CN205789861U - Multistation is concentrated for vacuum system - Google Patents
Multistation is concentrated for vacuum system Download PDFInfo
- Publication number
- CN205789861U CN205789861U CN201620434757.6U CN201620434757U CN205789861U CN 205789861 U CN205789861 U CN 205789861U CN 201620434757 U CN201620434757 U CN 201620434757U CN 205789861 U CN205789861 U CN 205789861U
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- vacuum
- station
- heat radiation
- mould
- pipeline
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Abstract
The open a kind of multistation of this utility model is concentrated for vacuum system, detects whether mould processing to machined part reaches predetermined value by detection device;By arranging vacuum control valve on station bonding in vacuum pipeline;Being turned on and off of vacuum control valve is controlled, for closing the conducting of corresponding station bonding in vacuum pipeline when detecting device and mould processing not up to predetermined value to machined part being detected by performance element.Therefore when the mould processing to machined part of a certain station is not up to predetermined value, control device and control the vacuum control valve closing corresponding station to close the conducting of station bonding in vacuum pipeline, thus avoid the vacuum leak of this station, and then avoid the impact on other station vacuum.
Description
Technical field
This utility model relates to concentrating for vacuum system technical field, particularly relates to multistation and concentrates for true
Do-nothing system.
Background technology
Multistation is needed to concentrate for vacuum system, so that workpiece to be added at present in many production links
Work, is realized for vacuum system as concentrated by multistation when tubing carries out expanding processed.
Multistation is concentrated for vacuum system by the corresponding vacuum pipe of vacuum generating device and some stations
A corresponding connection in processing unit (plant), is used for corresponding station processing device evacuation, thus station
Processing unit (plant) realizes the expansion to tubing and processes.
But when multistation is concentrated and expanded tubing for vacuum system, due to a certain work of some reasons
The tubing of position processing unit (plant) there will be half expansion or the phenomenon can not expanded, and this will result in vacuum from station
Reveal between inwall and the outer wall of tubing of the dilatation mold of processing unit (plant), if workman finds phase the most in time
Answer the vacuum leak of station processing device, then the vacuum of other station processing device can be caused to follow decline,
Thus cause the tubing of other station also can not expand.
Utility model content
The purpose of this utility model is to provide a kind of multistation to concentrate for vacuum system, it is intended to solve a certain
The impact on other station vacuum of the station vacuum leak.
In order to realize the purpose of this utility model, this utility model provides a kind of multistation to concentrate for vacuum system
System, including vacuum generating device and some station processing devices, vacuum generating device has some vacuum tubes
Road, vacuum pipe has vacuum manifold road and station bonding in vacuum pipeline;Station processing device has mould,
Mould is for being processed to machined part, and mould has mould vacuum interface;Station bonding in vacuum pipeline
Be connected to vacuum interface and vacuum manifold road it.Multistation is concentrated and is also included for vacuum system controlling dress
Put, control device and include detecting device, vacuum control valve and performance element;Detection device is used for detecting
Whether mould processing to machined part reaches predetermined value;Vacuum control valve is arranged on station vacuum connection tube
On road;Performance element controls being turned on and off of vacuum control valve, for mould being detected at detection device
The conducting of corresponding station bonding in vacuum pipeline is closed during the not up to predetermined value of processing to machined part.
Concentrating the improvement for vacuum system as to above-mentioned multistation, described mould also has some heat radiations and connects
Mouthful;Station processing device also includes heat abstractor, and heat abstractor includes heat radiation main pipeline and station heat radiation even
Adapter road, station heat radiation connects pipeline and includes station heat radiation main pipeline and some stations heat radiation subtube, work
Heat radiation main pipeline in position is connected with heat radiation main pipeline;Some stations heat radiation subtube two ends dissipate with corresponding respectively
Hot interface and station heat radiation main pipeline connect, for flowing into mould for coolant and flowing out mould.
Concentrating the improvement for vacuum system as to above-mentioned multistation, described control device also includes heat radiation control
Valve processed, radiating control valve is arranged on corresponding station heat radiation subtube;Described performance element controls heat radiation
At detection device, being turned on and off of control valve, for detecting that mould processing to machined part is not up to
Control radiating control valve during predetermined value and close the conducting of corresponding station heat radiation subtube.
Concentrating the improvement for vacuum system as to above-mentioned multistation, described station processing device also includes passing
Dynamic device, for being delivered to mould by workpiece to be added;Described performance element control actuating device startup and
Close, for detecting that mould processing to machined part controls to close when being not up to predetermined value at detection device
Close actuating device.
Concentrating the improvement for vacuum system as to above-mentioned multistation, described vacuum generating device also has very
Empty pump and vacuum canister seals, the one end in vacuum manifold road connects vacuum pump, and the other end in vacuum manifold road is even
Connect vacuum canister seals.
Concentrating the improvement for vacuum system as to above-mentioned multistation, described station bonding in vacuum pipeline includes
Station vacuum main road and station vacuum subtube, the one end in station vacuum main road connects vacuum manifold road,
The other end in station vacuum main road is connected with station vacuum subtube, and station vacuum subtube connects with vacuum
Mouth connects.
Concentrating the improvement for vacuum system as to above-mentioned multistation, described detection device is caliper.
Concentrate due to this utility model multistation and detect that mould is to be processed for vacuum system at detection device
When the processing of part is not up to predetermined value, performance element controls to close vacuum control valve, therefore at a certain station
Mould processing to machined part when being not up to predetermined value, control device and control to close the true of corresponding station
Empty control valve is to close the conducting of station bonding in vacuum pipeline, thus avoids the vacuum leak of this station,
And then avoid the impact on other station vacuum.
Accompanying drawing explanation
Fig. 1 is that this utility model multistation concentrates the three-dimensional combination figure for vacuum system;
Fig. 2 is that this utility model multistation concentrates the three-dimensional combination for one station of vacuum system;
Fig. 3 is that this utility model multistation concentrates the structured flowchart controlling device for vacuum system.
The realization of this utility model purpose, functional characteristics and advantage will in conjunction with the embodiments, do referring to the drawings into
One step explanation.
Detailed description of the invention
With specific embodiment, technical scheme described in the utility model is made the most below in conjunction with the accompanying drawings
Describe, so that those skilled in the art can be better understood from this utility model and can be practiced, but
Illustrated embodiment is not as to restriction of the present utility model.
Refer to Fig. 1, there is disclosed this utility model multistation and concentrate for vacuum system one to be embodied as
Example, for being processed to machined part.In the present embodiment, multistation is concentrated and is used for for vacuum system
Tubing 10 carries out expansion processing, and it includes vacuum generating device 100, some station processing devices 200
And control device 300.
Referring to Fig. 1 and Fig. 2, vacuum generating device 100 includes vacuum pump 110, vacuum canister seals 120
And vacuum pipe 130.Vacuum pipe 130 includes vacuum manifold road 131 and station bonding in vacuum pipeline
132.The one end in vacuum manifold road 131 connects vacuum pump 110, and its other end connects vacuum canister seals 120.
Station bonding in vacuum pipeline 132 includes station vacuum main road 133 and station vacuum subtube 134.Station
The one end in vacuum main road 133 connects vacuum manifold road 131, the other end in station vacuum main road 133 with
Station vacuum subtube 134 connects, and station vacuum subtube 134 is connected with station processing device 200.
In the present embodiment, station vacuum subtube 134 has two.
Vacuum pump 110 operationally to vacuum manifold road 131 and vacuum canister seals 120 evacuation, and then
To station vacuum main road 133 and station vacuum subtube 134 evacuation.Vacuum canister seals 120 passes through
Vacuum manifold road 131 and station vacuum main road 133 UNICOM, for storing the gas of trace, so that
Certain vacuum values is kept in station vacuum main road 133 and in station vacuum subtube 134.
Station processing device 200 includes fixed mount 210, mould 220 and heat abstractor 230 and transmission dress
Put 240.Mould 220 is fixed on fixed mount 210, for tubing 10 being carried out expansion processing, and its tool
There are mould vacuum interface 221 and heat radiation interface 222.Mould vacuum interface 221 and station vacuum subtube
134 connect, thus by station vacuum subtube 134 to evacuation in mould 220.Heat radiation interface 222
It is connected with heat abstractor 230, for mould 220 is dispelled the heat.In the present embodiment, mould vacuum
Interface 221 has two, and it connects with corresponding station vacuum subtube 134 respectively;Heat radiation interface 222
Also there are two.
Heat abstractor 230 is for dispelling the heat to mould 220, and it includes dispel the heat main pipeline 231 and station
Heat radiation connects pipeline 232.Heat radiation main pipeline 231 is connected (not shown) with cooling main frame.Station dispels the heat
Connect pipeline 232 and include station heat radiation main pipeline 233 and station heat radiation subtube 234.Station heat radiation supervisor
Road 233 is sleeve, that is station heat radiation main pipeline 233 includes outer tube and sheathed inner tube within the outer tube.
One end of station heat radiation main pipeline 233 connects heat radiation main pipeline 231, its other end and station heat radiation subtube
234 connect.Station heat radiation subtube 234 is connected with heat radiation interface 222.In the present embodiment, station dissipates
Hot subtube 234 has two, dispels the heat with station respectively in one end of these two station heat radiation subtubes 234
The outer tube of main pipeline 233 and inner tube connect, the other end of these two stations heat radiation subtubes 234 respectively with
Corresponding heat radiation interface 222 connects.
Operationally, coolant, by cooling main frame press-in heat radiation main pipeline 233, enters heat radiation to cooling system
Main pipeline 233 coolant flows into a station heat radiation subtube by the inner tube of station heat radiation main pipeline 233
234, then coolant flows into mould 220 by correspondingly heat radiation interface 222, thus absorbs mould 220
The heat produced;Coolant passes through another station heat radiation subtube 234 after absorbing the heat that mould 220 produces
Flow into the outer tube of station heat radiation main pipeline 233;Then coolant is from the outer tube of station heat radiation main pipeline 233
Flow back to the main pipeline 233 that dispels the heat;Last coolant flows back to cool down main frame, and by cooling main frame release heat.
Actuating device 240 is for being delivered to mould 220 by tubing 10, so that tubing 10 to carry out expansion processing.
Refer to Fig. 2 and Fig. 3, control device 300 include detecting device 310, vacuum control valve 320,
Radiating control valve 330 and performance element 340.In the present embodiment, detection device 310 is caliper,
For the tubing 10 of processing is detected.
Vacuum control valve 320 is arranged on station vacuum main road 133, to control station vacuum main road
The on or off of 133, thus can be to station vacuum main road when station vacuum main road 133 turns on
133 evacuation and can stopping station vacuum main road 133 when station vacuum main road 133 ends
Evacuation.
Radiating control valve 330 is arranged on a station heat radiation subtube 234, in the present embodiment, and heat radiation
Control valve 330 is arranged on the coolant after the heat for making absorption mould 220 produce and flows into station heat radiation
On the station heat radiation subtube 234 of main pipeline 233.
According to detection device 310, performance element 340 detects whether the expansion of tubing 10 is processed by mould 220
Reach predetermined value to control whether to close vacuum control valve 320, radiating control valve 330 and actuating device
240, specifically, detect that the expansion of tubing 10 is processed not up to by mould 220 at detection device 310
During predetermined value, performance element 340 controls close vacuum control valve 320 and close radiating control valve 330, with
Close station vacuum main road 133 and the conducting of corresponding station heat radiation subtube 234.
This utility model multistation is concentrated and is detected that tubing 10 is expanded not for vacuum system at detection device 310
When reaching predetermined value, performance element 340 controls close vacuum control valve 320, radiating control valve 330 and pass
Dynamic device 240, therefore when a certain station tubing 10 is processed and do not arrived predetermined value, controls device 300 and controls
Close the vacuum control valve 320 of corresponding station, radiating control valve 330 and actuating device 240, thus avoid
The vacuum leak of this station, and then avoid the impact on other station vacuum.
These are only preferred embodiment of the present utility model, not thereby limit patent model of the present utility model
Enclose, every equivalent structure utilizing this utility model description and accompanying drawing content to be made or equivalence flow process conversion,
Or directly or indirectly it is used in other relevant technical fields, the most in like manner it is included in patent of the present utility model
In protection domain.
Claims (7)
1. multistation is concentrated for a vacuum system, including vacuum generating device and some station processing devices,
Vacuum generating device has some vacuum pipes, and vacuum pipe has vacuum manifold road and station bonding in vacuum
Pipeline;Station processing device has mould, and mould is for being processed to machined part, and mould has mould
Tool vacuum interface;Station bonding in vacuum pipeline is connected between vacuum interface and vacuum manifold road;
It is characterized in that: multistation is concentrated and also included for vacuum system controlling device, controls device and includes inspection
Survey device, vacuum control valve and performance element;Detection device is for detecting mould adding to machined part
Whether work reaches predetermined value;Vacuum control valve is arranged on station bonding in vacuum pipeline;Performance element controls
Being turned on and off of vacuum control valve, for detecting mould processing to machined part not at detection device
Reach to close during predetermined value the conducting of corresponding station bonding in vacuum pipeline.
2. multistation as claimed in claim 1 is concentrated for vacuum system, it is characterised in that described mould
Also there is some heat radiation interfaces;Station processing device also includes heat abstractor, and heat abstractor includes that heat radiation is main
Pipeline and station heat radiation connect pipeline, and station heat radiation connects pipeline and includes station heat radiation main pipeline and some works
Position heat radiation subtube, station heat radiation main pipeline is connected with heat radiation main pipeline;Some stations heat radiation subtube two
End respectively with corresponding heat radiation interface and station heat radiation main pipeline connect, for for coolant flow into mould with
Flow out mould.
3. multistation as claimed in claim 2 is concentrated for vacuum system, it is characterised in that described control
Device also includes that radiating control valve, radiating control valve are arranged on corresponding station heat radiation subtube;Described
Performance element controls being turned on and off of radiating control valve, for detecting that mould is to be added at detection device
Control radiating control valve during the processing of workpiece not up to predetermined value and close leading of corresponding station heat radiation subtube
Logical.
4. multistation as claimed in claim 1 is concentrated for vacuum system, it is characterised in that described station
Processing unit (plant) also includes actuating device, for workpiece to be added is delivered to mould;Described performance element controls
At detection device, the startup of actuating device and closedown, for detecting that mould processing to machined part does not reaches
To controlling closedown actuating device during predetermined value.
5. multistation as claimed in claim 1 is concentrated for vacuum system, it is characterised in that described vacuum
Generating means also has vacuum pump and vacuum canister seals, and the one end in vacuum manifold road connects vacuum pump, vacuum
The other end of total pipeline connects vacuum canister seals.
6. multistation as claimed in claim 1 is concentrated for vacuum system, it is characterised in that described station
Bonding in vacuum pipeline includes station vacuum main road and station vacuum subtube, the one of station vacuum main road
End connects vacuum manifold road, and the other end in station vacuum main road is connected with station vacuum subtube, station
Vacuum subtube is connected with vacuum interface.
7. multistation as claimed in claim 1 is concentrated for vacuum system, it is characterised in that described detection
Device is caliper.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620434757.6U CN205789861U (en) | 2016-05-12 | 2016-05-12 | Multistation is concentrated for vacuum system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620434757.6U CN205789861U (en) | 2016-05-12 | 2016-05-12 | Multistation is concentrated for vacuum system |
Publications (1)
Publication Number | Publication Date |
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CN205789861U true CN205789861U (en) | 2016-12-07 |
Family
ID=57409302
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CN201620434757.6U Withdrawn - After Issue CN205789861U (en) | 2016-05-12 | 2016-05-12 | Multistation is concentrated for vacuum system |
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CN (1) | CN205789861U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105977118A (en) * | 2016-05-12 | 2016-09-28 | 深圳市沃尔核材股份有限公司 | Multi-position centralized vacuum supply anti-interference method and multi-position centralized vacuum supply system |
-
2016
- 2016-05-12 CN CN201620434757.6U patent/CN205789861U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105977118A (en) * | 2016-05-12 | 2016-09-28 | 深圳市沃尔核材股份有限公司 | Multi-position centralized vacuum supply anti-interference method and multi-position centralized vacuum supply system |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20161207 Effective date of abandoning: 20171208 |