CN206153039U - Positioner is instructed to regional light source of fluid jet - Google Patents
Positioner is instructed to regional light source of fluid jet Download PDFInfo
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- CN206153039U CN206153039U CN201621126137.2U CN201621126137U CN206153039U CN 206153039 U CN206153039 U CN 206153039U CN 201621126137 U CN201621126137 U CN 201621126137U CN 206153039 U CN206153039 U CN 206153039U
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- nozzle
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- spray
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Abstract
The utility model provides a positioner is instructed to regional light source of fluid jet, includes flexible spray tube and nozzle, and the nozzle sets up in the one end of flexible spray tube, is provided with a location in the nozzle and uses light emitter with light emitter and two scopes instructions, and put with the central point that light emitter is located the nozzle location, and two scopes are instructed and are located the both sides of location with light emitter respectively with light emitter. Above -mentioned device, location light emitter emit light bundle, the real work that the position of indicateing can reach for injection medium is regional, two scopes are indicateed with light emitter along coolant spray direction radiation beam, and the region that forms between the twice light beam is promptly for actually adding the scope that coolant can reach man -hour. Spray regime when the device utilizes light beam simulation coolant to spray is including spray angle and jet distance to work area of coolant is monitored completely to the here, is convenient for spray the tram of position appearance, can realize the accurate control of injection apparatus position appearance.
Description
Technical field
The utility model is related to a kind of for entering line light source instruction to fluid ejection region to position to eject position
Device, belong to light source field of locating technology.
Background technology
In recent years, it is to improve difficult-to-machine material working (machining) efficiency and quality, extend cutter life and reduce cutting fluid consumption, most
A small amount of lubrication technology (MQL) is increasingly widely applied.Compressed gas are mixed vaporization by MQL technologies with denier lubricating fluid
Afterwards, Jing nozzles are sprayed to work pieces process area, and the working position between cutter and workpiece is effectively lubricated.
But, the use of MQL technologies yet suffers from its limitation:MQL cooling and lubricating sphere of actions are less, and cooling medium must
Cutter must accurately be sprayed and currently cut position, otherwise be unable to reach expected cooling effect, it is possible to cause cutter, workpiece to burn
Wound, causes serious economic loss and time to waste.
The actual ejection region for how precisely monitoring cooling medium remains a difficult problem urgently to be resolved hurrily.
Utility model content
The purpose of this utility model is to provide a kind of fluid ejection region light source to indicate positioner, to solve MQL skills
It is difficult to precisely monitor the problem in cooling medium actual ejection region in art.
Fluid ejection region light source of the present utility model indicates positioner, is achieved through the following technical solutions:
The device, including flexible joint nozzle and nozzle, nozzle is arranged at one end of flexible joint nozzle, one is provided with nozzle and is determined
Position light emitters and two scope instruction light emitters, positioning is located at the center of nozzle with light emitters,
Two scope instruction light emitters are respectively positioned at the both sides of positioning light emitters.
The angle of the light beam that the scope instruction light emitters are sent with positioning light emitters is 0-90 degree.
The light emitters are dome skylight, and one end of the flexible joint nozzle arranges and arrange in light source, flexible joint nozzle photoconduction,
Dome skylight is connected to the one end of photoconduction in the nozzle.
The light emitters may also be employed generating laser (built-in power).
Said apparatus, positioning light emitters send light beam, and indicated position is the ejection medium actual work to be reached
Make region;Two scope instruction light emitters launch light beam along cooling medium injection direction, are formed between twice light beam
Region cooling medium scope to be reached when being reality processing.Three light emitters effects of working in coordination, you can essence
Quasi- monitoring cooling medium actual ejection region is simultaneously had as being shown to operating personnel.Exposing to cooling medium using light beam can arrive
The machining area for reaching, carries out next-step operation and provides instant messages for skilled worker.
The utility model simulates spray regime when cooling medium sprays, including spray angle and jet length using light beam
From, with the working region that this monitors completely cooling medium, it is easy to spray the correct adjustment of pose, it is capable of achieving injection apparatus pose
It is precisely controlled.
Description of the drawings
Fig. 1 is the structure principle chart of the utility model embodiment 1.
Fig. 2 is the enlarged drawing in A portions in Fig. 1.
Fig. 3 is the structure principle chart of the utility model embodiment 2.
Fig. 4 is the enlarged drawing in B portions in Fig. 3.
Wherein:1st, light source, 2, photoconduction, 3, flexible joint nozzle, 4, nozzle, the 5, first dome skylight, the 6, second dome skylight, the 7, the 3rd
Dome skylight, 8, first laser transmitter, 9, second laser transmitter, the 10, the 3rd generating laser.
Specific embodiment
Embodiment 1
Light source in the present embodiment indicates positioner, as shown in figure 1, mainly include light source 1, photoconduction 2, flexible joint nozzle 3,
Nozzle 4, the first dome skylight 5, the second dome skylight 6 and the 3rd dome skylight 7.Light source 1 is placed in one end of flexible joint nozzle 3, and photoconduction 2 is placed in
In flexible joint nozzle 3, the other end of flexible joint nozzle 3 is provided with nozzle 4.Referring to Fig. 2, photoconduction 2 is arranged with the first daylighting at nozzle 4
The 5, second dome skylight 6 of cover and the 3rd dome skylight 7.Wherein, the first dome skylight 5 is located at the center line of nozzle 4, used as positioning light
Transmitter;Second dome skylight 6 and the 3rd dome skylight 7 are located at respectively the both sides up and down or the left and right sides of the first dome skylight 5, used as model
Enclose instruction light emitters.
Light source 1 emits beam, and light is transmitted to the at nozzle 4 by the photoconduction 2 that is positioned in flexible joint nozzle 3
One dome skylight 5, the second dome skylight 6 and the 3rd dome skylight 7.Three dome skylights launch light, and the first dome skylight 5 is located at spray
The center line of mouth 4, the light for sending accurately points to cooling medium accessible position.7 points of second dome skylight 6 and the 3rd dome skylight
Not Wei Yu the first dome skylight 5 both sides up and down or the left and right sides, in a certain angle with the first dome skylight 5 for 0-90 degree, second adopts
The dome skylight 7 of light shield 6 and the 3rd sends light beam, and two light beams cooperate, and in sector, accurately represents effective injection of cooling medium
Scope.By way of this kind of light source indicates positioning, effective spray regime of cooling medium is accurately represented, be capable of achieving to injection
Device pose is precisely controlled.
Embodiment 2
As shown in figure 3, the present embodiment is with the difference of first embodiment, the light in the present embodiment needs not move through light
Source is launched and photoconduction transmission, and without photoconduction 2 in flexible joint nozzle 3, only the inwall in nozzle 4 arranges three generating lasers, i.e., and the
One generating laser 8, the generating laser 10 of second laser transmitter 9 and the 3rd.The equal built-in power of generating laser used, can be straight
Light is penetrated in sending and receiving.Wherein, first laser transmitter 8 is located at the center line of nozzle 4, as positioning light emitters, sends
Light accurately points to cooling medium accessible position.Second laser transmitter 9 and the 3rd generating laser 10 are located at respectively the
The both sides up and down or the left and right sides of one generating laser 8, as scope instruction light emitters, with first laser transmitter 8
In a certain angle the generating laser 10 of second laser transmitter 9 and the 3rd sends light beam, and both cooperate for 0-90 degree, accurate
Really represent effective spray regime of cooling medium.
Claims (4)
1. a kind of fluid ejection region light source indicates positioner, including flexible joint nozzle and nozzle, and nozzle is arranged at flexible joint nozzle
One end, it is characterized in that:A positioning light emitters and two scope instruction light emitters are provided with nozzle, it is fixed
Position is located at the center of nozzle with light emitters, and two scope instruction light emitters are located at respectively positioning light and send out
The both sides of emitter.
2. fluid ejection region light source according to claim 1 indicates positioner, it is characterized in that:The scope indicates to use
The angle of the light beam that light emitters are sent with positioning light emitters is 0-90 degree.
3. fluid ejection region light source according to claim 1 indicates positioner, it is characterized in that:The light emitters
For dome skylight, one end setting light source of the flexible joint nozzle, photoconduction is set, dome skylight is connected to photoconduction in institute in flexible joint nozzle
State one end of nozzle.
4. fluid ejection region light source according to claim 1 indicates positioner, it is characterized in that:The light emitters
Using generating laser.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621126137.2U CN206153039U (en) | 2016-10-15 | 2016-10-15 | Positioner is instructed to regional light source of fluid jet |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621126137.2U CN206153039U (en) | 2016-10-15 | 2016-10-15 | Positioner is instructed to regional light source of fluid jet |
Publications (1)
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CN206153039U true CN206153039U (en) | 2017-05-10 |
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CN201621126137.2U Active CN206153039U (en) | 2016-10-15 | 2016-10-15 | Positioner is instructed to regional light source of fluid jet |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106238260A (en) * | 2016-10-15 | 2016-12-21 | 山东大学 | A kind of fluid ejection region light source instruction positioner |
CN109926941A (en) * | 2019-04-12 | 2019-06-25 | 金建华 | A kind of sand-blasting machine spray regime display device |
-
2016
- 2016-10-15 CN CN201621126137.2U patent/CN206153039U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106238260A (en) * | 2016-10-15 | 2016-12-21 | 山东大学 | A kind of fluid ejection region light source instruction positioner |
CN109926941A (en) * | 2019-04-12 | 2019-06-25 | 金建华 | A kind of sand-blasting machine spray regime display device |
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