CN106238260A - A kind of fluid ejection region light source instruction positioner - Google Patents

Abstract

A kind of fluid ejection region light source instruction positioner, including flexible joint nozzle and nozzle, nozzle is arranged at one end of flexible joint nozzle, a location light emitters and two scope instruction light emitters it are provided with in nozzle, location light emitters is positioned at the center of nozzle, and two scope instruction light emitters lay respectively at the both sides of location light emitters.Said apparatus, location light emitters sends light beam, and indicated position is the real work region that ejection medium can reach；Two scope instruction light emitters launch light beam along cooling medium injection direction, and the region formed between twice light beam is and actual adds the scope that man-hour, cooling medium can reach.This device utilizes spray regime during light beam simulation cooling medium injection, including spray angle and jet length, monitors the working region of cooling medium completely with this, it is simple to the correct adjustment of injection pose, can realize being precisely controlled of injection apparatus pose.

Description

A kind of fluid ejection region light source instruction positioner

Technical field

The present invention relates to a kind of for convection cell jeting area carry out light source indicate with the dress that eject position is positioned Put, belong to light source field of locating technology.

Background technology

In recent years, for improving difficult-to-machine material working (machining) efficiency and quality, prolongation cutter life and reducing cutting fluid consumption, A small amount of lubrication technology (MQL) is increasingly widely applied.Compressed gas is mixed vaporization with denier lubricating fluid by MQL technology After, spray to work pieces process district through nozzle, the working position between cutter and workpiece is effectively lubricated.

But, the use of MQL technology yet suffers from its limitation: MQL cooling and lubricating sphere of action is less, and cooling medium must Cutter must be sprayed accurately and currently cut position, otherwise be unable to reach expection cooling effect, it is possible to cause cutter, workpiece to burn Wound, causes serious economic loss and time waste.

The most precisely monitor that the actual ejection region of cooling medium remains a difficult problem urgently to be resolved hurrily.

Summary of the invention

It is an object of the invention to provide a kind of fluid ejection region light source instruction positioner, to solve in MQL technology The problem being difficult to precisely monitor cooling medium actual ejection region.

The fluid ejection region light source instruction positioner of the present invention, is achieved through the following technical solutions:

This device, including flexible joint nozzle and nozzle, nozzle is arranged at one end of flexible joint nozzle, is provided with one and determines in nozzle Position light emitters and two scope instruction light emitters, location light emitters is positioned at the center of nozzle, Two scope instruction light emitters lay respectively at the both sides of location light emitters.

The angle of the light beam that described scope instruction light emitters and location light emitters are sent is 0-90 degree.

Described light emitters is dome skylight, and one end of described flexible joint nozzle arranges light source, arranges photoconduction in flexible joint nozzle, Dome skylight is connected to photoconduction and is in one end of described nozzle.

Described light emitters may be used without generating laser (built-in power).

Said apparatus, location light emitters sends light beam, and indicated position is the actual work that ejection medium can reach Make region；Two scope instruction light emitters launch light beam along cooling medium injection direction, are formed between twice light beam Region be and actual add the scope that man-hour, cooling medium can reach.Three light emitters effects of working in coordination, Ji Kejing Quasi-supervision cooling medium actual ejection region is also had as being shown to operator.Utilize light beam to expose to cooling medium can arrive The machining area reached, carrying out next-step operation for skilled industrial worker provides instant messages.

The present invention utilizes spray regime during light beam simulation cooling medium injection, including spray angle and jet length, with This monitors the working region of cooling medium completely, it is simple to the correct adjustment of injection pose, can realize the accurate of injection apparatus pose Control.

Accompanying drawing explanation

Fig. 1 is the structure principle chart of the embodiment of the present invention 1.

Fig. 2 is the enlarged drawing in A portion in Fig. 1.

Fig. 3 is the structure principle chart of the embodiment of the present invention 2.

Fig. 4 is the enlarged drawing in B portion in Fig. 3.

Wherein: 1, 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, the 8, first generating laser, the 9, second generating laser, the 10, the 3rd generating laser.

Detailed description of the invention

Embodiment 1

In the present embodiment light source instruction positioner, as it is shown in figure 1, mainly include light source 1, photoconduction 2, flexible joint nozzle 3, Nozzle the 4, first dome skylight the 5, 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.Seeing Fig. 2, photoconduction 2 is arranged with the first daylighting at nozzle 4 Cover the 5, second dome skylight 6 and the 3rd dome skylight 7.Wherein, the first dome skylight 5 is positioned at the centrage of nozzle 4, as location light Emitter；Second dome skylight 6 and the 3rd dome skylight 7 lay respectively at both sides up and down or the left and right sides of the first dome skylight 5, as model Enclose instruction light emitters.

Light source 1 emits beam, by the photoconduction 2 that is positioned in flexible joint nozzle 3 by light transmission to being positioned at the at nozzle 4 One dome skylight the 5, second dome skylight 6 and the 3rd dome skylight 7.Light is launched by three dome skylights, and the first dome skylight 5 is positioned at spray The centrage of mouth 4, the light sent accurately points to cooling medium accessible position.Second dome skylight 6 and the 3rd dome skylight 7 points Not being positioned at both sides up and down or the left and right sides of the first dome skylight 5, in a certain angle with the first dome skylight 5 for 0-90 degree, second adopts Light shield 6 and the 3rd dome skylight 7 send light beam, and two light beams cooperate, and in sector, accurately represent effective injection of cooling medium Scope.By the way of this kind of light source instruction location, accurately represent effective spray regime of cooling medium, can realize injection Being precisely controlled of device pose.

Embodiment 2

As it is shown on figure 3, the difference of the present embodiment and first embodiment is, the light in the present embodiment needs not move through light Source is launched and photoconduction transmits, and does not has photoconduction 2 in flexible joint nozzle 3, and only the inwall at nozzle 4 arranges three generating lasers, and i.e. the One generating laser the 8, second generating laser 9 and the 3rd generating laser 10.The equal built-in power of generating laser used, can be straight Light is penetrated in sending and receiving.Wherein, the first generating laser 8 is positioned at the centrage of nozzle 4, as location light emitters, sends Light accurately points to cooling medium accessible position.Second generating laser 9 and the 3rd generating laser 10 lay respectively at The both sides up and down of one generating laser 8 or the left and right sides, as scope instruction light emitters, with the first generating laser 8 In a certain angle for 0-90 degree, the second generating laser 9 and the 3rd generating laser 10 send light beam, and both cooperate, accurate Really represent effective spray regime of cooling medium.

Claims (4)

1. a fluid ejection region light source instruction positioner, including flexible joint nozzle and nozzle, nozzle is arranged at flexible joint nozzle One end, it is characterized in that: in nozzle, be provided with a location light emitters and two scope instruction light emitters, fixed Position light emitters is positioned at the center of nozzle, and two scope instruction light emitters lay respectively at location light and send out The both sides of emitter.

Fluid ejection region light source the most according to claim 1 instruction positioner, is characterized in that: the instruction of described scope is used The angle of the light beam that light emitters and location light emitters are sent is 0-90 degree.

Fluid ejection region light source the most according to claim 1 instruction positioner, is characterized in that: described light emitters For dome skylight, one end of described flexible joint nozzle arranges light source, arranges photoconduction in flexible joint nozzle, and dome skylight is connected to photoconduction and is in institute State one end of nozzle.

Fluid ejection region light source the most according to claim 1 instruction positioner, is characterized in that: described light emitters Use generating laser.