An iron having a liftable handle
With its adjustable handle design and locking mechanism, this device solves the problem of traditional iron handles taking up space, achieving convenient operation and efficient storage, and is suitable for clothing organization.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI FLYCO ELECTRICAL APPLIANCE
- Filing Date
- 2024-09-27
- Publication Date
- 2026-06-09
AI Technical Summary
Traditional irons have a fixed connection between the handle and the body, which takes up a lot of space and is inconvenient to carry and store.
It adopts a height-adjustable handle design, which realizes the vertical movement of the handle through the lifting mechanism, and ensures the stability of the handle in use and storage through the locking mechanism and positioning structure.
It achieves convenient operation when using the handle and saves space when storing, making it easy to carry. Its compact structure also reduces the overall size.
Smart Images

Figure CN224337988U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a clothing sorting device, and more particularly to an iron with a liftable handle. Background Technology
[0002] An iron is a widely used everyday item, primarily used to smooth clothing by pressing it down; examples include steam irons and electric irons. As living standards improve, people have increasingly higher demands for the appearance of their clothing, leading to more frequent use of irons. An iron typically consists of a body and a handle, with the handle attached to the top of the body. Traditionally, the handle is fixed to the body, taking up considerable space, wasting space when not in use, and being inconvenient to carry and store.
[0003] Therefore, there is a need to provide an improved technical solution that addresses the shortcomings of the existing technology. Utility Model Content
[0004] The purpose of this invention is to provide an iron with a height-adjustable handle, which can be raised and lowered for efficient storage, thereby saving space and making it convenient to carry when not in use.
[0005] To achieve the above objectives, this utility model provides the following technical solution:
[0006] An iron with a height-adjustable handle includes an iron body and a handle; the handle is connected to the iron body via a lifting mechanism, allowing the handle to move along the height direction of the iron body; the top of the iron body is provided with an arc-shaped storage groove.
[0007] According to one embodiment of the present invention, the lifting mechanism includes a bushing disposed at the end of the handle and a slide rail assembly disposed within the iron body; both the bushing and the slide rail assembly are arranged along the height direction of the iron body; the slide rail assembly includes a slide rail and a slide rail sleeve, the slide rail is provided with a first slide groove, and the slide rail sleeve is provided with a first slider that slides along the first slide groove; one of the slide rail and the slide rail sleeve is fixedly connected to the inside of the bushing, and the other is fixedly connected to the iron body.
[0008] According to one embodiment of the present invention, the iron body is provided with a locking mechanism, the locking mechanism including a locking plate and a locking plate driving device; the locking plate is slidably disposed in the iron body and can move in a direction perpendicular to the bushing, the bushing having a recessed portion on the side facing the locking plate; an elastic element is provided between the locking plate and the iron body, so that one end of the locking plate is normally located in the recessed portion, and the other end of the locking plate has a driving groove; the locking plate driving device includes a knob disposed on the top of the iron body, the bottom of the knob having a driving rod and a limiting plate; the top of the iron body has a first through groove for the driving rod to pass through, and a second through groove for the limiting plate to pass through; the driving rod is inserted into the driving groove along the height direction of the iron body, so that when the driving rod rotates in the horizontal direction, the locking plate separates from the recessed portion; the bottom end of the limiting plate abuts against the inner side of the top surface of the iron body.
[0009] According to one embodiment of the present invention, the elastic element is a compression spring; the bottom end of the locking plate and the iron body are respectively provided with a first connecting post and a second connecting post, and the two ends of the compression spring are respectively connected to the first connecting post and the second connecting post.
[0010] According to one embodiment of the present invention, the iron body is provided with a guide block, and the guide block is provided with a guide groove for the locking plate to slide.
[0011] According to one embodiment of the present invention, the bottom of the bushing is provided with a positioning plate, the positioning plate extends along the axial direction of the bushing and is provided with positioning protrusions extending to both sides; the iron body is provided with a clamping part located below the positioning plate; the clamping part is provided with two clamps, and the distance between the two clamps is less than the distance between the ends of the two positioning protrusions and greater than the width of the positioning plate.
[0012] According to one embodiment of the present invention, the iron body is provided with a rebound device arranged along the height direction of the iron body, and the top of the rebound device is provided with a rebound rod. By pressing the rebound rod, the rebound rod can be moved between a retracted position and a rebound position. The top of the rebound rod is provided with a pressing frame, and the side of the pressing frame facing the bushing is provided with a second sliding groove arranged along the height direction of the iron body. The bottom end of the bushing is provided with a second slider, which is slidably disposed in the second sliding groove. When the positioning protrusion is located below the clamp and the rebound rod is located in the retracted position, the second slider abuts against the bottom end of the second sliding groove.
[0013] According to one embodiment of the present invention, the recessed portion is arranged circumferentially along the bushing, and the end of the locking plate has a notch corresponding to the shape of the recessed portion.
[0014] According to one embodiment of the present invention, the lifting mechanism is provided at both ends of the handle.
[0015] Compared with the prior art, the advantages and beneficial effects of the embodiments of this utility model are as follows:
[0016] The iron with a height-adjustable handle provided in this embodiment of the utility model can move the handle in the vertical direction (the height direction of the iron body) through the lifting mechanism. Therefore, the handle can be pulled up when in use and pressed down after use, achieving efficient storage and saving space when not in use, making it convenient to carry.
[0017] The iron with a height-adjustable handle provided in this embodiment of the invention can lock the handle in its position using a locking mechanism when it is in use, making it easy for the user to operate. Simply rotating the knob of the locking mechanism will release the handle from its locked position, allowing it to be stored.
[0018] The iron with a height-adjustable handle provided in this embodiment of the invention locks the handle in position using a positioning structure consisting of a positioning plate and a clamping part when the handle is in the retracted state, preventing the handle from retracting. Additionally, a rebound mechanism can be used to apply force when unlocking, preventing damage to the lifting mechanism due to uncontrollable force when pulling the handle upwards. Attached Figure Description
[0019] The accompanying drawings, which form part of this specification, are used to provide a further understanding of this utility model. The illustrative embodiments of this utility model and their descriptions are used to explain this utility model and do not constitute an undue limitation of this utility model. Wherein:
[0020] Figure 1 A schematic diagram of the iron with a height-adjustable handle in use, provided for an embodiment of the present utility model;
[0021] Figure 2 A schematic diagram of the appearance of an iron with a height-adjustable handle in a stored state, provided for an embodiment of this utility model;
[0022] Figure 3 A cross-sectional view of an iron with a height-adjustable handle in use, provided for an embodiment of the present invention.
[0023] Figure 4 for Figure 3 An enlarged schematic diagram of the locking mechanism;
[0024] Figure 5 A cross-sectional view of an iron with a height-adjustable handle in a stowed state, as provided in an embodiment of the present utility model.
[0025] Figure 6A schematic diagram of the connection structure between the handle and the lifting mechanism of an iron with a liftable handle provided for an embodiment of this utility model;
[0026] Figure 7 A schematic diagram of the lifting mechanism of an iron with a liftable handle provided for an embodiment of this utility model;
[0027] Figure 8 A schematic diagram of the installation structure of the locking mechanism of an iron with a liftable handle provided for an embodiment of this utility model;
[0028] Figure 9 An assembly diagram of the locking mechanism of an iron with a liftable handle provided for an embodiment of this utility model;
[0029] Figure 10 A schematic diagram of the top structure of the iron body with a liftable handle provided for an embodiment of this utility model;
[0030] Figure 11 A schematic diagram of the installation structure of the positioning plate and clamping part of an iron with a liftable handle provided for an embodiment of this utility model;
[0031] Figure 12 A schematic diagram of the installation structure of the bouncer of an iron with a height-adjustable handle provided for an embodiment of this utility model.
[0032] Explanation of reference numerals in the attached figures:
[0033] 1. Iron body; 11. First through groove; 111. Second through groove; 12. Guide block; 13. Clamping part; 131. Clamping head; 14. Storage slot; 141. Groove; 2. Handle; 21. Fixing post; 22. Clearance groove; 3. Lifting mechanism; 31. Bushing; 311. Connecting part; 312. Recessed part; 313. Positioning plate; 3131. Positioning protrusion; 314. Second slider; 32. Slide rail Components; 321, slide rail; 3211, first slide groove; 322, slide rail sleeve; 3221, first slider; 33, slide rail connector; 4, locking mechanism; 41, locking plate; 411, drive groove; 42, locking plate drive device; 421, knob; 422, drive rod; 423, limit plate; 43, elastic element; 5, rebounder; 51, rebound rod; 52, pressing frame; 521, second slide groove. Detailed Implementation
[0034] The present invention will now be described in detail with reference to the accompanying drawings and embodiments. Various examples are provided by way of explanation of the present invention and not by way of limitation. In fact, those skilled in the art will recognize that modifications and variations can be made to the present invention without departing from the scope or spirit of the invention. For example, a feature shown or described as part of one embodiment may be used in another embodiment to produce yet another embodiment. Therefore, it is desirable that the present invention encompass such modifications and variations that fall within the scope of the appended claims and their equivalents.
[0035] In the description of this utility model, the terms "first," "second," and similar words do not indicate any order, quantity, or importance, but are only used to distinguish different components. Words such as "comprising" or "including" mean that the element or object preceding the word covers the element or object listed after the word and its equivalents, without excluding other elements or objects. Terms such as "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," and "bottom" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this utility model and do not require that this utility model be constructed and operated in a specific orientation; therefore, they should not be construed as limitations on this utility model. The terms "connected," "linked," and "set up" used in this utility model should be interpreted broadly. For example, they can refer to a fixed connection or a detachable connection; a direct connection or an indirect connection through intermediate components; a wired connection, a radio connection, or a wireless communication signal connection. Those skilled in the art can understand the specific meaning of the above terms according to the specific circumstances.
[0036] like Figure 1 , Figure 2 As shown, this embodiment of the present invention provides an iron with a height-adjustable handle, including an iron body 1 and a handle 2, with the handle 2 located above the iron body 1. The handle 2 is connected to the iron body 1 via a lifting mechanism 3, allowing the handle 2 to move along the height direction of the iron body 1. Because the handle 2 can move vertically (the height direction of the iron body 1) via the lifting mechanism 3, the iron with a height-adjustable handle provided by this embodiment of the present invention can be pulled up during use and pressed down after use, achieving efficient storage, saving space when not in use, making it convenient to carry, and facilitating the expansion of its functions.
[0037] like Figure 3 , Figure 6 , Figure 7As shown, in one embodiment of this utility model, the lifting mechanism 3 includes a bushing 31 disposed at the end of the handle 2 and a slide rail assembly 32 disposed within the iron body 1. Both the bushing 31 and the slide rail assembly 32 are arranged along the height direction of the iron body 1. The slide rail assembly 32 includes a slide rail 321 and a slide rail sleeve 322. The slide rail 321 has a first groove 3211, and the slide rail sleeve 322 has a first slider 3221 that can slide along the first groove 3211. One of the slide rail 321 and the slide rail sleeve 322 is fixedly connected to the inside of the bushing 31, and the other is fixedly connected to the iron body 1. In this embodiment, the slide rail 321 is fixedly connected to the inside of the bushing 31, and the slide rail sleeve 322 is fixedly connected to the iron body 1. Specifically, the top of the bushing 31 has an L-shaped connecting part 311 that extends into the handle 2. Simultaneously, the top of the bushing 31's interior has an L-shaped slide rail connector 33. The tops of the connecting part 311 and the slide rail connector 33 are both fixedly connected to the fixing post 21 inside the handle 2 by screws. The bottom of the slide rail connector 33 is fixedly connected to the slide rail 321 by screws. The slide rail 321 has first grooves 3211 on both sides. The bottom of the slide rail sleeve 322 is fixed inside the iron body 1, and two first sliders 3221 are provided on the side, located within the corresponding first grooves 3211 and capable of sliding vertically along the first grooves 3211. The first grooves 3211 and the first sliders 3221 guide and limit the vertical movement of the bushing 31, preventing it from interfering with other components of the iron body 1 and damaging parts during movement.
[0038] like Figure 3 , Figure 6 , Figure 7 As shown, in order to improve the stability of the handle 2 during lifting, the lifting mechanism 3 is provided at both ends of the handle 2. Preferably, the lifting mechanisms 3 at both ends of the handle 2 are symmetrically arranged to further improve the stability of the handle 2 during lifting.
[0039] like Figures 3-5 , Figures 8-10As shown, in order to fix the position of the handle 2 after it is pulled up to the operating height for easy user operation, in one embodiment of this utility model, the iron body 1 is provided with a locking mechanism 4, which includes a locking plate 41 and a locking plate driving device 42. The locking plate 41 is used to restrict the vertical movement of the bushing 31, and the locking plate driving device 42 is used to drive the locking plate 41 to lock and unlock the bushing 31. Specifically, the locking plate 41 is slidably disposed in the iron body 1 and can move in a direction perpendicular to the bushing 31. The bushing 31 has a recess 312 on the side facing the locking plate 41. When the end of the locking plate 41 facing the bushing 31 is inserted into the recess 312, the vertical movement of the bushing 31 can be restricted, thereby fixing the position of the bushing 31. An elastic element 43 is provided between the locking plate 41 and the iron body 1, so that the end of the locking plate 41 facing the bushing 31 is normally located in the recess 312. The other end of the locking plate 41 is provided with a drive groove 411, the axis of which is vertical. The locking plate drive device 42 includes a knob 421 located on the top of the iron body 1. The bottom of the knob 421 is provided with a drive rod 422 and a limiting plate 423. The top of the iron body 1 is provided with a first through groove 11 through which the drive rod 422 passes, and a second through groove 111 through which the limiting plate 423 passes. The drive rod 422 is inserted into the drive groove 411 along the height direction of the iron body 1, so that when the knob 421 drives the drive rod 422 to rotate in the horizontal direction, the locking plate 41 separates from the recess 312. The limiting plate 423 is inserted into the second through groove 111 and its bottom end abuts against the inner side of the top surface of the iron body 1 to prevent the knob 421 from separating from the iron body 1. When both ends of the handle 2 are provided with the lifting mechanism 3, the bottom of the knob 421 is provided with two drive rods 422, which correspond to the drive grooves 411 of the two locking plates 41 respectively. When the knob 421 is rotated horizontally, the lock plates 41 corresponding to the two drive mechanisms 3 are simultaneously separated from the recessed part 312 by the drive rods 422.
[0040] In this embodiment, during the process of pulling the handle 2 from the stored state (lowest position) to the used state (highest position), the end of the locking plate 41, under the action of the elastic element 43, is always abutting against the bushing 31. When the bushing 31 moves to the used state of the handle 2, the recessed portion 312 on the side of the bushing 31 is opposite to the locking plate 41. Under the action of the elastic element 43, the end of the locking plate 41 inserts into the recessed portion 312, restricting the vertical displacement of the bushing 31, thereby locking the position of the handle 2. When the iron is finished and the handle 2 needs to be stored, the knob 421 is rotated horizontally. The knob 421 drives the drive rod 422 to rotate, and applies a horizontal inward force to the locking plate 41 through the drive groove 411, causing the locking plate 41 to resist the force of the elastic element 43 and move away from the bushing 31, releasing the restriction on the bushing 31. At this time, the handle 2 can move freely vertically, and it can be pressed down for storage.
[0041] like Figure 4 , Figure 8 , Figure 9 As shown, in one embodiment of this utility model, the elastic element 43 between the locking plate 41 and the iron body 1 is a compression spring, which causes the locking plate 41 to normally maintain a tendency to move towards the bushing 31. The bottom end of the locking plate 41 and the iron body 1 are respectively provided with a first connecting post and a second connecting post, and the two ends of the compression spring are respectively sleeved on the first connecting post and the second connecting post.
[0042] like Figure 4 As shown, in order to limit and guide the locking plate 41 during horizontal movement, in one embodiment of this utility model, the iron body 1 is provided with a guide block 12, which has a guide groove for the locking plate 41 to slide. The cross-section of the guide groove corresponds to the cross-section of the locking plate 41, so that it can only move along the length direction of the locking plate 41 and will not move around.
[0043] like Figure 6 , Figure 7 , Figure 11 , Figure 12As shown, in order to fix the handle 2 in its position after it is pressed down to the retracted state (lowest position) and prevent the handle 2 from accidentally sliding upward, the bottom of the bushing 31 is provided with a positioning plate 313. The positioning plate 313 extends axially along the bushing 31 and is provided with positioning protrusions 3131 extending to both sides. The two positioning protrusions 3131 form a positioning structure with a width greater than the width of the positioning plate 313. The iron body 1 is provided with a clamping part 13 located below the positioning plate 313. The clamping part 13 is provided with two clamps 131, and the distance between the two clamps 131 is less than the distance between the ends of the two positioning protrusions 3131 and greater than the width of the positioning plate 313. During the process of pressing the handle 2 from the active state (highest position) to the retracted state (lowest position), the bottom end of the positioning protrusion 3131 first contacts the two clamps 131. Then, due to the downward pressure and the elastic deformation between the two clamps 131, the two positioning protrusions 3131 can pass through the gap between the two clamps 131 and come below the two clamps 131. At this time, the handle 2 is in the retracted state (lowest position). At the same time, since the two clamps 131 are above the two positioning protrusions 3131, when the bushing 31 moves upward, an upward force needs to be applied to it to overcome the elastic force of the two clamps 131, causing elastic deformation between the two clamps 131. Therefore, when no force is applied to the handle 2, the two clamps 131 can restrict the upward movement of the bushing 31, preventing it from accidentally sliding upward.
[0044] In the above embodiment, if an upward force is applied to the handle 2 to release the restriction of the two clamps 131 on the positioning protrusion 3131, the magnitude of the upward force may be uncontrollable, potentially pulling the handle 2 upwards too high and damaging the lifting mechanism 3. To avoid this situation, such as... Figure 3 , Figure 5 , Figure 8 , Figure 11 , Figure 12As shown, in a preferred embodiment of this utility model, the iron body 1 is provided with a rebounder 5 arranged along the height direction of the iron body 1. The rebounder 5 has a rebound rod 51 at its top. By pressing the rebound rod 51, the rebound rod 51 can be moved between the retracted position and the rebound position. The rebounder 5 can be an existing rebounder, and its operating principle is: pressing once realizes the retraction or extension of the rebound rod 51 once, similar to the opening and closing of a button switch. The top of the rebound rod 51 is provided with a pressing frame 52, and the pressing frame 52 has a second sliding groove 521 arranged along the height direction of the iron body 1 on the side facing the bushing 31. The bottom end of the bushing 31 is provided with a second slider 314, which slides within the second sliding groove 521. When the positioning protrusion 3131 is located below the clamp 131 and the rebound rod 51 is in the retracted position, the second slider 314 abuts against the bottom end of the second sliding groove 521. The second slide groove 521 can further guide the bushing 31 during vertical movement, preventing instability in the movement of the bushing 31 caused by relying solely on the guide rail 321 inside the bushing 31. Simultaneously, the second slider 314 can press down on the bottom of the second slide groove 521, thereby pressing down the rebound rod 51, achieving the retraction and rebound of the rebound rod 51. In this embodiment, when pulling the handle 2 from the retracted state (lowest position), there is no need to apply an upward force to the handle 2. Simply pressing the handle 2 down once generates an upward force using the rebounder 5, causing the positioning plate 313 of the bushing 31 to move upward. This overcomes the elastic force of the two clamps 131 on the positioning protrusion 3131, allowing the handle 2 to move freely upward, avoiding the problem of uncontrollable upward force potentially damaging the lifting mechanism 3.
[0045] When the handle 2 is in the use state (highest position), the rebound rod 5 is in the rebound position, and the second slider 314 of the bushing 31 is located at the top of the second slide groove 521. When the handle 2 is pressed down from the use state (highest position) to the storage state (lowest position), rotating the knob 421 releases the locking plate 41 from locking the bushing 31. Under the guidance of the second slider 314 in the second slide groove 521 and the internal slide rail 321, the bushing 31 moves downward accurately and stably along a predetermined trajectory without shaking. When the second slider 314 moves to the bottom of the second groove 521, the two positioning protrusions 3131 begin to contact the two clamps 131. As the handle 2 continues to press down, the positioning protrusions 3131 overcome the elastic force of the two clamps 131 and pass through the gap between them. The positioning protrusions 3131 are located below the two clamps 131. Simultaneously, the second slider 314 presses down on the bottom of the second groove 521, thereby pressing down the rebound rod 51, causing it to be in the retracted position. The entire handle 2 is limited by the positioning protrusions 3131 of the positioning plate 313 of the bushing 31 cooperating with the clamps 131 of the clamping part 13, ensuring that the handle 2 does not retract outwards. The entire handle 2 is concealed within the iron body 1 for storage. Next, to pull the handle 2 back up to the working state, press the handle 2 down once. The rebound device 5 generates an upward force, which drives the positioning plate 313 of the bushing 31 to move upward. This overcomes the elastic force of the two clamps 131 on the positioning protrusion 3131, allowing the handle 2 to move freely upward until it reaches the working state (highest position). At this time, the position of the bushing 31 is locked by the locking plate 41 to ensure that the position of the handle 2 is fixed and can be used normally.
[0046] like Figure 6 , Figure 11 , Figure 12 As shown, to improve the stability of the locking plate 41 when it is in the locking sleeve 31 position and to prevent the sleeve 31 from shaking, the recess 312 is arc-shaped and arranged along the circumference of the sleeve 31. The end of the locking plate 41 has a notch corresponding to the shape of the recess 312. This increases the contact area between the locking plate 41 and the recess 312, thereby improving the stability of the locking plate 41 when it is in the locking sleeve 31 position.
[0047] like Figures 1-4 As shown, to further reduce the volume of the handle 2 after storage, the top of the iron body 1 is provided with a storage groove 14 corresponding to the shape of the handle 2. In this embodiment, both the handle 2 and the storage groove 14 are arc-shaped. When the handle 2 is pressed down to its lowest position, the handle 2 is completely located inside the iron body 1, greatly reducing the overall volume of the iron. To protect the knob 421, the knob 421 is located in a circular groove 141 in the storage groove 14.
[0048] like Figure 3 , Figure 7As shown, in order to prevent the handle 2 from touching the knob 421 during the pressing process and damaging the knob 421, in one embodiment of the present invention, the bottom of the handle 2 is provided with a relief groove 22 corresponding to the knob 421.
[0049] The iron with a height-adjustable handle provided in this embodiment of the utility model has a simple structure. By raising and lowering the handle, the entire product structure becomes more compact and easier to store. With limited parts and low manufacturing costs, it achieves efficient storage function.
[0050] The above description is merely a preferred embodiment of this utility model and is not intended to limit the scope of this utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, or improvements made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. An iron having a liftable handle, characterized in that, It includes an iron body (1) and a handle (2); the handle (2) is connected to the iron body (1) through a lifting mechanism (3), so that the handle (2) can move along the height direction of the iron body (1); the top of the iron body (1) is provided with an arc-shaped storage groove (14).
2. Iron with liftable handle (2) according to claim 1, characterized in that The lifting mechanism (3) includes a bushing (31) at the end of the handle (2) and a slide rail assembly (32) inside the iron body (1); both the bushing (31) and the slide rail assembly (32) are arranged along the height direction of the iron body (1); the slide rail assembly (32) includes a slide rail (321) and a slide rail sleeve (322), the slide rail (321) is provided with a first slide groove (3211), and the slide rail sleeve (322) is provided with a first slider (3221) that slides along the first slide groove (3211); one of the slide rail (321) and the slide rail sleeve (322) is fixedly connected to the inside of the bushing (31), and the other is fixedly connected to the iron body (1).
3. Iron with liftable handle (2) according to claim 2, characterized in that The iron body (1) is provided with a locking mechanism (4), which includes a locking plate (41) and a locking plate driving device (42). The locking plate (41) is slidably disposed in the iron body (1) and can move in a direction perpendicular to the bushing (31). The bushing (31) has a recess (312) on the side facing the locking plate (41). An elastic element (43) is provided between the locking plate (41) and the iron body (1), so that one end of the locking plate (41) is normally located in the recess (312). The other end of the locking plate (41) is provided with a driving groove (411). The locking plate driving device (42) includes a locking plate driven device (42) disposed in the iron body (1). The iron body (1) has a knob (421) at the top, and the bottom of the knob (421) is provided with a drive rod (422) and a limiting plate (423); the top of the iron body (1) is provided with a first through groove (11) for the drive rod (422) to pass through, and a second through groove (111) for the limiting plate (423) to pass through; the drive rod (422) is inserted into the drive groove (411) along the height direction of the iron body (1), so that when the drive rod (422) rotates in the horizontal direction, the locking plate (41) separates from the recess (312); the bottom end of the limiting plate (423) abuts against the inner side of the top surface of the iron body (1).
4. The iron with a height-adjustable handle (2) according to claim 3, characterized in that, The elastic element (43) is a compression spring; the bottom end of the locking plate (41) and the iron body (1) are respectively provided with a first connecting post and a second connecting post, and the two ends of the compression spring are respectively connected to the first connecting post and the second connecting post.
5. The iron with a height-adjustable handle (2) according to claim 3, characterized in that, The iron body (1) is provided with a guide block (12), and the guide block (12) is provided with a guide groove for the locking plate (41) to slide.
6. The iron with a height-adjustable handle (2) according to claim 2, characterized in that, The bushing (31) has a positioning plate (313) at its bottom. The positioning plate (313) extends axially along the bushing (31) and has positioning protrusions (3131) extending to both sides. The iron body (1) has a clamping part (13) located below the positioning plate (313). The clamping part (13) has two clamps (131), and the distance between the two clamps (131) is less than the distance between the ends of the two positioning protrusions (3131) and greater than the width of the positioning plate (313).
7. The iron with a height-adjustable handle (2) according to claim 6, characterized in that, The iron body (1) is provided with a rebounder (5) arranged along the height direction of the iron body (1). The top of the rebounder (5) is provided with a rebound rod (51). By pressing the rebound rod (51), the rebound rod (51) can be moved between the retracted position and the rebound position. The top of the rebound rod (51) is provided with a pressing frame (52). The side of the pressing frame (52) facing the bushing (31) is provided with a second slide groove (521) arranged along the height direction of the iron body (1). The bottom end of the bushing (31) is provided with a second slider (314). The second slider (314) is slidably disposed in the second slide groove (521). When the positioning protrusion (3131) is located below the clamp (131) and the rebound rod (51) is located in the retracted position, the second slider (314) abuts against the bottom end of the second slide groove (521).
8. The iron with a height-adjustable handle (2) according to claim 3, characterized in that, The recess (312) is arranged circumferentially along the bushing (31), and the end of the locking plate (41) has a notch corresponding to the shape of the recess (312).
9. The iron with a height-adjustable handle (2) according to claim 2, characterized in that, The lifting mechanism (3) is provided at both ends of the handle (2).