CN210274154U - Telescopic structure for telescopic screen product - Google Patents

Abstract

The utility model relates to the technical field of retractable screen products, in particular to a retractable structure for a retractable screen product, which comprises a shell, a first grid piece arranged on the shell, a second grid piece arranged on the shell in a sliding way, and a shaft body arranged at one end of the shell in a rotating way; the device also comprises a base plate part and a bent steel plate, wherein the base plate part is arranged on the shell or/and the first grid part; the flexible screen is attached to the bent steel plate, one end of the bent steel plate is arranged on the second grid piece, the first grid piece and the second grid piece are provided with a first reference plane used for supporting one end of the bent steel plate, and the base plate piece is provided with a second reference plane used for abutting against the other end of the bent steel plate; a user drives the second grid part to slide relative to the shell, and the second grid part drives the telescopic screen to stretch when sliding, so that the size of the display area of the telescopic screen is adjusted; the bent steel plate, the first reference plane and the second reference plane are matched to ensure that the telescopic screen is in a planar state, and damage caused by the fact that the telescopic screen is uneven is prevented.

Description

Telescopic structure for telescopic screen product

Technical Field

The utility model relates to a flexible screen product technical field especially discloses a flexible structure for scalable screen product.

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 different display areas's display screen in order to promote product experience degree, so, the flexible screen that can change the display screen area just takes place.

Because the flexible screen that can change display area's structural design is unreasonable among the prior art, after the display area of flexible screen changed, the flexible screen did not obtain abundant support, when the user controlled the flexible screen with finger pressure, very easily caused the flexible screen sunken and damaged, it is extremely inconvenient to use. In addition, the flexible screen is switched back and forth at different bending angles in the prior art, so that the flexible screen is easily damaged, and the service life of the flexible screen is greatly reduced. In addition, when the display area of the flexible screen changes in a telescopic manner, the flexible screen is often not used well due to unevenness.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the utility model aims to provide a telescopic structure for a telescopic screen product, when the display area of the telescopic screen is changed, a bent steel plate supports the telescopic screen, and the telescopic screen is prevented from being damaged due to the concave inwards of the telescopic screen when a user operates the telescopic screen; the bent steel plate, the first reference plane and the second reference plane are matched to ensure that the telescopic screen is in a planar state, and damage caused by the fact that the telescopic screen is uneven is prevented.

In order to achieve the above object, the utility model discloses a telescopic structure for a telescopic screen product, which comprises a shell, a first grid member arranged on the shell, a second grid member arranged on the shell in a sliding way and matched with the first grid member in an inserting way, and a shaft body arranged at one end of the shell in a rotating way; the flexible screen comprises a shell and a flexible screen body, and is characterized by further comprising a base plate part and a curved steel plate, wherein the base plate part is arranged on the shell or/and the first grid part, the second grid part and the base plate part are all positioned on the same side of the shaft body, the shell is provided with an accommodating space, and the accommodating space is used for accommodating the first grid part, the second grid part, the shaft body, the base plate part, the curved steel plate and the external flexible screen; crooked steel sheet is located in flexible screen subsides, the one end of crooked steel sheet sets up in second bars spare, first bars spare, second bars spare is formed with the first reference plane that is used for supporting the one end of crooked steel sheet, the middle part of flexible screen is around locating one side that first bars spare was kept away from to the axis body, the one end that first bars spare was kept away from to base plate spare is equipped with the second reference plane that is used for the other end of the crooked steel sheet of contradicting, the other end of crooked steel sheet is located between second reference plane and the casing, first reference plane and second reference plane parallel arrangement.

Wherein, casing detachably is connected with the protecting crust, and the protecting crust is used for covering flexible screen around establishing the middle part in the axis body outside, and the one end of crooked steel sheet is located between the one end of flexible screen and the bars spare, and the middle part of crooked steel sheet is located between the middle part of flexible screen and the middle part of axis body, and the other end of crooked steel sheet is located between the other end of flexible screen and the base plate spare.

Wherein, the casing is equipped with two phonate holes that communicate with the accommodation space and run through the lateral wall of casing, and the axis body is equipped with the perforation that runs through the axis body, and perforation and a phonate hole intercommunication, another phonate hole are used for spreading out sound.

The shaft body comprises a cylindrical barrel and two protruding shafts, the two ends of the cylindrical barrel are respectively rotatably sleeved on the outer sides of the two protruding shafts, the two protruding shafts are respectively arranged at the two ends of the shell and are located in the containing space, and the middle of the bent steel plate and the middle of the telescopic screen are wound on the outer sides of the cylindrical barrel, which are far away from the first grid piece.

The cylindrical barrel is provided with a cylindrical body part and cylindrical edge parts arranged at two ends of the cylindrical body part respectively, the outer diameter of each cylindrical edge part is larger than that of the cylindrical body part, the middle parts of the bent steel plates and the telescopic screen are wound on the outer side, far away from the first grid part, of the cylindrical body part, and the cylindrical edge parts at the two ends of the cylindrical body part are used for stopping and limiting two sides of the middle parts of the bent steel plates and two sides of the middle parts of the telescopic screens.

The second grid part is provided with a sliding groove, the shell is provided with a guide rail located in the accommodating space, the guide rail is provided with a damping assembly, and the damping assembly is used for increasing the friction force between the shell and the second grid part so that the second grid part after sliding is positioned on the shell.

The damping assembly comprises an elastic piece and a rolling ball, the guide rail is provided with an accommodating hole, and the elastic piece and the rolling ball are both positioned in the accommodating hole; the casing is equipped with a plurality of pits, and a plurality of pits are arranged along the length direction of spout, and the pit is established from the interior cell wall of spout and is formed by the concave, and the elastic component drives the spin and stretches out the surface of guide rail and stretch into in the pit suddenly under the elastic force effect.

Wherein, first bars spare is equipped with a plurality of first grids that separate and parallel arrangement each other, and the second bars spare is equipped with first blind groove and is located a plurality of second grids of first blind inslot, and the second grid is connected with the diapire of first blind groove, and a plurality of second grids separate and parallel arrangement each other, and first blind groove is used for holding and establishes first grid, and first grid and second grid set up in a staggered way.

The second grid part is provided with a second blind groove, the first blind groove and the second blind groove are respectively formed by being concavely arranged at two sides of the second grid part, which are far away from each other, and the second blind groove is used for accommodating a control element of a telescopic screen product.

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 enter and exit the accommodating space.

Has the advantages that: when the display area of the telescopic screen needs to be changed, a user drives the second grid piece to slide relative to the shell, the second grid piece drives the bent steel plate and the telescopic screen to stretch when sliding, and then the size of the display area of the telescopic screen is adjusted, the bent steel plate supports the telescopic screen all the time, and the telescopic screen is prevented from being damaged due to the fact that the telescopic screen is concaved inwards. The flexible screen is ensured to be in a planar state by matching the bent steel plate, the first reference plane and the second reference plane, and the flexible screen is prevented from being damaged due to unevenness; the setting via the axis body for flexible screen keeps same bending angle around the axis body, avoids flexible screen to change and damage at a plurality of different bending angle, prolongs the life of flexible screen.

Drawings

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

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

Fig. 3 is an exploded view of another perspective of the present invention.

Fig. 4 is a perspective view of the housing of the present invention.

Fig. 5 is an exploded view of the shaft body of the present invention.

Fig. 6 is a perspective view of the first grid member of the present invention.

Fig. 7 is a perspective view of a second grid member of the present invention.

Fig. 8 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-shaft body 5-base plate 6-bending steel plate

7-accommodation space 8-first reference plane 9-second reference plane

11-sound outlet 12-perforation 13-cylinder

14-protruding shaft 15-column body part 16-column edge part

17-chute 18-guide rail 19-damping assembly

21-elastic member 22-rolling ball 23-first grid

24-first blind groove 25-second grid 26-second blind groove

27-abdicating groove 28-buckling block 111-protective shell

112-telescopic screen.

Detailed Description

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

Referring to fig. 1 to 3, a telescopic structure for a retractable screen product of the present invention includes a housing 1, a first grid member 2 fixedly mounted on the housing 1, a second grid member 3 slidably disposed on the housing 1 and engaged with the first grid member 2, and a shaft 4 rotatably disposed on one end of the housing 1; still include base plate spare 5 and crooked steel sheet 6, base plate spare 5 sets up on casing 1 or/and first bars 2, and base plate spare 5 is located the below of first bars 2, and first bars 2, second bars 3, base plate spare 5 all lie in the same one side of axis body 4.

The casing 1 is provided with an accommodating space 7, the accommodating space 7 is formed by being concavely arranged on the top surface of the casing 1, the accommodating space 7 does not penetrate through the casing 1, and the accommodating space 7 is used for accommodating the first grid part 2, the second grid part 3, the shaft body 4, the base plate part 5, the bent steel plate 6 and the external telescopic screen 112.

The telescopic screen 112 is attached to the curved steel plate 6, the telescopic screen 112 has substantially the same structure as the curved steel plate 6, and the telescopic screen 112 and the curved steel plate 6 are substantially U-shaped in the use process of the telescopic screen 112 product. One end of the bent steel plate 6 is located between one end of the telescopic screen 112 and the grid piece, the middle of the bent steel plate 6 is located between the middle of the telescopic screen 112 and the middle of the shaft body 4, and the other end of the bent steel plate 6 is located between the other end of the telescopic screen 112 and the base plate piece 5.

One end of the bent steel plate 6 is arranged on the second grid part 3, the first grid part 2 and the second grid part 3 are provided with a first reference plane 8 for supporting one end of the bent steel plate 6, the middle part of the telescopic screen 112 is arranged on one side of the shaft body 4 far away from the first grid part 2 in a winding mode, one end of the base plate part 5 far away from the first grid part 2 is provided with a second reference plane 9 for abutting against the other end of the bent steel plate 6, the other end of the bent steel plate 6 is located between the second reference plane 9 and the shell 1, and the first reference plane 8 and the second reference plane 9 are arranged in parallel.

When the display area of the retractable screen 112 needs to be changed, the user drives the second grid member 3 to slide relative to the shell 1, the second grid member 3 drives the curved steel plate 6 and the retractable screen 112 to move together in a retractable manner when sliding, and then the display area of the retractable screen 112 can be adjusted, in the retractable process of the retractable screen 112, the curved steel plate 6 supports a part of the retractable screen 112 used for displaying images all the time, in the use process of the retractable screen 112, the retractable screen 112 is prevented from being damaged due to the fact that the retractable screen 112 is concaved inwards, and the service life of the retractable screen 112 is prolonged.

The bent steel plate 6, the first reference plane 8 and the second reference plane 9 are matched to ensure that the telescopic screen 112 is in a planar state, so that damage caused by unevenness of the telescopic screen 112 in the use process is prevented; through the setting of axis body 4, in the in-process that the display area of flexible screen 112 changes for flexible screen 112 keeps the same bending angle around the axis body 4, avoids flexible screen 112 to change and damage at a plurality of different bending angles, prolongs flexible screen 112's life.

Referring to fig. 1 to 4, the casing 1 is detachably connected to a protective casing 111, the shaft 4 is located between the protective casing 111 and the casing 1, the protective casing 111 is used for covering the middle of the retractable screen 112 wound around the shaft 4 on the side away from the first grid member 2, and the protective casing 111 is used for protecting the bent portion of the retractable screen 112 to prevent the bent portion of the retractable screen 112 from being damaged; meanwhile, the bending angle of the telescopic screen 112 is limited, so that the telescopic screen 112 can be ensured to be stretched at the same bending angle all the time in the stretching process.

Two sound holes 11 which are communicated with the accommodating space 7 and penetrate through the side wall of the shell 1 are formed in the shell 1, a through hole 12 which penetrates through the shaft body 4 is formed in the shaft body 4, the through hole 12 is communicated with one sound hole 11, and the other sound hole 11 is used for transmitting sound.

In the use process of the telescopic screen 112 product, the external air flows through the sound outlet holes 11 and the through holes 12, so that the heat dissipation of the telescopic screen 112 product is realized, and the service life of the telescopic screen 112 product is prolonged. The sound of the retractable screen 112 in use is diffused through the sound outlet 11. Certainly, the vibration generated by the sound emitted from the sound outlet 11 of the retractable screen 112 can also assist the air flow, thereby improving the heat dissipation effect of the sound outlet 11. Preferably, the number of the sound outlet holes 11 is plural, and both sides of the housing 1 away from each other are provided with the plural sound outlet holes 11.

Referring to fig. 1 to 5, the shaft body 4 includes a cylindrical tube 13 and two protruding shafts 14, a central axis of the cylindrical tube 13 and a central axis of the protruding shafts 14 are overlapped, two ends of the cylindrical tube 13 are respectively rotatably sleeved on outer sides of the two protruding shafts 14, the two protruding shafts 14 are respectively disposed on two ends of the housing 1, the two protruding shafts 14 are both located in the accommodating space 7, and a middle portion of the curved steel plate 6 and a middle portion of the retractable screen 112 are respectively disposed around the cylindrical tube 13 on an outer side away from the first grid member 2. Preferably, the outside cover of cylinder 13 is equipped with flexible layer, and crooked steel sheet 6 is located between expansion screen 112 and the flexible layer, and the crooked steel sheet 6 of flexible layer conflict reduces the crooked steel bottle and cylinder 13 produced noise when rotating relatively.

The cylindrical barrel 13 has a cylindrical portion 15 and cylindrical edge portions 16 respectively disposed at two ends of the cylindrical portion 15, the outer diameter of the cylindrical edge portion 16 is larger than the outer diameter of the cylindrical portion 15, the middle portion of the curved steel plate 6 and the middle portion of the retractable screen 112 are wound around the outer side of the cylindrical portion 15 away from the first grid member 2, and the cylindrical edge portions 16 at two ends of the cylindrical portion 15 are used for stopping and limiting two sides of the middle portion of the curved steel plate 6 and two sides of the middle portion of the retractable screen 112. In the using process of the telescopic screen 112 product, the column edge parts 16 at the two ends of the column part 15 are used for stopping and limiting the bent steel plate 6 and the telescopic screen 112, so that the bent steel plate 6 and the telescopic screen 112 are prevented from moving along the axial direction of the shaft body 4, and the using performance of the telescopic screen 112 product is improved.

The second grid part 3 is provided with a sliding groove 17, the length direction of the sliding groove 17 is parallel to that of the grating, the shell 1 is provided with a guide rail 18 positioned in the accommodating space 7, the guide rail 18 and the sliding container are arranged in the sliding groove 17, and in the relative sliding process of the second grid part 3 and the shell 1, the sliding direction of the second grid part 3 is limited through the matching of the guide rail 18 and the sliding groove 17, so that the second grid part 3 is prevented from being inclined in the sliding process.

The guide rail 18 is provided with a damping assembly 19, and the damping assembly 19 is used for increasing the friction force between the housing 1 and the second fence 3 so as to position the second fence 3 on the housing 1 after sliding. In the telescopic process of the telescopic screen 112, after the display area of the telescopic screen 112 reaches a preset value, the user does not drive the second grid member 3 any more, the second grid member 3 and the housing 1 do not move relatively via the damping assembly 19, and the display area of the telescopic screen 112 is prevented from changing due to the influence of vibration and the like on the telescopic screen 112 due to the arrangement of the damping assembly 19.

The damping component 19 comprises an elastic piece 21 and a rolling ball 22, in this embodiment, the elastic piece 21 is a spring, the guide rail 18 is provided with a containing hole, and the elastic piece 21 and the rolling ball 22 are both positioned in the containing hole; the casing 1 is provided with a plurality of pits, the pits are arranged in a collinear manner, the pits are arranged along the length direction of the sliding groove 17, the pits are formed by the concave arrangement of the inner groove wall of the sliding groove 17, and the elastic part 21 drives the rolling ball 22 to protrude out of the outer surface of the guide rail 18 and extend into the pits under the action of elastic force.

When the display area of the retractable screen 112 reaches a preset value, the elastic element 21 drives the rolling ball 22 to protrude out of the outer surface of the guide rail 18 and enter the concave pit under the action of elastic force, the inner pit wall of the concave pit is abutted against the limiting rolling ball 22, and then the friction force between the second grid element 3 and the shell 1 is increased, so that the second grid element 3 is positioned on the shell 1. Through the arrangement of the rolling balls 22, the rolling balls 22 and the second grating 3 are arranged in a rolling manner in the sliding process of the second grating 3 and the shell 1, so that the abrasion between the second grating 3 and the damping assembly 19 is reduced, and the friction noise is reduced.

Referring to fig. 1 to 8, the first grid 2 is provided with a plurality of first grids 23 spaced apart from each other and arranged in parallel, the first grids 23 are substantially straight, and the cross-sectional shape of the first grids 23 is substantially rectangular. The second grid member 3 is provided with a first blind groove 24 and a plurality of second grids 25 positioned in the first blind groove 24, the second grids 25 have the same structure as the first grids 23, the second grids 25 are connected with the bottom wall of the first blind groove 24, the plurality of second grids 25 are arranged at intervals and in parallel, the plane of the bottom wall of the first blind groove 24 far away from the first grids 23 and the plane of the bottom wall of the first blind groove 24 far away from the second grids 25 form a first reference plane 8.

When the first grid members 2 and the second grid members 3 are inserted, the first grids 23 are accommodated in the first blind grooves 24, the first grids 23 and the second grids 25 are arranged in a staggered manner, namely, one second grid 25 is arranged between any two adjacent first grids 23, and one first grid 23 is arranged between any two adjacent second grids 25.

In the use process of the telescopic screen 112 product, according to the size of the display area of the telescopic screen 112 required by a user, the user drives the second grid member 3 to slide relative to the shell 1, so as to change the area of the first reference plane 8 formed by the first grid 23 and the second grid 25 and used for supporting the telescopic screen 112, and the second grid member 3 drives the telescopic screen 112 to stretch and retract when sliding, so as to adjust the size of the display area of the telescopic screen 112; after the display area of the retractable screen 112 is changed, the first and second grills 23 and 25 always support the retractable screen 112 through the curved steel plate 6, so that the retractable screen 112 is prevented from being recessed and badly used when a user presses the retractable screen 112 with fingers, and the stability of the use performance of the retractable screen 112 is ensured.

The second grid 3 is provided with a second blind groove 26, the second blind groove 26 is formed by concavely arranging the lower surface of the second grid 3, the first blind groove 24 and the second blind groove 26 are respectively formed by concavely arranging the upper side and the lower side of the second grid 3 which are far away from each other, and the second blind groove 26 is used for accommodating control elements of products such as the telescopic screen 112.

In practical use, control elements of products such as the telescopic screen 112 are arranged in the second blind groove 26, and the risk that the control elements are damaged due to collision is reduced by utilizing the inner groove wall around the second blind groove 26 to protect the control elements. 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 26 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 housing 1 is provided with a recess 27, the recess 27 penetrates through the lower surface and the side surface of one end of the housing 1, the second grid 3 is provided with a fastening block 28 exposed in the recess 27, and a user drives the fastening block 28 to make the second grid 3 enter and exit the accommodating space 7.

When the size of the display area of the retractable screen 112 needs to be changed, the fingers of the user enter the abdicating groove 27, and pinch or hook the buckling block 28 with the fingers, so as to drive the second grid member 3 to move relative to the housing 1, so that the second grid member 3 enters and exits the housing 1, and the grids of the first grid member 2 and the second grid member 3 can support the retractable screen 112 with various area sizes.

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 (10)

1. A telescopic structure for a telescopic screen product comprises a shell, a first grid piece arranged on the shell, a second grid piece which is arranged on the shell in a sliding mode and matched with the first grid piece in an inserting mode, and a shaft body arranged at one end of the shell in a rotating mode; the method is characterized in that: the flexible screen comprises a shell and a flexible screen body, and is characterized by further comprising a base plate part and a curved steel plate, wherein the base plate part is arranged on the shell or/and the first grid part, the second grid part and the base plate part are all positioned on the same side of the shaft body, the shell is provided with an accommodating space, and the accommodating space is used for accommodating the first grid part, the second grid part, the shaft body, the base plate part, the curved steel plate and the external flexible screen; crooked steel sheet is located in flexible screen subsides, the one end of crooked steel sheet sets up in second bars spare, first bars spare, second bars spare is formed with the first reference plane that is used for supporting the one end of crooked steel sheet, the middle part of flexible screen is around locating one side that first bars spare was kept away from to the axis body, the one end that first bars spare was kept away from to base plate spare is equipped with the second reference plane that is used for the other end of the crooked steel sheet of contradicting, the other end of crooked steel sheet is located between second reference plane and the casing, first reference plane and second reference plane parallel arrangement.

2. The telescopic construction for a retractable screen product as claimed in claim 1, wherein: casing detachably is connected with the protecting crust, and the protecting crust is used for hiding the flexible screen around establishing the middle part in the axis body outside, and the one end of crooked steel sheet is located between the one end of flexible screen and the bars spare, and the middle part of crooked steel sheet is located between the middle part of flexible screen and the middle part of axis body, and the other end of crooked steel sheet is located between the other end of flexible screen and the base plate spare.

3. The telescopic construction for a retractable screen product as claimed in claim 1, wherein: the casing is equipped with two phonate holes that communicate with the accommodation space and run through the lateral wall of casing, and the axis body is equipped with the perforation that runs through the axis body, and perforation and a phonate hole intercommunication, another phonate hole are used for spreading out sound.

4. The telescopic construction for a retractable screen product as claimed in claim 1, wherein: the axis body includes a cylinder and two protruding axles, and the both ends of a cylinder are rotated the cover respectively and are established in the outside of two protruding axles, and two protruding axles set up respectively in the both ends of casing and are located the accommodation space, and the middle part of crooked steel sheet, the middle part of flexible screen are around establishing the outside of keeping away from first bars piece at a cylinder.

5. The telescopic construction for a retractable screen product, according to claim 4, wherein: the cylindrical barrel is provided with a cylindrical body part and cylindrical edge parts arranged at two ends of the cylindrical body part respectively, the outer diameter of each cylindrical edge part is larger than that of the cylindrical body part, the middle parts of the bent steel plates and the telescopic screen are wound on the outer side, far away from the first grid part, of the cylindrical body part, and the cylindrical edge parts at the two ends of the cylindrical body part are used for stopping and limiting two sides of the middle parts of the bent steel plates and two sides of the middle parts of the telescopic screens.

6. The telescopic construction for a retractable screen product as claimed in claim 1, wherein: the second bars are provided with sliding grooves, the shell is provided with guide rails located in the accommodating space, the guide rails are provided with damping assemblies, and the damping assemblies are used for increasing friction force between the shell and the second bars so that the second bars after sliding are positioned on the shell.

7. The telescopic construction for a retractable screen product, according to claim 6, wherein: the damping component comprises an elastic piece and a rolling ball, the guide rail is provided with a containing hole, and the elastic piece and the rolling ball are both positioned in the containing hole; the casing is equipped with a plurality of pits, and a plurality of pits are arranged along the length direction of spout, and the pit is established from the interior cell wall of spout and is formed by the concave, and the elastic component drives the spin and stretches out the surface of guide rail and stretch into in the pit suddenly under the elastic force effect.

8. The telescopic construction for a retractable screen product as claimed in claim 1, wherein: the first grid piece is equipped with a plurality of first grids that separate and parallel arrangement each other, and the second grid piece is equipped with first blind groove and is located a plurality of second grids of first blind inslot, and the second grid is connected with the diapire of first blind groove, and a plurality of second grids separate and parallel arrangement each other, and first blind groove is used for holding and establishes first grid, and first grid and second grid set up in a staggered way.

9. The telescopic construction for a retractable screen product as claimed in 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 the concave arrangement of two sides of the second grid part which are far away from each other, and the second blind groove is used for accommodating a control element of a telescopic screen product.

10. The telescopic construction for a retractable screen product as claimed in 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 enter and exit the accommodating space.

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