponding studs 43 of the lower grip 4, and the rotating cover 2 is along the axis 5
  • the fixed cover 4 and the lower grip 4 are in turn fixedly rotatable relative to the outer casing 3 along the axis 5.
  • the outer casing 3 to which the lower grip 4 and the rotary cover 2 are attached is fastened to the body 1 along the axis 5.
  • the two screws are respectively fixed to the corresponding studs 11 of the main body 1 through the corresponding mounting holes 31 of the outer casing 3, so that the outer casing 3 on which the lower grip 4 and the rotating cover 2 are mounted are fixedly connected to the main body 1.
  • the axis 5 of the rotary cover 2 is perpendicular to the bottom surface of the body 1, and the axis 5 of the rotary cover 2 is located at 1/2 of the longitudinal direction of the body 1. In other embodiments, the axis 5 of the rotary cover 2 can be located somewhere 1/3 to 1/2 of the length of the body 1.
  • the limiting block 25 disposed on the lower surface of the rotating cover 2 is inserted into the opening 123 of the body 1 and is movable within the opening 123.
  • the gap 123 forms an arcuate groove corresponding to the movement track of the limiting block 25 on the vertical wall 121, and the limiting block 25 is limited by the arcuate groove to perform only a limited range of rotation.
  • Fig. 8 shows the three-dimensional structure of the grip rotating device in the present embodiment when the lower grip 4 is in the normal position.
  • the transverse axis of the lower grip 4 substantially coincides with the transverse axis of the body 1 and the outer casing 3.
  • the telescopic end 131 of the elastic piece 13 fixed to the body 1 is caught in the rightward recess 23 on the side wall of the inner hole 22 of the rotary cover 2, and the lower grip 4 is locked in this position.
  • the limiting block 25 of the rotating cover 2 is turned from the right side of the opening 123 of the base 12 to the left side of the opening 123, please refer to FIG.
  • the gap 123 limits the rotational angle of the limiting block 25 to a range in which the longitudinal axis of the longitudinal direction of the lower grip 4 is deflected by 0 to 135 degrees with respect to the longitudinal direction of the longitudinal direction of the body 1 and the outer casing 3.
  • the telescopic end 131 of the elastic piece 13 on the body 1 is withdrawn from the right side of the side wall 22 of the inner surface of the rotary cover 2 and slides to the left side of the socket 23.
  • the longitudinal axis of the lower grip 4 is deflected by 90 with respect to the longitudinal axis of the body 1 and the outer casing 3.
  • the telescopic end 131 of the elastic piece 13 is snapped into the socket 23 on the left side of the rotary cover 2, and the lower grip 4 is again fixed at the rotated angle, thereby achieving 90° rotational positioning.
  • the lower grip 4 can be positioned at a plurality of angular points within the range of rotation defined by the slit 123 and the stopper 25.
  • the rotating mechanism between the rotating cover 2 and the body 1 may also be designed to provide a circular flange on the lower surface of the outer casing at the window, and an annular groove is provided on the upper surface of the rotating cover. The groove cooperates with the above-mentioned annular flange.
  • the limiting mechanism between the rotating cover 2 and the body 1 can also be designed such that the limiting block is disposed on the body, and the arcuate groove is disposed on the lower surface of the rotating cover.
  • the electric iron of the embodiment is used as a steam brush, as shown in FIG. 11 : after the brush cover 8 is set on the body 1 of the embodiment, the bristles of the brush cover 8 face away from the paper surface, and both sides of the brush cover 8 The lug is stuck at the waist of the body 1. At this time, the grip is allowed to rotate relative to the body 1, and the angle between the longitudinal axis of the grip and the longitudinal axis of the body 1 may be anywhere between 0° and 135°. Steam is supplied to the body 1 through the hose 7, and the body 1 is heated twice and then ejected outward, and the bristles of the brush cover 8 are used to flatten the laundry.
  • a further embodiment of the rotatable electric iron of the present invention is constructed as shown in Figs. 12 and 13.
  • the electric iron includes: a casing 100, a body 180, a lower grip 200, a grip body 300, an upper grip 400, a button 500, a guide cylinder 600, a rotating shaft 700, a hose 800, and a rotating cover 900.
  • the body 180 has an olive-shaped plate shape and is internally provided with an electric heater.
  • a boss 181 is drawn upward from the upper surface of the body 180. The center of the boss 181 has an air inlet communicating with the inside of the body 180.
  • the outer casing 100 is an olive-shaped case that is open at the bottom and has a size corresponding to the body 180.
  • a circular flat plate 110 is disposed at the center of the upper end surface of the outer casing 100.
  • a guide hole 120 having a pair of sliding key grooves is defined in the center of the flat plate 110, and two circular arc-shaped windows 130 are opened at the periphery of the guide hole 120.
  • the periphery of the flat plate 110 is swelled upward to form a boss 140.
  • the upper surface of the upper wall of the boss 140 is provided with a snap ring 150 and an annular groove 160 is formed on the lower surface of the upper wall of the boss 140.
  • the lower grip 200, the grip body 300 and the upper grip 400 constitute a centrally open grip.
  • the grip body 300 is a trapezoidal thin shell which is open in the middle, and the front and rear ends are tubular.
  • the upper and lower side walls are tile-shaped, and the upper side wall is provided with a through groove 310.
  • the front end of the grip body 300 is provided with a process cartridge 320 for assembly.
  • the middle and rear portions of the lower grip 200 are tile-shaped thin shells correspondingly connected to the middle and rear portions of the lower side wall of the grip body 300.
  • the front portion of the lower grip 200 has a stern shape and is correspondingly coupled to the front end of the grip body 300 and the front portion of the lower side wall.
  • the bottom surface of the front end of the lower grip 200 is provided with a circular through hole, and two downwardly extending studs 210 are oppositely disposed at the periphery of the circular through hole.
  • a circular groove 220 is formed in the outer periphery of the lower surface of the lower grip 200 at the circular through hole.
  • the upper grip 400 is a tile-shaped thin shell corresponding to the front end and the upper side wall of the grip main body 300, and is connected to the front end and the upper side wall of the grip main body 300.
  • the middle portion of the upper grip 400 is provided with a pair of downwardly extending lugs 410, and a transverse axis 420 is coupled to the upper grip 400 through the shaft holes in the pair of lugs 410.
  • the front end of the upper grip 400 has a pair of downwardly extending columns, and the inner surface of the lower portion of each of the columns is respectively provided with a limiting block 430.
  • a downwardly extending coil 440 is disposed between the two posts at the front end of the upper grip 400.
  • the foremost end of the upper grip 400 is provided with a downwardly extending assembly process cartridge 450.
  • a central shaft hole 510 is provided in the middle of the button 500.
  • the front end of the button 500 is provided with a longitudinal groove 520, so that the front end of the button 500 forms two branches; the lower surface of each of the branches has a bump 530.
  • the lower portion of the outer circumferential surface of the guiding cylinder 600 is oppositely opened with a pair of arcuate grooves, and a pair of sliding keys 610 are formed between the pair of curved grooves.
  • the upper portion of the outer circumferential surface of the guiding cylinder 600 is oppositely opened with a pair of trapezoidal rotary guide grooves 620; the two parallel sides of each trapezoidal rotary guide groove 620 are parallel to the axis of the guiding cylinder 600, and the lowest point of the upper oblique side is set. Bump 621.
  • the upper end surface of the guide cylinder 600 is oppositely provided with two sets of "V" shaped grooves 630, and each set of "V” shaped grooves 630 includes two "V” shaped grooves continuous along the circumference.
  • the rotating shaft 700 is an inverted "T” shaped tube, and the upper end of the small end is provided with an external thread.
  • a spring 710 is fitted to the shaft 700.
  • the front portion of the lower grip 200 is stacked above the outer casing 100, and the two studs 210 of the lower grip 200 respectively pass through the corresponding windows 130 of the flat plate 110 of the outer casing 100 and extend into the outer casing 100.
  • the snap ring 150 on the upper surface of the upper end wall of the boss 140 of the outer casing 100 is caught in the annular groove 220 on the lower surface of the lower grip 200.
  • the rotary cover 900 is disposed below the flat plate 110 of the outer casing 100.
  • the upper flange 910 of the rotary cover 900 is caught in the annular groove 160 on the lower surface of the upper end wall of the boss 140 of the outer casing 100.
  • the two screws are respectively locked from the bottom through the mounting hole 920 of the rotating cover 900 to the corresponding stud 210 of the lower grip 200, and the rotating cover 900 and the lower grip 200 are fixedly coupled along the common axis to rotate the cover 900 and the lower grip.
  • the 200 can in turn be freely rotated relative to the outer casing 100 along a common axis.
  • the rotating shaft 700 and the spring 710 are fitted in the guiding cylinder 600.
  • the external thread of the upper portion of the rotating shaft 700 protrudes outward from the bottom of the guiding cylinder 600 and is screwed into the screw 440 of the upper grip 400.
  • the spring 710 pushes up the guiding cylinder 600 upward, so that the two sets of "V" shaped grooves 630 of the upper end surface of the guiding cylinder 600 are respectively in contact with the bumps 530 corresponding to the front end of the button 500.
  • the two limiting blocks 430 at the front end of the upper grip 400 are respectively engaged in the trapezoidal rotary guide grooves 620 of the guiding cylinder 600.
  • the front end of the hose 800 is inserted and locked in the air intake hole in the center of the boss 181 of the body 180.
  • the rear end of the hose 800 passes through the center hole of the bottom of the rotating cover 900, the guide hole 120 on the flat plate 110 of the outer casing 100, the circular through hole at the front end of the lower grip 200, the front portion of the grip body 300, and the center hole of the rotating shaft 700.
  • the outer casing 100 on which the lower grip 200 and the rotary cover 900 are attached is snapped onto the body 180 along a common axis.
  • the outer casing 100 is fixedly coupled to the body 180 by screws.
  • the axis of the rotating cover 900 is perpendicular to the bottom surface of the body 180, and the axis of the rotating cover 900 is located at 1/2 of the length direction of the body 180. In other embodiments, the axis of the rotary cover 900 can be located somewhere 1/3 to 1/2 of the length of the body 180.
  • the lower portion of the guiding cylinder 600 is inserted into the guiding hole 120 in the center of the flat plate 110 of the outer casing 100.
  • the pair of sliding keys 610 of the guiding cylinder 600 are respectively caught in the corresponding sliding key grooves of the guiding hole 120, so that the guiding cylinder 600 is synchronized with the outer casing 100 and the body 180. Rotate, and the guide cylinder 600 can move up and down relative to the outer casing 100 and the body 180.
  • the process cartridge 450 of the upper grip 400 is inserted into the process cartridge 320 at the front end of the grip body 300, and the process cartridge 320 of the upper grip 400 and the process cartridge 320 of the grip body 300 are screwed to the front end of the lower grip 200 by screws. Stud 230.
  • the assembly process hole corresponding to the lower grip 200 and the upper grip 400 is fitted to the screw on the grip main body 300, and the lower grip 200 is integrally coupled to the grip main body 300 and the upper grip 400.
  • the trajectories of the two limiting blocks 430 at the front end of the upper grip 400 in the two oblique sides of the trapezoidal rotary guide groove 620 of the guiding cylinder 600 respectively correspond to the positive and negative rotation of the guiding cylinder 600 relative to the grip. Amplitude.
  • the structure of the portion related to the grip rotating device in the initial position in this embodiment is as shown in FIG. 14 : the first bumps 530 of the front end of the button 500 are respectively placed on the first of the set of "V" shaped grooves 630 corresponding to the guiding cylinder 600. On the falling surface of a "V" shaped groove.
  • the two limiting blocks 430 at the front end of the upper grip 400 are respectively located at the lowest points of the straight sides of the corresponding trapezoidal rotary guide grooves 620.
  • the axis in the longitudinal direction of the upper grip 400 is parallel to the axis in the longitudinal direction of the outer casing 100.
  • the two bumps 530 at the front end of the button 500 respectively press down the descending surface of the first "V" shaped groove in the set of "V” shaped grooves 630 corresponding to the guiding cylinder 600,
  • the guide cylinder 600 is translated downward relative to the outer casing 100, and the spring 710 in the guide cylinder 600 is compressed.
  • the two limiting blocks 430 of the front end of the upper grip 400 are respectively raised to the highest point along the long straight side of the corresponding trapezoidal rotary guide groove 620 on the guiding cylinder 600; and the two convex points 530 at the front end of the rear button 500 respectively correspond to the guiding cylinder 600.
  • the lowering surface of the first "V” shaped groove of the set of “V” shaped grooves 630 is moved obliquely downward to the lowest point of the first "V” shaped groove, and the guiding cylinder 600 is then rotated at a small angle.
  • the axis of the upper grip 400 in the longitudinal direction forms a small angle with the axis of the outer length of the outer casing 100, see Fig. 15.
  • the two limit blocks 430 are respectively moved to the lowest point of the upper oblique side of the trapezoidal rotary guide groove 620 corresponding to the guide cylinder 600, and are stopped by the positioning bumps 621, and the spring 710 is no longer elongated.
  • the guiding cylinder 600 is rotated forward by a predetermined angle - 90°.
  • the axis in the longitudinal direction of the upper grip 400 is perpendicular to the axis in the longitudinal direction of the outer casing 100, see Fig. 16.
  • the two bumps 530 at the front end of the button 500 have respectively passed over the rising surface of the first "V" shaped groove of the set of "V" shaped grooves 630 corresponding to the guiding cylinder 600 into the second "V" shaped groove. surface.
  • the two bumps 530 at the front end of the button 500 are respectively moved obliquely downward along the descending surface of the second "V" shaped groove of the set of "V” shaped grooves 630 corresponding to the guiding cylinder 600.
  • the two limiting blocks 430 stop at the upper end of the short straight side of the trapezoidal rotary guide groove 620 corresponding to the guiding cylinder 600, please refer to FIG.
  • the restoring force of spring 710 pushes up guide cylinder 600 upward.
  • the two limiting blocks 430 at the front end of the upper grip 400 are respectively moved downward along the short straight sides of the trapezoidal rotary guide grooves 620 corresponding to the guiding cylinder 600.
  • the spring 710 continues to push up the guiding cylinder 600.
  • the two limiting blocks 430 are respectively moved along the lower oblique side of the corresponding trapezoidal rotary guide groove 620 of the guiding cylinder 600 to the lowest point, and the guiding cylinder 600 rotates in the opposite direction.
  • the two bumps 530 at the front end of the button 500 respectively move obliquely upward along the descending surface of the second "V” shaped groove in the set of “V” shaped grooves 630 corresponding to the guiding cylinder 600 and over the second "V” shaped groove.
  • the descending surface enters the rising surface of the first "V” shaped groove.
  • the two limiting blocks 430 are respectively moved along the lower oblique side of the trapezoidal rotary guide groove 620 corresponding to the guiding cylinder 600 until the lowest point is blocked by the long straight side, and the spring 710 is no longer elongated.
  • the guiding cylinder 600 is rotated in the opposite direction by a predetermined angle - 90°, return to the initial position, please refer to Figure 14.
  • the axis in the longitudinal direction of the upper grip 400 is parallel to the axis in the longitudinal direction of the outer casing 100.
  • the two bumps 530 at the front end of the button 500 have reached the upper portion of the descending surface of the first "V" shaped groove of the set of "V” shaped grooves 630 corresponding to the guide cylinder 600, ready for the next rotation cycle.
  • the electric iron of the present embodiment is used as a steam brush, as shown in FIG. 19: after the brush cover 190 is set on the body 180 of the embodiment, the bristles of the brush cover 190 face away from the paper surface, and both sides of the brush cover 190 The lug is stuck at the waist of the body 180. At this time, the grip is allowed to rotate relative to the body 180, and the longitudinal axis of the grip may be at an angle of 0 or 90 with respect to the longitudinal axis of the outer casing 100 and the body 180.
  • the steam is delivered to the body 180 through the hose 800, and the body 180 heats the steam and then sprays it outward, and the bristles of the brush cover 190 are used to flatten the laundry.
  • FIG. 1000 The structure of an embodiment of the ironing machine with a rotatable electric iron according to the present invention is shown in FIG.
  • the boiler 1000 including the water tank 1001 and the heater 1002 in the ironing machine delivers steam to the electric iron described in the first embodiment through the gas pipe 1003.
  • the boiler 1000 is provided with a hanger 1004.
  • the upper end of the hanger 1004 is provided with a hook 1005 for removably supporting the electric iron.
  • the body 1 having an electric heater is provided with a casing 3.
  • the lower grip 4 is fixedly mounted with the upper grip 6 to form a complete grip.
  • a rotating body A box-shaped rotary cover 2 rotatably connects the body 1 and the lower grip 4, and the lower grip 4 is rotatable relative to the body 1.
  • a limiting mechanism for limiting the rotation amplitude and an elastic positioning mechanism for locking the rotational angular position are provided between the body 1 and the lower grip 4.
  • a corresponding window 32 is opened on the outer casing 3; the rotary cover 2 is mounted below the outer casing 3, and the rotary cover 2 and the lower grip 4 above the outer casing 3 are fixedly connected through the window 32 by fasteners.
  • the outer surface of the outer casing 3 at the window 32 and the upper surface of the rotary cover 2 are engaged with the annular flange by an annular groove; the outer casing 3 is located on the outer surface of the outer side of the window 32 and the lower surface of the lower grip 4.
  • a circular groove is also engaged with the annular flange to form a rotational connection between the lower grip 4 and the rotary cover 2 and the outer casing 3.
  • the elastic positioning mechanism includes at least two sockets 23 provided on the inner wall of the rotating cover 2 and a resilient piece 13 fixed to the body 1.
  • the telescopic end of the elastic piece 13 is caught in any of the above-mentioned sockets 23.
  • the limiting mechanism includes an arcuate groove 123 disposed on the body 1 and a limiting block 25 disposed on the lower surface of the rotating cover 2 and penetrating into the arcuate groove 123.
  • the arcuate groove 123 and the limiting block 25 The corresponding motion trajectory.
  • a hose 7 is connected to the gas pipe 1004 and the air inlet hole 125 of the body 1; the body 1 is detachably provided with the brush cover 8.
  • the electric iron is used as a steam iron; after the brush cover is fitted on the body 1, the electric iron is used as a steam brush.
  • the structure of the embodiment of the present invention having a rotatable electric iron is shown in Fig. 21.
  • the boiler 1000 including the water tank 1001 and the heater 1002 in the ironing machine delivers steam to the electric iron through the gas pipe 1003; the boiler 1000 is provided with a hanger 1004, and the upper end of the hanger 1004 is provided with a hook 1005 for removably supporting the electricity. Iron.
  • a housing 100 having an electric heater is mounted with a housing 100.
  • the lower grip 200, the grip body 300 and the upper grip 400 constitute a centrally open grip.
  • a rotating body A box-shaped swivel cover 900 rotatably connects the outer casing 100 with the lower grip 200, and the lower grip 200 is rotatable relative to the outer casing 100.
  • a limiting mechanism for limiting the amplitude of rotation and an elastic positioning mechanism for locking the position of the rotational angle are provided between the outer casing 100 and the upper grip 400.
  • a connecting window corresponding to the rotating cover 900 and the lower grip 200 on the outer casing 100 is provided with a curved window 130; the rotating cover 900 is mounted below the outer casing 100, and the rotating cover 900 and the lower grip 200 above the outer casing 100 are fastened.
  • the piece traverses the window 130 for a fixed connection.
  • the outer casing 100 is disposed between the lower surface of the outer side of the window 130 and the upper surface of the rotary cover 900 by an annular groove and an annular flange; the outer casing 100 is located on the outer surface of the outer side of the window 130 and the lower surface of the lower grip 200.
  • a circular groove is also engaged with the annular flange to form a rotational connection between the lower grip 200 and the rotary cover 900 and the outer casing 100.
  • the limiting mechanism includes a trapezoidal rotary guide groove 620 disposed on the outer circumferential surface of the guide cylinder 600, and a limiting block 430 disposed on the upper grip 400 and penetrating into the trapezoidal rotary guide groove 620.
  • the guide cylinder 600 is mounted on the upper grip 400 via a rotating shaft 700, and the two parallel sides of the trapezoidal rotary guide groove 620 are parallel to the axis of the guide cylinder 600.
  • the trajectory of the limiting block 430 moving in the two oblique sides of the trapezoidal rotary guide groove 620 respectively corresponds to the amplitude of the guiding cylinder 600 rotating in the forward and reverse directions with respect to the upper grip 400.
  • the elastic positioning mechanism includes a spring 710 for pushing the guiding cylinder 600 on the rotating shaft 700 disposed in the guiding cylinder 600, and a limiting block for blocking the upper grip 400 at the lowest point of the upper oblique side of the trapezoidal rotating guide groove 620 of the guiding cylinder 600.
  • the positioning bump 621 of the 430, the sliding key 610 of the lower portion of the outer circumferential surface of the guiding cylinder 600, and the guide hole 120 of the housing 100 and the sliding key 610 thereof are accommodated on the outer casing 100.
  • the sliding key 610 on the guiding cylinder 600 cooperates with the sliding key groove of the guiding hole 120 of the outer casing 100, so that the guiding cylinder 600 and the body 180 constitute a translational and co-rotating connection.
  • the spring 710 pushes the guiding cylinder 600 to cause the limiting block 430 of the upper grip 400 to be caught at the lowest point of the oblique side of the trapezoidal rotary guide groove 620 or at the lowest point of the upper oblique side.
  • the upper end surface of the guiding cylinder 600 is provided with at least two continuous "V" shaped grooves 630 along the periphery, and the upper grip 400 is provided with a lever type button 500, and the front end of the button 500 is placed on the guiding cylinder 600.
  • the "V" shaped slot 630 In the "V" shaped slot 630.
  • a hose 800 communicates with the air inlet tube 1004 and the air inlet opening 181 of the body 180; the body 180 is removably provided with a brush cover 190.
  • the electric iron is used as a steam iron; after the brush cover 190 is set on the body 180, the electric iron is used as a steam brush.
  • the rotatable electric iron of the invention has a limiting mechanism that allows the grip to be rotated with respect to the body, so that the use of the electric iron is more flexible, so that the parts that were previously difficult to be ironed can be smoothly ironed, and the ironing quality is improved. higher.
  • the ironing machine with the rotatable electric iron adopts the above-mentioned rotatable electric iron, and can adjust the ironing width by changing the angle between the longitudinal direction of the body and the length direction of the grip; that is, it can be used as a steam brush or as an electric iron. Iron use. Therefore, the ironing machine has the advantages of using more methods and having stronger functions.

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Description

可转动的电熨斗及具有可转动电熨斗的挂烫机 技术领域
本发明涉及一种电熨斗及挂烫机。
背景技术
电熨斗的本体包括底板和电加热器,本体的外壳上固定安装电熨斗握把,以便提拿和使用时推拉操作。握把的轴线与本体的轴线一致。使用者在熨烫衣服的过程中,需要电熨斗做旋转调整时只能依靠翻转手腕。长时间将手腕扭成某一角度,会使人感到很不舒服。因此,人们希望电熨斗的握把可以相对本体转动。但是现有的电熨斗握把相对本体的位置是固定的,不能满足人们的上述要求。另外,现有的挂烫机由包含水箱和加热器的锅炉通过输气管向电熨斗送蒸汽,锅炉上设有挂架可摘除地支撑该电熨斗。该电熨斗的本体的外壳上固定安装握把;握把长度方向的轴线与本体长度方向的轴线垂直。使用时,该电熨斗的本体上套装了毛刷盖。输气管输送的蒸汽在该电熨斗内被本体二次加热后从本体底板的出气孔向外喷出,随着使用者在锅炉挂架悬挂的衣物上移动该电熨斗,该电熨斗本体上毛刷盖的毛刷与蒸汽配合,使衣物迅速烫平。但使用者需要该电熨斗直接作熨烫时,即使摘掉本体上毛刷盖,有些时候使用起来也感到不方便。所以使用者希望改进现有的电熨斗和挂烫机,使电熨斗的握把可以相对本体转动,从而有更多的使用方式和功能。
发明内容
本发明旨在提供一种可转动的电熨斗,可以根据使用者熨烫衣服的需求使握把做旋转调整。
本发明的另一目的是为提供一种具有可转动电熨斗的挂烫机,电熨斗的握把可以相对本体转动,从而有更多的使用方式和功能。
本发明的技术方案是:可转动的电熨斗,具有电加热器的本体上装有外壳,一个旋转体可转动地连接本体与握把,本体与握把之间设有限制旋转幅度的限位机构和对旋转角位置进行锁定的弹性定位机构。
所述的旋转体为盒状的旋转盖;在外壳上对应旋转盖开有窗口;旋转盖安装在外壳的下方,且旋转盖与外壳上方的握把通过紧固件穿越该窗口作固定连接;外壳位于窗口处的下表面与旋转盖的上表面之间采用圆环形的槽与圆环形的凸缘配合;外壳位于窗口处的上表面与握把的下表面之间也采用圆环形的槽与圆环形的凸缘配合,构成握把和旋转盖与外壳间同轴的转动连接。在握把与外壳之间设置圆环形槽与圆环形凸缘配合的转动连接,同时在外壳与旋转盖之间设置圆环形槽与圆环形凸缘配合的转动连接,又将握把与旋转盖作固定连接,使握把可以稳定可靠地相对外壳即本体转动,便于使用者进行相应的熨烫作业。该结构简单,便于装配。
为便于握把做旋转:所述旋转盖的轴线垂直于本体的底面,且旋转盖的轴线位于本体长度方向的1/3至1/2处。
在一个优化的实施结构中,推荐采用简单的弹性定位机构:所述的弹性定位机构包括设在旋转盖内孔壁上的至少两个卡窝和固定在本体上的弹片,该弹片的伸缩端卡在任一个上述的卡窝中。
在这个优化的实施结构中,推荐采用简单的限位机构:所述的限位机构包含设在本体上的弧形凹槽和设在旋转盖下表面并探入该弧形凹槽中的限位块,弧形凹槽与该限位块的运动轨迹对应。
在又一个优化的实施结构中,一种适合自动转动的限位机构是:所述的限位机构包含设在导向筒外圆周面上的梯形回转导槽和设在握把上并探入该梯形回转导槽中的限位块;该导向筒经转轴安装在握把上,该梯形回转导槽的两个平行边与导向筒的轴线平行,该限位块在梯形回转导槽两个斜边中运动的轨迹分别对应导向筒相对握把正、反向转动的幅度。
在自动的转动机构中,推荐的弹性定位机构的结构是:所述的弹性定位机构包括设在导向筒内的转轴上顶推导向筒的弹簧、设在导向筒梯形回转导槽中上斜边最低点处阻挡握把限位块的定位凸点、导向筒外圆周面下部的滑键和外壳上容纳导向筒及其滑键的导孔;导向筒上的滑键与外壳上导孔的滑键槽配合,使导向筒与本体构成可相互平移且共同转动的连接;该弹簧顶推导向筒使握把的限位块卡在梯形回转导槽下斜边最低点处或上斜边最低点定位凸点处。
在自动的转动机构中,为实现操控:所述的导向筒的上端面设至少两个沿周边连续的“V”形槽,在握把上设有一个杠杆式的按键,该按键的前端顶在导向筒任一个上述的“V”形槽中。向按键的后半部施加压力,按键的前端向下顶压导向筒第一个“V”形槽的下降表面,使导向筒向下平移,导向筒内的弹簧压缩,握把前端的限位块沿梯形回转导槽长直边上升到最高点;而后按键的前端沿第一个“V”形槽下降表面向斜下方移动到第一个“V”形槽的最低点,导向筒随之转动。释放按键,弹簧的恢复力向上顶推导向筒;握把前端的限位块沿导向筒梯形回转导槽上斜边向斜下方移动,导向筒随之转动。按键的前端沿第一个“V”形槽的上升表面向斜上方移动。限位块移动到梯形回转导槽上斜边的最低点受定位凸点的阻挡,停止下来,弹簧也不再伸长。导向筒正向转动了规定的角度。此时,按键的前端已翻越第一个“V”形槽的上升表面进入第二个“V”形槽的下降表面。再次向按键的后半部施加压力,按键的前端向下顶压导向筒第二个“V”形槽的下降表面,使导向筒向下平移,导向筒内的弹簧压缩,握把前端的限位块越过梯形回转导槽上斜边的定位凸点;导向筒600随之继续小幅度转动。而后按键的前端沿第二个“V”形槽下降表面向斜下方移动,限位块到达梯形回转导槽的短直边上端停止下来。释放按键,弹簧的恢复力向上顶推导向筒;握把前端的限位块沿导向筒梯形回转导槽的短直边向下方移动。弹簧继续向上顶推导向筒,限位块沿梯形回转导槽下斜边向最低点运动,导向筒向反方向转动。按键的前端沿第二个“V”形槽的下降表面向斜上方移动并翻越第二个“V”形槽的下降表面进入第一个“V”形槽的上升表面。限位块沿梯形回转导槽下斜边移动到最低点受长直边的阻挡,停止下来,弹簧也不再伸长。导向筒反向转动了规定的角度,回到初始位置。此时,按键的前端已到达第一个“V”形槽下降表面的上部,为下一个转动循环做好了准备。所以,使用者可以利用按键快速地控制导向筒正向或反向转动,即握把相对本体灵活地转动,以满足熨烫作业的需要。
本发明具有可转动电熨斗的挂烫机,包含水箱和加热器的锅炉通过输气管向电熨斗送蒸汽;锅炉上设有挂架可摘除地支撑该电熨斗;该电熨斗中具有电加热器的本体上装有外壳,一个旋转体可转动地连接本体与握把,本体与握把之间设有限制旋转幅度的限位机构和对旋转角位置进行锁定的弹性定位机构;一根软管连通输气管和本体的进气孔;该本体上可摘除地套装毛刷盖。握把可以相对本体转动,在握把与本体的相对位置被锁定的状态,该电熨斗作为蒸汽熨斗使用;在本体上套装了毛刷盖后,该电熨斗作为蒸汽刷使用。
所述的旋转体为盒状的旋转盖;在外壳上对应旋转盖开有窗口;旋转盖安装在外壳的下方,且旋转盖与外壳上方的握把通过紧固件穿越该窗口作固定连接;外壳位于窗口处的下表面与旋转盖的上表面之间采用圆环形的槽与圆环形的凸缘配合;外壳位于窗口处的上表面与握把的下表面之间也采用圆环形的槽与圆环形的凸缘配合,构成握把和旋转盖与外壳间同轴的转动连接。
在一个优化的实施结构中,推荐采用简单的弹性定位机构:所述的弹性定位机构包括设在旋转盖内孔壁上的至少两个卡窝和固定在本体上的弹片,该弹片的伸缩端卡在任一个上述的卡窝中。
在这个优化的实施结构中,推荐采用简单的限位机构:所述的限位机构包含设在本体上的弧形凹槽和设在旋转盖下表面并探入该弧形凹槽中的限位块,弧形凹槽与该限位块的运动轨迹对应。
在又一个优化的实施结构中,一种适合自动转动的限位机构是:所述的限位机构包含设在导向筒外圆周面上的导槽和设在握把上并探入该梯形回转导槽中的限位块;该导向筒经转轴安装在握把上,该梯形回转导槽的两个平行边与导向筒的轴线平行,该限位块在梯形回转导槽两个斜边中运动的轨迹分别对应导向筒相对握把正、反向转动的幅度。
在自动的转动机构中,推荐的弹性定位机构的结构是:所述的弹性定位机构包括设在导向筒内的转轴上顶推导向筒的弹簧、设在导向筒梯形回转导槽中上斜边最低点处阻挡握把限位块的定位凸点、导向筒外圆周面下部的滑键和外壳上容纳导向筒及其滑键的导孔;导向筒上的滑键与外壳上导孔的滑键槽配合,使导向筒与本体构成可相互平移且共同转动的连接;该弹簧顶推导向筒使握把的限位块卡在梯形回转导槽下斜边最低点处或上斜边最低点定位凸点处。
在自动的转动机构中,为实现操控:所述的导向筒的上端面设至少两个沿周边连续的“V”形槽,在握把上设有一个杠杆式的按键,该按键的前端顶在导向筒任一个上述的“V”形槽中。
由于采取上述技术方案,本发明可转动的电熨斗,其弹性定位机构即可以对旋转后选定的位置进行锁定,便于使用者进行相应的熨烫作业;也可以在旋转后任意的非锁定位置使用,而且便于调整和定位。满足了使用者熨烫衣服时按需求临时调整握把的纵向轴线与本体的纵向轴线的相对角度状态并加以锁定,从而获得两种熨烫宽度的愿望。使电熨斗的运用更灵活,使以前不易熨烫的部位也能顺利地熨烫了,熨烫质量更高。进而,由于可以调整握把纵向轴线与本体纵向轴线的角度,在本体上套装毛刷盖,使该电熨斗可以作为蒸汽刷使用,并可以灵活调整毛刷盖与握把的角度,从而随意调整蒸汽刷扫过的宽度。特别是采用了由按键控制的自动转动结构后,人的手不必接触热的本体就可以调整本体与握把之间的角度;本发明可转动的电熨斗的使用方式转换更加便利和安全。本发明具有可转动电熨斗的挂烫机采用上述可转动的电熨斗,可通过改变本体长度方向与握把长度方向的角度,调整的熨烫宽度;即可以作为蒸汽刷使用,也可以作为电熨斗使用。所以该挂烫机具有使用方式多和功能强的优点。
附图说明
图1为本发明可转动的电熨斗实施例1中与握把转动装置相关部分的展开结构示意图。
图2为图1的俯视结构示意图。
图3为图1的剖面结构示意图。
图4为实施例1中握把转动装置的装配关系示意图。
图5为实施例1中本体上的基座与弹片和压板的装配关系示意图。
图6为实施例1中旋转盖与弹片和压板的装配关系示意图。
图7为实施例1中旋转盖与本体上的基座及弹片和压板的装配关系示意图。
图8为实施例1中与握把转动装置相关部分在下握把位于常规位置时的立体结构示意图。
图9为实施例1中与握把转动装置相关部分在下握把转动90°时的立体结构示意图。
图10实施例1在握把位于常规位置时的俯视结构示意图。
图11实施例1在本体上套装毛刷盖且握把转动90°时的俯视结构示意图。
图12为本发明可转动的电熨斗实施例2的剖面结构示意图。
图13为实施例2的展开结构示意图。
图14为实施例2中与握把转动装置相关部分在初始位置的结构示意图。
图15为实施例2中与握把转动装置相关部分在正向转动过程中的结构示意图。
图16为实施例2中与握把转动装置相关部分在正向转动结束位置的结构示意图。
图17为实施例2中与握把转动装置相关部分在反向转动过程中的结构示意图。
图18为实施例2在握把位于常规位置时的俯视结构示意图。
图19为实施例2在本体上套装毛刷盖且握把转动90°时的俯视结构示意图。
图20为本发明具有可转动电熨斗的挂烫机实施例3的结构示意图。
图21为本发明具有可转动电熨斗的挂烫机实施例4的结构示意图。
具体实施方式
一,实施例一
本发明可转动的电熨斗一个实施例的结构如图8和图10所示。具有电加热器的本体1上固定安装外壳3,一个盒状的旋转体 — 旋转盖2可转动地安装在本体1上。旋转盖2与本体1之间设有限制转动幅度的限位机构和锁定两者位置关系的定位机构。旋转盖2与下握把4固定连接。下握把4上固定安装上握把6,组成完整的握把。一条软管7从上握把6和下握把4后端进入握把内部,并穿过旋转盖2和外壳3将蒸汽送到本体1做二次加热再向外喷出。
本实施例中本体1、旋转盖2、外壳3和下握把4构成握把转动装置,握把转动装置的展开结构,如图1所示。
本体1呈橄榄形的板状,内部安装了电加热器。本体1的上表面设有两个用于安装外壳3的螺柱11。本体1上表面的中央设有一个向上凸起的圆台形基座12。基座12上表面的周边向上延伸出环形的立壁121,该立壁121开有豁口123。基座12上表面的中央设有一个螺柱124,在该螺柱124的两侧各设有一个凸块122。两个凸块122的上表面分别相对地设置卡槽1221,以便安装弹片13。基座12上位于两个凸块122与立壁121之间开有进气孔125,软管7插在进气孔125中向本体1内输送蒸汽。
弹片13呈U字,其底部为突出的伸缩端131;其开口处两侧的根部各向外延伸出两个凸点,在这两个凸点之间形成卡槽132。请参看图5:一块压板14将弹片13开口处两侧的根部分别压在基座12两个凸块122的卡槽1221中,该压板14两端的榫头141分别卡在弹片13对应的卡槽132中。一根螺钉15穿过压板14中央的过孔142锁紧在基座12上表面的螺柱124中,使弹片13不能移动且弹片13的伸缩端131略高于基座12的立壁121。
旋转盖2呈浅圆盒状,底部靠近周边均匀地分布三个安装孔21;底部的中央开有圆形内孔22;在该内孔22的侧壁上设有两个卡窝23。两个卡窝23之间的夹角为90°。旋转盖2上表面的周边向上延伸出环形的上凸缘24。旋转盖2下表面设有向下延伸的限位块25,请参看图6。
外壳3为底部敞开的橄榄形盒体,其外形尺寸与本体1相对应。外壳3的上端面上设有两个安装孔31分别对应着本体1上相应的螺柱11。外壳3上端面的中央设有一个圆形的窗口32;该窗口32的周边向上隆起,形成凸台33。该凸台33上壁的上表面设卡环34并在下表面设圆环槽35,请参看图4。
下握把4具有与上握把6相连接的弯曲部41。下握把4的前端开有圆形过孔42。在该圆形过孔42的周边均匀地分布三个向上延伸的螺柱43,这三个螺柱43分别与旋转盖2上的安装孔21对应。请参看图4,在下握把4的下表面位于圆形过孔42的外周开有一道圆环槽44。
本实施例中握把转动装置的装配关系,请参看图1和图4:下握把4沿轴线5设置在外壳3的上方。外壳3的凸台33上端壁上表面的卡环34卡在下握把4下表面的圆环槽44中。旋转盖2沿轴线5设置在外壳3的窗口32下方。旋转盖2的上凸缘24卡在外壳3的凸台33上端壁下表面的圆环槽35中。作为紧固件的三个螺钉分别从下方穿过旋转盖2对应的安装孔21并穿过外壳3的窗口32,锁紧在下握把4对应的螺柱43上,将旋转盖2沿轴线5与下握把4固定连接而旋转盖2和下握把4又可以沿轴线5相对外壳3自由地转动。
安装了下握把4和旋转盖2的外壳3沿轴线5扣合在本体1上。两个螺钉分别穿过外壳3对应的安装孔31锁紧固定在本体1对应的螺柱11上,使安装了下握把4和旋转盖2的外壳3与本体1固定连接成一体。此时,旋转盖2的轴线5垂直于本体1的底面,且旋转盖2的轴线5位于本体1长度方向的1/2处。在其它的实施例中,可以使旋转盖2的轴线5位于本体1长度方向的1/3至1/2的某一处。
本体1基座12的立壁121顶住旋转盖2的下表面,请参看图4。再请参看图6,固定在本体1上的弹片13的伸缩端131卡在旋转盖2内孔22侧壁上的两个卡窝23中的一个卡窝23中。
请参看图7,设在旋转盖2下表面的限位块25探入本体1的豁口123中并可以在豁口123内运动。豁口123在立壁121上形成与限位块25运动轨迹对应的弧形凹槽,而限位块25受该弧形凹槽的限制只能做有限幅度的转动。
图8示出本实施例中握把转动装置在下握把4位于常规位置时的立体结构。下握把4的横向轴线大致与本体1和外壳3的横轴线一致。固定在本体1上的弹片13的伸缩端131卡在旋转盖2内孔22侧壁上靠右的卡窝23中,将下握把4锁定在此位置。
当下握把4顺时针旋转时,带动旋转盖2一起相对外壳3和本体1转动。旋转盖2的限位块25从基座12的豁口123右侧转向豁口123左侧,请参看图7。豁口123限制限位块25的转动夹角大小范围为可使下握把4长度方向的纵向轴线相对本体1和外壳3长度方向的纵向线偏转0°~135°。同时本体1上弹片13的伸缩端131从旋转盖2内孔22侧壁上右边的卡窝23中退出,滑向左边的卡窝23。旋转盖2上左边的卡窝23旋转到弹片13的伸缩端131时,如图9所示,下握把4的纵向轴线相对本体1和外壳3的纵向轴线偏转90°。弹片13的伸缩端131卡入旋转盖2左边的卡窝23,下握把4又重新被固定在旋转后的角度上,从而实现了90°的旋转定位。
显然,若在旋转盖2的内孔22侧壁上设置多个卡窝23,则下握把4可以在豁口123与限位块25确定的转动范围内多个角度点实现定位。
另外,旋转盖2与本体1间的转动机构,也可以设计成在外壳位于窗口处的下表面设置圆环形的凸缘,在旋转盖的上表面设置圆环形的槽,该圆环形的槽与上述圆环形的凸缘配合。
旋转盖2与本体1之间的限位机构,也可以设计成限位块设在本体上,弧形凹槽设在设在旋转盖下表面。
在下握把4与上握把6组成的握把的纵向轴线与本体1纵向轴线的角度为0°角或者90°角时,握把与本体1的相对位置被锁定,这时候本实施例可以作为蒸汽熨斗使用,请参看图10。
本实施例的电熨斗作为蒸汽刷使用,如图11所示:在本实施例的本体1上套装了毛刷盖8后,毛刷盖8的刷毛背离纸面,而毛刷盖8两侧的凸耳卡在本体1的腰部。此时,允许握把相对本体1转动,握把的纵向轴线与本体1纵向轴线的角度可以在0°~135°之间任意的位置。通过软管7向本体1输送蒸汽,本体1将该蒸汽做二次加热后向外喷出,配合毛刷盖8的刷毛将衣物烫平。
二,实施例二
本发明可转动的电熨斗又一个实施例的结构如图12和图13所示。该电熨斗包含:外壳100、本体180、下握把200,握把主体300、上握把400、按键500、导向筒600、转轴700、软管800和旋转盖900等零件。
本体180呈橄榄形的板状,内部安装了电加热器。本体180上表面的向上引出一个凸台181,该凸台181的中央有一个进气孔连通到本体180内部。
外壳100为底部敞开的橄榄形盒体,其尺寸与本体180相对应。外壳100上端面的中央设有一个圆形的平板110,该平板110的中央开设具有一对滑键槽的导孔120,并在该导孔120的外围开出两个圆弧形的窗口130。平板110的周边向上隆起,形成凸台140。该凸台140上壁的上表面设卡环150并在凸台140上壁的下表面设圆环槽160。
下握把200、握把主体300和上握把400组成中部敞开的握把。握把主体300是中部敞开的梯形薄壳,前、后两端成管状,上、下两个侧壁呈瓦状,其上侧壁开有一个通槽310。握把主体300的前端设有一个装配用工艺筒320。下握把200的中部和后部为瓦状薄壳,与握把主体300下侧壁的中部和后部对应连接。下握把200的前部呈船尾形,与握把主体300的前端和下侧壁的前部对应连接。下握把200前端的底面开有圆形过孔,在该圆形过孔的周边相对地设置两个向下延伸的螺柱210。在下握把200的下表面位于圆形过孔的外周开有一道圆环槽220。上握把400是与握把主体300前端和上侧壁对应的瓦状薄壳,与握把主体300的前端和上侧壁对应连接。上握把400的中部设有一对向下延伸的凸耳410,一根横轴420穿过这对凸耳410上的轴孔将按键500连接在上握把400上。上握把400的前端有一对向下延伸的立柱,每个立柱下部的内表面分别设有一个限位块430。上握把400前端两个立柱之间设有一个向下延伸的螺管440。上握把400最前端设有一个向下延伸的装配用工艺筒450。
按键500的中部设有横向的轴孔510。按键500前端开有一个纵向槽520,使按键500的前端形成两个分杈;每个分杈的下表面有一个凸点530。
导向筒600外圆周面下部相对地开有一对弧形槽,这对弧形槽之间形成一对滑键610。导向筒600外圆周面的上部相对地开有一对梯形回转导槽620;每个梯形回转导槽620的两个平行边与导向筒600的轴线平行,上斜边最低点处设定位凸点621。导向筒600的上端面沿周边相对地设有两组“V”形槽630,每组“V”形槽630包含两个沿周边连续的“V”形槽。
转轴700为倒“T”形管,其小端的上部设外螺纹。转轴700上套装一个弹簧710。
下握把200的前部叠放在外壳100的上方,下握把200的两根螺柱210分别穿过外壳100的平板110上对应的窗口130,伸入外壳100内。外壳100的凸台140上端壁上表面的卡环150卡在下握把200下表面的圆环槽220中。旋转盖900设置在外壳100的平板110下方。旋转盖900的上凸缘910卡在外壳100的凸台140上端壁下表面的圆环槽160中。两个螺钉分别从下方穿过旋转盖900的安装孔920锁紧在下握把200对应的螺柱210上,将旋转盖900与下握把200沿共同的轴线固定连接而旋转盖900和下握把200又可以沿共同的轴线相对外壳100自由地转动。
转轴700及弹簧710套装在导向筒600,转轴700上部的外螺纹从导向筒600底部向外伸出,并螺合在上握把400的螺管440中。弹簧710向上顶推导向筒600,使导向筒600上端面的两组“V”形槽630分别与按键500前端对应的凸点530接触。上握把400前端的两个限位块430分别卡入导向筒600对应的梯形回转导槽620中。
软管800的前端插入并锁定在本体180的凸台181中央的进气孔中。软管800的后端穿过旋转盖900底部的中心孔、外壳100平板110上的导孔120、下握把200前端的圆形过孔、握把主体300的前部、转轴700的中心孔和按键500前端的纵向槽520,并通过上握把400螺管440底部的过孔引入握把主体300的上侧与上握把400之间的管道中,并从握把的后部向外引出。
安装了下握把200和旋转盖900的外壳100沿共同的轴线扣合在本体180上。用螺钉将外壳100与本体180固定连接成一体。旋转盖900的轴线垂直于本体180的底面,且旋转盖900的轴线位于本体180长度方向的1/2处。在其它的实施例中,可以使旋转盖900的轴线位于本体180长度方向的1/3至1/2的某一处。
导向筒600下部插在外壳100平板110中央的导孔120中,导向筒600的一对滑键610分别卡在导孔120上对应的滑键槽中,使导向筒600与外壳100及本体180同步转动,且导向筒600可以相对外壳100和本体180上下移动。
上握把400的工艺筒450插在握把主体300前端的工艺筒320中,用螺钉穿过上握把400的工艺筒450和握把主体300的工艺筒320,锁紧在下握把200前端的螺柱230上。在握把主体300上采用螺柱与下握把200及上握把400相应的装配用工艺孔与螺钉配合,使下握把200与握把主体300和上握把400连接成一体。
本实施例中,上握把400前端的两个限位块430在导向筒600对应梯形回转导槽620两个斜边中运动的轨迹分别对应导向筒600相对握把正、反向转动的幅度。
本实施例中与握把转动装置相关部分在初始位置的结构,如图14所示:按键500前端两个凸点530分别顶在导向筒600对应的那组“V”形槽630的第一个“V”形槽的下降表面上。上握把400前端的两个限位块430分别位于对应梯形回转导槽620长直边的最低点。上握把400长度方向的轴线与外壳100长度方向的轴线平行。
向按键500的后半部施加压力,按键500前端的两个凸点530分别向下顶压导向筒600对应的那组“V”形槽630中第一个“V”形槽的下降表面,使导向筒600相对外壳100向下平移,导向筒600内的弹簧710压缩。上握把400前端的两个限位块430分别沿导向筒600上对应的梯形回转导槽620长直边上升到最高点;而后按键500前端的两个凸点530分别沿导向筒600对应的那组“V”形槽630的第一个“V”形槽下降表面向斜下方移动到第一个“V”形槽的最低点,导向筒600随之作小角度转动。上握把400长度方向的轴线与外壳100长度方向的轴线形成一个小的夹角,请参看图15。
释放按键500,弹簧710的恢复力向上顶推导向筒600;上握把400前端的两个限位块430分别沿导向筒600对应的梯形回转导槽620的上斜边向斜下方移动,导向筒600随之大幅度转动。按键500前端的两个凸点530分别沿导向筒600对应的那组“V”形槽630第一个“V”形槽的上升表面向斜上方移动。两个限位块430分别移动到导向筒600对应的梯形回转导槽620的上斜边的最低点受定位凸点621的阻挡,停止下来,弹簧710也不再伸长。导向筒600正向转动了规定的角度 — 90°。上握把400长度方向的轴线与外壳100长度方向的轴线垂直,请参看图16。此时,按键500前端的两个凸点530已分别翻越导向筒600对应的那组“V”形槽630第一个“V”形槽的上升表面进入第二个“V”形槽的下降表面。
再次向按键500的后半部施加压力,按键500前端的两个凸点530分别向下顶压导向筒600对应的那组“V”形槽630第二个“V”形槽的下降表面,使导向筒600向下平移,导向筒600内的弹簧710压缩。上握把400前端的两个限位块430分别越过导向筒600对应的那形回转导槽620的上斜边的定位凸点621;导向筒600随之继续小幅度转动,上握把400长度方向轴线与外壳100长度方向轴线的夹角略查过90°。而后按键500前端的两个凸点530分别沿导向筒600对应的那组“V”形槽630第二个“V”形槽下降表面向斜下方移动。两个限位块430到达导向筒600对应的梯形回转导槽620的短直边上端停止下来,请参看图17。
释放按键500,弹簧710的恢复力向上顶推导向筒600。上握把400前端的两个限位块430分别沿导向筒600对应的梯形回转导槽620的短直边向下方移动。弹簧710继续向上顶推导向筒600,两个限位块430反过来分别沿导向筒600对应的梯形回转导槽620下斜边向最低点运动,导向筒600向反方向转动。按键500前端的两个凸点530分别沿导向筒600对应的那组“V”形槽630中第二个“V”形槽的下降表面向斜上方移动并翻越第二个“V”形槽的下降表面进入第一个“V”形槽的上升表面。两个限位块430分别沿导向筒600对应的梯形回转导槽620下斜边移动到最低点受长直边的阻挡,停止下来,弹簧710也不再伸长。导向筒600反向转动了规定的角度 — 90°,回到初始位置,请参看图14。上握把400长度方向的轴线与外壳100长度方向的轴线平行。此时,按键500前端的两个凸点530已到达导向筒600对应的那组“V”形槽630第一个“V”形槽下降表面的上部,为下一个转动循环做好了准备。
在握把的纵向轴线与外壳100和本体180纵向轴线的角度为0°角或者90°角时,握把与外壳100和本体180的相对位置被锁定,这时候本实施例可以作为蒸汽熨斗使用,请参看图18。
本实施例的电熨斗作为蒸汽刷使用,如图19所示:在本实施例的本体180上套装了毛刷盖190后,毛刷盖190的刷毛背离纸面,而毛刷盖190两侧的凸耳卡在本体180的腰部。此时,允许握把相对本体180转动,握把的纵向轴线与外壳100和本体180纵向轴线的角度可以在0°或90°的位置。通过软管800向本体180输送蒸汽,本体180将该蒸汽做二次加热后向外喷出,配合毛刷盖190的刷毛将衣物烫平。
三,实施例三
本发明具有可转动电熨斗的挂烫机一个实施例的结构,如图20所示。该挂烫机中包含水箱1001和加热器1002的锅炉1000通过输气管1003向实施例一所描述的电熨斗送蒸汽。锅炉1000上设有挂架1004,挂架1004的上端设有卡钩1005可摘除地支撑该电熨斗。
该电熨斗的结构在实施例一的说明中作了详细的阐述,为节省篇幅,下面仅作简要的概述。
具有电加热器的本体1上装有外壳3。下握把4上固定安装上握把6,组成完整的握把。一个旋转体 —盒状的旋转盖2可转动地连接本体1与下握把4,下握把4可以相对本体1转动。本体1与下握把4之间设有限制旋转幅度的限位机构和对旋转角位置进行锁定的弹性定位机构。
在外壳3上对应旋转盖2开有窗口32;旋转盖2安装在外壳3的下方,且旋转盖2与外壳3上方的下握把4通过紧固件穿越该窗口32作固定连接。外壳3位于窗口32处的下表面与旋转盖2的上表面之间采用圆环形的槽与圆环形的凸缘配合;外壳3位于窗口32外侧的上表面与下握把4的下表面之间也采用圆环形的槽与圆环形的凸缘配合,构成下握把4和旋转盖2与外壳3间同轴的转动连接。
弹性定位机构包括设在旋转盖2内孔壁上的至少两个卡窝23和固定在本体1上的弹片13,该弹片13的伸缩端卡在任一个上述的卡窝23中。
限位机构包含设在本体1上的弧形凹槽123和设在旋转盖2下表面并探入该弧形凹槽123中的限位块25,弧形凹槽123与该限位块25的运动轨迹对应。
一根软管7连通输气管1004和本体1的进气孔125;该本体1上可摘除地套装毛刷盖8。在下握把4与本体1的相对位置被锁定的状态,该电熨斗作为蒸汽熨斗使用;在本体1上套装了毛刷盖后,该电熨斗作为蒸汽刷使用。
四,实施例四
本发明具有可转动电熨斗的挂烫机又一个实施例的结构,如图21所示。该挂烫机中包含水箱1001和加热器1002的锅炉1000通过输气管1003向电熨斗送蒸汽;锅炉1000上设有挂架1004,挂架1004的上端设有卡钩1005可摘除地支撑该电熨斗。
该电熨斗的结构在实施例二的说明中作了详细的阐述,为节省篇幅,下面仅作简要的概述。
具有电加热器的本体180上装有外壳100。下握把200、握把主体300和上握把400组成中部敞开的握把。一个旋转体 —盒状的旋转盖900可转动地连接外壳100与下握把200,下握把200可以相对外壳100转动。外壳100与上握把400之间设有限制旋转幅度的限位机构和对旋转角位置进行锁定的弹性定位机构。
在外壳100上对应旋转盖900和下握把200的连接杆开有弧形的窗口130;旋转盖900安装在外壳100的下方,且旋转盖900与外壳100上方的下握把200通过紧固件穿越该窗口130作固定连接。外壳100位于窗口130外侧的下表面与旋转盖900的上表面之间采用圆环形的槽与圆环形的凸缘配合;外壳100位于窗口130外侧的上表面与下握把200的下表面之间也采用圆环形的槽与圆环形的凸缘配合,构成下握把200和旋转盖900与外壳100间同轴的转动连接。
限位机构包含设在导向筒600外圆周面上的梯形回转导槽620和设在上握把400上并探入该梯形回转导槽620中的限位块430。导向筒600经转轴700安装在上握把400上,该梯形回转导槽620的两个平行边与导向筒600的轴线平行。限位块430在梯形回转导槽620两个斜边中运动的轨迹分别对应导向筒600相对上握把400正、反向转动的幅度。
弹性定位机构包括设在导向筒600内的转轴700上顶推导向筒600的弹簧710、设在导向筒600梯形回转导槽620中上斜边最低点处阻挡上握把400的限位块430的定位凸点621、导向筒600外圆周面下部的滑键610和外壳100上容纳导向筒600及其滑键610的导孔120。导向筒600上的滑键610与外壳100上导孔120的滑键槽配合,使导向筒600与本体180构成可相互平移且共同转动的连接。弹簧710顶推导向筒600使上握把400的限位块430卡在梯形回转导槽620下斜边最低点处或上斜边最低点定位凸点处。
导向筒600的上端面设至少两个沿周边连续的“V”形槽630,在上握把400上设有一个杠杆式的按键500,该按键500的前端顶在导向筒600任一个上述的“V”形槽630中。
一根软管800连通输气管1004和本体180的进气孔181;该本体180上可摘除地套装毛刷盖190。在下握把200与本体180的相对位置被锁定的状态,该电熨斗作为蒸汽熨斗使用;在本体180上套装了毛刷盖190后,该电熨斗作为蒸汽刷使用。
工业实用性
本发明可转动的电熨斗,其限位机构使握把可以相对本体做有限制的转动,使电熨斗的运用更灵活,使以前不易熨烫的部位也能顺利地熨烫了,熨烫质量更高。本发明具有可转动电熨斗的挂烫机采用上述可转动的电熨斗,可通过改变本体长度方向与握把长度方向的角度,调整的熨烫宽度;即可以作为蒸汽刷使用,也可以作为电熨斗使用。所以该挂烫机具有使用方式多和功能强的优点。

Claims (15)

  1. 可转动的电熨斗,具有电加热器的本体上装有外壳,其特征在于:一个旋转体可转动地连接本体与握把,本体与握把之间设有限制旋转幅度的限位机构和对旋转角位置进行锁定的弹性定位机构。
  2. 根据权利要求1所述的可转动的电熨斗,其特征在于:所述的旋转体为盒状的旋转盖;在外壳上对应旋转盖开有窗口;旋转盖安装在外壳的下方,且旋转盖与外壳上方的握把通过紧固件穿越该窗口作固定连接;外壳位于窗口处的下表面与旋转盖的上表面之间采用圆环形的槽与圆环形的凸缘配合;外壳位于窗口处的上表面与握把的下表面之间也采用圆环形的槽与圆环形的凸缘配合,构成握把和旋转盖与外壳间同轴的转动连接。
  3. 根据权利要求2所述的可转动的电熨斗,其特征在于:所述旋转盖的轴线垂直于本体的底面,且旋转盖的轴线位于本体长度方向的1/3至1/2处。
  4. 根据权利要求2或3所述的可转动的电熨斗,其特征在于:所述的弹性定位机构包括设在旋转盖内孔壁上的至少两个卡窝和固定在本体上的弹片,该弹片的伸缩端卡在任一个上述的卡窝中。
  5. 根据权利要求2或3所述的可转动的电熨斗,其特征在于:所述的限位机构包含设在本体上的弧形凹槽和设在旋转盖下表面并探入该弧形凹槽中的限位块,弧形凹槽与该限位块的运动轨迹对应。
  6. 根据权利要求2或3所述的可转动的电熨斗,其特征在于:所述的限位机构包含设在导向筒外圆周面上的梯形回转导槽和设在握把上并探入该梯形回转导槽中的限位块;该导向筒经转轴安装在握把上,该梯形回转导槽的两个平行边与导向筒的轴线平行,该限位块在梯形回转导槽两个斜边中运动的轨迹分别对应导向筒相对握把正、反向转动的幅度。
  7. 根据权利要求6所述的可转动的电熨斗,其特征在于:所述的弹性定位机构包括设在导向筒内的转轴上顶推导向筒的弹簧、设在导向筒梯形回转导槽中上斜边最低点处阻挡握把限位块的定位凸点、导向筒外圆周面下部的滑键和外壳上容纳导向筒及其滑键的导孔;导向筒上的滑键与外壳上导孔的滑键槽配合,使导向筒与本体构成可相互平移且共同转动的连接;该弹簧顶推导向筒使握把的限位块卡在梯形回转导槽下斜边最低点处或上斜边最低点定位凸点处。
  8. 根据权利要求7所述的可转动的电熨斗,其特征在于:所述的导向筒的上端面设至少两个沿周边连续的“V”形槽,在握把上设有一个杠杆式的按键,该按键的前端顶在导向筒任一个上述的“V”形槽中。
  9. 具有可转动电熨斗的挂烫机,包含水箱和加热器的锅炉通过输气管向电熨斗送蒸汽;锅炉上设有挂架可摘除地支撑该电熨斗;其特征在于:该电熨斗中具有电加热器的本体上装有外壳,一个旋转体可转动地连接本体与握把,本体与握把之间设有限制旋转幅度的限位机构和对旋转角位置进行锁定的弹性定位机构;一根软管连通输气管和本体的进气孔;该本体上可摘除地套装毛刷盖。
  10. 根据权利要求9所述的具有可转动电熨斗的挂烫机,其特征在于:所述的旋转体为盒状的旋转盖;在外壳上对应旋转盖开有窗口;旋转盖安装在外壳的下方,且旋转盖与外壳上方的握把通过紧固件穿越该窗口作固定连接;外壳位于窗口处的下表面与旋转盖的上表面之间采用圆环形的槽与圆环形的凸缘配合;外壳位于窗口处的上表面与握把的下表面之间也采用圆环形的槽与圆环形的凸缘配合,构成握把和旋转盖与外壳间同轴的转动连接。
  11. 根据权利要求10所述的具有可转动电熨斗的挂烫机,其特征在于:所述的弹性定位机构包括设在旋转盖内孔壁上的至少两个卡窝和固定在本体上的弹片,该弹片的伸缩端卡在任一个上述的卡窝中。
  12. 根据权利要求10所述的具有可转动电熨斗的挂烫机,其特征在于:所述的限位机构包含设在本体上的弧形凹槽和设在旋转盖下表面并探入该弧形凹槽中的限位块,弧形凹槽与该限位块的运动轨迹对应。
  13. 根据权利要求10所述的具有可转动电熨斗的挂烫机,其特征在于:所述的限位机构包含设在导向筒外圆周面上的梯形回转导槽和设在握把上并探入该梯形回转导槽中的限位块;该导向筒经转轴安装在握把上,该梯形回转导槽的两个平行边与导向筒的轴线平行,该限位块在梯形回转导槽两个斜边中运动的轨迹分别对应导向筒相对握把正、反向转动的幅度。
  14. 根据权利要求13所述的具有可转动电熨斗的挂烫机,其特征在于:所述的弹性定位机构包括设在导向筒内的转轴上顶推导向筒的弹簧、设在导向筒梯形回转导槽中上斜边最低点处阻挡握把限位块的定位凸点、导向筒外圆周面下部的滑键和外壳上容纳导向筒及其滑键的导孔;导向筒上的滑键与外壳上导孔的滑键槽配合,使导向筒与本体构成可相互平移且共同转动的连接;该弹簧顶推导向筒使握把的限位块卡在梯形回转导槽下斜边最低点处或上斜边最低点定位凸点处。
  15. 根据权利要求14所述的具有可转动电熨斗的挂烫机,其特征在于:所述的导向筒的上端面设至少两个沿周边连续的“V”形槽,在握把上设有一个杠杆式的按键,该按键的前端顶在导向筒任一个上述的“V”形槽中。
PCT/CN2010/073886 2009-06-16 2010-06-12 可转动的电熨斗及具有可转动电熨斗的挂烫机 WO2010145521A1 (zh)

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CN101922106B (zh) 2012-07-18
US20100313453A1 (en) 2010-12-16

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