A rotatable suction cup holder

Abstract

The utility model discloses a rotatable sucking disc support, include: magnetic attraction board, adjusting lever, rotating table, vacuum lock ring and bottom sucking disc, adjusting lever both ends fixed mounting damping rotation axis, two damping rotation axes are connected with magnetic attraction board back and rotating table damping rotation respectively, rotating table below rotation connection segmentation disc, the edge of rotating table is provided with upper arc slot, the edge of segmentation disc is provided with lower arc slot, and upper arc slot and lower arc slot butt joint combination into wire groove, accommodate data line, and bottom sucking disc lower surface sets up drop glue layer. The utility model discloses through horizontal rotating table, drives adjusting lever horizontal rotation, widens the use angle of magnetic attraction board drive cell -phone, through setting drop glue layer under bottom sucking disc, strengthens the adsorption capacity of sucking disc, and drop glue can repeatedly wash, and the service life is long, and upper arc slot and lower arc slot butt joint combination into wire groove, and the data line is received, makes data line neat, improves the buyer experience.

Description

Technical Field

[0001] This utility model relates to the field of mobile phone holder technology, specifically a rotatable suction cup holder. Background Technology

[0002] Existing phone holders generally only allow for tilt adjustment, not horizontal rotation. Furthermore, traditional suction cup holders rely on the vacuum of the suction cup for stability; when encountering rough surfaces or allowing air to enter the suction cup, the holder can easily lose its adhesive force.

[0003] Therefore, we propose a rotatable suction cup holder to address the problems mentioned above. Utility Model Content

[0004] The purpose of this invention is to provide a rotatable suction cup holder to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a rotatable suction cup bracket, comprising: a magnetic suction plate, an adjusting rod, a rotating platform, a vacuum locking ring, and a bottom suction cup, wherein damping rotating shafts are fixedly installed at both ends of the adjusting rod, and the two damping rotating shafts are respectively connected to the back of the magnetic suction plate and the rotating platform for damping rotation.

[0006] The rotating platform is rotatably connected to a dividing disk below it. The edge of the rotating platform has an upper arc-shaped groove, and the edge of the dividing disk has a lower arc-shaped groove. The upper arc-shaped groove and the lower arc-shaped groove are joined together to form a wire groove to accommodate data cables.

[0007] An adhesive layer is provided on the lower surface of the bottom suction cup.

[0008] Preferably, a rotating anti-detachment component is fixedly installed above the dividing plate, and the rotating anti-detachment component positions the rotating table axially.

[0009] Preferably, the lower surface of the rotary table is provided with a wave wall along its axial direction. The wave wall is annular, and the upper surface of the dividing disk is distributed with equilateral triangular positioning teeth protrusions that fit against the wave wall.

[0010] Preferably, the vacuum locking ring is embedded between the dividing plate and the chassis, and two centrally symmetrical fixing posts are provided on the upper surface of the chassis. The fixing posts are fixedly connected to the dividing plate by screws.

[0011] Preferably, the vacuum locking ring has a circular hole in the middle, and an annular positioning platform is integrally provided around the circular hole in the middle of the vacuum locking ring. A lifting rod ramp is integrally provided symmetrically on the inner wall of the positioning platform. A positioning block is integrally provided at the highest end of the lifting rod ramp. A positioning platform is provided between the lifting rod ramp and the positioning block. A suction cup lifting rod is fixedly installed on the upper surface of the bottom suction cup. The suction cup lifting rod moves through the circular hole in the middle of the vacuum locking ring. A guide post is fixedly passed through the suction cup lifting rod laterally. The guide post slides along the lifting rod ramp and is finally positioned by the positioning block.

[0012] Preferably, a base is provided between the vacuum locking ring and the bottom suction cup. The base is radially fixed and axially sliding with the suction cup lifting rod. The base is rotatably set relative to the vacuum locking ring. A centrally symmetrical arc-shaped rotation limiting hole is opened on the vacuum locking ring. Two fixed columns of the base move through the arc-shaped rotation limiting hole.

[0013] Preferably, a spring is movably sleeved on the side of the suction cup lifting rod, with the upper end of the spring abutting against the lower surface of the chassis and the lower end abutting against the bottom suction cup.

[0014] Preferably, the inner wall of the vacuum lock ring is provided with a ring of toothed teeth, and the upper surface of the chassis is provided with a sound-generating device. The sound-generating device is composed of a striker connected to a spring, and the striker elastically contacts the toothed teeth on the inner wall of the vacuum lock ring.

[0015] Compared with the prior art, the beneficial effects of this utility model are:

[0016] 1. By using a horizontal rotating platform, the adjusting rod is rotated horizontally, widening the angle at which the magnetic plate can be used to move the mobile phone.

[0017] 2. By setting an adhesive layer under the bottom suction cup, the suction cup's adsorption capacity is enhanced. The adhesive layer can be repeatedly cleaned, resulting in a long service life.

[0018] 3. The upper and lower arc-shaped grooves are joined together to form a cable channel, which stores the data cable, keeps the data cable neat, and improves the buyer's experience. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the structure of this utility model;

[0020] Figure 2 This is a schematic diagram of the adjusting rod in this utility model;

[0021] Figure 3 This is a partial structural disassembly diagram of the present invention;

[0022] Figure 4 In this utility model Figure 3 Side-view;

[0023] Figure 5 This is a partial sectional side view of the structure in this utility model;

[0024] Figure 6 This is a schematic diagram of the vacuum locking ring and chassis in this utility model;

[0025] Figure 7 This is a schematic diagram of the structure of the dividing disk in this utility model;

[0026] Figure 8 This is a schematic diagram of the rotating platform in this utility model.

[0027] In the diagram: 1. Magnetic suction plate; 2. Adjusting rod; 201. Damping shaft; 3. Rotary table; 31. Upper arc groove; 32. Wave wall; 4. Vacuum locking ring; 41. Arc-shaped rotation limit hole; 42. Positioning platform; 43. Lifting rod ramp; 44. Positioning stop; 5. Bottom suction cup; 51. Suction cup lifting rod; 511. Guide post; 52. Easy-lift strip; 53. Epoxy layer; 6. Rotation anti-detachment component; 7. Dividing plate; 71. Lower arc groove; 72. Positioning tooth protrusion; 8. Chassis; 81. Fixing post; 9. Spring; 10. Sound generating device. Detailed Implementation

[0028] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0029] Please see Figure 1-8 This utility model provides a technical solution: a rotatable suction cup bracket, including: a magnetic suction plate 1, an adjusting rod 2, a rotating platform 3, a vacuum locking ring 4 and a bottom suction cup 5. The adjusting rod 2 has damping rotating shafts 201 fixedly installed at both ends. The two damping rotating shafts 201 are respectively connected to the back of the magnetic suction plate 1 and the rotating platform 3 for damping rotation, so as to realize the adjustment of the height and angle of the magnetic suction plate 1. The magnetic suction plate 1 is used to attract mobile phones.

[0030] The rotating table 3 is rotatably connected to the dividing plate 7 below, and the rotating anti-detachment component 6 is fixedly installed above the dividing plate 7. The rotating anti-detachment component 6 axially positions the rotating table 3 to prevent the rotating table 3 from detaching from the dividing plate 7.

[0031] The rotating table 3 has an upper arc-shaped groove 31 on its edge, and the dividing disk 7 has a lower arc-shaped groove 71 on its edge. The upper arc-shaped groove 31 and the lower arc-shaped groove 71 are joined together to form a cable groove for accommodating data cables.

[0032] A wave wall 32 is provided on the lower surface of the rotary table 3 along its axial direction. The wave wall 32 is annular. Positioning tooth protrusions 72 are distributed in an equilateral triangle on the upper surface of the dividing disk 7. The positioning tooth protrusions 72 fit with the wave wall 32 so that after the rotary table 3 and the dividing disk 7 rotate relative to each other, the positioning tooth protrusions 72 and the wave wall 32 are positioned relative to each other, preventing the rotary table 3 from rotating freely under no force.

[0033] The vacuum locking ring 4 is embedded between the dividing plate 7 and the base plate 8. Two centrally symmetrical fixing posts 81 are provided on the upper surface of the base plate 8. The fixing posts 81 are fixedly connected to the dividing plate 7 by screws.

[0034] The vacuum locking ring 4 has a circular hole in the middle. A circular positioning platform 42 is integrally set around the circular hole in the middle of the vacuum locking ring 4. A lifting rod ramp 43 is integrally set symmetrically in the center of the inner wall of the positioning platform 42. A positioning block 44 is integrally set at the highest end of the lifting rod ramp 43. A positioning platform is set between the lifting rod ramp 43 and the positioning block 44. A suction cup lifting rod 51 is fixedly installed on the upper surface of the bottom suction cup 5. The suction cup lifting rod 51 moves through the circular hole in the middle of the vacuum locking ring 4. A guide post 511 is fixedly fixed inside the suction cup lifting rod 51. The guide post 511 slides along the lifting rod ramp 43 and is finally blocked and positioned by the positioning block 44.

[0035] By rotating the vacuum locking ring 4 relative to the bottom suction cup 5, and by using the relative movement of the guide post 511 and the lifting rod ramp 43, the relative height of the vacuum locking ring 4 and the bottom suction cup 5 can be adjusted. When the guide post 511 is located at the foot of the lifting rod ramp 43, the height of the vacuum locking ring 4 relative to the bottom suction cup 5 can reach its maximum. When the guide post 511 is located at the positioning platform at the top of the lifting rod ramp 43, the height of the vacuum locking ring 4 relative to the bottom suction cup 5 can reach its minimum.

[0036] A base plate 8 is provided between the vacuum locking ring 4 and the bottom suction cup 5. The base plate 8 is radially fixed and axially sliding with the suction cup lifting rod 51. The base plate 8 is rotatably set relative to the vacuum locking ring 4. A centrally symmetrical arc-shaped rotation limiting hole 41 is opened on the vacuum locking ring 4. The two fixed columns 81 of the base plate 8 move through the arc-shaped rotation limiting hole 41, so that the vacuum locking ring 4 and the base plate 8 are relatively rotated and limited.

[0037] When the vacuum locking ring 4 descends relative to the bottom suction cup 5, it drives the chassis 8 to descend. The chassis 8 presses against the bottom suction cup 5, creating a vacuum state by reducing the air inside the suction cup 5, thus achieving the adsorption of the bottom suction cup 5 with the external structure.

[0038] The bottom suction cup 5 has an integrally set easy-lift strip 52 on its edge. When the vacuum locking ring 4 rises relative to the bottom suction cup 5, the bottom suction cup 5 is no longer compressed. The easy-lift strip 52 can tear the bottom suction cup 5 apart from the external structure it is adsorbed on, and it can detach from the adsorption.

[0039] An adhesive layer 53 is provided on the lower surface of the bottom suction cup 5. When the bottom suction cup 5 is attached to the flat surface, the adhesive layer 53 assists the bottom suction cup 5 in attaching to the platform surface and can also increase the sealing performance.

[0040] A spring 9 is movably sleeved on the side of the suction cup lifting rod 51. The upper end of the spring 9 abuts against the lower surface of the chassis 8, and the lower end abuts against the bottom suction cup 5. When the vacuum locking ring 4 descends relative to the bottom suction cup 5, the spring 9 is compressed. When the guide post 511 rotates towards the foot of the lifting rod ramp 43, the spring 9 returns to its original position and lifts the chassis 8.

[0041] A rack is provided on the inner wall of the vacuum lock ring 4, and a sound-generating device 10 is provided on the upper surface of the chassis 8. The sound-generating device 10 is composed of a striker connected to a spring, so that the striker elastically contacts the rack on the inner wall of the vacuum lock ring 4. When the vacuum lock ring 4 rotates relative to the chassis 8, the striker elastically slides across the rack on the inner wall of the vacuum lock ring 4, producing a ticking sound.

[0042] Working principle: Determine the plane to be adsorbed, position the adhesive layer 53, adsorb it onto the plane, press the adhesive layer 53 firmly, and remove air;

[0043] Rotate the vacuum locking ring 4 clockwise. During the rotation, the lifting rod ramp 43 will lift the guide post 511 on the suction cup lifting rod 51 upward until the guide post 511 rotates to the positioning platform. Since the positioning platform is horizontal, the guide post 511 can be fixed on the positioning platform. During the rotation, the striking pin of the sound-emitting device 10 on the chassis 8 will also emit a beeping sound. When the guide post 511 is fixed on the positioning platform, it can also prevent the vacuum locking ring 4 from rotating automatically and assist in positioning.

[0044] After completing the above steps, the chassis 8 squeezes the bottom suction cup 5 to expel the air inside, forming a vacuum area. Atmospheric pressure will firmly adhere the bottom suction cup 5 to the flat surface.

[0045] Depending on the required horizontal angle, the rotating table 3 can be rotated to adjust the horizontal angle of the adjusting rod 2 and the magnetic plate 1. During the adjustment process, the wave wall 32 on the rotating table 3 will also rotate with damping on the positioning tooth protrusion 72 until the angle is adjusted.

[0046] Depending on the height and pitch angle, the magnetic plate 1 can also be adjusted by adjusting rod 2. The damping shaft 201 can provide damping rotation so that the adjusting rod 2 and the magnetic plate 1 can maintain the adjusted state.

[0047] The contents not described in detail in this specification are existing technologies known to those skilled in the art.

[0048] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A rotatable suction cup holder, comprising: The magnetic suction plate (1), adjusting rod (2), rotating platform (3), vacuum locking ring (4) and bottom suction cup (5) are characterized in that: the two ends of the adjusting rod (2) are fixedly installed with damping rotating shafts (201), and the two damping rotating shafts (201) are respectively connected to the back of the magnetic suction plate (1) and the rotating platform (3) for damping rotation; The rotating platform (3) is rotatably connected to the dividing disk (7) below. The rotating platform (3) has an upper arc groove (31) on its edge and a lower arc groove (71) on its edge. The upper arc groove (31) and the lower arc groove (71) are joined together to form a wire groove to accommodate the data cable. A drip layer (53) is provided on the lower surface of the bottom suction cup (5).

2. The rotatable suction cup holder according to claim 1, characterized in that, The rotating anti-detachment component (6) is fixedly installed above the dividing plate (7), and the rotating anti-detachment component (6) positions the rotating table (3) axially.

3. A rotatable suction cup holder according to claim 2, characterized in that, The lower surface of the rotary table (3) is provided with a wave wall (32) along its axial direction. The wave wall (32) is annular. The upper surface of the dividing disk (7) is distributed with equilateral triangular positioning teeth (72). The positioning teeth (72) fit into the wave wall (32).

4. A rotatable suction cup holder according to claim 1, characterized in that, The vacuum locking ring (4) is embedded between the dividing plate (7) and the chassis (8). Two centrally symmetrical fixing posts (81) are provided on the upper surface of the chassis (8). The fixing posts (81) are fixedly connected to the dividing plate (7) by screws.

5. A rotatable suction cup holder according to claim 4, characterized in that, The vacuum locking ring (4) has a circular hole in the middle. A circular positioning platform (42) is integrally set around the circular hole in the middle of the vacuum locking ring (4). A lifting rod ramp (43) is integrally set symmetrically on the inner wall of the positioning platform (42). A positioning block (44) is integrally set at the highest end of the lifting rod ramp (43). A positioning platform is set between the lifting rod ramp (43) and the positioning block (44). A suction cup lifting rod (51) is fixedly installed on the upper surface of the bottom suction cup (5). The suction cup lifting rod (51) moves through the circular hole in the middle of the vacuum locking ring (4). A guide post (511) is fixedly inserted horizontally inside the suction cup lifting rod (51). The guide post (511) slides along the lifting rod ramp (43) and is finally blocked and positioned by the positioning block (44).

6. A rotatable suction cup holder according to claim 5, characterized in that, A base plate (8) is provided between the vacuum locking ring (4) and the bottom suction cup (5). The base plate (8) is radially fixed and axially sliding with the suction cup lifting rod (51). The base plate (8) is rotatably set relative to the vacuum locking ring (4). A centrally symmetrical arc-shaped rotation limiting hole (41) is provided on the vacuum locking ring (4). The two fixed columns (81) of the base plate (8) move through the arc-shaped rotation limiting hole (41).

7. A rotatable suction cup holder according to claim 6, characterized in that, The suction cup lifting rod (51) is movably fitted with a spring (9) on its side. The upper end of the spring (9) abuts against the lower surface of the chassis (8), and the lower end abuts against the bottom suction cup (5).

8. A rotatable suction cup holder according to claim 1, characterized in that, The inner wall of the vacuum lock ring (4) is provided with a toothed rack, and the upper surface of the chassis (8) is provided with a sound-generating device (10). The sound-generating device (10) is composed of a striker connected to a spring, and the striker elastically contacts the toothed rack on the inner wall of the vacuum lock ring (4).

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