CN204186671U - A kind of rotary oscillation cylinder and use pneumatic actuating device and the Windshield Wiper of this cylinder - Google Patents

A kind of rotary oscillation cylinder and use pneumatic actuating device and the Windshield Wiper of this cylinder Download PDF

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Publication number
CN204186671U
CN204186671U CN201420580554.9U CN201420580554U CN204186671U CN 204186671 U CN204186671 U CN 204186671U CN 201420580554 U CN201420580554 U CN 201420580554U CN 204186671 U CN204186671 U CN 204186671U
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China
Prior art keywords
cylinder
piston
locking
brake
damping
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CN201420580554.9U
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Chinese (zh)
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王献岭
王玉涛
王小忠
王硕
马昭
刘建辉
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PINGYUAN MACHINE FACTORY (XINXIANG)
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PINGYUAN MACHINE FACTORY (XINXIANG)
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Abstract

The utility model relates to a kind of rotary oscillation cylinder and uses pneumatic actuating device and the Windshield Wiper of this cylinder, the cylinder piston that a kind of rotary oscillation cylinder comprises cylinder block and moves left and right in cylinder piston chamber, the brake cylinder of independent dismounting is all installed at the two ends, left and right of cylinder block, slide in the piston cavity of brake cylinder and be provided with the brake piston moved left and right, brake piston has the brake piston bar stretched into the press fit of cylinder piston top behind cylinder piston chamber, and two brake piston bars are used for neutral position cylinder piston being locked in its movement travel.The removable setting of independence due to brake cylinder not only makes dismounting and maintenance also become simple, and make the structure of rotary oscillation cylinder assembled by each module, improve the degree of modularity, each module can be used as standardized component and carries out production and processing, this provides for improved the standardization level of versatility and product, facilitate the production in enormous quantities of product, cut down finished cost.

Description

A kind of rotary oscillation cylinder and use pneumatic actuating device and the Windshield Wiper of this cylinder
Technical field
The utility model relates to a kind of rotary oscillation cylinder and uses pneumatic actuating device and the Windshield Wiper of this cylinder.
Background technique
The Pneumatic windshield wiper device of explosion-proof rubber wheel transportation vehicle is disclosed in Chinese patent literature CN201646651U, the pneumatic actuating device of Windshield Wiper is rotary oscillation cylinder, occasion that the corner of output shaft is controlled is needed when keeping in repair Windshield Wiper or at other, usually the neutral position rested in by rain brush in hunting range is needed, but the power source due to oscillating cylinder is compressible gas, cylinder piston often because " creeping ", " certainly walking " phenomenon, is also difficult to its neutral position in movement travel is stopped even if setting up selector valve in pneumatic actuating device.Must make troubles to maintenance like this, also make the application places of rotary oscillation cylinder be restricted.
Because the brake cylinder in existing pneumatic control has been only applicable to bar cylinder, be not applicable to the brake cylinder of rotary oscillation cylinder, existing rotary oscillation cylinder is made to have to complete by arranging pneumatic position servo system the reliable location of cylinder piston, and the controller of pneumatic position servo system and Proportional valve turn improve manufacture cost and reduce reliability, be not easy to install and maintenance.
Model utility content
The purpose of this utility model is to provide a kind of rotary oscillation cylinder, to solve the problem that existing cylinder piston cannot stop in the neutral position of movement travel.Meanwhile, the utility model additionally provides a kind of pneumatic actuating device and the Windshield Wiper that use this cylinder.
For achieving the above object, the utility model adopts following technological scheme: a kind of rotary oscillation cylinder, the cylinder piston comprising cylinder block and move left and right in cylinder piston chamber, the brake cylinder of independent dismounting is all installed at the two ends, left and right of cylinder block, slide in the piston cavity of brake cylinder and be provided with the brake piston moved left and right, brake piston has the brake piston bar stretched into the press fit of cylinder piston top behind cylinder piston chamber, and two brake piston bars are used for neutral position cylinder piston being locked in its movement travel.
A kind of pneumatic actuating device, comprise rotary oscillation cylinder and the automatic diverter valve for driving rotary oscillation cylinder to commutate, the cylinder piston that rotary oscillation cylinder comprises cylinder block and moves left and right in cylinder piston chamber, the brake cylinder of independent dismounting is all installed at the two ends, left and right of cylinder block, slide in the piston cavity of brake cylinder and be provided with the brake piston moved left and right, brake piston has the brake piston bar stretched into the press fit of cylinder piston top behind cylinder piston chamber, and two brake piston bars are used for neutral position cylinder piston being locked in its movement travel.
The changeover valve core of described automatic diverter valve moves left and right in the valve pocket be assemblied in the valve body of automatic diverter valve, on at least one end of valve body, releasable connection has locking cylinder, this locking cylinder comprises the locking piston moved left and right in locking cylinder body and the locking piston cavity in locking cylinder body, locking piston has the locking piston rod that can stretch in described valve pocket, locking cylinder body is provided with the control channel being communicated with locking piston cavity, when control channel air inlet, gas push locking piston moves towards described valve pocket, locking piston rod and the changeover valve core top press fit moving to the valve pocket the other end, realize commutation locking.
Described locking cylinder body is also provided with fast-discharge valve seat, and in the fast-discharge valve chamber on fast-discharge valve seat, slidable fit has fast-discharge valve core, and the exhaust passage in fast-discharge valve chamber is communicated with air, and described control channel is communicated with described fast-discharge valve chamber; Fast-discharge valve core has when air inlet shutoff exhaust passage, the first station of control channel being communicated with the gas-entered passageway in fast-discharge valve chamber and shutoff gas-entered passageway after stopping the supple of gas or steam, the second station of control channel being communicated with exhaust passage; During gas-entered passageway air inlet, gas enters described valve pocket by control channel.
This pneumatic actuating device also comprises hydraulic damping cylinder, the damping piston that hydraulic damping cylinder comprises damping gear, resistance cylinders and moves left and right in the piston cavity of hydraulic damping cylinder, and damping piston passes through driving cog and the damping gear engagement driving of setting on it; Damping piston is provided with the drainback passage for being communicated with the left and right oil pocket being positioned at damping piston two ends, and drainback passage is provided with damping hole structure; The mounting end of the output shaft of rotary oscillation cylinder stretches in resistance cylinders, and described damping gear is arranged on the mounting end of described output shaft, and described cylinder block is together with resistance cylinders releasable connection.
Valve body and the described resistance cylinders of described automatic diverter valve are structure as a whole.
A kind of Windshield Wiper, comprise rain brush assembly and pneumatic actuating device, described pneumatic actuating device comprises rotary oscillation cylinder and the automatic diverter valve for driving rotary oscillation cylinder to commutate, the cylinder piston that described rotary oscillation cylinder comprises cylinder block and moves left and right in cylinder piston chamber, the brake cylinder of independent dismounting is all installed at the two ends, left and right of cylinder block, slide in the piston cavity of brake cylinder and be provided with the brake piston moved left and right, brake piston has the brake piston bar stretched into the press fit of cylinder piston top behind cylinder piston chamber, two brake piston bars are used for neutral position cylinder piston being locked in its movement travel.
The changeover valve core of described automatic diverter valve moves left and right in the valve pocket be assemblied in the valve body of automatic diverter valve, on at least one end of valve body, releasable connection has locking cylinder, this locking cylinder comprises the locking piston moved left and right in locking cylinder body and the locking piston cavity in locking cylinder body, locking piston has the locking piston rod that can stretch in described valve pocket, locking cylinder body is provided with the control channel being communicated with locking piston cavity, when control channel air inlet, gas push locking piston moves towards described valve pocket, locking piston rod and the changeover valve core top press fit moving to the valve pocket the other end, realize commutation locking.
Described locking cylinder body is also provided with fast-discharge valve seat, and in the fast-discharge valve chamber on fast-discharge valve seat, slidable fit has fast-discharge valve core, and the exhaust passage in fast-discharge valve chamber is communicated with air, and described control channel is communicated with described fast-discharge valve chamber; Fast-discharge valve core has when air inlet shutoff exhaust passage, the first station of control channel being communicated with the gas-entered passageway in fast-discharge valve chamber and shutoff gas-entered passageway after stopping the supple of gas or steam, the second station of control channel being communicated with exhaust passage; During gas-entered passageway air inlet, gas enters described valve pocket by control channel.
This pneumatic actuating device also comprises hydraulic damping cylinder, the damping piston that hydraulic damping cylinder comprises damping gear, resistance cylinders and moves left and right in the piston cavity of hydraulic damping cylinder, and damping piston passes through driving cog and the damping gear engagement driving of setting on it; Damping piston is provided with the drainback passage for being communicated with the left and right oil pocket being positioned at damping piston two ends, and drainback passage is provided with damping hole structure; The mounting end of the output shaft of rotary oscillation cylinder stretches in resistance cylinders, and described damping gear is arranged on the mounting end of described output shaft, and described cylinder block is together with resistance cylinders releasable connection.
A kind of rotary oscillation cylinder of the present utility model sets up brake cylinder by the two ends, left and right at cylinder block, the top press fit with cylinder piston behind cylinder piston chamber is stretched into by the brake piston bar of two brake pistons, cylinder piston is locked in the neutral position of movement travel, and then rain brush is rested in the neutral position in hunting range by realization, convenient for maintaining.Because brake cylinder structure is simple, not only reduce manufacture cost, turn improve the operational reliability of Windshield Wiper, meanwhile, the removable setting of independence of brake cylinder not only makes dismounting and maintenance also become simple, and make the structure of rotary oscillation cylinder assembled by each module, improve the degree of modularity, each module can be used as standardized component and carries out production and processing, this provides for improved the standardization level of versatility and product, facilitate the production in enormous quantities of product, cut down finished cost.Brake cylinder can also be replaced by the different usage requirements that cylinder cap comes satisfied different field of employment by this rotary oscillation cylinder.
Further, the utility model is also provided with the hydraulic damping cylinder together with the releasable connection of rotary oscillation cylinder, and damping gear being arranged on the mounting end of the output shaft of rotary oscillation cylinder, the pto=power take-off of such rotary oscillation cylinder just act as the power input shaft of hydraulic damping cylinder.Again owing to defining two oil pockets between the piston of hydraulic damping cylinder and cylinder cap, by being arranged on oil hole on hydraulic damping cylinder to injection liquid force feed in oil pocket, utilize the incompressible characteristic of hydraulic oil, when rotary oscillation cylinder rapid operation, just ensure that robust motion and the off-position accuracy of the pto=power take-off of rotary oscillation cylinder, and then ensure that the robust motion of rain brush assembly, the operational reliability of off-position accuracy and Wiper system, simultaneously to remain again the use moment of the pneumatic actuating device of this Wiper system large for this set, speed-regulating range width, pattern controls simple, pipeline connects simple advantage.
Further, a kind of pneumatic actuating device of the present utility model is also provided with the automatic diverter valve driving the commutation of rotary oscillation cylinder, and independent removable locking cylinder is set on automatic diverter valve, changeover valve core can be locked in the end position of left end or right-hand member by locking cylinder, and then cylinder piston rested in the left end in cylinder piston chamber or right-hand member and cannot commutate, cannot rotate with the gear cylinder of the driving cog engagement driving on cylinder piston like this, if desired when gear cylinder is rotated further, only need remove the top pressure effect of locking piston rod exchange lower valve core, so just achieve the intermittent movement of the rain brush be arranged on output shaft.Locking air cylinder structure is simple, and is convenient to dismounting.
Further, valve body and the resistance cylinders of automatic diverter valve of the present utility model are set to integrative-structure, valve body is installed locking cylinder, locking cylinder body is installed fast-discharge valve seat, fast-discharge valve seat is provided with fast-discharge valve chamber, in fast-discharge valve chamber, slidable fit has fast-discharge valve core, fast-discharge valve chamber is also communicated with control channel, so just automatic diverter valve and rapid escape valve are installed on hydraulic damping cylinder, simultaneously, the utility model also by hydraulic damping cylinder releasable connection on rotary oscillation cylinder, make the pneumatic actuating device compact structure of Windshield Wiper, improve integration degree, pneumatic actuating device is made to possess greater functionality, and the gas channels of this pneumatic actuating device to be all communicated with in this pneumatic actuating device inside on cylinder block with resistance cylinders, avoid the interconnection of conventional valve group gas circuit pipeline, this set simplifies pipeline, reduce and take up room, install and remove easier, be particularly useful for complicated air-channel system.Meanwhile, hydraulic damping cylinder, automatic diverter valve, rapid escape valve and rotary oscillation cylinder all can independent dismounting, turn improve the degree of modularity of pneumatic actuating device, versatility and standardization level.
Accompanying drawing explanation
Fig. 1 is the structural representation of a kind of embodiment of pneumatic actuating device in the utility model;
Fig. 2 is the assembling schematic diagram of rotary oscillation cylinder, hydraulic damping cylinder and automatic diverter valve in Fig. 1;
Fig. 3 is rotary oscillation cylinder and the structure principle chart of automatic diverter valve when using state in Fig. 1;
Fig. 4 is the structural representation of hydraulic damping cylinder in Fig. 1.
Embodiment
A kind of pneumatic actuating device as Figure 1-4, comprise rotary oscillation cylinder and the automatic diverter valve for driving rotary oscillation cylinder to commutate, rotary oscillation cylinder as shown in Figure 3, it comprises cylinder block 1, the cylinder piston 7 being provided with gear cylinder 6, output shaft 5 and moving left and right in cylinder piston chamber in cylinder block 1, cylinder piston 7 extends in left-right direction and two ends, left and right are all provided with QY RunddichtringO and reaction magnetic ring.Cylinder piston 7 is also provided with for the driving cog with gear cylinder 6 engagement driving, output shaft 5 has for the output terminal of Power output and the mounting end for installing above-mentioned gear cylinder, the mounting end of output shaft rotates and is arranged in cylinder block 1, and the output terminal of output shaft overhangs out outside cylinder block 1.Cylinder block 1 is also provided with proximity switch 4, and reaction magnetic ring provides signal for proximity switch, has carried out the automatic control of the movement travel to cylinder piston.
The brake cylinder of independent dismounting is all installed at the two ends, left and right of cylinder block, slide in the piston cavity of brake cylinder and be provided with the brake piston 11 moved left and right, brake piston chamber is divided into two independently chambers by the seal ring that it is arranged by brake piston 11, namely chamber and return chamber is braked, on the cylinder body of brake cylinder, corresponding braking chamber place is provided with suction port, i.e. the suction port F of left hand brake cylinder 1, the suction port F of right side brake cylinder 2.Brake piston 11 have stretch into cylinder piston chamber after push up the brake piston bar of press fit with cylinder piston 7.The two ends of cylinder piston are provided with the pilot hole inserted for two brake piston bars, after two brake piston bars stretch into cylinder piston chamber, after inserting corresponding pilot hole respectively, by the top press fit with cylinder piston 7, cylinder piston 7 is locked in the neutral position of the movement travel of cylinder piston.Certainly, in other embodiments, brake piston bar can also be the projection on brake piston 11.
Above-mentioned automatic diverter valve comprises the valve body with valve pocket and the changeover valve core 13 moved left and right in valve pocket, has three annular Seal cages, i.e. left, center, right Seal cage between changeover valve core 13 and the inwall of valve pocket.Above-mentioned valve body is provided with air outlet, two, left and right, the commutation of two, left and right mouth, two open to atmosphere relief openings of company and a gas source interface P.In cylinder piston chamber, the chamber being positioned at above-mentioned cylinder piston 7 arranged on left and right sides is respectively equipped with left outlet passageway A, right outlet passageway D, left air outlet is by the chamber on the left of left outlet passageway A and cylinder piston, and right air outlet is by the chamber on the right side of right outlet passageway D and cylinder piston.Chamber on the left of left commutation mouth and changeover valve core, the chamber on the right side of right commutation mouth and changeover valve core, cylinder block 1 is also provided with the right commutation channel C that the left commutation channel B that is communicated with left commutation mouth is communicated with right commutation mouth.Two open to atmosphere relief openings of company are respectively left bank gas port E 1with right relief opening E 2.
The right-hand member of valve body is provided with the locking cylinder of independent dismounting, and valve body left end installs cylinder cap.The present embodiment is installed locking cylinder for right-hand member and is illustrated, and certainly in other field of employment, user can select to install locking cylinder or locking cylinder is all installed at two ends at the left end of valve body according to field condition.Locking cylinder comprises the locking piston 12 moved left and right in locking cylinder body and the locking piston cavity in locking cylinder body, locking piston 12 have can stretch into above-mentioned valve pocket after push up the locking piston rod of press fit with changeover valve core 13, locking cylinder body is provided with the control channel H being communicated with locking piston cavity, when control channel air inlet, gas push locking piston moves towards the valve pocket of above-mentioned automatic diverter valve, locking piston rod and the changeover valve core top press fit moving to the valve pocket the other end, realize commutation locking.Locking cylinder body is provided with fast-discharge valve seat 10, fast-discharge valve chamber is provided with in fast-discharge valve seat 10, in fast-discharge valve chamber, slidable fit has fast-discharge valve core 15, fast-discharge valve seat 10 is provided with the gas-entered passageway being communicated with fast-discharge valve chamber, locking cylinder body 3 is provided with and the exhaust passage K being vented valve pocket and being communicated with, exhaust passage K is communicated with air, and fast-discharge valve chamber is also communicated with above-mentioned control channel H.Fast-discharge valve core has when gas-entered passageway air inlet shutoff exhaust passage K, the first station of being communicated with the gas-entered passageway G in fast-discharge valve chamber by control channel H and shutoff gas-entered passageway G after stopping the supple of gas or steam, the second station of being communicated with exhaust passage K by control channel H.During gas-entered passageway air inlet, gas enters the valve pocket of above-mentioned automatic diverter valve by control channel.Certainly, in other embodiments, rapid escape valve can also be directly installed on the gas circuit pipeline of the control channel of locking cylinder body, only the fast-discharge valve chamber of rapid escape valve need be communicated with above-mentioned control channel.
Above-mentioned pneumatic actuating device also comprises hydraulic damping cylinder, the damping piston 8 that hydraulic damping cylinder comprises damping gear 9, resistance cylinders 2 and moves left and right in the piston cavity of hydraulic damping cylinder, damping gear 9 is positioned at resistance cylinders 2, damping piston 8 is provided with the tooth bar extended in left-right direction, this tooth bar and damping gear 9 engagement driving be arranged in resistance cylinders 2, the rotary motion of such damping gear just transforms in order to damping piston 8 straight line motion in left-right direction.The endoporus of above-mentioned damping gear is the mounting hole of corresponding pto=power take-off.
The mounting end of the output shaft 5 of rotary oscillation cylinder stretches in resistance cylinders 2, and damping gear 9 is arranged on the mounting end of output shaft by the installation endoporus on it, and resistance cylinders 2 is together with cylinder block 1 releasable connection.In order to improve the integration degree of above-mentioned pneumatic actuating device, the valve body of above-mentioned automatic diverter valve and resistance cylinders 2 are set to integrative-structure.
Resistance cylinders 2 is divided into two oil pockets by damping piston 8, namely lays respectively at the left oil pocket at the left and right two ends of damping piston, right oil pocket, and damping piston 8 is also provided with the drainback passage for being communicated with left and right oil pocket, and drainback passage is provided with damping hole structure.The conveniently pore size in damping adjusting hole, in the present embodiment, above-mentioned damping hole structure comprises the plug screw 16 of the right-hand end of spinning on described drainback passage, and plug screw 16 offers damping hole.Such user can according to the different user demands of different places, the adjustment of the pore size of damping hole is realized by changing the plug screw being provided with the damping hole of different pore size, realize the pressure difference of two oil pockets of both sides, damping adjusting hole further, to reach the damping function in various degree regulated the output shaft of oscillating cylinder, this structure is simple, be conducive to cutting down finished cost, and easy to use, be convenient to change.Certainly, in other embodiments, all right spinning of above-mentioned plug screw is in the neutral position of the drainback passages such as the middle part of drainback passage or left end.In other embodiments, above-mentioned damping hole structure can also be the nonadjustable damping hole be arranged on drainback passage.Above-mentioned hydraulic damping cylinder is not the required parts of this pneumatic actuating device, in use can save, can as required as the accessory of pneumatic actuating device yet.
A kind of structure of rotary oscillation cylinder of the present utility model is consistent with the structure of the rotary oscillation cylinder shown in Fig. 3, does not repeat them here.
A kind of Windshield Wiper of the present utility model comprises rain brush assembly and pneumatic actuating device, and rain brush assembly comprises rain brush, brush holder support and support, and one end and the rain brush of brush holder support link together, and the other end and the support of brush holder support link together.Described pneumatic actuating device is consistent with the pneumatic actuating device structure shown in Fig. 1-4, does not repeat them here.The support installing of above-mentioned rain brush assembly is on the output terminal of the output shaft of rotary oscillation cylinder.
Working principle of the present utility model is as follows:
One, continuous service
When changeover valve core 13 is at the left position shown in Fig. 3, gas source interface P is communicated with in Seal cage in changeover valve core with left air outlet X, right air outlet W and right relief opening E 2be communicated with in the right Seal cage of changeover valve core, left bank gas port E 1by shutoff in the left Seal cage of changeover valve core.
The pressurized air at gas source interface P place flows into the chamber on the left of cylinder piston through left outlet passageway A, and promotes cylinder piston 7 and move right, and the gas in the chamber on the right side of cylinder piston is pressed into right outlet passageway D through right relief opening E 2enter air.When the projection of the QY RunddichtringO of cylinder piston left end is through left commutation channel B, chamber on the left of left commutation channel B and cylinder piston, Partial shrinkage air flows into the chamber be positioned on the left of changeover valve core, and promote changeover valve core 13 and move right to the end position on right side, meanwhile, right commutation channel C is communicated with air, and the pressurized gas in the chamber on the right side of changeover valve core is discharged to air.
When changeover valve core 13 arrives right end position, gas source interface P is communicated with in Seal cage in changeover valve core with right air outlet W, left air outlet X and left bank gas port E 1be communicated with in the left Seal cage of changeover valve core, right relief opening E 2by shutoff in the right Seal cage of selector valve.
The chamber of pressurized air on the right side of right outlet passageway D inflow cylinder piston at gas source interface P place, and promote cylinder piston 7 to left movement, the gas in the chamber on the left of cylinder piston is pressed into left outlet passageway A through left bank gas port E 1enter air.When the projection of the QY RunddichtringO of cylinder piston right-hand member is through right commutation channel C, chamber on the right side of right commutation channel C and cylinder piston, Partial shrinkage air flows into the chamber be positioned on the right side of changeover valve core, and promote the end position that changeover valve core 13 moves to left side left, meanwhile, left commutation channel B is communicated with air, and the pressurized gas in the chamber on the left of changeover valve core is discharged to air.
Be more than a complete commutation process, product repeats above commutation process in the course of the work.Left bank gas port E is arranged on by adjustment in movement process 1with right relief opening E 2on two vent orifice 14 adjustment movement speed.
Do action like this, just can ensure that cylinder piston about 7 moves back and forth, and is ensured the normal work of Windshield Wiper by the engagement driving of the tooth bar on cylinder piston 7 and tooth sector.
In the process, the output shaft 5 of rotary oscillation cylinder drives damping gear 9 to rotate, and damping gear 9 is by driving reciprocal the moving left and right of damping piston with the driving cog engagement driving on damping piston 8.The damping hole of hydraulic oil by plug screw on drainback passage in damping piston 8 movement process pours in opposite side from the side of damping piston.Damping hole, by hydraulic oil throttling, produces damping and damping effect to the motion of the pneumatic actuating device of Windshield Wiper thus.User can according to the user demand of different places, the adjustment of the pore size of damping hole is realized by changing the plug screw 16 being provided with the damping hole of different pore size, realize the pressure difference of two oil pockets of both sides, damping adjusting hole further, to reach the damping function in various degree regulated the output shaft of oscillating cylinder, this structure is simple, be conducive to cutting down finished cost, and easy to use, be convenient to change.
Two, intermittent duty
Gas-entered passageway G to fast-discharge valve seat passes into pressurized air, pressurized air promotes fast-discharge valve core 15 and is moved to the left, fast-discharge valve core 15 is by exhaust passage K shutoff, meanwhile, pressurized gas is entered control channel H by the lip variant part of fast-discharge valve core and is promoted locking piston 12 and is moved to the left, push changeover valve core 13 after the locking piston rod of locking piston stretches into the valve pocket of selector valve moves until the end position in left side, in this process, the pressurized gas being positioned at the locking piston cavity on the left of locking piston drains into air through the exhaust passage J be arranged on locking cylinder body.When cylinder piston 7 moves to the right side termination position of cylinder block, gas source interface P is communicated with left outlet passageway A, even if continue to ventilate to the left chamber of cylinder piston 7 by gas source interface P, still the braking force (namely locking piston is to the top pressure active force of changeover valve core) of locking piston cannot be overcome, changeover valve core 13 cannot move, the cylinder piston 7 of rotary oscillation cylinder is locked in right end position, and cylinder piston 7 cannot commutate and just make the rain brush assembly be arranged on output shaft 5 be parked in leftward position.
Otherwise when rain brush assembly is rested in right positions by needs, locking cylinder need be arranged on the left side of automatic diverter valve, the gas-entered passageway then to fast-discharge valve seat passes into pressurized air, can realize.
When needs rain brush continues to swing, only need reduce the compressed-air actuated pressure at the gas-entered passageway place of fast-discharge valve seat, changeover valve core 13 promotes locking piston 12 and resets, the pressurized gas being positioned at the locking piston cavity on the right side of locking piston enters fast-discharge valve chamber through control channel H, and promotes fast-discharge valve core 15 by gas-entered passageway shutoff, now, control channel is communicated with the exhaust passage K on locking cylinder body, pressurized gas drains into air through exhaust passage K, and the locking of reversing piston is removed, and rain brush starts to swing.
Three, stand locking
During normal vehicle operation, rain brush is in stand, and locking piston 12 is applied pressure by changeover valve core 13 locking with the same during intermittent duty by pressurized air, and cylinder piston 7 cannot commutate, and rain brush cannot swing, and which achieves the locking of rain brush in stand.
Four, neutral position locking
Rain brush need neutral position locking in hunting range when keeping in repair, and first user needs to stop leading to pressurized gas to gas source interface P, ensures that cylinder piston 7 does not have pressure, then simultaneously to suction port F 1with suction port F 2inside pass into pressurized gas, pressurized gas promotes brake piston 11 and moves, brake piston bar stretches in cylinder piston 7 chamber, until two brake piston bars all insert in the corresponding pilot hole of cylinder piston, the length of user by regulating the air inflow of corresponding suction port to regulate corresponding brake piston bar to stretch into cylinder piston chamber, two brake piston bar coordinated, and then realize cylinder piston 7 being pushed up the neutral position of pressing the locked movement travel to cylinder piston, also achieve neutral position rain brush being rested in its hunting range like this.
When needs rain brush restarts to swing, only need inflate in gas source interface P, and stop to suction port F 1with suction port F 2inflation, cylinder piston 7 promotes two brake pistons 11 respectively and resets when moving to the left and right end position in cylinder piston chamber, the gas of the braking chamber of brake cylinder is discharged from the suction port of correspondence.

Claims (10)

1. a rotary oscillation cylinder, the cylinder piston comprising cylinder block and move left and right in cylinder piston chamber, it is characterized in that: the brake cylinder being all provided with independent dismounting at the two ends, left and right of cylinder block, slide in the piston cavity of brake cylinder and be provided with the brake piston moved left and right, brake piston has the brake piston bar stretched into the press fit of cylinder piston top behind cylinder piston chamber, and two brake piston bars are used for neutral position cylinder piston being locked in its movement travel.
2. a pneumatic actuating device, comprise rotary oscillation cylinder and the automatic diverter valve for driving rotary oscillation cylinder to commutate, the cylinder piston that rotary oscillation cylinder comprises cylinder block and moves left and right in cylinder piston chamber, it is characterized in that: the brake cylinder being all provided with independent dismounting at the two ends, left and right of cylinder block, slide in the piston cavity of brake cylinder and be provided with the brake piston moved left and right, brake piston has the brake piston bar stretched into the press fit of cylinder piston top behind cylinder piston chamber, two brake piston bars are used for neutral position cylinder piston being locked in its movement travel.
3. a kind of pneumatic actuating device according to claim 2, it is characterized in that: the changeover valve core of described automatic diverter valve moves left and right in the valve pocket be assemblied in the valve body of automatic diverter valve, on at least one end of valve body, releasable connection has locking cylinder, this locking cylinder comprises the locking piston moved left and right in locking cylinder body and the locking piston cavity in locking cylinder body, locking piston has the locking piston rod that can stretch in described valve pocket, locking cylinder body is provided with the control channel being communicated with locking piston cavity, when control channel air inlet, gas push locking piston moves towards described valve pocket, locking piston rod and the changeover valve core top press fit moving to the valve pocket the other end, realize commutation locking.
4. a kind of pneumatic actuating device according to claim 3, it is characterized in that: described locking cylinder body is also provided with fast-discharge valve seat, in fast-discharge valve chamber on fast-discharge valve seat, slidable fit has fast-discharge valve core, the exhaust passage in fast-discharge valve chamber is communicated with air, and described control channel is communicated with described fast-discharge valve chamber; Fast-discharge valve core has when air inlet shutoff exhaust passage, the first station of control channel being communicated with the gas-entered passageway in fast-discharge valve chamber and shutoff gas-entered passageway after stopping the supple of gas or steam, the second station of control channel being communicated with exhaust passage; During gas-entered passageway air inlet, gas enters described valve pocket by control channel.
5. a kind of pneumatic actuating device according to any one of claim 2-4, it is characterized in that: this pneumatic actuating device also comprises hydraulic damping cylinder, the damping piston that hydraulic damping cylinder comprises damping gear, resistance cylinders and moves left and right in the piston cavity of hydraulic damping cylinder, damping piston passes through driving cog and the damping gear engagement driving of setting on it; Damping piston is provided with the drainback passage for being communicated with the left and right oil pocket being positioned at damping piston two ends, and drainback passage is provided with damping hole structure; The mounting end of the output shaft of rotary oscillation cylinder stretches in resistance cylinders, and described damping gear is arranged on the mounting end of described output shaft, and described cylinder block is together with resistance cylinders releasable connection.
6. a kind of pneumatic actuating device according to claim 5, is characterized in that: valve body and the described resistance cylinders of described automatic diverter valve are structure as a whole.
7. a Windshield Wiper, comprise rain brush assembly and pneumatic actuating device, described pneumatic actuating device comprises rotary oscillation cylinder and the automatic diverter valve for driving rotary oscillation cylinder to commutate, the cylinder piston that described rotary oscillation cylinder comprises cylinder block and moves left and right in cylinder piston chamber, it is characterized in that: the brake cylinder being all provided with independent dismounting at the two ends, left and right of cylinder block, slide in the piston cavity of brake cylinder and be provided with the brake piston moved left and right, brake piston has the brake piston bar stretched into the press fit of cylinder piston top behind cylinder piston chamber, two brake piston bars are used for neutral position cylinder piston being locked in its movement travel.
8. a kind of Windshield Wiper according to claim 7, it is characterized in that: the changeover valve core of described automatic diverter valve moves left and right in the valve pocket be assemblied in the valve body of automatic diverter valve, on at least one end of valve body, releasable connection has locking cylinder, this locking cylinder comprises the locking piston moved left and right in locking cylinder body and the locking piston cavity in locking cylinder body, locking piston has the locking piston rod that can stretch in described valve pocket, locking cylinder body is provided with the control channel being communicated with locking piston cavity, when control channel air inlet, gas push locking piston moves towards described valve pocket, locking piston rod and the changeover valve core top press fit moving to the valve pocket the other end, realize commutation locking.
9. a kind of Windshield Wiper according to claim 8, it is characterized in that: described locking cylinder body is also provided with fast-discharge valve seat, in fast-discharge valve chamber on fast-discharge valve seat, slidable fit has fast-discharge valve core, and the exhaust passage in fast-discharge valve chamber is communicated with air, and described control channel is communicated with described fast-discharge valve chamber; Fast-discharge valve core has when air inlet shutoff exhaust passage, the first station of control channel being communicated with the gas-entered passageway in fast-discharge valve chamber and shutoff gas-entered passageway after stopping the supple of gas or steam, the second station of control channel being communicated with exhaust passage; During gas-entered passageway air inlet, gas enters described valve pocket by control channel.
10. a kind of Windshield Wiper according to any one of claim 7-9, it is characterized in that: this pneumatic actuating device also comprises hydraulic damping cylinder, the damping piston that hydraulic damping cylinder comprises damping gear, resistance cylinders and moves left and right in the piston cavity of hydraulic damping cylinder, damping piston passes through driving cog and the damping gear engagement driving of setting on it; Damping piston is provided with the drainback passage for being communicated with the left and right oil pocket being positioned at damping piston two ends, and drainback passage is provided with damping hole structure; The mounting end of the output shaft of rotary oscillation cylinder stretches in resistance cylinders, and described damping gear is arranged on the mounting end of described output shaft, and described cylinder block is together with resistance cylinders releasable connection.
CN201420580554.9U 2014-10-09 2014-10-09 A kind of rotary oscillation cylinder and use pneumatic actuating device and the Windshield Wiper of this cylinder Withdrawn - After Issue CN204186671U (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104314909A (en) * 2014-10-09 2015-01-28 平原机器厂(新乡) Rotary oscillating cylinder and pneumatic driving device and windscreen wiper using same
CN105922971A (en) * 2016-05-27 2016-09-07 株洲桓基铁路电子电器有限公司 Driving device of windshield wiper
CN108791521A (en) * 2018-07-13 2018-11-13 重庆伦瑞风传动科技有限公司 A kind of mini-tiller fender structure
CN109854668A (en) * 2019-03-28 2019-06-07 齐重数控装备股份有限公司 A kind of high-frequency vibrating air cylinder being applied in combination with spring assembly
RU210938U1 (en) * 2022-02-11 2022-05-13 Российская Федерация, от имени которой выступает Государственная корпорация по атомной энергии "Росатом" (Госкорпорация "Росатом") LOAD HANDLING DEVICE

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104314909A (en) * 2014-10-09 2015-01-28 平原机器厂(新乡) Rotary oscillating cylinder and pneumatic driving device and windscreen wiper using same
CN105922971A (en) * 2016-05-27 2016-09-07 株洲桓基铁路电子电器有限公司 Driving device of windshield wiper
CN108791521A (en) * 2018-07-13 2018-11-13 重庆伦瑞风传动科技有限公司 A kind of mini-tiller fender structure
CN109854668A (en) * 2019-03-28 2019-06-07 齐重数控装备股份有限公司 A kind of high-frequency vibrating air cylinder being applied in combination with spring assembly
CN109854668B (en) * 2019-03-28 2023-08-29 齐重数控装备股份有限公司 High-frequency vibration cylinder combined with spring assembly
RU210938U1 (en) * 2022-02-11 2022-05-13 Российская Федерация, от имени которой выступает Государственная корпорация по атомной энергии "Росатом" (Госкорпорация "Росатом") LOAD HANDLING DEVICE

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