ironing machine

By incorporating rectifiers and air guides within the iron, the airflow direction is optimized, solving the problem of excessive noise in irons and achieving quieter and more efficient ironing results.

CN224431066UActive Publication Date: 2026-06-30ZHEJIANG SHAOXING SUPOR DOMESTIC ELECTRICAL APPLIANCE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG SHAOXING SUPOR DOMESTIC ELECTRICAL APPLIANCE CO LTD
Filing Date
2025-07-09
Publication Date
2026-06-30

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Abstract

This application provides an ironing machine, belonging to the field of household appliance technology. The ironing machine includes: a housing with a receiving cavity inside; an ironing panel disposed on the housing; a rectifier disposed within the receiving cavity, and having multiple rectifying holes; and a suction component disposed within the receiving cavity, with the rectifier located between the ironing panel and the air inlet of the suction component. The rectifying holes are configured to guide the gas entering the receiving cavity through the ironing panel to the air inlet under the suction force of the suction component. By providing the rectifier, the flow direction of the gas can be guided and streamlined, reducing the turbulence of the gas flow and thus reducing noise, thereby reducing the noise of the ironing machine.
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Description

Technical Field

[0001] This application relates to the field of household appliance technology, and more particularly to an ironing machine. Background Technology

[0002] An iron is a household appliance used for ironing clothes. It can absorb and iron clothes while they are hanging.

[0003] In related technologies, an ironing machine is equipped with a suction component. When the suction component is running, it draws air from the ironing panel of the ironing machine to make the clothes fit the ironing panel and facilitate ironing.

[0004] However, irons are quite noisy when they are holding clothes in the steamer. Utility Model Content

[0005] This application provides an ironing machine to solve the problem of excessive noise in existing ironing machines.

[0006] In a first aspect, embodiments of this application provide an ironing machine, comprising:

[0007] The housing has a receiving cavity inside;

[0008] Ironing panel, the ironing panel is set on the housing;

[0009] A rectifier is disposed within a receiving cavity and has multiple rectifier holes.

[0010] The suction unit is disposed within the receiving cavity, and the rectifier is located between the ironing panel and the air inlet of the suction unit.

[0011] The rectifier orifice is configured to guide the gas that enters the containment cavity through the ironing panel to the air inlet under the suction force of the suction component.

[0012] Thus, a rectifier with multiple rectifying holes is positioned within the housing cavity, between the ironing panel and the air inlet of the suction unit within the cavity. This creates suction at the ironing panel during operation, allowing air to pass through and enter the cavity. After being rectified by the rectifier holes, the air then enters the suction unit's air inlet. By incorporating the rectifier, the airflow within the cavity is guided and streamlined through the rectifier holes, reducing turbulence and ensuring a smoother flow to the suction unit's air inlet. This improved airflow reduces noise, thereby decreasing the overall noise level of the iron.

[0013] In one possible implementation, the ironing machine provided in this application embodiment further includes air guide ribs, which are disposed in the receiving cavity and located between the ironing panel and the rectifier.

[0014] The air guide ribs are configured to guide the gas entering the containment cavity through the ironing panel to the rectifier hole.

[0015] In this way, the gas flow can be preliminarily guided by the air guide ribs before the gas flows into the rectifier hole, optimizing the stability and directionality of the gas, reducing the degree of gas turbulence, and thus making the airflow of the rectifier more stable.

[0016] In one possible implementation, the ironing machine provided in this application embodiment further includes a filter and guide assembly, which is disposed between the rectifier and the suction component. The filter and guide assembly is used to filter the gas and guide the gas into the air inlet.

[0017] In this way, the filter and airflow guiding component can filter impurities, ensure the cleanliness of the iron's interior, and guide the gas accurately into the air inlet, making the gas flow more orderly.

[0018] In one possible implementation, the ironing machine provided in this application embodiment has a total volume of multiple rectifier holes that is greater than or equal to 5% of the volume of the rectifier and less than or equal to 95% of the volume of the rectifier.

[0019] In this way, it is possible to ensure that enough gas passes through the rectifier while also ensuring that the rectifier has sufficient strength.

[0020] In one possible implementation, the ironing machine provided in this application embodiment has multiple rectifier holes arranged in a circular or rectangular array.

[0021] In this way, turbulent airflow can be divided into multiple smaller and more evenly distributed airflows, avoiding local airflows that are too strong or too weak.

[0022] In one possible implementation, the ironing machine provided in this application embodiment has a housing including a first housing and a second housing connected to the first housing. The second housing is located on the extension line of the extension direction of the first housing. The first housing and the second housing together form a receiving cavity. The ironing panel is located on the first housing, and the rectifier is located at the connection between the first housing and the second housing.

[0023] In this way, different functional components are arranged in separate zones through the first and second housings, avoiding mutual interference between components and making the rectifier easy to disassemble and maintain.

[0024] In one possible implementation, the ironing machine provided in this application embodiment has a first area on the surface of the rectifier facing the ironing panel, and a second area on the cross section of the first housing perpendicular to the direction from the ironing panel to the rectifier. The first area is greater than or equal to 5% of the second area, and the first area is less than or equal to 50% of the second area.

[0025] This ensures that enough gas can pass through the rectifier, and the casing can effectively gather the gas flowing towards the rectifier, thus ensuring the rectifier's rectification effect.

[0026] In one possible implementation, the ironing machine provided in this application embodiment has a first through hole and a second through hole formed at both ends of the first housing, and a third through hole formed at one end of the second housing. The second through hole and the third through hole are connected to form an installation channel. The ironing panel is covered on the first through hole, and the rectifier is disposed in the installation channel.

[0027] This ensures smooth gas flow within the containment chamber and makes the installation of the rectifier more convenient and flexible.

[0028] In one possible implementation, the ironing machine provided in this application embodiment has at least one first positioning part on the rectifier and at least one second positioning part inside the first housing, and the first positioning part and the second positioning part are detachably connected.

[0029] This provides more accurate positioning guidance for the installation of rectifiers within the first housing, improving the installation efficiency of rectifiers.

[0030] In one possible implementation, the ironing machine provided in this application embodiment has one of the first positioning part and the second positioning part as an insert block, and the other as an insertion hole that matches the insert block.

[0031] In this way, the way the plug and the socket fit together is easy to operate, making the disassembly and assembly of the rectifier relatively simple.

[0032] In one possible implementation, the ironing machine provided in this application embodiment has at least one connecting part on the rectifier, and the connecting part is detachably connected to the second housing.

[0033] This further ensures the reliability of the rectifier installation with the first housing and prevents the rectifier from becoming disconnected from the first housing.

[0034] In one possible implementation, the ironing machine provided in this application embodiment has an air outlet on the housing that communicates with the receiving cavity, and the air outlet is used to supply exhaust air to the suction component.

[0035] This creates a complete airflow channel inside the iron, maintaining a stable suction force from the suction components.

[0036] In one possible implementation, the ironing machine provided in this application embodiment further includes a handle housing, which is connected to a second housing, and the handle housing, the first housing, and the second housing together form a receiving cavity.

[0037] In this way, by designing the handle housing, users can more easily hold and operate the iron, improving the comfort of use, further expanding the housing, and realizing the partitioned arrangement of different functional components.

[0038] In one possible implementation, the ironing machine provided in this application embodiment forms a first angle between the extending direction of the handle housing and the extending direction of the second housing.

[0039] This allows the handle's grip angle to match the natural posture of the human hand, improving comfort during prolonged use of the iron.

[0040] In one possible implementation, the ironing machine provided in this application embodiment has a suction component located in the receiving cavity corresponding to the second housing, an air outlet located on the second housing, and the axis of the rectifier and the axis of the suction component located on the same straight line.

[0041] Alternatively, the suction component is located in the corresponding receiving cavity of the handle housing, the air outlet is located on the handle housing, and the axis of the rectifier and the axis of the suction component form a second included angle.

[0042] In this way, the axis of the rectifier and the axis of the suction component are on the same straight line, avoiding the turning and changing direction of the gas during the flow process, and effectively reducing the airflow resistance; the axis of the rectifier and the axis of the suction component form a second included angle, making the overall structure of the ironing machine more compact and avoiding the need to concentrate all the components in the second housing.

[0043] In one possible implementation, the ironing machine provided in this application embodiment has an inlet / outlet hole on the housing, and a filter and drainage component is inserted into the housing through the inlet / outlet hole, with part of the filter and drainage component located in the receiving cavity.

[0044] Thus, the inlet and outlet are located on the upper part of the second housing, and the filter and drainage assembly is inserted into the receiving cavity through the inlet and outlet, which makes disassembly and assembly simple and improves assembly efficiency.

[0045] In one possible implementation, the ironing machine provided in this application embodiment includes a filter and airflow guiding component, which includes a support frame with mounting holes corresponding to the air inlet and multiple guide ribs inside the mounting holes.

[0046] In this way, the support frame provides stable support, and the guide ribs divide and guide the gas, making the air intake of the entire filter and air intake assembly more stable and uniform.

[0047] In one possible implementation, the ironing machine provided in this application embodiment further includes a filter element in the filtering and guiding assembly. The filter element is disposed on the support frame and is located between the rectifier and the guide rib.

[0048] In this way, by using filter elements, impurities can be effectively filtered.

[0049] In one possible implementation, the ironing machine provided in this application embodiment further includes a sealing element in the filter and drainage assembly. The sealing element is disposed on the support frame and is used to seal the gap between the inlet / outlet hole and the support frame.

[0050] In this way, the sealing element blocks the gap, ensuring that the gas must pass through the filter element, thereby improving the filtration quality of the filter diversion assembly.

[0051] In one possible implementation, the ironing machine provided in this application embodiment has a filter element that is at least one of filter cotton and filter screen.

[0052] In this way, different types of filter materials can be used to meet different filtration needs. Attached Figure Description

[0053] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with this application and, together with the description, serve to explain the principles of this application.

[0054] Figure 1 A schematic diagram of the ironing machine provided for the implementation of this application;

[0055] Figure 2 for Figure 1 A partial structural diagram of a medium-sized ironing machine;

[0056] Figure 3 for Figure 2 A structural schematic diagram of a Chinese-style ironing machine from another perspective;

[0057] Figure 4 for Figure 1 Internal structure diagram of a medium-sized ironing machine;

[0058] Figure 5 for Figure 2 Schematic diagram of the intermediate rectifier;

[0059] Figure 6 for Figure 5 Another structural schematic diagram of the intermediate rectifier;

[0060] Figure 7 for Figure 4 Schematic diagram of the middle support frame;

[0061] Figure 8 for Figure 7Another structural schematic diagram of the central support frame;

[0062] Figure 9 for Figure 8 AA section view of the middle support frame.

[0063] Explanation of reference numerals in the attached figures:

[0064] 100 - Housing; 110 - Receiving cavity; 120 - First housing; 121 - First through hole; 122 - Second through hole; 123 - Second positioning part; 130 - Second housing; 131 - Third through hole; 132 - Air outlet; 133 - Inlet / outlet hole; 140 - Handle housing;

[0065] 200-Ironing board;

[0066] 300 - Rectifier; 310 - Rectifier hole; 320 - First positioning part; 330 - Connecting part;

[0067] 400 - Suction component; 410 - Air inlet;

[0068] 500-air guide rib;

[0069] 600 - Filter flow guide assembly; 610 - Support frame; 611 - Mounting hole; 612 - Flow guide rib; 620 - Seal.

[0070] The accompanying drawings illustrate specific embodiments of this application, which will be described in more detail below. These drawings and descriptions are not intended to limit the scope of the concept in any way, but rather to illustrate the concept of this application to those skilled in the art through reference to particular embodiments. Detailed Implementation

[0071] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model. In the absence of conflict, the following embodiments and features can be combined with each other.

[0072] In related technologies, an ironing machine has a housing, an ironing panel, and a suction component installed inside the housing. When the suction component is running, it draws gas from the ironing panel of the ironing machine. The gas flows through the inside of the housing and enters the air inlet of the suction component, thereby forming an adsorption force on the ironing panel. Under the action of the adsorption force, the clothes adhere to the ironing panel, making it easy to iron.

[0073] However, the air flow from the ironing panel to the suction unit is quite turbulent, and the iron is noisy when it picks up clothes.

[0074] To overcome the shortcomings of existing technologies, this application provides an ironing machine. The ironing machine has a rectifier with multiple rectifying holes disposed within a housing cavity, positioned between the ironing panel and the air inlet of the suction unit within the housing cavity. This creates a suction force at the ironing panel during operation, allowing air from the ironing panel to pass through and enter the housing cavity. After being rectified by the rectifier holes, the air then enters the air inlet of the suction unit. By incorporating the rectifier, the airflow direction within the housing cavity is guided and streamlined through the rectifier holes, reducing turbulence and allowing the air to flow more smoothly towards the air inlet of the suction unit. The smoother airflow within the housing cavity reduces noise, thereby reducing the overall noise level of the ironing machine.

[0075] The present invention will now be described in detail with reference to the accompanying drawings, so that those skilled in the art can have a clearer and more detailed understanding of the present invention.

[0076] To facilitate understanding, the application scenarios of the embodiments of this application will be described first.

[0077] The term "clothing" to be ironed by the ironing machine should be interpreted broadly, including but not limited to clothing, trousers, and other items for wearing, as well as fabrics such as curtains, sheets, and duvet covers. This application does not specifically limit this, and will be referred to as "clothing" below without further specific examples.

[0078] Reference Figures 1 to 6 As shown, this application embodiment provides an ironing machine, including:

[0079] The housing 100 has a receiving cavity 110 inside;

[0080] Ironing panel 200, ironing panel 200 is disposed on housing 100;

[0081] A rectifier 300 is disposed within a receiving cavity 110, and a plurality of rectifier holes 310 are provided on the rectifier 300.

[0082] The suction component 400 is disposed in the receiving cavity 110, and the rectifier 300 is located between the ironing panel 200 and the air inlet 410 of the suction component 400.

[0083] The rectifier 310 is configured to guide the gas that enters the receiving cavity 110 through the ironing panel 200 to the air inlet 410 under the suction force of the suction member 400.

[0084] It is understood that the housing 100 has a receiving cavity 110 to accommodate the rectifier 300, the suction component 400 and other related electrical components.

[0085] The ironing panel 200 is disposed on the housing 100, and the ironing panel 200 has a through hole communicating with the receiving cavity 110. The air inlet 410 of the suction member 400 faces the side close to the ironing panel 200, so that when the suction member 400 is running, air can be drawn in from the through hole of the ironing panel 200.

[0086] The rectifier 300 is disposed in the receiving cavity 110 and located between the ironing panel 200 and the air inlet 410 of the suction member 400. The outer side wall of the rectifier 300 is connected to the inner side wall of the housing 100, and multiple rectifier holes 310 are provided on the rectifier 300. Therefore, when the suction member 400 draws gas from the ironing panel 200 into the receiving cavity 110, the gas will pass through the rectifier holes 310 on the rectifier 300 and then flow to the air inlet 410 of the suction member 400.

[0087] The flow direction and flow rate of fluids such as air can be guided, controlled, or redistributed through the rectifier hole 310 on the rectifier 300, thereby changing the flow path of the gas. As a result, when the gas passes through the rectifier hole 310, the flow direction of the gas will be consistent with the extension direction of the rectifier hole 310, which is more neat and smooth, thereby reducing the noise of gas flow.

[0088] Thus, a rectifier 300 with multiple rectifier holes 310 is disposed within the receiving cavity 110 of the housing 100, and positioned between the ironing panel 200 and the air inlet 410 of the suction member 400 within the receiving cavity 110. This creates a suction force at the ironing panel 200 during operation, allowing air from the ironing panel 200 to enter the receiving cavity 110, be rectified by the rectifier holes 310 of the rectifier 300, and then enter the air inlet 410 of the suction member 400. By providing the rectifier 300, the airflow direction within the receiving cavity 110 is guided and streamlined through the rectifier holes 310, reducing turbulence and allowing the air to flow more smoothly and efficiently towards the air inlet 410 of the suction member 400. Because the gas flow in the cavity 110 is smoother, the noise during gas flow is reduced accordingly, thereby reducing the noise of the iron.

[0089] In some embodiments, refer to Figures 1 to 4 As shown, the ironing machine also includes an air guide rib 500, which is disposed in the receiving cavity 110 and located between the ironing panel 200 and the rectifier 300.

[0090] The air guide rib 500 is configured to guide the gas entering the receiving cavity 110 through the ironing panel 200 to the rectifier hole 310.

[0091] By arranging multiple air guide ribs 500 at intervals on the inner wall of the housing 100, and positioning the air guide ribs 500 between the ironing panel 200 and the rectifier 300, the air flow direction can be preliminarily guided by the air guide ribs 500 before the air flows into the rectifier hole 310, thereby optimizing the stability and directionality of the air, reducing the degree of air turbulence, and making the airflow of the rectifier 300 more stable.

[0092] It should be noted that the protrusion height of the air guide rib 500 relative to the inner wall of the housing 100 can be determined according to the space size of the accommodating cavity 110 and the installation requirements of the components inside the accommodating cavity 110. Specifically, the protrusion height of the air guide rib 500 can be set to abut and cooperate with the components installed inside the accommodating cavity 110 so that the air guide rib 500 can effectively guide the gas inside the housing 100, and the airflow and noise reduction effect is good. This application does not limit this.

[0093] In practice, the air guide rib 500 can be set inside the housing 100 near the ironing panel 200 so that the air can be guided by the air guide rib 500 as soon as possible after entering the housing 100, ensuring smooth air flow.

[0094] In some embodiments, the total volume of the plurality of rectifier holes 310 is greater than or equal to 5% of the volume of the rectifier 300 and less than or equal to 95% of the volume of the rectifier 300.

[0095] It is understood that this application does not impose specific limitations on the number of rectifier holes 310, the diameter of a single rectifier hole 310, or the shape of the rectifier hole 310, as long as the gas guiding and combing effect is guaranteed.

[0096] The total volume of the rectifier holes 310 should occupy 5%-95% of the volume of the rectifier 300. When the total volume of the multiple rectifier holes 310 is greater than or equal to 5% of the volume of the rectifier 300, it can ensure that enough gas can pass through the rectifier 300. When the total volume of the multiple rectifier holes 310 is less than or equal to 95% of the volume of the rectifier 300, it ensures that the rectifier 300 itself has a certain structural strength, so as to ensure that the rectifier 300 has sufficient strength to complete the installation and normal operation.

[0097] Furthermore, referring to Figures 3 to 7 As shown, in specific implementation, multiple rectifier holes 310 are arranged in a circular or rectangular array.

[0098] It is understandable that a circular or rectangular array arrangement can ensure that the rectifier holes 310 are evenly distributed on the rectifier 300. When gas passes through these rectifier holes 310, the originally turbulent airflow can be divided into multiple smaller and more evenly distributed airflows, avoiding excessively strong or weak local airflows.

[0099] Furthermore, the circular or rectangular array arrangement of the rectifier holes 310 makes them easier to process and manufacture, thereby reducing the processing difficulty and cost of the rectifier 300.

[0100] In some embodiments, refer to Figures 1 to 4 As shown, the housing 100 includes a first housing 120 and a second housing 130 connected to the first housing 120. The second housing 130 is located on the extension line of the extension direction of the first housing 120. The first housing 120 and the second housing 130 together form a receiving cavity 110. The ironing panel 200 is located on the first housing 120, and the rectifier 300 is located at the connection between the first housing 120 and the second housing 130.

[0101] It is understood that an ironing panel 200 is provided on the first housing 120 so that the corresponding receiving cavity 110 of the first housing 120 can accommodate and install a heating device or steam generating device corresponding to the ironing panel 200.

[0102] The second housing 130 is connected to the first housing 120, and the second housing 130 extends along the first housing 120. This allows the suction member 400 to be disposed within the second housing 130, with its axis parallel to the extending direction of the first housing 120. This facilitates the suction member 400 directly drawing air from the ironing panel 200. In this way, the first housing 120 and the second housing 130 achieve separate arrangements of different functional components, avoiding mutual interference between components.

[0103] The rectifier 300 is disposed between the first housing 120 and the second housing 130 to ensure that the rectifier 300 can be positioned between the ironing panel 200 and the air inlet 410 of the suction component 400, and the rectifier 300 is disposed in this position for easy disassembly and maintenance.

[0104] The rectifier 300 has a first area on the surface facing the ironing panel 200, and the first housing 120 has a second area in a cross section perpendicular to the direction from the ironing panel 200 to the rectifier 300. The first area is greater than or equal to 5% of the second area, and the first area is less than or equal to 50% of the second area.

[0105] By limiting the first area of ​​the rectifier 300 to 5%-50% of the second area of ​​the first housing 120, when the first area is greater than or equal to 5% of the second area, sufficient gas can be ensured to pass through the rectifier 300, avoiding the problem of poor airflow caused by an insufficient gas passage area; and when the first area is less than or equal to 50% of the second area, it helps the rectifier 300 to effectively rectify the gas, and the housing 100 can effectively gather the gas flowing towards the rectifier 300, ensuring the rectification effect of the rectifier 300, and making the gas passing through the rectifier 300 have a more stable and uniform flow state.

[0106] In specific implementation, refer to Figures 1 to 4 As shown, the first housing 120 has a first through hole 121 and a second through hole 122 formed at both ends, and the second housing 130 has a third through hole 131 formed at one end. The second through hole 122 and the third through hole 131 are connected to form an installation channel. The ironing panel 200 is covered on the first through hole 121, and the rectifier 300 is disposed in the installation channel.

[0107] The first through hole 121 and the second through hole 122 of the first housing 120, and the third through hole 131 of the second housing 130 together form a complete gas channel. The second through hole 122 and the third through hole 131 are connected to form an installation channel located within the gas channel. The gas drawn in by the suction member 400 from the ironing panel 200 can enter the interior of the first housing 120 through the first through hole 121, and then sequentially pass through the second through hole 122 and the third through hole 131 into the air inlet 410 of the suction member 400, ensuring smooth gas flow inside the receiving cavity 110.

[0108] The second through hole 122 and the third through hole 131 are nested together, which not only ensures the reliability of the connection between the first housing 120 and the second housing 130, but also allows the first housing 120 to rotate relative to the second housing 130 through the nested structure, making it convenient to store the iron.

[0109] The first housing 120 and the second housing 130 are connected to the third through hole 131 through the second through hole 122 to form an installation channel, which makes the installation of the rectifier 300 more convenient and flexible. The rectifier 300 can be set in the installation channel, and depending on the structure of the first housing 120 and the second housing 130, it can be specifically connected to the first housing 120 or the second housing 130. The installation method is simple and independent, and disassembly and replacement are relatively easy.

[0110] Furthermore, in some embodiments, reference is made to Figures 2 to 6 As shown, the rectifier 300 has at least one first positioning part 320, and the first housing 120 has at least one second positioning part 123. The first positioning part 320 and the second positioning part 123 are detachably connected.

[0111] The first positioning part 320 and the second positioning part 123 provide accurate position guidance for the installation of the rectifier 300 within the first housing 120, improving the installation efficiency of the rectifier 300. Furthermore, the first positioning part 320 and the second positioning part 123 are detachably connected, making the installation process of the rectifier 300 simpler and facilitating its stability within the first housing 120, preventing displacement or shaking.

[0112] In this embodiment, two second positioning parts 123 are arranged opposite each other on the first housing 120 along the horizontal direction, and two first positioning parts 320 corresponding to the second positioning parts 123 are arranged on opposite sides of the rectifier 300. In other embodiments, one or three second positioning parts 123 may be arranged and the first positioning parts 320 may be arranged to correspond to them. This application does not limit this.

[0113] In specific implementation, refer to Figures 2 to 6 As shown, one of the first positioning part 320 and the second positioning part 123 is a plug, and the other is a socket that matches the plug.

[0114] It is understandable that the way the plug and socket are matched is easy to operate, making the assembly and disassembly of the rectifier 300 relatively simple. Furthermore, since the shape and size of the plug and socket are matched, it not only provides precise positioning for the rectifier 300, but also ensures the stability of the fit between the rectifier 300 and the first housing 120 after the plug and socket are inserted.

[0115] In this embodiment, the first positioning part 320 is a plug and the second positioning part 123 is a plug hole. In other embodiments, they can be interchanged, and this application does not limit them.

[0116] In some embodiments, refer to Figures 2 to 6 As shown, the rectifier 300 has at least one connecting portion 330, which is detachably connected to the second housing 130.

[0117] By providing the connecting part 330, the reliability of the installation of the rectifier 300 and the first housing 120 can be further ensured, and the rectifier 300 and the first housing 120 can be prevented from becoming disconnected.

[0118] In specific implementation, four bolt holes are evenly distributed on the periphery of the rectifier 300. The second housing 130 has a pressure plate with through holes or threaded holes corresponding to the bolt holes. The bolt holes serve as connecting parts 330 and are connected to the pressure plate on the second housing 130 by bolts. After connection, the pressure plate abuts against the side of the first housing 120 facing the suction member 400 with the second through hole 122, and the rectifier 300 abuts against the side of the second through hole 122 facing the ironing panel 200, so as to ensure a reliable connection between the first housing 120, the second housing 130 and the rectifier 300.

[0119] Furthermore, in some embodiments, reference is made to Figure 1 , Figure 2 and Figure 4 As shown, the housing 100 has an air outlet 132 that communicates with the receiving cavity 110, and the air outlet 132 is used to supply exhaust air to the suction component 400.

[0120] The suction unit 400 draws in gas from the ironing panel 200. After the gas is rectified by the rectifier 300 and filtered by the filter and guide assembly 600, it can be discharged from the air outlet 132. In this way, the air outlet 132 forms a complete airflow channel inside the ironing machine, maintaining the stable suction force of the suction unit 400.

[0121] In some embodiments, reference is made to Figures 1 to 4 As shown, the housing 100 also includes a handle housing 140, which is connected to the second housing 130. The handle housing 140, the first housing 120, and the second housing 130 together form a receiving cavity 110.

[0122] By designing the handle housing 140, users can more easily hold and operate the iron, improving user comfort.

[0123] The first housing 120, the second housing 130, and the handle housing 140 together form the receiving cavity 110, which can further expand the receiving cavity 110 and allow some components to be placed in the receiving cavity 110 corresponding to the handle housing 140. This achieves the partitioned arrangement of different functional components, so that the various components of the ironing machine can be reasonably arranged in the receiving cavity 110, making the entire ironing machine more compact, easier to store and store, and also reducing the occupation of external space.

[0124] In a specific implementation, a first angle is formed between the extending direction of the handle housing 140 and the extending direction of the second housing 130.

[0125] When ironing clothes, the user holds the handle housing 140 to operate it, and the natural hand posture and direction of force will form a certain angle. The setting of the first angle can be adapted to this natural angle, specifically it can be a right angle or an obtuse angle, so that the grip angle of the handle matches the natural posture of the human hand. During operation, the user's hand does not need to bend or twist excessively, which improves the comfort when using the ironing machine for a long time.

[0126] In some embodiments, refer to Figure 1 , Figure 2 and Figure 4 As shown, the suction component 400 is located in the receiving cavity 110 corresponding to the second housing 130, the air outlet 132 is located on the second housing 130, and the axis of the rectifier 300 and the axis of the suction component 400 are on the same straight line.

[0127] Alternatively, the suction component 400 is located in the receiving cavity 110 corresponding to the handle housing 140, the air outlet 132 is located on the handle housing 140, and the axis of the rectifier 300 and the axis of the suction component 400 form a second included angle.

[0128] It is understandable that when the air outlet 132 is set on the second housing 130, the air outlet 132 can be set on opposite sides of the second housing 130, specifically as a dot matrix arrangement of air outlet holes, and the suction component 400 is correspondingly set inside the second housing 130. At this time, the air outlet side of the suction component 400 corresponds to the air outlet 132, and the axis of the rectifier 300 and the axis of the suction component 400 are on the same straight line. After the gas flows out from the rectifier hole 310 of the rectifier 300, it can directly and smoothly enter the air inlet 410 of the suction component 400, and then be discharged from the air outlet 132. The straight airflow path avoids the turning and changing direction of the gas during the flow process, thereby reducing the collision and friction between the airflow and the internal structure of the housing 100, and effectively reducing the airflow resistance.

[0129] When the suction component 400 is placed in the corresponding receiving cavity 110 of the handle housing 140, the air outlet 132 can be placed on the handle housing 140, specifically at the lower end of the handle housing 140, to avoid the user's grip. At this time, the axis of the rectifier 300 and the axis of the suction component 400 form a second angle, and the specific value of the second angle can be referenced from the first angle. This makes full use of the space of the handle housing 140, making the overall structure of the ironing machine more compact, and avoiding the concentration of all components in the second housing 130, which would result in the second housing 130 being too large and inconvenient for user operation and storage.

[0130] Furthermore, in some embodiments, reference is made to Figure 4 ,as well as Figures 7 to 9As shown, the ironing machine also includes a filter and guide assembly 600, which is disposed between the rectifier 300 and the suction assembly 400. The filter and guide assembly 600 is used to filter the gas and guide the gas into the air inlet 410.

[0131] As is easy to understand, the filter and airflow component 600 can filter the gas, preventing impurities such as lint and fiber debris from entering the suction component 400 and other parts inside the ironing machine along with the gas, thereby ensuring the cleanliness of the ironing machine's interior, reducing damage to the machine caused by the accumulation of impurities, and extending the service life of the ironing machine.

[0132] Meanwhile, the filter and flow guiding component 600 is positioned between the rectifier 300 and the suction component 400 to guide the gas accurately into the air inlet 410, making the gas flow more orderly. This allows the suction component 400 to draw in the gas more efficiently, increasing the gas velocity and flow rate, thereby improving the overall suction performance of the ironing machine.

[0133] Among them, reference Figure 4 As shown, the housing 100 is provided with an inlet hole 133, and the filter drainage assembly 600 is inserted into the housing 100 through the inlet hole 133, and part of the filter drainage assembly 600 is located in the receiving cavity 110.

[0134] The inlet / outlet 133 is located on the upper part of the second housing 130. The filter and flow guiding assembly 600 is inserted into the receiving cavity 110 through the inlet / outlet 133, making disassembly and assembly simple and improving assembly efficiency. After the filter and flow guiding assembly 600 has been used for a period of time, dust, lint and other impurities may accumulate, affecting its filtration and flow guiding effect. Through the inlet / outlet 133, the filter and flow guiding assembly 600 can be easily removed from the second housing 130 for cleaning or replacement without the need for large-scale disassembly of the entire ironing machine, reducing maintenance difficulty and cost, and also extending the service life of the ironing machine.

[0135] Reference Figure 4 ,and Figures 7 to 9 As shown, the filter and airflow guiding assembly 600 includes a support frame 610, on which mounting holes 611 are provided. The mounting holes 611 correspond to the air inlet 410, and multiple guide ribs 612 are provided inside the mounting holes 611.

[0136] The support frame 610 provides stable support for the installation of the filter and air intake assembly 600. It has mounting holes 611 for gas to pass through and facilitates the installation of guide ribs 612 and filter elements. The guide ribs 612 can divide and guide the airflow entering the mounting holes 611, so that the airflow is more evenly distributed in the air inlet 410 area, making the air intake of the entire filter and air intake assembly 600 more stable and uniform.

[0137] Furthermore, the filter guide assembly 600 also includes a filter element, which is disposed on the support frame 610 and located between the rectifier 300 and the guide rib 612.

[0138] The filter element can effectively filter impurities such as lint and fiber debris. The filter element is mounted on the support frame 610, specifically inside the mounting hole 611 and on the side of the guide rib 612 facing the rectifier 300, abutting against the guide rib 612 to ensure stable installation of the filter element.

[0139] By placing the filter element between the rectifier 300 and the guide rib 612, the filter element is placed in a rectified airflow environment, which avoids the situation where some areas are over-filtered and some areas are under-filtered due to airflow turbulence, and makes the filtration of the entire filter element more balanced.

[0140] In practice, the filter element is at least one of filter cotton and filter screen.

[0141] Different types of filter media have different filtration precision to meet different filtration needs. Filter cotton can usually filter larger particles of dust and impurities, while the mesh size of filter screens can be set according to needs to effectively filter particles within a specific size range.

[0142] In addition, in some embodiments, the filter drainage assembly 600 further includes a seal 620 disposed on the support frame 610, which is used to seal the gap between the inlet / outlet port 133 and the support frame 610.

[0143] If there is a gap between the inlet / outlet port 133 and the support frame 610, some unfiltered airflow may bypass the filter element and pass directly through these gaps. The seal 620 can effectively block these gaps, ensuring that all airflow entering the component must pass through the filter element, thereby improving the interception effect of the filter guide assembly 600 on impurities, particulate matter, etc., and ensuring the quality of filtration. In specific implementation, the seal 620 can be a rubber sealing ring.

[0144] It should be noted that the terms "one embodiment," "embodiment," "exemplary embodiment," "some embodiments," etc., mentioned in the specification indicate that the described embodiment may include a specific feature, structure, or characteristic, but not every embodiment necessarily includes that specific feature, structure, or characteristic. Furthermore, such phrases do not necessarily refer to the same embodiment. Moreover, when a specific feature, structure, or characteristic is described in connection with an embodiment, implementing such a feature, structure, or characteristic in conjunction with other embodiments, whether explicitly described or not, is within the knowledge scope of those skilled in the art.

[0145] Generally speaking, terms should be understood at least in part by their use in context. For example, at least in part by context, the term "one or more" as used in the text can be used to describe any feature, structure, or characteristic of the singular meaning, or a combination of features, structures, or characteristics of the plural meaning. Similarly, at least in part by context, terms such as "a" or "the" can also be understood to convey either singular or plural usage.

[0146] It should be readily understood that the terms “on,” “above,” and “on top of” in this application should be interpreted in the broadest possible sense, such that “on” means not only “directly on something” but also “on something” with an intermediate feature or layer therebetween, and that “above” or “on top of” means not only “on something” but also “on something” without an intermediate feature or layer therebetween (i.e., directly on something).

[0147] Furthermore, for ease of explanation, spatially relative terms such as "below," "below," "under," "above," and "above" may be used to describe the relationship of one element or feature relative to other elements or features as shown in the figures. Spatially relative terms are intended to encompass different orientations of the device in use or operation other than those shown in the figures. The device may have other orientations (rotated 90° or in other orientations), and the spatially relative descriptive terms used herein may be interpreted accordingly.

[0148] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this utility model.

Claims

1. An ironing machine, characterized in that, include: The housing (100) has a receiving cavity (110) inside. An ironing panel (200) is disposed on the housing (100); A rectifier (300) is disposed in the receiving cavity (110), and a plurality of rectifier holes (310) are provided on the rectifier (300). A suction member (400) is disposed within the receiving cavity (110), and a rectifier (300) is located between the ironing panel (200) and the air inlet (410) of the suction member (400). The rectifier hole (310) is configured to guide the gas that enters the receiving cavity (110) through the ironing panel (200) to the air inlet (410) under the suction force of the suction member (400).

2. The ironing machine according to claim 1, characterized in that, It also includes an air guide rib (500), which is disposed in the receiving cavity (110) and located between the ironing panel (200) and the rectifier (300); The air guide rib (500) is configured to guide the gas entering the receiving cavity (110) through the ironing panel (200) to the rectifier hole (310).

3. The ironing machine according to claim 1, characterized in that, It also includes a filter guide assembly (600) disposed between the rectifier (300) and the suction member (400), the filter guide assembly (600) being used to filter the gas and guide the gas into the air inlet (410).

4. The ironing machine according to claim 1, characterized in that, The total volume of the plurality of rectifier holes (310) is greater than or equal to 5% of the volume of the rectifier (300) and less than or equal to 95% of the volume of the rectifier (300).

5. The ironing machine according to claim 1, characterized in that, The plurality of the rectifier holes (310) are arranged in a circular or rectangular array.

6. The ironing machine according to any one of claims 1-5, characterized in that, The housing (100) includes a first housing (120) and a second housing (130) connected to the first housing (120). The second housing (130) is located on the extension line of the extension direction of the first housing (120). The first housing (120) and the second housing (130) together form the receiving cavity (110). The ironing panel (200) is located on the first housing (120). The rectifier (300) is located at the connection between the first housing (120) and the second housing (130).

7. The ironing machine according to claim 6, characterized in that, The rectifier (300) has a first area on the surface facing the ironing panel (200), and the first housing (120) has a second area in a cross section perpendicular to the direction from the ironing panel (200) to the rectifier (300). The first area is greater than or equal to 5% of the second area, and the first area is less than or equal to 50% of the second area.

8. The ironing machine according to claim 6, characterized in that, The first housing (120) has a first through hole (121) and a second through hole (122) formed at both ends, and the second housing (130) has a third through hole (131) formed at one end. The second through hole (122) communicates with the third through hole (131) to form an installation channel. The ironing panel (200) is covered on the first through hole (121), and the rectifier (300) is disposed in the installation channel.

9. The ironing machine according to claim 6, characterized in that, The rectifier (300) has at least one first positioning part (320), and the first housing (120) has at least one second positioning part (123), and the first positioning part (320) and the second positioning part (123) are detachably connected.

10. The ironing machine according to claim 9, characterized in that, One of the first positioning part (320) and the second positioning part (123) is a plug, and the other is a socket that matches the plug.

11. The ironing machine according to claim 6, characterized in that, The rectifier (300) has at least one connecting portion (330) which is detachably connected to the second housing (130).

12. The ironing machine according to claim 6, characterized in that, The housing (100) has an air outlet (132) communicating with the receiving cavity (110), and the air outlet (132) is used to exhaust air from the suction component (400).

13. The ironing machine according to claim 12, characterized in that, The housing (100) further includes a handle housing (140), which is connected to the second housing (130). The handle housing (140), the first housing (120), and the second housing (130) together form the receiving cavity (110).

14. The ironing machine according to claim 13, characterized in that, The extension direction of the handle housing (140) forms a first angle with the extension direction of the second housing (130).

15. The ironing machine according to claim 13, characterized in that, The suction component (400) is located in the receiving cavity (110) corresponding to the second housing (130), the air outlet (132) is located on the second housing (130), and the axis of the rectifier (300) and the axis of the suction component (400) are on the same straight line. Alternatively, the suction component (400) is located in the receiving cavity (110) corresponding to the handle housing (140), the air outlet (132) is located on the handle housing (140), and the axis of the rectifier (300) forms a second included angle with the axis of the suction component (400).

16. The ironing machine according to claim 3, characterized in that, The housing (100) is provided with an inlet / outlet hole (133), the filter drainage assembly (600) is inserted into the housing (100) through the inlet / outlet hole (133), and part of the filter drainage assembly (600) is located in the receiving cavity (110).

17. The ironing machine according to claim 16, characterized in that, The filter and airflow guiding assembly (600) includes a support frame (610), on which mounting holes (611) are provided. The mounting holes (611) correspond to the air inlet (410), and multiple guide ribs (612) are provided in the mounting holes (611).

18. The ironing machine according to claim 17, characterized in that, The filter guide assembly (600) further includes a filter element disposed on the support frame (610) and located between the rectifier (300) and the guide rib (612).

19. The ironing machine according to claim 17, characterized in that, The filter drainage assembly (600) further includes a seal (620) disposed on the support frame (610) and is used to seal the gap between the inlet / outlet hole (133) and the support frame (610).

20. The ironing machine according to claim 18, characterized in that, The filter element is at least one of filter cotton and filter screen.