CN115788263A - Sliding stop mechanism, lifting structure and door - Google Patents

Abstract

The invention discloses a sliding parking mechanism, a lifting structure and a door, wherein the sliding parking mechanism comprises a base, a sliding block and an elastic piece; the base is provided with a first wall, and the first wall is provided with a plurality of grooves; the sliding block is arranged on the base, slides along the first direction relative to the base and is in limit fit with the base along the third direction, and the sliding block is also provided with two pushing parts; the elastic piece is arranged on the sliding block, and the two ends of the elastic piece are provided with a hook head, a first extension section and a second extension section; the first extension section and the second extension section are respectively suitable for abutting against the two abutting parts along the first direction, the first extension section, the second extension section and the two hook heads are suitable for being supported by the groove walls of the grooves, when the sliding block slides along the first direction, the first extension section or the second extension section is abutted by the abutting parts or is abutted by the groove walls of the corresponding grooves so as to exit the corresponding grooves, and each hook head is abutted by the groove wall of the corresponding groove so as to exit the corresponding groove. This mode of berthing forms the support through the elasticity of elastic component and recess and realizes berthing, and is more stable, and the bearing is higher, is difficult for dropping.

Description

Sliding stop mechanism, lifting structure and door

Technical Field

The invention relates to the field of household products, in particular to a sliding parking mechanism, a lifting structure and a door.

Background

Among the prior art, the door is when using, in order to put the thing, set up on the side material with the door body rigid coupling usually and put the thing box, put the thing box can be with the side material along the first direction slip and with the third direction limit fit of the first direction of perpendicular to of side material, after adjusting to the suitable position that is suitable for the user to use, through the screw with put thing box spiro union and top in the tank bottom of side material, thereby increase the frictional force of putting between thing box and stand, make and put the thing box and berth relative side material, but this mode need use the screwdriver, and is comparatively troublesome, and because the frictional force through the butt formation realizes berthing, its bearing is limited, drop easily.

Disclosure of Invention

It is an object of the present invention to overcome the above-mentioned drawbacks or problems of the background art and to provide a sliding stop mechanism, a lifting structure and a door.

In order to achieve the purpose, the invention adopts the following technical scheme:

in a first aspect, a sliding parking mechanism includes

The base is provided with a first wall, the first wall is provided with a plurality of grooves along a first direction, and the grooves are opened along a second direction perpendicular to the first direction;

the sliding block is arranged on the base, slides along a first direction relative to the base, is in limit fit with the base along a third direction perpendicular to the first direction and the second direction, and is also provided with two pushing parts;

the elastic piece is arranged on the sliding block, and two ends of the elastic piece along the first direction are provided with hook heads, a first extension section and a second extension section which are respectively connected with the two hook heads; the first extending section and the second extending section are obliquely arranged relative to the first direction and have opposite oblique directions, the first extending section and the second extending section are respectively suitable for abutting against the two abutting parts along the first direction, the first extending section, the second extending section and the two hooks are suitable for entering the groove and being suitable for being supported by the groove wall of the groove, when the sliding block slides along the first direction, the first extending section or the second extending section is abutted by the abutting parts or the corresponding groove wall of the groove so as to exit the corresponding groove, and each hook is abutted by the corresponding groove wall of the groove so as to exit the corresponding groove.

According to the second scheme, based on the first scheme, the sliding block comprises a sliding seat and a push button, and the sliding seat slides along the first direction relative to the base and is in limit fit with the base along the third direction; the push button is arranged on the sliding seat and is suitable for sliding along a first direction relative to the sliding seat and pushing the sliding seat to slide when any hook head exits the groove, and the first extending section or the second extending section pushed by the push button is suitable for pushing the push button to reset when being adjusted in place.

Based on the second scheme, the first extending section and the second extending section extend out of the groove along the third direction, and the two pushing portions are respectively suitable for being matched with the portions, extending out of the groove, of the first extending section and the second extending section.

Scheme four, based on scheme two, push away the button and still be equipped with two posts that reset that extend along the third direction, the slide is equipped with the groove that resets, two the post that resets all is suitable for to stretch into reset inslot and respectively with two cell walls that reset the groove and lay along the first direction offset, the post that resets is in push away the button when sliding by the cell wall in groove that resets pushes away and support deformation and when adjusting in place push away this the cell wall in groove that resets so that push away the button and reset.

And on the basis of the fourth scheme, the two groove walls of the reset groove are obliquely arranged relative to the first direction and are opposite in oblique direction, and the distance between the two groove walls of the reset groove is gradually reduced along the extending direction of the reset column.

And based on the first scheme, the base is provided with a limiting groove extending along the first direction, the limiting groove is opened on the first wall, and the sliding block is provided with a sliding part which is arranged in the limiting groove and is in limiting fit with the groove wall of the limiting groove along the third direction and an operating part which is exposed in the limiting groove for operation.

And a seventh aspect provides that, based on the first aspect, a projection of the groove on a plane perpendicular to the third direction is an arc.

The eighth aspect of the present invention provides an elevating structure, comprising an elevating member and a sliding stop mechanism according to any one of the first to seventh aspects, wherein the elevating member is connected to the sliding block.

The utility model provides a ninth, a door, including put the thing box, along the side material of first direction extension and according to the seven arbitrary one of scheme one to scheme a slip stop mechanism, wherein, the base with side material rigid coupling, put the thing box-packed locating the slider.

The slider is provided with a hanging and leaning column extending along a first direction, and the storage box is arranged in a hanging and leaning groove which is suitable for being matched with the hanging and leaning column in the first direction in a limiting mode.

As can be seen from the above description of the present invention, the present invention has the following advantages over the prior art:

1. scheme one, the base is equipped with first wall, and the slider is along the spacing cooperation of the third direction of the first wall of perpendicular to with the base to prevent that the slider from deviating from mutually with the base along the third direction.

The first wall is provided with a plurality of grooves along a first direction; the elastic component is installed in the slider, and its both ends along first direction are equipped with the eave tile and extend the section with the first extension section and the second that are connected with two eave tiles respectively, and first extension section, second extension section and two eave tiles all are suitable for to get into the recess and it is suitable for to be supported by the cell wall of recess to realize the berth of the relative first wall of elastic component, because the elastic component is installed in the slider, consequently the elastic component supporting slide block indirectly makes the relative first wall of slider berth.

The sliding block slides along a first direction relative to the base and is provided with two pushing parts, the first extending section and the second extending section are obliquely arranged relative to the first direction and have opposite oblique directions, the first extending section and the second extending section are respectively suitable for being abutted against the two pushing parts, when the sliding block slides, the first extending section or the second extending section is pushed by the pushing parts or is pushed by the groove walls of the corresponding grooves so as to exit the corresponding grooves, and each hook head is pushed by the groove walls of the corresponding grooves so as to exit the corresponding grooves, so that the elastic piece is allowed to slide along the first direction relative to the first wall, namely the sliding block is allowed to adjust the position of the sliding block along the first direction relative to the first wall.

Specifically, the first direction is a direction perpendicular to the ground, the direction far away from the ground is upward, and the first extension section is located above the second extension section as an example, when an upward force is applied to the slider, the pushing portion located below pushes the second extension section to apply an upward force to the second extension section, so that the second extension section deforms and exits from the groove, that is, an upward force is applied to the whole elastic member, meanwhile, the hook head connected with the second extension section abuts against an upper groove wall of the groove corresponding to the hook head to deform and exit from the groove, meanwhile, the first extension section deforms and exits from the corresponding groove due to the fact that the upward force is applied to the first extension section and abuts against the upper groove wall of the corresponding groove, meanwhile, the hook head connected with the first extension section abuts against a lower groove wall of the corresponding groove to exit from the corresponding groove, the slider moves upwards, and extends into the groove together with the first extension section, the second extension section and the two hook heads after moving for one unit, so that the slider stops; when the slide block moves downwards, the same principle is carried out.

This mode of berthhing forms the support through the elasticity of elastic component and recess and realizes berthing, and the frictional force that relative butt formed realizes berthhing, and is more stable, and the bearing is higher, is difficult for dropping.

2. In the first scheme, when the sliding block is pushed, the force applied to the sliding block needs to simultaneously enable the first extension section, the second extension section and the two hook heads to exit the groove, so that the required force is large, and the operation is inconvenient.

Similarly, taking the first direction as the direction perpendicular to the ground, and taking the direction away from the ground as the upward direction, the first extending section is located above the second extending section as an example: in the case of this embodiment, the process is,

the push button slides upwards relative to the sliding seat, the push abutting part positioned below pushes the second extending section to apply an upward force to the second extending section to deform the second extending section, the hook head connected with the second extending section abuts against the upper groove wall of the groove corresponding to the second extending section to deform and exits the groove, at the moment, the first extending section and the hook head connected with the first extending section do not exit the corresponding groove, the force for enabling the second extending section and the hook head connected with the second extending section to exit the corresponding groove is kept, the push button is continuously pushed upwards, the first extending section and the hook head connected with the first extending section exit the corresponding groove, so that the push button is allowed to push the sliding seat to slide upwards, when the push button is adjusted in place, the first extending section and the hook head connected with the first extending section extend into the corresponding groove, the push button is loosened, the second extending section pushes the push abutting part positioned below to reset the push button, and the push button can also slide upwards relative to the sliding seat; and the second extension section and the hook head connected with the second extension section extend into the corresponding groove after reset, so that the parking is realized. In the sliding process, the force for enabling the second extending section and the hook head connected with the second extending section to exit the corresponding groove is kept smaller than the force for enabling the second extending section and the hook head connected with the second extending section to exit the corresponding groove, so that the force is saved, and the operation is convenient.

3. Scheme three, first extension section and second extension section all stretch out in the recess along the third direction, and two push away to the portion respectively be suitable for with first extension section and the cooperation of the part that the recess was stretched out to the second extension section to carry out the application of force to the tip of first extension section and second extension section, compare in the one end application of force of keeping away from the eave tile to first extension section and second extension section, make first extension section and second extension section deformation more easily, it is more laborsaving.

4. Scheme four, it still is equipped with two posts that reset that extend along the third direction to push away the button, the slide is equipped with the groove that resets, two posts that reset all are suitable for to stretch into the inslot that resets and offset with two cell walls that lay along the first direction in the groove that resets respectively, the post that resets is pushed away deformation and is pushed away the cell wall that offsets this groove when pushing away the button slip so that push away the button and reset by the cell wall in groove that resets when putting in place, the post that resets helps together with the elastic component and pushes away the button and reset, prevent because the elasticity of elastic component leads to unable realization to reset inadequately and leads to berthing unstablely, thereby guarantee to use stably.

5. The scheme is five, and two cell walls in the groove that resets all set up and incline direction is opposite relative first direction slope, and along the orientation of stretching into of post that resets, and the distance convergent between two cell walls in the groove that resets compares two cell walls in the groove that resets is perpendicular with first direction, and the slope of the cell wall in the groove that resets makes the cell wall in the groove that resets and the contact surface grow of post that resets, prevents that the point contact from resulting in the too big easy damage of pressure of post that resets.

6. Scheme six, the base is equipped with the spacing groove that extends along the first direction, and the spacing groove opening is in first wall, and the slider is equipped with arranges the spacing inslot in and follows the spacing complex sliding part of third direction with the cell wall of spacing groove to realize the slider along the spacing of third direction and along the motion of first direction, and the operating portion exposes in the spacing groove, thereby convenience of customers operation makes the slider slide relative to the base.

7. And the projection of the groove on the plane perpendicular to the third direction is an arc, so that the first extension section, the second extension end and the hook head can be conveniently led in and led out.

8. The scheme eight, base and side material rigid coupling put the thing box-packed slider of locating, should put the thing box and can slide and berth with the side material, and the user of being convenient for uses, and is difficult for dropping.

9. The scheme is nine, and the slider is equipped with the post of leaning on along the hanging of first direction extension, puts the thing box and locates to be suitable for and to lean on the post along the spacing complex of first direction to hang and lean on the groove to convenient dismantlement and installation are convenient for will put the thing box and pull down and wash.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

FIG. 1 is a perspective view of a door according to a first embodiment;

FIG. 2 is a schematic structural view of a slide stop mechanism according to a first embodiment;

FIG. 3 is a partial schematic view of the sliding parking mechanism with the push button and the bracket hidden according to the first embodiment

FIG. 4 is a sliding state diagram of the slide stop mechanism according to the first embodiment;

FIG. 5 is a partial exploded view of the slide parking mechanism according to one embodiment;

FIG. 6 is a perspective view of a slider according to one embodiment;

FIG. 7 is a rear view of the bracket according to the first embodiment;

FIG. 8 is a perspective view of a push button according to an embodiment;

FIG. 9 is a front perspective view of the slide stop mechanism according to the first embodiment;

FIG. 10 is a perspective view of the storage box according to the first embodiment;

FIG. 11 is a diagram illustrating a connection relationship between a base and a side member according to an embodiment.

Description of the main reference numerals:

a slide parking mechanism 10; a base 1; a first wall 11; a groove 111; a limiting groove 12; a slide block 2; a slider 21; the slider 211, the slider portion 2111; a mounting groove 2112; a mount 212; a storage tank 2121; a mounting post 2122; a reset groove 2123; a bracket 213; a depending post 2131; a first aperture 2132; a first groove 2133; a push button 22; a pushing portion 221; a reset post 222; an elastic member 3; a hook head 31; a first extension 32; a second extension 33; a connecting section 34;

a storage box 20; a hanging groove 201;

and a side material 30.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is clear that the described embodiments are preferred embodiments of the invention and should not be considered as being exclusive of other embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive step based on the embodiments of the present invention, are within the scope of protection of the present invention.

In the claims, the description and the drawings of the present invention, unless explicitly defined otherwise, the terms "first", "second" or "third", etc. are used to distinguish between different objects and are not used to describe a particular sequence.

In the claims, the specification and the drawings of the present invention, unless otherwise expressly limited, all directional or positional relationships indicated by the terms "center," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," "counterclockwise," and the like are based on the directional or positional relationships indicated in the drawings and are used for convenience in describing the present invention and for simplicity in description, but do not indicate or imply that the device or element so indicated must have a particular orientation or be constructed and operated in a particular orientation, and therefore should not be construed as limiting the scope of the present invention.

In the claims, the specification and the drawings of the present application, unless otherwise specifically limited, the terms "fixedly connected" or "fixedly connected" should be used in a broad sense, i.e., any connection mode without a displacement relationship or a relative rotation relationship between the two, i.e., including non-detachably fixed connection, integration and fixed connection through other devices or elements.

In the claims, the specification and the drawings of the present invention, the terms "including", "having" and their variants, if used, are intended to be inclusive and not limiting.

The first embodiment is as follows:

referring to fig. 1 to 10, a door includes a sliding stop mechanism 10, a storage box 20, and a side member 30 and a door body extending along a first direction, the first direction is a direction perpendicular to the ground, the door body is fixedly connected to the side member 30 or slides along a second direction perpendicular to the first direction with respect to the side member 30, and the second direction is a left-right direction.

The sliding parking mechanism 10 enables the positional adjustment and parking of the storage compartment 20 with respect to the side rail 30 in the first direction. Referring to fig. 2 to 9, the slide parking mechanism 10 includes a base 1, a slider 2, and an elastic member 3.

The base 1 is fixedly connected with the side material 30, the fixedly connected mode can be that the base and the side material are integrally formed or detachably connected, the detachable connection can be a screw, a clamping connection and the like, and the side material 30 can be assembled only by arranging corresponding threaded holes in the side material 30 during assembly through screw connection, and the base is suitable for various side materials 30. In this embodiment, the base 1 is integrally formed with the side member 30 to ensure the connection strength, as shown in fig. 11.

Referring to fig. 4, the base 1 is provided with a first wall 11 and a limiting groove 12, the limiting groove 12 is a dovetail groove and extends along a first direction, the limiting groove 12 opens into the first wall 11 and divides the first wall 11 into two parts arranged along a second direction perpendicular to the first direction, the first wall 11 is provided with a plurality of grooves 111 along the first direction, the grooves 111 penetrate through one of the two parts of the first wall 11 along a third direction perpendicular to the first direction and the second direction, the third direction is a front-back direction, the grooves 111 further open into an end surface of one of the two parts of the first wall 11 along the second direction, and a projection of the grooves 111 on a plane perpendicular to the third direction is an arc.

Referring to fig. 2 and 4, the sliding block 2 slides along the first direction relative to the base 1 and is in limit fit with the base 1 along a third direction perpendicular to the first wall 11, and the sliding block 2 is further provided with two pushing portions 221, a reset groove 2123, and a hanging column 2131. Specifically, the slider 2 includes a slider 21 and a push button 22.

The sliding seat 21 slides along the first direction relative to the base 1 and is in limit fit with the base 1 along a third direction perpendicular to the first wall 11; referring to fig. 5, the slider 21 includes a slider 211, a mount 212, and a bracket 213.

Referring to fig. 6, the sliding part 211 is provided with a sliding portion 2111 disposed in the limiting groove 12 and in limiting engagement with the groove wall of the limiting groove 12 along the third direction, the sliding part 211 is further provided with a mounting groove 2112, the mounting groove 2112 is opened on the end surface of the sliding part 211 departing from the groove bottom of the limiting groove 12, and the mounting groove 2112 is suitable for communicating with each groove 111.

Referring to fig. 2 and 6, the mounting member 212 is disposed in the mounting groove 2112, and is provided with a receiving groove 2121 for receiving the elastic element 3 and adapted to communicate with each of the grooves 111, the receiving groove 2121 is further opened on an end surface of the mounting member 212 facing away from the bottom of the limiting groove 12, the bottom of the receiving groove 2121 is an end surface of the receiving groove 2121 perpendicular to the third direction and close to the rear side, the bottom of the limiting groove 12 is an end surface of the limiting groove 12 perpendicular to the third direction and close to the rear side, so as to facilitate the insertion of the elastic element 3, and the mounting member 212 is further provided with two mounting posts 2122 protruding from the bottom of the receiving groove 2121; the mounting member 212 further has a reset groove 2123 opening to the bottom of the accommodating groove 2121, two groove walls of the reset groove 2123 are inclined in the first direction and in opposite directions, and the distance between the two groove walls of the reset groove 2123 is gradually reduced along the third direction and toward the bottom of the accommodating groove 2112.

Referring to fig. 7 and 9, the bracket 213 and the sliding member 211 are fixed by screws, the bracket 213 is provided with a hanging post 2131 extending along the first direction, the bracket 213 is further provided with a first hole 2132 and a first groove 2133 penetrating along the third direction, the first hole 2132 and the first groove 2133 are long in the first direction, the first groove 2133 opens toward the bottom of the accommodating groove 2121, and two ends of the first hole 2132 open at the end surface of the bracket 213 and the bottom of the first groove 2133, respectively.

Referring to fig. 2 and 8, the push button 22 is disposed on the sliding base 21, specifically, the push button 22 is sleeved outside the mounting member 212, a portion of the push button 22 is disposed in the first groove 2133, and the push button 22 has a portion abutting against the groove bottoms of the mounting member 212 and the first groove 2133 in the third direction, so as to fix the mounting member 212 and the push button 22 in the third direction after the locking between the bracket 213 and the sliding member 211 is completed by the screws. The other part of the push button 22 protrudes out of the first hole 2132 to form an operation portion, after the installation is completed, the operation portion is exposed out of the limiting groove 12, the user can operate the push button without extending a hand into the limiting groove 12, so as to facilitate the user to operate the push button, the length of the part of the push button 22, which is placed in the first groove 2133, in the first direction is smaller than the length of the first groove 2133 in the first direction, the length of the operation portion in the first direction is also smaller than the length of the first hole 2132 in the first direction, and in the initial position, the operation portion can slide up and down in the first direction relative to the first hole 2132, as shown in fig. 9. When the push button 22 slides to abut against the hole wall of the first hole 2132 of the slider 21 in the first direction, the slider 21 is pushed to move in the first direction. The push button 22 has two pushing portions 221 spaced apart from each other along a first direction, and the two pushing portions 221 have inclined surfaces inclined with respect to the first direction and opposite to each other, in this embodiment, the two inclined surfaces are opposite to each other. The push button 22 further has two reset columns 222 extending along the third direction, each of the two reset columns 222 is adapted to extend into the reset slot 2123 and abut against two slot walls of the reset slot 2123 arranged along the first direction, when the push button 22 slides, the reset column 222 is pushed by the slot wall of the reset slot 2123 to deform and push against the slot wall of the reset slot 2123 to reset the push button 22 when the push button is adjusted to the proper position.

Referring to fig. 2 and 3, the elastic element 3 is mounted on the slider 2, two ends of the elastic element 3 along the first direction are provided with hooks 31 and a first extension section 32 and a second extension section 33 respectively connected with the two hooks 31, the elastic element 3 is further provided with a connection section 34 connected with the first extension end and the second extension end, the elastic element 3 is disposed in the accommodating groove 2121 for protection, and two end faces of the connection section 34 perpendicular to the second direction respectively abut against the side walls of the mounting post 2122 and the accommodating groove 2121, so as to mount the elastic element 3. The first extending section 32 and the second extending section 33 are both disposed in an inclined manner relative to the first direction, and the inclined directions are opposite to each other, in this embodiment, the first extending section 32 and the second extending section 33 gradually approach each other from the connection position with the connecting section 34; referring to fig. 3, the first extending section 32 and the second extending section 33 both extend out of the groove 111 along the third direction, and the portions of the first extending section 32 and the second extending section 33 extending out of the groove 111 are respectively matched with the two abutting portions 221, i.e. are adapted to abut against each other along the first direction.

The two hook heads 31 are obliquely arranged relative to the first direction, the oblique directions are opposite, an acute angle is formed between the two hook heads and the first extension section 32 or the second extension section 33, the acute angle is approximately 45-60 degrees, the deformation force is moderate, and the two hook heads 31 are close to each other.

The first extension 32, the second extension 33 and the two hooks 31 are adapted to enter the groove 111 and the ends thereof are adapted to be supported by the walls of the groove 111, so as to realize the stop of the elastic element 3 relative to the first wall 11, and since the elastic element 3 is mounted on the slider 2, the elastic element 3 supports the slider 2 to indirectly stop the slider 2 relative to the first wall 11. When the sliding block 2 slides, the first extending section 32 or the second extending section 33 is pushed by the pushing portion 221 or pushed by the groove wall of the corresponding groove 111 to exit from the corresponding groove 111, and each hook 31 is pushed by the groove wall of the corresponding groove 111 to exit from the corresponding groove 111, so as to allow the elastic element 3 to slide along the first direction relative to the first wall 11, that is, allow the sliding block 2 to adjust its position along the first direction relative to the first wall 11. When any hook 31 exits the groove 111, the push button 22 abuts against the sliding base 21 in the first direction, so as to push the sliding base 21 to slide under the condition of further applying force. When the push button is adjusted to the right position, the first extension section 32 or the second extension section 33 pushed by the pushing part 221 pushes the pushing part 221 to reset the push button 22.

Specifically, taking the first direction as the direction perpendicular to the ground, taking the direction away from the ground as the upward direction, the first extending section 32 is located above the second extending section 33 as an example:

applying an upward force to the push button 22 to make the push button 22 slide upward relative to the slide carriage 21, the lower push part 221 pushes the second extension section 33 to make the second extension section 33 deform and exit from the corresponding groove 111, meanwhile, the hook 31 connected to the second extension section 33 pushes the upper groove wall of the corresponding groove 111 to deform and exit from the groove 111, and the lower reset post 222 deforms and abuts the upper groove wall of the reset groove 2123, at this time, the first extension section 32 and the hook 31 connected to the first extension section 32 do not exit from the corresponding groove 111, maintaining the force for making the second extension section 33 and the hook 31 connected to the second extension section 33 exit from the corresponding groove 111, continuing to push the push button 22 upward, the first extension section 32 pushes the upper groove wall of the corresponding groove 111 to deform and exit from the corresponding groove 111, and at the same time, the hook 31 connected to the first extension section 32 and the lower push groove wall of the corresponding groove 111 abut against each other, thereby allowing the slide carriage 22 to move into the groove 21 and adjust the sound generated by the first extension section, and the user to adjust the sound generated by the slide carriage 21 and the first extension section 21; when the sliding seat is adjusted to the proper position, the first extending section 32 and the hook 31 connected with the first extending section 32 extend into the corresponding groove 111, and at this time, the push button 22 is released, the second extending section 33 pushes against the pushing part 221 located below and the restoring column 222 located below pushes against the lower groove wall of the restoring groove 2123 to enable the push button 22 to reach the initial position, so that the push button 22 can also slide upwards relative to the sliding seat 21; and after the resetting, the second extending section 33 and the hook 31 connected with the second extending section 33 extend into the corresponding groove 111, so as to realize the stopping (i.e. when the force for separating the elastic element 3 from the groove 111 is not applied, the sliding block 2 can not slide relative to the base 1 along the first direction). The same applies when force is applied downwards.

Since the reset column 222 and the elastic member 3 help the push button 22 to reset, the unstable stop caused by the failure of resetting due to insufficient elasticity of the elastic member 3 is prevented, thereby ensuring stable use. Compared with the two groove walls of the reset groove 2123 perpendicular to the first direction, the inclination of the groove walls of the reset groove 2123 enlarges the contact surface between the groove walls of the reset groove 2123 and the reset post 222, thereby preventing the reset post 222 from being damaged due to too high pressure caused by point contact. The projection of the groove 111 on a plane perpendicular to the third direction is a circular arc, so that the first extension section 32 and the second extension end and the hook head 31 can be conveniently led in and out. Compared with the application of force to the ends of the first extension segment 32 and the second extension segment 33 away from the hook head 31, the pushing part 221 applies force to the ends of the first extension segment 32 and the second extension segment 33 to deform the first extension segment 32 and the second extension segment 33 more easily, and thus, the force is saved more.

This mode of berthhing forms with recess 111 through the elasticity of elastic component 3 and supports and realize berthing, and the frictional force that relative butt formed realizes berthhing, and is more stable, and the bearing is higher, is difficult for dropping, through the experiment, when berthhing, can be used to support 15 kg's heavy object at least, satisfies daily use.

Referring to fig. 10, the storage box 20 is mounted on the sliding block 2 and used for storing the bath articles, and the storage box 20 can slide and stop on the side material 30, so as to be convenient for the user to use and not easy to fall off. Specifically, the storage box 20 is provided with a hanging groove 201 suitable for being hung on the column 2131 along the first direction in a limiting and matching mode, so that the storage box 20 is prevented from falling to the ground, and is convenient to disassemble and clean.

In the present embodiment, the storage box 20 shields the push button 22 in the third direction to ensure the aesthetic appearance, and a gap exists between the storage box 20 and the push button 22 in the third direction, which at least allows a finger of a user to extend into to operate the push button 22.

In the second embodiment, the first embodiment of the present invention,

the second embodiment is different from the first embodiment in that the structure of the sliding block 2 is different from the first embodiment in that the sliding block 2 is not formed by assembling a push button 22 and a sliding seat 21, the sliding block 2 integrally and synchronously slides when stressed, and the elastic element 3 is arranged in the sliding block 2, in this way, when the sliding block 2 is pushed along a first direction, the sliding block 2 applies force to the elastic element 3 along the first direction to push the elastic element 3 to deform; in this embodiment, the force applied to the slider 2 needs to simultaneously make the first extension 32, the second extension 33 and the two hooks 31 exit the grooves 111 to realize the sliding of the slider 2, and the required force is large, which is inconvenient for operation, but the structure is simpler than that of the embodiment.

Specifically, the first direction is a direction perpendicular to the ground, taking the direction away from the ground as upward, and the first extending section 32 is located above the second extending section 33 as an example, when an upward force is applied to the slider 2, the pushing portion 221 located below pushes the second extending section 33 to apply the upward force to the second extending section 33, so that the second extending section 33 deforms to exit from the groove 111, that is, an upward force is applied to the entire elastic member 3, meanwhile, the hook head 31 connected to the second extending section 33 pushes the upper groove wall of the groove 111 corresponding thereto to deform and exit from the groove 111, meanwhile, the first extending section 32 pushes the upper groove wall of the corresponding groove 111 to deform and exit from the corresponding groove 111 due to the upward force, and meanwhile, the hook head 31 connected to the first extending section 32 pushes the lower groove wall of the corresponding groove 111 to exit from the corresponding groove 111, and the slider 2 moves upward until moving one unit, and comes to rest in the groove 111 with the first extending section 32, the second extending section 33, and the two hook heads 31; when the slide block 2 moves downwards, the same is true. This mode of berthing forms with recess 111 through the elasticity of elastic component 3 and supports and realize berthing, and the frictional force that relative butt formed realizes berthing, and is more stable, and the bearing is higher, is difficult for dropping.

In the first embodiment, since the force for withdrawing the second extension 33 and the hook 31 connected to the second extension 33 from the corresponding groove 111 is kept smaller than the force for withdrawing the second extension 33 and the hook 31 connected to the second extension 33 from the corresponding groove 111 during the sliding process, the force is saved and the operation is facilitated.

Example three: it should be understood that the sliding parking mechanism can also be applied to other structures that need to be lifted, such as a lifting structure that includes a lifting member and a sliding block 2, the lifting member is connected to the sliding block 2 in a fixed manner or a detachable manner, and the lifting member can be a storage box 20 or a shower supporting seat as in the first embodiment.

The description of the above specification and examples is intended to be illustrative of the scope of the present invention and is not intended to be limiting. Modifications, equivalents and other improvements which may occur to those skilled in the art and which may be made to the embodiments of the invention or portions thereof using a reasonable analysis, inference or limited experimentation based on the teachings of the invention or the embodiments described above, and/or the common general knowledge, knowledge of the ordinary skill in the art and/or the prior art, are intended to be included within the scope of the invention.

Claims (10)

1. A sliding stop mechanism is characterized in that: comprises that

The base (1) is provided with a first wall (11), a plurality of grooves (111) are distributed on the first wall (11) along a first direction, and the grooves (111) are opened along a second direction perpendicular to the first direction;

the sliding block (2) is arranged on the base (1), slides along a first direction relative to the base (1), is in limit fit with the base (1) along a third direction perpendicular to the first direction and the second direction, and is also provided with two pushing parts (221);

the elastic piece (3) is arranged on the sliding block (2), and two ends of the elastic piece along the first direction are provided with hook heads (31) and a first extension section (32) and a second extension section (33) which are respectively connected with the two hook heads (31); the first extending section (32) and the second extending section (33) are arranged in an inclined manner relative to the first direction, the inclined directions of the first extending section (32) and the second extending section (33) are opposite to each other, the first extending section (32) and the second extending section (33) are respectively suitable for abutting against the two abutting parts (221) along the first direction, the first extending section (32), the second extending section (33) and the two hook heads (31) are suitable for entering the groove (111) and being supported by the groove wall of the groove (111), when the sliding block (2) slides along the first direction, the first extending section (32) or the second extending section (33) is abutted by the abutting parts (221) or abutted by the groove wall of the corresponding groove (111) so as to exit the corresponding groove (111), and each hook head (31) is abutted by the groove wall of the corresponding groove (111) so as to exit the corresponding groove (111).

2. The sliding stop mechanism of claim 1, wherein the sliding block (2) comprises a sliding seat (21) and a push button (22), the sliding seat (21) slides along a first direction relative to the base (1) and is in limit fit with the base (1) along a third direction; the pushing part (221) is arranged on the pushing button (22), the pushing button (22) is arranged on the sliding seat (21) and is suitable for sliding along a first direction relative to the sliding seat (21) and pushing the sliding seat (21) to slide when any hook head (31) exits from the groove (111), and the first extending section (32) or the second extending section (33) pushed by the pushing part (221) is suitable for pushing the pushing part (221) to reset the pushing button (22) when being adjusted in place.

3. The sliding parking mechanism of claim 2, wherein the first extension (32) and the second extension (33) both extend out of the groove (111) along a third direction, and the two pushing portions (221) are adapted to cooperate with the portions of the first extension (32) and the second extension (33) extending out of the groove (111), respectively.

4. A slide stop mechanism as claimed in claim 2, wherein: the push button (22) is further provided with two reset columns (222) extending along a third direction, the sliding seat (21) is provided with reset grooves (2123), the two reset columns (222) are suitable for extending into the reset grooves (2123) and respectively abut against two groove walls of the reset grooves (2123) distributed along the first direction, and the reset columns (222) are pushed by the groove walls of the reset grooves (2123) to deform when the push button (22) slides and push against the groove walls of the reset grooves (2123) when the push button is adjusted in place so that the push button (22) can reset.

5. A slide stop mechanism as claimed in claim 4, wherein: two groove walls of the reset groove (2123) are obliquely arranged relative to the first direction and have opposite oblique directions, and the distance between the two groove walls of the reset groove (2123) is gradually reduced along the extending direction of the reset column (222).

6. A slide stop mechanism as claimed in claim 1, wherein: the base (1) is provided with a limiting groove (12) extending along a first direction, the limiting groove (12) is opened on the first wall (11), and the sliding block (2) is provided with a sliding part (2111) which is arranged in the limiting groove (12) and is in limiting fit with the groove wall of the limiting groove (12) along a third direction and an operating part which is exposed in the limiting groove (12) for operation.

7. A slide stop mechanism as claimed in claim 1, wherein: the projection of the groove (111) on a plane perpendicular to the third direction is a circular arc.

8. A kind of lifting structure, its characterized in that: comprising a lifter connected to the slide (2) and a slide parking mechanism (10) according to any one of claims 1 to 7.

9. A door, characterized by: the sliding parking mechanism (10) comprises a storage box (20), a side material (30) extending along a first direction and the sliding parking mechanism (10) as claimed in any one of claims 1 to 7, wherein the base (1) is fixedly connected with the side material (30), and the storage box (20) is arranged on the sliding block (2).

10. A door as claimed in claim 9, wherein: slider (2) are equipped with along the post of attaching (2131) that extend of first direction, put thing box (20) locate be suitable for with the post of attaching (2131) of attaching along first direction limit fit's groove (201).

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