CN114253351A

CN114253351A - Pen container and display device

Info

Publication number: CN114253351A
Application number: CN202011006347.9A
Authority: CN
Inventors: 葛亮
Original assignee: Shenzhen Huasheng Software Technology Co ltd; TCL Commercial Information Technology Huizhou Co Ltd
Current assignee: Shenzhen Huasheng Software Technology Co ltd; TCL Commercial Information Technology Huizhou Co Ltd
Priority date: 2020-09-22
Filing date: 2020-09-22
Publication date: 2022-03-29

Abstract

The invention discloses a pen container and a display device, comprising: the touch control pen comprises a barrel body, a first fixing piece and a second fixing piece, wherein the barrel body is axially provided with an inner cavity for accommodating the touch control pen; the pen holder is arranged in the inner cavity in a sliding mode and connected with the touch pen; the rotating sliding block is connected with the pen holder and is arranged in the inner cavity in a rotating and sliding manner; the elastic piece is positioned between the bottom of the inner cavity and the rotating slide block; the pen holder pushes the rotating slide block to rotate due to the pressing of the touch control pen, and the rotating slide block is pushed by the elastic piece and stays at different axial positions of the inner cavity. The problem of among the prior art touch-control pen can be taken out from the pen container very easily and lead to the touch-control pen easily to lose is solved.

Description

Pen container and display device

Technical Field

The invention relates to the field of display equipment, in particular to a pen container and display equipment.

Background

The existing flat panel display with touch is widely used in education and conference systems. The touch panel display can be operated by hand or by a stylus. Generally, to prevent the pen from being lost, the touch panel display is provided with a storage device, such as a pen container fixed to a host computer.

The existing pen container only has the function of placing the touch pen, the touch pen can be directly taken out after being directly placed in the pen container, and although the touch pen is convenient to take and place, the touch pen is easy to directly take out, so that the pen is easy to lose.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

In view of the above-mentioned deficiencies of the prior art, an object of the present invention is to provide a pen container and a display device, which solve the problem that a stylus can be easily taken out from the pen container in the prior art, so that the stylus is easily lost.

The technical scheme of the invention is as follows:

a pen container, comprising:

the touch control pen comprises a barrel body, a first fixing piece and a second fixing piece, wherein the barrel body is axially provided with an inner cavity for accommodating the touch control pen;

the pen holder is arranged in the inner cavity in a sliding mode and connected with the touch pen;

the rotating sliding block is connected with the pen holder and is arranged in the inner cavity in a rotating and sliding manner;

the elastic piece is positioned between the bottom of the inner cavity and the rotating slide block;

the pen holder pushes the rotating slide block to rotate due to the pressing of the touch control pen, and the rotating slide block is pushed by the elastic piece and stays at different axial positions of the inner cavity.

Further, the pen stand includes:

the pen stand includes:

the seat body is arranged in the inner cavity in a sliding manner;

the first helical teeth are arranged at one end, facing the rotating slide block, of the seat body and comprise third inclined planes;

the rotary slider includes:

the rotating body is slidably and rotatably arranged in the inner cavity;

the convex edge is fixedly arranged on the outer wall of the rotating body, and one end of the convex edge abuts against the third inclined surface;

the barrel includes:

the stopping sliding groove is formed in the inner wall of the barrel, and when the pen holder is pressed downwards, the convex edge slides into the stopping sliding groove along the third inclined surface;

the through sliding groove is arranged on the inner wall of the barrel and is adjacent to the stopping sliding groove, and when the pen holder is pressed downwards, the convex edge slides into the through sliding groove along the third inclined surface;

the distance between the convex edge and the orifice of the cylinder body when the convex edge is positioned in the stopping chute is larger than the distance between the convex edge and the orifice of the cylinder body when the convex edge is positioned in the through chute.

Furthermore, a plurality of through sliding grooves and a plurality of stopping sliding grooves are arranged, and a plurality of convex edges are arranged;

the number of the through sliding grooves and the number of the stopping sliding grooves are natural number times of the number of the convex edges.

Further, the cylinder comprises a cylinder shell and a fixed block which is detachably arranged in the cylinder shell;

the stop sliding groove and the through sliding groove are located on the inner wall of the fixing block.

Further, the sliding stopping groove includes:

the first inclined plane is arranged along the circumference of the inner wall of the fixed block and used for abutting against the end face, back to the bottom surface of the inner cavity, of the convex edge, and the inclination directions of the first inclined plane and the third inclined plane are the same;

the first side face is adjacent to the first inclined face and arranged along the axial direction of the fixing block, and the first side face is used for abutting against the side face of the rib;

the through chute includes:

the first through groove axially penetrates through the fixed block;

the second inclined plane is arranged along the circumference of the inner wall of the fixed block and connected with the side face of the first through groove, and the inclination direction of the second inclined plane is the same as that of the first inclined plane;

the second inclined surface is connected with the first side surface.

Furthermore, the end face of the rib, which is used for abutting against the third inclined face, is provided with a fourth inclined face, and the fourth inclined face abuts against the third inclined face.

Further, a second through groove is axially formed in the inner wall of the cylinder shell and communicated with the first through groove;

the base body is provided with a first sliding platform, and the first sliding platform is located in the first through groove and slides in the second through groove.

Further, a stop block is arranged on the barrel and protrudes out of the inner wall surface of the barrel.

Further, the barrel still includes:

the bottom cover is detachably connected to the barrel shell;

a boss is arranged on one surface of the rotating body facing the pen holder, a mounting hole is formed in the pen holder, and the boss is located in the mounting hole;

an accommodating groove is formed in the end face, facing the orifice of the cylinder, of the seat body, and the inner side wall of the accommodating groove is conical.

Based on the same concept, the invention also comprises a display device comprising a display screen, wherein the display device further comprises a pen container according to any one of claims 1 to 9 arranged on the side surface of the display screen, and a touch pen positioned in the pen container;

an inductor is arranged in the pen container and electrically connected with the display screen;

the touch control pen is provided with an induction part, and the induction part triggers the inductor to start when being located in an induction range of the inductor.

The beneficial effect of this scheme: the pen container comprises a container body for containing a touch pen and a pen holder sliding in the container body, when the touch pen is placed in the container body, the pen holder is connected with the touch pen in an abutting mode, when the touch pen is placed in the container body, the touch pen is pressed, the touch pen pushes a rotating sliding block through the pen holder, the rotating sliding block rotates to different positions of the pen holder due to the elastic force of an elastic piece, and the axial positions of an inner cavity corresponding to different positions of the pen holder are different, so that the rotating sliding block stays at different axial positions of the inner cavity. Therefore, when the stylus is pressed, the part of the tail end of the stylus, which is exposed out of the opening end of the barrel body, is reduced or increased, when the stylus is pressed, the rotating slide block stays at the position close to the opening end of the barrel body, the part of the tail end of the stylus, which is exposed out of the opening end of the barrel body, is increased, and the stylus can be conveniently pulled out after being popped out of a part; when the rotating slider stays at a position far away from the opening end of the cylinder, the tail end of the stylus is exposed out of the opening end of the cylinder, so that the stylus cannot be pinched by hands, and the stylus cannot be taken out. Therefore, the problem that the stylus is easy to lose due to the fact that the stylus is directly taken out after being easily held is solved.

Drawings

FIG. 1 is a schematic view of the internal structure of a pen container according to an embodiment of the present invention;

FIG. 2 is an exploded view of a fixing block, a pen holder and a rotary sliding block of the pen container according to the embodiment of the invention;

FIG. 3 is a diagram of connection relations of a fixing block, a pen holder and a rotating slide block of the pen container of the embodiment of the invention in operation;

FIG. 4 is a simplified schematic diagram of an embodiment of a pen barrel of the present invention;

FIG. 5 is a schematic structural view of a barrel body of an embodiment of a pen container of the invention;

FIG. 6 is a schematic structural view of a fixing block of an embodiment of a pen container of the invention;

FIG. 7 is a schematic structural view of a pen holder of an embodiment of a pen container of the present invention;

FIG. 8 is a schematic structural view of a rotating slider of an embodiment of a pen container of the present invention;

FIG. 9 is a schematic structural view of a bottom cover of an embodiment of a pen container of the invention;

FIG. 10 is a state view of a pen container embodiment of the present invention;

FIG. 11 is another state view of an embodiment of a pen barrel of the present invention.

The reference numbers in the figures: 100. a barrel; 110. an inner cavity; 120. a cartridge housing; 121. a plane; 122. a second through groove; 123. a third through groove; 130. a fixed block; 131. a positioning column; 132. a fourth through groove; 140. a bottom cover; 141. a limiting boss; 150. a stopping chute; 151. a first inclined plane; 152. a first side surface; 160. a chute is communicated; 161. a second inclined plane; 162. a first through groove; 170. a counter bore; 171. limiting counter bores; 180. a stop block; 200. a stylus; 300. a pen holder; 310. a base body; 320. an accommodating groove; 330. a first helical tooth; 331. a third inclined plane; 340. mounting holes; 350. a first sliding table; 400. rotating the slide block; 410. a rotating body; 411. a limiting hole; 420. a rib; 421. a fourth slope; 430. a boss; 500. an elastic member; 600. an inductor; 610. an inductor mounting groove; 620. a sensing part.

Detailed Description

The invention provides a pen container and a display device, and in order to make the purpose, technical scheme and effect of the invention clearer and clearer, the invention is further described in detail below by referring to the attached drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1 and 2, the present invention provides a pen container, which comprises a container body 100, wherein the container body 100 is arranged on one side of a display screen along a vertical direction, the structure is described by taking the direction of the display screen when the display screen is placed in a vertical mode as a reference, the container body 100 is arranged on the side surface of the display screen along an up-down direction, an opening end of the container body 100 faces upwards, and the axial direction of the container body 100 is the up-down direction. The cylinder body 100 is provided with an inner cavity 110 for accommodating the stylus 200 along the axial direction, and the inner cavity 110 in this embodiment is a cylindrical inner cavity; as shown in fig. 1, 2, and 3, a pen holder 300 is disposed in the inner cavity 110, the pen holder 300 is slidably disposed in the inner cavity 110 and connected to a pen point of the stylus 200, and the pen point of the stylus 200 is an end for writing on a display screen; the pen holder 300 is connected with a rotary sliding block 400, and the rotary sliding block 400 rotates and is arranged in the inner cavity 110 in a sliding manner; an elastic member 500 is disposed between the bottom of the inner cavity 110 and the rotating slider 400. The pen holder 300 pushes the rotary slider 400 to rotate due to the pressing of the stylus 200, and the rotary slider 400 is pushed by the elastic member 500 and stays at different positions in the axial direction of the inner cavity 110.

When the stylus pen 200 is placed in the barrel 100, the stylus pen 200 is pressed, the stylus pen 200 pushes the rotary slider 400 through the pen holder 300, the rotary slider 400 rotates to different positions of the pen holder 300 due to the elastic force of the elastic member 500, and the axial positions of the inner cavity 110 corresponding to different positions of the pen holder 300 are different, so that the rotary slider 400 stays at different axial positions of the inner cavity 110. Thus, when the stylus pen 200 is pressed, the part of the tail end of the stylus pen 200 exposed out of the opening end of the cylinder 100 is reduced or increased, when the stylus pen 200 is pressed, the rotary slider 400 stays at a position close to the opening end of the cylinder 100, the part of the tail end of the stylus pen 200 exposed out of the opening end of the cylinder 100 is increased, and the stylus pen 200 can be conveniently pulled out after being ejected out of a part; when the rotary slider 400 stays at a position away from the opening end of the cylinder 100, the tail end of the stylus 200 is exposed from the opening end of the cylinder 100, so that the stylus 200 cannot be held by a human hand by pressing the stylus 200. Thereby avoiding the problem that the stylus 200 is easily held and then directly taken out, which easily causes the loss of the stylus.

In a specific structure, as shown in fig. 1 and 5, the cylinder 100 includes a cylinder shell 120, the cylinder shell 120 is made of an aluminum extruded material, and a fixing block 130 detachably disposed in the cylinder shell 120. One end of the cartridge housing 120 is provided with an opening, as shown in fig. 1 and 9, the other end of the cartridge housing 120 is connected with a bottom cover 140, and the bottom cover 140 is detachably connected to the cartridge housing 120. A flat surface 121 is provided on a side of the cylindrical case 120 facing the display screen, and a mounting bracket (not shown) is provided on the flat surface 121, so that the cylindrical case 120 is fixed to the display screen by the mounting bracket.

It is easy to think that in another alternative, the cartridge housing 120 can be directly provided as a cartridge housing with one end sealed and the other end open. The fixed block can also be integrally formed with the cylinder shell to form a whole.

In this embodiment, as shown in fig. 2, 7a, and 7b, the pen holder 300 includes: the holder body 310 is cylindrical, an end surface of the holder body 310 facing the opening of the cylinder 100 is provided with a receiving groove 320, and an inner side wall of the receiving groove 320 is tapered. The receiving groove 320 is matched with the outline of the pen tip of the stylus 200, so that the stylus 200 can be conveniently inserted into the pen holder 300, and the bottom end of the receiving groove 320 facing the barrel 100 is also provided with an opening, so that the pen tip of the stylus 200 is kept free, and the pen tip of the stylus 200 cannot be damaged when the stylus 200 is pressed. One end of the base 310 facing the rotating slider 400 is provided with a plurality of first helical teeth 330, one side of the first helical teeth 330 facing the rotating slider 400 (facing downward) includes two side surfaces, one of the side surfaces is a third oblique surface 331, and the third oblique surface 331 in this embodiment is inclined clockwise in a direction from bottom to top. The first helical teeth 330 are uniformly distributed along the circumference of the end surface of the base body 310. An end surface of the base 310 facing away from the receiving groove 320 is provided with a mounting hole 340.

As shown in fig. 2 and 8, the rotary slider 400 includes: and the rotating body 410 slides in the inner hole of the fixed block 130. A rib 420 is fixedly disposed on an outer wall of the rotating body 410, and one end of the rib 420 abuts against the third inclined surface 331 of the first helical tooth 330. A boss 430 is arranged on one surface of the rotating body 410 facing the pen holder 300, and the boss 430 is located in the mounting hole 340; thus, the rotary body 410 and the holder body 310 are coaxially assembled by the bosses 430 being disposed in the mounting holes 340.

As shown in fig. 2 and 6b, the cartridge 100 includes: the notches of the anti-slip groove 150 and the through-slip groove 160 face the bottom surface of the inner cavity 110, the anti-slip groove 150 is formed on the inner wall of the barrel 100, and when the pen holder 300 is pressed downwards, the convex rib 420 slides into the anti-slip groove 150 along the third inclined surface 331 of the first inclined tooth 330; the through sliding groove 160 is formed in the inner wall of the barrel 100, the through sliding groove 160 is formed in the inner wall of the barrel 100 and is adjacent to the stopping sliding groove 150, and when the pen holder 300 is pressed down, the protruding rib 420 slides into the through sliding groove 160 along the third inclined surface 331 of the first helical tooth 330.

As shown in fig. 2 and 4, when the stylus pen 200 pushes the holder body 310 to slide in the inner cavity 110, the first helical tooth 330 pushes the rib 420 to move downward, so that the rotating body 410 compresses the elastic member 500, when moving to the notch position of the anti-slip groove 150, the rib 420 slides into the anti-slip groove 150 along the third inclined surface 331 of the first helical tooth 330 due to the elastic force of the elastic member 500, and continues to press the stylus pen 200, the stylus pen 200 pushes the holder body 310 to slide in the inner cavity 110, the first helical tooth 330 pushes the rib 420 to move downward, so that the rotating body 410 compresses the elastic member 500, and the rib 420 is slowly pushed out of the notch position of the anti-slip groove 150, so that the rib 420 slides into the through-slip groove 160 along the third inclined surface 331 of the first helical tooth 330 due to the elastic force of the elastic member 500, because the through-slip groove 160 is adjacent to the anti-slip groove 150. The distance between the protrusion 420 and the opening of the barrel 100 when the protrusion 420 is located in the stopping groove 150 is greater than the distance between the protrusion 420 and the opening of the barrel 100 when the protrusion 420 is located in the through groove 160. Thus, when the rib 420 is located in the sliding stopping groove 150, the part of the stylus pen 200 located in the inner cavity 110 is more, so that the part exposed out of the opening of the cylinder 100 is less, and the exposed part is not easy to be held by the hand of a person; when the rib 420 is located in the through-sliding groove 160, the portion of the stylus pen 200 located in the inner cavity 110 is small, so that the portion exposed out of the opening of the barrel 100 is large, and the exposed portion is easily held by the hand.

As shown in fig. 4 and 6b, the stopping groove 150 and the through groove 160 are both disposed on an inner wall of the inner hole of the fixing block 130, and in a specific structure, the stopping groove 150 includes: a first inclined surface 151 and a first side surface 152, wherein the first inclined surface 151 is arranged along the circumference of the inner wall of the fixed block 130, the inclined direction of the first inclined surface 151 is the same as the inclined direction of the third inclined surface 331, and the first inclined surface 151 is used for abutting against the end surface of the rib 420 facing away from the bottom surface of the inner cavity 110; the first side 152 is adjacent to the first inclined surface 151 and is disposed along the axial direction of the fixing block 130, and the first side 152 is configured to abut against the side of the rib 420.

The through chute 160 includes: a first through groove 162 and a second inclined surface 161, wherein the first through groove 162 extends axially and penetrates through the fixing block 130; the second inclined surface 161 is circumferentially disposed along the inner wall of the fixed block 130, and is connected to a side surface of the first through groove 162, and an inclined direction of the second inclined surface 161 is the same as an inclined direction of the third inclined surface 331; the second inclined surface 161 is connected to the first side surface 152.

As shown in fig. 4, the first inclined surface 151 and the second inclined surface 161 are inclined in the same direction, and the first inclined surface 151 and the third inclined surface 331 of the first helical tooth 330 are inclined in the same direction. When the third inclined surface 331 of the first helical tooth 330 moves to a position where the first inclined surface 151 or the second inclined surface 161 of the anti-slip groove 150 or the through-sliding groove 160 is parallel to each other in the axial direction, the third inclined surface 331 partially overlaps the first inclined surface 151 or the second inclined surface 161, and a part of an end surface of the rib 420 facing the seat body 310 in the radial direction abuts against the third inclined surface 331, and another part of the end surface abuts against the first inclined surface 151 or the second inclined surface 161.

As shown in fig. 4, the principle is as follows: when the stylus pen 200 is put into the barrel 100, a human hand presses the stylus pen 200 downwards, the stylus pen 200 presses the base 310, the base 310 drives the first helical tooth 330 to move downwards, the first helical tooth 330 pushes the rib 420 of the rotary slider 400 downwards, the rib 420 slides along the first through groove 162 of the through sliding groove 160, the third inclined surface 331 of the first helical tooth 330 abuts against the upper end surface of the rib 420, the base 310 moves downwards to enable the rotary slider 400 to move in an axial direction, the rotary slider 400 compresses the elastic member 500 at the moment to enable the elastic member 500 to generate elastic force, when the third inclined surface 331 of the first helical tooth 330 moves to the position of the first inclined surface 151, the third inclined surface 331 and the first inclined surface 151 of the non-slip groove 150 form an inclined smooth surface, and due to the upward acting force of the elastic member 500 on the rotary body 410, the upper end surface of the rib 420 slides from the third inclined surface 331 to the first inclined surface 151, and the human hand releases the stylus pen 200, due to the pushing force of the elastic member 500, the rib 420 slides along the first inclined plane 151, and the rib 420 moves upwards in the circumferential direction, so as to drive the rotating body 410 to rotate and push the seat body 310 to move upwards; when the rib 420 slides along the first inclined surface 151, the rib 420 slides to the position of the first side surface 152, and the side surface of the rib 420 abuts against the second side surface, so that the rib 420 moves up to the position where the first inclined surface 151 meets the first side surface 152. The position is a placement position of the stylus 200, and only a small part of the tail of the stylus 200 is exposed out of the opening of the barrel 100. Is not convenient for being held by hands.

When the stylus pen 200 is taken out of the barrel 100, a human hand presses the stylus pen 200 downwards, the stylus pen 200 presses the base 310, the base 310 drives the first helical tooth 330 to move downwards, the first helical tooth 330 pushes the rib 420 of the rotary slider 400 downwards, the rib 420 slides along the first side 152 of the non-slip groove 150, the third inclined surface 331 of the first helical tooth 330 abuts against the upper end surface of the rib 420, the base 310 moves downwards to enable the rotary slider 400 to move in an axial direction, the rotary slider 400 compresses the elastic member 500 at the moment to enable the elastic member 500 to generate elastic force, when the third inclined surface 331 of the first helical tooth 330 moves to the position of the second inclined surface 161, the third inclined surface 331 and the second inclined surface 161 of the through-slip groove 160 form an inclined flat and smooth surface, and due to the upward acting force of the elastic member 500 on the rotary body 410, the upper end surface of the through 420 slides from the third inclined surface 331 to the second inclined surface 161, and the human hand releases the stylus pen 200, due to the continuous action of the pushing force of the elastic member 500, the rib 420 slides along the second inclined plane 161, and the rib 420 moves upwards in the circumferential direction, so as to drive the rotating body 410 to rotate and push the seat body 310 to move upwards; when the rib 420 slides along the second inclined plane 161, the rib 420 slides to the first through groove 162, and the rib 420 slides into the first through groove 162, and due to the continuous action of the elastic force, the rib 420 continues to move upward in the first through groove 162, thereby pushing the seat body 310 to move upward. The highest position where the seat 310 is pushed is the taking-out position of the stylus 200, and most of the tail of the stylus 200 is exposed out of the opening of the cylinder 100. Is convenient for being held by hands.

In order to realize the direct connection between the third inclined surface 331 of the first helical tooth 330 and the first inclined surface 151 or the second inclined surface 161, the number of the first inclined grooves is equal to the number of the stop sliding grooves 150 plus the through sliding grooves 160.

The end surface of the rib 420, which is used for abutting against the third inclined surface 331 of the first helical tooth 330, is set as a fourth inclined surface 421, and the fourth inclined surface 421 abuts against the third inclined surface 331 of the first helical tooth 330. Therefore, the sliding of the upper end surface of the rib 420 is smoother, the pressure is reduced by the surface contact mode, and the stress is more stable when the fourth inclined surface 421 and the third inclined surface 331 abut against each other. The first inclined surface 151, the second inclined surface 161 and the fourth inclined surface 421 are all spiral chamfered end surfaces.

As shown in fig. 2, in the present embodiment, a plurality of through chutes 160 and a plurality of stopping chutes 150 are provided, and a plurality of protruding ribs 420 are provided; the number of the through sliding grooves 160 and the stopping sliding grooves 150 is a natural number multiple of the number of the ribs 420. The method specifically comprises the following steps: the number of the through sliding grooves 160 and the number of the stopping sliding grooves 150 are 4, and the through sliding grooves 160 are sequentially connected with the stopping sliding grooves 150. The number of the ribs 420 is 4. Thus, the sliding grooves 160 and the anti-sliding grooves 150 of the fixing block 130 can be pressed and switched by rotating 45 degrees.

In the specific structure of this embodiment, the fixing block 130 is a circular ring, a counter bore 170 is disposed at one end of the inner cavity 110 of the barrel housing 120 facing the bottom cover 140, the fixing block 130 is disposed in the counter bore 170, and one end of the fixing block 130 facing the orifice of the barrel 100 abuts against the bottom surface of the counter bore 170, so that the fixing block 130 is mounted and limited, a positioning column 131 is disposed on the surface of one end of the fixing block 130 facing the orifice of the barrel 100, a limiting counter bore 171 is disposed on the bottom surface of the counter bore 170, and the positioning column 131 is embedded in the limiting hole 411 in a clamping manner, so that the fixing block 130 is mounted conveniently.

As shown in fig. 6b and 5, the stopping groove 150 and the through groove 160 are located on the inner wall of the lower end of the fixing block 130. A second through groove 122 is axially formed in the inner wall of the cartridge case 120, and the second through groove 122 is communicated with the first through groove 162, so that the first through groove 162 and the second through groove 122 form a complete through groove penetrating the cartridge body 100; a first sliding table 350 is disposed on an outer surface of the seat body 310, the first sliding table 350 is located in the first through groove 162 and the second through groove 122 for sliding, and the seat body 310 is slidably disposed in the inner cavity 110. In addition, in order to enhance the guiding performance, the inner wall of the barrel casing 120 is further provided with a third through groove 123, the third through groove 123 is axially arranged, the inner wall of the fixing block 130 is correspondingly provided with a fourth through groove 132, the third through groove 123 is communicated with the fourth through groove 132, and thus the third through groove 123 and the fourth through groove 132 form a complete through groove penetrating through the barrel body 100. The fourth through groove 132 penetrates through a partial region of the first inclined plane 151, and the rib 420 does not fall into the fourth through groove 132 when sliding on the first inclined plane 151; i.e., the distance from the bottom of the fourth channel 132 to the notch is less than the distance from the bottom of the first channel 162 to the notch, the first channel 162 can accommodate the rib 420, while the fourth channel 132 cannot accommodate the rib 420. The fourth through groove 132 and the first through groove 162 are disposed at intervals, and the third through groove 123 and the second through groove 122 are disposed at intervals. In this embodiment, the number of the second through grooves 122 is 4, the number of the third through grooves 123 is 4, the number of the corresponding first sliding tables 350 is 8, and the 8 first sliding tables 350 are respectively located in the first through grooves 162 and the third through grooves 123. First logical groove 162 and fourth logical groove 132 all can hold first platform 350 that slides, can only adopt 4 first logical grooves 162 and second logical groove 122 in the scheme, and increase other 4 third logical grooves 123 and fourth logical groove 132, can increase the quantity of first platform 350 that slides in fact, wearing and tearing appear at the in-process that slides in first slip table, only 4 can make the function that the pen stand 300 does not have the specific orientation and slides after wearing and tearing, and can realize increasing more first platform 350 that slides through setting up third logical groove 123 and fourth logical groove 132, thereby after partial first platform 350 that slides wears, also can not have the influence to the orientation function that slides of pen stand 300. Enhancing the structural stability.

As shown in fig. 1, 10 and 11, the cartridge 100 is provided with a stopper 180, and the stopper 180 protrudes from the inner wall surface of the cartridge 100. In a specific structure, when the pen holder 300 moves upward by the elastic force of the elastic member 500, the maximum position of the pen holder 300 that rises needs to be limited, so the stopper 180 is fixed in the second through groove 122 of the barrel 100, and when the pen holder 300 rises, the lower surface of the stopper 180 abuts against the upper surface of one of the first sliding tables 350. This realizes the limitation of the upward movement position of the pen holder 300.

As shown in fig. 1, 2, and 9, the elastic member 500 in this embodiment is a spring, one end of the spring abuts against the bottom cover 140, and the other end of the spring abuts against the rotating body 410, in order to achieve stable installation of the spring, a limiting hole 411 is formed at one end of the rotating body 410 facing the bottom cover 140, a limiting boss 141 is disposed on the bottom cover 140, one end of the spring is sleeved on the limiting boss 141, and the other end of the spring is embedded in the limiting hole 411.

According to the above structure and principle, in actual operation, there are the following steps:

firstly, when the stylus 200 is pressed by hand, the pen holder 300 slides down along the second through groove and enters the first through groove, the first helical tooth 330 at the lower end of the pen holder 300 pushes the rotary slider 400 to move, and the rib 420 slides along the first side surface 152 in the anti-sliding groove 150, so that the rotary slider 400 can only move down under the constraint of the first side surface 152, and after exceeding the joint of the first side surface 152 and the second inclined surface 161 in the adjacent through sliding groove 160, the rib 420 rotates clockwise along the second inclined surface 161 to the adjacent through sliding groove 160.

Secondly, stopping pressing the touch pen 200 and releasing, the spring pushes the rotary slider 400 to make the rib 420 slide in the first through groove, so as to drive the pen holder 300 and the touch pen 200 to move up along the first through groove and slide into the second through groove to continue moving up until the pen holder 300 is blocked by the blocking frame and cannot move. At this time, the tail end of the stylus 200 is extended from the pen container and can be drawn out for use. As shown in fig. 11.

Thirdly, when the stylus pen 200 is pressed down again, the third inclined surface 331 of the first inclined tooth 330 on the pen holder 300 pushes the fourth inclined surface 421 on the protruding rib 420, so that the rotating slider 400 slides downwards, and after the upper end surface of the protruding rib 420 slides to the joint of the first through groove and the first inclined surface 151 of the sliding stopping groove 150 along the first through groove on the fixed block 130, the protruding rib 420 slides along the first inclined surface 151 due to the elastic force of the spring, and thus slides out of the first through groove, and the rotating slider 400 rotates clockwise under the action of the spring force.

And fourthly, the stylus 200 is released by the hand, the fourth inclined surface 421 of the rib 420 rotates along the first inclined surface 151 to enter the stopping groove 150, and rises a short distance to reach the joint of the first inclined surface 151 and the first side surface 152 to stop. The stylus pen 200 and the pen holder 300 can not move upwards any more, and at the moment, the tail of the stylus pen 200 is exposed out of a small part of the opening of the pen container, so that the stylus pen is convenient to press and is inconvenient to hold by hands to enter a storage state. As shown in fig. 10.

Based on the same conception, the invention also comprises a display device, wherein the display device comprises a display screen, the pen container arranged on the side surface of the display screen, and a touch pen 200 positioned in the pen container;

as shown in fig. 1 and 10, an inductor 600 is arranged in the pen container, and the inductor 600 is electrically connected with the display screen; specifically, an inductor 600 mounting groove is formed in the cartridge case 120, and the inductor 600 is disposed in the inductor 600 mounting groove. The touch pen 200 is provided with a sensing portion 620, and the sensor 600 is triggered to start when the sensing portion 620 is located within a sensing range of the sensor 600. The sensing part 620 is a magnet, and the sensor 600 is a magnetic sensor 600. When the stylus pen 200 is taken out of the pen container, the stylus pen 200 passes through the sensing area of the sensor 600, so that the sensor 600 is triggered to give an I/O signal, and the display screen changes a UI interface or other displays to respond to a touch screen operation.

In summary, the present invention provides a pen container and a display device, wherein the pen container includes a barrel 100 for accommodating a stylus 200, a pen holder 300 sliding in the barrel 100, when the stylus 200 is placed in the barrel 100, the pen holder 300 is abutted against and connected to the stylus 200, when the stylus 200 is placed in the barrel 100, the stylus 200 is pressed, the stylus 200 pushes the rotary slider 400 through the pen holder 300, the rotary slider 400 rotates the rotary slider 400 to different positions of the pen holder 300 due to the elastic force of the elastic member 500, and the axial positions of the inner cavity 110 corresponding to the different positions of the pen holder 300 are different, so that the rotary slider 400 stays at different axial positions of the inner cavity 110. Thus, when the stylus pen 200 is pressed, the part of the tail end of the stylus pen 200 exposed out of the opening end of the cylinder 100 is reduced or increased, when the stylus pen 200 is pressed, the rotary slider 400 stays at a position close to the opening end of the cylinder 100, the part of the tail end of the stylus pen 200 exposed out of the opening end of the cylinder 100 is increased, and the stylus pen 200 can be conveniently pulled out after being ejected out of a part; when the rotary slider 400 stays at a position away from the open end of the cylinder 100, the tail end of the stylus 200 is exposed from the open end of the cylinder 100, so that the stylus 200 cannot be pinched by a human hand, and the stylus 200 cannot be taken out. Thereby avoiding the problem that the stylus 200 is easily held and then directly taken out, which easily causes the loss of the stylus.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims

1. A pen container, comprising:

2. The pen container according to claim 1, wherein the pen holder comprises:

the seat body is arranged in the inner cavity in a sliding manner;

the rotary slider includes:

the rotating body is slidably and rotatably arranged in the inner cavity;

the barrel includes:

3. The pen container according to claim 2, wherein the through sliding groove and the stopping sliding groove are provided in plurality, and the protruding edge is provided in plurality;

4. The pen container according to claim 2, wherein the container body further comprises a container shell and a fixing block detachably arranged in the container shell;

5. The pen container according to claim 4, wherein the stopping groove comprises:

the through chute includes:

the first through groove axially penetrates through the fixed block;

the second inclined surface is connected with the first side surface.

6. The pen container according to claim 2, wherein the end face of the rib for abutting against the third inclined face is provided with a fourth inclined face, and the fourth inclined face abuts against the third inclined face.

7. The pen container as claimed in claim 5, wherein a second through groove is axially formed in the inner wall of the container shell, and the second through groove is communicated with the first through groove;

the base body is further provided with a first sliding platform, and the first sliding platform is located in the first through groove and slides in the second through groove.

8. The pen container according to claim 2, wherein a stop block is provided on the container body, the stop block protruding from an inner wall surface of the container body.

9. The pen container according to claim 7, wherein the container body further comprises:

the bottom cover is detachably connected to the barrel shell;

10. A display device comprising a display screen, characterized by further comprising a pen holder according to any one of claims 1-9 disposed on a side of the display screen, and a stylus disposed within the pen holder;