JP2024027228A - Support equipment - Google Patents

Abstract

An object of the present invention is to provide a support that can stably fix a support part in which a receiving part is formed to a fixed part and that can be easily attached. A fixing part 1 has a first fixing surface 111 to a third fixing surface 113, a groove 101 is formed along a first axis X, and a bottom surface 102 extends from a rear side Y2 of a second axis Y. The support part 2, which has an inclined side surface 103 on the front side Y1 of the second axis Y and is inclined toward one side Z1 of the third axis Z, and is detachably attached to the fixed part 1, comes into contact with the inclined side surface 103. A first contact surface 201, a second contact surface 202 that contacts the bottom surface 102, a third contact surface 203, a fourth contact surface 204 that contacts the front fixed surface 114, a fifth contact surface 205 that contacts the second fixed surface 112, It has a sixth contact surface 206, a seventh contact surface 207, and an outer peripheral surface 222 that contact the third fixed surface 113, and the distance H between the third contact surface 203 and the seventh contact surface 207 is such that the front fixed surface 114 is inserted. Possibly, the receiving part 3 is installed on the outer circumferential surface 222 of the supporting part 2. [Selection diagram] Figure 1

Description

The present application relates to a support.

Conventional supports include a column-shaped fixed part whose shaft is held in a substantially horizontal position, a support part that is detachably attached to the fixed part from one side in a substantially horizontal direction perpendicular to the shaft, and a fixed part that is fixed to this support part. A support device having a receiving part for supporting a load, wherein a groove that is open at the top is formed along the axial direction on the upper surface of the fixing part, and the groove has a bottom surface and a receiving part that supports the load upward from the bottom surface. The groove insertion part is formed of an inclined side surface that is inclined toward the part attachment side and the other side surface that is located on the support part attachment side from the inclined side surface, and the support part has a first contact surface that can come into contact with the inclined side surface of the groove. and an outer circumferential part that is integrally formed with the groove insertion part and has a second contact surface that is continuous with the other side of the groove and can come into contact with the outer circumferential surface extending over a predetermined length in the circumferential direction of the fixing part. The part is fixed to the outer peripheral part of the support part.

Japanese Patent Application Publication No. 2006-6516

Conventional supports have a problem in that the support part may easily separate from the receiving part.

The present application discloses a technique for solving the above-mentioned problems, and provides a support that can stably fix a support part in which a receiving part is formed to a fixing part and can be easily attached. The purpose is to

The support device disclosed in this application includes:
a fixing part extending along a first axis and having a rectangular cross section perpendicular to the first axis;
a support part that is detachably attached to the fixed part from the front side of a second axis perpendicular to the first axis;
A support comprising a receiving part attached to the supporting part and supporting a load,
The fixing portion includes a first fixing surface on one side of a third axis orthogonal to the first axis and the second axis and parallel to the first axis and the second axis;
a second fixing surface that communicates with the first fixing surface and is on the front side of the second axis and parallel to the first axis and the third axis;
a third fixing surface that communicates with the second fixing surface and is on the other side of the third axis and parallel to the first axis and the second axis;
In the first fixing surface, a groove portion having an opening that leaves a part of the front fixing surface of the first fixing surface from the front side of the second shaft and is open on one side of the third shaft is provided. formed along the axis,
The groove portion has a bottom surface parallel to the first axis and the second axis;
an inclined side surface that communicates with the bottom surface and slopes from the rear side of the second shaft to the front side of the second shaft and toward one side of the third shaft;
the other side surface communicating with the bottom surface and parallel to the first axis and the third axis on the front side of the second axis;
The support part has a groove insertion part and an outer peripheral part integrally formed in communication with the groove insertion part,
The groove insertion portion has a first contact surface that comes into contact with the inclined side surface of the groove portion;
a second contact surface that communicates with the first contact surface and comes into contact with the bottom surface of the groove;
a third contact surface that communicates with the second contact surface and is parallel to the first axis and the third axis;
The outer peripheral portion has a fourth contact surface that communicates with the third contact surface, is parallel to the first axis and the second axis, and abuts the front fixing surface;
a fifth contact surface that communicates with the fourth contact surface, is parallel to the first axis and the third axis, and contacts the second fixed surface;
a sixth contact surface that communicates with the fifth contact surface, is parallel to the first axis and the second axis, and abuts the third fixed surface;
a seventh contact surface that communicates with the sixth contact surface and is parallel to the first axis and the third axis;
an outer peripheral surface forming an outer periphery from the seventh contact surface to the first contact surface of the groove insertion part,
The distance between the third contact surface and the seventh contact surface on the second axis is formed to a size that allows insertion of the front fixation surface,
The receiving portion is fixedly installed on the outer circumferential surface of the supporting portion.

According to the support disclosed in this application,
The support part in which the receiving part is formed can be stably fixed to the fixing part and can be easily attached.

FIG. 2 is a side view showing how the support device having the fixing part, the support part, and the receiving part of the first embodiment is used. FIG. 2 is a side view showing the configuration of a fixing part of the support shown in FIG. 1. FIG. FIG. 2 is a side view showing the configuration of a support portion and a receiving portion of the support shown in FIG. 1. FIG. FIG. 2 is a side view illustrating how to use the support shown in FIG. 1; FIG. 2 is a side view illustrating how to use the support shown in FIG. 1; FIG. 2 is a side view illustrating how to use the support shown in FIG. 1; FIG. 2 is a perspective view illustrating how to use the support shown in FIG. 1. FIG. FIG. 2 is a perspective view illustrating how to use the support shown in FIG. 1. FIG. FIG. 2 is a perspective view showing the structure of another receiving part of the support shown in FIG. 1; FIG. 2 is a perspective view showing the structure of another support part and a receiving part among the supports shown in FIG. 1 . FIG. 2 is a perspective view showing the structure of another support part and a receiving part among the supports shown in FIG. 1 . 2 is a side view showing the configuration of another support part and a receiving part of the support shown in FIG. 1. FIG. 2 is a side view showing the configuration of another support part and a receiving part of the support shown in FIG. 1. FIG. 14 is a side view showing the configuration of the support section and the receiving section shown in FIG. 13. FIG. 2 is a side view showing the configuration of another support part of the support shown in FIG. 1. FIG. FIG. 7 is a side view showing how a support device having a fixing part, a support part, and a receiving part according to the second embodiment is used. 17 is a side view showing the configuration of a fixing part of the support shown in FIG. 16. FIG. FIG. 17 is a side view showing the configuration of a support part and a receiving part of the support shown in FIG. 16; FIG. 17 is a perspective view showing how the support shown in FIG. 16 is used. 17 is a perspective view showing another state of use of the support shown in FIG. 16. FIG.

Embodiment 1.
FIG. 1 is a side view showing the use state of a support having a fixing part, a support part, and a receiving part according to the first embodiment. FIG. 2 is a side view showing the configuration of the fixing part of the support shown in FIG. 1. FIG. FIG. 3 is a side view showing the configuration of a support part and a receiving part of the support shown in FIG. 1. 4 to 6 are side views illustrating how to use the support shown in FIG. 1. 7 and 8 are perspective views illustrating how to use the support shown in FIG. 1.

FIG. 9 is a perspective view showing the structure of another receiving part of the support shown in FIG. 1. 10 to 12 are perspective views showing structures of other support parts and receiving parts of the support shown in FIG. 1. FIG. 13 is a side view showing the structure of another support part and a receiving part of the support shown in FIG. 1. FIG. 14 is a side view showing the structure of the support section and the receiving section shown in FIG. 13. FIG. 15 is a side view showing the structure of another fixing part of the support shown in FIG. 1.

The support 10 of each of the present embodiments is used for displaying a load such as a product. However, any load may be used, and cases other than products may also be considered. In the following description, each direction in the support 10 is defined as a first axis X extending in the depth direction of the paper, a second axis Y extending in the left-right direction of the paper orthogonal to the first axis X, as shown in FIG. The front side Y1 of the second axis Y (hereinafter sometimes abbreviated as front side Y1), the rear side Y2 of the second axis Y (hereinafter sometimes abbreviated as rear side Y2), A third axis Z extends vertically in the paper plane perpendicularly to the first axis The other side Z2 (hereinafter may be abbreviated as the other side Z2). Therefore, these directions are the same in each part constituting the support 10, and each direction will be shown and explained based on this direction.

In the first embodiment, as shown in each figure, the first axis X and the second axis Y are installed in the horizontal direction, the third axis Z is installed in the vertical direction, and the third axis A case will be described in which the 1 fixed surface 111 is installed on the lower side in the vertical direction.

As shown in FIG. 1, the support 10 is made of metal, for example, an extruded aluminum material. The support 10 includes a fixing part 1, a support part 2, and a receiving part 3. The fixed part 1 is fixed to a structure 5 such as a wall surface. A flange portion 4 for installation on a structure 5 is connected to the fixed portion 1. The fixing part 1 is fixed to the structure 5 via the flange part 4 with screws 8. Furthermore, a decorative board 6 is installed on the front side Y1 of the flange portion 4 so that the structure 5 and the like are not visible.

As shown in FIG. 2, the fixing part 1 extends along a first axis is formed in a rectangular shape. However, the rectangular shape includes a substantially rectangular shape, and naturally also includes a case where the corners are rounded. In addition, in each figure of other structures, similarly to the fixing part 1, for convenience, the shape is shown without being rounded.

The fixing part 1 communicates with a first fixing surface 111 that is on one side Z1 of the third axis Z and is parallel to the first axis X and the second axis Y. A second fixing surface 112 that is on the front side Y1 and is parallel to the first axis X and the third axis Z; and a third fixed surface 113 parallel to the second axis Y. A flange portion 4 is formed to be connected to a fourth fixing surface 114 that communicates with the first fixing surface 111 and the third fixing surface 113 and is parallel to the first axis X and the third axis Z.

The fixing part 1 has a first fixing surface 111, a second fixing surface 112, a third fixing surface 113, and a fourth fixing surface 114, and has a rectangular cross section cut along the second axis Y and the third axis Z. It is done in shape. In the first embodiment, the lengths of the first fixing surface 111 and the third fixing surface 113 in the second axis Y direction are the same as the lengths of the second fixing surface 112 and the fourth fixing surface 114 in the third axis Z direction. Although an example of a rectangular shape formed longer than the length has been shown, it goes without saying that the length of the first fixed surface 111 and the third fixed surface 113 in the second axis Y direction is longer than that of the second fixed surface 112 and the third fixed surface 113. Even if the rectangular shape is formed shorter than the length of the fourth fixing surface 114 in the third axis Z direction, the length of the first fixing surface 111 and the third fixing surface 113 in the second axis Y direction and the second The fixing surface 112 and the fourth fixing surface 114 may have a square shape with the same length in the third axis Z direction.

In the first embodiment, the fourth fixed surface 114 is a virtual surface, and the flange portion 4 is connected to the fourth fixing surface 114. However, the shape or configuration of the flange portion 4 is not limited to this example. Rather, it may be changed as appropriate depending on the shape or location of the structure 5 in which the support 10 is installed. Further, since the fourth fixed surface 114 is a virtual surface, it is shown only in FIG. 2, and is omitted from other drawings.

The first fixing surface 111 has a groove portion having an opening 100 with one side Z1 of the third axis Z open, leaving a part of the front fixing surface 115 of the first fixing surface 111 from the front side Y1 of the second axis Y. 101 is formed along the first axis X. The groove portion 101 communicates with a bottom surface 102 parallel to the first axis X and the second axis Y, and extends from the rear side Y2 of the second axis Y to the front side Y1 of the second axis Y. has an inclined side surface 103 that slopes toward one side Z1, and the other side surface 104 that communicates with the bottom surface 102 and is parallel to the first axis X and the third axis Z on the front side Y1 of the second axis Y. There is. An inclination angle θ1 between the bottom surface 102 of the groove portion 101 and the inclined side surface 103 of the groove portion 101 is 60 degrees. Specifically, it is formed at an angle of approximately 60 degrees ±2 degrees.

Further, a connecting hole 140 for connecting the plurality of fixing parts 1 is formed in the fixing part 1 so as to pass through the fixing part 1 in the first axis X direction. The connecting hole 140 is used when connecting the plurality of fixing parts 1 in the first axis X direction. When connecting a plurality of fixing parts 1, a rod-shaped connecting body extending in the first axis Can maintain posture. However, in this embodiment, an example in which the support 10 is configured with only one fixing part 1 will be explained.

As shown in FIG. 1, the support part 2 is detachably attached to the fixed part 1 from the front side Y1 of the second axis Y. Moreover, the receiving part 3 is attached to the supporting part 2 and supports a load. Here, an example is shown in which the receiving portion 3 is formed of a rod-shaped member.

As shown in FIG. 3, the support portion 2 includes a groove insertion portion 210 and an outer peripheral portion 220 that is integrally formed and communicates with the groove insertion portion 210. The groove insertion part 210 has a first contact surface 201 that contacts the inclined side surface 103 of the groove section 101, a second contact surface 202 that communicates with the first contact surface 201 and contacts the bottom surface 102 of the groove section 101, and a second contact surface 202 that contacts the bottom surface 102 of the groove section 101. 202 and has a third contact surface 203 parallel to the first axis X and the third axis Z.

The outer peripheral portion 220 includes a fourth contact surface 204 that communicates with the third contact surface 203 and is parallel to the first axis A fifth contact surface 205 parallel to the first axis X and the third axis Z and in contact with the second fixing surface 112; and a third fixing surface parallel to the first axis X and the second axis Y communicating with the fifth contact surface 205. A sixth contact surface 206 that contacts the surface 113; a seventh contact surface 207 that communicates with the sixth contact surface 206 and is parallel to the first axis X and the third axis Z; and a groove insertion portion 210 from the seventh contact surface 207. It has an outer peripheral surface 222 that forms the outer periphery up to the first contact surface 201.

Here, the outer circumferential surface 222 specifically communicates with the seventh contact surface 207 toward the front side Y1 of the second axis Y, and is a first outer circumferential surface parallel to the first axis X and the second axis Y. 241, a second outer circumferential surface 242 that communicates with the first outer circumferential surface 241 toward one side Z1 of the third axis Z, and is parallel to the first axis X and the third axis Z; The third outer circumferential surface 243, which communicates toward the rear side Y2 of the two axes Y and is parallel to the first axis X and the second axis Y, communicates with one side to the third outer circumferential surface 243 and the other to the first contact surface 201 and a fourth outer circumferential surface 244 parallel to the first axis X and the third axis Z. However, the outer circumferential surface 222 may be any surface on which the receiving portion 3 can be installed, and is not limited to this example.

Furthermore, the support part 2 includes a through hole 230 that penetrates the fourth contact surface 204 and the third outer circumferential surface 243 of the outer circumferential surface 222 in the direction of the third axis Z, and a through hole 230 that penetrates the fourth contact surface 204 and the third outer circumferential surface 243 of the outer circumferential surface 222 from the third outer circumferential surface 243 side of the outer circumferential surface 222. A stopper 231 (see FIG. 1) that is inserted and fitted into the hole 230 and has one end 232 abutting the bottom surface 102 of the groove 101 is provided. Specifically, the through hole 230 of the support portion 2 is formed with a screw hole. Further, the stopper 231 of the support portion 2 is formed of a pin that is screwed into the screw hole and comes into contact with the bottom surface 102 of the groove portion 101 .

The distance H between the third contact surface 203 and the seventh contact surface 207 of the support section 2 in the second axis Y is set to a size that allows the front fixation surface 115 of the fixation section 1 to be inserted. Specifically, as shown in FIG. 3, the distance H (length) between the third contact surface 203 and the seventh contact surface 207 along the second axis Y is the same as that of the front fixed surface 115 shown in FIG. The length L5 in the second axis Y direction is longer than the length L5 in the second axis Y direction. Furthermore, the length L1 of the first contact surface 201 of the support part 2 in the inclination direction shown in FIG. has also been formed for a long time.

Although FIG. 3 shows an example in which the support part 2 and the receiving part 3 are integrally formed, the invention is not limited to this, and the receiving part 3 can be detachably attached to the supporting part 2 by screwing. It is also possible that it is fixed by something like. If formed in this way, it is effective to replace and install the receiving parts 3 of various shapes to be described later on the supporting part 2.

A method for installing the support 10 of the first embodiment configured as described above will be described. First, as shown in FIG. 1, the flange portion 4 is placed along the structure 5 and fixed to the structure 5 using screws 8. As a result, the posture and position of the fixed part 1 are fixed to the structure 5 and cannot be moved. Here, the fixed part 1 is fixed so that the first axis X and the second axis Y are in a horizontal direction, and the third axis Z is in a vertical direction. Furthermore, at this time, the first fixing surface 111 of the fixing part 1 is provided with the opening 100 of the groove 101 on one side Z1 of the third axis Z, that is, on the lower side in the vertical direction.

Next, a decorative board 6 (for example, plasterboard) is attached and installed so as to be in contact with the front side Y1 of the flange portion 4. Naturally, the decorative board 6 is installed so as not to cover the opening 100 of the groove 101 of the fixed part 1. As a result, when the support part 2 and the receiving part 3 are not installed on the fixed part 1, the support 10 can be cut only along the front side Y1 of the fixed part 1, that is, along the second axis Y and the third axis Z. Only the rectangular cross section is visible, giving it an excellent aesthetic appearance. Moreover, since the groove portion 101 of the fixing portion 1 is visually hidden from the front side Y1 of the support 10, the appearance is excellent. Furthermore, since the opening 100 of the groove 101 is open on one side Z1, it is possible to prevent dust from accumulating in the groove 101.

Next, the support part 2 to which the receiving part 3 is attached is inserted into the fixing part 1 from the front side Y1 (FIGS. 4 and 7). At this time, the groove insertion part 210 of the support part 2 is inserted from a position further below one side Z1 of the third axis Z of the second fixing surface 112 of the fixing part 1. Next, the groove insertion part 210 of the support part 2 is moved to the rear side Y2 of the second axis Y of the fixed part 1, and the groove insertion part 210 of the support part 2 is moved to a position opposite to the opening 100 of the groove part 101 of the fixed part 1. (Figure 5). At this time, as shown in FIG. 5, the seventh contact surface 207 of the support section 2 can be moved to the position using the position where it contacts the second fixation surface 112 of the fixation section 1 as a guide.

Next, when the seventh contact surface 207 of the support part 2 moves to the position where it contacts the second fixation surface 112 of the fixed part 1 in this way, the support part 2 is moved to the other side Z2 of the third axis Z. , the groove insertion part 210 of the support part 2 is inserted into the groove part 101 from the opening 100 of the groove part 101 of the fixing part 1 (FIG. 6). At this time, the distance H in the second axis Y between the third contact surface 203 and the seventh contact surface 207 of the support part 2 is a size that allows the front fixation surface 115 of the fixation part 1 to be inserted; The distance H (length) between the third contact surface 203 and the seventh contact surface 207 along the second axis Y is longer than the length L5 of the front fixation surface 115 of the fixation part 1 in the second axis Y direction. This makes it easy to insert.

Then, as shown in FIG. 6, the second contact surface 202 of the groove insertion part 210 of the support part 2 is brought into contact with the bottom surface 102 of the groove part 101 of the fixing part 1. At this time, the fourth contact surface 204 of the support section 2 comes into contact with the front fixation surface 115 of the fixation section 1 . Using this state as a guide, move the groove insertion part 210 of the support part 2 to the rear side Y2 of the second axis Y, and support it on the fixed part 1 so that it is in the state shown in FIG. 1 before the stopper 231 is installed. Part 2 is attached. At this time, the first contact surface 201 of the groove insertion section 210 of the support section 2 contacts the inclined side surface 103 of the groove section 101 of the fixed section 1, the second contact surface 202 contacts the bottom surface 102 of the groove section 101, and the second contact surface 202 contacts the bottom surface 102 of the groove section 101. The fourth contact surface 204 contacts the front fixed surface 115 of the first fixed surface 111, the fifth contact surface 205 contacts the second fixed surface 112, and the sixth contact surface 206 contacts the third fixed surface 113. come into contact with

Furthermore, the length L1 of the first contact surface 201 of the support part 2 in the inclination direction shown in FIG. Since the first contact surface 201 of the support portion 2 and the inclined side surface 103 of the groove portion 101 come into contact with each other in a wedge-like manner, the contact becomes even stronger. Furthermore, since the inclination angle θ1 between the bottom surface 102 of the groove portion 101 and the inclined side surface 103 of the groove portion 101 is 60 degrees, the supporting portion 2 The strength of the groove insertion portion 210 itself can be ensured, and the wedge-like action becomes more effective than when the angle is larger than 60 degrees ± 2 degrees.

Even in this state, the respective surfaces are in contact with each other as shown above, so the support part 2 is locked to the fixing part 1, but in order to fix it even more firmly, the stopper 231 is inserted into the through hole 230. , the stopper 231 is rotated and inserted into the through hole 230 from one side Z1 to the other side Z2 of the third axis Z using, for example, an L-shaped hex wrench. Insert until one end 232 abuts the bottom surface 102. Then, a stopper 231 is fixed to the through hole 230.

By fixing the stopper 231 in the through hole 230 in this manner, the inclined side surface 103 of the groove 101 of the fixing part 1 and the first contact surface 201 of the groove insertion part 210 of the support part 2 come into contact with each other, as shown above. contact, contact between the bottom surface 102 of the groove portion 101 and the second contact surface 202, contact between the front fixed surface 115 of the first fixed surface 111 and the fourth contact surface 204, contact between the second fixed surface 112 and the fifth contact surface The contact with the contact surface 205 and the contact between the third fixed surface 113 and the sixth contact surface 206 are ensured.

Thereby, the fixed part 1 and the supporting part 2 are securely fixed, and even if a load is placed on the receiving part 3, the supporting part 2 can be further prevented from coming off from the fixed part 1. Further, the load applied to the receiving part 3 is the load in the Z1 direction on one side of the third axis Z, but the load on the receiving part 3 is in the Z2 direction on the other side of the third axis Z. , a load in the first axis X direction, or a load in the second axis Y direction, it is possible to prevent the support part 2 from coming off from the fixed part 1.

In addition, here, an example is shown in which the stopper 231 is installed in the through hole 230 after inserting the groove insertion part 210 of the support part 2 into the groove part 101 of the fixing part 1, but the present invention is not limited to this. , the stopper 231 is moved to the middle of the through hole 230, that is, the position where one end 232 of the stopper 231 does not protrude to the other side Z2 of the third axis Z of the through hole 230, specifically, the fourth contact point of the support part 2. Insert the stopper 231 into the through hole 230 until it does not protrude from the surface 204 to the other side Z2 of the third axis Z, and while maintaining this state, support it in the groove 101 of the fixed part 1 as shown above. It is also conceivable that after the groove insertion part 210 of the part 2 is inserted, the stopper 231 is inserted until one end 232 comes into contact with the bottom surface 102. In this way, the stopper 231 can be easily attached.

In addition, when removing the support part 2 on which the receiving part 3 is installed from the fixed part 1, first remove the stopper 231 using an L-shaped hex wrench or the like, by performing the operation opposite to the mounting operation shown above. It can be easily removed by pulling it out from the through hole 230 while rotating it.

Further, as shown in FIG. 8, the length L3 of the fixed part 1 in the first axis X direction is longer than the length L4 of the support part 2 in the first axis X direction. Thereby, the support part 2 and the receiving part 3 can be installed at optimal locations of the fixed part 1 in the first axis X direction. Moreover, it can be moved to any arbitrary location in the first axis X direction of the support part 2 and the fixed part 1. Moreover, the support part 2 can be easily moved because the support part 2 can be easily attached to the fixing part 1. Furthermore, if formed as shown in FIG. 8, a plurality of support parts 2 can be installed on the fixed part 1.

Furthermore, when a plurality of supporting parts 2 are installed, the receiving part 32 can be installed across the plurality of supporting parts 2, as shown in FIG. If formed in this way, for example, a plurality of hangers can be hung on the receiving portion 32 and a plurality of hangers can be easily displayed in the first axis X direction.

In addition, the length of the support part 2 in the first axis X direction shown in FIGS. 8 and 9 is an example, and as shown in FIG. It is also conceivable to form the support part 21 having a long length L41 and form the receiving part 33 with a gripping member. Note that the support portion 21 has the same configuration as the support portion 2 shown above except for the length in the first axis X direction. If formed in this way, the plate material 72 such as a glass plate as a load can be gripped and installed on the receiving part 33. In this case, products can be displayed on the board 72. In this case, it is conceivable that the support part 21 and the receiving part 33 are formed integrally.

In addition, as shown in FIG. 11, there is a plate-like member on the front side Y1 of the second axis Y of the support part 21 and protruding to the other side Z2 of the third axis Z on the second outer circumferential surface 242 of the support part 21. It is also conceivable to install a receiving part 34. If formed in this way, the board 74 with the inverted L-shaped hook 73 can be used as a load by hooking the hook 73 on the receiving part 34.

Further, the receiving part 3 can be formed in various shapes other than the above-mentioned rod-shaped member, plate-shaped member, or gripping member, etc., as shown above, and can be formed in various shapes such as the shape of the load. The receiving portion 3 can be formed into a corresponding shape and installed as appropriate.

Moreover, as shown in FIG. 12, unlike the case shown in FIG. In this case, the first contact surface 201 is formed to communicate with the third outer circumferential surface 234 of the outer circumferential surface 222. By forming in this way, the length L1 of the first contact surface 201 of the support part 2 in the inclination direction can be easily made longer than the length L2 of the inclined side surface 103 of the groove part 101 of the fixing part 1 in the inclination direction.

Next, another example will be explained using FIGS. 13 and 14. The structure of the fixing part 1 is the same as that shown in FIG. 2, so the explanation thereof will be omitted, and the parts of the support part 22 and the receiving part 35 that are different from those in FIG. 1 will be explained as appropriate. As shown in FIG. 14, the support portion 22 includes a stepped portion 250 on the third outer circumferential surface 243 that protrudes to one side Z1 of the third axis Z, unlike the case where the outer circumferential surface 222 is in FIG.

As shown in FIG. 13, the stopper 233 inserted into the through hole 230 is formed of a screw pin with a flange. Therefore, when inserting the stopper 233 into the through hole 230, there is no need for a hexagonal wrench or the like in the case shown in FIG. 233 can be inserted and fitted, making installation even easier. Moreover, since the stepped portion 250 is formed, the flange of the stopper 233 can be hidden from the front side Y1 of the second axis Y.

Further, the second outer circumferential surface 242 of the outer circumferential surface 222 is formed on the ZZ axis inclined at an inclination angle θ2 of about 1.5 degrees from the vertical third axis Z toward the front side Y1 of the second axis Y. As a result, the center axis in the second axis Y direction of the receiving portion 35 installed on the second outer circumferential surface 242 of the outer circumferential surface 222 is inclined at an inclination angle θ3 from the second axis Y in the horizontal direction to the other side Z2 of the third axis Z. , for example, is installed on the YY axis (corresponding to the central axis of the receiving part 35) tilted by about 1.5 degrees. Thereby, the load on the receiving part 3 in the one side Z1 direction of the third axis Z can be placed even more stably.

Further, in the first embodiment described above, an example is shown in which the through hole 230 and the stopper 231 are provided, but the present invention is not limited to this, and the load of the load is applied only to one side Z1 direction of the third axis Z. If the load is light or the load is light, the inclined side surface 103 of the groove 101 of the fixing part 1 and the support The groove insertion portion 210 of the part 2 contacts the first contact surface 201, the bottom surface 102 of the groove portion 101 contacts the second contact surface 202, and the front fixation surface 115 of the first fixation surface 111 contacts the fourth contact surface. Due to the contact with the surface 204, the contact between the second fixed surface 112 and the fifth contact surface 205, and the contact between the third fixed surface 113 and the sixth contact surface 206, the support portion 2 and It is possible to support the receiving part 3.

The support of Embodiment 1 configured as described above is
a fixing part extending along a first axis and having a rectangular cross section perpendicular to the first axis;
a support part that is detachably attached to the fixed part from the front side of a second axis perpendicular to the first axis;
A support comprising a receiving part attached to the supporting part and supporting a load,
The fixing portion includes a first fixing surface on one side of a third axis orthogonal to the first axis and the second axis and parallel to the first axis and the second axis;
a second fixing surface that communicates with the first fixing surface and is on the front side of the second axis and parallel to the first axis and the third axis;
a third fixing surface that communicates with the second fixing surface and is on the other side of the third axis and parallel to the first axis and the second axis;
In the first fixing surface, a groove portion having an opening that leaves a part of the front fixing surface of the first fixing surface from the front side of the second shaft and is open on one side of the third shaft is provided. formed along the axis,
The groove portion has a bottom surface parallel to the first axis and the second axis;
an inclined side surface that communicates with the bottom surface and slopes from the rear side of the second shaft to the front side of the second shaft and toward one side of the third shaft;
the other side surface communicating with the bottom surface and parallel to the first axis and the third axis on the front side of the second axis;
The support part has a groove insertion part and an outer peripheral part integrally formed in communication with the groove insertion part,
The groove insertion portion has a first contact surface that comes into contact with the inclined side surface of the groove portion;
a second contact surface that communicates with the first contact surface and comes into contact with the bottom surface of the groove;
a third contact surface that communicates with the second contact surface and is parallel to the first axis and the third axis;
The outer peripheral portion has a fourth contact surface that communicates with the third contact surface, is parallel to the first axis and the second axis, and abuts the front fixation surface;
a fifth contact surface that communicates with the fourth contact surface, is parallel to the first axis and the third axis, and contacts the second fixed surface;
a sixth contact surface that communicates with the fifth contact surface, is parallel to the first axis and the second axis, and abuts the third fixed surface;
a seventh contact surface that communicates with the sixth contact surface and is parallel to the first axis and the third axis;
an outer peripheral surface forming an outer periphery from the seventh contact surface to the first contact surface of the groove insertion part,
The distance between the third contact surface and the seventh contact surface on the second axis is formed to a size that allows the front fixation surface to be inserted,
Since the receiving part is fixedly installed on the outer circumferential surface of the supporting part,
A load related to the receiving part can be supported by the groove insertion part and the outer peripheral part of the support part being engaged with the groove part and the outer peripheral surface of the fixing part. Furthermore, since the groove insertion portion of the support portion can be easily attached to and removed from the groove portion of the fixing portion, the use of the support device can be made easy and convenient.

Furthermore, the support of Embodiment 1 is
The support portion includes a through hole passing through the fourth contact surface and the outer circumferential surface in the direction of the third axis;
and a stopper that is inserted and fitted into the through hole from the outer peripheral surface side and has one end abutting the bottom surface of the groove,
Due to the contact between one end of the stopper and the bottom surface of the groove, the inclined side surface of the groove of the fixed part and the first contact surface of the groove insertion part of the support part are fixed, regardless of the orientation of the support. It is possible to reliably prevent the support part from coming off from the part, and it is possible to reliably fix the support part to the fixed part.

Furthermore, the support of Embodiment 1 is
The through hole of the support part is formed with a screw hole,
The stopper of the support part is formed of a pin that is screwed into the screw hole and comes into contact with the bottom surface of the groove part.
The stopper can be easily attached to and removed from the through hole.

Furthermore, the support of Embodiment 1 is
the first axis and the second axis are installed in a horizontal direction,
the third axis is installed in a vertical direction,
Since the first fixing surface of the fixing part is installed on the lower side in the vertical direction,
Since the groove of the fixing part is hidden from the front side of the support, it has an excellent appearance and can prevent dust from accumulating in the groove.

Furthermore, the support of Embodiment 1 is
The length of the first contact surface of the supporting portion in the inclined direction is longer than the length of the inclined side surface of the groove portion of the fixing portion in the inclined direction;
Since the first contact surface of the support can reliably come into contact with the inclined side surface of the groove, the support part can be fixed to the fixing part even more reliably.

Furthermore, the support of Embodiment 1 is
Since the angle of inclination between the bottom surface of the groove and the inclined side surface of the groove is 60 degrees ± 2 degrees,
The strength of the groove insertion part of the support part can be ensured, and the fixing part can be reliably fixed to the support part.

Furthermore, the support of Embodiment 1 is
Since the length of the fixing part in the first axial direction is longer than the length of the supporting part in the first axial direction,
The support portion can be installed at any location in the first axial direction of the fixed portion.

Furthermore, the support of Embodiment 1 is
Since a plurality of the supporting parts are installed in the fixed part,
Can support many loads.

Furthermore, the support of Embodiment 1 is
Since the receiving part is installed across the plurality of supporting parts,
Furthermore, it is possible to support a heavy load, and various shapes of the receiving part are possible.

Furthermore, the support of Embodiment 1 is
Since the receiving portion is formed of a rod-like member, a plate-like member, or a gripping member,
Can support various shapes of loads.

Embodiment 2.
In the first embodiment described above, the first axis X and the second axis Y are installed in the horizontal direction, the third axis Z is installed in the vertical direction, and the first fixing surface 111 of the fixing part 1 is Although an example has been shown in which the shafts are installed on the lower side of the is installed in the vertical direction and the first fixing surface 111 of the fixing part 1 is installed on the upper side in the vertical direction, or the second axis Y and the third axis Z are installed in the horizontal direction and the first A case where the axis X is installed in the vertical direction will be explained.

FIG. 16 is a side view showing the use state of the support having the fixing part, the support part, and the receiving part according to the second embodiment. FIG. 17 is a side view showing the structure of the fixing part of the support shown in FIG. 16. FIG. 18 is a side view showing the structure of the support part and the receiving part of the support shown in FIG. 16. FIG. 19 is a perspective view showing how the support shown in FIG. 16 is used. FIG. 20 is a perspective view showing another state of use of the support shown in FIG. 16.

However, as will be explained below, when the first fixing surface 111 of the fixing part 1 is installed on the upper surface in the vertical direction and the load of the load is generally applied in the direction Z2 on the other side of the third axis Z ( 16 to 19), or when the first axis X is installed in the vertical direction and the load of the load is generally applied in the first axis The through hole 230 and the stopper 231 are essential components in order to prevent the receiving part 2 and the receiving part 3 from falling or easily coming off.

In the figures, the same parts as in the first embodiment are given the same reference numerals and omitted. As shown in FIGS. 16 to 19, the configurations of the fixing part 1 and the support part 2 of the support 10 are the same as in the first embodiment, and only the posture of the support 10 is different. be. If the support 10 is installed in this way, the groove 101 of the fixing part 1 can be easily confirmed from one side Z1 of the third axis Z of the support 10. Therefore, it becomes easier to insert the groove insertion portion 210 of the support portion 2 into the groove portion 101 of the fixing portion 1. Furthermore, when installing the stopper 23 in the through hole 230, the work can be done easily and reliably.

Furthermore, as shown in FIG. 20, the configurations of the fixing part 1 and the support part 2 of the support 10 are the same as in the first embodiment, and only the posture of the support 10 is different. . By installing the support 10 in this way, a load can be supported by the support 10 at any location in the vertical direction. Furthermore, the groove 101 of the fixing part 1 can be easily confirmed from one side X1 of the support 10. Therefore, it becomes easier to insert the groove insertion part 210 of the support part 2 into the groove part 101 of the fixing part 1. Furthermore, when installing the stopper 23 in the through hole 230, the work can be done easily and reliably.

In addition, in this Embodiment 2, the same configuration as FIG. 1 in the above-mentioned Embodiment 1 will be explained, but it is not limited to this, and other examples in the above-mentioned Embodiment 1 will be similarly configured. It is possible to achieve the same effect.

The support of the second embodiment configured as described above is
the first axis and the second axis are installed in a horizontal direction,
the third axis is installed in a vertical direction,
Since the first fixing surface of the fixing part is installed on the upper side in the vertical direction,
While producing the same effects as the first embodiment,
The support part can be easily inserted into the fixed part.

Furthermore, the support device of Embodiment 2 is
the second axis and the third axis are installed in a horizontal direction,
Since the first axis is installed in the vertical direction,
While producing the same effects as the first embodiment,
The support part can be easily inserted into the fixed part.

Although this application describes various exemplary embodiments and examples, the various features, aspects, and functions described in one or more embodiments may be applicable to a particular embodiment. The present invention is not limited to, and can be applied to the embodiments alone or in various combinations.
Therefore, countless variations not illustrated are envisioned within the scope of the technology disclosed herein. For example, this includes cases where at least one component is modified, added, or omitted, and cases where at least one component is extracted and combined with components of other embodiments.

Hereinafter, various aspects of the present disclosure will be collectively described as supplementary notes.

(Additional note 1)
a fixing part extending along a first axis and having a rectangular cross section perpendicular to the first axis;
a support part that is detachably attached to the fixed part from the front side of a second axis perpendicular to the first axis;
A support comprising a receiving part attached to the supporting part and supporting a load,
The fixing portion includes a first fixing surface on one side of a third axis orthogonal to the first axis and the second axis and parallel to the first axis and the second axis;
a second fixing surface that communicates with the first fixing surface and is on the front side of the second axis and parallel to the first axis and the third axis;
a third fixing surface that communicates with the second fixing surface and is on the other side of the third axis and parallel to the first axis and the second axis;
In the first fixing surface, a groove portion having an opening that leaves a part of the front fixing surface of the first fixing surface from the front side of the second shaft and is open on one side of the third shaft is provided. formed along the axis,
The groove portion has a bottom surface parallel to the first axis and the second axis;
an inclined side surface that communicates with the bottom surface and slopes from the rear side of the second shaft to the front side of the second shaft and toward one side of the third shaft;
the other side surface communicating with the bottom surface and parallel to the first axis and the third axis on the front side of the second axis;
The support part has a groove insertion part and an outer peripheral part integrally formed in communication with the groove insertion part,
The groove insertion portion has a first contact surface that comes into contact with the inclined side surface of the groove portion;
a second contact surface that communicates with the first contact surface and comes into contact with the bottom surface of the groove; and a third contact surface that communicates with the second contact surface and is parallel to the first axis and the third axis. have,
The outer peripheral portion has a fourth contact surface that communicates with the third contact surface, is parallel to the first axis and the second axis, and abuts the front fixing surface;
a fifth contact surface that communicates with the fourth contact surface, is parallel to the first axis and the third axis, and contacts the second fixed surface;
a sixth contact surface that communicates with the fifth contact surface, is parallel to the first axis and the second axis, and abuts the third fixed surface;
a seventh contact surface that communicates with the sixth contact surface and is parallel to the first axis and the third axis;
an outer peripheral surface forming an outer periphery from the seventh contact surface to the first contact surface of the groove insertion part,
The distance between the third contact surface and the seventh contact surface on the second axis is formed to a size that allows insertion of the front fixation surface,
The receiving portion is a support that is fixedly installed on the outer circumferential surface of the supporting portion.
(Additional note 2)
The support portion includes a through hole passing through the fourth contact surface and the outer circumferential surface in the direction of the third axis;
The support according to supplementary note 1, further comprising a stopper that is inserted and fitted into the through hole from the outer peripheral surface side and has one end abutting the bottom surface of the groove.
(Additional note 3)
The through hole of the support part is formed with a screw hole,
The support according to appendix 2, wherein the stopper of the support portion is formed by a pin that is screwed into the screw hole and comes into contact with the bottom surface of the groove.
(Additional note 4)
the first axis and the second axis are installed in a horizontal direction,
the third axis is installed in a vertical direction;
The support according to any one of Supplementary notes 1 to 3, wherein the first fixing surface of the fixing part is installed on the lower side in the vertical direction.
(Appendix 5)
the first axis and the second axis are installed in a horizontal direction,
the third axis is installed in a vertical direction;
The support according to appendix 2 or 3, wherein the first fixing surface of the fixing part is installed on the upper side in the vertical direction.
(Appendix 6)
the second axis and the third axis are installed in a horizontal direction,
The support according to appendix 2 or 3, wherein the first axis is installed in a vertical direction.
(Appendix 7)
According to any one of Supplementary Notes 1 to 6, the length of the first contact surface of the supporting portion in the inclined direction is longer than the length of the inclined side surface of the groove portion of the fixing portion in the inclined direction. supports.
(Appendix 8)
The support according to any one of Supplementary Notes 1 to 7, wherein the bottom surface of the groove portion and the inclined side surface of the groove portion form an inclination angle of 60 degrees ± 2 degrees.
(Appendix 9)
The support according to any one of Supplementary Notes 1 to 8, wherein the length of the fixing portion in the first axial direction is longer than the length of the supporting portion in the first axial direction.
(Appendix 10)
The support according to appendix 9, wherein a plurality of the support parts are installed in the fixing part.
(Appendix 11)
The support according to appendix 10, wherein the receiving portion is installed across a plurality of the supporting portions.
(Appendix 12)
The support according to any one of Supplementary Notes 1 to 11, wherein the receiving portion is formed of a rod-shaped member, a plate-shaped member, or a gripping member.

1 fixing part, 10 support, 100 opening, 101 groove, 102 bottom surface,
103 inclined side surface, 104 other side surface, 111 first fixed surface, 112 second fixed surface,
113 third fixing surface, 114 fourth fixing surface, 115 front fixing surface, 140 connecting hole,
2 support part, 21 support part, 22 support part, 201 first contact surface, 202 second contact surface,
203 third contact surface, 204 fourth contact surface, 205 fifth contact surface, 206 sixth contact surface,
207 seventh contact surface, 210 groove insertion portion, 220 outer peripheral portion, 222 outer peripheral surface,
230 through hole, 231 stopper, 232 one end, 233 stopper,
241 first outer circumferential surface, 242 second outer circumferential surface, 243 third outer circumferential surface, 244 fourth outer circumferential surface, 250 stepped portion, 3 receiving portion, 32 receiving portion, 33 receiving portion, 34 receiving portion,
35 receiving part, 4 flange part, 5 structure, 6 decorative board, 72 plate material, 73 hook, 74 board, 8 screw, θ1 angle of inclination, θ2 angle of inclination, θ3 angle of inclination, H interval,
L1 length, L2 length, L3 length, L4 length, L5 length, X 1st axis,
Y second axis, Y1 front side, Y2 rear side, Z third axis, Z1 one side, Z2 other side.

Claims (12)

a fixing part extending along a first axis and having a rectangular cross section perpendicular to the first axis;
a support part that is detachably attached to the fixed part from the front side of a second axis perpendicular to the first axis;
A support comprising a receiving part attached to the supporting part and supporting a load,
The fixing portion includes a first fixing surface on one side of a third axis orthogonal to the first axis and the second axis and parallel to the first axis and the second axis;
a second fixing surface that communicates with the first fixing surface and is on the front side of the second axis and parallel to the first axis and the third axis;
a third fixing surface that communicates with the second fixing surface and is on the other side of the third axis and parallel to the first axis and the second axis;
In the first fixing surface, a groove portion having an opening that leaves a part of the front fixing surface of the first fixing surface from the front side of the second shaft and is open on one side of the third shaft is provided. formed along the axis,
The groove portion has a bottom surface parallel to the first axis and the second axis;
an inclined side surface that communicates with the bottom surface and slopes from the rear side of the second shaft to the front side of the second shaft and toward one side of the third shaft;
the other side surface communicating with the bottom surface and parallel to the first axis and the third axis on the front side of the second axis;
The support part has a groove insertion part and an outer peripheral part integrally formed in communication with the groove insertion part,
The groove insertion portion has a first contact surface that comes into contact with the inclined side surface of the groove portion;
a second contact surface that communicates with the first contact surface and comes into contact with the bottom surface of the groove;
a third contact surface that communicates with the second contact surface and is parallel to the first axis and the third axis;
The outer peripheral portion has a fourth contact surface that communicates with the third contact surface, is parallel to the first axis and the second axis, and abuts the front fixing surface;
a fifth contact surface that communicates with the fourth contact surface, is parallel to the first axis and the third axis, and contacts the second fixed surface;
a sixth contact surface that communicates with the fifth contact surface, is parallel to the first axis and the second axis, and abuts the third fixed surface;
a seventh contact surface that communicates with the sixth contact surface and is parallel to the first axis and the third axis;
an outer peripheral surface forming an outer periphery from the seventh contact surface to the first contact surface of the groove insertion part,
The distance between the third contact surface and the seventh contact surface on the second axis is formed to a size that allows insertion of the front fixation surface,
The receiving portion is a support that is fixedly installed on the outer circumferential surface of the supporting portion. The support portion includes a through hole passing through the fourth contact surface and the outer circumferential surface in the direction of the third axis;
The support according to claim 1, further comprising a stopper that is inserted into and fitted into the through hole from the outer peripheral surface side and has one end abutting the bottom surface of the groove. The through hole of the support part is formed with a screw hole,
3. The support according to claim 2, wherein the stopper of the support portion is formed by a pin that is screwed into the screw hole and comes into contact with the bottom surface of the groove. the first axis and the second axis are installed in a horizontal direction,
the third axis is installed in a vertical direction,
The support according to any one of claims 1 to 3, wherein the first fixing surface of the fixing part is installed on the lower side in the vertical direction. the first axis and the second axis are installed in a horizontal direction,
the third axis is installed in a vertical direction,
The support according to claim 2 or 3, wherein the first fixing surface of the fixing part is installed on the upper side in the vertical direction. the second axis and the third axis are installed in a horizontal direction,
The support according to claim 2 or 3, wherein the first axis is installed in a vertical direction. 4. The length of the first contact surface of the supporting part in the inclined direction is longer than the length of the inclined side surface of the groove part of the fixing part in the inclined direction. Supports as described in . The support according to any one of claims 1 to 3, wherein an angle of inclination between the bottom surface of the groove and the inclined side surface of the groove is 60 degrees ± 2 degrees. The support according to any one of claims 1 to 3, wherein the length of the fixing part in the first axial direction is longer than the length of the supporting part in the first axial direction. The support according to claim 9, wherein a plurality of the support parts are installed in the fixing part. The support device according to claim 10, wherein the receiving portion is installed across a plurality of the supporting portions. The support according to any one of claims 1 to 3, wherein the receiving portion is formed of a rod-like member, a plate-like member, or a gripping member.