CN110092171A

CN110092171A - Stop cylinder

Info

Publication number: CN110092171A
Application number: CN201910093791.XA
Authority: CN
Inventors: 朴元暎; 金恩奎
Original assignee: SMC CO Ltd
Current assignee: SMC CO Ltd; SMC Pneumatics Korea Co Ltd
Priority date: 2018-01-31
Filing date: 2019-01-30
Publication date: 2019-08-06
Also published as: KR101879840B1

Abstract

The present invention relates to a kind of stop cylinders, in more detail, it is related to a kind of processing operation of controll plant etc. mobile for forward direction, controll plant can either be made to stop mobile capable of absorbing again to impact and be able to maintain position, when controll plant inversely moves, by simply acting, lever lock cell, the stop cylinder that controll plant can be made to pass through are released.

Description

Stop cylinder

Technical field

The present invention relates to a kind of stop cylinders, and in more detail, being related to one kind makes controll plant stop movement, and can absorb The stop cylinder of impact from controll plant, to help the work for carrying out mobile controll plant to a direction by conveyer etc. Industry.

Background technique

Stop cylinder is used to make to stop by the mobile controll plant (pallet) of transmission line in selected location, in Korean granted Patent gazette the 10-0858120th discloses a kind of stop cylinder, including controlling the cylinder part of height and position and being formed in cylinder The buffer cell in portion, when contacting when controll plant is mobile with the buffer cell, the buffer cell stops controll plant It is mobile, and can absorb and be contacted and the impact generated and the position for keeping controll plant with controll plant.

At this point, controll plant may be in the state that process terminate all by stopping gas on automation transmission line Cylinder needs controll plant completing process to the i.e. reverse transmission of the opposite direction of moving direction in this case.

In addition, stop cylinder is to be suitble to the control of the buffering capacity or other structures of the buffer cell of controll plant, sometimes Controll plant is inversely transmitted, is transmitted after the control or maintenance for completing stop cylinder, then by controll plant forward direction.

Existing stop cylinder, in order to stop controll plant, the upper crown of roll that lever is arranged goes out, and prevents lock cell from releasing Lock state, in case controll plant inversely moves under the lock state of protrusion.

This is because under the undissolved state of lock state, if controll plant is inversely mobile, because of controll plant Impact, lock cell etc. may be destroyed.

In order to solve these problems, it in Korean Patent Publication No. 10-0858120 etc., can be released by setting The cancellation lever of the lock state of lever, to release the locking of lever, so as to inversely transmit controll plant.

That is, existing stop cylinder in order to inversely transmit controll plant, need to make lever, direction is mobile to the lower part, or passes through Cancel lever and release the locking of lever, therefore there is a problem of that the process for inversely transmitting controll plant becomes complicated, therefore needs pair This solution.

Summary of the invention

The present invention is proposed to solve the problems, such as described above, and the purpose of the present invention is to provide a kind of blocking gas Cylinder, the stop cylinder can make controll plant stop movement, and absorb and impact and holding position, inversely move in controll plant When, lever lock cell is released and simply acting, controll plant can be made to pass through, to help the controlled right of forward direction movement Processing operation of elephant etc..

Stop cylinder of the invention makes to stop to the mobile controll plant P in a direction and stop-keeping position, feature exists In, including cylinder part 100 and operating member 200, the cylinder part 100 include: cylinder body 110；Piston 120, in the cylinder It is driven in the height direction by stroke inside ontology 110；Piston rod 130, in the height direction with the upper side of the piston 120 Connection；And buffer cell 140, the inside of the piston rod 130 is set, and the operating member 200 includes: lever bracket 210, with institute State the top connection of piston rod 130；Lever 220 is incorporated into the lever bracket 210, and can rotate to a direction, thus to The state of other direction inclination predetermined angle fades to the state contacted with the buffer cell 140；Connecting rod 230, downside and institute It states lever 220 and is incorporated into the lever bracket 210 together, and to other direction can rotate regulation journey in side out of described lever 220 Degree；Roller 240 is incorporated into the upside of the connecting rod 230；And lever lock cell 250, it is incorporated into the lever bracket 210, and energy It is enough to be engaged and rotated with the bottom surfaces of the lever 220 and the connecting rod 230, it is and described when being rotated to other direction The bottom surface of lever bracket 210 contacts, and rotates to limit the lever 220 to other direction, wherein in controll plant P Xiang Yifang In the case where contacting to movement with the roller 240, the lever 220 and connecting rod 230 are rotated to a direction, the lever locking Unit 250 is rotated to other direction and is contacted with the bottom surface of the lever bracket 210, it is mobile to other direction in controll plant P and In the case where contacting with the roller 240, the connecting rod 230 is rotated from lever 220 to other direction, with turning for the connecting rod 230 The dynamic correspondingly described lever lock cell 250 is rotated to a direction.

In addition, the stop cylinder is characterized in that, the lever lock cell 250 includes: occlusion portion 251, upper side It is formed with bump, to be engaged with the bottom surfaces of lever 220 and connecting rod 230；Contact portion 252 is bent from the occlusion portion 251, With the rotation of the lever 220 or the connecting rod 230 correspondingly with the bottom surface interval of the lever bracket 210 or contact； And presser unit 253 is released, it pressurizes to the contact portion 252 to a direction.

In addition, the stop cylinder is characterized in that, the cylinder part 100 further includes lifting unit 150, and the releasing is single Member 150 protrudes above to be formed in the position corresponding with the lever lock cell 250 of the upside of the cylinder body 110.

In addition, the stop cylinder is characterized in that, the lever bracket 210 includes: lever bracket ontology 211, and described Piston rod 130 connects；And lever frame aperture 212, it is formed in the side through the lever bracket ontology 211.

In addition, the stop cylinder is characterized in that, the lever 220 includes: body 221；Lever hole 222, with The lever frame aperture 212 is accordingly formed through the body 221, and is rotatably tied by first in conjunction with pin 11 Together in the lever bracket ontology 211；And lever occlusion portion 223, it is formed with bump in the downside of the body 221, To be engaged with the occlusion portion 251.

In addition, the stop cylinder is characterized in that, the connecting rod 230 includes: con-rod only 231, is arranged in the thick stick The inside of bar body 221；First connecting rod hole 232 is formed through con-rod only 231, and combines 11 energy of pin by described first It is enough to be rotationally incorporated into lever bracket ontology 211 and body 221；Second connecting rod hole 233, through the con-rod only 231 Upside and formed, and combined with the roller 240 in conjunction with pin 12 by second；And connecting rod occlusion portion 234, in the con-rod only 231 downsides are formed with bump, to be engaged with the occlusion portion 251.

In addition, the stop cylinder is characterized in that, the operating member 200 further includes presser unit 260, and the pressurization is single Member 260 is set to described first and combines pin 11, for pressurizeing to other direction.

In addition, the stop cylinder is characterized in that, the connecting rod 230 further includes connecting rod limiting holes 235, the connecting rod limit Drilling 235 forms through the con-rod only 231 and has specific length in the rotation direction of the connecting rod 230, described Lever 220 further includes lever limiting holes 224, a direction end phase of the lever limiting holes 224 and the connecting rod limiting holes 235 It is accordingly formed through the lever (220), the stop cylinder further includes connecting rod banking pin 13, is limited through the lever Hole 224, and the connecting rod limiting holes 235 are moved.

Invention effect

The stop cylinder of the invention processing operation of controll plant etc. mobile for forward direction, makes controll plant stop moving It is dynamic, and absorb impact and be able to maintain position, when controll plant inversely moves, by simple structure and movement, by lever Lock cell is switched to off mode, to have the advantages that controll plant can be made easily inversely to pass through.

Stop in addition, stop cylinder of the invention can be easily carried out the positive of controll plant and pass through and inversely lead to It crosses, therefore has the advantages that entire activity time can be accelerated.

Detailed description of the invention

Fig. 1 is the perspective view of stop cylinder of the invention.

Fig. 2 is the cross-sectional view of stop cylinder of the invention.

Fig. 3 is the perspective view of the operating member of stop cylinder of the invention.

Fig. 4 is the cross-sectional view of the operating member of stop cylinder of the invention.

Fig. 5 to Fig. 6 is the exploded perspective view of the operating member of stop cylinder of the invention.

Fig. 7 is the main view of the operating member of stop cylinder of the invention.

Fig. 8 is the figure for indicating the movement of controll plant to direction stop cylinder of the invention when mobile.

Fig. 9 is the figure for indicating the movement of controll plant to other direction stop cylinder of the invention when mobile.

The explanation of appended drawing reference

1000: stop cylinder

100: cylinder part 110: cylinder body

120: piston 130: piston rod

140: buffer cell 150: lifting unit

200: operating member

210: lever bracket

211: lever bracket ontology 212: lever frame aperture

220: lever

221: body 222: lever hole

223: lever occlusion portion 224: lever limiting holes

230: connecting rod

231: con-rod only 232: first connecting rod hole

233: second connecting rod hole 234: connecting rod occlusion portion

235: connecting rod limiting holes

240: roller

250: lever lock cell 251: occlusion portion

252: contact portion 253: releasing presser unit

260: presser unit

Combine pin at 11: the first

Combine pin at 12: the second

13: connecting rod banking pin

Specific embodiment

Hereinafter, stop cylinder present invention as described above is described in detail referring to attached drawing.

Fig. 1 is the perspective view of stop cylinder of the invention, and Fig. 2 is the cross-sectional view of stop cylinder of the invention, and Fig. 3 is this hair The perspective view of the operating member of bright stop cylinder, Fig. 4 are the cross-sectional views of the operating member of stop cylinder of the invention, and Fig. 5 to Fig. 6 is The exploded perspective view of the operating member of stop cylinder of the invention, Fig. 7 are the main views of the operating member of stop cylinder of the invention.

Referring to Figure 1 to Figure 7, stop cylinder 1000 of the invention, which has, can either make controll plant stop mobile and can inhale It receives contact controll plant and transmits next impact and keep the structure of the position of controll plant, to help in the horizontal direction to one Direction carries out the processing operation of mobile controll plant.

Stop cylinder 1000 of the invention generally comprises cylinder part 100 and operating member 200.

In order to make to stop or pass through, cylinder part to (reverse) the mobile controll plant of a direction (forward direction) or other direction 100 have the structure for the short transverse position for capableing of control action portion 200.

Operating member 200 has when controll plant is to direction movement and contacts, and controll plant is made to stop simultaneously holding position Structure.

At this point, the mobile direction of controll plant refers to controll plant to process operation etc. and mobile direction, it is controlled The mobile other direction of object refers to for many factors such as control, the buffer levels for checking stop cylinder, and makes controll plant The direction mobile to the opposite direction in a direction.

Cylinder part 100 and operating member 200 are described in detail, cylinder part 100 generally comprise cylinder body 110, Piston 120, piston rod 130 and buffer cell 140 are capable of the short transverse position in control action portion 200.

Cylinder body 110 is formed with the space of hole shape in inside, and outer shape can be implemented with various embodiments, therefore It is not limited to this.

Piston 120 is arranged in the hole inside cylinder body 110, and stroke drives in the height direction by various control power Dynamic, control power is from 110 inside of cylinder body or the air pressure supplied from outside by cylinder body 110, hydraulic, elastomer Deng.

Piston rod 130 connect with the upper side of piston 120 and extends to form along short transverse, and buffer cell 140 is set to The inside of piston rod 130.

Buffer cell 140 is made of damper (buffer), since this is well known technology, omits it specifically It is bright.

Operating member 200 generally comprises lever bracket 210, lever 220, connecting rod 230, roller 240 and lever lock cell 250.

Lever bracket 210 is the structure for being used to support lever 220, is formed in a manner of connecting with the top of piston rod 130, by This, which correspondingly can control operating member 200 with the control in 100 short transverse of cylinder part, makes controll plant P stop or lead to On the short transverse position crossed.

Lever 220 is incorporated into lever bracket 210, and can rotate to a direction, to tilt preset angle to other direction The state of degree fades to the state contacted with buffer cell 140.

That is, lever 200 is first tilted to other direction, but as controll plant is mobile to a direction, lever 200 is to a direction Rotation, to contact with buffer cell 140, thus, it is possible to absorb to pass over from controll plant by buffer cell 140 Impact.

Connecting rod 230 is set to the inside of lever 220, and downside and lever 220 are incorporated into lever bracket 210 together, and can Specified degree is rotated from lever 220 to other direction.

Roller 240 is controll plant to a direction or the structure of other direction movement and contact, is tied with the upside of connecting rod 230 It closes, is preferably able to rotationally combine, but be not limited to this.

Lever lock cell 250 is formed as limiting lever 220 to other direction movement.

Lever lock cell 250 is incorporated into lever bracket 210, and is engaged with the bottom surfaces of lever 220 and connecting rod 230, can It is correspondingly rotated with the rotation of lever 220 or connecting rod 230.

At this point, lever lock cell 250 and the bottom surface of lever bracket 210 connect when limitation lever 220 is rotated to other direction Touching rotates to limit lever 220 to other direction.

At this point, stop cylinder 1000 of the invention, it is mobile to a direction in controll plant and the case where contacted with roller 240 Under, lever 220 and connecting rod 230 are rotated to a direction, the lever lock cell 250 being engaged with the lever 220 and connecting rod 230 to Other direction is rotated and is contacted with the bottom surface of lever bracket 210.

Lever lock cell 250 limits lever 220 and rotates to a direction as a result,.

On the contrary, connecting rod 230 is opposite by lever lock in the case that controll plant is contacted to other direction movement with roller 240 Order member 250 limits the accordingly thick stick of the rotation to the mobile lever 220 of other direction to other direction rotation, with connecting rod 230 Rod lock unit 250 is rotated to a direction, thus the bottom surface interval with lever bracket 210, no longer limitation lever 220 is to another Direction rotation.

That is, stop cylinder 1000 of the invention, when controll plant is mobile to other direction, in lever lock cell 250 In the state of the rotation for limiting lever 220, with the rotation of connecting rod 230, lever lock cell 250 to a direction rotate without The rotation for limiting lever 220 again, also being capable of control lever locking without additional manual working or additional control action The movement (limitation and releasing rotation of the lever to other direction) of unit 250.

At this point, lever lock cell 250 has including occlusion portion 251 and from the curved contact portion 252 of occlusion portion 251Word shape.

The upper side of occlusion portion 251 is formed with bump, to be engaged with the bottom surfaces of lever 220 and connecting rod 230, contact portion 252 are contacted or interval by occlusion portion 251 with the bottom surface of lever bracket 210, the occlusion portion 251 and lever 220 or connecting rod 230 rotation is correspondingly rotated.

That is, lever lock cell 250 includes: off mode, the bottom surface interval of contact portion 252 and lever bracket 210 and No longer limitation lever 220 is rotated to other direction；And locking mode, the contact portion 252 are contacted with the bottom surface of lever bracket 210 And it limits lever 220 and is rotated to other direction.

Also, lever lock cell 250, which may also include, releases presser unit 253, releases presser unit 253 by torsionspring It constitutes, in the case where being not affected by the power from controll plant, the torsionspring adds contact portion 252 to a direction Pressure, to keep off mode.

At this point, it is preferred that the power for releasing presser unit 253 is less than the power passed over from controll plant.

That is, it is preferred that lever lock cell 250 keeps off mode by releasing presser unit 253, in controll plant to one Direction is mobile and is in contact to be switched to locking mode thus when stopping mobile, that is, limitation lever 220 is rotated to other direction.

At this point, cylinder part 100 further includes lifting unit 150, lifting unit 150 110 upper side of cylinder body with contact Accordingly protrude formation in portion 252.

Lifting unit 150 protrudes specific length in the height direction, to be declined in operating member 200 by cylinder part 100 When, the lower part face contact with contact portion 252 makes contact portion 252 to upper direction applied force, thus by lever lock cell 250 Off mode is switched to from locking mode.

The shape of lifting unit 150 is not limited, can be implemented with various embodiments.

The movement of stop cylinder of the invention with above structure is described in detail.

Fig. 8 is the figure for indicating the movement of controll plant to direction stop cylinder of the invention when mobile, Fig. 9 be indicate by Control the figure of the movement of object to other direction stop cylinder of the invention when mobile.

Referring to Fig. 8, stop cylinder 1000 of the invention is contacted to direction movement with roller 240 in controll plant P, with Roller 240 and connecting rod 230 in conjunction with lever 220 rotated due to the mobile controll plant P in a direction to a direction, and it is single with buffering Member 140 contacts, so that controll plant P be made to stop movement, and absorbs the impact generated by controll plant P by buffer cell 140, And it is able to maintain the position of controll plant P.

At this point, the occlusion portion 251 being engaged with lever 220 is rotated to other direction, thus contact portion 252 and occlusion portion 251 Rotation accordingly contacted with the bottom surface of lever bracket 210, so that lever lock cell 250 is switched to locking mode, i.e. limitation thick stick Bar 220 is rotated to other direction.

Also, when the processing operation to controll plant P terminates and needs mobile to a direction again, pass through cylinder part 100 movement makes operating member 200 be located at lower part direction, avoids the movement for interfering controll plant P, and will by lifting unit 150 Lever lock cell 250 is switched to off mode.

In contrast, referring to Fig. 9, in the case where controll plant P is mobile to a direction, because to buffer level control, When many factors such as checking and needing that controll plant P is mobile to other direction, controll plant P is mobile and contacts with roller 240.

At this point, lever 220 by lever lock cell 250 limit to other direction rotate, therefore only connecting rod 230 be based on by It controls the power of object P and is rotated to other direction, in addition, be engaged to other direction rotation with the connecting rod 230 by connecting rod 230 Lever lock cell 250 is rotated to a direction, so that lever lock cell 250 is switched to off mode.

Be switched to off mode as a result, that is, no longer limitation lever 220 to other direction rotate, can make lever 220 to Than controll plant, more downwardly direction is rotated, therefore does not interfere movement of the controll plant to other direction.

As described above, stop cylinder 1000 of the invention is when controll plant is mobile to a direction, the rotation of lever 220 and with Buffer cell 140 contacts, so that controll plant can not only be made to stop mobile and absorb impact, and inversely moves in controll plant When dynamic, by the power of controll plant, connecting rod 230 is rotated from 220 interval of lever to other direction, so that lever be locked Unit 250 is switched to off mode, and lever 220 can be made to rotate to the more downwardly direction than controll plant.

That is, in order to keep controll plant P mobile to other direction, not only without declining operating member 200 by cylinder part 100 And lever lock cell 250 is set to be in off mode by lifting unit 150, and without operating personnel manually by lever lock Order member 250 is switched to the movement of off mode etc., therefore can easily make controll plant P mobile to other direction.

In addition, stop cylinder 1000 of the invention is able to carry out controll plant P Xiang Yifang by simple structure and movement To control and to the control of other direction, without constructing for controll plant P to a direction and the volume controlled to other direction Outer device and system have the advantages that manufacturing expense can be reduced and shorten the activity duration of processing controll plant P.

The structure of stop cylinder 1000 of the invention is described in detail.

Referring to Figure 1 to Figure 7, lever bracket 210 includes: lever bracket ontology 211, is connect with piston rod 130；And lever frame aperture 212, it is formed through the side of lever bracket ontology 211, for being combined with lever 220 and connecting rod 230.

Lever bracket ontology 211 can be penetrated through in the height direction to connect piston rod 130, it is preferable that extends along short transverse, To avoid the contact of obstruction lever 220 and buffer cell 140, and lever frame aperture 212 is formed on the position of extension.

In addition, as shown, it is preferred that in the vertical direction of the moving direction of controll plant P interval, formed opposite A pair of of lever frame aperture 212, to increase the simplicity and fastness that are combined with lever 220 and connecting rod 230.

Lever 220 includes body 221, the preferably shape in a manner of identical with common stop cylinder of body 221 At, but it is not limited to this.

Also, lever 220 includes lever hole 222, and the lever frame aperture 212 of the lever hole 222 and lever bracket 210 is accordingly It is formed there through, is rotatably incorporated into lever bracket ontology 211 in conjunction with pin 11 by first.

Also, lever 220 includes lever occlusion portion 223, lower part shape of the lever occlusion portion 223 in body 221 At bump, to be engaged with the occlusion portion 251 of lever lock cell 250.

Connecting rod 230 includes the con-rod only 231 that may be disposed inside body 221, moreover, further including first connecting rod hole 232, shape is accordingly run through with the lever frame aperture 212 of lever bracket 210 and the lever hole 222 of lever 220 in the first connecting rod hole 232 At, and lever bracket ontology 211 and body 221 are rotatably incorporated into conjunction with pin 11 by first.

In addition, connecting rod 230 includes second connecting rod hole 233, company of the second connecting rod hole 233 through 232 upside of first connecting rod hole Bar body 231 and formed, and be combined with roller 240 in conjunction with pin 12 by second.

Also, connecting rod 230 include connecting rod occlusion portion 234, be formed with bump in the lower part of con-rod only 231, so as to The occlusion portion 251 of lever lock cell 250 is engaged.

As described above, connecting rod 230 combines pin 11 and lever bracket 210 and lever by first connecting rod hole 232 and using first 220 are fixed together, and pass through second connecting rod hole 233 in upside and utilize second pin 12 is combined to be combined with roller 240, thus Controll plant is mobile to a direction and when being contacted with roller 240, rotated with the direction in the same direction of lever 220 1, and controll plant to Other direction is mobile and when being contacted with roller 240, rotated from lever 220 to other direction and be switched to lever lock cell 250 Off mode.

Also, operating member 200 further includes presser unit 260, is made of torsionspring, and the torsionspring is set to One combines pin 11, for pressurizeing to other direction.

Presser unit 260 is formed by torsionspring, lever 220 by controll plant and connecting rod 230 together with piston rod 130 After being arranged in parallel, if being not affected by the power from controll plant, in the original state to other direction inclination predetermined angular.

Certainly, need to make presser unit 260 amount of pressurization be less than controll plant contact roller 240 and lever 220 to a direction turn Dynamic power.

Also, the connecting rod 230 of stop cylinder 1000 of the invention further includes connecting rod limiting holes 235, the connecting rod limiting holes 235 form through con-rod only 231 and have specific length in the rotation direction of connecting rod 230, and lever 220 may also include lever Limiting holes 224, the lever limiting holes 224 and the end in a direction of connecting rod limiting holes 235 are accordingly formed there through.

At this point, stop cylinder 1000 of the invention may also include connecting rod banking pin 13, the connecting rod banking pin 13 runs through thick stick Bar limiting holes 224, and can be moved along the connecting rod limiting holes 235.

That is, be set as can be with connecting rod limiting holes 235 in the state of being fixed on lever limiting holes 224 for connecting rod banking pin 13 It is mobile, it, being capable of turn from lever 220 to other direction that rotate from of limiting rod 230 thus when controll plant advances to other direction Dynamic distance.

In other words, connecting rod banking pin 13 is mobile with connecting rod limiting holes 235 when mobile to other direction, pre- when turning to If mobile restricted when length, so as to prevent connecting rod 230 from lever 220 excessively be detached from, and can prevent the connecting rod 230 from The lever lock cell 250 that can be engaged with connecting rod 230 is detached from.

The present invention is not limited to the above embodiments, the scope of application can there are many, do not depart from claims requirement Defined in the gist of the invention in the case where, those skilled in the art in the invention can implement various deformation.

Claims

1. a kind of stop cylinder makes to stop simultaneously stop-keeping position to the mobile controll plant (P) in a direction, which is characterized in that

Including cylinder part (100) and operating member (200)；

The cylinder part (100) includes:

Cylinder body (110),

Piston (120) is driven by stroke in the height direction in the inside of the cylinder body (110),

Piston rod (130) is connect with the upper side of the piston (120) in the height direction, and

Buffer cell (140) is arranged in the inside of the piston rod (130)；

The operating member (200) includes:

Lever bracket (210) is connect with the top of the piston rod (130),

Lever (220) is incorporated into the lever bracket (210), and can be rotated to a direction, thus from pre- to other direction inclination If the state of angle fades to the state contacted with the buffer cell (140),

Connecting rod (230), downside are incorporated into the lever bracket (210) together with the lever (220), and can be from the lever (220) interior lateral other direction rotates specified degree, and roller (240) is incorporated into the upside of the connecting rod (230), and

Lever lock cell (250) is incorporated into the lever bracket (210), and can be with the lever (220) and the connecting rod (230) bottom surfaces are engaged and are rotated, and when rotating to other direction, contact with the bottom surface of the lever bracket (210), from And described in limiting

Lever (220) is rotated to a direction；

Controll plant (P) is mobile to a direction contacted with the roller (240) in the case where, the lever (220) and connecting rod (230) it is rotated to a direction, bottom of the lever lock cell (250) to other direction rotation and with the lever bracket (210) Face contact；

Controll plant is mobile to other direction contacted with the roller (240) in the case where, the connecting rod (230) is from lever (220) it is rotated to other direction, with the rotation of the connecting rod (230) correspondingly lever lock cell (250) Xiang Yifang To rotation.

2. stop cylinder according to claim 1, which is characterized in that

The lever lock cell (250) includes:

Occlusion portion (251), upper side is formed with bump, to be engaged with the bottom surfaces of lever (220) and connecting rod (230)；

Contact portion (252), is bent from the occlusion portion (251), the rotation phase with the lever (220) or the connecting rod (230) Accordingly with the bottom surface interval or contact of the lever bracket (210)；And

It releases presser unit (253), pressurizes to the contact portion (252) to a direction.

3. stop cylinder according to claim 1, which is characterized in that

The cylinder part (100) further includes lifting unit (150), and the lifting unit (150) is on the cylinder body (110) The position corresponding with lever lock cell (250) of side protrudes above to be formed.

4. stop cylinder according to claim 2, which is characterized in that

The lever bracket (210) includes:

Lever bracket ontology (211) is connect with the piston rod (130)；And

Lever frame aperture (212) is formed through the side of the lever bracket ontology (211).

5. stop cylinder according to claim 4, which is characterized in that

The lever (220) includes:

Body (221)；

Lever hole (222) accordingly forms through the body (221) with the lever frame aperture (212), and passes through the One is rotatably incorporated into the lever bracket ontology (211) in conjunction with pin (11)；And

Lever occlusion portion (223) is formed with bump on the downside of the body (221), with the occlusion portion (251) Occlusion.

6. stop cylinder according to claim 5, which is characterized in that

The connecting rod (230) includes:

Con-rod only (231) is arranged in the inside of the body (221)；

First connecting rod hole (232) is formed through the con-rod only (231), and combines pin (11) can by described first Rotationally it is incorporated into the lever bracket ontology (211) and body (221)；

Second connecting rod hole (233), through the con-rod only (231) upside and formed, and by second combine pin (12) with The roller (240) combines；And

Connecting rod occlusion portion (234) is formed with bump on the downside of the con-rod only (231), with the occlusion portion (251) Occlusion.

7. stop cylinder according to claim 6, which is characterized in that

The operating member (200) further includes presser unit (260), and the presser unit (260) is set to described first and combines pin (11), for pressurizeing to other direction.

8. stop cylinder according to claim 6, which is characterized in that

The connecting rod (230) further includes connecting rod limiting holes (235), and the connecting rod limiting holes (235) run through the con-rod only (231) specific length is formed and has in the rotation direction of the connecting rod (230),

The lever (220) further includes lever limiting holes (224), the lever limiting holes (224) and the connecting rod limiting holes (235) a direction end is correspondingly run through the lever (220) and is formed,

The stop cylinder further includes connecting rod banking pin (13), is limited through the lever limiting holes (224) and along the connecting rod It is moved in hole (235).