CN111772515A - Multidirectional sliding limiting structure and bathroom rack with same - Google Patents

Abstract

The embodiment of the invention provides a multidirectional sliding limiting structure which comprises a sliding mechanism and a sliding rail structure, wherein the sliding mechanism can be arranged on the sliding rail structure in a sliding mode along the Z direction, the multidirectional sliding limiting structure further comprises a placement frame, the placement frame comprises a cross rod structure, the cross rod structure can be arranged on the sliding mechanism in a sliding mode along the X direction, the sliding mechanism comprises a matching through hole and an adjusting driving rod, the adjusting driving rod is rotatably arranged in the matching through hole, the adjusting driving rod comprises a longitudinal limiting portion, and the longitudinal limiting portion is used for being abutted against the sliding rail structure in the Y direction so as to limit the sliding mechanism to slide in the Z direction. When the specific position of the rest stand in the bathroom stand needs to be adjusted, the position of the rest stand in the bathroom stand in the horizontal and vertical directions can be adjusted by sliding the sliding mechanism in the Z direction and sliding the cross rod structure in the X direction, and the requirements of different users or different use scenes on the diversity of the structure and position adjustment of the bathroom stand are met.

Description

Multidirectional sliding limiting structure and bathroom rack with same

Technical Field

The invention relates to the technical field of bathroom accessories, in particular to a multidirectional sliding limiting structure and a bathroom rack with the same.

Background

The articles placed in the bathroom, such as bath foam, shampoo, perfumed soap, toothbrush and the like, are more, and the articles do not have uniform placing frames, so that the articles are placed in a mess, and the articles are influenced to be used next time. The bathroom rack is a special rack for articles in a bathroom, the requirements for materials are higher and higher along with the continuous improvement of the living standard of people, and particularly, the daily necessities which are commonly used are more prone to the development in the directions of convenience in use, convenience, miniaturization and the like while the requirements of daily life are met.

Among the bathroom rack products among the prior art, its each structure of inside is through welding or other processing methods integrated into one piece, can't adjust its concrete structure and the relative position between each part promptly after one leaves the factory, also can't adjust bathroom rack product's high position and horizontal position according to different bathroom structures, is difficult to satisfy different users or different use scenes to bathroom rack structure and position adjustment's diversified demand.

Disclosure of Invention

In order to solve the problem that the existing bathroom rack product is difficult to meet the diversity requirements of different users or different use scenes on the structure and position adjustment of the bathroom rack, the invention provides a multidirectional sliding limiting structure and a bathroom rack with the same.

The utility model provides a multidirectional slip limit structure, includes slide mechanism and slide rail structure, slide mechanism can set up along Z direction with sliding on the slide rail structure, its characterized in that still includes the rest stand, the rest stand includes the horizontal pole structure, the horizontal pole structure can set up along X direction with sliding on the slide mechanism, slide mechanism includes cooperation through-hole and regulation driving lever, it rotatably sets up to adjust the driving lever in the cooperation through-hole, adjust the driving lever and include vertical spacing portion, vertical spacing portion be used for with slide rail structure butt in the Y direction, in order to restrict slide mechanism slides in the Z direction.

Furthermore, the matching through hole is provided with a first limiting protrusion, the longitudinal limiting portion is provided with a second limiting protrusion, and the second limiting protrusion is used for being abutted against the first limiting protrusion in the Y direction so as to limit the adjusting deflector rod to slide in the Y direction.

Furthermore, the longitudinal limiting part is also provided with a groove part which is used for being arranged corresponding to the first limiting protrusion, so that the adjusting deflector rod can slide in the Y direction.

Furthermore, the adjusting deflector rod further comprises a transverse limiting portion, the transverse limiting portion comprises a first surface and a second surface, and the first surface and the second surface are used for being abutted to the bottom of the cross rod structure in the Z direction so as to limit the cross rod structure to slide in the X direction.

Further, the transverse limiting part further comprises a third surface, and the third surface is used for being arranged corresponding to the bottom of the cross rod structure, so that the cross rod structure can slide in the X direction.

Furthermore, the adjusting deflector rod further comprises a knob part, the knob part is fixedly connected with the longitudinal limiting part and the transverse limiting part, and the knob part is used for controlling the rotation motion of the longitudinal limiting part and the transverse limiting part.

Further, the sliding mechanism further comprises a sliding block part, and the sliding block part is slidably connected with the sliding rail structure, so that the sliding mechanism can be arranged on the sliding rail structure in a sliding manner along the Z direction.

Based on the same design idea, the invention also provides a bathroom stand which comprises the multidirectional sliding limiting structure.

Further, including the couple structure, the couple structure is fixed to be set up slide rail structure is at ascending top of Z direction, the couple structure is used for hanging and establishes multidirectional slip limit structure.

Further, still include the sucking disc subassembly, the sucking disc subassembly is fixed to be set up slide rail structure is in the ascending bottom of Z direction, the sucking disc subassembly is used for fixing multidirectional slip limit structure.

The multi-direction sliding limiting structure comprises a sliding mechanism and a sliding rail structure, wherein the sliding mechanism can be arranged on the sliding rail structure in a sliding mode along the Z direction, and a cross rod structure on a rest frame can be arranged on the sliding mechanism in a sliding mode along the X direction. Therefore, when the specific position of the rest rack in the bathroom rack needs to be adjusted, the position of the rest rack in the bathroom rack in the horizontal and vertical directions can be adjusted by sliding the sliding mechanism in the Z direction and sliding the cross rod structure in the X direction, and the requirements of different users or different use scenes on the diversity of the structure and position adjustment of the bathroom rack are met. After the specific position of the rest in the bathroom stand is adjusted, a longitudinal limiting part in the adjusting deflector rod is rotated to a position which is abutted against the slide rail structure in the Y direction, so that enough friction stress is generated between the adjusting deflector rod and the slide rail structure, and the relative movement between the adjusting deflector rod and the slide rail structure is limited, thereby achieving the effect of limiting the sliding of the sliding mechanism in the Z direction, fixing the sliding mechanism, namely the rest, on the slide rail structure, and preventing the rest position from deviating when a user uses the bathroom stand.

Drawings

FIG. 1 is a schematic view of a multi-directional slide stop arrangement of the present invention;

FIG. 2 is a schematic view of the sliding mechanism and adjustment lever of the present invention;

FIG. 3 is a schematic view of the sliding mechanism of the present invention;

FIG. 4 is a partial enlarged view of the circled portion of FIG. 3;

FIG. 5 is a schematic view of the adjustment lever of the present invention;

FIG. 6 is another schematic view of the adjustment lever of the present invention;

FIG. 7 is an enlarged fragmentary view of the encircled portion of FIG. 6;

FIG. 8 is a schematic view of the sliding mechanism, sliding track structure and cross bar structure of the present invention;

FIG. 9 is a schematic view of a first state of the sliding mechanism and adjustment lever of the present invention;

FIG. 10 is an enlarged fragmentary view of the encircled portion of FIG. 9;

FIG. 11 is a schematic view of a second state of the sliding mechanism and adjustment lever of the present invention;

FIG. 12 is another schematic view of the second state of the sliding mechanism and adjustment lever of the present invention;

FIG. 13 is an enlarged fragmentary view of the encircled portion of FIG. 12;

FIG. 14 is a schematic view of a third state of the slide mechanism and adjustment lever of the present invention;

FIG. 15 is another schematic view of the third state of the sliding mechanism and adjustment lever of the present invention;

FIG. 16 is an enlarged fragmentary view of the encircled portion of FIG. 15;

FIG. 17 is a schematic view of a bathroom stand of the present invention;

description of reference numerals: 1. a sliding mechanism; 2. a slide rail structure; 3. a shelf; 301. a cross bar structure; 4. a slider portion; 5. a mating through hole; 501. a first limit protrusion; 6. adjusting a deflector rod; 601. a longitudinal position-limiting part; 6011. a second limit bulge; 6012. a groove part; 602. a transverse limiting part; 6021. a first surface; 6022. a second surface; 6023. a third surface; 603. a knob portion; 7. a hook structure; 8. and a sucker component.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1, according to the embodiment of the present invention, the multi-directional sliding limiting structure includes a sliding mechanism 1 and a sliding rail structure 2, and the sliding mechanism 1 is slidably disposed on the sliding rail structure 2 along the Z direction. The bathroom cabinet is characterized by further comprising a placement frame 3, wherein the placement frame 3 comprises a cross rod structure 301, the cross rod structure 301 can be arranged on the sliding mechanism 1 in a sliding mode along the X direction, namely the placement frame 3 can be arranged on the sliding mechanism 1 in a sliding mode along the X direction, and the placement frame 3 is used for placing various bathroom living goods. Specifically, when the specific position of the rest stand 3 needs to be adjusted, on one hand, the position of the sliding mechanism 1 in the Z direction (i.e., in the vertical direction) can be adjusted by sliding the sliding mechanism 1 in the Z direction, and further, the position of the rest stand 3 disposed on the sliding mechanism 1 in the Z direction (i.e., in the vertical direction) can be adjusted; on the other hand, the position adjustment of the cross bar structure 301 in the X direction (i.e., in the horizontal direction) can be realized by sliding the cross bar structure 301 in the X direction, and thus the position adjustment of the shelf 3 having the cross bar structure 301 in the X direction (i.e., in the horizontal direction) can be realized. To sum up, specific positions of the rest racks 3 in the multi-direction sliding limiting structure can be adjusted in the horizontal direction and the vertical direction, so that the diversity requirements of different users or different use scenes on the structure and position adjustment of the bathroom racks are met, and the problem that the bathroom rack products cannot be adjusted after leaving a factory is solved.

Referring to fig. 2 and 3, according to the embodiment of the present invention, the sliding mechanism 1 includes a fitting through hole 5 and an adjusting lever 6, the adjusting lever 6 is rotatably disposed in the fitting through hole 5, and the adjusting lever 6 includes a longitudinal stopper 601, and the longitudinal stopper 601 is configured to abut against the slide rail structure 2 in the Y direction to restrict the sliding mechanism 1 from sliding in the Z direction. Specifically, a part of the adjusting lever 6 is inserted through a fitting through hole 5 of the sliding mechanism 1 and is rotatably movable relative to the sliding mechanism 1. After the specific vertical position of the placement frame 3 is adjusted, the adjusting deflector rod 6 is rotated to enable the longitudinal limiting part 601 to abut against the slide rail structure 2, and at the moment, the longitudinal limiting part 601 and the slide rail structure 2 generate enough friction stress to limit the relative movement of the two, so that the sliding mechanism 1 is limited to continuously slide in the Z direction, the placement frame 3 on the sliding mechanism 1 is fixed on the slide rail structure 2, and the situation that the placement frame 3 is still continuously deviated in the use process after the user has adjusted the specific position of the placement frame is prevented.

Referring to fig. 4 and 5, according to the embodiment of the present invention, the fitting through hole 5 is provided with a first limiting protrusion 501, the longitudinal limiting portion 601 is provided with a second limiting protrusion 6011, and the second limiting protrusion 6011 is configured to abut against the first limiting protrusion 501 in the Y direction to limit the sliding of the adjusting lever 6 in the Y direction. Specifically, after the specific vertical position of the placement frame 3 is adjusted, the adjusting lever 6 is rotated to enable the second limiting protrusion 6011 on the longitudinal limiting portion 601 and the first limiting protrusion 501 on the matching through hole 5 to be abutted and arranged together, at this time, due to the limiting effect of the first limiting protrusion 501, the longitudinal limiting portion 601 cannot move towards the direction away from the slide rail structure 2, that is, cannot be pulled out from the matching through hole 5, and it is ensured that the longitudinal limiting portion 601 and the slide rail structure 2 in this state are abutted and arranged together, so that the longitudinal limiting portion 601 and the slide rail structure 2 generate enough friction stress, and the sliding of the slide mechanism 1 in the Z direction is limited.

Referring to fig. 9 and 10, when the adjustment lever 6 is rotated to the neutral position (i.e., vertically disposed), the sliding mechanism 1 is in the first state. In this state, the second limiting protrusion 6011 on the longitudinal limiting portion 601 abuts against the first limiting protrusion 501 on the matching through hole 5, at this time, due to the limiting effect of the first limiting protrusion 501, the longitudinal limiting portion 601 cannot move in the direction away from the slide rail structure 2, that is, cannot be pulled out from the matching through hole 5, and it is ensured that the longitudinal limiting portion 601 and the slide rail structure 2 in this state abut against each other and are arranged together, so that sufficient friction stress is generated between the longitudinal limiting portion 601 and the slide rail structure 2, and the sliding of the sliding mechanism 1 in the Z direction is limited. Meanwhile, in this state, the first surface 6021 of the lateral limiting portion 602 and the bottom of the cross bar structure 301 are disposed correspondingly and in contact with each other, and generate a friction stress large enough to limit the relative movement between the cross bar structure 301 and the sliding mechanism 1, so as to limit the sliding of the shelving unit 3 in the X direction (i.e., in the horizontal direction), and thus, the shelving unit 3 is fixed in the X direction (i.e., in the horizontal direction).

Referring to fig. 15 and 16, when the adjustment lever 6 is rotated counterclockwise to the right position (with the reference direction being the direction toward the approach rest 3), the slide mechanism 1 is in the third state. Like the above embodiment, in this state, the second limiting protrusion 6011 on the longitudinal limiting portion 601 abuts against the first limiting protrusion 501 on the matching through hole 5, at this time, due to the limiting function of the first limiting protrusion 501, the longitudinal limiting portion 601 cannot move in the direction away from the slide rail structure 2, that is, cannot be pulled out from the matching through hole 5, and it is ensured that the longitudinal limiting portion 601 and the slide rail structure 2 in this state abut against each other and are disposed together, so that the longitudinal limiting portion 601 and the slide rail structure 2 generate a sufficient friction stress, and the sliding of the sliding mechanism 1 in the Z direction is limited. Meanwhile, in this state, the third surface 6023 of the lateral limiting portion 602 is disposed corresponding to the bottom of the cross-bar structure 301, and at this time, although the third surface 6023 of the adjusting lever 6 is disposed right below the cross-bar structure 301, a certain gap is disposed between the two, that is, the two are not abutted, so that no friction stress is generated, and the cross-bar structure 301 can freely slide in the X direction relative to the sliding mechanism 1, thereby realizing the position adjustment of the resting rack 3 in the X direction (that is, in the horizontal direction).

Referring to fig. 12 and 13, the longitudinal stopper portion 601 is further provided with a groove portion 6012, and the groove portion 6012 is configured to correspond to the first stopper protrusion 501 so that the adjustment lever 6 can slide in the Y direction. Specifically, when the adjustment lever 6 is rotated clockwise to the left position (with the direction toward the rest 3 as the reference direction), the slide mechanism 1 is in the second state. At this time, the second limiting protrusion 6011 on the longitudinal limiting portion 601 and the first limiting protrusion 501 on the matching through hole 5 are not disposed correspondingly, and the groove portion 6012 on the longitudinal limiting portion 601 and the first limiting protrusion 501 on the matching through hole 5 are disposed correspondingly, so that the first limiting protrusion 501 does not provide a limiting effect for the pulling-out of the second limiting protrusion 6011. The adjusting deflector rod 6 can be pulled out along the first limiting protrusion 501 on the matching through hole 5, so that the longitudinal limiting portion 601 is no longer abutted to the slide rail structure 2, the friction stress between the longitudinal limiting portion and the slide rail structure 2 is relieved, and the slide mechanism 1 can vertically slide along the slide rail structure 2 in the Z direction at the moment, so that the position adjustment of the rest stand 3 in the vertical direction is realized. Meanwhile, in this state, the second surface 6022 of the lateral limiting portion 602 and the bottom of the cross bar structure 301 are disposed correspondingly and in contact with each other, and generate a friction stress large enough to limit the relative movement between the cross bar structure 301 and the sliding mechanism 1, so as to limit the sliding of the shelving unit 3 in the X direction (i.e., in the horizontal direction), and thus, the shelving unit 3 is fixed in the X direction (i.e., in the horizontal direction).

Referring to fig. 6 and 7, according to an embodiment of the present invention, the lateral limiting portion 602 further includes a first surface 6021 and a second surface 6022, and the first surface 6021 and the second surface 6022 are configured to abut against the crossbar structure 301 in the Z direction to limit the sliding of the crossbar structure 301 in the X direction. Specifically, after the specific horizontal position of the rest 3 is adjusted, the adjusting lever 6 is rotated to make the first surface 6021 on the lateral limiting portion 602 and the bottom of the cross bar structure 301 be arranged correspondingly. At this time, the first surface 6021 of the adjusting shift lever 6 is disposed right below the cross bar structure 301, and the two are disposed in abutment, so that the first surface 6021 of the adjusting shift lever 6 and the bottom of the cross bar structure 301 generate a friction stress of a sufficient magnitude, which is used to limit the relative movement between the cross bar structure 301 and the sliding mechanism 1, thereby limiting the sliding of the shelf 3 in the X direction (i.e., in the horizontal direction), and realizing the fixation of the shelf 3 in the X direction (i.e., in the horizontal direction). When the horizontal position of the rest stand 3 needs to be adjusted again, the adjusting deflector rod 6 is rotated until the first surface 6021 and the bottom of the cross bar structure 301 are correspondingly arranged. Similarly, when the adjusting shift lever 6 is rotated to enable the second surface 6022 of the transverse limiting portion 602 and the bottom of the cross-bar structure 301 to be correspondingly disposed, the second surface 6022 of the adjusting shift lever 6 is disposed right below the cross-bar structure 301, and the two are disposed in abutment, so that the second surface 6022 of the adjusting shift lever 6 and the bottom of the cross-bar structure 301 generate a friction stress of a sufficient magnitude, which is used to limit the relative movement between the cross-bar structure 301 and the sliding mechanism 1, thereby limiting the sliding of the shelf 3 in the X direction (i.e., in the horizontal direction), and realizing the fixation of the shelf 3 in the X direction (i.e., in the horizontal direction). When the horizontal position of the rest stand 3 needs to be adjusted again, the adjusting deflector rod 6 is rotated until the second surface 6022 and the bottom of the cross bar structure 301 are correspondingly arranged.

Referring to fig. 6 and 7, according to the embodiment of the present invention, the adjusting lever 6 further includes a lateral limiting portion 602, and the lateral limiting portion 602 includes a third surface 6023, and the third surface 6023 is configured to correspond to the bottom of the cross-bar structure 301, so that the cross-bar structure 301 can slide in the X direction. Specifically, when the specific position of the rest 3 in the X direction needs to be adjusted by sliding the cross-bar structure 301, the adjusting lever 6 is rotated to the third surface 6023 on the lateral limiting portion 602 and the bottom of the cross-bar structure 301 are correspondingly disposed, that is, the region where the third surface 6023 of the adjusting lever 6 is located is rotated to the position right below the cross-bar structure 301. At this time, although the third surface 6023 of the adjusting lever 6 is disposed right below the cross bar structure 301, a certain gap is disposed therebetween, that is, the two are not abutted to each other, so that no friction stress is generated, and the cross bar structure 301 can freely slide in the X direction relative to the sliding mechanism 1, thereby realizing the position adjustment of the rest 3 in the X direction (that is, in the horizontal direction).

Referring to fig. 8, when the adjustment lever 6 is rotated to the neutral position (i.e., vertically disposed), the sliding mechanism 1 is in the first state. In this state, the first surface 6021 of the lateral limiting portion 602 and the bottom of the cross bar structure 301 are disposed correspondingly and in contact with each other, and generate a friction stress large enough to limit the relative movement between the cross bar structure 301 and the sliding mechanism 1, so as to limit the sliding of the shelf 3 in the X direction (i.e., in the horizontal direction), and thus, the shelf 3 is fixed in the X direction (i.e., in the horizontal direction). Meanwhile, due to the limiting effect of the first limiting protrusion 501, the longitudinal limiting portion 601 cannot move in the direction away from the slide rail structure 2, that is, cannot be pulled out of the matching through hole 5, and it is ensured that the longitudinal limiting portion 601 and the slide rail structure 2 in this state are abutted and arranged together, so that sufficient friction stress is generated between the longitudinal limiting portion 601 and the slide rail structure 2, and the sliding of the sliding mechanism 1 in the Z direction is limited.

Referring to fig. 11, when the dial 6 is rotated clockwise to the left position (with reference to the direction toward the rest 3), the slide mechanism 1 is in the second state. Like the above embodiment, in this state, the second surface 6022 on the lateral limiting portion 602 and the bottom of the cross bar structure 301 are disposed correspondingly and in contact with each other, and generate a friction stress large enough to limit the relative movement between the cross bar structure 301 and the sliding mechanism 1, so as to limit the sliding of the shelf 3 in the X direction (i.e., in the horizontal direction), and thus, the shelf 3 is fixed in the X direction (i.e., in the horizontal direction). Meanwhile, the second limiting protrusion 6011 on the longitudinal limiting portion 601 and the first limiting protrusion 501 on the matching through hole 5 are not arranged correspondingly, and the groove portion 6012 on the longitudinal limiting portion 601 and the first limiting protrusion 501 on the matching through hole 5 are arranged correspondingly, so that the first limiting protrusion 501 does not provide a limiting effect for the pulling-out of the second limiting protrusion 6011 any more. The adjusting deflector rod 6 can be pulled out along the first limiting protrusion 501 on the matching through hole 5, so that the longitudinal limiting portion 601 is no longer abutted to the slide rail structure 2, the friction stress between the longitudinal limiting portion and the slide rail structure 2 is relieved, and the slide mechanism 1 can vertically slide along the slide rail structure 2 in the Z direction at the moment, so that the position adjustment of the rest stand 3 in the vertical direction is realized.

Referring to fig. 14, when the dial 6 is rotated counterclockwise to the right position (with reference to the direction toward the rest 3), the slide mechanism 1 is in the third state. In this state, the third surface 6023 of the lateral limiting portion 602 and the bottom of the cross bar structure 301 are disposed correspondingly, and at this time, although the third surface 6023 of the adjusting lever 6 is disposed right below the cross bar structure 301, a certain gap is formed therebetween, that is, the two are not in contact with each other, and no friction stress is generated, and the cross bar structure 301 can freely slide in the X direction relative to the sliding mechanism 1, so as to adjust the position of the rest stand 3 in the X direction (that is, in the horizontal direction). Meanwhile, in this state, the second limiting protrusion 6011 on the longitudinal limiting portion 601 abuts against the first limiting protrusion 501 on the matching through hole 5, at this time, due to the limiting effect of the first limiting protrusion 501, the longitudinal limiting portion 601 cannot move in the direction away from the slide rail structure 2, that is, cannot be pulled out of the matching through hole 5, and it is ensured that the longitudinal limiting portion 601 and the slide rail structure 2 in this state abut against each other and are arranged together, so that the longitudinal limiting portion 601 and the slide rail structure 2 generate enough friction stress, and the sliding of the sliding mechanism 1 in the Z direction is limited.

Referring to fig. 5 and 6, according to an embodiment of the present invention, the adjusting lever 6 further includes a knob portion 603, the knob portion 603 is fixedly connected to the longitudinal limiting portion 601 and the transverse limiting portion 602, and the knob portion 603 is used for controlling the rotation of the longitudinal limiting portion 601 and the transverse limiting portion 602. Specifically, the knob portion 603 is a rod-shaped structure, which is convenient for a user to rotate clockwise or counterclockwise by pushing the knob portion with a hand, so as to drive the longitudinal limiting portion 601 and the transverse limiting portion 602 to rotate. The longitudinal limiting part 601 and the transverse limiting part 602 are both fixedly arranged on the knob part 603, and the knob part 603 synchronously drives the longitudinal limiting part 601 and the transverse limiting part 602 to rotate when rotating, so that when the adjusting deflector rod 6 rotates to an intermediate position (namely, is vertically arranged), the sliding mechanism 1 is limited and locked in the horizontal direction and the vertical direction and cannot slide; when the adjusting deflector rod 6 rotates clockwise to the left position (taking the direction towards the rest rack 3 as the reference direction), the sliding mechanism 1 is limited and locked in the horizontal direction and can slide in the vertical direction; when the adjusting deflector rod 6 rotates counterclockwise to the right position (the direction towards the direction close to the rest stand 3 is taken as the reference direction), the sliding mechanism 1 can slide in the horizontal direction and is limited and locked in the vertical direction.

Referring to fig. 2, according to the embodiment of the present invention, the sliding mechanism 1 further includes a slider portion 4, and the slider portion 4 and the slide rail structure 2 are slidably connected, so that the sliding mechanism 1 is slidably disposed on the slide rail structure 2 along the Z direction. Specifically, the sliding block portion 4 is a protruding structure formed in the direction of the sliding mechanism 1 approaching the sliding rail structure 2, and two edges of the protruding structure in the Z direction are provided with sliding grooves matched with the sliding rail structure 2, so as to complete the slidable movement between the sliding mechanism 1 and the sliding rail structure 2.

Referring to fig. 17, based on the same design concept, the invention further provides a bathroom rack, which comprises a hook structure 7, wherein the hook structure 7 is fixedly arranged at the top of the slide rail structure 2 in the Z direction, and the hook structure 7 is used for hanging the above-mentioned upward multi-direction sliding limiting structure. Specifically, when the bathroom cabinet is assembled, the components such as screws or bolts can be fixed on the bathroom wall, and then the hook structures 7 are hung on the components such as the screws or bolts, so that the bathroom cabinet is installed. After the bathroom shelf is installed, the specific position of the rest shelf 3 on the bathroom shelf in the horizontal direction and the specific height of the rest shelf 3 in the vertical direction can be realized by rotating the adjusting deflector rod 6 to different positions so as to adapt to the diversity requirements of different users and different use scenes.

Preferably, the suction cup assembly 8 is fixedly arranged at the bottom of the slide rail structure 2 in the Z direction, and the suction cup assembly 8 is used for fixing the multi-direction sliding limiting structure. Specifically, after the bathroom rack is hung through the hook structure 7, the sucker component 8 at the bottom of the slide rail structure 2 is adsorbed on the wall body. The sucker assembly 8 is arranged, so that the fixing effect of the bathroom stand can be further enhanced, and the condition that the bathroom stand falls due to the fact that the fixing effect of the hook structure 7 is not stable enough is prevented; on the other hand, the bathroom rack can be prevented from shaking left and right when being accidentally bumped by a user, so that the potential safety hazard that the bathroom living goods in the placement rack 3 fall off is avoided.

Of course, the above is a preferred embodiment of the present invention. It should be noted that, for a person skilled in the art, several modifications and refinements can be made without departing from the basic principle of the invention, and these modifications and refinements are also considered to be within the protective scope of the invention.

Claims (10)

1. The utility model provides a multidirectional slip limit structure, includes slide mechanism and slide rail structure, slide mechanism can set up along Z direction with sliding on the slide rail structure, its characterized in that still includes the rest stand, the rest stand includes the horizontal pole structure, the horizontal pole structure can set up along X direction with sliding on the slide mechanism, slide mechanism includes cooperation through-hole and regulation driving lever, it rotatably sets up to adjust the driving lever in the cooperation through-hole, adjust the driving lever and include vertical spacing portion, vertical spacing portion be used for with slide rail structure butt in the Y direction, in order to restrict slide mechanism slides in the Z direction.

2. The multi-directional sliding limiting structure according to claim 1, wherein the fitting through hole is provided with a first limiting protrusion, and the longitudinal limiting portion is provided with a second limiting protrusion, and the second limiting protrusion is configured to abut against the first limiting protrusion in the Y direction to limit the sliding of the adjusting lever in the Y direction.

3. The multidirectional sliding limiting structure according to claim 2, wherein the longitudinal limiting portion is further provided with a groove portion, and the groove portion is configured to correspond to the first limiting protrusion, so that the adjusting lever can slide in the Y direction.

4. The multidirectional sliding limiting structure according to claim 3, wherein the adjusting lever further comprises a transverse limiting portion, the transverse limiting portion comprises a first surface and a second surface, and the first surface and the second surface are used for abutting against the bottom of the cross bar structure in the Z direction so as to limit the cross bar structure to slide in the X direction.

5. The multi-directional sliding stop structure according to claim 4, wherein the lateral stop portion further comprises a third surface, and the third surface is configured to correspond to the bottom of the cross bar structure, so that the cross bar structure can slide in the X direction.

6. The multidirectional sliding limiting structure according to claim 5, wherein the adjusting lever further comprises a knob portion, the knob portion is fixedly connected with the longitudinal limiting portion and the transverse limiting portion, and the knob portion is used for controlling the rotation of the longitudinal limiting portion and the transverse limiting portion.

7. The multi-directional sliding limiting structure according to claim 1, wherein the sliding mechanism further comprises a sliding block portion, and the sliding block portion is slidably connected with the sliding rail structure, so that the sliding mechanism is slidably disposed on the sliding rail structure along the Z direction.

8. A bathroom stand including a multi-directional sliding stop structure according to any one of claims 1 to 7.

9. The bathroom cabinet of claim 8, comprising a hook structure fixedly arranged at the top of the sliding rail structure in the Z direction, wherein the hook structure is used for hanging the multi-directional sliding limiting structure.

10. The bathroom cabinet of claim 9, further comprising a suction cup assembly fixedly disposed at a bottom of the slide rail structure in the Z-direction, the suction cup assembly being configured to fix the multi-directional slide limiting structure.

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