CN114635274A - Energy-saving ironing system - Google Patents

Abstract

The application relates to the technical field of clothes processing equipment, in particular to an energy-saving ironing system, which comprises a water supply tank, a steam generator and a steam iron, wherein the water supply tank supplies water for the steam generator through a water supply pipe; one end of the secondary steam supply pipe is communicated with the steam-water separator; the third-stage steam supply pipe sleeve is arranged on the periphery of the first-stage steam supply pipe, and the third-stage steam supply pipe is communicated with one end, far away from the steam-water separator, of the second-stage steam supply pipe; one end of the fourth-stage steam supply pipe is communicated with the third-stage steam supply pipe, and the other end of the fourth-stage steam supply pipe is communicated with the steam iron; a water return pipe for returning water is also arranged between the steam-water separator and the water supply tank. The energy consumption of part steam generator for supplying steam can be saved.

Description

Energy-saving ironing system

Technical Field

The application relates to the technical field of clothes processing equipment, in particular to an energy-saving ironing system.

Background

Before the processed clothes are packaged, the clothes need to be ironed to keep the clothes flat and improve the aesthetic feeling of the clothes, so that the selling rate of the clothes can be improved, and workers generally adopt a steam iron system to iron the clothes in a clothes manufacturing factory.

The steam iron system generally comprises a water supply tank, a steam generator and a steam iron, wherein the water supply tank supplies water for the steam generator through a water supply pipe, the steam generator supplies water steam for the steam iron through a steam supply pipe, the water steam is sprayed outwards from the bottom of the steam iron, part of the water steam permeates and is placed in clothes on an ironing table, and the clothes are flattened through ironing of a soleplate of the steam iron so as to finish ironing work.

However, the steam generated by the steam generator has a high moisture content, and during the ironing process, the steam generator is required to continuously heat a large amount of water to supply the steam, which requires a large amount of energy. Therefore, further improvements can be made.

Disclosure of Invention

In order to save energy consumption of part of the steam generator for supplying steam, the application provides an energy-saving ironing system.

The application provides an energy-conserving whole system that scalds adopts following technical scheme:

an energy-saving ironing system comprises a water supply tank, a steam generator and a steam iron, wherein the water supply tank supplies water for the steam generator through a water supply pipe, the steam generator supplies steam for the steam iron through a steam supply pipe, the energy-saving ironing system also comprises a steam-water separator, the steam supply pipe comprises a primary steam supply pipe, a secondary steam supply pipe, a tertiary steam supply pipe and a quaternary steam supply pipe, one end of the primary steam supply pipe is communicated with the steam generator, and the other end of the primary steam supply pipe is communicated with the steam-water separator; one end of the secondary steam supply pipe is communicated with the steam-water separator; the third-stage steam supply pipe sleeve is arranged on the periphery of the first-stage steam supply pipe, and the third-stage steam supply pipe is communicated with one end, far away from the steam-water separator, of the second-stage steam supply pipe; one end of the fourth-stage steam supply pipe is communicated with the third-stage steam supply pipe, and the other end of the fourth-stage steam supply pipe is communicated with the steam iron; a water return pipe for returning water is also arranged between the steam-water separator and the water supply tank; the steam iron is hung through the hanging rack.

Through adopting above-mentioned technical scheme, ironing the working process in, the feed water tank supplies water for steam generator, and steam generator carries out steam-water separation in carrying out steam-water separator through one-level steam supply pipe with the steam that produces, and the steam after being separated supplies the steam pipe through the second grade and carries to tertiary steam supply pipe, and supplies to the steam iron through the level four and in the work of ironing. Meanwhile, the condensed water separated by the steam-water separator is conveyed to the water supply tank again through the water return pipe for reuse. Because the temperature of the separated condensed water is still kept at a higher temperature, the energy consumed by the steam generator for vaporizing the part of the condensed water can be reduced, and the energy-saving effect is achieved.

Optionally, the hanging rack includes a hanging rack, a sliding rack and a hanging rod; the sliding frame is arranged on the hanging frame in a transverse sliding mode, the hanging rod is arranged vertically, and the top of the hanging rod is arranged at the bottom of the sliding frame in a longitudinal sliding mode; the steam iron is rotatably arranged at the bottom of the hanging rod.

Through adopting above-mentioned technical scheme, at the in-process that steam iron carries out work, the workman can move steam iron along transversely and vertically to iron different positions of clothes.

Optionally, the suspension rod comprises a top suspension cylinder, a bottom suspension cylinder and a damping piece; the top hanging cylinder is arranged at the bottom of the sliding frame in a sliding manner; the top of the bottom hanging cylinder is inserted into the bottom of the top hanging cylinder in a sliding manner, and the steam iron is rotatably arranged at the bottom of the bottom hanging cylinder; the damping piece is arranged between the top hanging cylinder and the bottom hanging cylinder and is used for pre-tensioning the bottom hanging cylinder upwards.

By adopting the technical scheme, in the process of working of the steam iron, a worker presses the steam iron downwards, the bottom hanging cylinder slides downwards along the vertical direction relative to the top hanging cylinder, so that the bottom of the steam iron can be pressed against clothes to iron; similarly, when the worker finishes the ironing work and loosens the steam iron, the damping piece prestretches the bottom hanging cylinder upwards, so that the steam iron is suspended, and the worker can conveniently operate the steam iron.

Optionally, the damping piece includes the damping rod, the damping rod is vertical fixed mounting in a top hanging section of thick bamboo outer wall down, just the damping rod tailpiece of the piston rod is fixed in end hanging section of thick bamboo outer wall.

By adopting the technical scheme, when a worker presses the steam iron downwards, the piston rod of the damping rod extends outwards downwards along with the downward movement of the bottom hanging cylinder, so that the steam iron can move downwards; after the worker loosens the steam iron, the damping rod can automatically pull the bottom hanging barrel upwards to ascend so as to hang the steam iron.

Optionally, the damping piece includes a damping tension spring, the damping tension spring is installed in the top hanging cylinder, the top of the damping tension spring is fixed on the top hanging cylinder, and the bottom of the damping tension spring is fixed on the top of the bottom hanging cylinder.

By adopting the technical scheme, when a worker presses the steam iron downwards, the damping tension spring stretches along with the downward movement of the bottom hanging cylinder, so that the steam iron can move downwards; after the worker loosens the steam iron, the damping tension spring can automatically pull the bottom hanging barrel upwards to ascend so as to hang the steam iron.

Optionally, an installation seat is fixed on the outer wall of the top hanging cylinder, a damping seat is vertically slidably arranged on the installation seat, and the damping rod is installed on the damping seat; and the mounting seat is provided with an adjusting unit for adjusting the damping seat to slide and adjust along the vertical direction.

Through adopting above-mentioned technical scheme, at the in-process of this energy-conserving whole system that scalds of installation, the workman can adjust the damping seat through the adjusting element and slide along vertical regulation to adjust steam iron's initial position, in order to find steam iron's suitable height of hanging.

Optionally, the mounting seat is provided with an adjusting sliding groove extending vertically, and the damping seat is slidably mounted in the adjusting sliding groove; the adjusting unit comprises an adjusting screw rod, an adjusting handle and a locking screw; the adjusting screw rod is vertically and rotatably arranged in the adjusting sliding groove, and the top of the adjusting screw rod penetrates through the top of the mounting seat; the adjusting handle is fixedly arranged at the top of the adjusting screw rod, and the locking screw is used for locking the adjusting screw rod; the damping seat is in threaded connection with the adjusting screw rod.

Through adopting above-mentioned technical scheme, the workman rotates adjusting screw through adjustment handle, makes adjusting screw can drive the damping seat and carries out sliding adjustment along adjusting the spout to adjust the mounted position of damping rod, thereby adjust the initial mounted position of steam iron.

Optionally, the damping seat is provided with a retraction hole in an inverted T shape, a connection bolt and a pre-ejection spring for ejecting the threaded end of the connection bolt out of the retraction hole are slidably arranged in the retraction hole, and the connection bolt can be fully retracted into the retraction hole; the damping rod is fixedly provided with a connecting seat, and the connecting seat is provided with a connecting hole for the connecting bolt to penetrate through.

By adopting the technical scheme, in the process of installing the damping rod, a worker firstly supports the connecting seat on the damping rod on the damping seat, and at the moment, the connecting seat presses the connecting bolt to be completely retracted into the retraction hole, so that the damping rod can be supported on the damping seat through the connecting seat; then moving the damping rod, and ejecting the connecting bolt by a pre-ejection spring when the connecting hole is adjusted to be aligned with the connecting bolt, so that the threaded end of the connecting bolt penetrates through the connecting hole; and finally, locking the connecting bolt through a connecting nut so as to fixedly install the damping rod on the damping seat.

Optionally, the bottom of the top hanging cylinder is open, the bottom and the top of the bottom hanging cylinder are both open, the bottom of the bottom hanging cylinder is rotatably connected with a rotary cylinder, and the steam iron is fixedly mounted at the bottom of the rotary cylinder; the air draft mechanism is arranged on the hanging rod and comprises an air draft cover, an air inlet pipe and an air outlet pipe; the exhaust hood is covered and arranged on the periphery of the steam iron, and the exhaust hood is fixedly arranged on the rotary cylinder; one end of the air inlet pipe is communicated with the air draft cover, the other end of the air inlet pipe is communicated with the rotary cylinder, one end of the air outlet pipe is communicated with the top hanging cylinder, and the other end of the air outlet pipe is used for communicating an external exhaust fan.

Through adopting above-mentioned technical scheme, at the in-process of steam iron work, steam iron produced can be discharged by the suction of outside air exhauster, air-supply line, end hanging barrel, top hanging barrel and air-out pipe in proper order to reduce flatiron operational environment's temperature.

Optionally, the suction hood is further adhered with absorbent paper.

Through adopting above-mentioned technical scheme, owing to be provided with absorbent paper, at steam through exhaust hood by the suction to the air-supply line in-process, absorbent paper can carry out the water absorption to the moisture in the steam and handle.

In summary, the present application includes at least one of the following beneficial technical effects:

in the ironing process, the water supply tank supplies water for the steam generator, the steam generator conveys the generated steam into the steam-water separator through the first-stage steam supply pipe for steam-water separation, the separated steam is conveyed to the third-stage steam supply pipe through the second-stage steam supply pipe, and the steam is supplied into the steam iron through the fourth-stage steam supply pipe for ironing. Meanwhile, the condensed water separated by the steam-water separator is conveyed to the water supply tank again through the water return pipe for reuse. Because the temperature of the separated condensed water is still kept at a higher temperature, the energy consumed by the steam generator for vaporizing the part of the condensed water can be reduced, so that the energy-saving effect is achieved;

when a worker presses the steam iron downwards, the damping tension spring stretches along with the downward movement of the bottom hanging cylinder, so that the steam iron can move downwards; when a worker loosens the steam iron, the damping tension spring can automatically pull the bottom hanging barrel upwards to ascend so as to hang the steam iron;

in the process of installing the damping rod, a worker firstly supports the connecting seat on the damping rod on the damping seat, and at the moment, the connecting seat presses the connecting bolt to be completely retracted into the retraction hole, so that the damping rod can be supported on the damping seat through the connecting seat; then moving the damping rod, and ejecting the connecting bolt by a pre-ejection spring when the connecting hole is adjusted to be aligned with the connecting bolt, so that the threaded end of the connecting bolt penetrates through the connecting hole; and finally, locking the connecting bolt through a connecting nut so as to fixedly install the damping rod on the damping seat.

Drawings

Fig. 1 is a schematic view of the overall structure of embodiment 1 of the present application.

Fig. 2 is a first view showing the overall structure of the hanger.

Fig. 3 is a second view showing the overall structure of the hanger.

Fig. 4 is a view for showing the overall structure of the hanger bar.

Fig. 5 is a view for showing a connection relationship between the damping rod and the damping mount.

Fig. 6 is a view for showing the damper in embodiment 2 of the present application.

Description of reference numerals:

1. a hanger; 11. a hanging seat; 12. a hanger plate; 2. a carriage; 21. a cross bar; 22. a longitudinal bar; 23. a transverse slide rail; 24. a longitudinal slide rail; 3. a boom; 31. a top hanging cylinder; 32. a bottom suspension cylinder; 33. a damping member; 331. a damping lever; 332. a damping tension spring; 34. a mounting seat; 341. adjusting the sliding chute; 35. a damping seat; 351. retracting the hole; 352. a connecting bolt; 353. pre-jacking a spring; 354. a connecting seat; 355. a connecting nut; 36. an adjustment unit; 361. adjusting the screw rod; 362. an adjusting handle; 363. locking the screw; 364. a locking sleeve; 4. a rotary drum; 51. an air draft cover; 52. an air inlet pipe; 53. an air outlet pipe; 100. a water supply tank; 200. a steam generator; 300. a steam iron; 400. a water supply pipe; 501; a primary steam supply pipe; 502; a secondary steam supply pipe; 503; a third-stage steam supply pipe; 504. a four-stage steam supply pipe; 600. a steam-water separator; 700. an ironing table; 800. a water return pipe; 900. a hanging frame.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses an energy-saving ironing system.

Example 1:

referring to fig. 1, the energy saving ironing system includes a water supply tank 100, a steam generator 200, and a steam iron 300; wherein the water supply tank 100 is communicated with the steam generator 200 through a water supply pipe 400, so that the water supply tank 100 can supply water to the steam generator 200 through the water supply pipe 400; a steam supply pipe is installed between the steam generator 200 and the steam iron 300, and the steam generator 200 supplies water steam to the steam iron 300 through the water supply pipe 400.

Specifically, in the present embodiment, a steam-water separator 600 is installed between the steam generator 200 and the steam iron 300. The water supply pipe 400 includes a first-stage steam supply pipe 501, a second-stage steam supply pipe 502, a third-stage steam supply pipe 503, and a fourth-stage steam supply pipe 504; wherein, one end of the primary steam supply pipe 501 is communicated with the steam generator 200, and the other end is communicated with the steam-water separator 600; the third-stage steam supply pipe 503 is sleeved on the periphery of the first steam supply pipe, and two ends of the third-stage steam supply pipe 503 are sealed and fixed on the outer wall of the first steam supply pipe; the secondary steam supply pipe 502 is arranged between the steam-water separator 600 and the tertiary filter pipe, one end of the secondary steam supply pipe 502 is communicated with the steam-water separator 600, and the other end is communicated with the tertiary steam supply pipe 503; the fourth-stage steam supply pipe 504 is a hose, the fourth-stage steam supply pipe 504 is installed between the third-stage steam supply pipe 503 and the steam iron 300, and one end of the fourth-stage steam supply pipe 504 is communicated with the third-stage steam supply pipe 503 while the other end is communicated with the steam iron 300. A water return pipe 800 is installed between the steam-water separator 600 and the water supply tank 100, and one end of the water return pipe 800 is communicated with the water supply tank 100 and the other end is communicated with the steam-water separator 600.

During the ironing process, the water supply tank 100 supplies water to the steam generator 200, the steam generator 200 delivers the generated steam into the steam-water separator 600 through the first-stage steam supply pipe 501 for steam-water separation, and the separated steam is delivered into the third-stage steam supply pipe 503 through the second-stage steam supply pipe 502 and delivered into the steam iron 300 through the fourth-stage steam supply pipe 504 for ironing. Meanwhile, the condensed water separated by the steam-water separator 600 is re-delivered into the water supply tank 100 through the return pipe 800 to be reused. Since the temperature of the separated condensed water is maintained at a high temperature, energy consumed by the steam generator 200 to vaporize the condensed water can be reduced, thereby achieving an energy saving effect.

Referring to fig. 1 and 2, in particular, in the present embodiment, a hanging frame 900 is installed at the position of the ironing table 700; the hanging rack 900 includes a hanger 1, a carriage 2 and a hanger rod 3, and the hanger 1 is supported and installed on the ground, the carriage 2 is installed on the hanger 1, the hanger rod 3 is installed at the bottom of the carriage 2, and the steam iron 300 is installed at the bottom of the hanger rod 3.

Referring to fig. 2 and 3, in particular, in the present embodiment, the hanger 1 includes a hanger base 11 and a hanger plate 12; wherein, the hanging seat 11 is fixedly arranged on the ground; the hanger plate 12 is horizontally arranged, and the hanger plate 12 is fixedly installed at the top of the hanger 11.

The carriage 2 comprises two transverse bars 21 and a longitudinal bar 22 mounted between the two transverse bars 21; wherein, two horizontal poles 21 set up along longitudinal interval, and every horizontal pole 21 all along horizontal extension. The vertical rod 22 is installed between the two cross rods 21, the vertical rod 22 extends along the longitudinal direction, and two ends of the vertical rod 22 are respectively welded and fixed to the two cross rods 21.

Two transverse sliding rails 23 are fixed on the bottom surface of the hanging plate 12, the two transverse sliding rails 23 are arranged at intervals along the longitudinal direction, and each transverse sliding rail 23 extends along the transverse direction. Each lateral slide rail 23 is provided with a set of lateral slides in a sliding manner, in this embodiment, the number of the lateral slides is two, and in other embodiments, the number of the lateral slides may be three, four, or the like. The two cross bars 21 are respectively arranged corresponding to the two transverse sliding rails 23 one by one, and two transverse sliding seats in the same group of transverse sliding seats are respectively fixed at two ends of the corresponding cross bars 21, so that the sliding frame 2 can slide along the longitudinal direction.

The bottom of the longitudinal rod 22 is fixedly provided with a longitudinal slide rail 24, and the longitudinal slide rail 24 extends along the length direction of the longitudinal rod 22. The longitudinal slide rail 24 is provided with a longitudinal slide base in a sliding manner, and the top of the suspender 3 is fixed on the longitudinal slide base, so that the suspender 3 can slide along the longitudinal direction through the longitudinal slide base.

During operation of the steam iron 300, a worker can move the steam iron 300 in the lateral direction as well as in the longitudinal direction to iron different locations of a garment.

Referring to fig. 2 and 4, in particular, in the present embodiment, the boom 3 includes a top hanging cylinder 31, a bottom hanging cylinder 32, and a damper 33; wherein, the bottom ends of the top hanging cylinders 31 are all in an open shape, and the top of the top hanging cylinders 31 are fixed on the longitudinal sliding base; the two ends of the bottom hanging cylinder 32 are both open, and the outer contour of the top of the bottom hanging cylinder 32 is matched with the inner contour of the bottom of the top hanging cylinder 31, so that the top of the bottom hanging cylinder 32 can be slidably inserted into the top hanging cylinder 31, the whole length of the hanger rod 3 can be adjusted, and the steam iron 300 can be moved vertically.

Specifically, in the present embodiment, the damping member 33 includes a damping rod 331; the damping rod 331 is arranged vertically downwards, the damping rod 331 is installed on the outer wall of the top hanging cylinder 31, and the piston rod end of the damping rod 331 is fixed on the bottom hanging cylinder 32 so as to pretension the bottom hanging cylinder 32.

When a worker presses the steam iron 300 downward, the piston rod of the damping rod 331 extends downward with the downward movement of the bottom hanging cylinder 32, so that the steam iron 300 can move downward; similarly, when the worker releases the steam iron 300, the damping rod 331 can automatically pull the bottom hanging cylinder 32 upward to lift the steam iron 300, so as to suspend the steam iron 300, thereby facilitating the worker to operate the steam iron 300. Meanwhile, when the worker loosens the steam iron 300 due to dozing, the damper can automatically pull the steam iron to ascend and hang, so that the steam iron 300 is not easy to have accidents such as fire disasters due to long-time clothes ironing, and the accident probability is reduced.

Referring to fig. 4, in particular, in the present embodiment, the top hanging cylinder 31 is provided with a mounting seat 34, a damping seat 35 and an adjusting unit 36; wherein, mount pad 34 fixed mounting hangs a section of thick bamboo 31 outer wall in the top, and mount pad 34 deviates from a section of thick bamboo 31 one side and has seted up regulation spout 341, and adjusts spout 341 along vertical extension. Damping seat 35 slides and sets up in adjusting spout 341, and damping pole 331 fixed mounting is in damping seat 35, makes damping pole 331 can be through damping seat 35 along vertical sliding adjustment.

Specifically, the adjusting unit 36 includes an adjusting screw 361, an adjusting handle 362 and a locking screw 363; wherein, adjusting screw 361 is vertically installed in adjusting chute 341, and adjusting screw 361 and damping seat threaded connection. The bottom end of the adjusting screw 361 is rotatably connected with the bottom of the adjusting chute 341, the top end of the adjusting screw 361 is rotatably connected with the top of the adjusting chute 341, and the top end of the adjusting screw 361 penetrates out of the top of the mounting seat 34. An adjusting handle 362 is arranged at the top of the adjusting screw 361 so as to rotatably adjust the adjusting screw 361; the top of the mounting seat 34 is integrally formed with a locking sleeve 364, the top of the adjusting screw 361 simultaneously penetrates through the locking sleeve 364, and the locking screw 363 is threadedly connected to the locking sleeve 364.

In the process of installing the energy-saving ironing system, a worker rotates and adjusts the adjusting screw 361 through the adjusting handle 362, so that the adjusting screw 361 can drive the damping seat 35 to slide and adjust along the adjusting sliding groove 341 to adjust the installation position of the damping rod 331, and then the initial installation position of the steam iron 300 is adjusted to find out the proper hanging height of the steam iron 300. Meanwhile, after the hanging height position of the steam iron 300 is adjusted, the locking screw 363 is tightened to fix the position of the damping seat 35.

Referring to fig. 4 and 5, specifically, in this embodiment, two retraction holes 351, each of which is in an inverted "T" shape, are formed at the top of the damping seat 35, and the two retraction holes 351 are spaced apart from each other. A connecting bolt 352 is slidably disposed in each retraction hole 351, a threaded end of the connecting bolt 352 faces upward, and the total height of the connecting bolt 352 is smaller than the depth of the retraction hole 351. Each retraction hole 351 is internally provided with a pre-jacking spring 353, the bottom of the pre-jacking spring 353 is supported on the bottom surface of the retraction hole 351, and the top of the pre-jacking spring 353 is supported on the bottom of the connecting bolt 352 so as to eject the threaded end of the connecting bolt 352 out of the retraction hole 351. Correspondingly, two connecting seats 354 are fixedly mounted on the damping rod 331, and the two connecting seats 354 and the two connecting bolts 352 are arranged in a one-to-one corresponding manner. Each connecting seat 354 is provided with a connecting hole, and the connecting holes vertically penetrate through the connecting seats 354. The distance between two connecting holes is the same as the distance between two connecting bolts 352, and the aperture of each connecting hole is larger than the outer diameter of the threaded end of the connecting bolt 352.

In the process of installing the damping rod 331, a worker first supports the connecting seat 354 on the damping rod 331 on the damping seat 35, and at this time, the connecting seat 354 presses the connecting bolt 352 to be completely retracted into the retraction hole 351, so that the damping rod 331 can be supported on the damping seat 35 through the connecting seat 354; then, the damping rod 331 is moved, and when the connection hole is adjusted to be aligned with the connection bolt 352, the pre-jacking spring 353 ejects the connection bolt 352 to enable the threaded end of the connection bolt 352 to penetrate through the connection hole; finally, the coupling bolt 352 is tightened by the coupling nut 355 to fixedly mount the damping rod 331 to the damping mount 35.

Referring to fig. 4, in the embodiment, a bearing is embedded and fixed in the bottom of the bottom hanging cylinder 32, the rotary cylinder 4 is fixed to the inner ring of the bearing in an inserting manner, and both ends of the rotary cylinder 4 are open. The steam iron 300 is fixedly mounted to the spin basket 4 such that the steam iron 300 can be rotated about the bottom hanging basket 32 to iron garments from different angles.

In this embodiment, the suspension rod 3 is further provided with an air draft mechanism, and the air draft mechanism includes an air draft cover 51, an air inlet pipe 52 and an air outlet pipe 53; the air draft housing 51 is installed to cover the periphery of the steam iron 300, and the air draft housing 51 is fixed to the spin basket 4 so that the air draft housing 51 can rotate with the steam iron 300. The air inlet pipe 52 is installed between the air draft cover 51 and the rotary drum 4, and one end of the air inlet pipe 52 is communicated with the air draft cover 51 and the other end is communicated with the rotary drum 4. The air outlet pipe 53 is fixedly installed on the top hanging barrel 31, one end of the air outlet pipe 53 is communicated with the top hanging barrel 31, and the other end is connected with an external exhaust fan.

During the operation of the steam iron 300, the hot air generated by the steam iron 300 can be exhausted by the external exhaust fan through the exhaust hood 51, the air inlet pipe 52, the bottom hanging cylinder 32, the top hanging cylinder 31 and the air outlet pipe 53 in sequence, so as to reduce the temperature of the operating environment of the iron.

In this embodiment, a water absorbing paper is adhered inside the air draft cover 51, and the water absorbing paper can absorb water from the hot air when the hot air is sucked into the air inlet duct 52 through the air draft cover 51.

Example 2:

referring to fig. 6, the present embodiment is different from embodiment 1 in that the damper 33 is different in structure. Specifically, in the present embodiment, the damping member 33 includes a damping tension spring 332; the damping tension spring 332 is installed in the top hanging cylinder 31, and the top of the damping tension spring 332 is fixed on the top hanging cylinder 31 and the bottom is fixed on the top of the bottom hanging cylinder 32.

When the worker presses the steam iron 300 downward, the damping tension spring 332 is stretched along with the downward movement of the bottom hanging cylinder 32, so that the steam iron 300 can move downward; when the worker releases the steam iron 300, the damping tension spring 332 can automatically pull the bottom hanging cartridge 32 upward to lift up to hang the steam iron 300.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. An energy efficient ironing system comprising a water supply tank (100), a steam generator (200) and a steam iron (300), the water supply tank (100) supplying water to the steam generator (200) through a water supply pipe (400), the steam generator (200) supplying steam to the steam iron (300) through a steam supply pipe, characterized in that: the steam-water separator (600) is further included, the steam supply pipe comprises a first-stage steam supply pipe (501), a second-stage steam supply pipe (502), a third-stage steam supply pipe (503) and a fourth-stage steam supply pipe (504), one end of the first-stage steam supply pipe (501) is communicated with the steam generator (200), and the other end of the first-stage steam supply pipe is communicated with the steam-water separator (600); one end of the secondary steam supply pipe (502) is communicated with the steam-water separator (600); the three-stage steam supply pipe (503) is sleeved on the periphery of the first-stage steam supply pipe (501), and the three-stage steam supply pipe (503) is communicated with one end, away from the steam-water separator (600), of the second-stage steam supply pipe (502); one end of the four-stage steam supply pipe (504) is communicated with the three-stage steam supply pipe (503), and the other end is communicated with the steam iron (300); a water return pipe (800) for returning water is also arranged between the steam-water separator (600) and the water supply tank (100); the steam iron (300) is suspended by a hanger (900).

2. The energy efficient ironing system according to claim 1, wherein: the hanging frame (900) comprises a hanging frame (1), a sliding frame (2) and a hanging rod (3); the sliding frame (2) is arranged on the hanging bracket (1) in a transverse sliding mode, the hanging rod (3) is arranged vertically, and the top of the hanging rod (3) is arranged at the bottom of the sliding frame (2) in a longitudinal sliding mode; the steam iron (300) is rotatably arranged at the bottom of the hanger rod (3).

3. The energy efficient ironing system according to claim 2, wherein: the suspension rod (3) comprises a top suspension cylinder (31), a bottom suspension cylinder (32) and a damping piece (33); the top hanging cylinder (31) is arranged at the bottom of the sliding frame (2) in a sliding manner; the top of the bottom hanging cylinder (32) is inserted into the bottom of the top hanging cylinder (31) in a sliding manner, and the steam iron (300) is rotatably arranged at the bottom of the bottom hanging cylinder (32); the damping piece (33) is installed between the top hanging barrel (31) and the bottom hanging barrel (32), and the damping piece (33) is used for pre-pulling the bottom hanging barrel (32) upwards.

4. The energy efficient ironing system according to claim 3, wherein: the damping piece (33) comprises a damping rod (331), the damping rod (331) is vertically and downwards fixedly mounted on the outer wall of the top hanging cylinder (31), and the piston rod end of the damping rod (331) is fixed on the outer wall of the bottom hanging cylinder (32).

5. The energy efficient ironing system according to claim 3, wherein: damping piece (33) are including damping extension spring (332), damping extension spring (332) are installed in a hanging section of thick bamboo (31) on the top, just damping extension spring (332) top is fixed in a hanging section of thick bamboo (31) on the top, and the bottom is fixed in end and hangs a section of thick bamboo (32) top.

6. The energy efficient ironing system according to claim 4, wherein: an installation seat (34) is fixed on the outer wall of the top hanging barrel (31), a damping seat (35) is arranged on the installation seat (34) in a vertical sliding mode, and the damping rod (331) is installed on the damping seat (35); and an adjusting unit (36) used for adjusting the damping seat (35) to perform sliding adjustment along the vertical direction is arranged on the mounting seat (34).

7. The energy efficient ironing system according to claim 6, wherein: the mounting seat (34) is provided with an adjusting sliding groove (341) extending vertically, and the damping seat (35) is slidably mounted in the adjusting sliding groove (341); the adjusting unit (36) comprises an adjusting screw rod (361), an adjusting handle (362) and a locking screw (363); the adjusting screw rod (361) is vertically and rotatably arranged in the adjusting sliding groove (341), and the top of the adjusting screw rod (361) penetrates through the top of the mounting seat (34); the adjusting handle (362) is fixedly arranged at the top of the adjusting screw rod (361), and the locking screw (363) is used for locking the adjusting screw rod (361); the damping seat (35) is in threaded connection with the adjusting screw rod (361).

8. The energy efficient ironing system according to claim 7, wherein: the damping seat (35) is provided with an inverted T-shaped retraction hole (351), a connecting bolt (352) and a pre-jacking spring (353) for jacking the threaded end of the connecting bolt (352) out of the retraction hole (351) are arranged in the retraction hole (351) in a sliding mode, and the connecting bolt (352) can be completely retracted into the retraction hole (351); the damping rod (331) is fixedly provided with a connecting seat (354), and the connecting seat (354) is provided with a connecting hole for a connecting bolt (352) to penetrate through.

9. An energy efficient ironing system according to claim 4 or 5, characterized in that: the bottom of the top hanging cylinder (31) is open, the bottom and the top of the bottom hanging cylinder (32) are both open, the bottom of the bottom hanging cylinder (32) is rotatably connected with a rotary cylinder (4), and the steam iron (300) is fixedly arranged at the bottom of the rotary cylinder (4); an air draft mechanism is arranged on the hanger rod (3), and comprises an air draft cover (51), an air inlet pipe (52) and an air outlet pipe (53); the air draft cover (51) is covered and arranged on the periphery of the steam iron (300), and the air draft cover (51) is fixedly arranged on the rotary cylinder (4); one end of the air inlet pipe (52) is communicated with the air draft cover (51), the other end of the air inlet pipe is communicated with the rotary cylinder (4), one end of the air outlet pipe (53) is communicated with the top hanging cylinder (31), and the other end of the air outlet pipe is used for communicating an external exhaust fan.

10. The energy efficient ironing system according to claim 9, wherein: and water absorption paper is also adhered in the draught hood (51).

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