CN218214067U - Keyboard with a keyboard body - Google Patents

Abstract

The embodiment of the utility model provides a keyboard. The keyboard comprises a touch pad module and a keyboard module; the keyboard module comprises a keyboard body and a keyboard bottom shell, wherein the keyboard bottom shell and/or the keyboard body is/are provided with an accommodating groove, the keyboard body is connected with the keyboard bottom shell, and the touch pad module is positioned in the accommodating groove and is connected with the accommodating groove through a driving mechanism; the touch pad module comprises a touch pad and a mounting plate, the touch pad is connected to the mounting plate, the driving mechanism comprises a first magnetic piece, a second magnetic piece and a third magnetic piece, the first magnetic piece is arranged in the accommodating groove, the second magnetic piece and the third magnetic piece are arranged on the mounting plate, a fourth magnetic piece is further arranged on the keyboard body, and the fourth magnetic piece is movable relative to the accommodating groove.

Description

Keyboard with a keyboard body

Technical Field

The utility model relates to an electronic equipment technical field, concretely relates to keyboard.

Background

With the more and more perfect functions of the tablet electronic devices, the use of the tablet electronic devices by users is more and more extensive, and the tablet is better in function, quality and portability, so the tablet is also gradually called as an important tool for learning and working of the users.

In the correlation technique, in order to facilitate the user to use the functions such as typing of dull and stereotyped, additionally be provided with the keyboard for the dull and stereotyped, be provided with the touch pad on the keyboard, the setting of touch pad has taken great setting area for the holistic size of keyboard is great, does not conveniently carry. In order to facilitate carrying and reduce the size of the keyboard, various manufacturers make a design of canceling the touch panel, but in some use scenarios in which a user needs to use the touch panel for input, the use requirements of the user cannot be met.

Therefore, the keyboard with the touch pad is large in size and not portable enough, and the keyboard without the touch pad cannot be used in some scenes needing to use the touch pad. That is, the related art keypad does not compromise the setting and portability of the touch pad.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a keyboard with touch pad to solve the problem that the setting and the portability of touch pad can not be compromise to the keyboard among the correlation technique.

In order to solve the technical problem, the utility model discloses a realize like this:

the embodiment of the utility model provides a keyboard, the keyboard includes touch pad module and keyboard module;

the keyboard module comprises a keyboard body and a keyboard bottom shell, wherein an accommodating groove is formed in the keyboard bottom shell and/or the keyboard body, the keyboard body is connected with the keyboard bottom shell, and the touch pad module is located in the accommodating groove and is connected with the accommodating groove through a driving mechanism;

the touch pad module comprises a touch pad and a mounting plate, the touch pad is connected to the mounting plate, the driving mechanism comprises a first magnetic piece, a second magnetic piece and a third magnetic piece, the first magnetic piece is arranged in the accommodating groove, the second magnetic piece and the third magnetic piece are both arranged on the mounting plate, a fourth magnetic piece is further arranged on the keyboard body, and the fourth magnetic piece is movable relative to the accommodating groove;

when the fourth magnetic piece moves to the first position, the fourth magnetic piece is opposite to the third magnetic piece in position, the second magnetic piece moves to the first target position along the direction away from the first magnetic piece, and the touch pad at least partially extends out of the accommodating groove; under the condition that the touch pad is completely retracted into the accommodating groove, the fourth magnetic piece moves to a second position, the fourth magnetic piece and the third magnetic piece are staggered, and the second magnetic piece moves to a second target position along the direction close to the first magnetic piece.

In an embodiment of the present invention, the keyboard includes a touch pad module and a keyboard module. The keyboard module comprises a keyboard body and a keyboard bottom shell, wherein the keyboard bottom shell and/or the keyboard body is provided with an accommodating groove, and the keyboard bottom shell is connected with the keyboard body so that the accommodating groove can be located inside the keyboard module. The touch pad module is located the holding tank, because the touch pad module passes through actuating mechanism with the holding tank and is connected, consequently, can make the touch pad module contract in and be located the holding tank through actuating mechanism for the holding tank module hides, perhaps makes at least part of touch pad module stretch out in the holding tank through actuating mechanism, so that the user uses.

The touch pad module comprises a mounting plate and a touch pad, the touch pad is connected with the mounting plate, the mounting plate can be connected with a driving mechanism, the driving mechanism drives the mounting plate to move, and the mounting plate drives the touch pad to move, so that the touch pad can be located in the accommodating groove or at least partially exposed in the accommodating groove. The driving mechanism comprises a first magnetic part, a second magnetic part and a third magnetic part, the first magnetic part is arranged in the accommodating groove, the second magnetic part and the third magnetic part are both located on the mounting plate, a fourth magnetic part is further arranged on the keyboard body, and the fourth magnetic part is movable relative to the accommodating groove. Under the condition that the fourth magnetic part moves to the first position, the fourth magnetic part extends into the accommodating groove, so that the fourth magnetic part is opposite to the third magnetic part in position, and the second magnetic part can move to the first target position along the direction away from the first magnetic part. Under the condition that the touch pad is completely retracted in the accommodating groove, the fourth magnetic part moves to the second position, at the moment, the fourth magnetic part exits from the accommodating groove, and because the touch pad is retracted in the accommodating groove, the third magnetic part positioned on the mounting plate is also positioned in the accommodating groove, the fourth magnetic part can be staggered with the third magnetic part in the accommodating groove, the second magnetic part can move to the second target position along the direction close to the first magnetic part, so that the mounting plate is fixed relative to the accommodating groove under the action of the first magnetic part and the second magnetic part, and at the moment, the touch pad module is hidden in the keyboard module.

That is, in the embodiment of the present invention, the touch pad module is disposed in the keyboard, and the touch pad module is disposed in the accommodating groove, so that the touch pad module can be hidden, and the touch pad is prevented from occupying the surface area of the keyboard, so that the keyboard has a smaller size; under the condition that the fourth magnetic piece is moved to the first position, the fourth magnetic piece and the third magnetic piece are opposite in position and interact, so that the touch pad at least partially extends out of the accommodating groove, and a user can use the touch pad. Namely the embodiment of the utility model provides a keyboard can hide the touch pad under the condition that does not use the touch pad, releases the touch pad so that use under the condition that uses the touch pad, can compromise setting and the portability of touch pad.

Drawings

Fig. 1 shows a structure diagram of a keyboard according to an embodiment of the present invention;

fig. 2 is a partial schematic view of a keyboard according to an embodiment of the present invention.

Reference numerals are as follows:

100: a keyboard; 10: a keyboard module; 20: a touch panel module; 11: a keyboard body; 111: mounting holes; 12: a keyboard bottom case; 121: accommodating grooves; 21: a touch panel; 22: mounting a plate; 23: an installation part; 31: a first magnetic member; 32: a second magnetic member; 33: a third magnetic member; 34: a key unit; 341: a fourth magnetic member; 342: a key body; 343: a second elastic member; 35: a first elastic member; 122: and (4) a bracket.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

As shown in fig. 1 to 2, the keyboard 100 includes a touchpad module 20 and a keyboard module 10; the keyboard module 10 includes a keyboard body 11 and a keyboard bottom case 12, an accommodating groove 121 is formed in the keyboard bottom case 12 and/or the keyboard body 11, the keyboard body 11 is connected to the keyboard bottom case 12, and the touchpad module 20 is located in the accommodating groove 121 and connected to the accommodating groove 121 through a driving mechanism; the touchpad module 20 comprises a touchpad 21 and a mounting plate 22, the touchpad 21 is connected to the mounting plate 22, the driving mechanism comprises a first magnetic part 31, a second magnetic part 32 and a third magnetic part 33, the first magnetic part 31 is arranged in the accommodating groove 121, the second magnetic part 32 and the third magnetic part 33 are both arranged on the mounting plate 22, a fourth magnetic part 341 is further arranged on the keyboard body 11, and the fourth magnetic part 341 is movable relative to the accommodating groove 121; when the fourth magnetic element 341 moves to the first position, the fourth magnetic element 341 is opposite to the third magnetic element 33, the second magnetic element 32 moves to the first target position along the direction away from the first magnetic element 31, and at least a portion of the touch pad 21 extends out of the receiving groove 121; when the touch pad 21 is completely retracted into the receiving groove 121, the fourth magnetic member 341 moves to the second position, the fourth magnetic member 341 and the third magnetic member 33 are misaligned, and the second magnetic member 32 moves to the second target position in a direction approaching the first magnetic member 31.

In the embodiment of the present invention, the keyboard 100 includes a touchpad module 20 and a keyboard module 10. The keyboard module 10 includes a keyboard 100 body and a bottom case of the keyboard 100, the bottom case of the keyboard 100 and/or the keyboard 100 body is provided with an accommodating groove 121, and the bottom case of the keyboard 100 is connected to the keyboard 100 body so that the accommodating groove 121 is located inside the keyboard module 10. The touch pad module 20 is located in the receiving groove 121, and since the touch pad module 20 is connected to the receiving groove 121 through the driving mechanism, the touch pad module 20 can be retracted into the receiving groove 121 through the driving mechanism, so that the receiving groove 121 module is hidden, or at least a portion of the touch pad module 20 can be extended out of the receiving groove 121 through the driving mechanism, so that a user can use the touch pad module.

The touch panel module 20 includes an installation plate 22 and a touch panel 21, the touch panel 21 is connected to the installation plate 22, the installation plate 22 can be connected to a driving mechanism, the driving mechanism drives the installation plate 22 to move, and the installation plate 22 drives the touch panel 21 to move, so that the touch panel 21 can be located in the accommodation groove 121, or at least partially exposed in the accommodation groove 121. The driving mechanism includes a first magnetic member 31, a second magnetic member 32 and a third magnetic member 33, the first magnetic member 31 is disposed in the receiving slot 121, the second magnetic member 32 and the third magnetic member 33 are both disposed on the mounting plate 22, the keyboard 100 body is further provided with a fourth magnetic member 341, and the fourth magnetic member 341 is movable relative to the receiving slot 121, so that the fourth magnetic member 341 can move to make the fourth magnetic member 341 extend into the receiving slot 121 or withdraw from the receiving slot 121, that is, the fourth magnetic member 341 can move in a direction away from the receiving slot 121 or move in a direction close to the receiving slot 121. Under the condition that the fourth magnetic element 341 moves to the first position, the fourth magnetic element 341 extends into the receiving groove 121, so that the fourth magnetic element 341 is opposite to the third magnetic element 33, so that the second magnetic element 32 can move to the first target position along the direction away from the first magnetic element 31, because the second magnetic element 32 is disposed on the mounting plate 22, when the second magnetic element 32 moves like the position away from the first magnetic element 31, the second magnetic element 32 drives the mounting plate 22 to move towards the direction away from the receiving cavity, that is, the movement of the second magnetic element 32 can make the mounting plate 22 move away from the receiving groove 121, so that the touch pad 21 at least partially extends out of the receiving groove 121, so that the user can use the touch pad 21. When the touch pad 21 is completely retracted into the receiving slot 121, the fourth magnetic member 341 moves to the second position, and at this time, the fourth magnetic member 341 exits from the receiving slot 121, and since the touch pad 21 is retracted into the receiving slot 121, the third magnetic member 33 on the mounting plate 22 is also located in the receiving slot 121, so that the fourth magnetic member 341 can be dislocated from the third magnetic member 33 in the receiving slot 121, and the second magnetic member 32 can move to the second target position in a direction close to the first magnetic member 31, so that the mounting plate 22 is fixed relative to the receiving slot 121 under the action of the first magnetic member 31 and the second magnetic member 32, and at this time, the touch pad module 20 is hidden in the keyboard module 10.

That is, in the embodiment of the present invention, the touchpad module 20 is disposed in the keyboard 100, and the touchpad module 20 is disposed in the accommodating groove 121, so that the touchpad module 20 can be hidden, the arrangement of the touchpad 21 is prevented from occupying the surface area of the keyboard 100, and the size of the keyboard 100 is smaller; in the case that the fourth magnetic member 341 is moved to the first position, the fourth magnetic member 341 and the third magnetic member 33 are opposite and interact with each other, so that the touch pad 21 at least partially protrudes from the receiving groove 121, so that the user can use the touch pad 21. That is, the keyboard 100 provided by the embodiment of the present invention can hide the touch panel 21 without using the touch panel 21, and release the touch panel 21 for use when using the touch panel 21, and can also take into account the setting and portability of the touch panel 21.

The first magnetic member 31, the second magnetic member 32, the third magnetic member 33, and the fourth magnetic member 341 may be all magnets. When the first magnetic member 31 and the second magnetic member 32 are disposed, the opposite poles of the first magnetic member 31 and the second magnetic member 32 can be opposite to each other, for example, the end of the first magnetic member 31 facing the second magnetic member 32 is an N pole, and the end of the second magnetic member 32 facing the first magnetic member 31 is an S pole, when the touchpad module 20 is disposed in the receiving slot 121, the first magnetic member 31 and the second magnetic member 32 attract each other to make the first magnetic member 31 and the second magnetic member 32 approach each other, and further the first magnetic member 31 and the second magnetic member 32 attract each other to fix the touchpad module 20 in the receiving slot 121. Alternatively, the end of the first magnetic member 31 facing the second magnetic member 32 may be an S-pole, and the end of the second magnetic member 32 facing the first magnetic member 31 may be an N-pole. For the arrangement of the first magnetic member 31 and the second magnetic member 32, the embodiment of the present invention is not particularly limited as long as the first magnetic member 31 and the second magnetic member 32 can be attracted to each other.

When the third magnetic member 33 and the fourth magnetic member 341 are disposed, it is necessary that when the fourth magnetic member 341 is located at the first position, the same poles of the fourth magnetic member 341 and the third magnetic member 33 are opposite, that is, when the fourth magnetic member 341 is operated such that the fourth magnetic member 341 and the third magnetic member 33 are opposite, the end of the third magnetic member 33 facing the fourth magnetic member 341 is an N pole, and the end of the fourth magnetic member 341 facing the third magnetic member 33 is an N pole; alternatively, the end of the third magnetic member 33 facing the fourth magnetic member 341 may be an S-pole, and the end of the fourth magnetic member 341 facing the third magnetic member 33 may be an S-pole. As to the arrangement manner of the third magnetic member 33 and the fourth magnetic member 341, the embodiment of the present invention is not particularly limited as long as the third magnetic member 33 and the fourth magnetic member 341 can be repelled when the fourth magnetic member 341 and the third magnetic member 33 are opposite. The first position is a position where the fourth magnetic member 341 and the third magnetic member 33 can be opposite to each other, and the second position is a position where the fourth magnetic member 341 and the third magnetic member 33 can be displaced from each other.

The first magnetic member 31, the second magnetic member 32 and the third magnetic member 33 can be arranged in an adhesive manner, the first magnetic member 31 is adhered in the accommodating groove 121, the second magnetic member 32 and the third magnetic member 33 are adhered on the mounting plate 22, and appropriate glue can be suspended according to actual needs. The keyboard bottom case 12 and the keyboard body 11 may be connected by a screw connection, a snap connection, or the like.

It should be noted that, when the fourth magnetic member 341 is operated to move the fourth magnetic member 341 to the first position, at least a portion of the touch pad 21 extends out and receives the groove 121, so that the user can use the touch pad 21. After the user uses, can push the touchpad module 20 towards the holding tank 121 for the mounting panel 22 is located in the holding tank 121, and under the effect of first magnetism piece 31 and second magnetism piece 32, the mounting panel 22 moves to the cell wall direction of holding tank 121, and drives the touchpad 21 and remove, makes the touchpad module 20 be located in the holding tank 121, and fixes the touchpad module 20 through first magnetism piece 31 and second magnetism piece 32.

In addition, the first magnetic member 31 and the second magnetic member 32 are opposite to each other, and the first magnetic member 31 and the second magnetic member 32 can be attracted to each other, so that the touchpad module 20 is located in the accommodating groove 121, and therefore the first magnetic member 31 and the second magnetic member 32 are attracted to each other along the moving direction of the touchpad module 20, when the touchpad module 20 is located in the accommodating groove 121, the first magnetic member 31 is located at a position away from the touchpad 21 relative to the second magnetic member 32, and at this time, the second magnetic member 32 is located at the second target position, and the second magnetic member 32 is attracted to the first magnetic member 31, that is, the distance between the first magnetic member 31 and the second magnetic member 32 is 0. The end of the mounting plate 22 away from the touch pad 21 may have a mounting portion 23 that is close to the touch pad 21, and as shown in fig. 1, the second magnetic member 32 is disposed on the mounting portion 23, so that the first magnetic member 31 is away from the touch pad 21 relative to the second magnetic member 32 in the case where the touch pad module 20 is located in the receiving groove 121.

When the fourth magnetic member 341 moves to the first position, the fourth magnetic member 341 and the third magnetic member 34 are opposite to each other, the fourth magnetic member 341 and the third magnetic member 33 generate a repulsive force in the moving direction of the touchpad module 20, the repulsive force is greater than the attractive force between the first magnetic member 31 and the second magnetic member 32, so that the second magnetic member 32 moves to the first target position in the direction away from the first magnetic member 31, and when the second magnetic member 32 is at the first target position, a preset distance is formed between the first magnetic member 31 and the second magnetic member 32, and at the preset distance, the attractive force between the first magnetic member 31 and the second magnetic member 32 is smaller, so that the second magnetic member 32 can be at the first target position, and the touchpad module 20 is stationary for the user to use. The preset distance is related to the magnetic force between the first magnetic member 31 and the second magnetic member 32, and the preset distance is required to prevent the first magnetic member 31 and the second magnetic member 32 from being attracted again due to the attraction force when the fourth magnetic member 341 is withdrawn from the receiving groove 121. The preset distance may be greater than or equal to the attraction force and the repulsion force between the first magnetic member 31 and the second magnetic member 32, that is, the distance when the force is balanced, for example, for the first magnetic member 31 and the second magnetic member 32 which are 40mm apart when the force is balanced, the preset distance may be 40mm, 45mm, 50mm, 51mm, etc., and the embodiment of the present invention is not limited in particular to the specific value of the preset distance.

The receiving groove 121 may be disposed on the keyboard bottom 12, and at this time, the first magnetic member 31 is disposed on the keyboard bottom 12; or the receiving groove 121 may be disposed on the keyboard body 11, in which case the first magnetic member 31 is disposed on the keyboard body 11; or, the accommodating groove 121 may also be disposed on the keyboard body 11 and the keyboard bottom case 12, the first magnetic member 31 may be disposed on the keyboard bottom case 12 or the keyboard body 11, and the accommodating groove 121 not disposed with the first magnetic member 31 may provide a moving space for the touchpad module 20, so as to prevent the touchpad module 20 from moving along the surface of the keyboard body 11 or the keyboard bottom case 12 when moving, and causing friction to the touchpad 21.

In addition, in some embodiments, as shown in fig. 1, the driving mechanism further includes a first elastic member 35, one end of the first elastic member 35 is connected to a groove wall of the accommodating groove 121, the other end of the first elastic member 35 abuts against the mounting plate 22, and a stretching direction of the first elastic member 35 is the same as a moving direction of the touchpad module 20 in the accommodating groove 121; when the fourth magnetic element 341 moves to the first position, the acting force between the fourth magnetic element 341 and the third magnetic element 33 and the elastic force of the first elastic element 35 are in the same direction and greater than the acting force between the first magnetic element 31 and the second magnetic element 32, the third magnetic element 33 and the first elastic element 35 drive the touch pad 21 to move, so that at least a portion of the touch pad 21 extends out of the receiving groove 121, and the first elastic element 35 is in an extended state; under the condition that the touch pad 21 is completely retracted into the receiving groove 121, the fourth magnetic member 341 moves to the second position, the acting force between the first magnetic member 31 and the second magnetic member 32 is greater than the elastic force of the first elastic member 35, and the first elastic member 35 is in a compressed state.

The driving mechanism further includes a first elastic member 35, one end of the first elastic member 35 is connected to a groove wall of the accommodating groove 121, and the other end of the first elastic member 35 abuts against the mounting plate 22, and since the extending direction of the first elastic member 35 is the same as the moving direction of the touchpad module 20 in the accommodating groove 121, the first elastic member 35 can be driven to contract or extend when the touchpad module 20 moves in the accommodating groove. That is, when the touchpad module 20 moves towards the direction close to the accommodating groove 121 so that the touchpad module 20 is located in the accommodating groove 121, the touchpad module 20 can press the first elastic member 35 so that the first elastic member 35 contracts; when the key unit 34 is pressed, the touchpad module 20 moves in a direction away from the accommodating groove 121 so that at least a part of the touchpad 21 template is exposed in the accommodating groove 121, the touchpad module 20 moves in a direction away from the first elastic member 35, the touchpad 21 template can cancel the extrusion on the first elastic member 35, and at this time, the first elastic member 35 can extend under the action of the elastic force of the touchpad module and recover to the extending state.

Under the condition that the touch pad 21 is completely retracted into the receiving groove 121, the fourth magnetic member 341 moves to the second position, the fourth magnetic member 341 and the third magnetic member 33 are dislocated from each other, at this time, the second magnetic member 32 is located at the second target position, the first magnetic member 31 and the second magnetic member 32 have an attractive force therebetween, the force between the first magnetic member 31 and the second magnetic member 32 is greater than the elastic force of the first elastic member 35, so that the first elastic member 35 is in a compressed state. That is, when the touch pad 21 is completely retracted into the receiving groove 121, the fourth magnetic member 341 and the third magnetic member 33 are dislocated, the first magnetic member 31 and the second magnetic member 32 are attracted to each other, and the first elastic member 35 is in a compressed state.

When the fourth magnetic element 341 moves to the first position, the fourth magnetic element 341 and the third magnetic element 33 are opposite, at this time, there is a repulsive force between the fourth magnetic element 341 and the third magnetic element 33, and the force between the fourth magnetic element 341 and the third magnetic element 33 is in the same direction as the elastic force of the first elastic element 35, and the force between the first magnetic element 31 and the second magnetic element 32 is opposite, the sum of the force between the fourth magnetic element 341 and the third magnetic element 33 and the elastic force of the first elastic element 35 is greater than the force between the first magnetic element 31 and the second magnetic element 32, so that the second magnetic element 32 and the first magnetic element 31 are separated under the driving of the third magnetic element 33 and the first elastic element 35, and the second magnetic element 32 can move to the first target position in the direction away from the first magnetic element 31, and drive the touch pad 21 to move, so that at least part of the touch pad 21 extends out of the receiving groove 121. In this process, the first elastic member 35 may also provide an acting force for the movement of the touchpad module 20, the first elastic member 35 in the compressed state has a tendency to return to the original state, and the first elastic member 35 may also provide a force to the mounting plate 22 under the effect of its own elastic force, so that the touchpad 21 moves in a direction away from the receiving groove 121. In the case where the touch pad 21 at least partially protrudes out of the receiving groove 121, the mounting plate 22 cancels the pressing of the first elastic member 35, so that the first elastic member 35 is in an extended state. That is, when the user operates the fourth magnetic element 341 to make at least a portion of the touch pad 21 extend out of the receiving groove 121, the fourth magnetic element 341 is opposite to the third magnetic element 33, a predetermined distance is provided between the first magnetic element 31 and the second magnetic element 32, and the first elastic element 35 is in an extended state.

In the case where the touchpad module 20 moves to a direction approaching the receiving groove 121 such that the touchpad module 20 is located in the receiving groove 121, the first magnetic member 31 and the second magnetic member 32 also approach each other. The magnetic force of the first magnetic member 31 and the second magnetic member 32 increases along with the approach of the first magnetic member 31 and the second magnetic member 32, so that when the distance between the second magnetic member 32 and the first magnetic member 31 is small, the acting force between the second magnetic member 32 and the first magnetic member 31 is large, and collision between the mounting plate 22 and the accommodating groove 121 may occur, the arrangement of the first elastic member 35 can buffer the connection between the mounting plate 22 and the accommodating groove 121, and the problem that the mounting plate 22 or the accommodating groove 121 is damaged due to the fact that the acting force on the mounting plate 22 is large due to the approach of the first magnetic member 31 and the second magnetic member 32 is avoided.

It should be noted that the first elastic member 35 may be a spring, and of course, the first elastic member 35 may also be other elastic devices, such as an elastic sheet, for example, as to a specific type of the first elastic member 35, the embodiment of the present invention is not limited herein.

It should be noted that the number of the first elastic members 35 can also be set according to actual needs, for example, the number of the first elastic members 35 can be 2, and in this case, 2 first elastic members 35 can be spaced along the groove wall of the accommodating groove 121. For another example, the number of the first elastic members 35 may also be 1, 3, and so on. The embodiment of the present invention is not limited herein with respect to the specific number of the first elastic members 35.

In addition, in some embodiments, the first elastic member 35 may be a spring, a guide post is disposed on the mounting plate 22 and/or a groove wall of the accommodating groove 121, the first elastic member 35 is sleeved on the guide post, one end of the first elastic member 35 is connected to the groove wall of the accommodating groove 121, the other end of the first elastic member 35 abuts against the mounting plate 22, and the guide post guides the extension or contraction of the first elastic member 35.

Under the condition that first elastic component 35 is the spring, can be provided with the guide post on the mounting panel 22 and/or on the cell wall of holding tank 121 to can establish first elastic component 35 on the guide post, make first elastic component 35 stretch out and draw back along the axis direction of guide post, avoid first elastic component 35 to take place buckling after receiving the extrusion of mounting panel 22, lead to the condition of first elastic component 35 breakdown to take place.

It should be noted that the guiding columns may be disposed on the mounting plate 22, or the guiding columns may be disposed on the groove wall of the accommodating groove 121, or the guiding columns may be disposed on the mounting plate 22 and the groove wall of the accommodating groove 121, or the guiding columns may be disposed on the mounting portion 23 when disposed on the mounting plate 22. The groove wall of the accommodating groove 121 is a surface of the accommodating groove 121 perpendicular to the moving direction of the touchpad module 20. To the concrete position that sets up of guide post, the embodiment of the utility model provides a do not do specifically and restrict.

Under the condition of guide post setting on mounting panel 22, can set up first fluting on mounting panel 22 towards holding tank 121's surface, set up the guide post in first fluting, the cell wall of first fluting can play the guard action to the guide post, avoids the condition appearance that the guide post exposes easily the rupture. Of course, the guide posts may also be provided directly on the surface of the mounting plate 22 facing the groove wall of the receiving groove 121, i.e. the guide posts project from the surface of the mounting plate 22 facing the groove wall of the receiving groove 121. Under the condition that the guide post sets up the cell wall at holding tank 121, can set up the second fluting on the cell wall of holding tank 121, set up the guide post in the second fluting, the cell wall of second fluting can play the guard action to the guide post, avoids the guide post to expose the condition appearance of easily breaking. Of course, the guide posts may be directly disposed on the groove walls of the receiving groove 121.

It should be further noted that the length of the guiding column may be smaller than the length of the first elastic element 35, that is, the first elastic element 35 is partially sleeved on the guiding column, specifically, the length of the guiding column may be one half of the original length of the first elastic element 35, or the length of the guiding column may be one third of the original length of the first elastic element 35, and so on, and the length of the guiding column may be set according to practical situations, as long as it can guide the first elastic element 35, and does not obstruct the touchpad module 20 from retracting into the accommodating groove 121. The original length of the first elastic member 35 is the length of the first elastic member 35 in the original state of the first elastic member 35.

In addition, in some embodiments, as shown in fig. 1 and fig. 2, a receiving groove 121 may be formed in the keyboard bottom case 12, the keyboard body 11 is provided with a mounting hole 111, the mounting hole 111 is provided with a key unit 34, the key unit 34 is retractable in the mounting hole 111, the mounting hole 111 is communicated with the receiving groove 121, the key unit 34 further includes a key body 342 and a second elastic member 343, a receiving portion is provided in the key body 342, the fourth magnetic member 341 is located in the receiving portion, one end of the second elastic member 343 is connected to a groove bottom of the receiving groove 121, the other end of the second elastic member 343 is abutted to the key body 342, a retracting direction of the second elastic member 343 is consistent with a connecting direction between the keyboard body 11 and the keyboard bottom case 12, and a groove bottom of the receiving groove 121 faces a surface of the keyboard body 11.

When the key unit 34 is in the pressed state, the second elastic member 343 is in the compressed state, the fourth magnetic member 341 is in the first position, the fourth magnetic member 341 extends into the accommodating groove 121, and the fourth magnetic member 341 is opposite to the third magnetic member 33; when the key unit 34 is in the original state, the second elastic member 343 is in the original state, the fourth magnetic member 341 is in the second position, the fourth magnetic member 341 is retracted from the receiving groove 121, and the fourth magnetic member 341 and the third magnetic member 33 are dislocated from each other.

The keyboard bottom shell 12 is provided with a receiving groove 121, the keyboard body 11 is provided with a mounting hole 111, and the key unit 34 is telescopically mounted in the mounting hole 111, so that when the key unit 34 is pressed, the key unit 34 can be shortened in the mounting hole 111; when the pressing of the key unit 34 is canceled, the key unit 34 can be elongated in the mounting hole 111. Since the mounting hole 111 communicates with the accommodation groove 121, the key unit 34 can protrude into the accommodation groove 121. The key unit 34 further includes a key body 342 and a second elastic member 343. Because one end of the second elastic member 343 is connected to the bottom of the receiving groove 121, the other end of the second elastic member 343 is abutted to the key body 342, and the extending direction of the second elastic member 343 is the same as the connecting direction of the keyboard body 11 and the keyboard bottom case 12, pressing the key body 342 or canceling pressing the key body 342 can contract or extend the second elastic member 343, so that the pressing body 342 moves relative to the receiving groove, and the key unit 34 extends and contracts in the mounting hole 11. The key body 342 is provided with an accommodating portion, and the fourth magnetic element 341 is disposed in the accommodating portion, so that when the key body 342 is pressed, the fourth magnetic element 341 also moves along with the movement of the key body 342, such that the fourth magnetic element 341 can move to the first position in a direction close to the accommodating groove 121, or the fourth magnetic element 341 moves to the second position in a direction away from the accommodating groove 121, that is, the movement of the pressing body can change the relative position of the fourth magnetic element 341 with respect to the third magnetic element 33, such that the fourth magnetic element 341 can provide a repulsive force to the third magnetic element 33, and eject the touchpad module 20.

When the key unit 34 is in the pressed state, the key body 342 moves and presses the second elastic member 343, the second elastic member 343 contracts, so that the second elastic member 343 is in the compressed state, at this time, the key body 342 moves and drives the fourth elastic member located in the accommodating portion to be in the first position, at this time, the fourth magnetic member 341 extends into the accommodating groove 121, the fourth magnetic member 341 is opposite to the third magnetic member 33, and the fourth magnetic member 341 and the third magnetic member 33 repel each other, so that the touch pad 21 template is ejected from the accommodating groove 121; under the condition that the key unit 34 is in the original state, the second elastic element 343 is in the original state, the key body 342 moves and drives the fourth magnetic element 341 in the accommodating portion to be in the second position, at this time, the fourth magnetic element 341 is retracted from the accommodating groove 121, so that the fourth elastic element and the third magnetic element 33 are dislocated from each other, and the fourth magnetic element 341 and the third magnetic element 33 do not repel each other, thereby preventing the fourth magnetic element 341 from being influenced by the state of being retracted in the accommodating groove 121 in the touch pad module 20.

The original state of the key unit 34 may be that the user cancels pressing of the key body 342, and when the user cancels pressing of the key body 342, the key body 342 cancels pressing of the second elastic member 343, at this time, the second elastic member 343 in the compressed state extends under the action of its own elastic force and returns to the original state, and meanwhile, the second elastic member 343 may drive the key body 342 to move, so that the fourth magnetic member 341 is located at the second position.

It should be noted that the second elastic member 343 may be a spring, and of course, the second elastic member 343 may also be other elastic devices, such as an elastic sheet, for a specific type of the second elastic member 343, the embodiment of the present invention is not limited herein.

In addition, in some embodiments, the keyboard body 11 may have a first surface facing away from the receiving groove 121, the mounting hole 111 penetrates through the first surface, and a surface of the key body 342 facing away from the second elastic member 343 is flush with the first surface, or a surface of the key body 342 facing away from the second elastic member 343 protrudes from the first surface.

In a case where the receiving groove 121 is disposed on the keyboard bottom case 12, the keyboard body 11 has a first surface facing away from the receiving groove 121, the mounting hole 111 is disposed in the keyboard body 11, and the mounting hole 111 penetrates the first surface, since the mounting hole 111 is also communicated with the receiving groove 121, the mounting hole 111 penetrates the keyboard body 11, so that the key body 342 located in the mounting hole 111 is in a state that can be operated, and a user can press the key body 342 by pressing a surface of the key body 342 facing away from the second elastic member 343, so that the pressing unit is in a pressed state.

The surface and the first face parallel and level that button body 342 deviates from second elastic piece 343, button body 342 all is located mounting hole 111 promptly, and keyboard body 11 still is the plane in the position department that sets up button body 342 to can avoid button body 342 to set up the position department of button body 342 sunken, destroy keyboard body 11's uniformity, and can also make pressing down of button body 342 comparatively convenient. The surface of the key body 342 departing from the second elastic member 343 may also protrude from the first surface, that is, at least a portion of the key unit 34 is exposed out of the keyboard body 11, and the user may press the surface of the key body 342 protruding from the first surface so that at least a portion of the touchpad module 20 extends out of the receiving groove 121, and since the surface of the key unit 34 departing from the second elastic member 343 protrudes out of the first surface, the user may press the key body 342 conveniently, and the user is prevented from operating in the narrow mounting hole 111.

It should be noted that the surface of the key body 342 facing away from the second elastic member 343 may also be recessed relative to the first surface, that is, the key bodies 342 are all located in the mounting hole 111, and a distance is provided between the surface of the second elastic member 343 and the first surface of the key body 342, and at this time, when the touch pad 21 is popped up by pressing the key unit 34, it is necessary to operate in the mounting hole 111 by means of other tools or by using a finger.

In addition, in some embodiments, the bottom casing 12 of the keyboard has a receiving groove 121, the mounting plate 22 may include a first mounting surface and a second mounting surface opposite to each other, the second magnetic member 32 is disposed on the first mounting surface, and the third magnetic member 33 is disposed on the second mounting surface; the first mounting surface is a surface facing the keyboard body 11; under the condition that the fourth magnetic member 341 moves to the first position, the fourth magnetic member 341 is located between the plane where the second mounting surface is located and the groove bottom of the receiving groove 121, and the fourth magnetic member 341 is opposite to the third magnetic member 33; under the condition that the touch pad 21 is completely retracted into the receiving groove 121, the fourth magnetic member 341 is located between the surface of the first mounting surface and the surface of the keyboard body 11 departing from the keyboard bottom case 12, and the fourth magnetic member 341 and the third magnetic member 33 are dislocated from each other.

Or, the first mounting surface is a surface facing the keyboard bottom case 12; when the fourth magnetic member 341 moves to the first position, the fourth magnetic member 341 is located between the plane where the second mounting surface is located and the surface of the keyboard body 11 facing the keyboard bottom case 12, and the fourth magnetic member 341 is opposite to the third magnetic member 33; in a case where the touch pad 21 is completely retracted into the receiving groove 121, the fourth magnetic member 341 is located between a surface of the keyboard body 11 facing the keyboard bottom case 12 and a surface of the keyboard body 11 facing away from the keyboard bottom case 12, and the fourth magnetic member 341 and the third magnetic member 33 are mutually misaligned.

The mounting plate 22 includes a first mounting surface and a second mounting surface opposite to each other, and in a case where the touchpad module 20 is located in the receiving groove 121, one of the first mounting surface and the second mounting surface faces the keyboard body 11, and the other surface faces the keyboard bottom case 12. The second magnetic member 32 is disposed on the first mounting surface, and the third magnetic member 33 is disposed on the second mounting surface, so that the second magnetic member 32 and the third magnetic member 33 are located on different surfaces, thereby preventing the second magnetic member 32 and the third magnetic member 33 from generating magnetic interference, and preventing the second magnetic member 32 and the third magnetic member 33 from attracting or repelling each other when the second magnetic member 32 and the third magnetic member 33 are mounted, which affects the mounting process.

Under the condition that the first mounting surface is a surface facing the keyboard body 11, the second mounting surface is a surface facing the keyboard bottom case 12, and the third magnetic member 33 is disposed on the second mounting surface, that is, the third magnetic member 33 is located between a plane where the second mounting surface is located and a groove bottom of the accommodating groove 121, when the key body 342 is pressed, the fourth magnetic member 341 and the third magnetic member 33 on the second mounting surface need to be opposite to each other, so that the fourth magnetic member 341 and the third magnetic member 33 are away from each other, and the touch pad module 20 is ejected. Specifically, when the fourth magnetic member 341 moves to the first position, or the key unit 34 is in a pressed state, the fourth magnetic member 341 is located between the plane of the second mounting surface and the bottom of the receiving groove 121, and at this time, the fourth magnetic member 341 is opposite to the third magnetic member 33, and the fourth magnetic member 341 can provide a repulsive force to the third magnetic member 33, so that the third magnetic member 33 and the fourth magnetic member 341 are away from each other, and the touch pad module 20 at least partially extends out of the receiving groove 121. In the case that the touch pad 21 is completely retracted into the receiving groove 121, or the key unit 34 is in the original state, the fourth magnetic member 341 is located between the surface of the first mounting surface and the surface of the keyboard body 11 away from the keyboard bottom case 12, and at this time, the fourth magnetic member 341 and the third magnetic member 33 are dislocated from each other.

When the first mounting surface is a surface facing the keyboard bottom case 12, the second mounting surface is a surface facing the keyboard body 11, and the third magnetic member 33 is disposed on the second mounting surface, it is necessary to make the fourth magnetic member 341 face the third magnetic member 33 on the second mounting surface when the key body 342 is pressed, so that the fourth magnetic member 341 and the third magnetic member 33 are away from each other, and the touchpad module 20 is ejected. Specifically, when the key unit 34 is in the pressed state, the fourth magnetic member 341 is located between the plane of the second mounting surface and the surface of the keyboard body 11 facing the keyboard bottom case 12, and at this time, the fourth magnetic member 341 is opposite to the third magnetic member 33, and the fourth magnetic member 341 can provide a repulsive force to the third magnetic member 33, so that the third magnetic member 33 and the fourth magnetic member 341 are away from each other, and the touchpad module 20 at least partially extends out of the receiving groove 121. In the original state of the key unit 34, the fourth magnetic member 341 is located between the surface of the keyboard body 11 facing away from the keyboard bottom case 12 and the surface of the keyboard body 11 facing towards the keyboard bottom case 12, and at this time, the fourth magnetic member 341 and the third magnetic member 33 are mutually dislocated.

In addition, in some embodiments, the number of the first magnetic members 31 and the second magnetic members 32 may be multiple, a plurality of the first magnetic members 31 are disposed in the accommodating groove 121 at intervals, and a plurality of the second magnetic members 32 are disposed on the mounting plate 22 at intervals; with the touch pad 21 positioned in the accommodating groove 121, the first magnetic member 31 is positioned opposite to the second magnetic member 32, and the second magnetic member 32 is moved to a second target position in a direction approaching the first magnetic member 31.

The number of the first magnetic members 31 and the second magnetic members 32 is plural, the plural first magnetic members 31 are disposed in the accommodating groove 121 at intervals, and the plural second magnetic members 32 are disposed on the mounting plate 22 at intervals. With the touch pad 21 in the accommodation groove 121, the first magnetic member 31 opposes the second magnetic member 32 in position, so that the second magnetic member 32 can move to a second target position in a direction approaching the first magnetic member 31. That is, when the touchpad 21 is located in the receiving groove 121, each first magnetic member 31 is attracted to one second magnetic member 32 opposite to the first magnetic member, so as to fix the touchpad module 20. The embodiment of the present invention provides an in, the quantity that sets up first magnetism piece 31 and second magnetism piece 32 is a plurality ofly, can fix touchpad module 20 by a plurality of magnetism pieces for actuating mechanism is comparatively reliable to touchpad module 20's fixed.

It should be noted that the number of the first magnetic members 31 and the number of the second magnetic members 32 may be 2, two first magnetic members 31 are distributed at two ends of the groove wall of the accommodating groove 121, and two second magnetic members 32 are distributed at two ends of the surface of the mounting plate 22 facing the groove wall. Alternatively, the number of the first magnetic members 31 and the second magnetic members 32 may be 3, three first magnetic members 31 are distributed at two ends of the groove wall of the accommodating groove 121 at intervals, and three second magnetic members 32 are distributed on the surface of the mounting plate 22 facing the groove wall. Still alternatively, the number of the first magnetic member 31 and the second magnetic member 32 may also be 4, 5, 6, etc., and the embodiment of the present invention is not limited to the number of the first magnetic member 31 and the second magnetic member 32.

Here, the plurality of first magnetic members 31 may be disposed in the same manner, for example, N poles of the plurality of first magnetic members 31 are all facing the mounting plate 22, or the plurality of first magnetic members 31 may be disposed in different manners, for example, N poles of some first magnetic members 31 of the plurality of first magnetic members 31 are facing the mounting plate 22, and S poles of other first magnetic members 31 are facing the mounting plate 22. The second magnetic member 32 may be disposed according to the disposition of the first magnetic member 31, so that the second magnetic member 32 may be attracted to the first magnetic member 31. The embodiment of the present invention is not particularly limited to the arrangement of the plurality of first magnetic members 31.

It should be noted that, when the number of the first magnetic members 31 and the second magnetic members 32 is plural, and the number of the first magnetic members 31 and the second magnetic members 32 is greater than 2, the plural first magnetic members 31 may be distributed at equal intervals, and correspondingly, the plural second magnetic members 32 may also be distributed at equal intervals. Of course, the plurality of first magnetic members 31 may not be distributed equidistantly, and the second magnetic members 32 are opposite to the first magnetic members 31, and correspondingly, the plurality of second magnetic members 32 may also be distributed non-equidistantly. The embodiment of the present invention is not limited to the specific arrangement of the first magnetic member 31 and the second magnetic member 32.

In addition, the number of the first magnetic member 31 and the number of the second magnetic member 32 may also be 1, one first magnetic member 31 is opposite to one second magnetic member 32, and the first magnetic member 31 and the second magnetic member 32 may be close to each other and attracted to each other, so that the touchpad module 20 is located in the receiving groove 121.

In addition, in some embodiments, a first slide rail may be disposed in the accommodating groove 121, and a first slider is disposed on the mounting plate 22 and embedded in the first slide rail; under the condition that the fourth magnetic member 341 moves to the first position, the first slider slides on the first slide rail along the first direction to the third position; in a case where the touch pad 21 is completely retracted in the accommodating groove 121, the first slider slides on the first slide rail to a fourth position along the second direction, and the first direction is opposite to the second direction.

Be provided with first slide rail in the holding tank 121, be provided with first slider on the mounting panel 22, first slider inlays and locates first slide rail to first slider can move first slide rail relatively, drives the relative holding tank 121 of mounting panel 22 and removes, so that the touch pad 21 internal contraction is in holding tank 121, or so that touch pad 21 at least part is overhanging in holding tank 121. When the mounting plate 22 moves, the first slider moves along the first slide rail, and the first slide rail can guide the movement of the mounting plate 22, so that the movement of the mounting plate 22 is stable.

When the fourth magnetic member 341 moves to the first position, or when the key unit 34 is in the pressed state, the first magnetic member 31 and the second magnetic member 32 move relatively under the action of the fourth magnetic member 341, or the fourth magnetic member 341 and the first elastic member 35, the second magnetic member 32 moves to the first target position along the direction away from the first magnetic member 31, so that the touch pad module 20 slides in the accommodating slot 121 along the first direction, the first slider can slide on the first slide rail along the first direction to the third position, and at this time, the touch pad 21 at least partially extends out of the accommodating slot 121, that is, the touch pad module 20 is ejected from the accommodating slot 121; under the condition that the touch pad 21 is completely retracted into the receiving groove 121, the first slider slides on the first slide rail to the fourth position along the second direction, at this time, the second magnetic member 32 moves to the second target position along the direction close to the first magnetic member 31, and the first magnetic member 31 and the second magnetic member 32 are attracted to fix the touch pad module 20 in the receiving groove 121.

The first direction is a direction from the first magnetic part 31 to the second magnetic part 32, and the first slider slides along the first direction to move the touchpad module 20 in a direction away from the groove wall of the accommodating groove 121, so that the touchpad 21 can at least partially extend out of the accommodating groove 121; the second direction is opposite to the first direction, the second direction is a direction from the second magnetic member 32 to the first magnetic member 31, and the first slider slides in the second direction to move the touchpad module 20 to a direction close to the groove wall of the accommodating groove 121, so that the touchpad 21 can be located in the accommodating groove 121.

In addition, in some embodiments, a second sliding block may be disposed in the accommodating groove 121, and a second sliding rail is disposed on the mounting plate 22, and the second sliding block is embedded in the second sliding rail; under the condition that the fourth magnetic member 341 moves to the first position, the second slide rail slides to a fifth position along the third direction relative to the second slider; in the case that the touch pad 21 is completely retracted in the accommodating groove 121, the second slide rail slides relative to the second slider along the fourth direction to the sixth position, and the third direction is opposite to the fourth direction.

The second sliding block is arranged in the accommodating groove 121, the mounting plate 22 is provided with a second sliding rail, and the second sliding block is embedded in the second sliding rail, so that the second sliding rail can move along the first sliding block to drive the mounting plate 22 to move relative to the accommodating groove 121, so that the touch pad 21 is retracted into the accommodating groove 121, or so that at least part of the touch pad 21 extends out of the accommodating groove 121. When the mounting plate 22 moves, the second slide rail moves along the second slide block, and the second slide block can guide the movement of the mounting plate 22, so that the movement of the mounting plate 22 is stable.

When the fourth magnetic member 341 moves to the first position, or when the key unit 34 is in the pressed state, the first magnetic member 31 and the second magnetic member 32 move relatively under the action of the fourth magnetic member 341, or the fourth magnetic member 341 moves relatively under the action of the first elastic member 35, the second magnetic member 32 moves to the first target position along the direction away from the first magnetic member 31, so that the touchpad module 20 slides in the accommodating slot 121 along the third direction, the second slide rail can slide on the second slider along the third direction to the fifth position, and at this time, the touchpad 21 at least partially extends out of the accommodating slot 121, that is, the touchpad module 20 pops out of the accommodating slot 121; under the condition that the touch pad 21 is completely retracted into the receiving groove 121, the second slide rail slides on the second slider to the sixth position along the fourth direction, at this time, the second magnetic member 32 moves to the second target position along the direction close to the first magnetic member 31, and the first magnetic member 31 and the second magnetic member 32 are attracted to fix the touch pad module 20 in the receiving groove 121.

The third direction is the direction from the first magnetic member 31 to the second magnetic member 32, and the second slide rail slides along the third direction to move the touchpad module 20 in the direction away from the groove wall of the accommodating groove 121, so that the touchpad 21 can at least partially extend out of the accommodating groove 121; the fourth direction is opposite to the third direction, the fourth direction is a direction from the second magnetic member 32 to the first magnetic member 31, and the second slide rail slides along the fourth direction to move the touchpad module 20 to a direction close to the groove wall of the accommodating groove 121, so that the touchpad 21 can be located in the accommodating groove 121.

In addition, in some embodiments, as shown in fig. 1, a bracket 122 may be further connected to the keyboard body 11, and the bracket 122 is used for supporting an electronic device.

The support 122 is connected to the keyboard body 11, and the electronic device can be placed on the support 122 and fixed, so that the user can use the keyboard 100 to study or work, and the problem that the user needs to manually fix the electronic device is avoided.

It should be noted that the bracket 122 may fix the electronic device in different manners, for example, the bracket 122 may be a plate-shaped bracket 122, a groove for fixing the electronic device is provided on the plate-shaped bracket 122, and the electronic device is clamped in the groove to fix the electronic device; or a plurality of magnetic patches can be distributed on the plate-shaped support 122, and the electronic equipment can be fixed through the attraction of the magnetic patches on the rear shell of the electronic equipment; or, a suction cup may be further disposed on the plate-shaped support 122, the electronic device is placed on the suction cup and pressed to remove air in the suction cup, and the electronic device is fixed by the suction cup. Alternatively, the support 122 may be a rod-shaped support 122, and a suction cup or a magnetic patch may be disposed at an end of the rod-shaped support 122. The embodiment of the present invention is not particularly limited to a specific type of the bracket 122.

In the embodiment of the present invention, the keyboard 100 includes a touchpad module 20 and a keyboard module 10. The keyboard module 10 includes a keyboard 100 body and a bottom case of the keyboard 100, the bottom case of the keyboard 100 and/or the keyboard 100 body is provided with an accommodating groove 121, and the bottom case of the keyboard 100 is connected to the keyboard 100 body so that the accommodating groove 121 is located inside the keyboard module 10. The touch pad module 20 is located in the receiving groove 121, and since the touch pad module 20 is connected to the receiving groove 121 through the driving mechanism, the touch pad module 20 can be retracted into the receiving groove 121 through the driving mechanism, so that the receiving groove 121 module is hidden, or at least a portion of the touch pad module 20 can be extended out of the receiving groove 121 through the driving mechanism, so that a user can use the touch pad module.

The touch panel module 20 includes an installation plate 22 and a touch panel 21, the touch panel 21 is connected to the installation plate 22, the installation plate 22 can be connected to a driving mechanism, the driving mechanism drives the installation plate 22 to move, and the installation plate 22 drives the touch panel 21 to move, so that the touch panel 21 can be located in the accommodation groove 121, or at least partially exposed in the accommodation groove 121. The driving mechanism includes a first magnetic member 31, a second magnetic member 32 and a third magnetic member 33, the first magnetic member 31 is disposed in the receiving slot 121, the second magnetic member 32 and the third magnetic member 33 are both disposed on the mounting plate 22, the keyboard 100 body is further provided with a fourth magnetic member 341, and the fourth magnetic member 341 is movable relative to the receiving slot 121, so that the fourth magnetic member 341 can move to make the fourth magnetic member 341 extend into the receiving slot 121 or withdraw from the receiving slot 121, that is, the fourth magnetic member 341 can move in a direction away from the receiving slot 121 or move in a direction close to the receiving slot 121. Under the condition that the fourth magnetic element 341 moves to the first position, the fourth magnetic element 341 extends into the receiving groove 121, so that the fourth magnetic element 341 is opposite to the third magnetic element 33, so that the second magnetic element 32 can move to the first target position along the direction away from the first magnetic element 31, because the second magnetic element 32 is disposed on the mounting plate 22, when the second magnetic element 32 moves like the position away from the first magnetic element 31, the second magnetic element 32 drives the mounting plate 22 to move towards the direction away from the receiving cavity, that is, the movement of the second magnetic element 32 can make the mounting plate 22 move away from the receiving groove 121, so that the touch pad 21 at least partially extends out of the receiving groove 121, so that the user can use the touch pad 21. When the touchpad 21 is completely retracted into the receiving slot 121, the fourth magnetic member 341 moves to the second position, and the fourth magnetic member 341 exits from the receiving slot 121, and since the touchpad 21 is retracted into the receiving slot 121 and the third magnetic member 33 on the mounting plate 22 is also located in the receiving slot 121, the fourth magnetic member 341 and the third magnetic member 33 in the receiving slot 121 can be dislocated from each other, and the second magnetic member 32 can move to the second target position in a direction close to the first magnetic member 31, so that the mounting plate 22 is fixed relative to the receiving slot 121 under the action of the first magnetic member 31 and the second magnetic member 32, and the touchpad module 20 is hidden in the keypad module 10.

That is, in the embodiment of the present invention, the touch panel module 20 is disposed in the keyboard 100, and the touch panel module 20 is disposed in the accommodating groove 121, so that the touch panel module 20 can be hidden, and the touch panel 21 is prevented from occupying the surface area of the keyboard 100, so that the size of the keyboard 100 is small; in the case that the fourth magnetic member 341 is moved to the first position, the fourth magnetic member 341 and the third magnetic member 33 are opposite and interact with each other, so that the touch pad 21 at least partially protrudes from the receiving groove 121, so that the user can use the touch pad 21. That is, the embodiment of the present invention provides a keyboard 100, which can hide the touch panel 21 without using the touch panel 21, push out the touch panel 21 for use when using the touch panel 21, and can take into account the setting and portability of the touch panel 21.

It should be noted that, in this specification, each embodiment is described in a progressive manner, and each embodiment focuses on differences from other embodiments, and portions that are the same as and similar to each other in each embodiment may be referred to.

While alternative embodiments of the present invention have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including alternative embodiments and all such alterations and modifications as fall within the true scope of the embodiments of the invention.

Finally, it should also be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities. Furthermore, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such article or terminal. Without further limitation, an element defined by the phrases "comprising one of \8230;" does not exclude the presence of additional like elements in an article or terminal device comprising the element.

It is right above to the technical scheme that the utility model provides a detailed introduction has been carried out, and it is right to have used specific individual example herein the utility model discloses a principle and implementation mode have been elucidated, simultaneously, to the general technical staff in this field, according to the utility model discloses a principle and implementation mode all have the change part on concrete implementation mode and application scope, to sum up, this description content should not be understood as the restriction of the utility model.

Claims (10)

1. A keyboard is characterized by comprising a touch pad module and a keyboard module;

the keyboard module comprises a keyboard body and a keyboard bottom shell, wherein an accommodating groove is formed in the keyboard bottom shell and/or the keyboard body, the keyboard body is connected with the keyboard bottom shell, and the touch pad module is located in the accommodating groove and is connected with the accommodating groove through a driving mechanism;

the touch pad module comprises a touch pad and a mounting plate, the touch pad is connected to the mounting plate, the driving mechanism comprises a first magnetic piece, a second magnetic piece and a third magnetic piece, the first magnetic piece is arranged in the accommodating groove, the second magnetic piece and the third magnetic piece are both arranged on the mounting plate, a fourth magnetic piece is further arranged on the keyboard body, and the fourth magnetic piece is movable relative to the accommodating groove;

when the fourth magnetic piece moves to the first position, the fourth magnetic piece is opposite to the third magnetic piece in position, the second magnetic piece moves to the first target position along the direction away from the first magnetic piece, and the touch pad at least partially extends out of the accommodating groove; under the condition that the touch pad is completely retracted into the accommodating groove, the fourth magnetic piece moves to a second position, the fourth magnetic piece and the third magnetic piece are mutually staggered, and the second magnetic piece moves to a second target position along the direction close to the first magnetic piece.

2. The keyboard according to claim 1, wherein the driving mechanism further comprises a first elastic member, one end of the first elastic member is connected to a groove wall of the receiving groove, the other end of the first elastic member abuts against the mounting plate, and a stretching direction of the first elastic member is the same as a moving direction of the touch pad module in the receiving groove;

when the fourth magnetic element moves to the first position, the acting force between the fourth magnetic element and the third magnetic element and the elastic force of the first elastic element are in the same direction and are greater than the acting force between the first magnetic element and the second magnetic element, the third magnetic element and the first elastic element drive the touch pad to move, so that the touch pad at least partially extends out of the accommodating groove, and the first elastic element is in an extended state;

under the condition that the touch pad is completely retracted in the accommodating groove, the fourth magnetic piece moves to a second position, the acting force between the first magnetic piece and the second magnetic piece is larger than the elastic force of the first elastic piece, and the first elastic piece is in a compressed state.

3. The keyboard as claimed in claim 2, wherein the first elastic member is a spring, a guiding post is disposed on the mounting plate and/or a groove wall of the receiving groove, the first elastic member is sleeved on the guiding post, one end of the first elastic member is connected to the groove wall of the receiving groove, the other end of the first elastic member abuts against the mounting plate, and the guiding post guides the extension or contraction of the first elastic member.

4. The keyboard according to claim 1, wherein the receiving groove is formed in the keyboard bottom case, a mounting hole is formed in the keyboard body, a key unit is disposed in the mounting hole, and the key unit is retractable in the mounting hole, the mounting hole is communicated with the receiving groove, the key unit includes a key body and a second elastic member, a receiving portion is disposed in the key body, the fourth magnetic member is located in the receiving portion, one end of the second elastic member is connected to a bottom of the receiving groove, the other end of the second elastic member abuts against the key body, a retracting direction of the second elastic member is consistent with a connecting direction of the keyboard body and the keyboard bottom case, and a bottom of the receiving groove is a surface of the receiving groove facing the keyboard body;

under the condition that the key unit is in a pressed state, the second elastic piece is in a compressed state, the fourth magnetic piece is in a first position, the fourth magnetic piece extends into the accommodating groove, and the fourth magnetic piece is opposite to the third magnetic piece in position;

under the condition that the key unit is in the original state, the second elastic piece is in the original state, the fourth magnetic piece is in the second position, the fourth magnetic piece is withdrawn from the accommodating groove, and the fourth magnetic piece and the third magnetic piece are staggered mutually.

5. The keyboard of claim 4, wherein the keyboard body has a first surface facing away from the receiving groove, the mounting hole penetrates through the first surface, a surface of the key body facing away from the second elastic member is flush with the first surface, or a surface of the key body facing away from the second elastic member protrudes from the first surface.

6. The keyboard of claim 1, wherein the receiving slot is formed in the keyboard bottom casing, the mounting plate includes a first mounting surface and a second mounting surface that are opposite to each other, the second magnetic member is disposed on the first mounting surface, and the third magnetic member is disposed on the second mounting surface;

the first mounting surface is a surface facing the keyboard body;

under the condition that the fourth magnetic part moves to the first position, the fourth magnetic part is located between the plane where the second mounting surface is located and the bottom of the accommodating groove, and the fourth magnetic part is opposite to the third magnetic part in position;

under the condition that the touch pad is completely retracted into the accommodating groove, the fourth magnetic part is positioned between the surface of the first installation surface and the surface of the keyboard body deviating from the keyboard bottom shell, and the fourth magnetic part and the third magnetic part are staggered with each other;

or, the first mounting surface is a surface facing the keyboard bottom case;

under the condition that the fourth magnetic part moves to the first position, the fourth magnetic part is positioned between the plane where the second mounting surface is positioned and the surface of the keyboard body facing the keyboard bottom shell, and the fourth magnetic part is opposite to the third magnetic part in position;

under the condition that the touch pad is completely retracted into the accommodating groove, the fourth magnetic part is located between the surface of the keyboard body facing the keyboard bottom case and the surface of the keyboard body departing from the keyboard bottom case, and the fourth magnetic part and the third magnetic part are staggered with each other.

7. The keyboard according to claim 1, wherein the number of the first magnetic members and the number of the second magnetic members are plural, the plural first magnetic members are arranged in the accommodating groove at intervals, and the plural second magnetic members are arranged on the mounting plate at intervals;

under the condition that the touch pad is positioned in the accommodating groove, the first magnetic piece is opposite to the second magnetic piece, and the second magnetic piece moves to a second target position along the direction close to the first magnetic piece.

8. The keyboard according to claim 1, wherein a first slide rail is arranged in the accommodating groove, a first slide block is arranged on the mounting plate, and the first slide block is embedded in the first slide rail;

under the condition that the fourth magnetic part moves to the first position, the first sliding block slides on the first sliding rail along the first direction to the third position;

under the condition that the touch pad is completely retracted into the accommodating groove, the first slider slides on the first slide rail to a fourth position along a second direction, and the first direction is opposite to the second direction.

9. The keyboard according to claim 1, wherein a second sliding block is arranged in the accommodating groove, a second sliding rail is arranged on the mounting plate, and the second sliding block is embedded in the second sliding rail;

under the condition that the fourth magnetic part moves to the first position, the second slide rail slides to a fifth position relative to the second slide block along the third direction;

under the condition that the touch pad is completely retracted into the accommodating groove, the second slide rail slides to a sixth position relative to the second slider along a fourth direction, and the third direction is opposite to the fourth direction.

10. The keyboard of claim 1, wherein a support is further coupled to the keyboard body, the support configured to support an electronic device.

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