JP3124861U - Tube column shelf positioning structure - Google Patents

Abstract

The present invention provides a tube column shelf positioning structure with a reliable positioning force.
A plurality of horizontal bars are fitted on the vertical bar, and each horizontal bar is reliably positioned on the vertical bar by urging an elastic element below and locking a stop part. In addition, a large number of ring grooves are formed on the outer peripheral edge of the vertical bar, the horizontal bar is provided with a support part at the front, and a hollow fitting column is provided at the rear, and the support part and the fitting column are provided. The tank chamber is formed at the lower position, the tank chamber is provided with a storage tank port that communicates with the inside of the fitting column at the rear, the pivot hole is penetrated on both sides, and the blind hole is formed on the upper side. The elastic element is installed between the transverse bar and the stop part, and in the normal state, it is slanted against the stop part, and the stop part extends from the pushing part and then the rear end is It consists of a butt portion that curves downward from the top and a pin for penetrating the fixed shaft at the corner. Ttohoru is formed.
[Selection] Figure 1

Description

    The present invention relates to a tube column shelf positioning structure, and particularly to an object that has a reliable positioning force and is not likely to fall off by loading a heavy object or receiving an external force from below.

    The positioning structure of the existing tube column body and the shelf board is mainly a plurality of corresponding support bars in which a stacking plate 62 is fixed on two main support bars 60 with reference to FIGS. 61 is fitted and the stacking plate 62 is lifted to release the engagement between the support bar 61 and the main support bar 60, and then the stacking plate 62 is directly displaced to adjust the height. When the loading plate 62 is pushed downward, the support bar 61 and the main support bar 60 are re-engaged and positioned to serve for loading an object.

    The above conventional structure has the following problems.

The stacking plate 62 is positioned between the main support bar 60 and each support bar 61 only by the engagement force, and the stop force is insufficient. Therefore, when a heavy object is loaded, There is a risk that the load may fall.

When the downward engaging positioning force between the support bar 61 and the main support bar 60 cannot prevent the support bar 61 from being lifted by an external force, the loading shelf receives an external force from below the support bar 61. The support bar 61 and the stacking plate 62 are lifted together, and the article may fall off, as shown in FIG.

When adjusting the height, first, the support bar 61 must be lifted, and since the lifting angle is not correct, the support bar 61 may not move smoothly.

    The main purpose of the present invention is to load the object because the lateral bar is positioned on the upright bar reliably by the biasing of the elastic element and the locking of the stop parts, and the positioning force is reliable. Therefore, there is provided a tube column shelf positioning structure that is not likely to drop by receiving external force from below.

    Another object of the present invention is that the lateral bar is fitted onto the vertical bar by the fitting column, and the mortar portion is locked to the ring groove of the vertical bar, thereby being positioned on the vertical bar. Even if it receives external force from below the horizontal bar, the horizontal bar is fitted by the entire fitting column, so the locking force is reliable and there is no risk of falling off. provide.

    Still another object of the present invention is to provide a tube column shelf positioning structure that does not need to be lifted up when the height of the horizontal bar is adjusted, and only has to push the pushing portion of the dead end component. To do.

According to the first aspect of the present invention, a plurality of horizontal bars are fitted on the vertical bar, and each horizontal bar is surely fixed on the vertical bar by the biasing of the elastic element and the locking of the stop part in the lower part. The tube column shelf positioning structure positioned at the top of the vertical rod is formed with a number of ring grooves on the outer peripheral edge of the vertical bar, the support portion is formed in the front of the horizontal bar, and the hollow inner periphery is formed in the rear. A fitting column whose diameter is slightly larger than the outer diameter of the vertical rod is provided, the horizontal bar is fitted on the vertical rod by installing the vertical column, and the position where the support portion and the fitting column intersect In the tank chamber, a storage tank port communicating with the inside of the fitting column is provided at the rear, a pivot hole is penetrated on both sides, a blind hole is formed on the upper side, and the elastic element Is formed between the transverse bar and the dead end part and is normal, the dead end part The stopper part is slanted, and the stopper part is composed of a pushing part and a stopper part that is then extended and the rear end curves from top to bottom, and a fixed shaft is penetrated at a corner of the stopper part. A pivot hole is formed, and the elastic element and the stop part are inserted into the tank chamber of the horizontal bar in order from the bottom to the top, and the fixed shaft is inserted into the pivot hole of the horizontal bar and the stop part. The stop piece is pivotally mounted on the transverse bar and the upper end of the elastic element is positioned in the stop hole and the lower end is in contact with the stop piece. When the pushing force is applied to the pushing part, the stop part rotates, and the mortgage part moves from the inside of the fitting column to the outside via the storage tank port, and the lateral direction. The rod is fitted onto the vertical rod by the fitting column, and the pushing part is released. Then, the dead end component rotates and returns to an oblique state by the urging of the elastic element, and the butt portion enters the inside of the fitting column again from the storage tank port and is locked in the corresponding ring groove. This is a tube column body shelf positioning structure.

The invention of claim 2 is characterized in that the lateral bars are installed on the vertical bars in different directions, or the loading plate is coupled on the support of two opposing lateral bars, or two opposing lateral bars 2. The pipe column shelf positioning structure according to claim 1, wherein a hanging rod is coupled to the front of the support portion.

The invention of claim 3 is arranged such that the transverse bars are symmetrical, the two fitting columns of the symmetrical transverse bars are respectively penetrated with the vertical bars, and the dead ends are respectively provided in the two tank chambers. The part and the elastic element are axially positioned and the lateral bar is pushed simultaneously by fitting the interlocking plate, so that the two stop-parts are rotated simultaneously, and the high on the two vertical bars. The pipe column shelf positioning structure according to claim 1, wherein the height is adjusted.

    With reference to FIGS. 1 and 2, a plurality of lateral bars 20 are fitted to the vertical bar 10, and each lateral bar 20 is caused by the biasing of the elastic element 30 below and the locking of the stop piece 40. The ring rod 11 is formed on the outer peripheral edge of the upright bar 10, the support bar 21 is formed on the front side of the horizontal bar 20, and the rear side is hollow. A fitting column 22 having an inner diameter slightly larger than the outer diameter of the vertical rod 10 is provided, and the horizontal bar 20 is fitted onto the vertical rod 10 by the installation of the fitting column 22, and the support portion 21. A tank chamber 23 is formed in the lower part at a position where the fitting column 22 intersects, and the tank chamber 23 is provided with a storage tank port 24 communicating with the inside of the fitting column 22 on the rear side, and pivot holes on both sides. 25 is penetrated, a blind hole 26 is formed in the upper side, and the elastic element 30 is In the normal state, it is laid against the dead end component 40 and becomes slanted. The dead end component 40 extends from the pushing portion 41 and the rear end thereof extends from the upper side to the lower side. A pivot hole 43 for penetrating the fixed shaft is formed at the corner.

    With reference to FIGS. 1 and 3, the elastic element 30 and the stop piece 40 are inserted in the tank chamber 23 of the horizontal bar 20 in order from the bottom to the top, and the fixed shaft is connected to the horizontal bar 20 and the dead end. The dead end piece 40 is pivotally mounted on the lateral bar 20 through the pivot holes 25 and 43 with the part 40. At this time, the elastic element 30 is positioned with the upper end inserted into the dead hole 26. In addition, when the lower end is slanted against the stop part 40 and is applied to the push part 41, the stop part 40 is rotated and the stop part 42 is moved. It moves from the inside of the fitting column 22 to the outside through the storage tank port 24, and the horizontal bar 20 is fitted onto the upright bar 10 by the fitting column 22, positioned at an appropriate height, and pushed. When the part 41 is released, the dead end component 40 is rotated by the biasing force of the elastic element 30. Returning to the oblique state, the mortar portion 42 enters the inside of the fitting column 22 from the storage tank port 24 again, and is locked in the corresponding ring groove 11, and is securely and stably raised by the locking force. Positioned on the bar 10.

    Referring to FIG. 4, when adjusting the height of the horizontal bar 20, if an upward pushing force is applied to the pushing portion 41, the dead end component 40 is rotated, and the mortgage portion 42 is placed in the storage tank port. 24, it is released from being locked in the ring groove 11 of the vertical bar 10, and the horizontal bar 20 is released from the locking force. When the pushing portion 41 is released after being adjusted to an appropriate height, the dead end component 40 rotates and returns to an oblique state by the urging of the elastic element 30, and the mortgage portion 42 again responds. It is positioned again by being locked by the ring groove 11 to be performed.

    In addition, referring to FIG. 5, the horizontal bar 20 may be installed on the upright bar 10 in different directions. Also, referring to FIG. 6, the support portions 21 of the two opposing horizontal bars 20. The loading plate 27 may be coupled to the upper side, and the suspension bar 28 may be coupled to the front of the support portions 21 of the two opposing lateral bars 20 with reference to FIG. In addition, the tube column shelf positioning structure has a form such as a clothes rack, a loading rack or a clothes rack.

    In addition, referring to FIGS. 8 to 10, the lateral bar 20 may be installed so as to be symmetric, and the vertical bar 10 is penetrated into the two fitting columns 22 of the symmetric lateral bar 20, respectively. In addition, the dead end component 40 and the elastic element 30 are respectively positioned in the two tank chambers 23, and the horizontal bar 20 is pressed simultaneously by fitting the interlocking plate 50, The two stop parts 40 can be simultaneously rotated to adjust the height on the two vertical bars 10.

    According to the structure of the specific embodiment described above, the following effects can be obtained.

The horizontal bar 20 is surely positioned on the upright bar 10 by the biasing of the elastic element 30 and the locking of the dead end component 40, and even if the load or the suspended object is heavy, the horizontal bar 20 is Because it is supported by a certain positioning force, there is no fear that an object will fall and be destroyed without sliding down.

Since the horizontal bar 20 is fitted onto the vertical bar 10 by the fitting column 22 and the butt portion 42 is locked to the ring groove 11 of the vertical bar 10, the horizontal bar 20 is positioned on the vertical bar 10. Even if an external force is applied from below the rod 20, there is no fear that it will be lifted up and fall to the ground as a result of being fitted by the fitting column 22 and having a locking force.

When the height of the horizontal bar 20 is adjusted, it does not need to be lifted up, and it is only necessary to press the pushing portion 41 of the stop piece 40. Therefore, the lifting angle is not correct, and the horizontal bar 20 There is no problem that cannot move smoothly.

3D assembly drawing of the present invention Three-dimensional exploded view of the present invention Assembly sectional view of the present invention Conceptual diagram of operation when adjusting the height of the present invention Example of clothes rack form of the present invention Example of the loading shelf form of the present invention Example of the clothes hanging form of the present invention 3D assembly diagram of another embodiment of the present invention Three-dimensional exploded view of another embodiment of the present invention Conceptual diagram of operation when adjusting the height of another embodiment of the present invention The figure which shows the positioning structure of the existing pipe column body and a shelf board Exploded view of FIG. Illustration of problems with existing structure

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Standing bar 11 Ring groove 20 Lateral bar 21 Support part 22 Fitting pillar 23 Tank chamber 24 Storage tank port 25 Pivot hole 26 Blind hole 27 Loading board 28 Suspension bar 30 Elastic element 40 Stopping part 41 Pushing part 42 Contact part 43 Pivot hole 50 interlocking plate

Claims (3)

A plurality of horizontal bars are fitted on the vertical bar, and each horizontal bar is surely positioned on the vertical bar at the lower side by urging the elastic element and locking the dead end part. A board positioning structure,
A large number of ring grooves are formed on the outer peripheral edge of the vertical rod, a support portion is formed in the front of the horizontal rod, and a rear fitting column is hollow and has an inner diameter slightly larger than the outer diameter of the vertical rod. The horizontal bar is fitted on the vertical bar by the installation of the fitting column, and at the position where the support portion and the fitting column intersect, a tank chamber is formed below, On the rear side, a storage tank port communicating with the inside of the fitting column is provided, pivot holes are penetrated on both sides, a blind hole is formed on the upper side, and an elastic element is formed between the lateral bar and the stop-off component In the normal state, the stop part is tangled with the stop part, and the stop part is composed of a pushing part and a stop part that extends and then bends from the top to the bottom. A pivot hole for penetrating the fixed shaft is formed in the corner of the stop part. ,
The elastic element and the stop part are inserted into the tank chamber of the horizontal bar in order from the bottom to the top, and the fixed shaft penetrates the pivot hole of the horizontal bar and the stop part, so that the stop part is Pivoted on a horizontal bar, at this time the upper end of the elastic element is positioned in a blind hole and the lower end is slanted against the stop piece and pushed When the upward pushing force is applied to the part, the stop part rotates, the mortgage part moves from the inside of the fitting column to the outside through the storage tank port, and the horizontal bar is raised by the fitting column. When it is fitted onto the rod and the pushing part is released, the dead end part rotates and returns to an oblique state by the biasing force of the elastic element, and the mortgage part again comes from the storage tank port to the fitting column. Entering inside and locked into the corresponding ring groove,
A tube column shelf positioning structure characterized by that. The horizontal bar is installed on the vertical bar in different directions, or the loading plate is coupled on the support part of two opposing horizontal bars, or suspended in front of the support part of two opposing horizontal bars 2. The pipe column shelf positioning structure according to claim 1, wherein a down rod is coupled. The horizontal bars are installed symmetrically, the vertical poles are penetrated through the two fitting columns of the symmetrical horizontal bars, and the stop parts and the elastic elements are respectively installed in the two tank chambers. The horizontal bar is engaged with the interlocking plate and simultaneously pushed by fitting the interlocking plate, so that the two stop parts are simultaneously rotated to adjust the height on the two vertical bars. The pipe column body shelf positioning structure according to claim 1.