DE1598637C3 - Sample changing device for radiation-optical devices, in particular for X-ray vacuum spectrographs - Google Patents

Description

The invention relates to a sample changing device for optical radiation devices, in particular for X-ray vacuum spectrographs that have a spectrograph housing provided with an irradiation port and a sample chamber disposed above the irradiation opening, in which on a A replaceable sample container carrier is arranged from the outside by a gear movable support plate is.

Sample changing devices are known which are arranged in the housing of the optical radiation device so that when the sample is changed, the entire housing must be evacuated again. Thereby are uneconomically long evacuation times required.

Furthermore, a sample changing device is known with an auxiliary housing in which a sample holder is stored, which can only be fitted with a single sample. Such a design has the Disadvantage that a continuous examination of several samples one after the other in one operation not possible.

Furthermore, a sample changing device is known in which a plurality of devices are arranged in a circle The sample carrier receiving the sample container is rotatably arranged on a fixed support plate, which has an irradiation opening and several suction openings on which various vacuum pumps are connected. The disadvantage of such an embodiment is that with each other vacuum-tight cooperating surfaces of the fixed support plate and the rotatable sample carrier must be processed extremely precisely and require a correspondingly large amount of effort without that even when using a sealing grease compliance with a constant, good Vacuum is guaranteed, and this is also due to incorrectly seated and leaky sample containers may be at risk. Apart from that, the work process is due to the simultaneous operation and the ongoing monitoring of several different. ner vacuum pumps complicated and expensive. Also is the possibly desired possibility of a repetition of the examination of a sample in the same Workflow not given because the sample carrier only moves clockwise in one direction to prevent air ingress. Finally, there is a failure of the radiation tube associated vacuum pump, there is a risk of improper removal of the the sample container located above the irradiation opening to harmful radiation effects can come on the operating personnel.

It is also known to rotate the sample carrier from the outside by means of a gear.

The purpose of the invention is to provide a sample changer to create at which the manufacturing costs for the required parts as well as the required Operating expenses for vacuum units are within economically justifiable limits which guarantees the greatest possible degree of security against radiation damage.

The invention was based on the object of a sample changing device from simple, with a to build and train parts that can be produced with little machining effort in such a way that a continuous Examination of samples with the possibility of any repeatability and reversibility the direction of movement is given in the same operation and that at the same time by automatically effective interlocks and blocks an improper radiation-damaging release of the irradiation opening is definitely prevented.

According to the invention, the task at hand is achieved with a sample changing device for optical radiation Devices comprising a spectrograph housing provided with an irradiation port and one above the irradiation chamber has arranged sample chamber, solved in that the sample chamber above the irradiation opening can be attached to the spectrograph housing in a vacuum-tight manner and that that of the irradiation opening coaxially assigned closure opening of the sample chamber by means of a closing body Can be closed vacuum- and radiation-tight, with the sample container support on a with the help a reversible gear movable support plate

3 4

of the changing device and provided without additive containers 25, which the openings 24

additional movement mechanism such as a sample are coaxially assigned. At the fastening

can be brought over the irradiation opening. The place of the electromagnet 26 has the support plate

Closing body is preferably electromag 14 a through hole 28 for one of the

magnetically operated. 5 electromagnets 26 actuated plunger 29 on which a

In the case of a sample changing device, the closing body 30 is fastened to one.

Closing the sample chamber to a bearing pin. When the support plate 14 is rotated, the

pivotable lid, it is advantageous that the Dek sample container 25 and the closing body 30 after-

when closing by automatically locking each other through the irradiation opening 4 of the spec-

of the locking member can be locked, which trograph housing to secure io 1. With the help of not shown

against radiation damage only with covered switching contacts from which light signals are triggered

closing opening with the help of a on the support plate can be, the position of the respective

Closing body associated switching cam from the sample container 25 or the closing body 30 over

Lock is releasable. the irradiation opening 4 are displayed. The one with

It is also advantageous that the rotatable support plate 14 on the sample chamber 15 without additional More a mechanism, for example one under the mechanism in the closed position via the irradiation effect a spring-standing displaceable locking opening 4 brought closing body 30 bolted is arranged, which changes radiation damage when the lid is opened and closes at a the transmission moving the support plate automatically actuates the electromagnet 26 via a non blocked. 20 the switching contact shown the shutter opening 8

Such a trained, inventive product of the spectrograph housing 1 vacuum and radiant

Benwechseleinrichtung offers in an advantageous manner from airtight.

both an economically viable manufacturing process for further shielding against radiation damage

and operating costs as well as a high technical level, the cover 12 of the sample chamber 6 has a

and occupational safety in the work 25 latching projection 31, in the one under the effect

procedure. a compression spring 32 standing locking lever 33

In the following, the invention is to be based on an embodiment which prevents the cover from opening prematurely

example are explained in more detail. Locked in the drawing during sample examination. The

The opening shows the lid 12 being opened by releasing the locking

F i g. 1 an axial section and 30 ment is only when the shutter opening 8 is covered

F i g. 2 shows a section along the line AB in FIG

A spectrograph housing 1, which is only partially shown in the drawing of the support plate 14 associated with the electromagnet 26, has on its net and which, in the closed position of the upper end wall 2, is surrounded by a sealing ring 3 pers 30 by pushing back the compression spring 32 Irradiation opening 4 and a lateral locking lever 33 released from the latching projection 31,
Chen suction nozzle 5 for a Va- to release the closure opening 8 with a pump, not shown. On the upper end wall 2 of the spectro-opened cover 12 through an improper actuator housing 1, a sample chamber 6 for vacuuming the drive device can be attached with certainty to be condensed. The preparation chamber 6 contains prevent, is arranged vertically displaceably on the sample chamber 6 under which a changing device 7 and has a locking pin which is coaxially assigned to the action of a compression spring 35 and which is associated with a radiation opening 4 Countersink 9 and a transverse bolt 37 on a cantilever tab 38 of a sealing ring 10 is provided. Is mounted with the help of a cover 12 and when opening the cover 12 provided with a seal 11, which is pivotably mounted on the cover 12 by snapping into a locking hole 39 of a bearing pin 13, the 45 is the gear 20 and the pinion 17 as well as the tooth -Sample chamber 6 can be closed in a vacuum-tight manner. wreath 16 of the support plate 14 automatically blocked.

The changing device 7 consists of a support plate equipped with a suction nozzle 40 14, which are arranged on a chamber 6 in the sample chamber 6 and the one with the suction nozzle 5 Rolling bearing ring 15 rotatably mounted and see spectrograph housing 1 are with the help of a is provided with a ring gear 16, which is provided with a 50, not shown, a switching and a Belüf pinion 17 is engaged. The pinion 17 is through a connection line containing a valve A common vacuum pump mounted vertically in the bottom of the sample chamber 6 separate evacuation shaft 18, which can be removed with the help of a sealing ring 19, so that after a sample change only the is sealed, connected to a gear 20, which pumps out small space in the sample chamber 6 must be of a reversible drive 55, not shown. With the help of a well-known, in the device is to be operated. Drawing is not shown vacuum monitor

On the provided with a centering pin 21 when the required vacuum pressure support plate 14 is reached a with the help of a handle 22 kes of the switching contacts for opening the lock easily removable sample container carrier 23 is mounted seibar actuated with the help of the electromagnet 26. The sample container carrier 23 is enabled with 60 and the switching on of the drive device for a total of six equally spaced transport of the changing device 7,
Circularly arranged openings 24 provided, with the help of a reserve sample container carrier 23, five of which are used to accommodate rotatable or fixed other during the examination of the sample containers 25 arranged in the sample, while a chamber 6 is being filled, the opening can be used as a passage for the body an electric magnet 65 the time required for a sample change remains free, which is partially reduced to a minimum on the support plate 14,
is rigidly attached. The support plate 14 is provided with five boreholes 27 arranged in the shape of a sample changing device for the protection not only allows a convenient continuous one

Examination of the samples arranged on the rotatable sample container carrier 23 with a constant vacuum, but also ensures the greatest possible degree of safety in the technical workflow and against radiation damage and also offers a time-saving effort for changing the sample, which is based on the easy replacement of the sample container carrier 23 and the limited short time for evacuating the space-saving sample chamber 6.

1 sheet of drawings

Claims (4)

Patent claims: 1. Sample changing device for optical devices, especially for X-ray vacuum spectrographs, a spectrograph housing provided with an irradiation opening and one arranged above the irradiation opening Has sample chamber in which on an from the outside. support plate movable by a gear mechanism an exchangeable sample container support is arranged, characterized in that, that the sample chamber (6) can be attached to the spectrograph housing (1) in a vacuum-tight manner above the irradiation opening (4) and that the closure opening (8) coaxially assigned to the irradiation opening (4) of the The sample chamber (6) can be closed in a vacuum-tight and radiation-tight manner by means of a closing body (30) is connected to the sample container support (23) on one with the aid of a reversible gear (16; 17; 20) movable support plate (14) of the changing device (7) arranged and without additional Movement mechanism such as a sample can be brought over the irradiation opening (4). 2. Sample changing device according to claim 1, characterized in that the closing body (30) can be actuated electromagnetically. 3. Sample changing device with a sample chamber closing around a bearing pin pivotable cover according to one of claims 1 or 2, characterized in that the lid (12) can be locked when it is closed by an automatically engaging locking member (33) is, which is only when the closure opening (8) is covered with the help of a on the support plate (14) the switching cam (33) associated with the closing body (30) can be released from the lock. 4. sample changing device according to claim 3, characterized in that on the sample chamber (6) a mechanism (35; 36) is arranged which, when the cover (12) is opened, the support plate (14) moving gear (16; 17; 20) blocked automatically.