CN201974586U - Laser and CCD alignment positioning device - Google Patents

Abstract

The utility model discloses a laser and CCD alignment positioning device, which includes a large target chamber, a small target chamber, and a T3 target chamber, wherein the large target chamber and the T3 target chamber are connected through a beam current pipeline, so are the T3 target chamber and the small target chamber; a sample rack is arranged in the large target chamber; an autocollimator is arranged behind the large target chamber; particularly, the device is provided with a laser and a CCD at the same time; the laser is mounted in the small target chamber in a fixed eccentric manner; and the CCD is mounted above an inlet of the large target chamber through a CCD support. The combination use of the laser and the CCD enables the centering operation to be more accurate, and solves the problem of view angle positional deviation when the CCD is used for centering independently; and the laser brightness adjusting function is added, so that a laser point can be seen clearly and easily when the large target chamber is different in brightness. The laser and CCD alignment positioning device is used for alignment positioning, eliminates an electric translation stage, reduces the failure rate, and overcomes the defects of complicated mechanical structure, large positional deviation caused by angle, and the like in the present laser centering method.

Description

A kind of laser adds CCD collimation locating device

Technical field

The utility model belongs to accelerator irradiation experiment application apparatus technical field, is specifically related to a kind of laser and adds CDD collimation locating device.

Background technology

Before the accelerator experiment, need to determine by the irradiation position of irradiation sample in advance.Method commonly used at present has collimating telescope centering method, CCD monitoring centering method, laser beam centering method etc.The collimating telescope method is along beam line, places a collimating telescope in irradiation target chamber outside, needs good according to demarcation in advance sign, and collimation position of telescope, direction, angle etc. are proofreaied and correct, and can treat irradiation sample then and carry out centering.Though this method can determine to treat the irradiation position of irradiation sample directly, accurately, owing to be from treating irradiation sample back side observation, for opaque, the unconspicuous sample centering of back mark difficulty comparatively just.

CCD (Charge-coupled Device) is a kind of semiconductor devices, can be converted into digital signal to optical image.CCD monitoring centering method is to utilize to be placed on (perhaps being placed on outside the target chamber of target chamber inner sample the place ahead, observing by catoptron) CCD observes and treats the irradiation sample position, though this method has overcome the shortcoming that collimating telescope is observed from behind, but because there is certain visual angle when installing in CCD, may the location deviation during for rugged sample centering.

There are some laboratories to adopt method of laser alignment at present, promptly treat irradiation sample and carry out centering by prior corrected laser beam, existing laser alignment method is broadly divided into two kinds: a kind of is that laser instrument is installed in movably on the shelf, when needing centering, laser instrument moved to carry out centering on the beam line; Also having a kind of is that laser instrument is installed in the vacuum pipe outside, laser beam is got to treated to carry out on the irradiation sample centering by window, catoptron (departing from beam center installs).Preceding a kind of method advantage is that laser instrument is unrestricted to the distance for the treatment of irradiation sample, but needs mobile platform of special installation be used for fixing laser instrument, and physical construction is complicated, and need take the interior big quantity space of vacuum pipe.A kind of method advantage in back is that laser instrument can be fixed on the vacuum pipe outside, need not mobile platform, saved the space in the vacuum pipe, but because laser mirror departs from beam center, be that laser beam is that oblique being mapped to treated on the irradiation sample, therefore can produce position deviation, therefore catoptron need be placed on from treating that irradiation sample position far away is to reduce deviation effects.

The utility model content

At the defective that exists in the prior art, the purpose of this utility model is to provide a kind of laser to add CCD collimation locating device, makes the collimation location more accurate, easier by this device, has reduced rate of breakdown simultaneously.

For achieving the above object, the technological means of the utility model employing is as follows:

A kind of laser adds CCD collimation locating device, comprise big target chamber, little target chamber, T3 target chamber, between described big target chamber and the T3 target chamber, be connected by beam current tube respectively between T 3 target chambers and the little target chamber, be provided with specimen holder in the big target chamber, big target chamber rear is provided with collimating telescope, and wherein, this device is provided with laser instrument and CCD simultaneously, described laser instrument adopts fixing eccentric mode to be installed in the little target chamber, and CCD is installed in the top of big target chamber inlet by the CCD support.

Further, aforesaid collimation locating device, described laser instrument is fixed on the optical table by the laser instrument mounting bracket, apart from beam centre line 0.5cm～10cm.

Further, aforesaid collimation locating device, described laser instrument is apart from beam centre line 0.9cm.

Further, aforesaid collimation locating device also is provided with the laser brightness regulating circuit in this device, link to each other with laser instrument by power lead.

Further, aforesaid collimation locating device, described laser brightness regulating circuit is made of laser power supply, variohm, laser instrument, power lead and switch series connection.

Further again, aforesaid collimation locating device, the angle of described CCD is regulated by the CCD support.

Further, aforesaid collimation locating device, finely tune by the laser instrument mounting bracket position of described laser instrument.

Effect of the present utility model is: laser instrument adopts fixedly centering type installation in the utility model, has removed motorized precision translation stage from, has reduced rate of breakdown; Being used in combination of laser instrument and CCD makes the centering operation more accurate, easier, solved simple visual angle position deviation problem with CCD centering; Owing to increased the laser brightness control function, make when the different brightness of big target chamber, all be easy to see clearly laser spots.This utility model has been removed destruction vacuum in the collimating telescope centering method from, has been opened the trouble of flange, and observe the accurately problem of centering of opaque sample from behind, overcome shortcomings such as complicated in mechanical structure in the laser alignment method in the past, position deviation that angle causes are big, realized accurately centering with simpler method.

Description of drawings

Fig. 1 adds the structural representation of CCD collimation locating device for a kind of laser of the utility model;

Fig. 2 is the circuit theory diagrams of the utility model brightness of laser regulating circuit;

Fig. 3 adds the process flow diagram of CCD collimation localization method for a kind of laser.

Embodiment

Below in conjunction with Figure of description and embodiment the utility model is described in further detail.

Fig. 1 shows the structural representation that a kind of laser of the utility model adds CCD collimation locating device, as can be seen from Figure, this device comprises big target chamber 3, little target chamber 4, T3 target chamber 14, laser instrument 1, CCD2, is arranged in the specimen holder 9 of big target chamber 3, in the utility model, described laser instrument 1 is installed in the little target chamber 4, is fixed on the optical table 12 by laser instrument mounting bracket 11; CCD2 is installed in the top of big target chamber 3 inlets by CCD support 13; T3 target chamber 14 is between big target chamber 3 and little target chamber 4, greatly between target chamber 3 and the T3 target chamber 14, be connected by beam current tube 15 respectively between T3 target chamber 14 and the little target chamber 4; Big target chamber 3 rears are provided with collimating telescope 8; The laser brightness regulating circuit that links to each other with laser instrument 1 by power lead.Wherein, about the laser spots, about can finely tune by support 11, CCD2 is installed in directly over the line of irradiation target chamber porch, its angle can be regulated by support 13.

In the present embodiment, laser instrument is installed in the little target chamber 4 that the big target chamber 3 about 8m of distance (1m～20M all can) locate, apart from beam centre line 150.9cm (0.5cm～10cm all can), so both can guarantee that laser can the big target chamber 3 of unobstructed arrival, avoid beam centre line 5 again, can not keep off line.For guaranteeing that the laser spot position overlaps with beam center irradiation position, before positioning, need proofread and correct, earlier with the collimating telescope 8 that is placed on big target chamber back, find the secondary standard point that is positioned at beam center in the big target chamber on the specimen holder 9, then the laser instrument luminous point is adjusted to this point, fixes and get final product, this step only need be carried out once.Wherein the secondary standard point is to adjust the adjustment interim standard point that laser spot overlaps its beam center irradiation position.

Because the brightness of laser that market is bought can't be regulated, therefore light is crossed bright or is crossed when dark in big target chamber, possibly can't see laser spot clearly.The utility model improves the laser power supply 6 that is placed on the target chamber outside, adds a variohm 7, as shown in Figure 2, and by regulating its brightness of input voltage regulation of laser instrument.This circuit is made of laser power supply 6, variohm 7, laser instrument 1, power lead and switch series connection.

By said apparatus, the user has realized following purpose when collimating the location:

1, removed from destruction vacuum in the collimating telescope centering method, open the trouble of flange 10, and observe the accurately problem of centering of opaque sample from behind.

2, solved simple visual angle position deviation problem with CCD centering.

3, overcome shortcomings such as complicated in mechanical structure in the laser alignment method in the past, position deviation that angle causes are big, realized accurately centering with simpler method.

Fig. 3 shows the laser that utilizes among Fig. 1 and adds the process flow diagram that CCD collimation locating device collimates and locatees, and may further comprise the steps:

Step S31: the position of calibration of laser luminous point;

After laser instrument was installed, the calibration of laser light spot position was adjusted to laser spot and treats in the irradiation sample frame that in the heart, the concrete mode of correction is:

At first find the secondary standard point that is positioned at beam center on the specimen holder, regulate laser instrument then, make the laser instrument luminous point be adjusted to this secondary standard point by collimating telescope 8.

Carry out in the back in the process of centering, as long as the not touched mistake in position of laser instrument then need not to carry out this step again.

Step S32: regulate the brightness of laser spot;

Connect laser power supply 6, and regulate variohm 7 and make laser spot modulation appropriate brightness, the user just can both see laser spots clearly easily when target chamber 3 different brightness greatly like this.

Step S33: move and treat that irradiation sample drops on its regional center laser spot;

Move repeatedly and treat irradiation sample, drop on up to laser spot and treat on the irradiation sample regional center.

Step S34: record position coordinate.

The position coordinates in irradiation sample zone treated in record, finishes the collimation location.

Obviously, those skilled in the art can carry out various changes and modification to the utility model and not break away from spirit and scope of the present utility model.Like this, if of the present utility model these are revised and modification belongs within the scope of the utility model claim and equivalent technology thereof, then the utility model also is intended to comprise these changes and modification interior.

Claims (7)

1. a laser adds CCD collimation locating device, comprise big target chamber (3), little target chamber (4), T3 target chamber (14), between described big target chamber (3) and the T3 target chamber (14), be connected by beam current tube (15) respectively between T3 target chamber (14) and the little target chamber (4), be provided with specimen holder (9) in the big target chamber (3), big target chamber (3) rear is provided with collimating telescope (8), it is characterized in that: this device is provided with laser instrument (1) and CCD (2) simultaneously, described laser instrument (1) adopts fixing eccentric mode to be installed in the little target chamber (4), and CCD (2) is installed in the top of big target chamber (3) inlet by CCD support (13).

2. collimation locating device as claimed in claim 1 is characterized in that: described laser instrument (1) is fixed on the optical table (12), apart from beam centre line 0.5cm～10cm by laser instrument mounting bracket (11).

3. collimation locating device as claimed in claim 2 is characterized in that: described laser instrument (1) is apart from beam centre line 0.9cm.

4. as collimation locating device as described in one of claim 1 to 3, it is characterized in that: also be provided with the laser brightness regulating circuit in this device, link to each other with laser instrument (1) by power lead.

5. as collimation locating device as described in the claim 4, it is characterized in that: described laser brightness regulating circuit is made of laser power supply (6), variohm (7), laser instrument (1), power lead and switch series connection.

6. as the described collimation locating device of one of claim 1 to 3, it is characterized in that: the angle of described CCD (2) is regulated by CCD support (13).

7. as the described collimation locating device of one of claim 1 to 3, it is characterized in that: finely tune by laser instrument mounting bracket (11) position of described laser instrument (1).

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