CN216256813U

CN216256813U - Detachable handle with high responsiveness

Info

Publication number: CN216256813U
Application number: CN202122512384.3U
Authority: CN
Inventors: 毛徐斌
Original assignee: Ningbo Haishuhao Plastic Products Co ltd
Current assignee: Ningbo Haosheng Industry And Trade Co ltd
Priority date: 2021-10-19
Filing date: 2021-10-19
Publication date: 2022-04-12
Anticipated expiration: 2031-10-19

Abstract

The utility model discloses a high-responsiveness detachable handle which comprises a main body (1), a sliding button (5) and an executing piece (4), wherein the sliding button (5) and the executing piece (4) are arranged in the main body (1), the executing piece (4) is hinged to the main body (1), one end of the executing piece (4) is in clamping fit with the sliding button (5) through a clamping structure, the sliding button (5) is moved to enable the executing piece (4) to be disengaged from the sliding button (5), a pushing structure (10) is further arranged between the sliding button (5) and the executing piece (4), and the pushing structure (10) pushes the executing piece (4) to rotate around the hinged position after the executing piece (4) is disengaged from the sliding button (5). The utility model provides a high-responsiveness detachable handle which is high in matching reliability with a cooker and high in unlocking response efficiency.

Description

Detachable handle with high responsiveness

Technical Field

The utility model relates to the technical field of kitchen utensils, in particular to a detachable handle with high responsiveness.

Background

The cookware is a common cookware in kitchens. The cookware in the prior art has two forms, one is a pot with a handle, the handle is fixed with the pot body, the occupied space of the cookware is large, the cookware is not beneficial to washing and storage, the cookware without the handle is a cookware without the handle, such as an inner container in an electric cooker, various soup pots, a frying pan and an inner container of a pressure cooker, the cookware without the handle is more convenient to clean and store, and the cookware without the handle is provided with a detachable handle. The detachable handle mentioned in CN209999125U is provided with a main body, a fixed clamping jaw, a movable clamping jaw, an executing piece and a sliding button, wherein a clamping structure is arranged between the executing piece and the sliding button, and when the sliding button is located at a clamping position, the sliding button is clamped by the clamping structure and the clamping block abuts against the side wall of the groove, so that the movable clamping jaw and the fixed clamping jaw are matched to realize a clamping state; when the sliding button is moved to the unlocking position, the unlocking of the clamping structure between the executing part and the sliding button enables the executing part to rotate so that the clamping block moves into the groove and further loosens the movable clamping jaw relative to the fixed clamping jaw.

Disclosure of Invention

The technical problem to be solved by the utility model is as follows: the detachable handle is high in matching reliability with a cooker, high in unlocking response efficiency and high in responsiveness.

The technical scheme adopted by the utility model for solving the problems is as follows: the utility model provides a removable handle of high responsiveness, includes the main part, establishes smooth button and the executive component in the main part, the executive component is articulated with the main part, the one end of executive component and smooth button realize the joint cooperation through the block structure, remove smooth button in order to remove the cooperation with smooth button with the executive component, still be equipped with between smooth button and the executive component and promote the structure and be in promote after the cooperation is removed with smooth button to the executive component is rotatory around articulated department.

Compared with the prior art, the technical scheme has the advantages that: when the main body is in a clamping state, the clamping block at one end of the executing piece is abutted against the side wall of the groove of the movable clamping jaw, so that the movable clamping jaw is kept in a minimum space state relative to the fixed clamping jaw, namely in a clamping state, and meanwhile, the other end of the executing piece is in matched clamping connection with the sliding button through the clamping structure, so that the clamping block is kept in an abutted state against the side wall of the groove, the whole operation is convenient, the matching is reliable, when the unlocking is needed, the clamping connection of the executing piece is released through the movable sliding button and the clamping structure, after the movable clamping jaw is clamped with the pot, the stress is larger, even if the abutting state of the clamping block and the groove tends to collapse due to overlarge self weight of the pot, the executing piece still can be kept in a clamping state under the condition that the executing piece is not pushed to rotate by initial force, therefore, when the executing piece cannot be opened, the pushing structure between the sliding button and the executing piece continues to move along with the sliding button, so that the executing piece rotates around the hinged part, therefore, the limit of the movable clamping jaw and the executing piece is released, and the unlocking responsiveness is improved.

As an improvement of the present invention, the pushing structure includes a pushing block protruding from the slide button and a pushing groove recessed from the actuating member, the pushing block has a first sidewall, the pushing groove has a second sidewall corresponding to the first sidewall, and after the pushing block moves along with the slide button, the first sidewall pushes the second sidewall to drive the actuating member to rotate around the hinge.

As a modification of the present invention, the second side wall is disposed obliquely, and the direction of the force applied by the first side wall to the second side wall is a first direction, and the first direction corresponds to a tangential direction of the actuating member with the hinge as a rotation center.

As an improvement of the present invention, a protrusion is disposed on the first sidewall, and the first sidewall abuts against the second sidewall through the protrusion.

As an improvement of the present invention, the number of the bumps is several, the several bumps are sequentially arranged along the height direction of the slider, and when the second sidewall is driven by the bumps, the several bumps sequentially abut against the second sidewall from top to bottom.

As a further improvement of the present invention, the number of the bumps is three, and the three bumps include a first bump, a second bump and a third bump, which are sequentially arranged from top to bottom, when the pushing block pushes the pushing groove, the first bump first pushes against the second sidewall to push, then the second bump pushes against the second sidewall to push, and finally the third bump pushes against the second sidewall to push.

As an improvement of the utility model, the detachable handle further comprises a fixed clamping jaw and a movable clamping jaw, the fixed clamping jaw is arranged at one end of the main body, the movable clamping jaw is hinged with the main body, one end of the movable clamping jaw is provided with a clamping surface matched with the fixed clamping jaw, the other end of the movable clamping jaw is provided with a groove, the other end of the actuating member is provided with a clamping block matched with the groove, when the slide button is positioned at the clamping position, the actuating member and the slide button are clamped through a clamping structure, and the clamping block is abutted against the side wall of the groove so that the movable clamping jaw is matched with the fixed clamping jaw to realize a clamping state; when the sliding button is moved to the unlocking position, the clamping structure between the executing piece and the sliding button is unlocked, so that the executing piece rotates, the clamping block moves into the groove, and the movable clamping jaw is loosened relative to the fixed clamping jaw.

As an improvement of the present invention, the engaging structure includes a first engaging portion provided on the slide button and a second engaging portion provided on the actuating member, and the first engaging portion and the second engaging portion are engaged to limit the rotation of the actuating member.

As an improvement of the present invention, an upper end surface of the first fastening portion abuts against a lower end surface of the second fastening portion to limit rotation of the actuating member relative to the main body, a guide surface is disposed on the lower end surface of the first fastening portion and/or the upper end surface of the second fastening portion, and the guide surface is an inclined surface or an arc surface to convert vertical displacement into lateral displacement of the slide button when the second fastening portion approaches the first fastening portion.

As a further improvement of the present invention, an elastic member is disposed between the actuating member and the main body, a first elastic end of the elastic member abuts against the main body, a second elastic end of the elastic member abuts against the actuating member, and the elastic member makes the actuating member have a tendency of springing open towards the main body.

Drawings

Fig. 1 is a perspective view of the overall structure of the detachable handle of the present invention.

Fig. 2 is a front view of the sectional structure of the detachable handle in the clamping state.

FIG. 3 is an enlarged partial cross-sectional view of the first protrusion of the detachable handle contacting the second sidewall of the present invention.

FIG. 4 is an enlarged partial cross-sectional view of the second protrusion of the detachable handle contacting the second sidewall of the present invention.

FIG. 5 is an enlarged partial cross-sectional view of the third protrusion of the detachable handle contacting the second sidewall of the present invention.

FIG. 6 is a front view of the detachable handle in the unlocked position.

FIG. 7 is a perspective view of the overall structure of the detachable handle of the present invention in the form of a pan ear.

FIG. 8 is a front view of the sectional structure of the detachable handle of the present invention in a clamping state when the detachable handle is in a shape of a pot ear.

FIG. 9 is a front view of the sectional structure of the detachable handle of the present invention in a clamping state when the detachable handle is in a shape of a pot ear.

FIG. 10 is a front view of the sectional structure of the detachable handle of the present invention for clamping the pot when the handle is shaped like a pot ear.

FIG. 11 is a perspective view of the elastic member disposed between the main body and the actuator according to the present invention.

FIG. 12 is a perspective view of another perspective structure of the present invention with an elastic member disposed between the main body and the actuator.

Fig. 13 is a schematic perspective view of the elastic member of the present invention.

1. A main body; 1.1, an accommodating cavity; 1.2, a guide groove; 2. fixing the clamping jaw; 3. a movable clamping jaw; 3.1, clamping surfaces; 3.2, grooves; 4. an executive component; 4.1, clamping blocks; 4.2, a second buckling part; 4.3, touching the bulge; 5. a slide button; 5.1, a first buckling part; 5.2, a guide part; 5.3, a sliding button part; 5.4, a translation part; 5.5, clearance; 6. hinging a shaft; 7. a return spring; 8. a pot; 8.1, reserving edges; 9. an elastic member; 9.1, spiral body; 9.1.1, a first portion; 9.1.2, a second part; 9.2, a first torsion arm; 9.3, a second torsion arm; 23. a clamping groove; 34. a guide surface; 10. a pushing structure; 10.1, a push block; 10.1.1, a first side wall; 10.1.2, bumps; 10.1.2.1, a first bump; 10.1.2.2, a second bump; 10.1.2.3, a third bump; 10.2, pushing the groove; 10.2.1, second side wall.

Detailed Description

Embodiments of the present invention are further described below with reference to the accompanying drawings.

As described in the context of figures 1-11,

a high-responsiveness detachable handle comprises a main body 1, a fixed clamping jaw 2 and a movable clamping jaw 3, wherein the fixed clamping jaw 2 is arranged at one end of the main body 1, the movable clamping jaw 3 is hinged with the main body 1, one end of the movable clamping jaw 3 is provided with a clamping surface 3.1 matched with the fixed clamping jaw 2, the other end of the movable clamping jaw 3 is provided with a groove 3.2, the detachable handle further comprises an executive component 4 and a slide button 5 used for transverse movement, the executive component 4 is hinged with the main body 1, one end of the executive component 4 is provided with a clamping block 4.1 matched with the groove 3.2, a clamping structure is arranged between the other end of the executive component 4 and the slide button 5,

when the sliding button 5 is located at the clamping position, the executing part 4 and the sliding button 5 are clamped through the clamping structure, and meanwhile the clamping block 4.1 is abutted against the side wall of the groove 3.2, so that the movable clamping jaw 3 is matched with the fixed clamping jaw 2 to achieve a clamping state;

when the sliding button 5 is moved to the unlocking position, the clamping structure between the executing part 4 and the sliding button 5 is unlocked, so that the executing part 4 rotates, the clamping block 4.1 moves into the groove 3.2, and the movable clamping jaw 3 is loosened relative to the fixed clamping jaw 2.

The main body 1 is a handle body, when the main body is in a clamping state, as shown in fig. 2, a clamping block 4.1 at one end of the executing part 4 is abutted against the side wall of a groove 3.2 of the movable clamping jaw 3, so that the movable clamping jaw 3 is kept in a minimum space state relative to the fixed clamping jaw 2, namely, the clamping state, and meanwhile, the other end of the executing part 4 is clamped in a matching manner with the sliding button 5 through a clamping structure, so that the clamping block 4.1 is kept in an abutted state against the side wall of the groove 3.2, and even if the pot 8 is too heavy, the abutted state of the clamping block 4.1 and the groove 3.2 tends to collapse, the clamping structure needs to be unlocked first, so that the clamping block 4.1 can be moved into the groove 3.2 for unlocking, and the stability of the clamping state is improved;

as shown in fig. 6, when the clamping state is switched to the loosening state, the sliding button 5 is moved, the clamping structure is unlocked, the executing part 4 rotates by taking the hinge shaft as the axis under the common drive of the self gravity of the cooker 8 and the gravity of the clamping section of the executing part 4, the clamping block 4.1 rotates to enter the groove 3.2, the clamping block 4.1 is contacted with the limit state of the side wall of the groove 3.2 in an abutting mode, the movable clamping jaw 3 is far away from the fixed clamping jaw 2, namely, the handle is switched to the loosening state;

when the detachable handle needs to be switched from the loosening state to the clamping state, the other end of the executing piece 4 is clamped with the sliding button 5 in a matched mode through the clamping structure by pressing the other end of the executing piece 4, and the clamping block 4.1 is abutted to the side wall of the groove 3.2 and is switched to the clamping state;

the whole operation is convenient, and the matching is reliable;

as shown in FIGS. 2 to 4,

a pushing structure 10 is further arranged between the sliding button 5 and the executing part 4, and the pushing structure 10 pushes the executing part 4 to rotate around the hinge joint when the executing part 4 is disengaged from the sliding button 5.

The pushing structure 10 is further arranged between the sliding button 5 and the actuator 4, the pushing structure 10 includes a pushing block 10.1 protruding from the sliding button 5 and a pushing groove 10.2 recessed from the actuator 4, the pushing block 10.1 is provided with a first side wall 10.1.1, the pushing groove 10.2 is provided with a second side wall 10.2.1 corresponding to the first side wall 10.1.1, and after the pushing block 10.1 moves along with the sliding button 5, the first side wall 10.1.1 pushes the second side wall 10.2.1 to drive the actuator 4 to rotate around the hinge joint. Here, if the space allows, the slide button 5 itself can be thickened, and it is also within the scope of protection of the present application to provide the push groove 10.2 in the slide button 5 and the push block 10.1 at the actuator 4. Through the contact surface cooperation of first lateral wall 10.1.1 and second lateral wall 10.2.1, can reduce area of contact, improve response performance, avoid ejector pad 10.1 and push away groove 10.2 card dead.

Wherein the second side wall 10.2.1 is disposed obliquely, and the direction of the force applied to the second side wall 10.2.1 by the first side wall 10.1.1 is a first direction X, which is shown in fig. 3 and corresponds to the tangential direction of the actuating member 4 with the hinge as the rotation center. By providing the second side wall 10.2.1 with such an inclination angle, a larger pushing moment can be provided to the actuating member 4 when the first side wall 10.1.1 and the second side wall 10.2.1 are abutted.

The first side wall 10.1.1 is provided with a protrusion 10.1.2, and the first side wall 10.1.1 is abutted against the second side wall 10.2.1 through the protrusion 10.1.2. By arranging the bump 10.1.2, the original surface contact between the first side wall 10.1.1 and the second side wall 10.2.1 can be changed into point contact, so that the contact area is further reduced, the response performance is improved, and the push block 10.1 and the push groove 10.2 are prevented from being locked.

The number of the bumps 10.1.2 is several, the bumps 10.1.2 are sequentially arranged along the height direction of the slider, and when the bumps 10.1.2 drive the second sidewall 10.2.1, the bumps 10.1.2 sequentially abut against the second sidewall 10.2.1 from top to bottom.

The quantity of lug 10.1.2 is three in the figure, from top to bottom distinguishes lug 10.1.2 into first lug 10.1.2.1, second lug 10.1.2.2 and third lug 10.1.2.3 in proper order, and when ejector pad 10.1 promoted to push away groove 10.2, first lug 10.1.2.1 earlier promoted with second lateral wall 10.2.1 counterbalance, and second lug 10.1.2.2 promoted with second lateral wall 10.2.1 counterbalance afterwards, and third lug 10.1.2.3 promoted with second lateral wall 10.2.1 counterbalance at last, and the advantage that sets up like this lies in:

as can be seen in fig. 3, the first tab 10.1.2.1 is furthest from the hinge, i.e., center of rotation, of the actuator 4, the first tab 10.1.2.1 can provide the greatest pushing torque, but the pushing distance of the first tab 10.1.2.1 is the smallest due to the furthest distance from the center of rotation;

as can be seen in fig. 4, when the pushing of the first bump 10.1.2.1 is finished, the second bump 10.1.2.2 continues to participate in the pushing, and the pushing torque is slightly smaller but the pushing distance is increased relative to the first bump 10.1.2.1;

fig. 5 shows that, after the pushing of the second bump 10.1.2.2 is finished, the third bump 10.1.2.3 continues to participate in the pushing, the pushing torque of the third bump 10.1.2.3 is minimum, but the pushing distance is maximum, and due to the pushing of the first bump 10.1.2.1 and the second bump 10.1.2.2, when the pushing of the third bump 10.1.2.3 is participated, the actuating element 4 has already rotated to a greater extent, so that the third bump 10.1.2.3 provides the maximum pushing distance;

compared with the arrangement of only one projection 10.1.2, the opening responsiveness of the actuating element 4 is further improved and the actuating element 4 is prevented from staying in the clamping position by the staged change of the maximum drive torque in the first phase and the minimum drive distance in the second phase, the intermediate drive torque in the second phase and the minimum drive distance in the third phase and the maximum drive distance in the third phase.

Fig. 7 to 13 show a detachable handle in the shape of a handle, the unlocking principle is consistent with the handle structure except for the pushing structure, the handle can also be provided with the pushing structure, and the unlocking structure in the shape of the handle is explained below for the sake of clear principle of the unlocking structure.

As shown in fig. 7 to 9, the hinging of the movable clamping jaw 3 and the main body 1 and the hinging of the actuating member 4 and the main body 1 can be realized by arranging corresponding hinging holes on the main body 1, the movable clamping jaw 3 and the actuating member 4 and inserting a long hinging shaft 6 into the hinging holes, so that the structure is simple and the assembly is convenient, hinging parts can also be arranged at the two ends of the actuating member 4 and the movable clamping jaw 3 in a protruding manner, hinging grooves are arranged in the main body 1, the hinging parts are matched with the hinging grooves to realize hinging, and the hinging structure is conventional and is not limited herein.

Wherein, the block structure is including establishing first buckling parts 5.1 on smooth button 5 and establishing second buckling parts 4.2 on executive component 4, and first buckling parts 5.1 and the cooperation of second buckling parts 4.2 are in order to carry out spacingly to executive component 4's rotation.

The upper end surface of the first buckling part 5.1 is abutted against the lower end surface of the second buckling part 4.2 so as to limit the rotation of the executive component 4 relative to the main body 1, the lower end surface of the first buckling part 5.1 and/or the upper end surface of the second buckling part 4.2 are/is provided with a guide surface 34, and the guide surface 34 is an inclined surface or an arc surface so as to convert vertical force into force for driving the slide button 5 to transversely move when the second buckling part 4.2 is close to the first buckling part 5.1;

the upper end surface of the first buckling part 5.1 is abutted against the lower end surface of the second buckling part 4.2, so that the execution part 4 is limited in rotation relative to the main body 1, the sliding button 5 is moved in parallel, namely, the first buckling part 5.1 is moved away from the second buckling part 4.2, the first buckling part 5.1 does not limit the second buckling part 4.2 any more, the execution part 4 rotates to unlock and loosen, the first buckling part 5.1 is simple in matching with the second buckling part 4.2, the clamping or unlocking is convenient, and the integral unlocking or clamping response of the detachable handle is quick;

the lower terminal surface of first buckling part 5.1 and the up end of second buckling part 4.2 all can set up guide surface 34, and guide surface 34 is used for turning into the power of the smooth button 5 lateral shifting of drive with vertical power at the in-process that second buckling part 4.2 is close to and cooperates the chucking relative first buckling part 5.1, is convenient for get into the spacing block state of up end of first buckling part 5.1 and the lower terminal surface counterbalance of second buckling part 4.2.

Wherein, the first buckling part 5.1 is arranged at one end of the slide button 5, and a return spring 7 is arranged between the first buckling part 5.1 and the slide button 5;

reset spring 7 can make slide button 5 keep in the chucking position, can dismantle the handle at centre gripping pan 8 and when keeping the chucking state, reset spring 7 can press first buckling parts 5.1 towards second buckling parts 4.2 and avoid both to break away from, can dismantle the handle when unclamping the state, need certain power just can overcome reset spring 7's elasticity and go into first buckling parts 5.1 with second buckling parts 4.2 card, avoid second buckling parts 4.2 to fall into first buckling parts 5.1 naturally and cause the troublesome poeration.

Wherein, the main body 1 is internally provided with an accommodating cavity 1.1 for accommodating the return spring 7;

the accommodating cavity 1.1 is used for accommodating the return spring 7 and guiding the compression or reset of the return spring 7, so that the return spring 7 is prevented from being failed due to the deformation of the return spring 7 in the non-axial direction, and the first buckling part 5.1 and the second buckling part 4.2 are accidentally unlocked to cause the fall of the cookware 8.

The end part of the slide button 5 is also provided with a guide part 5.2, a guide groove 1.2 matched with the guide part 5.2 is arranged in the main body 1, and the guide part 5.2 is matched with the guide groove 1.2 for guiding so that the slide button 5 transversely moves relative to the main body 1;

the cooperation of guide part 5.2 and guide way 1.2 makes slide button 5 more reliable and more stable when lateral shifting, improves the holistic life of removable handle.

The sliding button 5 comprises a sliding button part 5.3 exposed outside the main body 1 and a translation part 5.4 arranged in the main body 1, and the sliding button part 5.3 is detachably connected with the translation part 5.4 through a connecting screw;

when the sliding button is installed, the sliding button part 5.3 abuts against the outer end face of the main body 1, the translation part 5.4 abuts against the inner end face of the main body 1, and then the sliding button part is fixedly connected through the connecting screw, so that the sliding button 5 is convenient to install integrally, and the assembling efficiency is improved.

Wherein, be equipped with between smooth button portion 5.3 and the translation portion 5.4 and supply smooth button 5 to remove the clearance 5.5 of the displacement volume relative to main part 1, this clearance 5.5 also is the shifting chute, have the displacement volume that supplies smooth button 5 to remove and cooperate with main part 1 in order to carry out the dual function that leads to smooth button 5, the one end of smooth button 5 is passed through clearance 5.5 and the cooperation of main part 1 and is led, the other end passes through guide portion 5.2 and guide way 1.2 cooperation and leads for the translation of smooth button 5 is more smooth and more stable.

The surface of the executive component 4 exposed at the lower end of the main body 1 is provided with a plurality of touch bulges 4.3, and the touch bulges 4.3 are distributed at intervals;

the touch bulge 4.3 is used for providing friction force when switching from a loosening state to a clamping state, so that slipping is avoided, and the use comfort is improved.

Wherein, the fixed clamping jaw 2 is detachably connected with the main body 1 through an assembly screw;

the fixed clamping jaw 2 and the main body 1 are detachably connected through an assembly screw, an anti-skidding rubber mat can be arranged on the fixed clamping jaw 2, and the anti-skidding foot mat can be conveniently installed or replaced after the fixed clamping jaw 2 is detached.

The clamping object of the detachable handle is a pot 8, a reserved edge 8.1 is convexly arranged on the outer edge of the upper end of the pot 8, a clamping groove 23 is arranged at the upper end of a clamping surface 3.1 of the fixed clamping jaw 2 and the movable clamping jaw 3 in a clearance fit mode, the fixed clamping jaw 2 and the movable clamping jaw 3 are matched with the reserved edge 8.1 through the clamping groove 23, and the clamping surface 3.1 of the fixed clamping jaw 2 and the movable clamping jaw 3 is matched with the pot 8 to achieve clamping;

pot 8 stay limit 8.1 through 23 centre gripping grooves, the body of pot 8 carries out the centre gripping through the clamping face 3.1 cooperation of fixed clamping jaw 2 and activity clamping jaw 3, through two chuckings and realize pot 8's stable centre gripping, avoids the accident to drop.

As shown in fig. 11 to 13, an elastic member 9 is disposed between the main body 1 and the actuating member 4, the elastic member 9 makes the actuating member 4 tend to spring open toward the main body 1, when the slide button 5 is operated to an unlocking position, the engaging structure between the actuating member 4 and the slide button 5 is unlocked, the elastic force of the elastic member 9 drives the actuating member 4 to rotate by using the hinge shaft 6 as a rotation axis, so that the clamping block 4.1 is conveniently moved into the groove 3.2, the movable clamping jaw 3 is released from the fixed clamping jaw 2, because the clamping block 4.1 and the side wall of the groove 3.2 are in an abutting state, the movable clamping jaw 3 and the fixed clamping jaw 2 clamp the pot 8, if the actuating member 4 is not driven to rotate by a driving force, the actuating member 4 is easily kept in an original dead-up state, it is difficult to release the pot 8, and the elastic member 9 is disposed here to enable the actuating member 4 to quickly respond to unlocking.

The elastic component 9 can be a conventional spring, the spring is clamped between the executing component 4 and the main body 1, the second elastic end of the spring is abutted against the executing component 4, the first elastic end of the spring is abutted against the main body 1, the two elastic ends of the spring are two ends of the spring, the spring provides the executing component 4 with a tendency of bouncing away towards the main body 1 all the time, the accommodating groove can be arranged in the main body 1 and used for accommodating the spring, the specific arrangement mode of the spring is conventional, and the description is omitted here.

The elastic member 9 can also be a torsion spring as shown in fig. 11-13, a spiral body 9.11 of the torsion spring is sleeved on the hinge shaft 6 between the actuating member 4 and the main body 1, two elastic ends of the torsion spring are two torsion arms, a first elastic end, i.e., the first torsion arm 9.2, abuts against the main body 1, a second elastic end, i.e., the second torsion arm 9.3, abuts against the actuating member 4, and the torsion spring makes the actuating member 4 always have a tendency of bouncing away toward the main body 1.

In addition, in the present application, the torsion spring structure has a special design, that is, the spiral body 9.11 of the torsion spring is divided into a first portion 9.1.1 and a second portion 9.1.2, the two portions are respectively sleeved at two ends of the hinge shaft 6, the second torsion arm 9.3 is connected with the two portions and abuts against the main body 1, the two first torsion arms 9.2 are respectively arranged on the first portion 9.1.1 and the second portion 9.1.2, such arrangement can make the second torsion arm 9.3 be a long strip shape, the elastic action on the actuating element 4 is more uniform and stable, the actuating element 4 can be prevented from being twisted and locked, and the two first torsion arms 9.2 can be symmetrically arranged at two sides of the second torsion arm 9.3, and can also provide more stable elastic force.

The detachable handle can be a pan handle as shown in fig. 1-6, or a clamping mechanism for clamping a pan such as a pan lug as shown in fig. 7-12.

The foregoing is merely illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and the specific structure thereof is allowed to vary. All changes which come within the scope of the utility model as defined by the independent claims are intended to be embraced therein.

Claims

1. The utility model provides a removable handle of high responsiveness, includes main part (1), establishes slide button (5) and executive (4) in main part (1), executive (4) are articulated with main part (1), the joint cooperation is realized through the block structure with slide button (5) in the one end of executive (4), removes slide button (5) is in order to disengage executive (4) and slide button (5), its characterized in that: still be equipped with between smooth button (5) and executive (4) and promote structure (10), promote structure (10) after executive (4) and smooth button (5) are removed the cooperation promote executive (4) are rotatory around articulated department.

2. A highly responsive detachable handle according to claim 1 wherein: promote structure (10) including protruding setting push block (10.1) and the sunken setting of smooth button (5) department are in shallow slot (10.2) of executor (4) department, push block (10.1) are equipped with first lateral wall (10.1.1), push slot (10.2) correspond first lateral wall (10.1.1) and are equipped with second lateral wall (10.2.1), push block (10.1) along with smooth button (5) removal back first lateral wall (10.1.1) promote second lateral wall (10.2.1) are rotatory around articulated department with drive executor (4).

3. A highly responsive detachable handle according to claim 2 wherein: the second side wall (10.2.1) is obliquely arranged, and the direction of the force applied to the second side wall (10.2.1) by the first side wall (10.1.1) is a first direction, and the first direction corresponds to the tangential direction of the actuating member (4) taking the hinged part as a rotation center.

4. A highly responsive detachable handle according to claim 2 wherein: the first side wall (10.1.1) is provided with a bump (10.1.2), and the first side wall (10.1.1) is abutted against the second side wall (10.2.1) through the bump (10.1.2).

5. The highly responsive detachable handle according to claim 4, wherein: the quantity of lug (10.1.2) is a plurality of, a plurality of lug (10.1.2) are arranged according to the preface along the direction of height of slider, and when lug (10.1.2) drive second lateral wall (10.2.1), a plurality of lug (10.1.2) offset with second lateral wall (10.2.1) from top to bottom according to the preface.

6. The highly responsive detachable handle according to claim 5, wherein: the number of the convex blocks (10.1.2) is three, the three convex blocks comprise a first convex block (10.1.2.1), a second convex block (10.1.2.2) and a third convex block (10.1.2.3) which are sequentially arranged from top to bottom, when the pushing block (10.1) pushes the pushing groove (10.2), the first convex block (10.1.2.1) firstly pushes against the second side wall (10.2.1) to push, then the second convex block (10.1.2.2) pushes against the second side wall (10.2.1) to push, and finally the third convex block (10.1.2.3) pushes against the second side wall (10.2.1) to push.

7. A highly responsive detachable handle according to claim 1 wherein: the detachable handle further comprises a fixed clamping jaw (2) and a movable clamping jaw (3), the fixed clamping jaw (2) is arranged at one end of the main body (1), the movable clamping jaw (3) is hinged to the main body (1), one end of the movable clamping jaw (3) is provided with a clamping surface (3.1) matched with the fixed clamping jaw (2), the other end of the movable clamping jaw (3) is provided with a groove (3.2), the other end of the executive component (4) is provided with a clamping block (4.1) matched with the groove (3.2),

when the sliding button (5) is located at the clamping position, the executing part (4) and the sliding button (5) are clamped through the clamping structure, and meanwhile the clamping block (4.1) abuts against the side wall of the groove (3.2) so that the movable clamping jaw (3) is matched with the fixed clamping jaw (2) to achieve a clamping state;

when the sliding button (5) is moved to the unlocking position, the clamping structure between the executing piece (4) and the sliding button (5) is unlocked, so that the executing piece (4) rotates, the clamping block (4.1) moves into the groove (3.2), and the movable clamping jaw (3) is loosened relative to the fixed clamping jaw (2).

8. The highly responsive detachable handle according to claim 7, wherein: the clamping structure comprises a first buckling part (5.1) arranged on the sliding button (5) and a second buckling part (4.2) arranged on the executing part (4), wherein the first buckling part (5.1) is matched with the second buckling part (4.2) to limit the rotation of the executing part (4).

9. The highly responsive detachable handle according to claim 8, wherein: the up end of first catching part (5.1) and the lower terminal surface of second catching part (4.2) offset to make executive component (4) rotate relative main part (1) and carry on spacingly, the up end of the lower terminal surface of first catching part (5.1) and/or second catching part (4.2) sets up spigot surface (34), spigot surface (34) are inclined plane or cambered surface in order to be close to first catching part (5.1) with second catching part (4.2) when turning into the horizontal displacement of smooth button (5).

10. A highly responsive detachable handle according to claim 1 wherein: an elastic part (9) is arranged between the executing part (4) and the main body (1), a first elastic end of the elastic part (9) is abutted against the main body (1), a second elastic end of the elastic part (9) is abutted against the executing part (4), and the elastic part (9) enables the executing part (4) to have a tendency of bouncing away towards the main body (1).