CN102691692A - Multi-stage pressure composite cylinder - Google Patents

Multi-stage pressure composite cylinder Download PDF

Info

Publication number
CN102691692A
CN102691692A CN2012101119216A CN201210111921A CN102691692A CN 102691692 A CN102691692 A CN 102691692A CN 2012101119216 A CN2012101119216 A CN 2012101119216A CN 201210111921 A CN201210111921 A CN 201210111921A CN 102691692 A CN102691692 A CN 102691692A
Authority
CN
China
Prior art keywords
piston
cylinder
cavity
piston rod
rod
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN2012101119216A
Other languages
Chinese (zh)
Other versions
CN102691692B (en
Inventor
姚凤银
胡永波
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
XINCHANG DAYOU MACHINERY CO Ltd
Original Assignee
XINCHANG DAYOU MACHINERY CO Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by XINCHANG DAYOU MACHINERY CO Ltd filed Critical XINCHANG DAYOU MACHINERY CO Ltd
Priority to CN201210111921.6A priority Critical patent/CN102691692B/en
Publication of CN102691692A publication Critical patent/CN102691692A/en
Application granted granted Critical
Publication of CN102691692B publication Critical patent/CN102691692B/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The invention relates to a multistage pressure composite cylinder, which solves the defects of incapability of relative displacement and multi independent strokes because of the only one connection end of the multistage telescopic piston rod in the prior art. The composite cylinder comprises a cylinder body equipped with at least one partition part therein, and a piston rod mounted in the body. One end of the piston rod is mounted in the cavity close to the end cap of the sealed bottom, the external of the piston rod is covered with a plurality of coaxial piston bushes the number of which is the same as that of the partition part which is sealed with the outer wall of the corresponding piston rod or outer wall of the piston cover. The ends of the piston bush and the piston rod are extended out of the sealed top end cap. The piston bush and the piston rod over cover with each other, have their ends extended out of the sealed top end cap, have a corresponding cavity in the cylinder body and are incapable of independently telescoping, thereby forming multistage strokes.

Description

The multistage pressure composite cylinder
Technical field
The present invention relates to a kind of flow can pressure cylinder, especially a kind of have can multistage stroke the characteristics of control separately, and can be combined to form the multistage pressure composite cylinder that multiple Telescopic cooperates between each grade stroke.
Background technique
Telescopic cylinder is divided into oil hydraulic cylinder and cylinder according to the source pressure that uses.Oil hydraulic cylinder with hydraulic pressure can change mechanical energy into, the do straight reciprocating motion hydraulic actuator of (or oscillating motion).Structural type according to oil hydraulic cylinder commonly used can be divided into four types with it: piston type, plunger type, telescopic and swing type.
Single-piston-rod hydraulic cylinder has only an end that piston rod is arranged, and hydraulic fluid port A is imported and exported at its two ends and B can lead to pressure oil or oil return, to realize bidirectional-movement, so be called double acting cylinder.Plunger type cylinder is a kind of single-acting formula oil hydraulic cylinder, leans on hydraulic coupling can only realize the motion of a direction, and the plunger backhaul will be leaned on the deadweight of other external force or plunger.Telescoping hydraulic cylinder has secondary or multi-level piston, the sequential that piston stretches out in the telescoping hydraulic cylinder from big to small, the order of unloaded withdrawal then generally is from small to large.The swing type hydraulic cylinder is output torque and realizes reciprocating executive component.
Telescopic cylinder can be realized long stroke, and length is shorter during withdrawal, and structure is comparatively compact.The length of the flexible rod in the existing multi-stage expansion cylinder is fixed, and flexible power is to transmit through flexible rod, mainly accomplishes stroke and backhaul through stretching of flexible rod.It is flexible that existing telescopic cylinder can not be accomplished multistage driving, and telescopic cylinder has only a kind of stroke in work, can not after accomplishing a kind of stroke, realize secondary stroke or three grades of formation once more.
Patent Office of the People's Republic of China has announced a CN2423449Y patent March 14 calendar year 2001; Name is called pinpoint multiple-pass combined cylinders; Comprise a cylinder body, and comprise three piston set directly match in the shape of each piston and its stroke limit at the same level chamber that is positioned at and adjacent upper level or the chamber in next stage stroke limit chamber with upper piston; The chamber in each stroke limit chamber directly is gradin; Piston motion step by step under the driving of pressure difference through gas circuit control changes these areas step by step finally makes the output piston bar realize accurate multiple-pass telemechanical, drives other actuators and forms several kinds of different position forms.The stroke of this cylinder is realized by stretching of piston rod fully; The extrusion of control piston bar forms multistage stroke; But piston rod has only an end; Outside parts to be supported can only be connected with the end of piston rod, can not produce the stroke with relative displacement, can't produce a plurality of independent strokes.
Patent Office of the People's Republic of China has announced a CN2931886Y patent on August 8th, 2007, name is called the multistage cylinder of glass fibre reinforced plastics anti-rotation, comprises piston rod part, multistage cylinder part and outer shell part; In the cylinder base plate, in the heart, the square interior pipe of outer shell is set, is placed in the multistage cylinder lower end cap square through hole; In multistage cylinder lower end cap in the heart; Offer square through hole, in multistage cylinder lower end cap, in the heart, the square interior pipe of multistage cylinder is set; One end is placed in the piston-rod lower end lid square through hole, the other end and the welding of multistage cylinder lower end cap.When the multistage cylinder of this multistage cylinder partly receives in-cylinder pressure; Piston rod stretches out, but piston rod has only an end, and outside parts to be supported can only be connected with the end of piston rod; Stroke can not be produced, a plurality of independent strokes can't be produced with relative displacement.
Summary of the invention
The purpose of this invention is to provide a kind of novel telescopic pressure cylinder; Especially a kind of multistage pressure composite cylinder; The end of pressure cylinder has a plurality of and the connecting end that supporting part is connected is treated in the outside, and different connecting ends can stretch out respectively, also can control separately thereby produce multistage stroke.
The invention solves that the piston rod of multi-stage telescopic has only a connecting end in the existing technology; Can not produce relative displacement, can't produce the defective of a plurality of independent strokes, a kind of multistage pressure composite cylinder is provided; The end of pressure cylinder has a plurality of connecting ends; Different connecting ends stretch out respectively, can produce relative displacement, and produce a plurality of independently strokes.
The technical solution adopted for the present invention to solve the technical problems is: a kind of multistage pressure composite cylinder; Comprise cylinder body and be arranged on the piston rod in the cylinder body; The two ends of cylinder body are respectively arranged with sealed bottom lid and sealing top end cap; At least be fixed with one in the cylinder body at a distance from portion, with the some cavitys of being separated into of cylinder interior, the two ends of each cavity are respectively arranged with an intercommunicating pore at a distance from portion; An end of piston rod is in the cavity place near the sealed bottom lid; The piston rod outer cover is equipped with a plurality of coaxial piston sleeves; The quantity of piston sleeve equates with the quantity of separated portion; Seal mutually with corresponding piston rod outer wall or piston sleeve outer wall at a distance from portion, the end of piston sleeve and the end of piston rod all reach outside the sealing top end cap.Between portion and sealed bottom lid, be the flexible driving cavity of piston rod, at a distance from portion and at a distance from being the flexible driving cavity of piston sleeve between the portion or between portion and sealing top end cap; Piston rod produces an independently stroke, and a piston sleeve produces an independently stroke, and increasing a separated portion increases a piston sleeve simultaneously and just can increase an independently stroke; If piston sleeve is one, form two-stage stroke in conjunction with piston rod, if piston sleeve is two, form three grades of strokes in conjunction with piston rod, by that analogy; Thereby the intercommunicating pore at cavity two ends in the past in the cavity injection pressure oil or gas promote piston rod or piston sleeve is flexible; The end of piston rod end and piston sleeve all reaches outside the sealing top end cap, and the end of stretching out connects parts to be supported, and separate different stroke can produce different motions; Cavity can be arranged to different length, and the different length of cavity produces different stroke combinations.
As preferably, piston rod is divided into piston and stopper rod, and the external diameter of piston is greater than the external diameter of stopper rod, and piston seals with cavity inner wall mutually, and the separated portion of corresponding piston rod seals with stopper rod mutually, and piston is between the intercommunicating pore at these cavity two ends.Piston rod moves ahead, and hydraulic oil or gas pressure affact piston end face, the piston rod retraction, and hydraulic oil or gas pressure affact on the annular end face that forms between piston and the stopper rod; Two intercommunicating pores are communicated with the hydraulic oil or the gas of different pressures, move ahead or bounce back thereby produce.
As preferably, piston sleeve is divided into piston portion and loop bar, and the external diameter of piston portion is greater than the external diameter of loop bar, and piston portion seals with cavity inner wall mutually, and the separated portion of corresponding loop bar seals with loop bar mutually, and piston portion is between the intercommunicating pore at respective chamber two ends.Piston sleeve moves ahead, and hydraulic oil or gas pressure affact the end face of piston portion, the piston sleeve retraction, and hydraulic oil or gas pressure affact on the annular end face that forms between piston portion and the loop bar; Two intercommunicating pores are communicated with the hydraulic oil or the gas of different pressures, move ahead or bounce back thereby produce.
As preferably, piston sleeve is coaxial to be nested with each other, and outside piston sleeve is nested with on the loop bar of the piston sleeve of inside; Be provided with seal ring between piston sleeve and the stopper rod, be provided with seal ring between the loop bar of outside piston sleeve and internal piston cover.Piston sleeve is nested with each other, and inner piston sleeve can be used as the flexible guide element of outer piston cover; Seal ring plays seal action, prevents hydraulic oil seepage or gas leakage.
As preferably, the intercommunicating pore at the cavity two ends of corresponding piston sleeve is arranged on the cylinder body, and the end of the piston portion of piston sleeve is provided with protuberance, and the external diameter of protuberance is less than the external diameter of piston portion; The end face edge of the other end of piston portion is a radiussed.Protuberance withstands the end face at a distance from portion, make the end face of piston portion with at a distance from cavity of formation between the portion, hydraulic oil or gas directly enter into cavity and affact the end face of piston portion when intercommunicating pore gets into; Radiussed also is in order to form a cavity, to make hydraulic oil or gas can affact on the annular end face of piston portion.
As preferably, the edge that piston portion is provided with the end face of protuberance is a radiussed.Make things convenient for hydraulic oil or gas to enter in the cavity, prevent that hydraulic oil or gas from being hindered.
As preferably, the intercommunicating pore at the two ends of the cavity of corresponding piston rod, one of them intercommunicating pore is arranged at sealed bottom and covers, and another intercommunicating pore is arranged on the cylinder body of the cavity the other end; The piston end face edge of intercommunicating pore one side on the piston rod on the corresponding cylinder body is the bevelling shape; Piston end face on the piston rod is provided with heavy chamber, and heavy chamber communicates with the intercommunicating pore that sealed bottom covers.The intercommunicating pore that hydraulic oil or gas cover from sealed bottom enters in the heavy chamber and affacts on the bottom surface in heavy chamber; The bevelling shape forms a cavity, makes things convenient for hydraulic oil or gas to enter into this cavity from another intercommunicating pore.
As preferably, the centre of sealed bottom lid is provided with circular hole, and the centre of an end of the corresponding sealed bottom lid of piston rod is provided with cylinder, and cylinder is inserted in the circular hole and by the seal ring sealing, the end of cylinder connects prober; The length of cylinder is greater than the stroke of piston rod.Cylinder moves relative to circular hole, and prober can detection pressure, surveys displacement, can control the rotation of inner rotation body simultaneously.
As preferably, cylinder body is a segmentation structure, and the quantity of section equates with the quantity sum of piston rod and piston sleeve, be connected through straight button flange between section and the section and fix, section with section between the end face that is connected be provided with mutual identical ladder surface.The segmented cylinder body is easy to make, especially can guarantee the precision of each section processing.
As preferably, the section of cylinder body is provided with at a distance from portion with the place, an end that straight button flange is connected with section, section with section be connected after, adjacent separated end surface contacts and seals.Each section all is provided with at a distance from portion, improve connect the cylinder body section with section between the sealability that is connected.
The invention has the beneficial effects as follows: piston sleeve and piston rod are nested with each other, and the end all reaches outside the sealing top end cap, and a cavity in piston sleeve and the equal corresponding cylinder body of piston rod, piston sleeve and piston rod be the ability independent telescope all, forms multistage stroke.
Description of drawings
Fig. 1 is a kind of structural representation of the present invention;
Fig. 2 is a kind of in service view of the present invention;
Fig. 3 is a kind of operation end-state of the present invention schematic representation;
Fig. 4 is the another kind of structural representation of the present invention;
Among the figure: 1, sealed bottom lid, 2, cylinder body, 3, piston, 4, intercommunicating pore, 5, directly detain flange; 6, protuberance, 7, stopper rod, 8, the first stage piston cover, 9, loop bar, 10, apical end should; 11, at a distance from portion, 12, one-level cavity 13, piston rod, 14, circular hole, 15, cylinder, 16, prober; 17, secondary cavity, 18, the second piston cover, 19, three grades of cavitys, 20, heavy chamber.
Embodiment
Pass through specific embodiment below, and combine accompanying drawing, do further bright specifically technological scheme of the present invention.
Embodiment 1: a kind of secondary formula oil hydraulic cylinder (referring to accompanying drawing 1) comprises cylinder body 2 and is arranged on the piston rod 13 and the first stage piston cover 8 that is nested with on piston rod in the cylinder body that the two ends of cylinder body are respectively arranged with sealed bottom lid 1 and sealing top end cap 10.
Cylinder body is divided into two sections, is connected into one through straight button flange 5 between section and the section.One end of one section cylinder body is provided with the sealed bottom lid, and the other end is provided with at a distance from portion 11, between portion and sealed bottom lid, forms one-level cavity 12.One end of another section cylinder body is provided with the sealing top end cap, and the other end is provided with at a distance from portion and between portion and sealing top end cap, forms secondary cavity 17.When two sections cylinder bodies connect, relative at a distance from portion.Sealed bottom covers and is provided with intercommunicating pore 4, is provided with intercommunicating pore near the position at a distance from portion on the cylinder body, and two intercommunicating pores are communicated with the one-level cavity.The intermediate portion of sealed bottom lid is provided with circular hole 14, and the circular hole wall is provided with seal ring.The two ends of the cylinder body at secondary cavity place are respectively arranged with intercommunicating pore, and two intercommunicating pores are respectively near separated portion and sealing top end cap.Two sections cylinder body opposing end faces places are provided with the ladder surface of cooperation.
Piston rod is divided into piston 3 and stopper rod 7, and the external diameter of piston is greater than the external diameter of stopper rod, and piston seals with the one-level cavity inner wall mutually, and the separated portion of one-level cavity end seals with stopper rod mutually, and piston is between the intercommunicating pore at one-level cavity two ends.The intermediate portion of piston is provided with the cylinder 15 that matches with circular hole, and cylinder is inserted in the circular hole, and the end of cylinder connects prober 16.Piston end face is provided with heavy chamber 20, and heavy chamber communicates with the intercommunicating pore that sealed bottom covers.The corresponding end face edge at a distance from portion of piston is the bevelling shape.The stroke of piston in the one-level cavity be 160mm greater than the stroke in the secondary cavity, stopper rod is that multidiameter shaft is according to the pressure distribution design size.
The first stage piston cover is nested with on the path axle of stopper rod, and the first stage piston cover is in the secondary cavity 17.The first stage piston cover is divided into piston portion and loop bar 9, and the external diameter of piston portion is greater than the external diameter of loop bar, and piston portion seals with the secondary cavity inner wall mutually, and the separated portion of corresponding loop bar seals with loop bar mutually, and piston portion is between the intercommunicating pore at secondary cavity two ends.The inwall of first stage piston cover is provided with seal ring and seals mutually with the stopper rod of piston rod.The end position of first stage piston cover is provided with shoulder hole, and the big footpath axle of the external diameter of this shoulder hole and stopper rod matches, and the degree of depth of shoulder hole is that the difference of adjacent stroke is 60mm.The end of piston portion is provided with protuberance 6, and the external diameter of protuberance is less than the external diameter of piston portion, and the peripheral part of protuberance forms cavity and communicates with the intercommunicating pore of secondary cavity, and the edge that piston portion is provided with the end face of protuberance is a radiussed.The end face edge of the other end of piston portion is a radiussed, and the fillet place forms cavity and communicates with intercommunicating pore near the sealing top end cap.
In the one-level cavity, inject hydraulic oil (referring to accompanying drawing 2 accompanying drawings 3) from the intercommunicating pore of sealed bottom lid; From in the secondary cavity, injecting hydraulic oil near intercommunicating pore at a distance from portion; Hydraulic oil affacts the end face of piston end face and piston portion respectively, makes piston rod and first stage piston cover stretch out simultaneously.When the first stage piston cover stretches out full stroke; The pressure that keeps the hydraulic oil in the secondary cavity; In the one-level cavity, continue to inject hydraulic oil simultaneously, the big footpath axle of stopper rod extend in the shoulder hole of first stage piston cover, stretches out full stroke up to piston rod and reaches the desired stroke of design.
In the time of withdrawal, the reverse hydraulic oil that injects in the one-level cavity and in the secondary cavity.Piston rod and first stage piston cover can be withdrawn synchronously here, also can be piston rod withdrawals earlier, then first stage piston cover withdrawal again.
Embodiment 2: a kind of three grades of formula oil hydraulic cylinders (referring to accompanying drawing 4) comprise cylinder body 2 and are arranged on the piston rod 13 and the first stage piston cover 8, the second piston cover 18 that are nested with on piston rod in the cylinder body.
Cylinder body is divided into three sections, is connected into one through adpting flange 5 between section and the section.First section cylinder body forms 12, the second sections cylinder bodies of one-level cavity by sealed bottom lid 1 and separated portion 11 and forms 17, the three sections cylinder bodies of secondary cavity by forming three grades of cavitys 19 at a distance from portion and sealing top end cap by two at a distance from portions 11.Piston rod is in the one-level cavity, and the first stage piston cover is in the secondary cavity, and the second piston cover is in three grades of cavitys.The separated portion of first section cylinder body and stopper rod form sealing, and the loop bar of the separated portion of second section cylinder body and first stage piston cover forms sealing, and the loop bar of the separated portion of the 3rd section cylinder body and second piston cover forms sealing.All the other structures are with reference to embodiment 1.
The stroke of one-level cavity inner carrier is 160mm, and the stroke of first stage piston cover is 130mm in the secondary cavity, and the stroke of three grades of interior second piston covers of cavity is 100mm.In one-level cavity, secondary cavity and three grades of cavitys, inject hydraulic oil, pressure oil promotes piston, first stage piston cover and second piston cover and stretches out.Second piston overlaps first full stroke, keeps the pressure in three grades of cavitys; Then first stage piston cover full stroke keeps the pressure in the secondary cavity, and last piston rod full stroke keeps the pressure in the one-level cavity, finally finishes the work.
In the time of withdrawal, in one-level cavity, secondary cavity and three grades of cavitys, oppositely inject hydraulic oil.Second piston cover withdrawal earlier puts in place, and then the withdrawal of first stage piston cover puts in place, and last piston rod withdrawal puts in place.
Can inject hydraulic oil simultaneously in the time of withdrawal, also can in the one-level cavity, inject hydraulic oil before this, piston rod is withdrawal earlier; Then toward the interior hydraulic oil that injects of secondary cavity, the withdrawal of first stage piston cover is injected hydraulic oil in last past three grades of cavitys; The withdrawal of second piston cover, all withdrawals of final completion.
Above-described embodiment is two kinds of preferred version of the present invention, is not that the present invention is done any pro forma restriction, under the prerequisite that does not exceed the technological scheme that claim puts down in writing, also has other variant and remodeling.

Claims (10)

1. multistage pressure composite cylinder; Comprise cylinder body and be arranged on the piston rod in the cylinder body; The two ends of cylinder body are respectively arranged with sealed bottom lid and sealing top end cap; It is characterized in that being fixed with at least in the cylinder body one at a distance from portion, with the some cavitys of being separated into of cylinder interior, the two ends of each cavity are respectively arranged with an intercommunicating pore at a distance from portion; An end of piston rod is in the cavity place near the sealed bottom lid; The piston rod outer cover is equipped with a plurality of coaxial piston sleeves; The quantity of piston sleeve equates with the quantity of separated portion; Seal mutually with corresponding piston rod outer wall or piston sleeve outer wall at a distance from portion, the end of piston sleeve and the end of piston rod all reach outside the sealing top end cap.
2. multistage pressure composite cylinder according to claim 1; It is characterized in that piston rod is divided into piston and stopper rod, the external diameter of piston is greater than the external diameter of stopper rod, and piston seals with cavity inner wall mutually; The separated portion of corresponding piston rod seals with stopper rod mutually, and piston is between the intercommunicating pore at these cavity two ends.
3. multistage pressure composite cylinder according to claim 1; It is characterized in that piston sleeve is divided into piston portion and loop bar; The external diameter of piston portion is greater than the external diameter of loop bar; Piston portion seals with cavity inner wall mutually, and the separated portion of corresponding loop bar seals with loop bar mutually, and piston portion is between the intercommunicating pore at respective chamber two ends.
4. multistage pressure composite cylinder according to claim 3 is characterized in that piston sleeve is coaxial to be nested with each other, and outside piston sleeve is nested with on the loop bar of the piston sleeve of inside; Be provided with seal ring between piston sleeve and the stopper rod, be provided with seal ring between the loop bar of outside piston sleeve and internal piston cover.
5. according to claim 1 or 2 or 3 or 4 described multistage pressure composite cylinders, it is characterized in that the intercommunicating pore at the cavity two ends of corresponding piston sleeve is arranged on the cylinder body, the end of the piston portion of piston sleeve is provided with protuberance, and the external diameter of protuberance is less than the external diameter of piston portion; The end face edge of the other end of piston portion is a radiussed.
6. multistage pressure composite cylinder according to claim 5 is characterized in that the edge that piston portion is provided with the end face of protuberance is a radiussed.
7. according to claim 1 or 2 or 3 or 4 described multistage pressure composite cylinders, it is characterized in that the intercommunicating pore at two ends of the cavity of corresponding piston rod, one of them intercommunicating pore is arranged at sealed bottom and covers, and another intercommunicating pore is arranged on the cylinder body of the cavity the other end; The piston end face edge of intercommunicating pore one side on the piston rod on the corresponding cylinder body is the bevelling shape; Piston end face on the piston rod is provided with heavy chamber, and heavy chamber communicates with the intercommunicating pore that sealed bottom covers.
8. according to claim 1 or 2 or 3 or 4 described multistage pressure composite cylinders; The centre that it is characterized in that the sealed bottom lid is provided with circular hole; The centre of one end of the corresponding sealed bottom lid of piston rod is provided with cylinder, and cylinder is inserted in the circular hole and by the seal ring sealing, the end of cylinder connects prober; The length of cylinder is greater than the stroke of piston rod.
9. according to claim 1 or 2 or 3 or 4 described multistage pressure composite cylinders; It is characterized in that cylinder body is a segmentation structure; The quantity of section equates with the quantity sum of piston rod and piston sleeve; Is connected through straight button flange between section and the section and fixes, section with section between the end face that is connected be provided with the ladder surface that cooperatively interacts.
10. multistage pressure composite cylinder according to claim 9 is characterized in that the end place that the section of cylinder body is connected with section is provided with at a distance from portion, section with section be connected after, adjacent separated end surface contacts and seals.
CN201210111921.6A 2012-04-17 2012-04-17 Multi-stage pressure composite cylinder Expired - Fee Related CN102691692B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201210111921.6A CN102691692B (en) 2012-04-17 2012-04-17 Multi-stage pressure composite cylinder

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201210111921.6A CN102691692B (en) 2012-04-17 2012-04-17 Multi-stage pressure composite cylinder

Publications (2)

Publication Number Publication Date
CN102691692A true CN102691692A (en) 2012-09-26
CN102691692B CN102691692B (en) 2015-06-03

Family

ID=46857362

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201210111921.6A Expired - Fee Related CN102691692B (en) 2012-04-17 2012-04-17 Multi-stage pressure composite cylinder

Country Status (1)

Country Link
CN (1) CN102691692B (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104595275A (en) * 2014-11-30 2015-05-06 贵州红林机械有限公司 Three-position precise air cylinder

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2423449Y (en) * 2000-04-19 2001-03-14 舒良 Multi-travel combination cylinder of accuracy positioned
CN1313933A (en) * 1998-07-08 2001-09-19 Aro公司 Actuator with approach pre-stroke and working stroke for operating a tool
CN1429996A (en) * 2003-01-21 2003-07-16 厦门大学 Multistage location sylinder
CN2716566Y (en) * 2004-08-06 2005-08-10 王贤新 Multisection pressure cylinder
JP2010209941A (en) * 2009-03-06 2010-09-24 Ckd Corp Cylinder
CN202510455U (en) * 2012-04-17 2012-10-31 新昌县大有机械有限公司 Multistage pressure compound cylinder

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1313933A (en) * 1998-07-08 2001-09-19 Aro公司 Actuator with approach pre-stroke and working stroke for operating a tool
CN2423449Y (en) * 2000-04-19 2001-03-14 舒良 Multi-travel combination cylinder of accuracy positioned
CN1429996A (en) * 2003-01-21 2003-07-16 厦门大学 Multistage location sylinder
CN2716566Y (en) * 2004-08-06 2005-08-10 王贤新 Multisection pressure cylinder
JP2010209941A (en) * 2009-03-06 2010-09-24 Ckd Corp Cylinder
CN202510455U (en) * 2012-04-17 2012-10-31 新昌县大有机械有限公司 Multistage pressure compound cylinder

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104595275A (en) * 2014-11-30 2015-05-06 贵州红林机械有限公司 Three-position precise air cylinder

Also Published As

Publication number Publication date
CN102691692B (en) 2015-06-03

Similar Documents

Publication Publication Date Title
CN1322240C (en) Single rod and rough symmetric double actuating surfaces hydraulic cylinder with internal displacement sensor
CN201763722U (en) Double-acting multilevel hydraulic cylinder
CN202510455U (en) Multistage pressure compound cylinder
CN202280687U (en) Plunger oil cylinder
CN102691692A (en) Multi-stage pressure composite cylinder
CN101865178A (en) Two-stage hydraulic cylinder
CN106499696B (en) Enclosed self-locking oil cylinder
CN203962545U (en) A kind of quick die cylinder for high speed die casting machine
CN203809412U (en) Special multilevel hydraulic cylinder for elevator
CN206617386U (en) One kind three acts on telescopic oil cylinder
CN206320111U (en) Enclosed self-locking oil cylinder
CN203023168U (en) Double-action multi-level oil cylinder
CN203270571U (en) Reinforced seal-cylinder hydraulic pile hammer
CN206617387U (en) A kind of double acting telescopic oil cylinder
CN105298982B (en) A kind of two-action multi-stage telescopic oil cylinder
CN203441860U (en) Dual-ejector-rod composite hydraulic cylinder capable of realizing sequential actions
CN205918394U (en) Novel active liquid accuse packer
CN104088847A (en) Hydraulic machine
CN205298095U (en) Supercharged oil cylinder
CN204152890U (en) A kind of novel retractable plunger piston fluid pressure cylinder
CN201330612Y (en) Double-action plunger suspending type upright post for hydraulic support
CN203594641U (en) Improved structure of lifting cylinder base one-way valve
CN207018271U (en) Flow amplification type piston accumulator
CN208106870U (en) A kind of movable arm cylinder of excavator
CN107152397B (en) Put valve oil cylinder, hydraulic system of pump and pumping equipment with it

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20150603

Termination date: 20160417