KR20020081844A - Column unit - Google Patents

Abstract

PURPOSE: A column unit, installed between a seat and a base in order to adjust the height of a chair, is provided to secure the smooth and stable up and down movement of a spindle by installing a coated bushing. CONSTITUTION: The column unit comprises a base tube(10), a spindle(13) reciprocating up and down within the spindle, and at least one bushing(12) installed between the spindle and the inner surface of the base tube. The upper end of the bushing is positioned at a higher level than that of the upper end of the base tube, and the inner surface of the bushing is coated with a lubricant.

Description

Column unit {Column unit}

The present invention relates to a column unit that can adjust the height, in particular, to reduce the friction when the spindle, which is a component of the column unit installed between the seat of the chair and the base of the chair to adjust the height of the chair is moved up and down At the same time it relates to a column unit that can smoothly and stably move the spindle up and down by installing a bushing coated with a lubricant on the inner wall to improve the bearing capacity against the external force applied to the spindle.

In general, a well-known column unit applied to a chair has a structure in which a gas cylinder is installed inside a base tube. That is, the piston rod of the gas cylinder is rotatably installed on the support plate sealing the lower part of the base tube by the ball bearing, and the piston provided at the upper end of the piston rod is located inside the spindle of the gas cylinder, The spindle interior is filled with pressure gas to serve as a gas cylinder. Here, the inside of the spindle is configured such that even if the spindle is moved up and down along the piston rod, the pressure gas therein is not leaked to the outside, the spindle is separated into two upper and lower chambers by the piston and a hole in each chamber This is formed and connected by a bypass channel, and a hole formed in the upper chamber is provided with a control valve and a control pin for controlling the opening and closing thereof. The seat of the chair is placed on the upper part of the spindle, and the base of the chair (chair) is typically installed on the lower part of the base tube.

The general column unit for a chair configured as described above is composed of a base tube and a gas spindle, and the spindle of the gas cylinder is moved up and down to adjust the height of the chair seat. In other words, when the user presses the control pin to open the control valve while the spindle is at the lowest position, the upper and lower chambers of the spindle are connected through two holes and a bypass channel so that the pressure gas inside the spindle pushes the piston toward the lower side of the spindle. The spindle then rises along the piston rod. On the contrary, if a force exceeding the pressure gas pressure is applied from the top of the spindle while pressing the control pin, the spindle moves downward. The user may not only adjust the height of the chair seat by appropriately adjusting such an operation, but also feel the cushion when the user sits on the chair seat by the gas cylinder effect.

The column unit used in the conventional chair is a base tube (1) fixed to the center of the base of the chair is typically installed with a plurality of wheels, as shown in Figure 1, and the base tube (1) can be rotated on the inner lower end It is connected to the piston rod 6 is provided with a lower end is made of a spindle (3) which is moved up and down inside the base tube (1).

The spindle 3 is moved up and down in accordance with the guide of the tube guide 2 installed on the inner side of the base tube 1, the spindle 3 being sealed with pressure gas inside, and the upper end of the piston rod 6. The piston is installed but the piston is installed inside the spindle (3) to divide the inside of the spindle (3) into the upper and lower chambers. The divided upper and lower chambers of the spindle 3 are connected by a bypass channel, and the opening and closing of the bypass channel is determined by the operation of the gas opening and closing pin 5. That is, when the gas opening and closing pin 5 is pressed, the bypass channel is opened so that the upper and lower chambers of the spindle communicate with each other, so that the spindle 3 moves upward by the gas pressure therein. The maximum rise is shown in FIG. 1. Of course, in this case, if a force capable of overcoming the gas pressure inside the spindle 3 is applied from above to downward, the spindle 3 may be moved downward.

In the column unit illustrated in FIG. 1, since the guide sleeve 4 having a constant thickness is provided on the outer surface of the spindle 3, the vertical movement distance of the spindle 3 increases in a state where the length of the base tube 1 is constant. Even if the spindle moves up and down stably. In particular, the guide sleeve 4 is always with the spindle 3 because the guide sleeve 4 forms a groove portion 4a by pressing a predetermined portion inwardly by a hit so that the guide sleeve 4 can be integrally moved together with the spindle 3. It is moved up and down. The guide sleeve and the spindle to move up and down integrally may be a method of installing a screw or a pin is installed so as to penetrate a certain portion of the guide sleeve to a certain depth of the spindle in addition to the above-described groove portion.

Here, the force for raising the spindle 3, which is vertically moved up and down with the guide sleeve 4, is a force except for the frictional force due to the rise of the spindle 3 from the gas pressure inside the spindle 3, and the spindle 3 rises. It is the power to let.

However, the conventional column unit may not only smoothly move up and down by friction force generated between the spindle and the tube guide generated when the spindle is moved up and down or the guide sleeve moved up and down integrally with the spindle. There is a problem that the speed may appear different at the height of.

In addition, in the conventional column unit, the external force applied to the spindle is not applied precisely along the axial direction of the spindle, but is almost obliquely applied, so that the end of the tube guide may be unreasonably stressed and the bearing force is weakened. . In addition, when the guide sleeve is installed, the spindle is lowered in a state in which the force is applied at an angle with respect to the spindle axis direction, thereby preventing the spindle from smoothly descending.

The present invention has been made to solve the above-mentioned problems of the prior art, the cylinder-shaped bushing with a lubricant coated on the inner surface between the base tube and the spindle press-installed so that a certain portion from the upper end protrudes over the upper end of the base tube The purpose of the present invention is to provide a column unit which not only guides the movement of the up and down smoothly but also improves the bearing capacity against the external force applied to the spindle.

1 is a longitudinal sectional view of a column unit according to the prior art,

2 is a longitudinal sectional view of a column unit according to the present invention;

FIG. 3 is a longitudinal sectional view showing a state in which the spindle of the column unit shown in FIG. 2 is at its maximum raised position;

4 is a cross-sectional view taken along line IV of FIG. 2;

5 is a perspective view of a bushing which is part of the column unit according to the invention shown in FIG. 4, FIG.

6 is a perspective view of a bushing that is a part of a column unit according to another embodiment of the present invention;

7 is a cross-sectional view taken along the line X-ray shown in FIG. 6;

8 is a perspective view of a bushing that is a part of a column unit according to another embodiment of the present invention;

FIG. 9 is a cross-sectional view taken along line X-ray shown in FIG. 8.

<Explanation of symbols on main parts of the drawings>

10: base tube 11: tube guide

12, 12 ', 12 "bushing 13, 13', 13": spindle

14: guide sleeve 15: gas opening and closing pin

16: piston rod

In the column unit according to the present invention, in the column unit in which the spindle is reciprocated up and down inside the base tube, one or more bushings are installed on the inner side between the spindle and the base tube, and an upper end portion of the bushing is higher than an upper end portion of the base tube. It is characterized by being installed high.

In addition, the column unit according to the present invention is coated with a lubricant on the inner surface of the bushing, the lubricant is one material selected from molybdenum disulfide or teflon, characterized in that the thickness is 2 ~ 70㎛.

In addition, in the column unit according to the present invention, the bushing is forcibly pressed into the inner surface of the base tube, and a part of the bushing is cut out to facilitate the forced press.

In the column unit according to the present invention, one or more long grooves are formed along the axial direction on the inner surface of the bushing, and one or more grooves formed on the inner surface of the bushing are formed at regular intervals when a plurality of grooves are formed. The grease is injected into the groove of the bushing.

In addition, the column unit according to the present invention is characterized in that the bushing is manufactured by a drawing process.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

The column unit according to the present invention is a base tube 10 is fixed to the center of the base of the chair as shown in Figure 2 to 5, and the tube guide 11 to be fitted to the inner surface of the base tube 10 and The spindle 13 is moved up and down in the base tube 10 according to the guide of the tube guide 11.

The lower end of the piston rod 16 is rotatably fixed to the lower end of the base tube 10, and a piston is installed at the upper end of the piston rod 16, and the piston divides the space inside the spindle 13 into an upper and lower chamber. It is installed inside the spindle 13 so that the spindle 13 is filled with a pressure gas and sealed. In addition, the upper and lower chambers of the spindle 13 are to be communicated by the bypass channel and the bypass channel is determined by the operation of the gas opening and closing pin 15. That is, when the gas opening and closing pin 15 is pressed, the bypass channel is opened to communicate with the upper and lower chambers of the spindle 13. On the contrary, in the state where the gas opening and closing pin 15 is not pressed, the bypass channel is closed to communicate with the upper and lower chambers. It will also be closed.

A guide sleeve 14 for constituting a telescopic column unit is fitted to the outer surface of the spindle 13 so that the spindle 13 can perform a longer stroke than when the guide sleeve 14 is not installed. In addition, it is possible to perform the administration stably. Since the guide sleeve 14 must move up and down together with the spindle 13 in order to exert its function, in the present invention, the guide sleeve 14 is pressed against a portion in a state where the guide sleeve 14 is fitted to the outer surface of the spindle 13. The guide sleeve 14 can be moved up and down integrally with the spindle 13 by allowing the 14a to be formed.

In particular, the column unit according to the present invention is provided with a cylindrical bushing 12 coated with a lubricant on the inner surface between the outer surface of the guide sleeve 14 and the inner surface of the tube guide 11. By installing the cylindrical bushing 12, not only the friction with the guide sleeve 14 can be reduced, but also the external force applied to the spindle because the upper end of the bushing 12 protrudes higher than the upper end of the tube guide 11. At the same time to provide a bearing capacity to withstand the guide when the spindle is lowered, the vertical movement of the spindle 13 can be made smoothly. In addition, a lubricant is coated on the outer surface of the guide sleeve 14 to further reduce the frictional force.

Molybdenum disulfide (MoS ₂ ) or Teflon (PTFE: polytetraflourethylene) is suitable as a lubricant coated on the inner surface of the cylindrical bushing 12 and the outer surface of the guide sleeve 14.

In addition, grease is applied to the inner surface of the cylindrical bushing 12 to further improve lubrication.

2 is a view showing a state in which the spindle 13 is located at the lowermost position in the column unit according to the present invention, wherein the piston installed inside the spindle 13 is located at the top of the spindle 13. A cross-sectional view taken along line IV shown in FIG. 2 is shown in FIG. 4, which shows a base tube 10, a tube guide 11, a cylindrical bushing 12, a guide sleeve 14, which are outer cylinders from the outermost part when viewed in cross section. It can be seen that the structure is installed in the order of the spindle (13). That is, since the spindle 13 always moves up and down together integrally with the guide sleeve 14, the cylindrical bushing 12 is provided in the position which is in contact with the outer surface of the guide sleeve 14. Of course, it will be appreciated that the cylindrical bushing 12 can be installed between the spindle 13 and the tube guide 11 in the absence of the guide sleeve 14.

In addition, the inner surface of the cylindrical bushing 12 is coated with a lubricant molybdenum disulfide or Teflon (PTFE), if there is a guide sleeve 14, the outer surface of the guide sleeve 14, there is no guide sleeve 14 In this case, it is preferable that the lubricant is coated on the outer surface of the spindle 13.

3 is a view showing a state in which the column unit according to the present invention is moved the highest, and of course, the spindle 13 and the guide sleeve 14 are raised together integrally. That is, when the gas opening and closing pin 15 is pressed and the bypass channel is opened in the state shown in FIG. 1, the upper and lower chambers of the spindle 13 communicate with each other, so that the spindle 13 is guided by the gas pressure therein. The friction force between the sleeve 14 and the cylindrical bushing 12 is overcome and rises, eventually leading to the state shown in FIG. 3. Of course, if the spindle 13 is raised in the middle to remove the force to press the gas opening and closing pin 15, the spindle 13 is stopped at that position. On the contrary, when the gas opening and closing pin 15 is pressed in the maximum lift state shown in FIG. 13) starts to descend, and eventually reaches the state shown in FIG. 5 is a perspective view of the cylindrical bushing 12, a portion of which is cut away. If a part is cut in this way, since it can install in the base tube 1 in the state which reduced the diameter, the installation is very easy.

6 and 7 show that the grooves are formed on the inner surface of the bushing 12 'at regular intervals as another embodiment of the column unit according to the present invention. Therefore, the area contacted between the inner surface of the bushing 12 'and the guide sleeve 14 may be reduced, thereby reducing the frictional force, and each groove may have grease applied to the inner surface of the bushing 12'. Since is filled with a large amount of grease can be further extended by the grease. Reference numeral 12 'denotes the cut out portion.

Meanwhile, FIGS. 8 and 9 illustrate another example of the column unit according to the present invention, in which five grooves are formed on the inner surface of the bushing 12 ″. This is illustrated in FIGS. 6 and 7. Another modified example of (12 '). Reference numeral 12 "denotes a cut out portion.

As described above, the column unit according to the present invention is provided with a bushing coated with a lubricant on the inner surface of the column unit so as to protrude from the upper end of the base tube to a predetermined height between the spindle and the base tube to improve the bearing capacity of the spindle as well as to smoothly move up and down the spindle. Provide the effect of doing so.

In addition, the column unit according to the present invention provides an effect of smoothly moving up and down the spindle by reducing the friction force by regularly forming a groove on the inner surface of the bushing to reduce the contact area with the spindle.

The present invention is not limited to the above embodiments and may be variously modified and implemented by those skilled in the art without departing from the technical gist of the present invention.

Claims (9)

In the column unit in which the spindle reciprocates up and down inside the base tube, One or more bushings are installed on an inner surface between the spindle and the base tube, and an upper end of the bushing is installed higher than an upper end of the base tube. The method of claim 1, The bushing is a column unit, characterized in that the lubricant is coated on the inner surface. The method of claim 2, Wherein said lubricant is any one selected from molybdenum disulfide or teflon. The method of claim 2, The lubricant is a column unit, characterized in that coated with a thickness of 2 ~ 70㎛. The method of claim 1, The bushing is forcibly pressed into the inner surface of the base tube, the column unit, characterized in that a portion is cut to facilitate the forced press. The method of claim 1, And at least one long groove formed along an axial direction on an inner surface of the bushing. The method of claim 6, At least one groove formed on an inner surface of the bushing is formed at regular intervals when a plurality of grooves are formed. The method of claim 6, And a grease is injected into the groove of the bushing. The method of claim 1, The bushing is a column unit, characterized in that produced by the drawing process.