JP7485880B1 - Connection structure - Google Patents

Abstract

[Problem] To provide a connection structure that can contribute to simplifying the structure. [Solution] A connection structure 100 includes a fixed seat 1 having a dome portion 11 in which a through hole 14 is formed, a first movable seat 2 having a first movable seat main body 21 housed inside the dome portion 11, and a second movable seat 3 having a second movable seat main body 31 connected to the first movable seat 2 and provided on the outer surface of the dome portion 11, with the first movable seat 2 or the second movable seat 3 being inserted into the through hole 14, and a damper mechanism 5 being provided between the first movable seat main body 21 or the second movable seat main body 31 and the dome portion 11. [Selected Figure] Figure 3

Description

The present invention relates to a connection structure.

Patent Document 1 discloses a stand that includes a base assembly and a connecting assembly.

JP 2022-546599 A

However, in the invention described in Patent Document 1, the base assembly and the connecting assembly are each composed of multiple parts, and therefore cannot fully contribute to simplifying the configuration of the stand.

Therefore, the present invention was made in consideration of these circumstances, and aims to provide a connection structure that can contribute to simplifying the configuration.

According to an aspect of the present invention, a connection structure is provided that includes a fixed seat having a dome portion and a through hole formed in the dome portion, a first movable seat having a first movable seat body housed inside the dome portion, and a second movable seat having a second movable seat body connected to the first movable seat and provided on the outer surface of the dome portion, in which the first movable seat or the second movable seat is inserted into the through hole, and a damper mechanism is provided between the first movable seat body or the second movable seat body and the dome portion.

According to this aspect of the present invention, it is possible to provide a connection structure that contributes to simplifying the configuration.

FIG. 1 is a front perspective view showing a stand according to the present embodiment. FIG. 2 is a rear perspective view showing the stand according to the present embodiment. FIG. 3 is a cross-sectional view showing the stand according to the present embodiment. FIG. 4 is a first exploded view showing the configuration of the stand according to the present embodiment. FIG. 5 is a second exploded view showing the configuration of the stand according to the present embodiment. FIG. 6 is an explanatory diagram showing a state in which the stand is attached to a wall or the like.

Below, a mode for carrying out the present invention (hereinafter referred to as an embodiment) will be described with reference to the attached drawings. Note that in this specification, the same elements are given the same reference numerals throughout.

Next, the stand 100 as the connection structure according to this embodiment will be described with reference to Figures 1 to 6.

Figure 1 is a front perspective view of the stand 100 according to this embodiment. Figure 2 is a rear perspective view of the stand 100 according to this embodiment. Figure 3 is a cross-sectional view of the stand 100 according to this embodiment. Figure 4 is a first exploded view showing the configuration of the stand 100 according to this embodiment. Figure 5 is a second exploded view showing the configuration of the stand 100 according to this embodiment. Figure 6 is an explanatory diagram showing the state in which the stand 100 is attached to a wall or the like.

As shown in Figs. 1 to 6, the stand 100 includes a fixed base 1, a first movable base 2, a second movable base 3, a screw 4 as a connecting member (i.e., a first screw member), a damper mechanism 5, a magnet mechanism 6, and a bolt 7 as a second screw member. The stand 100 is supported by a wall or a mirror, etc., and holds the smart terminal or tablet terminal by suction. Specifically, the smart terminal or tablet terminal is held by the stand 100 so that it can rotate in the roll direction, rotate in the pitch direction (i.e., swing), and rotate in the yaw direction (i.e., swing).

The fixed seat 1 has a hollow dome portion 11, an annular (specifically, annular) positioning portion 12 provided around the entire circumference of the outer periphery of the dome portion 11, a roughly hemispherical storage chamber 13 formed inside the dome portion 11, a circular through-hole 14 formed at the top of the dome portion 11 so as to penetrate the dome portion 11 along the thickness direction, and an annular (specifically, annular) adhesive layer 15 provided on the back surface of both the dome portion 11 and the positioning portion 12. The positioning portion 12 is inclined with respect to the back surface so that the front surface rises from the inner periphery side toward the outer periphery side in a cross-sectional view. The fixed seat 1 is supported (fixed) to a wall or mirror by the adhesive layer 15.

The first movable seat 2 has a solid, roughly hemispherical first movable seat body 21 accommodated inside the dome portion 11 (i.e., the accommodation chamber 13), a ring-shaped (specifically, annular) first accommodation groove 22 formed on the outer surface of the first movable seat body 21 facing the inner surface of the dome portion 11, a columnar (specifically, cylindrical) positioning protrusion 23 protruding from the outer outer surface of the top of the first movable seat body 21 and inserted into the through hole 14, and a screw hole 24 formed as a screw hole in both the first movable seat body 21 and the positioning protrusion 23 so as to penetrate both the first movable seat body 21 and the positioning protrusion 23 along the axial direction.

The second movable seat 3 is connected to the first movable seat 2 via a screw 4. The second movable seat 3 also has a second movable seat main body 31 provided on the outer surface of the dome portion 11, a second annular (specifically, annular) accommodating groove 32 formed on the inner surface of the second movable seat main body 31 facing the outer surface of the dome portion 11, a substantially hemispherical recess 33 formed on the inside of the second movable seat main body 31, an accommodating hole 34 formed on the central outer surface (i.e., the front surface) of the second movable seat main body 31 so as to accommodate the head of the screw 4, a positioning recess 35 formed on the central inner surface of the second movable seat main body 31 so as to communicate with the accommodating hole 34, a ring-shaped (specifically, annular) positioned portion 36 provided on the outer periphery of the outer periphery of the second movable seat main body 31, a ring-shaped (specifically, annular) mounting groove 37 formed on the front surface of the positioned portion 36, and a plate-shaped (specifically, disc-shaped) durable layer 38 provided on the front surfaces of both the second movable seat main body 31 and the positioned portion 36 so as to cover the front surfaces of both the second movable seat main body 31 and the positioned portion 36. The positioned portion 36 is inclined with respect to the back surface so that the back surface (i.e., the surface facing the positioning portion 12) rises from the outer periphery toward the inner periphery in a cross-sectional view.

The screw 4 passes through the second movable seat body 31 and the through hole 14 and screws into the screw hole 24 of the first movable seat 2 (specifically, the first movable seat body 21 and the positioning protrusion 23). When the first movable seat 2 and the second movable seat 3 are connected by the screw 4, a gap 8 is formed between the first movable seat body 21 and the second movable seat body 31, sandwiching the dome portion 11.

In this state, the head of the screw 4 is accommodated in the accommodation hole 34, and the positioning protrusion 23 is inserted into the positioning recess 35. When the screw 4 is screwed into the screw hole 24 so that the tip of the positioning protrusion 23 abuts against the bottom surface of the positioning recess 35, the gap 8 formed between the first movable seat body 21 and the second movable seat body 31 is minimized.

In addition, in this state, the second movable seat 3 can rotate in the pitch direction and the yaw direction (i.e., swing) integrally with the first movable seat 2 relative to the fixed seat 1 until the positioning portion 12 abuts against the positioned portion 36. This allows the range of swing (i.e., swing angle) of the first movable seat 2 and the second movable seat 3 relative to the fixed seat 1 to be restricted by the abutment of the positioning portion 12 with the positioned portion 36. In this embodiment, the swing angle a is 0° to 10°.

In this embodiment, the first movable seat 2 and the second movable seat 3 are connected by a screw 4, but this is not limited thereto, and for example, they may be connected without the screw 4. In this case, the second movable seat 3 has a male thread that protrudes from the inner surface and screws into the screw hole 24.

In addition, in this embodiment, the second movable seat 3 is configured to be able to swing relative to the fixed seat 1 together with the first movable seat 2 until the positioning portion 12 and the positioned portion 36 come into contact, but this is not limited thereto, and for example, the second movable seat 3 may be configured to be able to swing relative to the fixed seat 1 together with the first movable seat 2 until the positioning protrusion 23 and the through hole 14 come into contact. In this case, the positioning portion 12 and the positioned portion 36 do not need to be provided.

The damper mechanism 5 is provided between the first movable seat body 21 and the dome portion 11, and between the second movable seat body 31 and the dome portion 11. As a result, the damper mechanism 5 can prevent the first movable seat body 21 or the second movable seat body 31 from sliding against the dome portion 11 when adjusting the position of the stand 100, and can facilitate the positioning of the second movable seat 3 (first movable seat 2) relative to the fixed seat 1 when the position adjustment of the stand 100 is completed.

The damper mechanism 5 is configured with a first damper ring 51 and a second damper ring 52. The first damper ring 51 is accommodated in the first accommodation groove 22 so as to protrude from the outer surface of the first movable seat body 21 and elastically abut against the inner surface of the dome portion 11, and similarly, the second damper ring 52 is accommodated in the second accommodation groove 32 so as to protrude from the inner surface of the second movable seat body 31 and elastically abut against the outer surface of the dome portion 11. As a result, the first damper ring 51 can position the first movable seat 2 relative to the dome portion 11 after the position adjustment of the first movable seat 2 relative to the dome portion 11 is completed, and the second damper ring 52 can position the second movable seat 3 relative to the dome portion 11 after the position adjustment of the second movable seat 3 relative to the dome portion 11 is completed.

In this embodiment, the damper mechanism 5 is configured to have both a first damper ring 51 and a second damper ring 52, but is not limited to this and may be configured, for example, to have only one of the first damper ring 51 and the second damper ring 52.

In addition, in this embodiment, the first and second accommodating grooves 22 and 32 that accommodate the first and second damper rings 51 and 52, respectively, are formed in the first and second movable seat body 21 and 31, respectively, but are not limited to this and may be formed, for example, on both the inner and outer surfaces of the dome portion 11.

The magnet mechanism 6 attracts the smart terminal or tablet terminal to the second movable seat 3. The magnet mechanism 6 is attached to the mounting groove 37. Specifically, the magnet mechanism 6 has a C-shaped iron piece 61 adhered to the bottom surface of the mounting groove 37, and a plurality of arc-shaped magnets 62 attracted to the iron piece 61. The durable layer 38 is provided on the front side of the second movable seat 3 so as to cover the magnet mechanism 6.

The bolt 7 is screwed into the threaded hole 24. The bolt 7 can adjust the size of the gap 8 by regulating the amount that the screw 4 is screwed into the threaded hole 24. This makes it possible to adjust the frictional force of the first damper ring 51 and the second damper ring 52 against the dome portion 11. As a result, malfunctions in the operation of the stand 100 caused by manufacturing precision of each component that constitutes the stand 100 can be suppressed.

Specifically, when the bolt 27 is located on the second movable seat body 31 side, the screw 4 is screwed into the screw hole 24 by a smaller amount, and the gap 8 is larger, so that the frictional force between the first damper ring 51 and the second damper ring 52 and the dome portion 11 is smaller. On the other hand, when the bolt 27 is located on the opposite side from the second movable seat body 31 side, the screw 4 is screwed into the screw hole 24 by a larger amount, and the gap 8 is smaller, so that the frictional force between the first damper ring 51 and the second damper ring 52 and the dome portion 11 is larger.

Next, we will explain the effects of this embodiment.

The stand 100 according to this embodiment comprises a fixed seat 1 having a dome portion 11 in which a through hole 14 is formed, a first movable seat 2 having a first movable seat body 21 housed inside the dome portion 11, and a second movable seat 3 having a second movable seat body 31 connected to the first movable seat 2 and provided on the outer surface of the dome portion 11, and the first movable seat 2 (specifically, the positioning protrusion 23) is inserted into the through hole 14, and a damper mechanism 5 is provided between the first movable seat body 21 and the second movable seat body 31 and the dome portion 11.

This configuration reduces the number of parts that make up the stand 100, which contributes to simplifying the configuration of the stand 100.

In addition, a damper mechanism 5 is provided between the first and second movable seat bodies 21 and 31 and the dome portion 11. This damper mechanism 5 prevents the first and second movable seat bodies 21 and 31 from sliding against the dome portion 11 when adjusting the position of the stand 100, and facilitates the positioning of the first and second movable seats 2 and 3 relative to the fixed seat 1 when the position adjustment of the stand 100 is completed.

In addition, in this embodiment, a first annular accommodating groove 22 is formed on the outer surface of the first movable seat body 21 that faces the inner surface of the dome portion 11, and a first damper ring 51 that protrudes from the outer surface of the first movable seat body 21 and elastically abuts against the inner surface of the dome portion 11 is accommodated in the first accommodating groove 22, and the first damper ring 51 constitutes the damper mechanism 5.

With this configuration, the first damper ring 51 can position the first movable seat 2 relative to the dome portion 11 after completing the position adjustment of the first movable seat 2 relative to the dome portion 11.

In addition, in this embodiment, an annular second accommodating groove 32 is formed on the inner surface of the second movable seat body 31 that faces the outer surface of the dome portion 11, and the second accommodating groove 32 accommodates a second damper ring 52 that protrudes from the inner surface of the second movable seat body 31 and elastically abuts against the outer surface of the dome portion 11, and the second damper ring 52 constitutes the damper mechanism 5.

With this configuration, the second damper ring 52 can position the second movable seat 3 relative to the dome portion 11 after the position adjustment of the second movable seat 3 relative to the dome portion 11 is completed.

In addition, in this embodiment, the fixed seat 1 further has an annular positioning portion 12 provided on the outer periphery of the dome portion 11, and the second movable seat 3 further has an annular positioned portion 36 provided on the outer periphery of the second movable seat main body 31, and the second movable seat 3 can swing integrally with the first movable seat 2 relative to the fixed seat 1 until the positioning portion 12 and the positioned portion 36 come into contact.

With this configuration, the range of oscillation (i.e., the oscillation angle) of the first movable seat 2 and the second movable seat 3 relative to the fixed seat 1 can be restricted by the abutment of the positioning portion 12 and the positioned portion 36.

In addition, in this embodiment, the stand 100 further includes a screw 4 that passes through the second movable seat body 31 and the through hole 14 to connect the first movable seat 2 and the second movable seat 3 so that a gap 8 is formed between the first movable seat body 21 and the second movable seat body 31 to sandwich the dome portion 11.

In addition, in this embodiment, the screw 4 passes through the second movable seat body 31 and screws into the first movable seat 2.

With these configurations, the first movable seat 2 and the second movable seat 3 can be easily connected using the screw 4.

In addition, in this embodiment, a positioning recess 35 is formed on the inner surface of the second movable seat body 31, and the first movable seat 2 further has a positioning protrusion 23 that protrudes from the outer surface of the first movable seat body 21 to the inner surface of the second movable seat body 31, and the screw 4 penetrates and screws into the positioning protrusion 23, which penetrates the through hole 14 and is inserted into the positioning recess 35.

With this configuration, when the screw 4 is screwed into the screw hole 24 so that the tip of the positioning protrusion 23 abuts against the bottom surface of the positioning recess 35, the gap 8 formed between the first movable seat body 21 and the second movable seat body 31 is minimized.

In addition, in this embodiment, the positioning protrusion 23 and the first movable seat body 21 are formed with a screw hole 24 that penetrates both of them, and the screw 4 and the bolt 7 are screwed into the screw hole 24, and the bolt 7 adjusts the size of the gap 8 by regulating the amount that the screw 4 is screwed into the screw hole 24.

This configuration allows the frictional force of the first damper ring 51 and the second damper ring 52 against the dome portion 11 to be adjusted. As a result, malfunctions in the operation of the stand 100 caused by manufacturing precision of each component that constitutes the stand 100 can be suppressed.

Although the embodiments of the present invention have been described above, the above embodiments merely show some of the application examples of the present invention, and are not intended to limit the technical scope of the present invention to the specific configurations of the above embodiments.

REFERENCE SIGNS LIST 1 Fixed seat 2 First movable seat 3 Second movable seat 5 Damper mechanism 11 Dome portion 14 Through hole 21 First movable seat main body 31 Second movable seat main body 100 Stand

Claims (7)

a fixed seat having a dome portion and a through hole formed in the dome portion; a first movable seat having a first movable seat body housed inside the dome portion; and a second movable seat having a second movable seat body connected to the first movable seat and provided on an outer surface of the dome portion, wherein the first movable seat or the second movable seat is inserted into the through hole, A damper mechanism is provided between the first movable seat body and the second movable seat body and the dome portion , the first movable seat body having a first annular accommodating groove formed on its outer surface facing the inner surface of the dome portion, and the first accommodating groove accommodates a first damper ring that protrudes from the outer surface of the first movable seat body and elastically abuts against the inner surface of the dome portion, the second movable seat body having a substantially hemispherical recess formed on its inner side and a second annular accommodating groove formed on its inner surface facing the outer surface of the dome portion, and the second accommodating groove accommodates a second damper ring that protrudes from the inner surface of the second movable seat body and elastically abuts against the outer surface of the dome portion, and the first damper ring and the second damper ring form a connection structure that constitutes the damper mechanism that avoids sliding contact of the first movable seat body and the second movable seat body against the dome portion . The connection structure according to claim 1, wherein the fixed seat further has an annular positioning portion provided on the outer periphery of the dome portion, the second movable seat further has an annular positioned portion provided on the outer periphery of the second movable seat body, and the second movable seat is capable of swinging relative to the fixed seat integrally with the first movable seat until the positioning portion and the positioned portion come into contact. The connection structure according to claim 1, further comprising a connecting member that connects the first and second movable seats by penetrating the second movable seat body and the through hole so as to form a gap that sandwiches the dome portion between the first and second movable seat body. 4. The connection structure according to claim 3 , wherein the connecting member is constituted by a first screw member that penetrates the second movable seat body and screws into the first movable seat. The connection structure described in claim 4, wherein a positioning recess is formed on the inner surface of the second movable seat body, the first movable seat further has a positioning protrusion protruding from the outer surface of the first movable seat body to the inner surface of the second movable seat body, the first screwing member penetrates and screws into the positioning protrusion, and the positioning protrusion penetrates the through hole and is inserted into the positioning recess. The connection structure described in claim 5, wherein a screw hole penetrating both the positioning protrusion and the first movable seat body is formed, the first screw member and the second screw member are screwed into the screw hole, and the second screw member adjusts the size of the gap by regulating the amount that the first screw member is screwed into the screw hole. The connection structure according to claim 6 , wherein the second movable seat is capable of swinging integrally with the first movable seat relative to the fixed seat until the positioning projection comes into contact with the through hole.

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