CN208296807U - A kind of rotary cylinder check machine - Google Patents
A kind of rotary cylinder check machine Download PDFInfo
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- CN208296807U CN208296807U CN201820795777.5U CN201820795777U CN208296807U CN 208296807 U CN208296807 U CN 208296807U CN 201820795777 U CN201820795777 U CN 201820795777U CN 208296807 U CN208296807 U CN 208296807U
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Abstract
The utility model belongs to air cylinder detecting technical field, and in particular to a kind of rotary cylinder check machine.The rotary cylinder check machine, including body, touch screen, board panel, detection detent mechanism and gas circuit mechanism, the body is equipped with touch screen, electrical cabinet and board panel, board panel is equipped with detection detent mechanism, gas circuit mechanism is equipped in electrical cabinet, gas circuit mechanism is connected to detection detent mechanism, is switched by the double startup on body and starting box starts, and manipulated by touch screen.The beneficial effect is that: it can be realized and rotation angle inspection, leak test are carried out to rotary cylinder, heterogenous switching can be realized by replacement sub-folder tool, it is versatile, it is brought conveniently to the detection of rotary cylinder.
Description
Technical field
The utility model belongs to air cylinder detecting technical field, and in particular to a kind of rotary cylinder check machine.
Background technique
Common cylinder is usually that cylinder body itself passes through installation attachment and is fixed on base, and is driven by reciprocating motion of the pistons
Piston rod advances and retreats, so that the movement pushed or pulled on is realized to load, and rotary cylinder is then that cylinder body itself is fixed on to rotation
Swivel is upper to be rotated together with rotary load, gas supply assembly be it is fixed, the structure of such structure and common cylinder is not
With, if connected between a rotary cylinder-block and non-rotary steam supply valve using bearing, so that it may keep rotary cylinder very clever
It rotates livingly, and currently, the detection device about rotary cylinder is less, inconvenience is brought to the detection of rotary cylinder.
Utility model content
In order to make up for the defects of the prior art, the utility model provides a kind of rotary cylinder check machines.
The utility model is achieved by the following technical solution:
A kind of rotary cylinder check machine, including body, touch screen, board panel, detection detent mechanism and gas circuit mechanism, institute
Body is stated equipped with touch screen, electrical cabinet and board panel, board panel is equipped with detection detent mechanism, is equipped with gas in electrical cabinet
Road mechanism, gas circuit testing agency are located on the electric mounting board in electrical cabinet, and gas circuit mechanism is connected to detection detent mechanism, is passed through
Double startup switch and starting box starting on body, and manipulated by touch screen, the detection detent mechanism includes to be measured
Cylinder clamp, fixture, positioning cylinder and cylinder drive support frame, and board panel two sides correspond to cylinder clamp to be measured and set respectively
There is inductor support, inductor support is equipped with inductor.
Further, the cylinder driving support frame is equipped with sensor fixation plate, the angle sensor on sensor fixation plate
Device is located at board panel side equipped with friction plate, and cylinder drives the side for being located at sensor fixation plate on support frame to be equipped with limited block,
Cylinder drives support frame side to be equipped with cylinder clamp to be measured, is equipped with position tune between cylinder clamp and cylinder driving support frame to be measured
Whole device, cylinder clamp side to be measured are equipped with fixture, and other side is equipped with positioning cylinder, and fixture is driven by inflation compression cylinder,
Positioning cylinder is arranged on board panel by positioning cylinder fixed plate, and drives sliding block fixed plate on cylinder clamp to be measured
Cylinder to be measured is positioned.
Further, the cylinder driving support frame passes through mobile support base and shifting sledge is arranged on board panel, gas
Cylinder drives support frame to be equipped with driving cylinder, drives sensor fixation plate to move up and down by driving cylinder, mobile support base is logical
It crosses the driving of back-and-forth motion cylinder to be moved on shifting sledge, the route and pipeline that driving cylinder is connected to back-and-forth motion cylinder
It is routed by drag chain.
Further, the body is located at board panel two sides and is symmetrically arranged with side housing, and board panel is corresponded on body and is set
There is lamp bracket, machine table top board bottom portion, which is located in body, is equipped with multilayer jig mounting table, and the starting box on body is equipped with reset button
And scram button, organism bottom are equipped with footed glass.
Further, the fixture includes main clamp and sub-folder tool, and main clamp passes through inflatable interface R and inflatable interface L and gas
Road mechanism connection, sub-folder tool with main clamp on inflatable interface R and inflatable interface L, sub-folder tool on respectively correspond cylinder air inlet R
The first cylinder intake interface and the second cylinder intake interface are equipped with cylinder air inlet L.
Further, the gas circuit mechanism includes high-pressure gas circuit and low pressure gas circuit, and gas source is through slow starter, filter and total
Air inlet pressure regulator valve is connected to the low pressure regulating pressure valve of high-voltage regulator and low pressure gas road on high-pressure gas circuit respectively.
Further, the high-pressure gas circuit be equipped with the first Pneumatic valve, the second Pneumatic valve, third Pneumatic valve, the 4th Pneumatic valve,
5th Pneumatic valve, the 8th Pneumatic valve, the pipeline that the inflatable interface L of main clamp is connected to high-pressure gas circuit are equipped with the 7th Pneumatic valve,
Pipeline connection on pipeline and high-pressure gas circuit equipped with the 7th Pneumatic valve between the 5th Pneumatic valve and the 8th Pneumatic valve, is equipped with
The pipeline of 7th Pneumatic valve and high-pressure gas circuit connectivity part are communicated with the 6th Pneumatic valve, and the first Pneumatic valve and the are located on high-pressure gas circuit
It is equipped with the first gas bag between two Pneumatic valves, flow sensor is equipped between third Pneumatic valve and the 4th Pneumatic valve.
Further, the low pressure gas road is equipped with the 9th Pneumatic valve, the tenth Pneumatic valve, the 11st Pneumatic valve, the 12nd gas
Valve and the 15th Pneumatic valve are controlled, the pipeline that the inflatable interface R of main clamp is connected to low pressure gas circuit is equipped with the 13rd Pneumatic valve, if
The pipeline and low pressure gas road for having the 13rd Pneumatic valve are located at pipeline connection between the 12nd Pneumatic valve and the 15th Pneumatic valve,
Pipeline and low pressure gas circuit connectivity part equipped with the 13rd Pneumatic valve are communicated with the 14th Pneumatic valve, and low pressure gas road is located at the 9th gas
It controls and is equipped with the second gas bag between valve and the tenth Pneumatic valve, the gas circuit between the 9th Pneumatic valve and low pressure regulating pressure valve is equipped with electronics tune
Depressor.
Further, the board faceplate is equipped with jig locking elbow folder in fixture side.
Rotation angle inspection, leak test are carried out to rotary cylinder the beneficial effects of the utility model are: can be realized, it can
Heterogenous switching is realized by replacement sub-folder tool, it is versatile, it is set by touch screen panel, it is easy to operate, using rubbing
The rotating part of pad and cylinder contact band movable friction plate rotates, and friction plate drives angular transducer to rotate and then measures rotary cylinder
Angle, and by flow sensor detect cylinder leakage rate, compared with leakage specification value, carry out judging whether to meet
It is required that the detection to rotary cylinder is brought conveniently.
Detailed description of the invention
The utility model will be further described below with reference to the accompanying drawings.
Attached drawing 1 is the main view of the utility model;
Attached drawing 2 is the side view of the utility model;
Attached drawing 3 is the rearview of the utility model;
Attached drawing 4 is the perspective view of the utility model;
Attached drawing 5 is the structural schematic diagram of the utility model detection detent mechanism;
Attached drawing 6 is the catenation principle figure of the utility model gas circuit mechanism.
In figure, 1 body, 1.1 lamp brackets, 1.2 electrical cabinets, 2 touch screen fixed plates, 3 touch screens, 4 jig mounting tables, 5 footed glasses,
6 board panels, 7 first start buttons, 8 cylinders driving support frame, 8.1 mobile support bases, 8.2 shifting sledges, 9 sensors are fixed
Plate, 9.1 angular transducers, 10 fixtures, 10.1 main clamps, 10.2 sub-folders tool, 10.3 inflatable interface R, 10.4 inflatable interface L,
10.5 first cylinder air inlets, 10.6 second cylinder air inlets, 11 reset button, 12 electric mounting boards, 13 side housings, 14 rub
Pad, 15 fixtures to be measured, 16 drag chains, 17 position regulators, 18 inductor supports, 19 positioning cylinder fixed plates, 20 scram buttons,
21 second start buttons, 22 limited blocks, 23 cylinder clamps to be measured, 24 cylinders to be measured, 25 jigs lock elbow folder, and 26 inflations compress gas
Cylinder, 27 are moved forward and backward cylinder, 28 positioning cylinders, 29 sliding block fixed plates, 30 slow starters, 31 filters, 32 total air inlet pressure regulation
Valve, 33 high-voltage regulators, 34 first gas bags, 35 flow sensors, 36 low pressure regulating pressure valves, 37 electronic pressure regulating valves, 38 second gas bags,
39 first Pneumatic valves, 40 second Pneumatic valves, 41 third Pneumatic valves, 42 the 4th Pneumatic valves, 43 the 5th Pneumatic valves, 44 the 6th gas controls
Valve, 45 the 7th Pneumatic valves, 46 the 8th Pneumatic valves, 47 the 9th Pneumatic valves, 48 the tenth Pneumatic valves, 49 the 11st Pneumatic valves, 50 the tenth
Two Pneumatic valves, 51 the 13rd Pneumatic valves, 52 the 14th Pneumatic valves, 53 the 15th Pneumatic valves.
Specific embodiment
Attached drawing 1-6 is a kind of specific embodiment of the utility model.A kind of rotary cylinder check machine of the utility model, including
Body 1, touch screen 3, board panel 6, detection detent mechanism and gas circuit mechanism, the body 1 are equipped with touch screen 3, electrical cabinet 2
With board panel 6, board panel 6 is equipped with detection detent mechanism, and gas circuit mechanism, gas circuit testing agency position are equipped in electrical cabinet 2
In on the electric mounting board 12 in electrical cabinet, gas circuit mechanism is connected to detection detent mechanism, and is opened by the double startup on body 1
It closes and starting box starting, and is controlled by touch screen 3, the detection detent mechanism includes cylinder clamp 23 to be measured, fixture
10, positioning cylinder 28 and cylinder drive support frame 8, and 6 two sides of board panel correspond to cylinder clamp 23 to be measured and are respectively equipped with sense
15 bracket of device is answered, inductor support 18 is equipped with inductor 15.
Further, the cylinder driving support frame 8 is equipped with sensor fixation plate 9, and the angle on sensor fixation plate 9 passes
Sensor 9.1 is located at 6 side of board panel equipped with friction plate 14, and cylinder drives the side for being located at sensor fixation plate 9 on support frame 8 to set
There is limited block 22, cylinder drives 8 side of support frame to be equipped with cylinder clamp 23 to be measured, and cylinder clamp 23 to be measured is supported with cylinder driving
Position regulator 17 is equipped between frame 8,23 side of cylinder clamp to be measured is equipped with fixture 10, and other side is equipped with positioning cylinder 28,
Fixture 10 is driven by inflation compression cylinder 26, and positioning cylinder 28 is arranged on board panel 6 by positioning cylinder fixed plate 19,
And sliding block fixed plate 29 is driven to position the cylinder to be measured 24 on cylinder clamp 23 to be measured,
Further, the cylinder driving support frame 8 passes through mobile support base 8.1 and shifting sledge 8.2 is arranged in machine table top
On plate 6, cylinder drives support frame 8 to be equipped with driving cylinder, drives sensor fixation plate 9 to move up and down by driving cylinder, moves
Dynamic support base 8.1 is moved on shifting sledge 8.2 by being moved forward and backward the driving of cylinder 27, is driven cylinder and is moved forward and backward gas
The route and pipeline that cylinder 27 is connected to are routed by drag chain 16.
Further, the body 1 is located at 6 two sides of board panel and is symmetrically arranged with side housing 13, corresponds to machine table top on body 1
Plate 6 is equipped with lamp bracket 1.1, and 6 bottom of board panel, which is located in body 1, is equipped with multilayer jig mounting table 4, on the starting box on body 1
Equipped with reset button 11 and scram button 20,1 bottom of body is equipped with footed glass 5.
Further, the fixture 10 includes main clamp 10.1 and sub-folder tool 10.2, and main clamp 10.1 passes through inflatable interface R
10.3 and inflatable interface L 10.4 and gas circuit mechanism connection, sub-folder tool 10.2 on main clamp 10.1 inflatable interface R 10.3 and
Inflatable interface L 10.4 respectively corresponds cylinder air inlet R and cylinder air inlet L on sub-folder tool 10.2 and connects equipped with the first cylinder intake
Mouth 10.5 and the second cylinder intake interface 10.6.
Further, the gas circuit mechanism includes high-pressure gas circuit and low pressure gas circuit, and gas source is through slow starter 30, filter 31
It is connected to respectively with the low pressure regulating pressure valve 36 of high-voltage regulator 33 and low pressure gas road on high-pressure gas circuit with total air inlet pressure regulator valve 32.
Further, the high-pressure gas circuit is equipped with the first Pneumatic valve 39, the second Pneumatic valve 40, third Pneumatic valve the 41, the 4th
Pneumatic valve 42, the 5th Pneumatic valve 43, the 8th Pneumatic valve 46, what the inflatable interface L 10.4 of main clamp 10.1 was connected to high-pressure gas circuit
Pipeline is equipped with the 7th Pneumatic valve 45, and the 5th Pneumatic valve 43 and the are located on pipeline and high-pressure gas circuit equipped with the 7th Pneumatic valve 45
Pipeline connection between eight Pneumatic valves 46, pipeline and high-pressure gas circuit connectivity part equipped with the 7th Pneumatic valve 45 are communicated with the 6th gas control
Valve 44 is equipped with the first gas bag 34, third Pneumatic valve 41 on high-pressure gas circuit between the first Pneumatic valve 39 and the second Pneumatic valve 40
And the 4th be equipped with flow sensor 35 between Pneumatic valve 42.
Further, low pressure gas road is equipped with the 9th Pneumatic valve 47, the tenth Pneumatic valve 48, the 11st Pneumatic valve 49, the
12 Pneumatic valves 50 and the 15th Pneumatic valve 53, on the pipeline that the inflatable interface R 10.3 of main clamp 10.1 is connected to low pressure gas circuit
Equipped with the 13rd Pneumatic valve 51, pipeline equipped with the 13rd Pneumatic valve 51 and low pressure gas road are located at the 12nd Pneumatic valve 50 and the
Pipeline connection between 15 Pneumatic valves 53, pipeline and low pressure gas circuit connectivity part equipped with the 13rd Pneumatic valve 51 are communicated with the tenth
Four Pneumatic valves 52, low pressure gas road, which is located between the 9th Pneumatic valve 47 and the tenth Pneumatic valve 48, is equipped with the second gas bag 38, the 9th gas
The gas circuit controlled between valve 47 and low pressure regulating pressure valve 36 is equipped with electronic pressure controller.
Further, 10 side of fixture is located on the board panel 6 and is equipped with jig locking elbow folder 25.
Further, the double startup switch includes the first start button 7 and the second start button 21.
A kind of rotary cylinder check machine of the utility model, two air inlets of cylinder carry out the side high pressure R respectively when use, high
The side L is pressed, the side low pressure R, the detection of the side low pressure L four, otherwise it is NG, specifically that each inspection is all determined as qualification in specification limit
It is divided into pressurization, balance, detection and exhaust Four processes.
The sequence of movement that column illustrate gas circuit is detected as with the side the L high pressure of cylinder below:
1 pressure process: open the first Pneumatic valve 39, the second Pneumatic valve 40, the 11st Pneumatic valve 49, the 5th Pneumatic valve 43,
7th Pneumatic valve 45, the 13rd Pneumatic valve 51 and the 15th Pneumatic valve 53, remaining each Pneumatic valve are turned off, and keep a timing
Between, allow the first gas bag 34 in gas circuit to be full of gas;
2. equilibrium process: open the first Pneumatic valve 39, the second Pneumatic valve 40, the 11st Pneumatic valve 49, third Pneumatic valve 41,
4th Pneumatic valve 42, the 5th Pneumatic valve 43, the 7th Pneumatic valve 45, the 13rd Pneumatic valve 51 and the 15th Pneumatic valve 53, remaining
Each Pneumatic valve is turned off, and is kept for certain time, is then closed the first Pneumatic valve 39, allows 35 both sides of flow sensor in gas circuit
Pressure is kept in balance;
3. detection process: opening the second Pneumatic valve 40, third Pneumatic valve 41, the 4th Pneumatic valve 42, the 5th Pneumatic valve 43, the
Seven Pneumatic valves 45, the 13rd Pneumatic valve 51 and the 15th Pneumatic valve 53, remaining Pneumatic valve are turned off, are detected, and wait numbers
After value is stablized, terminate to check progress next step movement, is all empty using the compression in the first gas bag 34 in entire checking process
Gas detection avoids the unstability for directly supplying gas source;
4. exhaust process: opening third Pneumatic valve 41, the 4th Pneumatic valve 42, the 5th Pneumatic valve 43, the 6th Pneumatic valve 44, the
Seven Pneumatic valves 45, the 8th Pneumatic valve 46, the 11st Pneumatic valve 49, the 12nd Pneumatic valve 50, the 13rd Pneumatic valve 51, the 14th gas
Control valve 52 and the 15th Pneumatic valve 53, remaining each Pneumatic valve are turned off, are exhausted, and prepare to check next time, high pressure
The whole process of the side gas circuit L has checked.
The sequence of movement that column illustrate gas circuit is detected as with the side the R high pressure of cylinder below:
1. pressure process: opening the first Pneumatic valve 39, the second Pneumatic valve 40, the 11st Pneumatic valve 49, the 12nd Pneumatic valve
50, the 13rd Pneumatic valve 51, the 7th Pneumatic valve 45 and the 8th Pneumatic valve 46, remaining Pneumatic valve are turned off, and keep a timing
Between, allow gas bag in gas circuit to be full of gas;
2. equilibrium process: open the first Pneumatic valve 39, the second Pneumatic valve 40, the 11st Pneumatic valve 49, third Pneumatic valve 41,
4th Pneumatic valve 42, the 12nd Pneumatic valve 50, the 13rd Pneumatic valve 51, the 7th Pneumatic valve 45 and the 8th Pneumatic valve 46, remaining
Each Pneumatic valve is turned off, and is kept for certain time, is then closed the first Pneumatic valve 39, allows 35 both sides of flow sensor in gas circuit
Pressure is kept in balance;
3. detection process: the second Pneumatic valve 40, third Pneumatic valve 41, the 7th Pneumatic valve 45 and the 8th Pneumatic valve 46 are opened,
Remaining Pneumatic valve is turned off, and is carried out the 4th Pneumatic valve 42 of detection, the 12nd Pneumatic valve 50 and the 13rd Pneumatic valve 51, is waited numerical value
After stabilization, terminates to check progress next step movement, in entire checking process detected using the compressed air in gas bag, kept away
Exempt from the unstability for directly supplying gas source;
4. exhaust process: opening third Pneumatic valve 41, the 4th Pneumatic valve 42, the 5th Pneumatic valve 43, the 6th Pneumatic valve 44, the
Seven Pneumatic valves 45, the 8th Pneumatic valve 46, the 11st Pneumatic valve 49, the 12nd Pneumatic valve 50, the 13rd Pneumatic valve 51, the 14th gas
Control valve 52 and the 15th Pneumatic valve 53, remaining Pneumatic valve are turned off, are exhausted, and prepare to check next time, the side high pressure R
Whole process checked.
The sequence of movement that column illustrate lower gas circuit is detected as with the side the R low pressure of cylinder below:
1. pressure process: opening the 9th Pneumatic valve 47, the tenth Pneumatic valve 48, the 11st Pneumatic valve 49, the 12nd Pneumatic valve
50, the 13rd Pneumatic valve 51, the 7th Pneumatic valve 45 and the 8th Pneumatic valve 46, remaining each Pneumatic valve are turned off, and keep a timing
Between, it allows the second gas bag 38 in gas circuit to be full of gas, is provided with low pressure regulating pressure valve 36 and electronic pressure regulating valve 37, low-pressure adjusting in low pressure gas circuit
Pressure is protection electronic pressure regulating valve 37, and an initial pressure is given before air inlet, and electronic pressure regulating valve 37 can set need according to different machines
The low pressure wanted;
2. equilibrium process: opening the 9th Pneumatic valve 47, the tenth Pneumatic valve 48, third Pneumatic valve 41, the 4th Pneumatic valve 42, the
11 Pneumatic valves 49, the 12nd Pneumatic valve 50, the 13rd Pneumatic valve 51, the 7th Pneumatic valve 45 and the 8th Pneumatic valve 46, remaining
Pneumatic valve is turned off, and is kept for certain time, is then closed the 9th Pneumatic valve 47, allows the pressure on 35 both sides of flow sensor in gas circuit
Power is kept in balance;
3. detection process: open the tenth Pneumatic valve 48, third Pneumatic valve 41, the 4th Pneumatic valve 42, the 12nd Pneumatic valve 50,
13rd Pneumatic valve 51, the 7th Pneumatic valve 45 and the 8th Pneumatic valve 46, remaining each Pneumatic valve are turned off, are detected, and wait numbers
After value is stablized, terminate to check progress next step movement, is all empty using the compression in the second gas bag 38 in entire checking process
Gas detection avoids the unstability for directly supplying gas source;
4. exhaust process: opening third Pneumatic valve 41, the 4th Pneumatic valve 42, the 5th Pneumatic valve 43, the 6th Pneumatic valve 44, the
Seven Pneumatic valves 45, the 8th Pneumatic valve 46, the 11st Pneumatic valve 49, the 12nd Pneumatic valve 50, the 13rd Pneumatic valve 51, the 14th gas
Control valve 52 and the 15th Pneumatic valve 53, remaining each Pneumatic valve are turned off, are exhausted, and prepare to check next time, low pressure R
The whole process of side has checked.
The sequence of movement that column illustrate lower gas circuit is detected as with the side the L low pressure of cylinder below:
1. pressure process: open the 9th Pneumatic valve 47, the tenth Pneumatic valve 48, the 11st Pneumatic valve 49, the 5th Pneumatic valve 43,
7th Pneumatic valve 45, the 13rd Pneumatic valve 51 and the 15th Pneumatic valve 53, remaining each Pneumatic valve are turned off, and keep a timing
Between, allow the second gas bag 38 in gas circuit to be full of gas;
2. equilibrium process: opening the 9th Pneumatic valve 47, the tenth Pneumatic valve 48, third Pneumatic valve 41, the 4th Pneumatic valve 42, the
11 Pneumatic valves 49, the 5th Pneumatic valve 43, the 7th Pneumatic valve 45, the 13rd Pneumatic valve 51 and the 15th Pneumatic valve 53, remaining
Each Pneumatic valve is turned off, and is kept for certain time, is then closed the 9th Pneumatic valve 47, allows 35 both sides of flow sensor in gas circuit
Pressure is kept in balance;
3. detection process: opening the tenth Pneumatic valve 48, third Pneumatic valve 41, the 4th Pneumatic valve 42, the 5th Pneumatic valve 43, the
Seven Pneumatic valves 45, the 13rd Pneumatic valve 51 and the 15th Pneumatic valve 53, remaining Pneumatic valve are turned off, are detected, and wait numerical value
After stabilization, terminates to check progress next step movement, be all using the compressed air in the second gas bag 38 in entire checking process
Detection avoids the unstability for directly supplying gas source;
4. exhaust process: opening third Pneumatic valve 41, the 4th Pneumatic valve 42, the 5th Pneumatic valve 43, the 6th Pneumatic valve
44, the 7th Pneumatic valve 45, the 8th Pneumatic valve 46, the 11st Pneumatic valve 49, the 12nd Pneumatic valve 50, the 13rd Pneumatic valve 51,
14 Pneumatic valves 52 and the 15th Pneumatic valve 53, remaining each Pneumatic valve are turned off, are exhausted, and do standard to check next time
Standby, the whole process of the side low pressure L has checked.
Gas circuit point inspection after device power-up is divided into the air leakage point inspection and leakage point inspection of gas circuit, the inspection of so-called air leakage point, be by
Cylinder 24 to be measured changes the solid slug of a standard into, and L mouthfuls and R mouthfuls are blocked, forbids being connected with atmosphere, successively carries out above-mentioned described
Pressurization, balance, detection and exhaust four operation, observation flow sensor 35 show numerical value variation.
Leakage point inspection is the side R or the side L in one end access gas circuit by the leakage hole of a standard, and the other end leads to atmosphere,
Pressurization equilibration detection four operations of exhaust are carried out, the value for observing flow sensor 35 and standard leak mouth compares, and obtains meter
Error is calculated whether in specification limit, and then judges the detection accuracy of the gas circuit, if leakage hole connects at R mouthfuls, pressurization, balance
, in three operations of detection, the Pneumatic valve of the side L is to be in close state, if leakage hole connects at L mouthful, pressurization, is detected balance
In three operations, what the Pneumatic valve of the side R was also intended to be in close state, the following are the inspections of gas circuit point to scheme, operation and above-mentioned described
Identical, this case standard leak mouth selects the product of COSMO (Coase is not), and flow sensor 35 selects the product of KOFLOC, other are same
Equal products are alternative, and the selection needs of both devices are determined according to the leakage specification value of cylinder 24 to be measured.
The utility model is not limited to above embodiment, anyone, which should learn, makes under the enlightenment of the utility model
There is same or similar technical solution with the utility model, each fall within the protection scope of the utility model.
Technology that the utility model is not described in detail, shape, construction portion are well-known technique.
Claims (10)
1. a kind of rotary cylinder check machine, including body, touch screen, board panel, detection detent mechanism and gas circuit mechanism, special
Sign is that the body is equipped with touch screen, electrical cabinet and board panel, and board panel is equipped with detection detent mechanism, electrically
Gas circuit mechanism is equipped in cabinet, gas circuit testing agency is located on the electric mounting board in electrical cabinet, gas circuit mechanism and detection localization machine
Structure connection, is switched by the double startup on body and starting box starts, and is manipulated by touch screen, the detection localization machine
Structure includes cylinder clamp, fixture, positioning cylinder and cylinder driving support frame to be measured, and board panel two sides correspond to cylinder to be measured
Fixture is respectively equipped with inductor support, and inductor support is equipped with inductor.
2. a kind of rotary cylinder check machine according to claim 1, it is characterised in that: set on the cylinder driving support frame
There is sensor fixation plate, the angular transducer on sensor fixation plate is located at board panel side equipped with friction plate, cylinder driving branch
It is equipped with limited block positioned at the side of sensor fixation plate on support, cylinder drives support frame side to be equipped with cylinder clamp to be measured, to
It surveys between cylinder clamp and cylinder driving support frame and is equipped with position regulator, cylinder clamp side to be measured is equipped with fixture, and in addition one
Side is equipped with positioning cylinder, and fixture is arranged by positioning cylinder fixed plate in board by inflation compression cylinder driving, positioning cylinder
On panel, and sliding block fixed plate is driven to position the cylinder to be measured on cylinder clamp to be measured.
3. a kind of rotary cylinder check machine according to claim 1, it is characterised in that: the cylinder driving support frame passes through
Mobile support base and shifting sledge are arranged on board panel, and cylinder drives support frame to be equipped with driving cylinder, by driving gas
Cylinder drives sensor fixation plate to move up and down, and mobile support base is moved on shifting sledge by being moved forward and backward cylinder driving
Dynamic, driving cylinder is routed with route and pipeline that cylinder is connected to is moved forward and backward by drag chain.
4. a kind of rotary cylinder check machine according to claim 1, it is characterised in that: the body is located at board panel two
Side is symmetrically arranged with side housing, and board panel is corresponded on body equipped with lamp bracket, and machine table top board bottom portion, which is located in body, is equipped with multilayer
Jig mounting table, the starting box on body are equipped with reset button and scram button, and organism bottom is equipped with footed glass.
5. a kind of rotary cylinder check machine according to claim 1, it is characterised in that: the fixture includes main clamp and pair
Fixture, by inflatable interface R and inflatable interface L and gas circuit mechanism connection, sub-folder has and the inflatable interface R on main clamp main clamp
With inflatable interface L, cylinder air inlet R and cylinder air inlet L is respectively corresponded equipped with the first cylinder intake interface and the on sub-folder tool
Two cylinder intake interfaces.
6. a kind of rotary cylinder check machine according to claim 1, it is characterised in that: the gas circuit mechanism includes high pressure gas
Road and low pressure gas circuit, gas source through slow starter, filter and total air inlet pressure regulator valve respectively with the high pressure pressure regulation on high-pressure gas circuit
Device is connected to the low pressure regulating pressure valve of low pressure gas road.
7. a kind of rotary cylinder check machine according to claim 6, it is characterised in that: the high-pressure gas circuit is equipped with first
Pneumatic valve, the second Pneumatic valve, third Pneumatic valve, the 4th Pneumatic valve, the 5th Pneumatic valve, the 8th Pneumatic valve, the inflation of main clamp connect
The pipeline that mouth L is connected to high-pressure gas circuit is equipped with the 7th Pneumatic valve, is located on pipeline and high-pressure gas circuit equipped with the 7th Pneumatic valve
Pipeline connection between 5th Pneumatic valve and the 8th Pneumatic valve, the pipeline equipped with the 7th Pneumatic valve are connected to high-pressure gas circuit connectivity part
There is the 6th Pneumatic valve, is equipped with the first gas bag, third Pneumatic valve between the first Pneumatic valve and the second Pneumatic valve on high-pressure gas circuit
And the 4th be equipped with flow sensor between Pneumatic valve.
8. a kind of rotary cylinder check machine according to claim 6, it is characterised in that: the low pressure gas road is equipped with the 9th
Pneumatic valve, the tenth Pneumatic valve, the 11st Pneumatic valve, the 12nd Pneumatic valve and the 15th Pneumatic valve, the inflatable interface R of main clamp with
The pipeline of low pressure gas circuit connection is equipped with the 13rd Pneumatic valve, and pipeline equipped with the 13rd Pneumatic valve and low pressure gas road are located at the
Pipeline connection between 12 Pneumatic valves and the 15th Pneumatic valve, pipeline and low pressure gas circuit connectivity part equipped with the 13rd Pneumatic valve
It is communicated with the 14th Pneumatic valve, low pressure gas road, which is located between the 9th Pneumatic valve and the tenth Pneumatic valve, is equipped with the second gas bag, and the 9th
Gas circuit between Pneumatic valve and low pressure regulating pressure valve is equipped with electronic pressure controller.
9. a kind of rotary cylinder check machine according to claim 1, it is characterised in that: the board faceplate is in fixture
Side is equipped with jig locking elbow folder.
10. a kind of rotary cylinder check machine according to claim 1, it is characterised in that: double startup switch includes the
One start button and the second start button.
Priority Applications (1)
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CN201820795777.5U CN208296807U (en) | 2018-05-28 | 2018-05-28 | A kind of rotary cylinder check machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820795777.5U CN208296807U (en) | 2018-05-28 | 2018-05-28 | A kind of rotary cylinder check machine |
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CN208296807U true CN208296807U (en) | 2018-12-28 |
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Family Applications (1)
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CN (1) | CN208296807U (en) |
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2018
- 2018-05-28 CN CN201820795777.5U patent/CN208296807U/en active Active
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Address after: No. 125 Xixian Road, Xinwu District, Wuxi City, Jiangsu Province, 214000 Patentee after: Wuxi greenstone automation equipment Co., Ltd Address before: 214000 Qian Rong Road, Binhu District, Wuxi City, Jiangsu province 88-Q4 Patentee before: WUXI GREENSTONE AUTOMATION EQUIPMENT Co.,Ltd. |