CN211155427U - Foldable handle and cooker - Google Patents

Abstract

The utility model provides a collapsible handle and pan. The utility model discloses a foldable handle, including rotatable coupling's handle (11) and handle seat (12), wear to be equipped with axis of rotation (111) and central axle (112) on the handle, be provided with first spout (121) and second spout (122) on handle seat (12), axis of rotation (111) and central axle (112) slidable respectively set up in first spout and second spout; a movable stop piece (13) is arranged in the first sliding chute and/or the second sliding chute, and the stop piece has a locking position and an unlocking position; the first sliding groove comprises a translation section (1211), an opening (1211a) is formed in the middle of the translation section, and after the rotating shaft is separated from the translation section through the opening, the rotating shaft rotates around the central shaft. The utility model discloses a stability and the security of collapsible handle are better, can reduce the possibility of the pan of turning over that the maloperation leads to.

Description

Foldable handle and cooker

Technical Field

The utility model relates to a cooking utensil technical field especially relates to a collapsible handle and pan.

Background

The pan can be used for frying food, and can also realize other different cooking methods such as steaming, stewing, frying and the like, and is one of the main cooking tools in the current household kitchen.

In order to facilitate the storage of the cookware, the cookware with the foldable handle is generally designed, and the handle is folded to reduce the occupied space of the handle when the cookware is stored. Specifically, in the existing cookware with a foldable handle, a handle seat is fixed on the outer wall of a pan body, a groove is arranged on the handle seat, one end of the handle is connected with the groove through a hinge or a rotating shaft, so that the handle can rotate relative to the handle seat, and the other end of the handle is a free end; the one end that handle and handle seat are connected is provided with the spacer, is provided with toggle switch on the handle, and translation forward can make the spacer insert the recess in realize the location of handle and the pot body through toggle switch, perhaps breaks away from the screens with toggle switch translation backward, realizes the rotation of handle folding.

However, when fixing the handle through the spacer, there is the clearance between the recess of stationary blade and handle seat, and the stability of handle is relatively poor, and the pot body rocks when can lead to holding the pan through the handle end to when the user mistake bumps toggle switch, can overturn the pan.

SUMMERY OF THE UTILITY MODEL

The utility model provides a collapsible handle and pan, the stability of handle is good, can bear great load, and the security is better, can reduce the possibility of the pan of turning over of beating that the maloperation leads to.

On one hand, the utility model provides a foldable handle, which comprises a handle and a handle seat, wherein the handle seat is arranged on the outer wall of a pot body, the handle is rotatably connected with the handle seat, a rotating shaft and a central shaft which are relatively fixed and spaced are arranged on the handle in a penetrating way, a first chute and a second chute are arranged on the handle seat, and the rotating shaft and the central shaft are respectively arranged in the first chute and the second chute in a sliding way;

the first sliding chute and the second sliding chute are respectively provided with a first end close to the pot body and a second end far away from the pot body, a movable stop piece is arranged in the first sliding chute and/or the second sliding chute, the stop piece can move in the first sliding chute and/or the second sliding chute and is provided with a locking position and an unlocking position, when the stop piece is located at the locking position, the rotating shaft and the central shaft are not movable, and when the stop piece is located at the unlocking position, the rotating shaft and the central shaft are movable;

wherein, first spout includes the translation section, and the translation section extends to the second end by the first end of first spout, and the middle part of translation section has the opening, and the axis of rotation when the translation section removes, the handle orientation or deviate from the handle seat and remove, and the axis of rotation is deviate from the translation section back from the opening, and the axis of rotation rotates around the center pin.

The utility model provides a collapsible handle comprises interconnect's handle seat and handle, and the handle seat is fixed on pot external wall, through wearing to establish axis of rotation and central axle on the handle, axis of rotation and central axle rigidity and mutual interval are provided with first spout and second spout on the handle seat, and axis of rotation and central axle are located first spout and second spout respectively, and can correspond and slide in first spout and second spout to make handle seat relative rotate. The first sliding chute and the second sliding chute are respectively provided with a first end close to the pot body and a second end far away from the pot body, a stop piece is arranged in the first sliding chute and/or the second sliding chute, the handle can be provided with a locking position and an unlocking position through the movement of the stop piece in the first sliding chute and/or the second sliding chute, and when the stop piece is positioned at the locking position, the rotating shaft and the central shaft cannot move, so that the handle cannot rotate relative to the handle seat; when the stop member is in the unlocked position, the pivot shaft and the central shaft are movable to allow the handle to pivot relative to the handle seat. Wherein, first spout includes the translation section that extends to the second end by its first end, the axis of rotation when the translation section removes, can make the handle move towards or deviate from the handle seat, and the axis of rotation can't rotate around the center pin, set up the opening through the middle part at the translation section, the axis of rotation can rotate around the center pin after deviating from the translation section from the opening in order to fold the handle, and under the condition of the outside pulling handle of user's maloperation, the axis of rotation can move to the second end and the backstop of translation section at the second end, unable turning handle this moment, only when the user moves back the handle to the opening that makes the axis of rotation correspond translation section middle part, just rotatable handle, so not only can improve the stability that handle and handle seat are connected, the handle can bear great load, and can reduce the maloperation and lead to the possibility of overturning the pan, foldable handle's.

In a possible embodiment, the first runner further comprises a guide section connected to the opening of the translation section, the rotation shaft being accessible from the opening into the guide section for rotating the rotation shaft about the central axis.

Through set up the guide section in first spout, make the opening at the translation section connected of guide section, the axis of rotation deviates from the back from the opening of translation section like this, can get into the guide section, and guide section and axis of rotation are around center pin pivoted orbit phase-match, therefore the guide section can guide the axis of rotation and rotate around the center pin.

In a possible embodiment, the second link comprises a first section, and the stop element is located in the locking position, the rotational axis being stopped at the first end of the translational section and/or the central axis being stopped at the first end of the first section.

When the rotating shaft moves in the translation section of the first sliding chute, the central shaft can move synchronously with the rotating shaft in the first section of the second sliding chute, so that the handle moves towards or away from the handle seat; when the stop piece is located at the locking position, the rotating shaft is stopped at the first end of the translation section and/or the central shaft is stopped at the first end of the first section, so that the rotating shaft and the central shaft can be limited from moving in the first sliding groove and the second sliding groove, and the handle can not rotate relative to the handle seat.

In one possible embodiment, when the stop member is in the unlocking position, the rotation shaft and the central shaft can move synchronously, and the rotation shaft can move to the second end of the translation section, so that the handle and the handle seat are relatively fixed;

and/or the central axis is located at the second end of the first section when the rotational axis is located at the second end of the translating section.

When the stop piece is positioned at the unlocking position, the rotating shaft and the central shaft can respectively and synchronously move in the translation section of the first sliding chute and the first section of the second sliding chute, and the rotating shaft can move to the second end of the translation section in the translation section away from the handle seat, so that the rotating shaft can stop the second end of the translation section and cannot be separated from the translation section, and the handle cannot be rotated and folded, so that a cooker can be prevented from being overturned under the condition of misoperation of a user;

when the second end through the translation section that makes the axis of rotation be located first spout, the center pin is located the second end of the first section of second spout, and the second end of the first spout of butt and second spout is simultaneously distinguished to center pin and axis of rotation, and the setting of first spout and second spout is comparatively reasonable like this, and can strengthen the stability that handle and handle seat are connected.

In a possible embodiment, the rotation axis and the central axis can be moved synchronously with the stop in the unlocked position, and the rotation axis can enter the guide section from the opening of the translation section.

When the stop piece is located at the unlocking position, the rotating shaft and the central shaft can synchronously move in the translation section of the first sliding chute and the first section of the second sliding chute respectively, and the rotating shaft can move to the opening of the translation section and enter the guide section from the opening, so that the rotating shaft rotates around the central shaft; the rotating shaft can move to the second end of the translation section synchronously and then move back to the opening of the translation section, so that the possibility of turning over the cooker due to misoperation of a user can be reduced.

In a possible embodiment, the first and/or second runner further comprises a second section, which is connected to the side of the translation section facing away from the guide section, or which is connected to the first section, in which the stop element moves.

Through set up the second section in first spout and/or second spout, the second section that is located first spout is connected in the one side that deviates from the guide segment of translation section, and the second section that is located the second spout is connected with first section, and the stopper can move in the second section like this to be in latched position or unblock position.

In a possible embodiment, the translational section of the first runner and the first section of the second runner are of the same shape and/or length;

and/or the translation section of the first sliding chute and the first section of the second sliding chute are straight sections or arc sections.

The first chute translation section and the second chute first section are in the same shape, so that the rotating shaft and the central shaft can respectively move synchronously in the first chute translation section and the second chute first section; through making first spout translation section the same with the first section length of second spout, can simultaneously respectively with the tip butt of translation section and first section during axis of rotation and central shaft synchronous movement, axis of rotation and central shaft are connected with first spout and second spout stability better like this.

In one possible embodiment, the guide section is a circular arc section; and/or the presence of a gas in the gas,

the end of the guide section is an open end, and the cross-sectional area of the guide section is gradually enlarged from the end connected with the translation section to the open end.

The guide section of the first sliding chute is an arc section, and the rotating shaft can move in the arc section to rotate around the central shaft; and/or, the second end of the guide segment is arranged as an open end, and the cross-sectional area of the guide segment increases gradually from the end connected with the translation segment to the open end, so that the rotating shaft can come out of the open end and continue to rotate around the central shaft when rotating in the guide segment.

In a possible embodiment, the stop piece comprises a limiting part and a stopping part, the limiting part is connected to one end of the stopping part facing the bottom end of the handle seat, and the limiting part is positioned on one side of the stopping part facing the translation section or the first section;

the limiting part moves in the second section so as to move to a locking position to enable the limiting part to stop the rotating shaft and/or the central shaft, or move to an unlocking position to enable the stopping part to stop the rotating shaft and/or the central shaft.

The stop part is provided with a limiting part and a stopping part, the limiting part is connected to the lower end of the stopping part, the limiting part is positioned on one side of the stopping part facing the first sliding chute translation section or the first section of the second sliding chute, and the end face of the limiting part can stop the rotating shaft or the central shaft or the end face of the stopping part can stop the rotating shaft or the central shaft through the movement of the limiting part in the second section, so that the stop part can move to a locking position or an unlocking position.

In a possible embodiment, the side of the stop member facing the bottom end of the handle seat is further provided with a resilient member for moving the stop member to the locking position.

The elastic piece is arranged on one side of the stop piece facing the bottom end of the handle seat, so that the stop piece can be moved to the locking position from the unlocking position by the elastic piece, and the stop piece can be kept at the locking position under the condition of no external force.

In a possible embodiment, the handle and/or the handle seat are provided with a pressing element for moving the stop element from the locking position to the unlocking position.

The stop member is movable from the locked position to the unlocked position by the pressing member by providing the handle and/or the handle seat with the pressing member, such that the rotational axis and the central axis are movable synchronously within the first chute translation section and the second chute first section, respectively, and the rotational axis is movable from the opening of the translation section to the guide section, such that the rotational axis is rotatable about the central axis, such that the handle is rotatable about the central axis relative to the handle seat.

In one possible embodiment, the rotational axis and the central axis have a spacing in the horizontal direction and/or in the vertical direction;

and/or the rotating shaft is arranged close to the pot body, and the central shaft is arranged far away from the pot body.

The rotating shaft and the central shaft are spaced in the horizontal direction or the vertical direction, or the rotating shaft and the central shaft are spaced in the horizontal direction and the vertical direction, so that the rotating shaft and the central shaft have enough space, the rotating shaft can be ensured to rotate around the central shaft, and the handle can bear large load;

through making the axis of rotation near the pot body and the center pin is far away from the pot body, convenient to use person operates, and the setting of the first spout and the second spout of being convenient for can save space, reduces the volume of handle seat.

On the other hand, the utility model provides a cooker, include as above collapsible handle and the pot body, collapsible handle connects on the outer wall of the pot body.

The utility model provides a pan includes the foldable handle and the pot body, the foldable handle includes handle and handle seat, the handle seat is fixed on the outer wall of the pot body, through wearing to establish axis of rotation and central axle on the handle, axis of rotation and central axle rigidity and mutual interval are provided with first spout and second spout on the handle seat, axis of rotation and central axle are located first spout and second spout respectively, and can correspond and slide in first spout and second spout to make the handle seat rotate relatively. The first sliding chute and the second sliding chute are respectively provided with a first end close to the pot body and a second end far away from the pot body, a stop piece is arranged in the first sliding chute and/or the second sliding chute, the handle can be provided with a locking position and an unlocking position through the movement of the stop piece in the first sliding chute and/or the second sliding chute, and when the stop piece is positioned at the locking position, the rotating shaft and the central shaft cannot move, so that the handle cannot rotate relative to the handle seat; when the stop member is in the unlocked position, the pivot shaft and the central shaft are movable to allow the handle to pivot relative to the handle seat. Wherein, first spout includes the translation section that extends to the second end by its first end, the axis of rotation when the translation section removes, can make the handle move towards or deviate from the handle seat, and the axis of rotation can't rotate around the center pin, set up the opening through the middle part at the translation section, the axis of rotation can rotate around the center pin after deviating from the translation section from the opening in order to fold the handle, and under the condition of the outside pulling handle of user's maloperation, the axis of rotation can move to the second end and the backstop of translation section at the second end, unable turning handle this moment, only when the user moves back the handle to the opening that makes the axis of rotation correspond translation section middle part, just rotatable handle, so not only can improve the stability that handle and handle seat are connected, the handle can bear great load, and can reduce the maloperation and lead to the possibility of overturning the pan, foldable handle's.

The structure of the present invention and other objects and advantages thereof will be more clearly understood from the following description of the preferred embodiments taken in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is an exploded view of a foldable handle according to an embodiment of the present invention;

fig. 2 is a structural diagram of a first state of a foldable handle according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

FIG. 4 is a cross-sectional view B-B of FIG. 2;

fig. 5 is a structural diagram of a second state of the foldable handle according to an embodiment of the present invention;

FIG. 6 is a cross-sectional view C-C of FIG. 5;

FIG. 7 is a cross-sectional view taken along line D-D of FIG. 5;

fig. 8 is a structural diagram of a third state of the foldable handle according to an embodiment of the present invention;

FIG. 9 is a cross-sectional view E-E of FIG. 8;

FIG. 10 is a cross-sectional view F-F of FIG. 8;

fig. 11 is a structural diagram of a fourth state of the foldable handle according to an embodiment of the present invention;

FIG. 12 is a sectional view taken along line G-G of FIG. 11;

FIG. 13 is a sectional view taken at H-H of FIG. 11;

fig. 14 is a structural view of a fifth state of the foldable handle according to an embodiment of the present invention;

FIG. 15 is a cross-sectional view I-I of FIG. 14;

FIG. 16 is a sectional view taken along line J-J of FIG. 14;

fig. 17 is a structural view of a sixth state of the foldable handle according to an embodiment of the present invention;

FIG. 18 is a cross-sectional view taken along line K-K of FIG. 17;

fig. 19 is a cross-sectional view of L-L of fig. 18.

Description of reference numerals:

1-a foldable handle; 11-a handle; 111-rotating shaft; 112-a central axis; 12-a handle seat; 121-a first runner; 1211-translation segment; 1211 a-an opening; 1212-a guide section; 1212a — open end; 122-a second runner; 1221-first stage; 123-a second segment; 13-a stop member; 131-a limiting part; 132-a stop; 14-a press; 141-a pressing part; 142-an elastic part; 15-an elastic member; 2-a pot body.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Fig. 1 is an exploded view of a foldable handle according to an embodiment of the present invention; fig. 2 is a structural diagram of a first state of a foldable handle according to an embodiment of the present invention; FIG. 3 is a cross-sectional view A-A of FIG. 2; FIG. 4 is a cross-sectional view B-B of FIG. 2; fig. 5 is a structural diagram of a second state of the foldable handle according to an embodiment of the present invention; FIG. 6 is a cross-sectional view C-C of FIG. 5; fig. 7 is a cross-sectional view taken along line D-D of fig. 5.

Fig. 8 is a structural diagram of a third state of the foldable handle according to an embodiment of the present invention;

FIG. 9 is a cross-sectional view E-E of FIG. 8; FIG. 10 is a cross-sectional view F-F of FIG. 8; fig. 11 is a structural diagram of a fourth state of the foldable handle according to an embodiment of the present invention; FIG. 12 is a sectional view taken along line G-G of FIG. 11; fig. 13 is a sectional view H-H of fig. 11.

Fig. 14 is a structural view of a fifth state of the foldable handle according to an embodiment of the present invention;

fig. 15 is a sectional view taken along line I-I of fig. 14, fig. 16 is a sectional view taken along line J-J of fig. 14, fig. 17 is a structural view illustrating a sixth state of a foldable handle according to an embodiment of the present invention, fig. 18 is a sectional view taken along line K-K of fig. 17, and fig. 19 is a sectional view taken along line L-L of fig. 18.

As shown in fig. 1, the present embodiment provides a foldable handle 1, which includes a handle 11 and a handle seat 12, the handle seat 12 is disposed on an outer wall of a pot 2, the handle 11 and the handle seat 12 are rotatably connected, a rotating shaft 111 and a central shaft 112, which are relatively fixed and spaced apart, are disposed on the handle 11, a first sliding slot 121 and a second sliding slot 122 are disposed on the handle seat 12, and the rotating shaft 111 and the central shaft 112 are slidably disposed in the first sliding slot 121 and the second sliding slot 122, respectively.

The foldable handle 1 that this embodiment provided can be used in the pan, and is concrete, and foldable handle 1 comprises handle seat 12 and handle 11, and handle seat 12 can be fixed on the outer wall of pot body 2 through connecting pieces such as screws or bolts, and handle 11 and handle seat 12 rotatable coupling to make handle 11 rotate relative to handle seat 12, make handle 11 collapsible, in order to reduce the space that handle 11 occupy, the accomodating of the pan of being convenient for.

One end of the handle 11 connected with the handle seat 12 is penetrated by a rotating shaft 111 and a central shaft 112, the rotating shaft 111 and the central shaft 112 are relatively fixed and arranged at intervals, the handle seat 12 is correspondingly provided with a first sliding chute 121 and a second sliding chute 122, and the rotating shaft 111 and the central shaft 112 are respectively positioned in the first sliding chute 121 and the second sliding chute 122 so as to connect the handle 11 with the handle seat 12; the rotation shaft 111 and the central shaft 112 are slidable in the first slide groove 121 and the second slide groove 122, respectively, so that the state of the handle 11 with respect to the handle holder 12 is changed.

Wherein, the first sliding chute 121 and the second sliding chute 122 both have a first end close to the pan body 2 and a second end far away from the pan body 2, a movable stop member 13 is arranged in the first sliding chute 121 and/or the second sliding chute 122, the stop member 13 can move in the first sliding chute 121 and/or the second sliding chute 122 and has a locking position and an unlocking position, when the stop member 13 is located at the locking position, the rotating shaft 111 and the central shaft 112 are not movable, when the stop member 13 is located at the unlocking position, the rotating shaft 111 and the central shaft 112 are movable.

The first and second sliding grooves 121 and 122 of the handle holder 12 have first and second ends, the first ends of the first and second sliding grooves are close to the pot body 2, the first ends extend to the second end in the direction far away from the pot body 2, and the rotating shaft 111 and the central shaft 112 can respectively slide from the first end to the second end of the first and second sliding grooves 121 and 122. A stopper 13 is arranged in the first sliding chute 121 and/or the second sliding chute 122, the stopper 13 can move in the first sliding chute 121 and/or the second sliding chute 122, and the stopper 13 has a locking position and an unlocking position for the handle 11 through the movement of the stopper 13; when the stopper 13 is located at the locking position, the stopper 13 can stop the rotating shaft 111 in the first sliding chute 121 and/or the central shaft 112 in the second sliding chute 122, and since the rotating shaft 111 and the central shaft 112 are relatively fixed, neither the rotating shaft 111 nor the central shaft 112 can move; when the stop member 13 is located at the unlocking position, the rotating shaft 111 and the central shaft 112 can slide in the first sliding slot 121 and the second sliding slot 122, respectively, so that the handle 11 can rotate relative to the handle seat 12.

The present embodiment fixes the handle 11 and the handle holder 12 relatively by providing the rotating shaft 111 and the central shaft 112 on the handle 11 with a space between the rotating shaft 111 and the central shaft 112, by providing the rotating shaft 111 and the central shaft 112 slidably in the first slide groove 121 and the second slide groove 122, respectively, and by providing the movable stopper 13 in the first slide groove 121 and/or the second slide groove 122, by positioning the stopper 13 in the locking position, and making the rotating shaft 111 and the central shaft 112 immovable, so that the user can move the pot by holding the handle 11; or the stop piece 13 is positioned at the unlocking position, and the handle 11 can rotate relative to the handle seat 12, so that the handle 11 can be in a folding state, the occupied space of the handle 11 is reduced, and the pot can be conveniently stored. The handle 11 and the handle holder 12 can be connected more stably by the double shaft and double sliding groove structure, and the handle 11 can bear larger load by the rotating shaft 111 and the central shaft 112 which are arranged at intervals.

It should be noted that, according to actual requirements, the stop members 13 may be disposed in the first sliding chute 121 and the second sliding chute 122, and when both the stop members 13 are in the locking positions, the rotation shaft 111 and the central shaft 112 may be stopped at the same time, so that the rotation shaft 111 and the central shaft 112 are immovable; both stops 13 are in the unlocked position so that the rotating shaft 111 and the central shaft 112 can move in the first and second sliding slots 121 and 122, respectively, so that the handle 11 can rotate relative to the handle holder 12. Alternatively, the stopper 13 may be disposed in the first sliding groove 121 or the second sliding groove 122, so that one of the rotating shaft 111 and the central shaft 112 is controlled to be immovable by the stopper 13, while the rotating shaft 111 and the central shaft 112 are relatively fixed, and the other is immovable, so that the stopper 13 is disposed only in one of the first sliding groove 121 or the second sliding groove 122, that is, when the stopper 13 is located at the locking position, the rotating shaft 111 and the central shaft 112 are both immovable, and when the stopper 13 is located at the unlocking position, the rotating shaft 111 and the central shaft 112 are both movable.

Preferably, in order to make the structure of the foldable handle 1 simpler and more convenient to operate, the stopper 13 may be provided only in the first sliding chute 121, or the stopper 13 may be provided only in the second sliding chute 122, and the movement of the rotating shaft 111 and the central shaft 112 may be controlled by providing one stopper 13.

In the pot use, the handle may be folded due to the misoperation of the user, for example, when the user holds the pot through the handle under the condition that the food is contained in the pot, the handle is adjusted from the locking position to the unlocking position by the misoperation, and the handle may be folded, so that the pot may be overturned, and the food in the pot is spilled, which may cause damage to the body of the user or the pot, and the safety in use of the foldable handle 1 may be reduced.

In order to prevent the user from turning over the pot by mistake, in this embodiment, the first sliding slot 121 may include a translation section 1211, the translation section 1211 extends from the first end to the second end of the first sliding slot 121, and an opening 1211a is formed in a middle portion of the translation section 1211, when the rotation shaft 111 moves in the translation section 1211, the handle 11 moves towards or away from the handle seat 12, and after the rotation shaft 111 is removed from the translation section 1211 from the opening 1211a, the rotation shaft 111 rotates around the central shaft 112.

As shown in fig. 1 to 19, the first sliding slot 121 includes a translation section 1211 extending from a first end to a second end, the rotation shaft 111 can move towards or away from the handle seat 12 when moving in the translation section 1211, and the rotation shaft 111 cannot rotate around the central shaft 112 due to the stopping effect of the groove wall of the translation section 1211.

By providing the opening 1211a in the middle of the translation section 1211, when the rotation shaft 111 moves in the translation section 1211 to correspond to the opening 1211a, the rotation shaft 111 can be pulled out of the translation section 1211 from the opening 1211a, and then the rotation shaft 111 can rotate around the central shaft 112 to fold the handle 11 during the external force applied to the handle 11 by the user; and under the condition that the user mistakenly pulls the handle 11 outwards, namely pulls the handle 11 in the direction away from the handle seat 12, the rotating shaft 111 directly moves from the first end of the translation section 1211 to the second end of the translation section 1211 and stops at the second end due to external force, at this time, the handle 11 cannot be rotated, and only when the user retracts the handle 11 to the opening 1211a which enables the rotating shaft 111 to correspond to the middle part of the translation section 1211, the handle 11 can be rotated, so that not only can the stability of the connection between the handle 11 and the handle seat 12 be improved, but also the handle 11 can bear larger load, the possibility of turning over the pot caused by misoperation can be reduced, and the use safety of the foldable handle 1 is better.

It can be understood that, during the process of retracting the handle 11 by the user, if the external force applied by the user is too large, the handle 11 is directly retracted to stop the rotating shaft 111 at the first end of the translating section 1211, and the rotating shaft 111 is still stopped in the translating section 1211, and only when the retracting distance is proper, the rotating shaft 111 can be made to correspond to the opening 1211a of the translating section 1211, so that the rotating shaft 111 can be made to be disengaged from the translating section 1211, which further enhances the safety of the foldable handle 1.

In addition, in the embodiment, the opening 1211a is located in the middle of the translating section 1211, and the specific location of the translating section 1211 is not limited herein, and the opening 1211a is not limited to be located in the center between the first end and the second end of the translating section 1211, and the opening 1211a may be located near the first end of the translating section 1211, or the opening 1211a may be located near the second end of the translating section 1211, which may be determined according to design and practical requirements.

In one possible embodiment, the rotational axis 111 and the central axis 112 may have a spacing in the horizontal direction and/or the vertical direction. As shown in fig. 2 to 19, in the present embodiment, the rotating shaft 111 and the central shaft 112 have a distance therebetween, and specifically, the rotating shaft 111 and the central shaft 112 may have a distance therebetween in the horizontal direction according to the size of the handle 11 and the handle holder 12, that is, the rotating shaft 111 and the central shaft 112 are spaced apart from each other along the length direction of the handle 11.

Alternatively, the rotating shaft 111 and the central shaft 112 may be spaced apart in the vertical direction, that is, the rotating shaft 111 and the central shaft 112 are spaced apart in a direction perpendicular to the length direction of the handle 11; alternatively, the rotation shaft 111 and the central shaft 112 may have a space in both horizontal and vertical directions, i.e., the rotation shaft 111 and the central shaft 112 are disposed at intervals in a direction having an angle with the length direction of the handle 11.

In the present embodiment, the front-back positional relationship between the rotating shaft 111 and the central shaft 112 is not limited, that is, the rotating shaft 111 may be close to the pot body 2 and the central shaft 112 may be far from the pot body 2, or the central shaft 112 may be close to the pot body 2 and the rotating shaft 111 may be far from the pot body 2, and accordingly, the front-back positional relationship between the first sliding groove 121 and the second sliding groove 122 on the handle holder 12 is not limited, as long as the rotating shaft 111 can rotate around the central shaft 112.

In one embodiment, the rotation axis 111 may be arranged close to the pan body 2 and the central axis 112 is arranged away from the pan body 2. Accordingly, the first sliding groove 121 of the handle holder 12 is close to the pan body 2, and the second sliding groove 122 is relatively far from the pan body 2.

Compared with the arrangement that the rotating shaft 111 and the central shaft 112 are vertically spaced, the handle seat 12 is provided with the first sliding chute 121 and the second sliding chute 122 in the vertical direction, and the shape of the first sliding chute 121 is required to realize the rotation of the rotating shaft 111 around the central shaft 112, so that the first sliding chute 121 and the second sliding chute 122 occupy a larger space as a whole, and the volume of the handle seat 12 is correspondingly larger. In the way that the rotating shaft 111 is close to the pan body 2 and the central shaft 112 is far away from the pan body 2, the whole occupied space of the first sliding chute 121 and the second sliding chute 122 is small, and the volume of the handle seat 12 can be correspondingly reduced.

When rotating the rotation shaft 111 around the central shaft 112, the operator needs to apply an external force closer to the central shaft 112, and thus the operator is closer to the pot body 2, which results in a higher probability of being burned, compared to the case where the central shaft 112 is closer to the pot body 2 and the rotation shaft 111 is farther from the pot body 2. In the embodiment, the rotating shaft 111 is close to the pot body, and the central shaft 112 is far away from the pot body, so that an operator can rotate the handle 11 at a position far away from the pot body 2, the operator is not easily scalded, and the operation safety is better.

Therefore, the present embodiment is more convenient to operate by making the rotating shaft 111 close to the pot body 2 and the central shaft 112 far away from the pot body 2, the size of the handle seat 12 can be reduced, and the safety of operation can be ensured.

As shown in fig. 1, in a possible embodiment, the first sliding chute 121 may further include a guiding section 1212, the guiding section 1212 may be connected to the opening 1211a of the translating section 1211, and the rotating shaft 111 may enter the guiding section 1212 from the opening 1211a to rotate the rotating shaft 111 around the central shaft 112. The guide section 1212 is connected to the opening 1211a of the translation section 1211 by disposing the guide section 1212 in the first sliding groove 121, so that the rotation shaft 111 is released from the opening 1211a of the translation section 1211 and enters the guide section 1212, and the guide section 1212 is matched with the trajectory of the rotation shaft 111 about the central axis 112, so that the guide section 1212 guides the rotation shaft 111 to rotate about the central axis 112.

As shown in fig. 1 to 19, optionally, the second chute 122 may include a first section 1221, and the rotation shaft 111 may be stopped at a first end of the translation section 1211 and/or the central shaft 112 may be stopped at a first end of the first section 1221 when the stopper 13 is located at the locking position.

As shown in fig. 2 to 4, when the stopper 13 is located at the locking position, the stopper 13 can stop the rotation shaft 111 at the first end of the translation section 1211 of the first sliding groove 121 and/or stop the central shaft 112 at the first end of the first section 1221 of the second sliding groove 122, so that two sides of the rotation shaft 111 abut against the handle seat 12 and the stopper 13 respectively and/or two sides of the central shaft 112 abut against the handle seat 12 and the stopper 13 respectively, the rotation shaft 111 and/or the central shaft 112 are restricted from moving, and at this time, the handle 11 and the handle seat 12 are in a relatively fixed state, the handle 11 cannot rotate relative to the handle seat 12, and the user can move the pot by holding the handle 11.

It should be noted that, when the stop member 13 is located at the locking position, the rotating shaft 111 and the central shaft 112 may be located at the first end of the translation section 1211 of the first sliding groove 121 and the first end of the first section 1221 of the second sliding groove 122, respectively, and the rotating shaft 111 and the central shaft 112 abut against the side wall of the first end of the translation section 1211 and the side wall of the first end of the first section 1221, respectively; alternatively, when the stopper 13 is located at the locking position, only one of the rotating shaft 111 and the central shaft 112 may abut against the side wall of the first end of the corresponding chute, and the other one may be located between the first end and the second end of the chute, so that the rotating shaft 111 and the central shaft 112 cannot move as long as both sides of one are stopped by the chute side wall and the stopper 13.

Preferably, when the stop member 13 is in the locking position, the rotation shaft 111 and the central shaft 112 are located at the first end of the translational section 1211 of the first slide groove 121 and the first end of the first section 1221 of the second slide groove 122, respectively, so that the rotation shaft 111 and the central shaft 112 are stopped by the side walls of the slide grooves and the stop member 13, which is more stable for the relative fixation of the handle 11 on the handle seat 12.

As shown in fig. 5 to 10, in a possible embodiment, when the stopper 13 is located at the unlocking position, the rotation shaft 111 and the central shaft 112 may be moved synchronously, and the rotation shaft 111 may be moved to the second end of the translation section 1211 to relatively fix the handle 11 and the handle holder 12.

When the stop member 13 is located at the unlocking position, the stop member 13 is disengaged from the stop of the rotating shaft 111 and/or the central shaft 112, so that the rotating shaft 111 and the central shaft 112 can move synchronously in the translating section 1211 of the first sliding slot 121 and the first end 1221 of the second sliding slot 122, respectively, due to the external force applied by the user, the rotating shaft 111 normally moves directly from the first end to the second end of the translating section 1211 due to the external force, and since the opening 1211a is located at the middle position of the translating section 1211, after the rotating shaft 111 moves to the second end of the translating section 1211, the rotating shaft 111 cannot move any more due to the stop of the groove wall of the second end of the translating section 1211, and the rotating shaft 111 cannot escape from the translating section 1211, so that the handle 11 cannot rotate relative to the handle holder 12. This prevents the handle 11 from being folded by a user's erroneous operation, and improves the safety of the foldable handle 1 in use.

Where the rotation axis 111 is located at the second end of the translation section 1211 of the first sliding chute 121, the central axis 112 may be located at the second end of the first section 1221 of the second sliding chute 122. When the rotating shaft 111 is located at the second end of the translation section 1211 of the first sliding chute 121, the central shaft 112 is located at the second end of the first section 1221 of the second sliding chute 122, and the central shaft 112 and the rotating shaft 111 are respectively abutted to the horizontal section 1211 of the first sliding chute 121 and the second end of the first section 1221 of the second sliding chute 122 at the same time, so that the horizontal section 1211 of the first sliding chute 121 and the first end 1221 of the second sliding chute 122 are reasonably arranged, the situation that redundant groove sections cannot be used is avoided, and the stability of connection between the handle 11 and the handle base 12 is enhanced.

As shown in fig. 11 to 19, in one possible embodiment, when the stopper 13 is located at the unlocking position, the rotation shaft 111 and the central shaft 112 may move synchronously, and the rotation shaft 111 may enter the guide section from the opening 1211a of the translation section 1211.

As shown in fig. 11 to 13, when the user operates the handle 11 and confirms that the handle 11 needs to be folded due to an incorrect operation, the user applies an external force to move the rotating shaft 111 and the central shaft 112 to the second end of the translation section 1211 of the first chute 121 and the second end of the first section 1221 of the second chute 122 synchronously, and then retracts the handle 11 to move the rotating shaft 111 to the opening 1211a of the horizontal section 1211, so that the rotating shaft 111 may be pulled out of the horizontal section 1211 of the first chute 121.

As shown in fig. 14 to 16, after the rotating shaft 111 corresponds to the opening 1211a of the horizontal section 1211, the user continuously applies an external force to the handle 11 to rotate the handle around the handle base 12, so that the rotating shaft 111 can be pulled out from the horizontal section 1211 and enter the guiding section 1212 through the opening 1211a, at this time, the central shaft 112 is located in the middle of the first section 1221 of the second sliding slot 122, the rotating shaft 111 is located in the guiding section 1212, and the guiding section 1212 can guide the rotating shaft 111 to rotate around the central shaft 112.

As shown in fig. 17 to 19, after the rotating shaft 111 is rotated out of the guiding section 1212, the central shaft 112 may move to the second end of the first section 1221 of the second sliding chute 122, at which time the central shaft 112 may be stopped at the second end of the first section 1221, and then the rotating shaft 111 may continue to rotate around the central shaft 112 to fold the handle.

As shown in fig. 1 to 19, in a possible embodiment, the first runner 121 and/or the second runner 122 may further include a second segment 123, and the second segment 123 may be connected to a side of the translation segment 1211 facing away from the guide segment 1212, or the second segment 123 may be connected to the first segment 1221, and the stopper 13 moves in the second segment 123.

By providing the second segment 123 in the first slide groove 121 and/or the second slide groove 122, the stopper 13 is provided in the second segment 123, and the stopper 13 is moved in the second segment 123 to move the stopper 13 to the lock position or the unlock position. Specifically, when the second segment 123 is disposed in the first sliding groove 121, the second segment 123 is located between the translation segment 1211 and the guide segment 1212, when the stopper 13 moves to the locking position, the translation segment 1211 and the guide segment 1212 are separated by the stopper 13, the rotation shaft 111 is located in the translation segment 1211 and cannot move to the guide segment 1212, the rotation shaft 111 is fixed at the first end of the translation segment 1211, and when the stopper 13 moves to the unlocking position, the stopper 13 can move from the first end to the second end of the translation segment 1211 and enters the guide segment 1212.

When the second section 123 is disposed in the second sliding groove 122, the second section 123 can be connected to an end of the first section 1221 away from the pot body 2, when the stop member 13 moves to the locking position, the central shaft 112 is stopped by the stop member 13 at the first end of the first section 1221, and the central shaft 112 is immovable; when the stopper 13 is moved to the unlocking position, the central shaft 112 can be moved from the first end to the second end of the first section 1221, and when the central shaft 112 is located at the second end of the first section 1221, the rotation shaft 111 can be moved to the guide section 1212 and rotated around the central shaft 112 in the guide section 1212.

In a particular embodiment, the translational section 1211 of the first runner 121 and the first section 1221 of the second runner 122 are the same in shape and/or length. As shown in fig. 1 to 19, since rotation shaft 111 and central shaft 112 move away from or towards pot 2 in translation section 1211 of first runner 121 and first section 1221 of second runner 122, respectively, translation section 1211 and first section 1221 should have the same shape, so as to ensure synchronous movement of rotation shaft 111 and central shaft 112 in translation section 1211 and first section 1221, respectively.

In addition, the length of the translation section 1211 and the length of the first section 1221 may be the same, so that when the rotation shaft 111 and the central shaft 112 move synchronously in the translation section 1211 and the first section 1221, respectively, the rotation shaft 111 and the central shaft 112 can simultaneously abut against the end portions of the translation section 1211 and the first section 1221, respectively, and the connection between the handle 11 and the handle holder 12 is more stable. As mentioned above, the lengths of the translational section 1211 and the first section 1221 may be different, and it is only necessary to ensure that one of the rotational shaft 111 and the central shaft 112 can abut against the first end of the translational section 1211 or the first end of the first section 1221, so that the rotational shaft 111 and the central shaft 112 are not movable.

Specifically, as shown in fig. 1 to 19, the translation section 1211 of the first chute 121 and the first section 1221 of the second chute 122 may be straight sections or arc sections. In this embodiment, in order to facilitate the arrangement of the translation section 1211 of the first sliding chute 121 and the first section 1221 of the second sliding chute 122, and enable the rotation shaft 111 and the central shaft 112 to smoothly slide in the translation section 1211 and the first section 1221, the translation section 1211 and the guide section 1212 are arranged to be straight sections or arc sections, so that the rotation shaft 111 and the central shaft 112 can synchronously slide in the translation section 1211 and the first section 1221 respectively under the condition that an external force is applied by a user, and the resistance is small.

Preferably, the translation section 1211 and the first section 1221 may be straight sections, so that the rotation shaft 111 and the central shaft 112 may move linearly along the translation section 1211 and the first section 1221, respectively, in the direction of the applied external force, and the movement track is simple and more flexible. For example, as shown in fig. 2 to 19, when the external force is applied horizontally away from the handle holder 12, the straight sections of the translation section 1211 and the first section 1221 may extend horizontally, such that the rotation shaft 111 and the central shaft 112 move horizontally along the translation section 1211 and the first section 1221, respectively, in the direction of the external force.

Specifically, as shown in fig. 2 to 19, the guiding segment 1212 of the first sliding chute 121 may be a circular arc segment, and/or the end of the guiding segment 1212 may be an open end 1212a, and the cross-sectional area of the guiding segment 1212 may gradually increase from the end connected with the translating segment 1211 toward the open end 1212 a.

By setting the guiding section 1212 of the first sliding chute 121 as an arc section, the arc shape of the arc section is an arc track of the rotation shaft 111 rotating around the central shaft 112, so that when the rotation shaft 111 rotates around the central shaft 112, the rotation shaft 111 can move along the arc section, and the arc section is extended to the position of the rotation shaft 111 corresponding to the folded state of the handle 11; alternatively, as shown in fig. 1, the second end of the guiding segment 1212 is an open end 1212a, the guiding segment 1212 is a portion between the end connected to the translating segment 1211 and the open end 1212a, and when the rotating shaft 111 rotates around the central shaft 112, the rotating shaft moves a distance in the guiding segment 1212, i.e. moves from the open end 1212a to a space without any obstruction, and still rotates around the central shaft 112 in the space.

It can be understood that, when the guiding section 1212 of the first sliding chute 121 is an arc section, the inner diameter of the arc section may be larger than the diameter of the rotating shaft 111, so that the rotating shaft 111 may move in the arc section, and during the moving process of the rotating shaft 111, the central shaft 112 may also move to the first end or the second end of the first section 1221 of the second sliding chute 122, so that in the case that the central shaft 112 abuts against the first end or the second end of the first section 1221 of the second sliding chute 122, the rotating shaft 111 rotates around the central shaft 112 to improve the stability of the central shaft 112.

Of course, in the process of rotating the rotating shaft 112 in the arc segment, the shape of the arc segment is exactly the arc track of the rotating shaft 111 rotating around the central shaft 112, so that the central shaft 112 cannot move to the first end or the second end of the first segment 1221 all the time, but is located between the first end and the second end of the first segment 1221, and the rotating shaft 111 can also rotate around the central shaft 112 to fold the handle 11, which is not limited in this embodiment.

When the end of the guiding segment 1212 is the open end 1212a, the guiding segment 1212 of the first sliding groove 121 may be an arc segment, the rotating shaft 111 rotates around the central axis 112 along the inner wall of the arc shape in the arc segment, or the guiding segment 1212 gradually expands from the end connected with the translating segment 1211 toward the cross-sectional area of the open end 1212a, so that the rotating shaft 111 has a sufficient space when moving in the guiding segment 1212, the rotating shaft 111 may not be attached to the inner wall of the guiding segment 1212, wear of the inner wall of the guiding segment 1212 to the rotating shaft 111 may also be reduced, and the service life of the rotating shaft 111 is prolonged.

As shown in fig. 1, in a possible embodiment, the stopper 13 may include a limiting portion 131 and a stopping portion 132, the limiting portion 131 may be connected to an end of the stopping portion 132 facing the bottom end of the handle seat 12, the limiting portion 131 is located on a side of the stopping portion 132 facing the translation section 1211 or the first section 1221, and the stopper 13 moves in the second section 123 to move to the locking position to stop the end surface of the limiting portion 131 against the rotating shaft 111 and/or the central shaft 112, or to move to the unlocking position to stop the end surface of the stopping portion 132 against the rotating shaft 111 and/or the central shaft 112.

The stop member 13 specifically includes a limiting portion 131 and a stopping portion 132, the limiting portion 131 is connected to one end of the stopping portion 132 facing the base of the handle 11, that is, the limiting portion 131 is connected to the lower end of the stopping portion 132, and the limiting portion 131 is located on one side of the stopping portion 132 facing the pot body 2, that is, in the moving direction of the handle 11 relative to the handle seat 12, the limiting portion 131 is located at the front end of the stopping portion 132 relatively. When the stopper 13 moves in the second segment 123, the limiting part 131 can move up and down in the second segment 123, and when the stopper moves to the locking position, the end surface of the limiting part 131 stops the rotating shaft 111 and/or the central shaft 112, so that the rotating shaft 111 and the central shaft 112 are respectively stopped at the first end of the translation section 1211 and the first end of the first segment 1221, the rotating shaft 111 and the central shaft 112 cannot move, and the handle 11 is fixed on the handle seat 12; when moved to the unlocking position, the end surface of the stopper portion 132 stops the rotation shaft 111 and/or the central shaft 112, so that the rotation shaft 111 and the central shaft 112 can be synchronously moved to the second end of the translation section 1211 and the second end of the first section 1221, and the rotation shaft 111 can rotate around the central shaft 112 in the guide section 1212.

As shown in fig. 1 to 19, in one possible embodiment, the handle 11 and/or the handle seat 12 may be provided with a pressing piece 14, the pressing piece 14 being used for moving the stopper 13 from the locking position to the unlocking position. By providing the pressing member 14 on the handle 11 and/or the handle holder 12, the user can move the stopper 13 from the locking position to the unlocking position by pressing the pressing member 14, so that the user can move the rotation shaft 111 and the central shaft 112 synchronously to the second end of the translation section 1211 and the second end of the first section 1221 by applying an external force, and the rotation shaft 111 can rotate about the central shaft 112 in the guide section 1212 to rotate the handle 11 about the central shaft 112 relative to the handle holder 12.

Specifically, as shown in fig. 2 to 19, the pressing piece 14 may correspond to the stopper portion 132 of the stopper 13, and the pressing piece 14 may abut against the stopper portion 132 to move the stopper 13 to the unlocking position. The pressing piece 14 corresponds to the stopping portion 132 of the stopper 13, when the user presses the pressing piece 14, the pressing piece 14 abuts against the stopping portion 132, and the pressing force can act on the stopping portion 132, and the stopping portion 132 drives the limiting portion 131, so that the stopper 13 moves from the locking position to the unlocking position.

In order to enable the pressing member 14 to return to the original position after the pressing force disappears, no force is applied to the stopper 13, and the stopper 13 can return to the locking position, in this embodiment, the pressing member 14 may include a pressing portion 141 and an elastic portion 142, a first end of the pressing portion 141 may be located outside the handle 11 and form a pressing area, a second end of the pressing portion 141 is used for abutting against the stopper portion 132 of the stopper 13, and the elastic portion 142 may be connected between the pressing portion 141 and the inner wall of the handle 11.

As shown in fig. 2 to 19, the outer wall of the handle 11 may have a mounting hole for mounting the pressing member 14, the pressing member 14 is located in the mounting hole, the pressing member 14 is composed of a pressing portion 141 and an elastic portion 142, the pressing portion 141 is located in the mounting hole, a first end of the pressing portion 141 is exposed outside the handle 11, a second end of the pressing portion 141 may contact the stopper portion 132 of the stopper 13, and one end of the exposed pressing portion 141 may form a pressing area, and a user may press the pressing area to cause the pressing member 14 to contact the stopper portion 132 of the stopper 13 and generate an acting force thereon, so as to move the stopper 13 to the unlocking position.

The elastic portion 142 of the pressing member 14 is connected to the pressing portion 141, and the elastic portion 142 can be in contact with the inner wall of the handle 11, so that when the pressing portion 141 presses the stopper 13 downward to displace it, the elastic portion 142 deforms to generate an elastic force, and when the external force applied to the pressing portion 141 disappears, the elastic force can act on the pressing portion 141 to return the pressing member 14 to its original position.

In a specific embodiment, the elastic portion 142 may be a flexible elastic arm, one end of which is connected to the second end of the pressing portion 141, and the other end of which abuts against the inner wall of the handle 11. Since the elastic portion 142 is an elastic arm, one end of the elastic arm is connected to the second end of the pressing portion 141, and the other end of the elastic arm abuts against the inner wall of the handle 11, when a user applies an external force to the pressing portion 141, the pressing portion 141 moves to bend the elastic arm to generate an elastic force, and after the external force disappears, the elastic force generated by the bending of the elastic arm returns the pressing piece 14 to the initial position.

The elastic portion 142 may be a spring connected between the second end of the pressing portion 141 and the inner wall of the handle 11, and the pressing portion 141 may be compressed by an external force, and the spring may be returned to the pressing piece 14 by the spring after the external force disappears.

Optionally, the side of the stop member 13 facing the bottom end of the handle holder 12 may be further provided with an elastic member 15, and the elastic member 15 is used for moving the stop member 13 to the locking position. The user applies an external force to the pressing member 14 to move the stopper 13 to the unlocking position, the handle 11 can rotate around the central shaft 112 relative to the handle seat 12, and in order to return the stopper 13 to the locking position, the handle 11 can not rotate, in the embodiment, one side of the stopper 13 facing the bottom end of the handle seat 12, namely, the lower end of the stopper 13 is provided with the elastic member 15, when the stopper 13 moves to the unlocking position, the elastic member 15 is pressed downwards to enable the elastic member 15 to have a resilience force, and the resilience force can enable the stopper 13 to return to the locking position.

Exemplarily, the elastic member 15 may be a spring plate, a slot may be disposed at the lower end of the stop member 13, so that one end of the spring plate extends into the slot, the other end of the spring plate is connected to the inner wall of the handle seat 12, and the middle portion of the spring plate has a bending section protruding in a direction away from the stop member 13, when the stop member 13 downwardly presses the spring plate, the bending section of the spring plate generates an elastic force, after the downward external force disappears, the bending section of the spring plate returns to an original shape, and the stop member 13 upwardly moves to a locking position. The elastic member 15 may be a spring connected between the lower end of the stopper 13 and the inner wall of the handle holder 12, and the spring may be compressed by an external force applied to the stopper 13 and return the stopper 13 to the locking position by the spring after the external force disappears.

The foldable handle that this embodiment provided comprises interconnect's handle seat and handle, and the handle seat is fixed on pot external wall, through wear to establish axis of rotation and central axle on the handle, axis of rotation and central axle rigidity and mutual interval are provided with first spout and second spout on the handle seat, and axis of rotation and central axle are located first spout and second spout respectively, and can correspond and slide in first spout and second spout to make the handle rotate handle seat relatively. The first sliding chute and the second sliding chute are respectively provided with a first end close to the pot body and a second end far away from the pot body, a stop piece is arranged in the first sliding chute and/or the second sliding chute, the handle can be provided with a locking position and an unlocking position through the movement of the stop piece in the first sliding chute and/or the second sliding chute, and when the stop piece is positioned at the locking position, the rotating shaft and the central shaft cannot move, so that the handle cannot rotate relative to the handle seat; when the stop member is in the unlocked position, the pivot shaft and the central shaft are movable to allow the handle to pivot relative to the handle seat. Wherein, first spout includes the translation section that extends to the second end by its first end, the axis of rotation when the translation section removes, can make the handle move towards or deviate from the handle seat, and the axis of rotation can't rotate around the center pin, set up the opening through the middle part at the translation section, the axis of rotation can rotate around the center pin after deviating from the translation section from the opening in order to fold the handle, and under the condition of the outside pulling handle of user's maloperation, the axis of rotation can move to the second end and the backstop of translation section at the second end, unable turning handle this moment, only when the user moves back the handle to the opening that makes the axis of rotation correspond translation section middle part, just rotatable handle, so not only can improve the stability that handle and handle seat are connected, the handle can bear great load, and can reduce the maloperation and lead to the possibility of overturning the pan, foldable handle's.

Example two

The embodiment provides a pot, which can comprise a pot body 2 and a foldable handle 1 as described in the first embodiment, wherein the foldable handle 1 is connected to the outer wall of the pot body 2, and when the foldable handle 1 is in an unfolded state, a user can conveniently hold the foldable handle to move the pot; when the foldable handle 1 is in a folded state, the occupied space is small, and the pot can be conveniently stored. The detailed structure, function and operation principle of the foldable handle 1 have been described in detail in the first embodiment, and are not described herein again.

The pot provided by the embodiment comprises a foldable handle 1, the foldable handle 1 comprises a handle 11 and a handle seat 12, the handle seat 12 is fixed on the outer wall of the pot, the handle 11 is respectively connected with a first sliding groove 121 and a second sliding groove 122 of the handle seat 12 through a rotating shaft 111 and a central shaft 112, and the rotating shaft 111 and the central shaft 112 can slide in the first sliding groove 121 and the second sliding groove 122 correspondingly, so that the handle 11 can rotate relative to the handle seat 12. Wherein, by arranging the stopper 13 in the first sliding groove 121 and/or the second sliding groove 122, the stopper 13 is movable in the first sliding groove 121 and/or the second sliding groove 122 and has a locked position and an unlocked position, the rotating shaft 111 and the central shaft 112 are immovable when the stopper 13 is in the locked position, the rotating shaft 111 and the central shaft 112 are movable and the handle 11 is rotatable relative to the handle holder 12 when the stopper 13 is in the unlocked position.

In the pot provided by the embodiment, the foldable handle 1 controls the connection between the handle 11 and the handle seat 12 and the rotation of the handle 11 relative to the handle seat 12 through the two shafts, namely the rotating shaft 111 and the central shaft 112 with a distance, so that the connection between the handle 11 and the handle seat 12 has better stability, and the handle 11 can bear larger load.

In addition, by providing the opening 1211a in the middle of the translation section 1211 of the first sliding chute 121, when the rotation shaft 111 moves in the translation section 1211 to correspond to the opening 1211a, the rotation shaft 111 can be pulled out of the translation section 1211 from the opening 1211a, and then the rotation shaft 111 can rotate around the central shaft 112 to fold the handle 11 during the external force applied to the handle 11 by the user; and under the condition that the user pulls the handle 11 in the direction away from the handle seat 12 by misoperation, the rotating shaft 111 can directly move to the second end of the translation section 1211 and stop the second end, at this time, the handle 11 cannot be rotated, and only when the user retracts the handle 11 to enable the rotating shaft 111 to correspond to the opening 1211a in the middle of the translation section 1211, the handle 11 can be rotated, so that the possibility of turning over the pot caused by misoperation can be reduced, and the use safety of the foldable handle 1 is better.

Alternatively, the end of the handle 11 connected to the handle holder 12 may at least partially cover the handle holder 12. The handle 11 and the handle seat 12 form an integral appearance structure by at least covering the handle seat 12 at one end of the handle 11 connected with the handle seat 12 and covering the first sliding chute 121, the second sliding chute 122 and other partial structures of the handle seat 12 on the outer wall of the handle 11, so that the integral structure of the foldable handle 1 is more concise and elegant.

The pan that this embodiment provided includes the foldable handle and the pot body, the foldable handle includes handle and handle seat, the handle seat is fixed on the outer wall of the pot body, through wear to establish axis of rotation and central axle on the handle, axis of rotation and central axle rigidity and mutual interval are provided with first spout and second spout on the handle seat, axis of rotation and central axle are located first spout and second spout respectively, and can correspond and slide in first spout and second spout, so that the handle can rotate relative to the handle seat. The first sliding chute and the second sliding chute are respectively provided with a first end close to the pot body and a second end far away from the pot body, a stop piece is arranged in the first sliding chute and/or the second sliding chute, the handle can be provided with a locking position and an unlocking position through the movement of the stop piece in the first sliding chute and/or the second sliding chute, and when the stop piece is positioned at the locking position, the rotating shaft and the central shaft cannot move, so that the handle cannot rotate relative to the handle seat; when the stop member is in the unlocked position, the pivot shaft and the central shaft are movable to allow the handle to pivot relative to the handle seat. Wherein, first spout includes the translation section that extends to the second end by its first end, the axis of rotation when the translation section removes, can make the handle move towards or deviate from the handle seat, and the axis of rotation can't rotate around the center pin, set up the opening through the middle part at the translation section, the axis of rotation can rotate around the center pin after deviating from the translation section from the opening in order to fold the handle, and under the condition of the outside pulling handle of user's maloperation, the axis of rotation can move to the second end and the backstop of translation section at the second end, unable turning handle this moment, only when the user moves back the handle to the opening that makes the axis of rotation correspond translation section middle part, just rotatable handle, so not only can improve the stability that handle and handle seat are connected, the handle can bear great load, and can reduce the maloperation and lead to the possibility of overturning the pan, foldable handle's.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (13)

1. The foldable handle is characterized by comprising a handle (11) and a handle seat (12), wherein the handle seat (12) is arranged on the outer wall of a pot body (2), the handle (11) is rotatably connected with the handle seat (12), a rotating shaft (111) and a central shaft (112) which are relatively fixed and spaced are arranged on the handle (11) in a penetrating manner, a first sliding groove (121) and a second sliding groove (122) are arranged on the handle seat (12), and the rotating shaft (111) and the central shaft (112) are respectively arranged in the first sliding groove (121) and the second sliding groove (122) in a sliding manner;

the first sliding chute (121) and the second sliding chute (122) are provided with a first end close to the pan body (2) and a second end far away from the pan body (2), a movable stop piece (13) is arranged in the first sliding chute (121) and/or the second sliding chute (122), the stop piece (13) can move in the first sliding chute (121) and/or the second sliding chute (122) and has a locking position and an unlocking position, when the stop piece (13) is positioned at the locking position, the rotating shaft (111) and the central shaft (112) can not move, and when the stop piece (13) is positioned at the unlocking position, the rotating shaft (111) and the central shaft (112) can move;

wherein the first sliding chute (121) comprises a translation section (1211), the translation section (1211) extends from a first end to a second end of the first sliding chute (121), an opening (1211a) is formed in the middle of the translation section (1211), the handle (11) moves towards or away from the handle seat (12) when the rotation shaft (111) moves in the translation section (1211), and the rotation shaft (111) rotates around the central shaft (112) after the rotation shaft (111) is pulled out of the translation section (1211) from the opening (1211 a).

2. The foldable handle according to claim 1, wherein the first runner (121) further comprises a guiding section (1212), the guiding section (1212) being connected to an opening (1211a) of the translating section (1211), the rotation shaft (111) being accessible from the opening (1211a) to the guiding section (1212) for rotating the rotation shaft (111) about the central shaft (112).

3. The foldable handle according to claim 2, wherein the second runner (122) comprises a first segment (1221), and the rotational axis (111) stops at a first end of the translational segment (1211) and/or the central axis (112) stops at a first end of the first segment (1221) when the stop (13) is in the locked position.

4. The foldable handle of claim 3, wherein the rotation shaft (111) and the central shaft (112) are synchronously movable when the stopper (13) is in the unlocked position, and the rotation shaft (111) is movable to the second end of the translation section (1211) to fix the handle (11) relative to the handle seat (12);

and/or, the central axis (112) is located at the second end of the first segment (1221) when the rotational axis (111) is located at the second end of the translation segment (1211).

5. The foldable handle of claim 3, wherein the rotation shaft (111) and the central shaft (112) are movable synchronously when the stopper (13) is in the unlocked position, and the rotation shaft (111) can enter the guide section from the opening (1211a) of the translation section (1211).

6. The foldable handle according to any of claims 3-5, characterized in that the first runner (121) and/or the second runner (122) further comprises a second section (123), the second section (123) being connected on a side of the translating section (1211) facing away from the guiding section (1212), or the second section (123) being connected with the first section (1221), the stop (13) moving within the second section (123).

7. The foldable handle according to any of claims 3-5, characterized in that the translational section (1211) of the first runner (121) and the first section (1221) of the second runner (122) are of the same shape and/or length;

and/or the translation section (1211) of the first runner (121) and the first section (1221) of the second runner (122) are straight sections or arc sections.

8. The foldable handle of any of claims 2-5, wherein the guide section (1212) is a circular arc section; and/or the presence of a gas in the gas,

the end of the guide section (1212) is an open end (1212a), and the cross-sectional area of the guide section (1212) gradually increases from the end connected with the translation section (1211) toward the open end (1212 a).

9. The foldable handle according to claim 6, wherein the stopper (13) comprises a stopper portion (131) and a stopper portion (132), the stopper portion (131) is connected to an end of the stopper portion (132) facing the bottom end of the handle seat (12), and the stopper portion (131) is located on a side of the stopper portion (132) facing the translation section (1211) or the first section (1221);

the limiting part (131) moves in the second section (123) to move to the locking position to enable the limiting part (131) to stop the rotating shaft (111) and/or the central shaft (112), or move to the unlocking position to enable the stopping part (132) to stop the rotating shaft (111) and/or the central shaft (112).

10. The foldable handle according to any of claims 1-5, characterized in that the side of the stop (13) facing the bottom end of the handle seat (12) is further provided with a resilient member (15), which resilient member (15) is adapted to move the stop (13) to the locking position.

11. The foldable handle according to any of claims 1-5, characterized in that a pressing piece (14) is provided on the handle (11) and/or the handle seat (12), the pressing piece (14) being adapted to move the stopper (13) from the locked position to the unlocked position.

12. The foldable handle according to any of claims 1-5, characterized in that the rotational axis (111) and the central axis (112) have a spacing in horizontal and/or vertical direction;

and/or the rotating shaft (111) is arranged close to the pot body (2), and the central shaft (112) is arranged far away from the pot body (2).

13. A pot, characterized in that, comprising a foldable handle (1) and a pot body (2) according to any one of claims 1-12, the foldable handle (1) is connected to the outer wall of the pot body (2).

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