CN213660249U - Spliced button structure and programming learning board applying same - Google Patents

Abstract

The utility model discloses a concatenation formula button structure, including button housing, include: the button cap is arranged outside the button shell, and a clamping groove is formed in the center of the button cap; the connecting bracket is arranged in the button shell, penetrates through the button shell, is detachably connected with the button cap, and comprises a first splicing block and a second splicing block which are mutually clamped; the inserting part is arranged at the top of the connecting support, is formed by splicing the first splicing block and the second splicing block and penetrates through the button shell to be inserted into the clamping groove; and the button electronic element is arranged below the connecting bracket and is abutted against the bottoms of the first splicing block and/or the second splicing block. The utility model has the advantages of simple structure, connect stably, the dismouting is convenient, it is unstable to have solved traditional button structure effectively, damages easily, and interesting and object for appreciation nature low problem is still disclosed a programming study board of using this concatenation formula button structure.

Description

Spliced button structure and programming learning board applying same

Technical Field

The utility model relates to a button technical field especially relates to a programming study board of concatenation formula button structure and applied this structure.

Background

With the continuous development and innovation of the industry, the button is widely applied to different electronic products as an adopted control element, so as to achieve the effects of controlling the on/off and function switching of the electronic products.

Traditional button structure is mainly that the circular sleeve pipe that the diameter is big cup joints on the circular sleeve pipe that the diameter is little through the diameter, realizes being connected of button and button support, and connection structure is unstable, and long-time the use can lead to the condition of button disconnection to take place. Also, button structures lack interest and playability in the application of toy products, gaming products, or educational products.

Therefore, there is a need for a button structure with stable structure and flexible structure assembly and disassembly and a programming learning board using the same, so that when the button structure is applied to toy products, game products or education products, the interestingness and playability of the products can be improved, and the effect of assisting the user in intelligence development activities during product use is achieved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a programming study board of concatenation formula button structure and applied this structure for solve traditional button structure unstability, damage easily, and interesting and the low problem of object for appreciation nature.

In order to achieve the above object, the utility model provides a concatenation formula button structure, specific embodiment is as follows:

a tiled button structure, comprising a button housing, comprising:

the button cap is arranged outside the button shell, and a clamping groove is formed in the center of the button cap;

the connecting bracket is arranged in the button shell, penetrates through the button shell, is detachably connected with the button cap, and comprises a first splicing block and a second splicing block which are mutually clamped;

the inserting part is arranged at the top of the connecting support, is formed by splicing the first splicing block and the second splicing block and penetrates through the button shell to be inserted into the clamping groove;

and the button electronic element is arranged below the connecting bracket and is abutted against the bottoms of the first splicing block and/or the second splicing block.

At present, the traditional button structure has the condition that the connection is unstable and the disconnection can be caused after long-time use. And the connection mode that the circular sleeve pipe of minor diameter is cup jointed through the circular sleeve pipe of major diameter is when using toy product, recreation product or education class product, lacks playability and interest, can not play the interest that arouses the user, increases the effect of product attraction.

Compared with the prior art, the spliced button structure is arranged into a structure consisting of a button cap, a connecting support and a button electronic element, the connecting support is formed by mutually clamping and splicing a first splicing block and a second splicing block, and an insertion part is formed at the top of the connecting support and inserted into a clamping groove of the button cap to be connected with the button cap; the button cap is arranged outside the button shell and is convenient to operate, and the connecting bracket and the button electronic element are arranged inside the button shell and protect the splicing structure of the button cap from being damaged by the outside; the button electronic element is abutted against the first splicing block and/or the second splicing block, so that the button cap can be pressed, and the operations of opening, closing or switching functions of a product and the like controlled by the button are realized; simple structure, the design cost is low, assembles in a flexible way, can increase the object for appreciation nature and the interest of button, when using toy product, recreation product or education class product, can let child's manual installation, has the help of certain degree to child's intellectual development and manual ability. The problems that the traditional button is unstable in structure, easy to damage, and low in interestingness and playability are effectively solved.

As a further improvement of the present invention, the first splicing block includes a first splicing section, a first splicing section and a first connecting section, the first connecting section is disposed between the first splicing section and the first splicing section, and is respectively connected to the first splicing section and the first splicing section; the second splicing block comprises a second splicing section, a second splicing section and a second connecting section, and the second connecting section is arranged between the second splicing section and is respectively connected with the second splicing section and the second splicing section.

Further, be equipped with first splice groove on the first splice section, be equipped with the second splice groove on the second splice section, work as during first splice piece and second splice piece joint, first splice groove card is gone into in the second splice groove, with second splice groove interference fit, the cell wall centre gripping of second splice groove first splice section and first connection section, the cell wall centre gripping of first splice groove second splice section and second connection section hold in, make first splice piece and second splice piece amalgamation become to be "ten" font setting the linking bridge.

Furthermore, the junction of the first plug section and the first connecting section is provided with a first limit step, the junction of the second plug section and the second connecting section is provided with a second limit step, when the first splicing block and the second splicing block are clamped, the first plug section and the second plug section form the cross-shaped plug part which is inserted into the clamping groove and is in interference fit with the clamping groove, and the first limit step and the second limit step are abutted against the bottom of the button cap.

As a further improvement of the present invention, the button housing is provided with a through groove for the connection bracket to pass through.

Further, a gap is arranged between the through groove and the connecting support.

Furthermore, be equipped with the spacing step of third between first linkage segment and the first concatenation section, be equipped with the spacing step of fourth between second linkage segment and the second concatenation section, work as during first concatenation piece and the joint of second concatenation piece, first linkage segment and second linkage segment form the connecting portion that are "ten" font setting, connecting portion insert logical inslot, the spacing step of third and fourth contradict in button housing's bottom.

As a further improvement of the utility model, the button cap, the first splicing block and the second splicing block are all made of wood.

A programming learning board applying the splicing type button structure comprises a control handle and a learning board body, wherein the control handle is detachably connected with the learning board body, a first control chip is arranged in the control handle, the splicing type button structure is arranged on the control handle and is connected with the first control chip, and a second control chip is arranged in the learning board; when the control handle is connected with the learning board body, the first control chip is in communication connection with the second control chip.

Based on the technical scheme, the utility model discloses for prior art, following beneficial effect has:

1. all adopt interference fit's mode to connect with the connection of each part, improved the stability after the button structure is assembled, difficult production is not hard up.

2. Through setting up the clearance between the connecting portion at linking bridge and leading to the groove, make slight slope for first splice piece and second splice piece when receiving the pressing force of button cap, press button electronic component and provide the space, improve the accuracy of pressing of button, press a plurality of button electronic component's the condition emergence simultaneously when avoiding pressing.

3. The splicing direction of the button structure is set to be the same as the pressing direction of the button, and the splicing structure of the button is enabled to be more and more stable along with the use of the button.

Drawings

Fig. 1 is a first schematic structural diagram of the present invention;

FIG. 2 is a second schematic structural view of the present invention;

fig. 3 is a third schematic structural view of the present invention;

FIG. 4 is a schematic structural view of the button cap of the present invention;

fig. 5 is a schematic structural view of the connecting bracket of the present invention;

fig. 6 is an exploded view of the connecting bracket of the present invention;

fig. 7 is a schematic view of a partial structure of the button housing of the present invention;

fig. 8 is a schematic structural diagram of a programming learning board of the present invention;

fig. 9 is an exploded view of the programming learning board of the present invention.

Detailed Description

The utility model discloses a programming study board of concatenation formula button structure and applied this structure is explained in combination with the figure, wherein, the structural diagram of button casing only serves as the reference when explaining.

The utility model discloses a concrete embodiment 1:

as shown in fig. 1 and fig. 4-7, the split button structure includes a button cap 1 disposed outside a button housing 10, a connecting bracket 2 and a button electronic element 3 disposed inside the button housing 10, wherein the button cap 1 and the connecting bracket 2 are detachably connected, the button electronic element 3 is disposed on a control circuit board, and the top of the button electronic element abuts against the bottom of the connecting bracket 2.

The top of the connecting support 2 is provided with an inserting portion 20, the button cap 1 is provided with a clamping groove 11, and the inserting portion 20 of the connecting support 2 penetrates through the button shell 10 to be inserted into the clamping groove 11 and is in interference fit with the clamping groove 11, so that the connection stability is improved.

Specifically, the clamping groove 11 is a cross-shaped groove, and the inserting portion 20 is arranged in a cross shape.

Specifically, a through groove 101 is formed in the button housing 10, and the insertion part 20 penetrates through the through groove 101 to be inserted into the clamping groove 11.

Furthermore, the connecting bracket 2 is provided with a connecting part 4 inserted into the through groove 101.

The connecting bracket 2 is formed by splicing a first splicing block 21 and a second splicing block 22, and is arranged in a cross shape.

Wherein, be equipped with the clearance between connecting portion 4 and the logical groove 101, for first splice 21 and second splice 22 make slight slope when receiving the pressing force of button cap 1, press button electronic component 3 and provide the space, improve the accuracy of pressing of button, the condition of pressing a plurality of button electronic component 3 when avoiding pressing simultaneously takes place.

Specifically, the first splicing block 21 includes a first splicing section 211, a first splicing section 212 and a first connection section 213, and the first connection section 213 is disposed between the first splicing section 211 and the first splicing section 212 and is respectively connected to the first splicing section 211 and the first splicing section 212.

Specifically, the second splicing block 22 includes a second splicing section 221, a second splicing section 222 and a second connection section 223, and the second connection section 223 is disposed between the second splicing section 221 and the second splicing section 222 and is respectively connected to the second splicing section 221 and the second splicing section 222.

The first inserting section 211 and the second inserting section 221 form the inserting portion 20 when the first splicing block 21 and the second splicing block 22 are spliced to form the connecting bracket 2.

Specifically, a first limit step 215 is arranged at the joint of the first plugging section 211 and the first connection section 213, and a second limit step 225 is arranged at the joint of the second plugging section 221 and the second connection section 223; when the inserting part 20 is inserted into the engaging groove 11, the bottom of the button cap 1 abuts against the tops of the first and second limiting steps 215 and 225.

The first connecting segment 213 and the second connecting segment 223 form the connecting part 4 when the first splicing block 21 and the second splicing block 22 are spliced to form the connecting bracket 2.

Further, the through groove 101 is a cross-shaped groove, and the connecting portion 4 is arranged in a cross shape.

Specifically, a third limit step 216 is arranged between the first connecting section 213 and the first splicing section 212, and a fourth limit step 226 is arranged between the second connecting section 223 and the second splicing section 222; when the connecting portion 4 is inserted into the through slot 101, the inner wall of the button housing 10 abuts against the tops of the third and fourth limiting steps 216 and 226.

The first splicing groove 214 is formed in the first splicing section 212, the second splicing groove 224 is formed in the second splicing section 211, when the first splicing block 21 and the second splicing block 22 are spliced to form the connecting support 2, the first splicing groove 214 is clamped in the second splicing groove 224 and is in interference fit with the second splicing groove 224, the groove wall of the second splicing groove 224 clamps the first splicing section 211 and the first connecting section 213, and the groove wall of the first splicing groove 214 clamps the second splicing section 222 and the second connecting section 223, so that the first splicing block 21 and the second splicing block 22 are spliced to form the connecting support 2 in a cross shape.

Wherein the top of the button electronic component 3 abuts against the central area when the first and second splicing blocks 21 and 22 are spliced.

The button cap 1, the first splicing block 21 and the second splicing block 22 are made of wood, so that the button cap is economical and environment-friendly.

Wherein, the button housing 10 is made of wood.

Wherein, the concatenation direction of the button of this embodiment all is the same with the direction of pressing of button, along with the use of button, can make the mosaic structure of button more and more firm.

The utility model discloses a concrete embodiment 2:

as shown in fig. 2-3, the split button structure includes a button cap 1 disposed outside a button housing 10, a connecting bracket 2 disposed inside the button housing 10, and a button electronic element 3, wherein the button cap 1 and the connecting bracket 2 are detachably connected, the button electronic element 3 is disposed on a control circuit board, and the top of the button electronic element abuts against the bottom of the connecting bracket 2.

The connecting bracket 2 is formed by splicing a first splicing block 21 and a second splicing block 22, and the button electronic elements 3 are provided in plurality.

The button electronic component 3 of the present embodiment has a plurality of setting modes according to the use requirement, specifically as follows:

firstly, the button electronic component 3 is arranged below two ends of the first splicing block 21, and the top of the button electronic component 3 is abutted against the bottom of the first splicing block 21.

Secondly, the button electronic element 3 is arranged below two ends of the second splicing block 22, and the top of the button electronic element 3 is abutted against the bottom of the second splicing block 22.

Thirdly, the button electronic element 3 is respectively arranged below two ends of the first splicing block 21 and the second splicing block 22, and the top of the button electronic element 3 positioned below the first splicing block 21 and the second splicing block 22 is respectively abutted against the bottoms of the first splicing block 21 and the second splicing block 22.

Fourthly, the button electronic element 3 is respectively arranged below two ends of the first splicing block 21 and the second splicing block 22 and at the center of the connecting bracket 2, and the button electronic element 3 is abutted to the bottom of the connecting bracket 2.

The utility model discloses a concrete embodiment 3:

as shown in fig. 8 to 9, the programming learning board further includes a programming learning board applying the splicing type button structure in embodiment 1 or embodiment 2, the programming learning board includes a control handle 5 and a learning board body 6, the control handle 5 is detachably connected to the learning board body 6, and the splicing type button structure is disposed on the control handle 5.

Wherein, be equipped with first control chip in the brake valve lever 5, be equipped with second control chip on the study board body 6, concatenation formula button structure in first control chip connects.

The control handle 5 is provided with a first communication interface, and the learning board body 6 is provided with a second communication interface.

Specifically, when the control handle 5 with when learning board body 6 is connected, first communication interface and second communication interface connection make first control chip and second control chip communication connection will the control information that concatenation formula button structure pressed transmits the second control chip, shows on this body 6 of learning.

The control handle 5 is provided with a self-resetting buckle structure 7, the learning board body 6 is provided with a groove body matched with the self-resetting buckle structure 7, and when the control handle 5 is connected with the learning board body 6, the self-resetting buckle structure 7 is clamped into the groove body of the learning board body 6.

The utility model discloses a programming study board of concatenation formula button structure and applied this structure has simple structure, connects stably, and the convenient advantage of dismouting has solved traditional button structure unstability effectively, damages easily, and interesting and the low problem of object for appreciation nature.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (9)

1. A tiled button arrangement comprising a button housing (10), comprising:

the button cap (1) is arranged outside the button shell (10), and a clamping groove (11) is formed in the center of the button cap;

the connecting bracket (2) is arranged in the button shell (10), penetrates through the button shell (10) to be detachably connected with the button cap (1), and comprises a first splicing block (21) and a second splicing block (22) which are mutually clamped;

the inserting part (20) is arranged at the top of the connecting bracket (2), is formed by splicing the first splicing block (21) and the second splicing block (22), and penetrates through the button shell (10) to be inserted into the clamping groove (11);

and the button electronic element (3) is arranged below the connecting bracket (2) and is abutted against the bottom of the first splicing block (21) and/or the second splicing block (22).

2. The tiled button arrangement according to claim 1, wherein the first tile (21) comprises a first plug section (211), a first tiled section (212) and a first connection section (213), the first connection section (213) being arranged between the first plug section (211) and the first tiled section (212) for connection with the first plug section (211) and the first tiled section (212), respectively; the second splicing block (22) comprises a second splicing section (221), a second splicing section (222) and a second connecting section (223), wherein the second connecting section (223) is arranged between the second splicing section (221) and the second splicing section (222) and is respectively connected with the second splicing section (221) and the second splicing section (222).

3. The spliced button structure according to claim 2, wherein a first splicing groove (214) is formed in the first splicing section (212), a second splicing groove (224) is formed in the second splicing section (221), when the first splicing block (21) and the second splicing block (22) are clamped, the first splicing groove (214) is clamped in the second splicing groove (224) and is in interference fit with the second splicing groove (224), the groove wall of the second splicing groove (224) clamps the first splicing section (211) and the first connecting section (213), and the groove wall of the first splicing groove (214) clamps the second splicing section (222) and the second connecting section (223) are accommodated in the groove, so that the first splicing block (21) and the second splicing block (22) are spliced to form the connecting bracket (2) in a cross-shaped arrangement.

4. The spliced button structure according to claim 3, wherein a first limit step (215) is arranged at the joint of the first plug section (211) and the first connecting section (213), a second limit step (225) is arranged at the joint of the second plug section (221) and the second connecting section (223), when the first splicing block (21) and the second splicing block (22) are spliced, the first plug section (211) and the second plug section (221) form the cross-shaped plug-in part (20) which is inserted into the clamping groove (11) and is in interference fit with the clamping groove (11), and the first limit step (215) and the second limit step (225) are abutted against the bottom of the button cap (1).

5. The tiled push-button arrangement according to claim 2, wherein the push-button housing (10) is provided with a through-slot (101) for the connection bracket (2) to pass through.

6. The tiled push-button arrangement according to claim 5, wherein a gap is provided between the through slot (101) and the connecting bracket (2).

7. The spliced button structure according to claim 5, wherein a third limiting step (216) is arranged between the first connecting section (213) and the first splicing section (212), a fourth limiting step (226) is arranged between the second connecting section (223) and the second splicing section (222), when the first splicing block (21) and the second splicing block (22) are clamped, the first connecting section (213) and the second connecting section (223) form a connecting part (4) which is arranged in a cross shape, the connecting part (4) is inserted into the through groove (101), and the third limiting step (216) and the fourth limiting step (226) are abutted to the bottom of the button shell (10).

8. The tiled push button structure according to claim 1, wherein the push button cap (1), the first tile (21) and the second tile (22) are made of wood.

9. A programming learning board applying the spliced button structure of any one of claims 1-8, which is characterized by comprising a control handle (5) and a learning board body (6), wherein the control handle (5) is detachably connected with the learning board body (6), a first control chip is arranged in the control handle (5), the spliced button structure is arranged on the control handle (5) and is connected with the first control chip, and a second control chip is arranged in the learning board body (6); when the control handle (5) is connected with the learning board body (6), the first control chip is in communication connection with the second control chip.

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