CN204516367U - The monochromator shielding device of cold neutron spectrometer - Google Patents

Abstract

The utility model relates to a kind of monochromator shielding device of cold neutron spectrometer, comprises fixed shield, pull-type portable shielding block part, rotary type outside shielding component and position detection component; Fixed shield is provided with white light neutron beam incidence channel and outgoing neutron passage; Portable shielding block part comprises and is multiplely overlapped on portable shielding block on fixed shield around circular arc successively, is fixed on the semi-circular support of fixed shield upper surface, and multiple cylinder being fixed on semi-circular support, each cylinder correspondence lift one portable shielding block; Rotary type outside shielding component comprises multiple external shield block being fixed on T-shaped support upper end, be fixed on the beam clipper inside external shield block, be fixed on the turntable below fixed shield, be fixed on the T-shaped air cushion group supporting below, and one end is fixed on the lower inside of T-shaped support, the other end is fixed on thin rectangular shape steel plate on turntable; Position detection component comprises multiple optoelectronic switch being fixed on fixed mask external surface along same Radius successively, and is fixed on the sectored light electric switch trigger board in the T-shaped support of rotary type outside shielding component.

Description

The monochromator shielding device of cold neutron spectrometer

Technical field

The utility model relates to a kind of cold neutron spectrometer, is specifically related to a kind of monochromator shielding device of cold neutron spectrometer, belongs to Neutron scattering technology field.

Background technology

Neutron scattering experiment is fully realized by dissimilar neutron scattering spectrometer.Great majority all need the monochromatic neutron using certain particular energy or wavelength to incide on sample based on the neutron scattering experiment of reactor, for some neutron scattering spectrometers, such as neutron three axle spectrometer, also requires the neutron energy that incides on sample or wavelength continuous variable.Therefore the white light neutron of drawing from reactor horizontal hole is needed to carry out monochromatization through monochromator.When white light neutron beam incides monochromator, according to Bragg diffraction law, by rotating monochromator to change angle of departure 2 θ between incoming beam and emerging beam _m, then the energy of outgoing neutron bundle and direction can change.In order to carry out well shielding to the surrounding of neutron beam and effectively reduce experiment background, monochromator must be positioned in monochromator shielding device.

At present, in open file " a kind of neutron monochromator shielding device of angle of departure continuous variable; Gao Jianbo etc.; China Mechanical Engineering; 2010; the 21st volume the 3rd phase ", and patent of invention " neutron monochromator shielding device (Authorization Notice No. CN 101599307 B) " all discloses a kind of monochromator shielding device with angle of departure continuous variable of layering drum like structure, " neutron three axle spectrometer; hook into; atomic energy science and technology, 1988, the 22nd volume the 2nd phase " discloses a kind of neutron monochromator shielding device of little shielding drum type.But the monochromator shielding device of this layering drum like structure is main mainly with loaded concrete, be more suitable for thermal neutron spectrometer and the cold neutron spectrometer being arranged on reactor hall.And if the monochromator shielding device of layering drum like structure and little shielding drum type is for the cold neutron three axle spectrometer in conduit hall, size and weight greatly, cause cost high and too clumsy.In addition, for the cold neutron spectrometer being seated conduit hall, there is report shielding to adopt plumbous and boron-doping high-density polyethylene composite material abroad, but do not have document openly to report the monochromator shielding device of cold neutron spectrometer.And the research of the monochromator shielding device of the domestic neutron energy continuous variable for cold neutron spectrometer still belongs to blank.

Summary of the invention

For the problems referred to above, the purpose of this utility model is to provide a kind of monochromator shielding device that can meet shielding simultaneously and reduce the cold neutron spectrometer of testing background requirement.

For achieving the above object, the utility model takes following technical scheme: a kind of monochromator shielding device of cold neutron spectrometer, is characterized in that, it comprises fixed shield, pull-type portable shielding block part, rotary type outside shielding component and position detection component; Described fixed shield, for being fixed on ground hollow housing structure, is provided with white light neutron beam incidence channel and outgoing neutron passage; Described portable shielding block part comprises N number of portable shielding block, semi-circular support, N number of cylinder and N number of regulating sleeve, wherein N be not less than 2 natural number; N number of described portable shielding block is overlapped on described fixed shield around circular arc in step fissure of displacement mode successively, and described semi-circular support is fixed on the upper surface of described fixed shield; The cylinder barrel of N number of described cylinder is fixed on described semi-circular support successively, the corresponding described portable shielding block of cylinder described in each, and the push rod of cylinder described in each is connected with the upper surface of corresponding described portable shielding block by regulating sleeve described in; Described rotary type outside shielding component comprises beam clipper, external shield block, turntable, thin rectangular shape steel plate, T-shaped support and air cushion group; Described beam clipper is fixed on inside described external shield block, and described external shield block is fixed on described T-shaped support upper end, and described external shield block is with dead in line and the mode of clearance fit is wrapped in described fixed shield and pull-type portable shielding block part; Described turntable is fixed on the ground below described fixed shield, the centre of gyration of described turntable and the dead in line of described fixed shield; Described air cushion group is fixed on the below of described T-shaped support, and in the horizontal direction, one end of described thin rectangular shape steel plate is fixed on the lower inside of described T-shaped support, and the other end of described thin rectangular shape steel plate is fixed on the rolling disc of described turntable; Described position detection component comprises N-1 optoelectronic switch and a sectored light electric switch trigger board, N-1 described optoelectronic switch is fixed on the outside surface of described fixed shield successively along same Radius, and is positioned at the below of the seam of N number of portable shielding block of described pull-type portable shielding block part successively; Described sectored light electric switch trigger board is fixed in the T-shaped support of described rotary type outside shielding component.

In a preferred embodiment, the xsect semicircular in shape splicing rectangle of described fixed shield, and in vertical direction semi-circular portion lower than rectangle part to be formed with the described outgoing neutron passage of step, in semi-circular portion and rectangle part stitching portion, described white light neutron beam incidence channel is set.

In a preferred embodiment, described portable shielding block part also comprises N number of guiding mechanism pair, guiding mechanism described in each forms by two identical guiding mechanisms, and along the radial direction of described fixed shield, right two guiding mechanisms of guiding mechanism described in each are symmetrically distributed in the both sides of described cylinder; Described guiding mechanism is connected in transition fit mode with sliding sleeve by guidepost, right two the guidepost lower ends of guiding mechanism described in each are separately fixed at corresponding described portable shielding block upper surface, and right two sliding sleeves of guiding mechanism described in each are separately fixed on described semi-circular support.

In a preferred embodiment, the xsect of described portable shielding block is fan-shaped, and its internal diameter, external diameter are identical with the internal diameter of described fixed shield semi-circular portions, external diameter respectively; The central angle of described portable shielding block is A, the size of the described cylinder that the minimum value of central angle A is installed according to described portable shielding block upper surface and determining; On described portable shielding block, circumferentially side is fluted, opposite side has boss, described groove is the half of the radical length of described portable shielding block in radial direction length, and described boss is at radial direction length 2mm less of described groove, and the central angle of described groove and boss is B; The below of described portable shielding block is step shape, and adjacent two described portable shielding blocks are inlayed ground mode with groove boss and overlapped.

In a preferred embodiment, described regulating sleeve is made up of coupling shaft and fixed cover, described coupling shaft have the cylinder of internal thread hole above being and under wear the round platform of both sides plane, described fixed cover is epimere with the cylinder of inverted T shape groove and hypomere is square plate with mounting hole, described coupling shaft is inserted in the inverted T shape groove of described fixed cover in transition fit mode, and described fixed cover is fixed on the upper surface of described portable shielding block successively.

In a preferred embodiment, described beam clipper be laterally for sector crosssection, longitudinally for having the square-section of step up and down, physical construction that centre has rectangular enclosure, width and the height dimension of its rectangular enclosure are determined by neutron streaming.

In a preferred embodiment, the central angle of described beam clipper is C, and central angle C determines in conjunction with the feasibility of mechanical processing technique according to the size of the rectangular enclosure of described beam clipper again; The xsect of described external shield block is fan-shaped, and the central angle of described external shield block is D, and central angle D is not less than the central angle A of the maximum quantity+3 times of the described portable shielding block once lifted.

In a preferred embodiment, the physical construction with spinfunction of described turntable worm-and-wheel gear composition driven by stepper motors, rotates centered by described turntable for driving described rotary type outside shielding component; Described T-shaped support fixes a stripe board in the upper horizontal of a rectangular tube, stretches out a gusset respectively at the dual-side of described rectangular tube, and two adjustable bolts are spun in the threaded hole of two described gussets respectively; Described air cushion group comprises two identical air cushions, T-shaped web joint, square installing plate and bearing pins, and two described air cushions are separately fixed at described T-shaped web joint two ends, and described air cushion is a kind of plane air-bearing structure that can realize supporting; Described square installing plate is fixed on the below of described T-shaped support, described bearing pin one end is connected in transition fit mode with described T-shaped web joint, the other end is fixed on described square installing plate, two described air cushions have allowed rotation together with described T-shaped web joint relative to described square installing plate, to play the effect automatically regulating two described air cushion stress balances; Two adjustable bolts simultaneously in described T-shaped support for adjust itself and described air cushion group T-shaped web joint upper surface between distance, when air cushion described in one of them floats too high, corresponding adjustable bolt in described T-shaped support touches the upper table surface of described T-shaped web joint, plays the effect stoping rotary type outside shielding component to be tumbled.

In a preferred embodiment, described optoelectronic switch is the phototriode tube sensor of fluted body structure, and described sectored light electric switch trigger board is inserted in the mode of clearance fit in the groove of described optoelectronic switch; The central angle of described sectored light electric switch trigger board equals the central angle C of described beam clipper.

In a preferred embodiment, described fixed shield boron-loaded rubber, stereotype and Boron-containing-PE combined material are made, described portable shielding block boron-loaded rubber, stereotype and Boron-containing-PE combined material are made, described beam clipper Boron-containing-PE is made, and described external shield block lead and Boron-containing-PE combined material are made.

The utility model is owing to taking above technical scheme, it has the following advantages: 1, the utility model triggers corresponding cylinder by position detection component and mentions portable shielding block, push unwanted portable shielding block, thus the portable shielding block having lifted minimum number is to change outgoing neutron passage, both met cold neutron spectrometer continuously changing and effective output of neutron streaming the neutron energy incided on sample, and met again shielding and reduce the requirement of experiment background.2, the push rod of each cylinder is connected with the upper surface of corresponding portable shielding block by a regulating sleeve by the utility model, and drive corresponding portable shielding block to realize rising and descending motion, with the site error taken in sail between shielding slab and semi-circular support by corresponding regulating sleeve; Meanwhile, arrange in the symmetria bilateralis of cylinder the guiding mechanism pair be made up of two identical guiding mechanisms, under the guiding that guiding mechanism is right, make the rising of cylinder drive portable shielding block and descending motion smooth-going.3, the utility model drives rotary type outside shielding component to rotate centered by turntable by turntable, along with the change of outgoing neutron energy, rotary type outside shielding component accurately can rotate the outgoing neutron bundle that beam clipper and external shield block make it to aim at all the time monochromator.4, the utility model is connected by a horizontally disposed thin rectangular shape steel plate between T-shaped support and turntable, and thin rectangular shape steel plate allows certain deflection deformation, is just being used on complemental air pad group in inflation and the height change caused of losing heart.5, two air cushions in the utility model air cushion group have allowed rotation together with T-shaped web joint relative to square installing plate, can play the effect automatically regulating two air cushion stress balances; Two adjustable bolts simultaneously in T-shaped support for adjust itself and air cushion group T-shaped web joint upper surface between distance, what can effectively prevent the inertia of rotary type external shield block part in starting-braking process from causing tumbles.

Accompanying drawing explanation

Fig. 1 is three-dimensional structure schematic diagram of the present utility model;

Fig. 2 is the three-dimensional structure schematic diagram of the utility model fixed shield;

Fig. 3 (a) is the three-dimensional structure schematic diagram of the utility model pull-type portable shielding block block part;

Fig. 3 (b) is the three-dimensional structure schematic diagram of regulating sleeve in the utility model pull-type portable shielding block block part;

Fig. 4 is the three-dimensional structure schematic diagram of the utility model rotary type outside shielding component;

Fig. 5 is the three-dimensional structure schematic diagram of the utility model position detection component;

Front view when Fig. 6 (a) is the utility model angle of departure 90 °;

Fig. 6 (b) is the A-A cross sectional plan view of Fig. 6 (a);

Fig. 6 (c) is the B-B cross sectional plan view of Fig. 6 (a);

Front view when Fig. 7 (a) is the utility model angle of departure 69 °;

Fig. 7 (b) is the A-A cross sectional plan view of Fig. 7 (a);

Fig. 7 (c) is the B-B cross sectional plan view of Fig. 7 (a).

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in detail.But should be appreciated that being provided only of accompanying drawing understands the utility model better, they not should be appreciated that paired restriction of the present utility model.

As shown in Figure 1, the utility model comprises fixed shield 100, pull-type portable shielding block part 200, rotary type outside shielding component 300 and position detection component 400.As shown in Figure 2, fixed shield 100 is the shell structure of hollow, and is fixed on the ground by foot bolt, fixed shield 100 is provided with white light neutron beam incidence channel 101 and outgoing neutron path 10 2.

In a preferred embodiment, as shown in Figure 2, the xsect semicircular in shape splicing rectangle of fixed shield 100, and in vertical direction semi-circular portion lower than rectangle part to be formed with the outgoing neutron path 10 2 of step, arrange white light neutron beam incidence channel 101 in semi-circular portion and rectangle part stitching portion, the main boron-loaded rubber of fixed shield 100, stereotype and Boron-containing-PE combined material are made.

As shown in Fig. 1,3 (a), portable shielding block part 200 comprises N number of portable shielding block 201, semi-circular support 202, N number of cylinder 220 and N number of regulating sleeve 230, wherein N be not less than 2 natural number.N number of portable shielding block 201 is overlapped on fixed shield 100 around circular arc in step fissure of displacement mode successively, and semi-circular support 202 is fixed on the upper surface of fixed shield 100.The cylinder barrel of N number of cylinder 220 is fixed on semi-circular support 202 successively, and the corresponding portable shielding block 201 of each cylinder 220, the push rod of each cylinder 220 is connected with the upper surface of corresponding portable shielding block 201 by a regulating sleeve 230.Like this under gases at high pressure effect, the push rod of cylinder 220 carries out linear reciprocating motion in cylinder barrel, and drive corresponding portable shielding block 201 to realize rising and descending motion, to adjust the site error between portable shielding block 201 and semi-circular support 202 by corresponding regulating sleeve 230.

In a preferred embodiment, as shown in Fig. 3 (a), 3 (b), portable shielding block part 200 also comprises N number of guiding mechanism to 210, each guiding mechanism is made up of two identical guiding mechanisms 210, and along the radial direction of fixed shield 100, each guiding mechanism is symmetrically distributed in the both sides of cylinder 220 to two guiding mechanisms of 210.Guiding mechanism is connected in transition fit mode with sliding sleeve by guidepost, each guiding mechanism is separately fixed at corresponding portable shielding block 201 upper surface to two guidepost lower ends of 210, each guiding mechanism is separately fixed on semi-circular support 202 to two sliding sleeves of 210, to realize running guiding to the vertical direction of portable shielding block 201.

In a preferred embodiment, the xsect of portable shielding block 201 is fan-shaped, and its internal diameter, external diameter are identical with the internal diameter of fixed shield 100 semi-circular portions, external diameter respectively.On portable shielding block 201, circumferentially side is fluted, opposite side has boss, groove is the half of the radical length of portable shielding block 201 in radial direction length, boss is at radial direction length 2mm less of groove, the below of portable shielding block 201 is step shape, and adjacent two portable shielding blocks 201 are inlayed ground mode with groove boss and overlapped.In the present embodiment, the central angle of portable shielding block 201 is A, the central angle of groove and boss is B (as Suo Shi Fig. 6 (b)), the minimum value of central angle A is installed the size of cylinder 220 according to its upper surface and determines, and portable shielding block 201 boron-loaded rubber, stereotype and Boron-containing-PE combined material are made.

In a preferred embodiment, as shown in Fig. 3 (b), regulating sleeve 230 is made up of coupling shaft 231 and fixed cover 232, coupling shaft 231 have the cylinder of internal thread hole above being and under wear the round platform of both sides plane, fixed cover 232 is epimeres with the cylinder of inverted T shape groove and hypomere is square plate with mounting hole, coupling shaft 231 is inserted in the inverted T shape groove of fixed cover 232 in transition fit mode, and fixed cover 232 is fixed on the upper surface of portable shielding block 201 successively.

As Figure 1 and Figure 4, rotary type outside shielding component 300 comprises beam clipper 301, external shield block 302, turntable 303, thin rectangular shape steel plate 304, T-shaped support 330 and air cushion group 310.Beam clipper 301 is fixed on inside external shield block 302, and external shield block 302 is fixed on T-shaped support 330 upper end, and external shield block 302 is with dead in line and the mode of clearance fit is wrapped in fixed shield 100 and pull-type portable shielding block part 200.Turntable 303 is fixed on the ground below fixed shield 100, the centre of gyration of turntable 303 and the dead in line of fixed shield 100.Air cushion group 310 is fixed on the below of T-shaped support 330, and in the horizontal direction, one end of thin rectangular shape steel plate 304 is fixed on the lower inside of T-shaped support 330, and the other end of thin rectangular shape steel plate 304 is fixed on the rolling disc of turntable 305.Because thin rectangular shape steel plate 304 allows certain deflection deformation, be just used on complemental air pad group 310 in inflation and the height change caused of losing heart.

In a preferred embodiment, beam clipper 301 be laterally for sector crosssection, longitudinally for having the square-section of step up and down, physical construction that centre has rectangular enclosure, width and the height dimension of its rectangular enclosure are determined by neutron streaming.The central angle of beam clipper 301 is C (as Suo Shi Fig. 6 (b)), and central angle C determines in conjunction with the feasibility of mechanical processing technique according to the size of rectangular enclosure again, and the main Boron-containing-PE of beam clipper 301 is made.The xsect of external shield block 302 is fan-shaped, central angle is D (as Suo Shi Fig. 6 (b)), central angle D is not less than the central angle A of the maximum quantity+3 times of the portable shielding block 201 once lifted, and external shield block 302 is mainly made with plumbous and Boron-containing-PE combined material.The physical construction with spinfunction of turntable 303 worm-and-wheel gear composition driven by stepper motors, it rotates centered by turntable 303 for driving rotary type outside shielding component 300.T-shaped support 330 fixes a stripe board 332 in the upper horizontal of a rectangular tube 331, stretches out a gusset 333, two adjustable bolts 334 be respectively spun on respectively in the threaded hole of two gussets 333 at the dual-side of rectangular tube 331.Air cushion group 310 comprises two identical air cushions 311, T-shaped web joint 312, square installing plate 313 and bearing pins 314, two air cushions 311 are separately fixed at T-shaped web joint 312 two ends, and the distance between two air cushions 311 is tried one's best large, air cushion 311 is a kind of plane air-bearing structures that can realize supporting.Square installing plate 313 is fixed on the below of T-shaped support 330, bearing pin 314 one end is connected in transition fit mode with T-shaped web joint 312, the other end is fixed on square installing plate 313, such two air cushions 311 have allowed rotation together with T-shaped web joint 312 relative to square installing plate 313, the effect automatically regulating two air cushion 311 stress balances can be played, two adjustable bolts 334 simultaneously in T-shaped support 330 for adjust itself and air cushion group 310 T-shaped web joint 312 upper surface between distance, float too high when causing one of them air cushion 311 for a certain reason, corresponding adjustable bolt 334 in T-shaped support 330 touches the upper table surface of T-shaped web joint 312, play the effect stoping rotary type outside shielding component 300 to be tumbled.

As shown in Figure 1, shown in Figure 5, position detection component 400 comprises N-1 optoelectronic switch 401 and a sectored light electric switch trigger board 402, N-1 optoelectronic switch 401 is fixed on the outside surface of fixed shield 100 successively along same Radius, and is positioned at the below of the seam of N number of portable shielding block 201 of pull-type portable shielding block part 200 successively.Sectored light electric switch trigger board 402 is fixed in the T-shaped support 330 of rotary type outside shielding component 300.

In a preferred embodiment, optoelectronic switch 401 is the phototriode tube sensor of fluted body structure, and sectored light electric switch trigger board 402 is inserted in the groove of optoelectronic switch 401 in the mode of clearance fit.The central angle of sectored light electric switch trigger board 402 equals the central angle C of beam clipper 301.

The adjustment process of neutron angle of departure below the concrete operations of the monochromator shielding device by cold neutron spectrometer is described.

As shown in Fig. 6 (a), the present embodiment incident white light neutron streaming is of a size of 30mm × 150mm, the quantity N value 14 of portable shielding block 201, the 1st piece to the 14th piece that overlooks counterclockwise difference definition of activities shielding slab 201, define the 1st to the 13rd of optoelectronic switch 401 respectively, the central angle A=9 ° of portable shielding block 201, B=1.25 °, the central angle C=14 ° of beam clipper 301, the central angle D=54 ° of external shield block 302, the stroke 250mm of cylinder 220, angle of departure scope is 30.75 ° to 150.5 °, and the distance between T-shaped web joint 312 upper surface of two adjustable bolts 334 in T-shaped support 330 and air cushion group 310 is 2mm.

(1) such as angle of departure adjusts to the motion process of 69 ° by 90 °:

As shown in Fig. 6 (a)-(c), incident white light neutron beam is 90 ° with the angle of departure through the outgoing neutron bundle of monochromatic Bragg diffraction.Original state: the 7th of optoelectronic switch 401 and the 8th is blocked triggering by sectored light electric switch trigger board 402, the 7th piece, the 8th piece of portable shielding block 201 and the 9th piece to be lifted completely by the 7th, the 8th of cylinder 220 and the 9th through the 7th of regulating sleeve 230 the, the 8th and the 9th respectively under the guide effect of guiding mechanism to 210 the 7th, the 8th and the 9th.

Rotary type outside shielding component 300 is started working.By inflating air cushion group 310, by T-shaped support 330 and on external shield block 302 and beam clipper 301 float, turntable 303 is rotated through thin rectangular shape steel plate 304 and drives T-shaped support 330 and external shield block 302 and beam clipper 301, and the sectored light electric switch trigger board 402 of position detection component 400 is rotated, and the distance between T-shaped web joint 312 upper surface of two adjustable bolts 334 in T-shaped support 330 and air cushion group 310 is 2mm tumbling of having prevented inertia when braking from causing further.

Along with turntable 303 rotates to overlook clockwise direction, position detection component 400 and pull-type shielding slab parts 200 are started working, and the slewing area of turntable 305 is 21 °.First the 8th of optoelectronic switch 401 is exited blocking of sectored light electric switch trigger board 402, little by little the 6th of optoelectronic switch 401 is blocked by sectored light electric switch trigger board 402, then the 7th of optoelectronic switch 401 exit and little by little the 6th of optoelectronic switch 401 and the 5th while to be blocked by sectored light electric switch trigger board 402 and finally the 6th of optoelectronic switch 401 exit, the 5th of optoelectronic switch 401 is still blocked by sectored light electric switch trigger board 402.In the process, control program is according to the 8th of optoelectronic switch 401 the and the 7th closedown, the cylinder barrel upper end starting the 9th of cylinder 220 and the 8th be associated is inflated, under gaseous tension effect respectively under the guide effect of guiding mechanism to 210 the 9th and the 8th by the 9th of regulating sleeve 230 and the 8th respectively under push away the 9th piece, the 8th piece of portable shielding block 201 until stroke terminates.Along with the 6th and the 5th triggering of optoelectronic switch 401, the 7th piece of portable shielding block 201 still keeps being raised state, the lower end starting the 6th of cylinder 220 and the 5th is inflated, and is mentioned the 6th of portable shielding block 201 the piece and the 5th piece until the stroke of 250mm terminates respectively under the guide effect of guiding mechanism to 210 the 6th and the 5th by the 6th and the 5th of regulating sleeve 230.Along with the 6th closedown of optoelectronic switch 401, start the cylinder barrel upper end inflation of the 7th of cylinder 220, under gaseous tension effect under the guide effect of 7th of guiding mechanism to 210 by the 7th the 7th piece of pushing away portable shielding block 201 downwards of regulating sleeve 230 until stroke terminates.So far, complete incident white light neutron beam and change into 69 °, as shown in Fig. 7 (b) with the angle of departure through the outgoing neutron bundle of monochromatic Bragg diffraction.

(2) such as angle of departure adjusts to the motion process of 90 ° by 69 °:

As shown in Fig. 7 (a)-(c), incident white light neutron beam is 69 ° with the angle of departure through the outgoing neutron bundle of monochromatic Bragg diffraction.Original state: the 5th of optoelectronic switch 401 is blocked triggering by sectored light electric switch trigger board 402, the 5th piece of portable shielding block 201 and the 6th piece to be lifted completely by the 5th of cylinder 220 and the 6th through the 5th of regulating sleeve 230 the and the 6th respectively under the guide effect of guiding mechanism to 210 the 5th and the 6th.

Rotary type outside shielding component 300 is started working.By inflating air cushion group 310, by T-shaped support 330 and on external shield block 302 and beam clipper 301 float, turntable 303 is rotated through thin rectangular shape steel plate 304 and drives T-shaped support 330 and external shield block 302 and beam clipper 301, and the sectored light electric switch trigger board 402 of position detection component 400 is rotated, and the distance between T-shaped web joint 312 upper surface of two adjustable bolts 334 in T-shaped support 330 and air cushion group 310 is 2mm tumbling of having prevented inertia when braking from causing further.

Along with turntable 303 counterclockwise rotates to overlook, position detection component 400 and pull-type shielding slab parts 200 are started working, and the slewing area of turntable 303 is 21 °.Little by little the 6th of optoelectronic switch 401 is blocked by sectored light electric switch trigger board 402, the 5th of optoelectronic switch 401 and the 6th is triggered simultaneously, little by little the 5th closedown of optoelectronic switch 401, the 6th of optoelectronic switch 401 and the 7th is triggered, little by little the 6th of optoelectronic switch 401 is exited, and the 7th of optoelectronic switch 401 and the 8th is triggered.In the process, control program is according to the 5th of optoelectronic switch 401 the and the 6th triggering, the 5th piece of portable shielding block 201 and the 6th piece still keeps being lifted state, and start the 7th of cylinder 220 cylinder barrel lower end inflation, under gaseous tension effect under the guide effect of 7th of described guiding mechanism to 210 by the 7th the 7th piece of mentioning portable shielding block 201 of described regulating sleeve 230 until the stroke of 250mm terminates.Along with the 5th closedown of optoelectronic switch 401 and the 6th and the 7th triggering of optoelectronic switch 401, start the cylinder barrel upper end inflation of the 5th of cylinder 220, under gaseous tension effect under the guide effect of 5th of guiding mechanism to 210 by the 5th the 5th piece of pushing away portable shielding block 201 downwards of regulating sleeve 230 until stroke terminates.The 7th piece of portable shielding block 201 keeps lift state, start the lower end inflation of the 8th of described cylinder 220, by the 8th of regulating sleeve 230, the 8th of portable shielding block 201 the piece is mentioned until the stroke of 250mm terminates under the guide effect of the 8th of described guiding mechanism to 210 under gaseous tension effect.Along with the 6th closedown of optoelectronic switch 401 and the 7th and the 8th triggering of optoelectronic switch 401, start the cylinder barrel upper end inflation of the 6th of cylinder 220, under gaseous tension effect under the guide effect of 6th of guiding mechanism to 210 by the 6th the 6th piece of pushing away portable shielding block 201 downwards of regulating sleeve 230 until stroke terminates.The 7th piece of portable shielding block 201 and the 8th piece keeps lift state, start the lower end inflation of the 9th of cylinder 220, by regulating sleeve 230, the 9th of portable shielding block 201 the piece is mentioned until the stroke of 250mm terminates under the guide effect of the 9th of guiding mechanism to 210 under gaseous tension effect.So far, complete incident white light neutron beam and change into 90 °, as shown in Fig. 6 (b) with the angle of departure through the outgoing neutron bundle of monochromatic Bragg diffraction.

The various embodiments described above are only for further describing the purpose of this utility model, technical scheme and beneficial effect; be not limited to the utility model; all within spirit of the present utility model and principle; any amendment of making, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a monochromator shielding device for cold neutron spectrometer, is characterized in that, it comprises fixed shield, pull-type portable shielding block part, rotary type outside shielding component and position detection component;

Described fixed shield, for being fixed on ground hollow housing structure, is provided with white light neutron beam incidence channel and outgoing neutron passage;

Described portable shielding block part comprises N number of portable shielding block, semi-circular support, N number of cylinder and N number of regulating sleeve, wherein N be not less than 2 natural number; N number of described portable shielding block is overlapped on described fixed shield around circular arc in step fissure of displacement mode successively, and described semi-circular support is fixed on the upper surface of described fixed shield; The cylinder barrel of N number of described cylinder is fixed on described semi-circular support successively, the corresponding described portable shielding block of cylinder described in each, and the push rod of cylinder described in each is connected with the upper surface of corresponding described portable shielding block by regulating sleeve described in;

Described rotary type outside shielding component comprises beam clipper, external shield block, turntable, thin rectangular shape steel plate, T-shaped support and air cushion group; Described beam clipper is fixed on inside described external shield block, and described external shield block is fixed on described T-shaped support upper end, and described external shield block is with dead in line and the mode of clearance fit is wrapped in described fixed shield and pull-type portable shielding block part; Described turntable is fixed on the ground below described fixed shield, the centre of gyration of described turntable and the dead in line of described fixed shield; Described air cushion group is fixed on the below of described T-shaped support, and in the horizontal direction, one end of described thin rectangular shape steel plate is fixed on the lower inside of described T-shaped support, and the other end of described thin rectangular shape steel plate is fixed on the rolling disc of described turntable;

Described position detection component comprises N-1 optoelectronic switch and a sectored light electric switch trigger board, N-1 described optoelectronic switch is fixed on the outside surface of described fixed shield successively along same Radius, and is positioned at the below of the seam of N number of portable shielding block of described pull-type portable shielding block part successively; Described sectored light electric switch trigger board is fixed in the T-shaped support of described rotary type outside shielding component.

2. the monochromator shielding device of cold neutron spectrometer as claimed in claim 1, it is characterized in that, the xsect semicircular in shape splicing rectangle of described fixed shield, and in vertical direction semi-circular portion lower than rectangle part to be formed with the described outgoing neutron passage of step, in semi-circular portion and rectangle part stitching portion, described white light neutron beam incidence channel is set.

3. the monochromator shielding device of cold neutron spectrometer as claimed in claim 1, it is characterized in that, described portable shielding block part also comprises N number of guiding mechanism pair, guiding mechanism described in each forms by two identical guiding mechanisms, and along the radial direction of described fixed shield, right two guiding mechanisms of guiding mechanism described in each are symmetrically distributed in the both sides of described cylinder; Described guiding mechanism is connected in transition fit mode with sliding sleeve by guidepost, right two the guidepost lower ends of guiding mechanism described in each are separately fixed at corresponding described portable shielding block upper surface, and right two sliding sleeves of guiding mechanism described in each are separately fixed on described semi-circular support.

4. the monochromator shielding device of cold neutron spectrometer as claimed in claim 2, it is characterized in that, the xsect of described portable shielding block is fan-shaped, and its internal diameter, external diameter are identical with the internal diameter of described fixed shield semi-circular portions, external diameter respectively; The central angle of described portable shielding block is A, the size of the described cylinder that the minimum value of central angle A is installed according to described portable shielding block upper surface and determining; On described portable shielding block, circumferentially side is fluted, opposite side has boss, described groove is the half of the radical length of described portable shielding block in radial direction length, and described boss is at radial direction length 2mm less of described groove, and the central angle of described groove and boss is B; The below of described portable shielding block is step shape, and adjacent two described portable shielding blocks are inlayed ground mode with groove boss and overlapped.

5. the monochromator shielding device of cold neutron spectrometer as claimed in claim 1, it is characterized in that, described regulating sleeve is made up of coupling shaft and fixed cover, described coupling shaft have the cylinder of internal thread hole above being and under wear the round platform of both sides plane, described fixed cover is epimere with the cylinder of inverted T shape groove and hypomere is square plate with mounting hole, described coupling shaft is inserted in the inverted T shape groove of described fixed cover in transition fit mode, and described fixed cover is fixed on the upper surface of described portable shielding block successively.

6. the monochromator shielding device of cold neutron spectrometer as claimed in claim 1, it is characterized in that, described beam clipper be laterally for sector crosssection, longitudinally for having the square-section of step up and down, physical construction that centre has rectangular enclosure, width and the height dimension of its rectangular enclosure are determined by neutron streaming.

7. the monochromator shielding device of cold neutron spectrometer as claimed in claim 4, it is characterized in that, the central angle of described beam clipper is C, and central angle C determines in conjunction with the feasibility of mechanical processing technique according to the size of the rectangular enclosure of described beam clipper again; The xsect of described external shield block is fan-shaped, and the central angle of described external shield block is D, and central angle D is not less than the central angle A of the maximum quantity+3 times of the described portable shielding block once lifted.

8. the monochromator shielding device of cold neutron spectrometer as claimed in claim 1, it is characterized in that, the physical construction with spinfunction of described turntable worm-and-wheel gear composition driven by stepper motors, rotates centered by described turntable for driving described rotary type outside shielding component; Described T-shaped support fixes a stripe board in the upper horizontal of a rectangular tube, stretches out a gusset respectively at the dual-side of described rectangular tube, and two adjustable bolts are spun in the threaded hole of two described gussets respectively; Described air cushion group comprises two identical air cushions, T-shaped web joint, square installing plate and bearing pins, and two described air cushions are separately fixed at described T-shaped web joint two ends, and described air cushion is a kind of plane air-bearing structure that can realize supporting; Described square installing plate is fixed on the below of described T-shaped support, described bearing pin one end is connected in transition fit mode with described T-shaped web joint, the other end is fixed on described square installing plate, two described air cushions have allowed rotation together with described T-shaped web joint relative to described square installing plate, to play the effect automatically regulating two described air cushion stress balances; Two adjustable bolts simultaneously in described T-shaped support for adjust itself and described air cushion group T-shaped web joint upper surface between distance, when air cushion described in one of them floats too high, corresponding adjustable bolt in described T-shaped support touches the upper table surface of described T-shaped web joint, plays the effect stoping rotary type outside shielding component to be tumbled.

9. the monochromator shielding device of cold neutron spectrometer as claimed in claim 7, it is characterized in that, described optoelectronic switch is the phototriode tube sensor of fluted body structure, and described sectored light electric switch trigger board is inserted in the mode of clearance fit in the groove of described optoelectronic switch; The central angle of described sectored light electric switch trigger board equals the central angle C of described beam clipper.

10. the monochromator shielding device of cold neutron spectrometer as claimed in claim 1, it is characterized in that, described fixed shield boron-loaded rubber, stereotype and Boron-containing-PE combined material are made, described portable shielding block boron-loaded rubber, stereotype and Boron-containing-PE combined material are made, described beam clipper Boron-containing-PE is made, and described external shield block lead and Boron-containing-PE combined material are made.