CN212541169U - Notebook computer with hidden docking station - Google Patents

Abstract

The utility model belongs to notebook computer structure field specifically indicates a notebook computer with hidden docking station, including the host computer casing, the characterized in that, be equipped with docking station holding chamber in the host computer casing, docking station holding intracavity is equipped with docking station and the pop-up mechanism who links to each other rather than, sliding block right side wall is equipped with right open-ended draw-in groove, the semi-gear setting is right-hand at the sliding block, the fixed cantilever bar that is equipped with on the semi-gear, cantilever bar end be equipped with draw-in groove assorted dogtooth, dial the rack setting right-hand at the semi-gear, it is equipped with the lug to dial the rack right side, the antetheca and the ejection outlet of docking station meet, first spring compression is between the back wall in sliding block and docking station holding chamber, second spring compression is between the back wall in dialling rack and docking station holding chamber, the dogtooth inserts in the draw-. The utility model discloses a hide docking station in the host computer casing, pop out docking station through pop-up mechanism conveniently, made things convenient for the user to use.

Description

Notebook computer with hidden docking station

Technical Field

The utility model belongs to notebook computer structure field specifically indicates a notebook computer with hidden docking station.

Background

A Docking station (Docking station), also called a Port Replicator (Port Replicator), is an external device designed for a notebook computer. By copying or even expanding the port of the notebook computer, the notebook computer can be conveniently connected with a plurality of accessories or external devices (such as a power adapter, a network cable, a mouse, an external keyboard, a printer and an external display) in a one-stop mode.

The traditional docking station is mainly used for the notebook computer and has a split structure, so that the USB docking station can be carried by oneself only to realize the connection between the notebook computer and a peripheral, and in the actual use process, the situation that a user forgets to carry the docking station often occurs, so that certain trouble is caused to the user in use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a notebook computer with hidden docking station of convenient to use simple structure.

The technical scheme for realizing the aim is that,

a notebook computer with hidden docking station comprises a host shell, which comprises a front side wall, a rear side wall, a left side wall and a right side wall, and is characterized in that a docking station accommodating cavity is arranged in the host shell, an ejection port communicated with the docking station accommodating cavity and used for the docking station to enter and exit is arranged on the front side wall of the host shell, a limiting strip hole communicated with the docking station accommodating cavity is arranged on the right side wall of the host shell, the limiting strip hole is arranged along the front and rear direction, the docking station accommodating cavity is internally provided with the docking station and an ejection mechanism connected with the docking station, the ejection mechanism comprises a sliding block, a first spring, a half gear, a poking rack and a second spring,

the sliding block is in a square shape, the right wall of the sliding block is provided with a clamping groove with a right opening, the front side surface of the clamping groove is inclined forwards to form a sliding slope surface, the rear side surface of the clamping groove is vertical to the right wall of the sliding block to form a stop surface,

the half gear is arranged at the right side of the sliding block, the rotating shaft of the half gear is connected with the top wall and the bottom wall of the docking station accommodating cavity, a cantilever rod is fixedly arranged on the half gear, the cantilever rod extends forwards, the tail end of the cantilever rod is provided with convex teeth matched with the clamping groove,

the poking rack is arranged on the right side of the half gear in the front-back direction, the left side part of the poking rack is meshed with the half gear, the right side of the poking rack is provided with a convex block, the size of the convex block is matched with the width of the hole of the limiting strip, the convex block passes through the hole of the limiting strip and extends out of the main machine shell,

the sliding block and the shifting rack are restricted by the host shell to move back and forth, the rear wall of the docking station is connected with the front wall of the sliding block, when the docking station is hidden in the host shell, the front wall of the docking station is connected with the ejection port, the first spring is compressed between the sliding block and the rear wall of the docking station accommodating cavity, the second spring is compressed between the shifting rack and the rear wall of the docking station accommodating cavity, the convex teeth are inserted into the clamping grooves, and the stopping surfaces of the clamping grooves are tightly attached to the rear portions of the convex teeth.

Furthermore, the ejection opening is provided with a baffle plate, the baffle plate is connected with the front side wall of the host shell through a hinge mechanism on one side of the baffle plate, and a fixing device is arranged between the baffle plate and the host shell. The baffle setting is both favorable to dustproof also be favorable to hiding the docking station holding chamber.

Further, the front wall of the docking station is provided with a plurality of USB interfaces.

When the docking station is used, the docking station is pushed inwards from the ejection outlet, the sliding block slides backwards, the first spring is compressed, the poke rack has a forward movement trend under the stretching action of the second spring, and then the half gear has a clockwise rotation trend, so that the cantilever rod has a leftward swinging trend, the convex teeth are pressed on the right wall surface of the sliding block under the action of the second spring, the convex teeth move forwards relative to the sliding block, when the convex teeth are aligned with the clamping grooves, the convex teeth enter the clamping grooves under the action of the second spring, when the docking station is continuously pushed inwards, the front parts of the convex teeth move forwards and rightwards relative to the sliding block along the sliding slope surface and gradually slide out of the clamping grooves, the docking station is released when the docking station cannot be continuously pushed inwards by applying force, the first spring stretches to push the sliding block to move forwards, and the convex teeth move backwards leftwards relative to the sliding block along the sliding slope surface and return into the clamping grooves, when the stop surface of draw-in groove and the contact of dogtooth rear portion, the sliding block receives the dogtooth effect stop motion, and docking station also stop motion, and at this moment, docking station's antetheca and play export parallel and level have realized hiding of docking station in notebook computer's host computer casing. When the docking station needs to be withdrawn, the convex block can be shifted backwards along the limiting strip hole, the shifting rack moves backwards, the half gear rotates anticlockwise, the cantilever rod swings rightwards, the convex tooth moves rightwards relative to the sliding block, when the rear portion of the convex tooth is separated from the stop surface of the clamping groove, the convex tooth is completely separated from the clamping groove, the sliding block moves forwards under the action of the stretching force of the first spring, after the convex block is released, the second spring stretches, the shifting rack moves forwards, the half gear rotates clockwise, the cantilever rod swings leftwards, the convex tooth is indirectly pressed on the right wall surface of the sliding block under the action of the second spring, when the sliding block moves forwards, the convex tooth moves backwards relative to the sliding block, and the sliding block pushes the docking station to withdraw from the ejection port.

Above-mentioned notebook computer can hide docking station in the host computer casing, pops out docking station through pop-up mechanism conveniently, has made things convenient for the user to use.

The front and the back of the device take the ejection port as a reference and take the ejection direction of the ejection port as the front.

Drawings

Fig. 1 is a schematic view illustrating a state in which a docking station according to an embodiment of the present invention is hidden in a housing of a host computer;

fig. 2 is a schematic diagram illustrating a state in which the docking station according to an embodiment of the present invention is withdrawn from the housing of the host computer;

fig. 3 is an enlarged view of a portion a of fig. 1.

In the figure, 1. a main machine shell; 1-1. a projectile port; 1-2, limiting strip holes; 2. a docking station; 3. a docking station receiving cavity; 4. a slider; 4-1, a clamping groove; 4-10, a sliding surface; 4-11, stop surface; 5. a first spring; 6. a half gear; 6-1. cantilever bar; 6-2, convex teeth; 7. a rack pulling bar; 7-1. bump; 8. a second spring; 9. a baffle plate; and 9-1, fixing the bolt.

Detailed Description

The present invention is described in detail with reference to the following embodiments, and it should be noted that those skilled in the art can make symmetrical modifications according to the embodiments and still fall within the scope of the present invention.

Referring to fig. 1 to 3, a notebook computer with a hidden docking station comprises a host housing 1, the host housing 1 comprises a front side wall, a rear side wall, a left side wall and a right side wall, and is characterized in that a docking station accommodating cavity 3 is arranged in the host housing 1, the front side wall of the host housing 1 is provided with a spring outlet 1-1 communicated with the docking station accommodating cavity 3 and used for the docking station 2 to go in and out, the right side wall of the host housing 1 is provided with a limit strip hole 1-2 communicated with the docking station accommodating cavity 3, the limit strip hole 1-2 is arranged along the front and rear direction, the docking station accommodating cavity 3 is internally provided with the docking station 2 and a spring mechanism connected with the docking station 2, the spring mechanism comprises a sliding block 4, a first spring 5, a half gear 6, a rack 7 and a second spring 8,

the sliding block 4 is in a square shape, the right wall of the sliding block is provided with a clamping groove 4-1 with a right opening, the front side surface of the clamping groove 4-1 inclines forwards to form a sliding slope surface 4-10, the rear side surface of the clamping groove 4-1 is vertical to the right wall of the sliding block 4 to form a stop surface 4-11,

a half gear 6 is arranged at the right side of the sliding block 4, the rotating shaft of the half gear is connected with the top wall and the bottom wall of the docking station accommodating cavity 3, a cantilever rod 6-1 is fixedly arranged on the half gear 6, the cantilever rod 6-1 extends forwards, a convex tooth 6-2 matched with the clamping groove 4-1 is arranged at the tail end of the cantilever rod 6-1,

the poking rack 7 is arranged on the right side of the half gear 6 in the front-back direction, the left side part of the poking rack 7 is meshed with the half gear 6, the right side of the poking rack 7 is provided with a bump 7-1, the size of the bump 7-1 is matched with the width of the limiting rack hole 1-2, the bump 7-1 passes through the limiting rack hole 1-2 and extends out of the main machine shell 1,

the sliding block 4 and the poking rack 7 are restricted by the main machine shell 1 to move only back and forth, the rear wall of the docking station 2 is connected with the front wall of the sliding block 4, the first spring 5 is compressed between the sliding block 4 and the rear wall of the docking station accommodating cavity 3, the second spring 8 is compressed between the poking rack 7 and the rear wall of the docking station accommodating cavity 3, when the docking station 2 is hidden in the main machine shell 1, the convex teeth 6-2 are inserted into the clamping grooves 4-1, and the stop surfaces 4-11 of the clamping grooves 4-1 are tightly attached to the rear parts of the convex teeth 6-2;

in this embodiment, the ejection opening 1-1 is provided with a baffle 9, the baffle 9 is connected with the front side wall of the main machine housing 1 through a hinge mechanism on one side of the baffle 9, a fixing bolt 9-1 is further arranged between the baffle 9 and the main machine housing 1, and the baffle 9 is arranged to facilitate dust prevention and hiding of the docking station accommodating cavity 3;

in this embodiment, the front wall of the docking station 2 is provided with a plurality of USB interfaces.

When the docking station 2 needs to be hidden, the docking station 2 is pushed by force to push towards the ejection opening 1-1, the sliding block 4 slides backwards, the first spring 5 is compressed, the poking rack 7 has a forward movement trend under the action of the extension of the second spring 8, and further the half gear 6 has a clockwise rotation trend, so that the cantilever rod 6-1 has a leftward swinging trend, therefore, the convex teeth 6-2 are pressed on the right wall surface of the sliding block 4 under the action of the second spring 8, the convex teeth 6-2 move forwards relative to the sliding block 4, when the convex teeth 6-2 are aligned with the clamping groove 4-1, under the action of the second spring 8, the convex teeth 6-2 enter the clamping groove 4-1, when the docking station 2 is pushed inwards continuously, the front parts of the convex teeth 6-2 move forwards and rightwards relative to the sliding block 4 along the sliding slope surfaces 4-10 and gradually slide out of the clamping groove 4-1, when the host machine shell 1 limits the docking station 2 to move inwards, the docking station 2 is released, the first spring 5 stretches to push the sliding block 4 to move forwards, the convex teeth 6-2 move backwards and leftwards relative to the sliding block 4 along the sliding slope surface 4-10 and retreat into the clamping groove 4-1, when the stopping surface 4-11 of the clamping groove 4-1 is contacted with the rear part of the convex teeth 6-2, the sliding block 4 stops moving under the action of the convex teeth 6-2, the docking station 2 also stops moving, at the moment, the front wall of the docking station is flush with the ejection port 1-1, the docking station is hidden in the host machine shell of the notebook computer, the ejection port 1-1 is shielded by rotating the baffle plate 9, and the fixing bolt 9-1 is screwed. When the docking station needs to be withdrawn, the fixing bolt 9-1 is taken down, the baffle 9 is opened, the lug 7-1 can be shifted backwards along the limiting strip hole 1-2, the shifting rack 7 moves backwards, the half gear 6 rotates anticlockwise, the cantilever rod 6-1 swings rightwards, the convex tooth 6-2 moves rightwards relative to the sliding block 4, the rear part of the convex tooth 6-2 is gradually separated from contact with the stop surface 4-11 of the clamping groove 4-1, when the convex tooth 6-2 is completely separated from the clamping groove 4-1, the sliding block 4 moves forwards under the action of the stretching tension of the first spring 5, after the lug 6-2 is released, the second spring 8 stretches, the shifting rack 7 moves forwards, the half gear 6 rotates clockwise, the cantilever rod 6-1 swings leftwards, the convex tooth 6-2 is pressed on the right wall surface of the sliding block 4 under the action force of the second spring 8, when the sliding block 4 moves forward, the convex teeth 6-2 move backward relative to the sliding block 4, and the sliding block 4 pushes the docking station 2 to exit from the ejection opening 1-1.

Claims (3)

1. A notebook computer with hidden docking station comprises a host shell, which comprises a front side wall, a rear side wall, a left side wall and a right side wall, and is characterized in that a docking station accommodating cavity is arranged in the host shell, an ejection port communicated with the docking station accommodating cavity and used for the docking station to enter and exit is arranged on the front side wall of the host shell, a limiting strip hole communicated with the docking station accommodating cavity is arranged on the right side wall of the host shell, the limiting strip hole is arranged along the front and rear direction, the docking station accommodating cavity is internally provided with the docking station and an ejection mechanism connected with the docking station, the ejection mechanism comprises a sliding block, a first spring, a half gear, a poking rack and a second spring,

the sliding block is in a square shape, the right wall of the sliding block is provided with a clamping groove with a right opening, the front side surface of the clamping groove is inclined forwards to form a sliding slope surface, the rear side surface of the clamping groove is vertical to the right wall of the sliding block to form a stop surface,

the half gear is arranged at the right side of the sliding block, the rotating shaft of the half gear is connected with the top wall and the bottom wall of the docking station accommodating cavity, a cantilever rod is fixedly arranged on the half gear, the cantilever rod extends forwards, the tail end of the cantilever rod is provided with convex teeth matched with the clamping groove,

the poking rack is arranged at the right side of the half gear in the front-back direction, the left side part of the poking rack is meshed with the half gear, the right side of the poking rack is provided with a convex block, the size of the convex block is matched with the width of the hole of the limiting strip, the convex block passes through the hole of the limiting strip and extends out of the main machine shell,

the sliding block and the shifting rack are restricted by the host shell to move back and forth, the rear wall of the docking station is connected with the front wall of the sliding block, when the docking station is hidden in the host shell, the front wall of the docking station is connected with the ejection port, the first spring is compressed between the sliding block and the rear wall of the docking station accommodating cavity, the second spring is compressed between the shifting rack and the rear wall of the docking station accommodating cavity, the convex teeth are inserted into the clamping grooves, and the stopping surfaces of the clamping grooves are tightly attached to the rear portions of the convex teeth.

2. The notebook computer with the hidden docking station as claimed in claim 1, wherein the ejection opening is provided with a flap, the flap is connected to the front sidewall of the main housing by a hinge mechanism at one side thereof, and a fixing means is provided between the flap and the main housing.

3. The notebook computer with hidden docking station as claimed in claim 1, wherein the front docking wall is provided with a plurality of USB ports.

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