CN210274155U - Flexible screen product with notch slide rail structure - Google Patents

Abstract

The utility model relates to the technical field of telescopic screen products, in particular to a telescopic screen product with a notch slide rail structure, which comprises a shell, a first grid piece fixedly arranged on the shell, and a second grid piece arranged on the shell in a sliding way; the first grid piece is provided with a plurality of first grids, the second grid piece is provided with a first blind groove and a plurality of second grids, and the first grids and the second grids are arranged in a staggered mode; the second grid part is provided with a sliding chute, and the shell is provided with a sliding rail part; a damping component is arranged between the second grid and the shell and used for increasing the friction force between the second grid and the shell; according to the requirement, a user drives the second grid part to slide relative to the shell, and the telescopic screen is driven to stretch when the second grid part slides, so that the size of the screen area of the telescopic screen is adjusted; after the screen area size of flexible screen changes, damping component fixes a position the second bars spare on the casing, avoids the second bars spare to receive vibrations and leads to the screen area to change, promotes the performance of flexible screen product.

Description

Flexible screen product with notch slide rail structure

Technical Field

The utility model relates to a flexible screen product technical field especially discloses a flexible screen product with notch slide rail structure.

Background

Along with the progress of science and technology, smart mobile phone has become one of people's daily life's essential items gradually, and smart mobile phone all has the display screen of being convenient for control, along with the promotion of people's demand, when people handled different operations, for example, when answering a call and making a call and recreation, people often need the display screen area of different areas in order to promote product experience degree, so, the flexible screen that can change the display screen area just takes place.

Because the structural design that can change the display screen area is unreasonable among the prior art, after the area of flexible screen changes, does not carry out spacing structure to flexible screen, the area of flexible screen often can be because of vibrations secondary change, and it is extremely inconvenient to use.

Disclosure of Invention

In order to overcome the shortcoming and the not enough that exist among the prior art, the utility model aims to provide a flexible screen product with notch slide rail structure, after the screen area size of flexible screen changes, damping subassembly fixes a position second bars piece on the casing, avoids second bars piece to receive vibrations and leads to the screen area to change, promotes the performance of flexible screen product.

In order to achieve the purpose, the utility model discloses a telescopic screen product with a notch slide rail structure, which comprises a shell, a first grid piece fixedly arranged on the shell, and a second grid piece arranged on the shell in a sliding way, wherein the first grid piece and the second grid piece are in splicing fit; the first grid piece is provided with a plurality of first grids which are arranged in parallel at intervals, the second grid piece is provided with a first blind groove and a plurality of second grids which are positioned in the first blind groove, the plurality of second grids are arranged in parallel at intervals, the first blind groove is used for accommodating the first grids, the first grids and the second grids are arranged in a staggered mode, and the first grids and the second grids are used for supporting external telescopic screens; the second grid part is provided with a sliding chute, the shell is provided with a sliding rail part, and the sliding rail part is accommodated in the sliding chute part in a sliding manner; and a damping component is arranged between the second grid part and the shell and used for increasing the friction force between the second grid part and the shell so that the second grid part is limited on the shell.

Preferably, the damping component comprises an elastic head arranged on the sliding rail piece and a plurality of pits arranged on the second grid piece, the pits are formed by concave arrangement of the inner groove wall of the sliding groove, the pits are arranged in the length direction of the sliding groove, and the elastic head is used for extending into the pits.

Preferably, the elastic head comprises an elastic part and a damping head, the sliding rail part is provided with a containing hole for containing the elastic part and the damping head, and the elastic part drives the damping head to extend out of the outer surface of the sliding rail part and enter the concave pit under the action of the elastic force.

Preferably, the elastic element is a spring, the damping head is a spherical steel ball, and the concave pit is a hemispherical cambered surface.

Preferably, the first grid members further comprise base bars, all the first grid members are located on the same side of the base bars, the base bars are used for abutting against and stopping the second grid members, and the second grid members are provided with notch grooves used for accommodating the base bars.

Preferably, the second grid member has a second blind groove, the first blind groove and the second blind groove are respectively formed by being concavely formed from two sides of the second grid member, which are away from each other, the second blind groove is used for accommodating a control element of a telescopic screen product, and the shell covers an opening of the second blind groove so as to encapsulate the control element in the second blind groove.

Preferably, the housing is provided with a yielding groove, the second grid member is provided with a buckling and holding block exposed in the yielding groove, and a user drives the buckling and holding block to enable the second grid member to slide relative to the housing.

Preferably, the shell is provided with a third blind groove, the third blind groove is used for accommodating the first grid piece and the second grid piece, the surface of the bottom wall of the third blind groove, which is far away from the first grid, and the surface of the bottom wall of the third blind groove, which is far away from the second grid, are coplanar to form a supporting plane, and the supporting plane is used for supporting and abutting against the telescopic screen.

Has the advantages that: when the retractable screen product is used, according to the size of the area required by the retractable screen, a user drives the second grid piece to slide relative to the shell, and the retractable screen is driven to stretch when the second grid piece slides, so that the size of the screen area of the retractable screen is adjusted; after the screen area size of flexible screen is adjusted and is changed, with the help of damping subassembly with the second bars piece location on the casing, avoid the second bars piece to receive vibrations and lead to the screen area to change, promote the performance of flexible screen product.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is an exploded view of the present invention.

Fig. 3 is a perspective view of a second grid member of the present invention.

Fig. 4 is a perspective view of the second grid member of the present invention from another perspective.

The reference numerals include:

1-housing 2-first grid 3-second grid

4-first grid 5-first blind groove 6-second grid

7-chute 8-sliding rail 9-elastic head

11-elastic part 12-damping head 13-base strip

14-second blind groove 15-abdication groove 16-buckling block

17-third blind groove.

Detailed Description

The present invention will be further described with reference to the following examples and accompanying drawings.

Referring to fig. 1 to 4, the utility model discloses a flexible screen product with notch sliding rail structure, including casing 1, first bars 2 of fixed mounting on casing 1, the second bars 3 of sliding setting on casing 1, first bars 2 and the mutual grafting cooperation of second bars 3.

First bars 2 are provided with a plurality of first grids 4 that separate and parallel arrangement each other, and first grids 4 are straight strip, are provided with first blind groove 5 on the second bars 3 and are located a plurality of second grids 6 of first blind groove 5, and first blind groove 5 is established from the top surface of second bars 3 is concave to form, and second grids 6 are connected with the diapire of first blind groove 5, and a plurality of second grids 6 separate and parallel arrangement each other.

After the first grating pieces 2 and the second grating pieces 3 are spliced together, all the first gratings 4 are accommodated in the first blind grooves 5, the first gratings 4 and the second gratings 6 are arranged in a staggered manner, namely, one second grating 6 is arranged between any two adjacent first gratings 4, one first grating 4 is arranged between any two adjacent second gratings 6, and the first gratings 4 and the second gratings 6 are used for supporting external telescopic screens.

In this embodiment, the second grid member 3 is provided with the sliding groove 7, the sliding groove 7 extends along the sliding direction of the second grid member 3, the casing 1 is provided with the sliding rail member 8, the sliding rail member 8 is slidably accommodated in the sliding groove 7, and the sliding rail member 8 is engaged with the sliding groove 7 to guide the sliding direction of the second grid member 3, thereby preventing the second grid member 3 from being inclined in the sliding process. Preferably, the number of the sliding grooves 7 and the number of the sliding rail members 8 are both two, and the two sliding grooves 7 are respectively formed by recessing two ends of the second grid member 3 away from each other.

And a damping component is arranged between the second grid 3 and the shell 1 and used for increasing the friction force between the second grid 3 and the shell 1 so that the second grid 3 is limited on the shell 1. Of course, when the area size of the telescopic screen needs to be changed again, the friction force applied between the second grid 3 and the housing 1 by the damping assembly can be overcome.

In the use process of the retractable screen product, according to the size of the area required by the retractable screen, a user drives the second grid piece 3 to slide relative to the shell 1, and the retractable screen is driven to stretch when the second grid piece 3 slides, so that the size of the screen area of the retractable screen is adjusted; after the screen area size regulation of flexible screen changes, with the help of damping subassembly with the second bars 3 location on casing 1, avoid second bars 3 to receive vibrations and lead to the screen area to change, promote the performance of flexible screen product.

The damping component comprises an elastic head 9 arranged on the sliding rail piece 8 and a plurality of pits arranged on the second grid piece 3, the pits are formed by the concave arrangement of the inner groove wall of the sliding groove 7, the pits are arranged along the length direction of the sliding groove 7, and the elastic head 9 is used for extending into the pits.

When the screen area of the telescopic screen is adjusted to the required size, the elastic head 9 extends into the pit, the inner hole wall of the pit is abutted against and used for stopping the elastic head 9, the elastic head 9 is used for stopping the second grid member 3, and the second grid member 3 is limited on the shell 1. When the second grid member 3 needs to move again, acting force is applied to the second grid member 3, the acting force overcomes the abutting stop of the inner pit wall of the pit on the elastic head 9, so that the elastic head 9 is elastically deformed and retreats from the pit, and then the second grid member 3 can be driven to move relative to the shell 1. Of course, according to actual requirements, the number of the elastic heads 9 may also be multiple, the multiple elastic heads 9 are respectively accommodated in the multiple pits, and the elastic heads 9 correspond to the pits one by one.

In this embodiment, the elastic head 9 includes an elastic member 11 and a damping head 12, the sliding rail member 8 is provided with a containing hole for containing the elastic member 11 and the damping head 12, an opening aperture at one end of the containing hole is larger than an opening aperture at the other end of the containing hole, so that the elastic member 11 and the damping head 12 are loaded from one end of the containing hole, and the damping head 12 is limited at the other end of the containing hole, so that only a part of the damping head 12 extends out of the outer surface of the sliding rail member 8, thereby preventing the elastic member 11 and the damping head 12 from falling out of the other end of the containing hole, and the elastic member 11 drives the damping head 12 to extend out of the outer surface of the sliding rail member 8 and enter the pit under.

The elastic part 11 is a spring, the manufacturing process of the spring is mature, the manufacturing cost of the damping component is reduced, the damping head 12 is a spherical steel ball, the pit is a hemispherical cambered surface, and the damping head 12 and the pit are designed through a spherical structure, so that the damping head 12 can smoothly enter and exit the pit. Further, when the second grill 3 slides relative to the housing 1, the friction force and the sliding noise between the second grill 3 and the housing 1 are reduced by the rolling of the damper head 12.

The first grid part 2 further comprises a base strip 13, the base strip 13 is approximately in a straight strip shape, all the first grids 4 are located on the same side of the base strip 13, all the first grids 4 are arranged in a coplanar mode, the length direction of the base strip 13 is perpendicular to the length direction of the first grids 4, the base strip 13 is used for abutting against and stopping the second grid parts 3, in the inserting process of the first grid part 2 and the second grid parts 3, the first grids 4 move in the gaps between every two adjacent second grids 6 until the base strip 13 abuts against the second grid parts 3, and accurate limiting of relative movement between the two grid parts is achieved.

The second grid 3 is provided with a second blind groove 14, the second blind groove 14 is formed by the concave arrangement of the lower surface of the second grid 3, the first blind groove 5 and the second blind groove 14 are respectively formed by the concave arrangement of the upper side and the lower side of the second grid 3 which are far away from each other, the second blind groove 14 is used for accommodating a control element of a telescopic screen product, during actual use, the control element of the telescopic screen product is arranged in the second blind groove 14, and the risk that the control element is damaged due to collision is reduced by utilizing the protection of the inner groove wall around the second blind groove 14.

Of course, when the control element is damaged, the second grid member 3 can be drawn out from the housing 1, and then the control element in the second blind groove 14 can be repaired, so that the maintenance efficiency of the control element is improved, and the use and maintenance cost of the control element is reduced. The casing 1 covers the opening of the second blind groove 14 to enclose the control element in the second blind groove 14, so as to avoid the use risk caused by the exposed control element.

The housing 1 is provided with a relief groove 15, the relief groove 15 penetrates through the lower surface of the housing 1 and the side surface of one end of the housing, the second grid 3 is provided with a buckling block 16 exposed in the relief groove 15, and a user drives the buckling block 16 to enable the second grid 3 to slide relative to the housing 1. When the area size of the telescopic screen needs to be changed, the fingers of a user enter the abdicating groove 15 and pinch or hook the buckling block 16 by the fingers, so that the second grid piece 3 is driven to move relative to the shell 1, the second grid piece 3 enters and exits the shell 1, and the grids of the first grid piece 2 and the second grid piece 3 can support the telescopic screens with various area sizes.

The casing 1 is provided with a third blind groove 17, the sliding rail members 8 are respectively positioned on two inner side walls of the third blind groove 17, the third blind groove 17 penetrates through the top surface of the casing 1 and the side surface of one side of the casing 1, and the second grid member 3 enters and exits the casing 1 through an opening of the third blind groove 17, which penetrates through the side surface of the casing 1. The third blind groove 17 is used for holding and establishing first bars 2 and second bars 3, and the surface of the diapire of third blind groove 17 is kept away from to first grid 4, the surface coplane setting of the diapire of third blind groove 17 is kept away from to second grid 6 forms the supporting plane, and the supporting plane is contradicted on the lower surface of expansion screen, ensures that first grid 4, second grid 6 can steadily support the expansion screen, promotes the stability when expansion screen uses.

The above description is only for the preferred embodiment of the present invention, and the present specification should not be construed as limiting the present invention.

Claims (8)

1. A telescopic screen product with a notch sliding rail structure comprises a shell, a first grid piece fixedly arranged on the shell, and a second grid piece arranged on the shell in a sliding manner, wherein the first grid piece and the second grid piece are matched in an inserting manner; the method is characterized in that: the first grid piece is provided with a plurality of first grids which are arranged in parallel at intervals, the second grid piece is provided with a first blind groove and a plurality of second grids which are positioned in the first blind groove, the plurality of second grids are arranged in parallel at intervals, the first blind groove is used for accommodating the first grids, the first grids and the second grids are arranged in a staggered mode, and the first grids and the second grids are used for supporting external telescopic screens; the second grid part is provided with a sliding chute, the shell is provided with a sliding rail part, and the sliding rail part is accommodated in the sliding chute part in a sliding manner; and a damping component is arranged between the second grid part and the shell and used for increasing the friction force between the second grid part and the shell so that the second grid part is limited on the shell.

2. The retractable screen product with a slotted track structure of claim 1, wherein: the damping assembly comprises an elastic head arranged on the sliding rail piece and a plurality of pits arranged on the second grid piece, the pits are formed by concave arrangement of the inner groove wall of the sliding groove, the pits are arranged along the length direction of the sliding groove, and the elastic head is used for extending into the pits.

3. The retractable screen product with a slotted track structure of claim 2, wherein: the elastic head comprises an elastic part and a damping head, the sliding rail part is provided with a containing hole for containing the elastic part and the damping head, and the elastic part drives the damping head to extend out of the outer surface of the sliding rail part and enter the concave pit under the action of the elastic force.

4. The retractable screen product with a slotted track structure of claim 3, wherein: the elastic piece is a spring, the damping head is a spherical steel ball, and the pit is a hemispherical cambered surface.

5. The retractable screen product with a slotted track structure of claim 1, wherein: the first grid parts also comprise base strips, all the first grid parts are positioned at the same side of the base strips, the base strips are used for abutting and stopping the second grid parts, and the second grid parts are provided with notch grooves used for accommodating the base strips.

6. The retractable screen product with a slotted track structure of claim 1, wherein: the second grid part is provided with a second blind groove, the first blind groove and the second blind groove are respectively formed by concavely arranging two sides of the second grid part, which are far away from each other, the second blind groove is used for accommodating a control element of a telescopic screen product, and the shell covers an opening of the second blind groove so as to encapsulate the control element in the second blind groove.

7. The retractable screen product with a slotted track structure of claim 1, wherein: the shell is provided with a yielding groove, the second grid piece is provided with a buckling and holding block exposed in the yielding groove, and a user drives the buckling and holding block to enable the second grid piece to slide relative to the shell.

8. The retractable screen product with a slotted track structure of claim 1, wherein: the casing is equipped with the third blind groove, and the third blind groove is used for holding and establishes first bars spare and second bars spare, and the surface of the diapire that the third blind groove was kept away from to first grid, the surface coplane that the diapire that the third blind groove was kept away from to the second grid form the supporting plane, and the supporting plane is used for supporting the flexible screen of contradicting.

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