CN210349651U - Keycap displacement jig - Google Patents

Abstract

The utility model provides a keycap displacement jig, which comprises a base plate, a displacement mechanism, a keycap concave die and a displacement power device; the displacement mechanism is connected with the substrate through a Y-direction slide rail; the displacement mechanism is provided with an X-direction chute; a plurality of key cap female dies are arranged in the key cap displacement jig, and each key cap female die is matched with the X-direction sliding groove and can move along the X direction of the X-direction sliding groove; the displacement power device comprises a Y-direction power displacement part and an X-direction power displacement part. The utility model realizes that the keycap displacement jig can be correspondingly adjusted according to the keycap distance of a small keyboard with dense keys or other keyboards with specific specifications after the keycaps to be displaced are produced, thereby avoiding manual operation, improving production efficiency, improving the accuracy of distance adjustment and reducing the complexity of the process; on the other hand, the production process for the key core reduces the production difficulty, realizes automatic production and reduces the production cost.

Description

Keycap displacement jig

Technical Field

The utility model relates to a key cap displacement tool technical field.

Background

In the production process of the keyboard, aiming at the small keyboard with dense keys, due to the limitation of the existing process level, the key caps of the whole keyboard can not be obtained by directly forming and cutting the key intervals of the finished keyboard, and only manual arrangement can be carried out manually, so that the production efficiency is low, the accuracy is poor, the process is complex, and the production cost is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the above-mentioned technical problem that exists among the prior art, provide a key cap displacement tool for will shift through the transfer tool and come treat that carry out interval displacement adjustment between the displacement key cap, include:

the displacement mechanism is arranged on the base plate and is provided with a Y-direction slide rail;

the displacement mechanism is connected with the base plate through a Y-direction slide rail and can move along the Y-direction slide rail in the Y direction; the displacement mechanism is provided with an X-direction sliding groove perpendicular to the Y-direction sliding rail;

the keycap displacement jig is internally provided with a plurality of keycap concave dies corresponding to the keycaps to be displaced, and each keycap concave die is matched with the X-direction sliding groove and can move along the X direction of the X-direction sliding groove;

the displacement power device comprises a Y-direction power displacement part and an X-direction power displacement part; wherein the content of the first and second substances,

the Y-direction power displacement part is connected with the displacement mechanism and is used for enabling the displacement mechanism to move along the Y-direction slide rail; the X-direction power displacement part is connected with the key cap female die and used for enabling the key cap female die to move along the X-direction groove of the displacement mechanism.

Preferably, the displacement mechanism is arranged at the upper end of the substrate through the Y-direction slide rail;

the X-direction sliding groove is arranged at the upper end of the displacement mechanism; and the keycap concave die is arranged at the upper end of the displacement mechanism through the X-direction sliding groove.

Preferably, the displacement mechanism comprises an outer displacement unit connected with the Y-direction dynamic displacement part, an inner displacement unit far away from the outer displacement unit, a plurality of linear displacement units arranged between the outer displacement unit and the inner displacement unit, and a plurality of first limit connection mechanisms arranged between the inner displacement unit, the linear displacement units and the outer displacement unit;

wherein the outer displacement unit, the inner displacement unit and the linear displacement unit are all arranged in parallel in the X direction;

the first limiting connection mechanism can limit the relative distance among the outer displacement unit, the inner displacement unit and the linear displacement unit.

Preferably, the first limit connecting mechanism comprises a limit stop and an extending part connected with the limit stop;

a limit accommodating groove matched with the limit stop block in size is formed in the linear displacement unit; the limiting accommodating groove is provided with a notch for placing the extending part;

first spacing coupling mechanism passes through extension one end links firmly in a linear displacement unit, and the limit stop that this extension other end is connected can pass through adjacent linear coupling mechanism is arranged in to the notch in the spacing storage tank, so that first spacing coupling mechanism follows when Y removes to the slide rail, through the limit stop butt in the notch restriction of spacing storage tank the distance scope of the removal of linear displacement unit.

Preferably, the extension part of the first limit connecting mechanism and the limit stop form a first limit connecting mechanism with a T-shaped structure; the width of the longest edge of the limit stop is larger than the width of the extension part, so that the limit stop can be abutted to the inside of the limit accommodating groove through the notch.

Preferably, the length of the extension part is matched with the original distance between the keycaps to be displaced in the transfer jig, so that the original distance between the keycaps to be displaced is adjusted within the length range of the extension part in the keycap displacement jig.

Preferably, the keycap female die comprises a die main body, a T-shaped sliding piece arranged at the lower end of the die main body, and a cap groove arranged on the die main body and used for accommodating the keycap to be displaced; the T-shaped sliding piece is matched with the X-direction sliding groove, and the keycap concave die can move along the X-direction sliding groove based on the T-shaped sliding piece.

Preferably, the keycap female die further comprises a second limiting connecting mechanism arranged on the side face of the die body and a limiting groove arranged at one end of the keycap female die, which is different from the second limiting connecting mechanism;

the limiting groove is matched with the second limiting connecting mechanism;

the key cap female die can be arranged in the limit groove of the adjacent key cap female die through the second limit connecting mechanism.

Preferably, the limit groove and the second limit connecting mechanism are symmetrically arranged at two X-direction ends of the keycap female die respectively.

The utility model provides a keycap displacement jig, which comprises a base plate provided with a Y-direction slide rail, a displacement mechanism, a keycap concave die and a displacement power device; the displacement mechanism is connected with the base plate through a Y-direction slide rail and can move along the Y-direction slide rail in the Y direction; the displacement mechanism is provided with an X-direction sliding chute which is vertical to the Y-direction sliding rail; a plurality of keycap concave dies corresponding to the keycaps to be displaced are arranged in the keycap displacement jig, and each keycap concave die is matched with the X-direction sliding groove and can move along the X direction of the X-direction sliding groove; the displacement power device comprises a Y-direction power displacement part and an X-direction power displacement part; the Y-direction power displacement part is connected with the displacement mechanism and is used for enabling the displacement mechanism to move along the Y-direction slide rail; the X-direction power displacement part is connected with the key cap female die and used for enabling the key cap female die to move along the X-direction groove of the displacement mechanism. The utility model discloses a keycap displacement tool carries out interval displacement adjustment to the keycap to be displaced produced by the whole board, thereby realizing that after the keycap to be displaced of the whole board is produced, according to the keycap interval of the small keyboard with dense keys or the keyboard with other specific specifications, the corresponding adjustment is carried out by the keycap displacement tool, on one hand, the manual operation is avoided, the production efficiency is improved, the accuracy of the interval adjustment is improved, and the complexity of the process is reduced; on the other hand, the production process for the keycaps reduces the production difficulty, realizes automatic production and reduces the production cost.

Drawings

FIG. 1 is a schematic structural diagram of a keycap displacement jig according to an embodiment;

FIG. 2 is a structural diagram of the keycap displacement jig according to the embodiment as viewed horizontally from the left;

FIG. 3 is an exploded view of a key cap displacement jig according to an embodiment;

FIG. 4 is an exploded schematic view of the keycap displacement jig according to the embodiment, in the direction of the second limit connecting mechanism of the keycap concave die;

FIG. 5 is an exploded schematic view of a key cap displacement jig according to an embodiment in the direction of a limiting groove of a key cap concave die;

FIG. 6 is a schematic structural diagram of a first limiting connection mechanism of the keycap displacement jig according to the embodiment;

fig. 7 is an exploded schematic view of a linear displacement unit of the key cap displacement jig according to the embodiment.

Reference numerals:

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, or through the communication between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b):

referring to fig. 1 to 7, the present embodiment provides a key cap displacement jig for adjusting the distance displacement between the key caps to be displaced, which are transferred by the transfer jig, and includes:

the displacement mechanism 2, the key cap female die 3 and the displacement power device 4 are arranged on the base plate 1 of the Y-direction slide rail 11;

the displacement mechanism 2 is connected with the substrate 1 through a Y-direction slide rail 11 and can move along the Y-direction slide rail 11 in the Y direction; the displacement mechanism 2 is provided with an X-direction sliding groove 21 which is vertical to the Y-direction sliding rail 11;

a plurality of keycap concave dies 3 corresponding to the keycaps to be displaced are arranged in the keycap displacement jig, and each keycap concave die 3 is matched with the X-direction sliding groove 21 and can move along the X direction of the X-direction sliding groove 21;

the displacement power device 4 comprises a Y-direction power displacement part 41 and an X-direction power displacement part 42; the Y-direction power displacement part 41 is connected with the displacement mechanism 2, and is used for enabling the displacement mechanism 2 to move along the Y-direction slide rail 11; the X-direction power displacement part 42 is connected with the keycap concave die 3 and used for enabling the keycap concave die 3 to move along the X-direction groove of the displacement mechanism 2.

The X direction and the Y direction may be two directions on a horizontal plane, the X direction may be a transverse direction, and the Y direction may be a longitudinal direction perpendicular to the X direction.

The transfer jig is equipment for cutting the key core of the whole plate into independent keycaps to be displaced and then transferring the keycaps.

And the displacement power device 4 can be an electric cylinder, so that automatic operation is realized, and automatic adjustment of the distance between the keycaps is realized.

The pitch displacement adjustment may be performed by increasing the pitch or decreasing the pitch.

Above-mentioned, key cap die 3 for hold the key core that shifts, every waits that the displacement key cap is arranged in behind the key cap die 3, and along with the displacement of key core takes place to remove to realize the adjustment of interval.

The base plate 1 is a fixed flat plate, and is stationary with respect to all devices at the upper end.

The Y-direction dynamic displacement unit 41 is connected to the displacement mechanism 2 to pull or push the displacement mechanism 2, thereby moving the displacement mechanism 2 relative to the substrate 1.

As described above, the X-direction power displacement portion 42 is connected to the key cap concave die 3, thereby realizing the pulling or pushing of the key cap concave die 3, and realizing the movement of the key cap concave die 3 to the groove with respect to the X-direction of the displacement mechanism 2.

It should be noted that, in the production process of the keycap, the keycap is integrally formed in the whole version in the early stage, so that an uncut primary product of the keycap in the whole version is obtained, wherein a water gap material is further arranged between each two independent keycap units for connection, and the distance between each two keycap units can be matched with specific production equipment, namely a certain larger distance can be obtained, but the arrangement mode of the keycap corresponds to a finished keyboard after production. Then, cutting the water gap material in various ways, thereby obtaining a cut keycap unit; transferring the keycaps to be displaced by the transfer jig through the carrier, and transferring the keycaps to the keycap displacement jig; specifically, each keycap to be displaced can be transferred into each keycap concave die 3 corresponding to the keycap to be displaced in the keycap displacement jig through the carrier; at the moment, the distance between the keycap concave dies 3 is matched with the distance between the keycaps to be displaced; and then the Y-direction dynamic displacement part 41 and the X-direction dynamic displacement part 42 are respectively used for carrying out X-direction and Y-direction displacement adjustment on the displacement mechanism 2 and the key cap concave die 3 in the horizontal plane, the distance is inwards reduced, the distance between the key caps in the keyboard which meets the target production is adjusted, and further processing flow is carried out. After the processing is finished, the displacement mechanism 2 and the key cap concave die 3 can be adjusted in the X direction and the Y direction to expand the displacement distance in the horizontal plane by the Y direction power displacement portion 41 and the X direction power displacement portion 42, respectively, so that the distance is matched with the distance of the key caps to be displaced, which are transferred by the carrier, so as to receive the key caps to be displaced again.

In addition, the key cap displacement tool that this embodiment provided is directed at the displacement adjustment of treating the displacement key cap in process of production to accord with the interval requirement of product, carry out further processing, but the tool that this embodiment provided can be not only to the displacement adjustment with the key cap, also can be the production of the product that other needs carry out the displacement adjustment, through the displacement adjustment to the midbody of product, thereby the processing degree of difficulty of process between one step before and the later step has been reduced, greatly reduced manufacturing cost and machining efficiency.

In the embodiment, the distance displacement adjustment is carried out on the keycaps to be displaced produced by the whole plate through the keycap displacement jig, so that the keycaps to be displaced can be correspondingly adjusted through the keycap displacement jig according to the keycap distance of the small keyboard with dense keys or the keyboard with other specific specifications after the keycaps to be displaced are produced by the whole plate, on one hand, the manual operation is avoided, the production efficiency is improved, the accuracy of the distance adjustment is improved, and the process complexity is reduced; on the other hand, the production process for the keycaps reduces the production difficulty, realizes automatic production and reduces the production cost.

Further, the displacement mechanism 2 is arranged at the upper end of the substrate 1 through the Y-direction slide rail 11;

the X-direction sliding groove 21 is arranged at the upper end of the displacement mechanism 2; and the keycap concave die 3 is arranged at the upper end of the displacement mechanism 2 through the X-direction sliding groove 21.

Above-mentioned, key cap die 3, displacement mechanism 2 and base plate 1 are arranged from top to bottom in proper order to utilize the transfer tool to put into key cap die 3 from the top with treating the displacement key cap.

Further, the displacement mechanism 2 includes an outer displacement unit 22 connected to the Y-direction dynamic displacement portion 41, an inner displacement unit 24 far from the outer displacement unit 22, a plurality of linear displacement units 23 disposed between the outer displacement unit 22 and the inner displacement unit 24, and a plurality of first limit connection mechanisms 25 disposed between the inner displacement unit 24, the linear displacement units 23, and the outer displacement unit 22;

wherein the outer displacement unit 22, the inner displacement unit 24 and the linear displacement unit 23 are all arranged in parallel in the X direction;

the first limit connection mechanism 25 can limit the relative distance between the outer displacement unit 22, the inner displacement unit 24 and the linear displacement unit 23.

The first limit connection mechanism 25 can limit the relative distance between the outer displacement unit 22, the inner displacement unit 24 and the linear displacement unit 23.

The displacement mechanism 2 includes an outer displacement unit 22, a linear displacement unit 23, and an inner displacement unit 24, which are arranged in parallel in this order. The outer displacement unit 22, the linear displacement unit 23 and the inner displacement unit 24 are all in a strip-shaped structure and are arranged in parallel along the X direction.

In addition, a limiting member for abutting against the outer displacement unit 22 is provided on the base, and is provided on one end of the outer side of the outer displacement unit 22 on the base, for limiting the position of the outer displacement unit 22 moving along the Y-direction slide rail 11, so that the outer displacement unit 22 can only move to the limiting member, thereby preventing the displacement mechanism 2 from moving out of the range of the base and falling.

The first limiting connection mechanism 25 is disposed between the outer displacement unit 22, the inner displacement unit 24 and the linear displacement unit 23, and can limit the relative distance between the outer displacement unit and the inner displacement unit in the moving process, specifically, can limit the moving distance range between any one of the units and the adjacent unit, so as to avoid exceeding a certain distance range in the moving process.

Further, the first limit connection mechanism 25 includes a limit stop 251 and an extension portion 252 connected to the limit stop 251;

the linear displacement unit 23 is provided with a limit accommodating groove 231 matched with the limit stopper 251 in size; the limiting accommodating groove 231 is provided with a notch 232 for placing the extending part 252;

the first limit connecting mechanism 25 is fixedly connected to a linear displacement unit 23 through one end of the extending portion 252, and a limit stopper 251 connected to the other end of the extending portion 252 can be disposed in the limit accommodating groove 231 of an adjacent linear connecting mechanism through the notch 232, so that when the first limit connecting mechanism 25 moves along the Y-direction slide rail 11, the distance range of movement of the linear displacement unit 23 is limited by the limit stopper 251 abutting against the notch 232 of the limit accommodating groove 231, and any two of the two mechanisms do not exceed the maximum distance range in the moving process.

Further, the extending part 252 and the limit stop 251 of the first limit connecting mechanism 25 form a first limit connecting mechanism 25 with a T-shaped structure; the width of the longest side of the limit stopper 251 is greater than the width of the extension portion 252, so that the limit stopper 251 can abut against the limit receiving groove 231 through the notch 232.

Further, the length of the extension portion 252 is matched with the original distance between the keycaps to be displaced in the transfer jig, so that the original distance between the keycaps to be displaced is adjusted within the length range of the extension portion 252 in the keycap displacement jig.

In the T-shaped structure of the first stopper link mechanism 25, the stopper 251 may be a horizontally disposed rectangle; the extension portion 252 extends from the limit stop 251, and has a cross-sectional width smaller than the length of the limit stop 251 in the longitudinal direction, thereby forming a T-shaped structure.

The T-shaped structure with a large top and a small bottom can make the first position-limiting connection mechanism 25 more stably contact with the position-limiting accommodation groove 231.

As described above, the length of the extension 252 defines the distance range over which the linear displacement unit 23 or other units move.

As described above, the limit stop 251 may be provided therein with a recessed screw hole, and the extension portion 252 may be provided in a length direction thereof with an extension screw hole communicating with the recessed screw hole, so that a bolt may enter the extension screw hole through the recessed screw hole and be connected to the corresponding outer displacement unit 22, the inner displacement unit 24, and the linear displacement unit 23, thereby achieving fixation, and fixation connection between the limit stop 251 and the extension portion 252.

For example, the extension portion is fixed on the a linear displacement unit 23 by a bolt, the limit stopper 251 of the first limit connecting mechanism 25 is placed in the accommodating groove of the adjacent B linear displacement unit 23, and due to the fixed connection between the first limit connecting mechanism 25 and the a linear displacement unit 23, the B linear displacement unit 23 can move along the length direction of the extension portion, and the moving range is matched with the length of the extension portion.

Further, the keycap female die 3 comprises a die main body 31, a T-shaped sliding part 32 arranged at the lower end of the die main body 31, and a cap groove 33 arranged on the die main body and used for accommodating the keycap to be displaced;

the T-shaped sliding piece 32 is matched with the X-direction sliding groove 21, and the keycap concave die 3 can move along the X-direction sliding groove 21 based on the T-shaped sliding piece 32.

The key cap female die 3 is used for accommodating the key cap to be displaced at the upper end, and the lower end is provided with a T-shaped sliding piece 32 used for sliding. The T-shaped sliding piece 32 is arranged in the X-direction sliding groove 21, so that the keycap concave die 3 can move along the X direction of the X-direction sliding groove 21.

The cap groove 33 is used for accommodating the transferred keycaps to be displaced.

Further, the key cap female die 3 further comprises a second limiting connection mechanism 34 arranged on the side surface of the die main body 31, and a limiting groove 35 arranged at one end of the key cap female die 3, which is different from the second limiting connection mechanism 34;

the limiting groove 35 is matched with the second limiting connecting mechanism 34;

the key cap female die 3 can be arranged in the limit groove 35 of the adjacent key cap female die 3 through the second limit connecting mechanism 34.

Further, the limit groove 35 and the second limit connecting mechanism 34 are symmetrically arranged at two ends of the keycap female die in the 3X direction respectively.

The second limiting connecting mechanism 34 can limit the distance between the keycap concave dies 3. Specifically, the second limit connecting mechanism 34 may be integrally formed with the die main body 31, or may be a split design. A stopper groove 35 is formed on the other side of the die main body 31 symmetrical to the second stopper link mechanism 34, and extends laterally from the die main body 31. The second limit connecting mechanism 34 can be arranged in the limit groove 35 of the adjacent keycap concave die 3.

As described above, the second limiting connection mechanism 34 may be a T-shaped structure, and may include an extension section and a transverse section that are connected to each other, and the transverse section is clamped into the limiting groove 35 to realize connection, and the length of the extension section of the T-shaped structure thereof realizes the range of the moving distance that limits the distance between the key cap concave die 3 and the adjacent key cap concave die 3.

In the description herein, references to the description of the terms "one embodiment," "some embodiments," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is a more detailed description of the present invention that is presented in conjunction with specific embodiments, and it is not to be understood that the specific embodiments of the present invention are limited to these descriptions. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement.

Claims (9)

1. The utility model provides a key cap displacement tool for will shift through shifting the tool and come treat that carry out interval displacement adjustment between the displacement key cap, its characterized in that includes:

the displacement mechanism is arranged on the base plate and is provided with a Y-direction slide rail;

the displacement mechanism is connected with the base plate through a Y-direction slide rail and can move along the Y-direction slide rail in the Y direction; the displacement mechanism is provided with an X-direction sliding groove perpendicular to the Y-direction sliding rail;

the keycap displacement jig is internally provided with a plurality of keycap concave dies corresponding to the keycaps to be displaced, and each keycap concave die is matched with the X-direction sliding groove and can move along the X direction of the X-direction sliding groove;

the displacement power device comprises a Y-direction power displacement part and an X-direction power displacement part; wherein the content of the first and second substances,

the Y-direction power displacement part is connected with the displacement mechanism and is used for enabling the displacement mechanism to move along the Y-direction slide rail; the X-direction power displacement part is connected with the key cap female die and used for enabling the key cap female die to move along the X-direction groove of the displacement mechanism.

2. The key cap displacement jig of claim 1,

the displacement mechanism is arranged at the upper end of the substrate through the Y-direction slide rail;

the X-direction sliding groove is arranged at the upper end of the displacement mechanism; and the keycap concave die is arranged at the upper end of the displacement mechanism through the X-direction sliding groove.

3. The key cap displacement jig of claim 1,

the displacement mechanism comprises an outer displacement unit connected with the Y-direction power displacement part, an inner displacement unit far away from the outer displacement unit, a plurality of linear displacement units arranged between the outer displacement unit and the inner displacement unit, and a plurality of first limiting connection mechanisms arranged among the inner displacement unit, the linear displacement units and the outer displacement unit;

wherein the outer displacement unit, the inner displacement unit and the linear displacement unit are all arranged in parallel in the X direction;

the first limiting connection mechanism can limit the relative distance among the outer displacement unit, the inner displacement unit and the linear displacement unit.

4. The key cap displacement jig of claim 3,

the first limit connecting mechanism comprises a limit stop and an extending part connected with the limit stop;

a limit accommodating groove matched with the limit stop block in size is formed in the linear displacement unit; the limiting accommodating groove is provided with a notch for placing the extending part;

first spacing coupling mechanism passes through extension one end links firmly in a linear displacement unit, and the limit stop that this extension other end is connected can pass through adjacent linear coupling mechanism is arranged in to the notch in the spacing storage tank, so that first spacing coupling mechanism follows when Y removes to the slide rail, through the limit stop butt in the notch restriction of spacing storage tank the distance scope of the removal of linear displacement unit.

5. The key cap displacement jig of claim 4,

the extension part of the first limit connecting mechanism and the limit stop block form a first limit connecting mechanism with a T-shaped structure; the width of the longest edge of the limit stop is larger than the width of the extension part, so that the limit stop can be abutted to the inside of the limit accommodating groove through the notch.

6. The key cap displacement jig of claim 4,

the length of the extension part is matched with the original distance between the keycaps to be displaced in the transfer jig, so that the original distance between the keycaps to be displaced is adjusted within the length range of the extension part in the keycap displacement jig.

7. The key cap displacement jig of claim 2,

the key cap female die comprises a die main body, a T-shaped sliding piece arranged at the lower end of the die main body and a cap groove arranged on the die main body and used for containing the key cap to be displaced;

the T-shaped sliding piece is matched with the X-direction sliding groove, and the keycap concave die can move along the X-direction sliding groove based on the T-shaped sliding piece.

8. The key cap displacement jig of claim 7,

the key cap female die also comprises a second limiting connecting mechanism arranged on the side surface of the die body and a limiting groove arranged at one end of the key cap female die, which is different from the second limiting connecting mechanism;

the limiting groove is matched with the second limiting connecting mechanism;

the key cap female die can be arranged in the limit groove of the adjacent key cap female die through the second limit connecting mechanism.

9. The key cap displacement jig of claim 8,

the limiting groove and the second limiting connecting mechanism are symmetrically arranged at two X-direction ends of the keycap female die respectively.

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