Source: http://www.docstoc.com/docs/57795637/Cable-Operated-Gas-Cylinder---Patent-7721640
Timestamp: 2014-12-27 17:46:14
Document Index: 144359807

Matched Legal Cases: ['art.\n3', 'art.\n5', 'Application No. 10', 'Application No. 10', 'Application No. 10', 'art 172', 'art 173', 'art 172', 'art 174', 'art 173', 'art 175', 'art 174', 'art 175', 'art 175', 'art 175', 'art 175', 'art 182', 'art 172', 'art 182', 'art 182', 'art 183', 'art 172', 'art 173', 'art 184', 'art 175', 'art 174', 'art 173', 'art 173', 'art 182', 'art 173', 'art 173', 'art 175', 'art 172', 'art 175', 'art 172', 'art 175', 'art 172', 'art 174', 'art 173', 'art 174', 'art 184', 'art 174', 'art 172', 'art 192', 'art 172', 'art 192', 'art 192', 'art 192', 'art 192', 'art 172', 'art 172', 'art 172', 'art 172', 'art 192', 'Application No. 10', 'Application No. 10', 'Application No. 10']

United States Patent: 7721640
7,721,640
A cable operated gas cylinder comprises: a base tube; a spindle which is
inserted at hollow part in said base tube; a cylinder which is mounted
within said spindle; a piston dividing the gas-filled space within said
cylinder into upper part and lower part; a pipe holder sealing airtight
the upper part of said cylinder; a gas opening/closing pin which is
mounted penetratingly through central part of said pipe holder and for
controlling getting in and out of the gas filled within said cylinder; a
release arm for controlling the opening/closing of said gas
opening/closing pin; a cable for controlling turning of said release arm
when being pulled by external force; and a taper holder which receives
said release arm therein and rotationally intervenes within said spindle,
wherein said release arm and said taper holder are capable of rotating
together as said cable rotates.
Lee; Ho Min (Seoul, KR)
11/766,676
10-2006-0058349
91/437  ; 297/344.19
F15B 11/08&amp;nbsp(20060101); A47C 1/06&amp;nbsp(20060101)
91/437 297/344.19
2004/0124570
2005/0022661
1020000007287
1020000008481
1020040092715
1.  A cable operated gas cylinder comprising: a base tube having a hollow portion therein;  a spindle inserted into the hollow portion of the base tube and movable up and
down;  a cylinder received within said spindle;  a pipe holder which is installed on an upper part of the cylinder and seals airtight the upper part of the cylinder;  a gas opening/closing pin which penetrates a central part of the pipe holder to control
the gas flow within the cylinder;  a release arm which is installed at an upper side of the gas opening/closing pin and for controlling operation of the gas opening/closing pin;  a cable having one end which is fixed at the release arm, to pivot the
release arm by external force;  and a taper holder which is accommodated within the spindle and receives the release arm therein in a manner that the release arm is freely rotatable together with the taper holder;  and a taper holder supporter through
which the taper holder passes, the taper holder supporter having a stepped part at an inner surface thereof;  wherein one lower end portion of the release arm is in contact with the inner surface of the taper holder, and the other lower end portion of
the release arm is hooked by the stepped part of the taper holder supporter, and wherein the release arm is pivotable within the taper holder, without being fixed to any inner portion of the taper holder, and wherein a portion of the taper holder is
completely open from the upper end to the lower end, such that the release arm is allowed to be at least transversely inserted in the taper holder.
2.  The cable operated gas cylinder according to claim 1, wherein the release arm includes: a hooking prominence which protrudes at one side of the lower end part thereof;  a pin pressing part which is formed at substantially opposite side of
the hooking prominence and is smoothly rounded;  a vertical interval retaining part which extends upwardly from the pin pressing part;  a horizontal interval retaining part which is slightly bent at the upper end of the vertical interval retaining part;
and a cable hooking part which extends upwardly from the horizontal interval retaining part.
3.  The cable operated gas cylinder according to claim 2, wherein the one lower end portion of the release arm is the pin pressing part, and the other lower end portion is the hooking prominence.
4.  The cable operated gas cylinder according to claim 2, wherein the taper holder includes a lower arm guide part, and wherein the lower arm guide part has an arm insertion hole which is defined by a guide plane, the guide plane being smoothly
curved and in contact with the pin pressing part to guide the pivotal movement of the pin pressing part.
5.  The cable operated gas cylinder according to claim 4, wherein the taper holder includes an upper arm guide part integrally extends from the upper end of the lower arm guide part, and wherein the upper arm guide part has at an upper end
portion a cable insertion groove.
6.  The cable operated gas cylinder according to claim 1, wherein the taper holder is configured to be assembled with the taper holder supporter in a manner that the taper holder is inserted from the bottom of the taper holder supporter upward.
7.  The cable operated gas cylinder according to claim 4, wherein the taper holder has at a lower end portion a stepped part of which outer diameter is bigger than the outer diameter of the lower arm guide part, and wherein the stepped part of
the taper holder is fitted in the stepped part of the taper holder supporter, to prevent the separation of the taper holder from the taper holder supporter.
8.  The cable operated gas cylinder according to claim 4, further comprising a washer interposed between the taper holder supporter and the pipe holder, to help smooth rotation of the assembly of the release arm, the taper holder and the taper
holder supporter.
9.  The cable operated gas cylinder according to claim 1, wherein the outer diameter of the taper holder is less than the inner diameter of the taper holder supporter, and wherein a lubricant is provided in the gap between the taper holder and
the taper holder supporter.
10.  A cable operated gas cylinder comprising: a base tube;  a spindle movably inserted into the base tube;  a taper holder supporter received in an upper inner end of the spindle;  a taper holder upwardly passing through and hooked to the taper
holder supporter, the taper holder being freely rotatable;  a pipe holder located below the taper holder;  a gas opening/closing pin which vertically penetrates the pipe holder to control the gas flow within the cylinder;  a release arm of which at least
a portion is pivotally accommodated within the taper holder to selectively press the gas opening/closing pin;  and a cable connected to the release arm, the release arm pivoted by the horizontally oriented external force to the cable, wherein one lower
end portion of the release arm is in contact with the inner surface of the taper holder, and the other lower end portion opposite to the one lower end portion of the release arm is connected in contact to the taper holder supporter, and wherein a portion
of the taper holder is completely open from the upper end to the lower end, such that the release arm is allowed to be transversely inserted in the taper holder.  Description
This application claims foreign priority under Paris Convention and 35 U.S.C.  .sctn.119 to Korean Patent Application No. 10-2006-0058349, filed Jun.  27, 2006 with the Korean Intellectual Property Office.
The present invention relates generally to a cable operated gas cylinder and more particularly to a cable operated gas cylinder, gotten rid of the phenomenon of kinking or twisting of the cable upon rotation of the chair, thereby operable with
enhanced operation reliability and product durability.
A gas cylinder is an apparatus formed between a seat of a chair and a chair base for being used in adjusting height of the seat.  Also, the gas cylinder may be applied to a variety of apparatus such as an impulse buffering apparatus for a vehicle
as well as an apparatus for adjusting height of a seat of a chair.
A general configuration of traditional gas cylinder is shown clearly by a Korean Patent Application No. 10-1998-0028313 entitled as &quot;Gas Cylinder Type of Height Adjuster for Chair&quot; which was applied by the applicant of the present invention and
granted for a patent registration by Korean Government.
But, in the gas cylinder of the related art, a gas opening/closing pin should operate up and down directions with use of a separate knob formed on the lower side of a seat of a chair.  Therefore, there exists a problem that a user should bend
his/her body in order to operate the knob.
In order to solve such inconvenience, Korean Patent Application No. 10-1998-0026546 entitled as &quot;Adjusting Member for Height of Chair&quot;, which has been already filed as a patent application by the applicant of the present invention and granted for
a patent registration by Korean Government, could be suggested for the related art.
The registered patent &quot;Adjusting Member for Height of Chair&quot; discloses a gas cylinder operating with use of a cable, and additionally having: a separate button additionally installed on a predetermined structure exemplified as an arm rest of a
chair; and a cable operated by the button, and the gas cylinder is characterized in that its up and down movements are performed by button pressing.
Such &quot;Adjusting Member for Height of Chair&quot; of the relate art, however, has following problems.
On the first place, the apparatus is so complicated that a plurality of various parts is used, and assembling process of the parts is difficult.  Also, as a plurality of parts is used, manufacturing costs are increased.
Also, because of user&#39;s turning of the chair in use, the cable will twist and kink so that operation reliability of the product becomes lower and even further the product itself gets disordered.
The present invention was contrived to solve foregoing problems.  An object of the present invention is therefore to provide a cable operated gas cylinder, gotten rid of the phenomenon of kinking or twisting of the cable upon rotation of the
chair, thereby operable with enhanced operation reliability and product durability.
In order to achieve the foregoing objects, a cable operated gas cylinder according to the present invention comprises: a base tube of hollow tube shape; a spindle which is inserted at hollow part in said base tube and capable of moving up and
down according to height adjusting; a cylinder which is, being filled with a gas, mounted within said spindle; a piston which is in contact with inner peripheral plane of said cylinder so as to divide the gas-filled space within said cylinder into upper
part and lower part; a pipe holder which is installed at upper part of said cylinder and seals airtight the upper part of said cylinder; a gas opening/closing pin which is mounted penetratingly through central part of said pipe holder and for controlling
getting in and out of the gas filled within said cylinder; a release arm which is installed at upper side of said gas opening/closing pin and for controlling the opening/closing of said gas opening/closing pin; a cable, whose one end is fixed at said
release arm, for controlling turning of said release arm when being pulled by external force; and a taper holder which receives said release arm therein and rotationally intervenes within said spindle, wherein said release arm and said taper holder are
capable of rotating together as said cable rotates.
Moreover, manufacturing process at work site can be more simplified as well as convenience in use can be achieved.  Due to its simplified configuration, operation stability and reliability of the gas cylinder can be increased, but production cost
thereof can be far much lowered.
Hereinafter embodiments of the present invention will be described in detail in conjunction with the accompanying drawings.  But technical concepts of the invention are not limited within the proposed embodiments.  On the contrary, by addition of
other constituting elements, change or deletion of the constituting elements from the present invention, another retrogressive invention or other embodiments that fall within the scope of the present invention can be easily suggested.
Referring to FIG. 1, a gas cylinder according to the present invention comprises: a base tube 110 of a hollow tube shape; a spindle 120 of a hollow tube shape inserted at the hollow part of said base tube 110; a tube guide 115 and bushing 117
further inserted at contact plane between said base tube 110 and said spindle 120 in order that up and down movement of said spindle can be done smoothly; and a cylinder 140 of a hollow tube shape further formed at inner peripheral plane of said spindle
Said gas cylinder further comprises: a piston 130 which is in contact with the inner peripheral plane of said cylinder 140 for dividing the gas-filled space in the cylinder 140 into upper chamber 161 and lower chamber 162; a piston rod 135
prolonged downwards whose one end is fixed at said piston 130 and the other end is fixed at lower end of said base tube 110; and a fixing clip 137 for fixing the other end of said piston rod 135 at said base tube 110.
Said gas cylinder further comprises: a pipe holder 152 for sealing airtight the upper part of said cylinder 140; a gas opening/closing pin 151 mounted penetratingly through central part of said pipe holder 152 for enabling the gas within said
cylinder 140 to move; an orifice 153 formed within said pipe holder 152 for enabling the gas filled within said pipe holder 152 to move in and out when said opening/closing pin 151 is down; and at least one inner seal 154 inter-positioning at contact
plane for airtight sealing between outer peripheral plane of said pipe holder 152 and inner peripheral plane of said spindle 120 and/or cylinder 140.
More particularly, said cylinder is formed with a gas chamber 160 of predetermined length and nitrogen gas is filled in said gas chamber 160.  Said gas chamber 160 is divided by said piston 130 into two parts, i.e., upper chamber 161 and lower
chamber 162.  Up and down movement of said spindle 120 makes change in the volumes between upper chamber 161 and lower chamber 162.
The pressure in said upper chamber 161 and lower chamber 162 maintains a pressure (P2) which is higher than atmosphere (P1).  A gas flow path 163 is formed between said cylinder 140 and said spindle 120 for providing a path for gas to move
between said upper chamber 161 and lower chamber 162.
There are further comprised of a taper holder 180 formed further at upper side of said pipe holder 152, a taper holder supporter 190 in order for said taper holder 180 to be put over rotationally, a release arm 170 by which a motion of pressing
upper end of said gas opening/closing pin 151 can be done, and whose stop position and motion is guided by said tape holder 180, and a cable 165 for enabling said release arm 170 to operate.
Said base tube 110, spindle 120, cylinder 140, release arm 170, taper holder 180, taper holder supporter 190, or the like can preferably be made of metallic materials in order that these parts might be able to sustain against high pressure gas
filled within the cylinder 140 and not be broken by stress applied from user&#39;s weight.  Also material of said pipe holder 152 is metal.  But the material thereof is not limited as within metal.  Even plastic material might be used also with no limitation
as long as it can furnish sufficient strength.
One end of said cable 165 is connected with said release arm 170, and the other end with predetermined button.  As for said button, for example, a traditional button structure can be used as it is installed at armrest of a chair.  Moreover, one
end of said cable 165 can be connected with said release arm 170, and the other end with a predetermined lever.
The button structure or lever structure formed at the other end of said cable 165 in description as above is only for explanatory example.  Any structure capable of pulling the cable 165 can be used only if such structure is able to pull the
cable 165 within a range of certain length.  It does not matter if any other cable-pulling structure already known in any industrial field other than the field related with a gas cylinder is used.
Said release arm 170 rotates around a predetermined rotational center shaft for operating of said gas opening/closing pin 151.  Particularly for positioning of said release arm 170, its position is not fixed, or fixed shaft structure is not
adopted as a predetermined center shaft for said rotational center shaft.  But by insertion into a predetermined space formed within said taper holder 180, its position can be appointed.  Lower side of said release arm 170 is supported by said gas
opening/closing pin 151.
Moreover, said taper holder 180 includes, in its inner space, said release arm 170 and is inserted at upper end of said spindle 120.  Particularly, by insertion of said release arm 170 within said taper holder 180 for settling its position, the
installation process for release arm 170 is finished.  Therefore, in this way there is no limitation for said release arm 170 to be operated.
Moreover, said taper holder supporter 190 is formed as a hollow cylindrical shape.  At inner space of taper holder supporter 190, the taper holder 180 is combined.  In other words, said taper holder supporter 190 is combined with upper end part
of inner peripheral plane of said spindle 120, and said taper holder 180 is inserted at inner peripheral plane of taper holder supporter 190.  Preferably, outer diameter of said taper holder 180 can be formed smaller to some extent than inner diameter of
said taper holder supporter 190.  Therefore, in case said cable 165 changes its direction following rotation of chair, said taper holder 180 can rotate by guiding of taper holder supporter 190.
Now, the cable 165, whose position is fixed by insertion at said release arm 170, after its penetration through release arm 170, can be fixed incorporated at end thereof or placed on release arm 170 thanks to a hanger 167 having an additional
commodity fixed thereto.  Unexplained numeral 155 is a washer.
Thanks to above-described configuration, said taper holder 180 can rotate together with rotation of cable 165 connected to taper holder 180.  Hence, kinking or twisting of said cable 165 can be advantageously prevented.
But when a user gets seated on chair and said cable 165 is pulled by external force, said release arm 170 rotates and moves to right based on FIG. 1 so that gas opening/closing pin 151 gets pressed.  When said gas opening/closing pin 151 gets
pressed and goes down, a space occurs at lower end part of said pipe holder 152.  Then, at inner peripheral plane of said gas opening/closing pin 151, a dented part is formed dented to a predetermined depth.  Accordingly, the gas within said upper
chamber 161 moves to upper part along the space formed at lower end part of said pipe holder 152.  Then, this gas flow moves to said dented part, and further moves through said orifice 153 to a gas flow path 163 formed between spindle 120 and cylinder
140.  Also, this gas flow downward along said gas flow path 163 moves further to said lower chamber 162.  Accordingly, volume of said lower chamber 162 becomes larger than that of said upper chamber 161, and spindle 120 goes down.  Together with these
operations, total length of gas cylinder becomes smaller, so seat of the chair moves down.
When the height of chair seat has been adjusted as desired, the external force pulling the cable 165 is removed.  If said external force is removed, said gas opening/closing pin 151 moves its position upwards due to the pressure applied from a
high pressure gas within upper chamber 161; said release arm 170 and cable 165 can recover to their original positions.  Because said gas opening/closing pin 151 has moved upward, gas transfer stops between said gas chambers 161 &amp; 162, and accordingly
the position of chair seat gets fixed.
As has been mentioned hereinbefore, one end of said cable 165 is connected with said release arm 170, and the other end with a predetermined button or lever.  For example, said button can be installed at armrest part of a chair, and the lever at
a tilt mechanism of chair seat.
In this case, when a user rotates the chair, the button installed at armrest of chair and the cable 165 connected with said button also rotate together.  And the taper holder 180 connected with said cable 165 and release arm 170 can also rotate
in accordance with guiding by said taper holder supporter 190.  Thus, the phenomenon of kinking or twisting of said cable 165 can be prevented.
Said release arm 170 comprises: a hooking prominence 171 which functions as a rotational center by protruding in a shape of a peak formed at one side of lower end part of said release arm; a pin pressing part 172 of slowly curved shape formed at
approximately opposite side to said hooking prominence 171; a vertical interval retaining part 173 which is formed extendedly upward from said pin pressing part 172; a horizontal interval retaining part 174 which is formed bent to approximately
horizontal direction from said vertical interval retaining part 173; and a cable hooking part 175 which is formed extendedly further upward from said horizontal interval retaining part 174.
Furthermore, said cable hooking part 175 comprises: a cable hooking end 176 formed dented at one side of the cable hooking part 175 in order for end of cable to be fixed, and a cable insertion hole 177 formed penetratingly through cable hooking
part 175 at the dented position of said cable hooking end 176.  A predetermined hanger (referring to 167 of FIG. 1) can be placed at said cable hooking part 175 in order for the cable not to slip out (referring to 165 of FIG. 1), but it is not
FIG. 3 is a top plan view of a taper holder in a gas cylinder according to the present invention; FIG. 4 is a cross-sectional view taken along line 4-4 in FIG. 3; FIG. 5 is a front view of a taper holder in a gas cylinder according to the present
invention; and FIG. 6 is an external perspective view of a taper holder in a gas cylinder according to the present invention.
Referring to FIGS. 3 to 6, there are within a taper holder 180 of a predetermined shape further comprised of an arm insertion hole 181 which is formed larger to some extent than the thickness of said release arm 170 so that the release arm 170
can be inserted therein; an arm guide part 182 which forms both side walls of said arm insertion hole 181; a guide plane 186 of a shape slowly curved in a particular form similar to shift position of the pin pressing part 172 in order that rotation of
said release arm 170 can be smoothly guided by contact plane to plane with said pin pressing part (referring to 172 of FIG. 2); and a cable insertion groove 185 which is formed dented at upper end part of said arm guide part 182.
More particularly, said arm guide part 182 is formed with a lower arm guide part 183 wherein at least one part of hooking prominence 171 of said release arm 170, pin pressing part 172, and vertical interval retaining part 173 is inserted.  And
there are further formed with an upper arm guide part 184 wherein at least one part of said cable hooking part 175, horizontal interval retaining part 174, and said vertical interval retaining part 173 gets inserted.
In addition, an opening can be formed at one side of said taper holder, that is, at entrance of arm insertion hole 181.  In other words, a part of side of said cylinder-shaped taper holder 180 may be cut out.  In this way, production cost can be
reduced as much as this cut-out portion.
Said vertical interval retaining part 173, being a part of said release arm 170, enables said release arm 170 to be relieved over from the range formed by a lower arm guide part 182 and move back and forth.  Especially, said vertical interval
retaining part 173 can be shaken back and forth within the range of width of said arm insertion hole 181 (referring to interval C of FIG. 4).
In addition, said vertical interval retaining part 173 can, due to enlarged momentum by enlargement of distance between said cable hooking part 175 and said pin pressing part 172, enable an external force applied to cable hooking part 175 to be
even larger at said pin pressing part 172.  In this way, though in case when the pulling force for cable hooking part 175 is small, the force applied to pin pressing part 172 gets larger in some extent, so the reliability in operation of the gas cylinder
Moreover, said horizontal interval retaining part 174 is formed bent for a predetermined length from said vertical interval retaining part 173 to approximately horizontal direction and more particularly to left-upper side direction, so that
operational width of release arm 170 can be smoothly secured when cable 165 is pulled.  In other words, if said horizontal interval retaining part 174 were not formed as described above, the upper end part of release arm 170 would interfere with said
upper arm guide part 184 on maximum pulling of said release arm 170.  That is why said horizontal interval retaining part 174 should be formed for preventing such interference.
Said release arm 170 gets inserted at lower side of said taper holder 180 and positioned at said arm insertion hole 181.  At this time, opened part at lower side of said arm insertion hole 181 is formed larger than said release arm 170, so said
release arm 170 can be inserted without any obstruction.
When said release arm 170 gets received within said arm insertion hole 181, said pin pressing part 172 contacts plane to plane with said guide plane 186, so release arm 170 is stably supported at its one side.  And said hooking prominence 171
gets contacted with and caught at arm hooking part 192 of taper holder supporter 190 (which will be described later), so the release arm 170 is stably supported at its other side.  Moreover, a gas opening/closing pin 151 placed at lower side of said
release arm 170 can sustain weight of release arm 170, and thus overall position of said release arm 170 can be stably maintained.
In addition, when said release arm 170 changes its position, release arm 170 is guided for its position change according to contacting state between pin pressing part 172 and guide plane 186 and contacting state between hooking prominence 171 and
arm hooking part 192, and therefore said release arm 170 can operate stably.  Especially, being caught at arm hooking part 192, said hooking prominence 171 can function in operation as an overall central point for rotation of release arm 170.
FIG. 7 is a cross-sectional view of a taper holder supporter in a gas cylinder according to the present invention; and FIG. 8 is a cross-sectional view in combination of a taper holder and a taper holder supporter in a gas cylinder according to
Referring to FIG. 7, said taper holder supporter 190 is formed in a hollow cylindrical shape.  Said taper holder supporter 190 is formed at hollow part thereof with a combination hole 191 whereto said taper holder 180 can be inserted.
By the way, said combination hole 191 of taper holder supporter 190 is formed to have a stepped portion in such a manner that diameter of lower part is larger than that of upper part.  At this stepped portion is formed an arm hooking part 192 in
order for taper holder 180 not to slip out from taper holder supporter 190.
Moreover, the outer diameter of lower end of said taper holder 180 is formed a bit larger than diameter of arm hooking part 192 of said taper holder supporter 190, so that said taper holder 180 can not escape upward out of taper holder supporter
By the way, the outer diameter of upper end of said taper holder 180 is preferably formed smaller in some extent than diameter of said taper holder supporter 190.  This is so in order that taper holder 180 connected to said cable 165 can rotate
smoothly when said cable 165 rotates.  By such configurations, said taper holder 180 can rotate along the inner peripheral plane of said taper holder supporter 190.  Therefore, even though a chair mounted by a gas cylinder is rotated by a user, said
cable 165 can be prevented from kinking or twisting.
Preferably before said taper holder 180 and taper holder supporter 190 are combined together, a lubricant can be applied at the contact plane between outer peripheral plane of said taper holder 180 and inner peripheral plane of said taper holder
supporter 190, so that said taper holder 180 can smoothly rotate.
Under this state, said pin pressing part 172 has not pressed gas opening/closing pin 151, and the gas is not flowing to move between said chambers 161 and 162.  Accordingly, up and down motion of said gas cylinder has stopped.
Under this state, said pin pressing part 172 is pressing gas opening/closing pin 151, and it is possible for the gas to flow and move between said chambers 161 and 162.  Accordingly, said gas cylinder can move up and down.  That is, in case a
user is seated on the seat of chair, the spindle moves downwards so as to make gas cylinder shrink; and in case a user is not seated on the seat of chair, the spindle moves upwards so as to make gas cylinder expand.
Especially, upon operation of said release arm 170, the release arm 170 is capable of stably operating because lower plane at slowly curved part of said pin pressing part 172 presses said gas opening/closing pin 151 while side plane at slowly
curved part of said pin pressing part 172 contacts plane to plane with said guide plane 186.  Moreover, thanks to said hooking prominence 171 being caught at said arm hooking part 192, said release arm 170 does not change its position by parallel
movement, but does rotational movement around a rotational center as the peak of end of hooking prominence 171.
The above-described release arm 170 can be supported for its movement by taper holder 180 without any additional configurations.  In addition, when release arm 170 does not move but stands still, the weight of release arm 170 can be supported by
gas opening/closing pin 151, so release arm 170 can be stably positioned.
As having been described hereinbefore for the cable operated gas cylinder according to present invention, the cable does not kink or twist due to the taper holder formed rotational, and accordingly operation reliability and product durability are
Cable operated gas cylinder, Ho Min Lee, Application number 11 766-676, Motors: Expansible Chamber Type, Chairs And Seats, gas cylinder, present invention relates, Patent Application, base tube, Patent data, Patent Search, USPTO patent, new patent, search terms, Claims data
CROSS REFERENCEThis application claims foreign priority under Paris Convention and 35 U.S.C. .sctn.119 to Korean Patent Application No. 10-2006-0058349, filed Jun. 27, 2006 with the Korean Intellectual Property Office.BACKGROUND OF THE INVENTION1. Field of the InventionThe present invention relates generally to a cable operated gas cylinder and more particularly to a cable operated gas cylinder, gotten rid of the phenomenon of kinking or twisting of the cable upon rotation of the chair, thereby operable withenhanced operation reliability and product durability.2. Background of the Related ArtA gas cylinder is an apparatus formed between a seat of a chair and a chair base for being used in adjusting height of the seat. Also, the gas cylinder may be applied to a variety of apparatus such as an impulse buffering apparatus for a vehicleas well as an apparatus for adjusting height of a seat of a chair.A general configuration of traditional gas cylinder is shown clearly by a Korean Patent Application No. 10-1998-0028313 entitled as "Gas Cylinder Type of Height Adjuster for Chair" which was applied by the applicant of the present invention andgranted for a patent registration by Korean Government.But, in the gas cylinder of the related art, a gas opening/closing pin should operate up and down directions with use of a separate knob formed on the lower side of a seat of a chair. Therefore, there exists a problem that a user should bendhis/her body in order to operate the knob.In order to solve such inconvenience, Korean Patent Application No. 10-1998-0026546 entitled as "Adjusting Member for Height of Chair", which has been already filed as a patent application by the applicant of the present invention and granted fora patent registration by Korean Government, could be suggested for the related art.The registered patent "Adjusting Member for Height of Chair" discloses a gas cylinder operating with use of a cable, and additionally having: a separate button additionally
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