CN108081460B - A kind of collocation mechanism of the radiation shield concrete slurry for neutron research - Google Patents

Abstract

The present invention relates to a kind of collocation mechanisms of radiation shield concrete slurry for neutron research, it includes rack and configuration cylinder, the top of configuration cylinder offers particulate charge mouth, middle part offers water filling port and cement feed inlet, lower part offers configuration outlet, configuration outlet is connected with transport tube by delivery control valve, it configures and is provided with the stirring motor moved towards vertically below the upper cover of cylinder, the lower part of stirring motor is connected with stirring switch block, the side of stirring switch block is evenly provided with stirring blade, lower part is provided with stirring lifter drawing bar, the lower part of stirring lifter drawing bar is connected with stirring lifting seat, inclined stirring rod under the surrounding of stirring lifting seat is evenly provided with outward；The present invention can individually feed particulate material, and the bottom of configuration cylinder can be uniformly dropped by the effect of stirring blade, cooperate the stirring rod of bottom design, raw material and cement and water can be sufficiently mixed stirring, and then can ensure that the particulate material in manufactured concrete grout keeps uniform substantially.

Description

A kind of collocation mechanism of the radiation shield concrete slurry for neutron research

Technical field

In being used for the present invention relates to the radiation proof material processing equipment field more particularly to one kind for neutron scientific research The collocation mechanism of the radiation shield concrete slurry of son research.

Background technique

Neutron science is a kind of subject of high technology content, embodies a national scientific and technological level, neutron scientific research Comprising many contents, such as collision, the fusion of neutron etc., the research of neutron science mostly all can along with and radiation, therefore meeting Radiation proof material is used, existing neutron test is all that radiation protection is carried out using special radiation shield concrete mostly, this anti- It joined a variety of particles, such as copper particle, zinc granule heavy metal particles and sand grains in radiation concrete, and pass through specific cement mixing It forms, and the radiation-proof effect of radiation shield concrete is controlled by the content of particle and the uniformity coefficient of distribution, existing concrete The configuration of slurry is all first to be added at one time material using blender, then carried out again by auger position to it mostly It is stirred, is lacked using the configuration that the blender of existing concrete grout configuration carries out radiation shield concrete slurry there are biggish It falls into, is unable to ensure every kind of particle and is all evenly distributed in configured concrete grout, and then will lead to using this concrete Starching certain positions of molding concrete block, there are radiation protection loopholes.

Summary of the invention

The object of the present invention is to provide it is a kind of for neutron research radiation shield concrete slurry collocation mechanism, can to Grain raw material is individually fed, and the bottom of configuration cylinder can be uniformly dropped by the effect of stirring blade, cooperates bottom Raw material and cement and water can be sufficiently mixed stirring, and then can ensured in manufactured concrete grout by the stirring rod of design Particulate material keeps uniform substantially.

In order to achieve the goal above, the technical solution adopted by the present invention are as follows: a kind of radiation protection coagulation for neutron research The collocation mechanism of soil paste, it includes rack (1) and the configuration cylinder (31) being arranged thereon, and the top of the configuration cylinder (31) is uniform Offer no less than 3 particulate charge mouths (32), middle part offers water filling port (33) and cement feed inlet (34), lower part open up There is configuration outlet (35), the configuration outlet (35) is connected with transport tube (3), the configuration by delivery control valve (36) The stirring motor (39) moved towards vertically is provided with below the upper cover (38) of cylinder (31), the lower part of the stirring motor (39) connects It is connected to stirring switch block (40), the side of the stirring switch block (40) is evenly provided with stirring blade (41), lower part is provided with It stirs lifter drawing bar (42), the lower part of the stirring lifter drawing bar (42) is connected with stirring lifting seat (43), the stirring Inclined stirring rod (44) under the surrounding of lifting seat (43) is evenly provided with outward, the height of the stirring switch block (40) exist Between particulate charge mouth (32) and water filling port (33).

Further, the bottom of the configuration cylinder (31) be hinged with discharging switch block (45), and hinged position be located at match It sets at outlet (35), the discharging switch block (45) is elastomer block, and the lower chain of the other side opposite with hinged mouth is connected to out Material pushes cylinder (46), and the discharging pushes cylinder (46) setting on rack (1) and its stretch rod passes through configuration cylinder (31) Bottom, and configure cylinder (31) bottom and discharging push cylinder (46) stretch rod cooperation position be provided with sealing ring (47).

Further, the upper cover (38) is mounted in configuration cylinder (31) by installing bolt (48), the upper cover (38) middle side part is provided with hook (49) on.

Further, the lower part of the transport tube (3) is combined with radiation protection detection device (37), the radiation protection inspection Surveying device (37) includes the detection cylinder (2) being arranged on rack (1), and described detection cylinder (2) top offers and transport tube (3) The delivery port (6) of docking, the interior right upper portion of the detection cylinder (2) is inlaid with radiant matter transmitter (7), lower part be inlaid with The radiant matter receiver (8) of radiant matter transmitter (7) position cooperation.

Further, it is provided with conveying on the detection cylinder (2) and intercepts cylinder (4), the conveying intercepts cylinder (4) It is connected with and intercepts block (5) with the conveying of delivery port (6) cooperation, detection push is internally provided on the left of the detection cylinder (2) Cylinder (9), the detection push cylinder (9) are connected with and detection cylinder (2) matched detection push block (10).

Further, the right end of the detection cylinder (2) is combined with detection and intercepts block (11), and the detection intercepts block (11) top, which is connected with, intercepts elevator (12), and the interception elevator (12) is connected to the setting of detection cylinder (2) top It intercepts on lifting cylinder (13).

Further, it is combined with material mixing cylinder (15) on the right side of the detection cylinder (2), is set on the right side of the material mixing cylinder (15) It is equipped with the material mixing motor (16) that output shaft is passed to material mixing cylinder (15), is provided with spiral on the output shaft of the material mixing motor (16) The lower part of blade (17), the material mixing cylinder (15) from left to right offers rejected product discharge port (18) respectively and qualified product goes out Material mouth (20), and it has been respectively cooperating with rejected product discharge nozzle (19) and qualified product discharge nozzle (21), in the material mixing cylinder (15) It is provided with the rejected product discharging closing device with rejected product discharge port (18) cooperation.

Further, the detection cylinder (2) is square tube, and the material mixing cylinder (15) is round cylinder, and mixing drum (15) left end is fixed with docks block (14) with the circumference cylinder of detection cylinder (2) cooperation, outside circumference cylinder docking block (14) Side is and detects the rectangular of cylinder (2) same specification, and inner hole is the circle with material mixing cylinder (15) inner hole same specification, and round for detection cylinder (2) rectangular inscribed circle in.

Further, rejected product discharging closing device includes being embedded in material mixing cylinder (15) and being symmetrically distributed in The discharging of rejected product discharge port (18) two sides opens and closes pull rod (22), discharging folding pull rod (22) be connected with it is unqualified The discharging of product discharge port (18) cooperation opens and closes block, the vertical cross-section of discharging folding block (23) and material mixing cylinder (15) bottom It is similar.

Further, the reciprocal lifter drawing bar moved towards vertically is provided on the inner wall of the rejected product discharge nozzle (19) (24), the reciprocal lifter drawing bar (24) is connected with reciprocal lifting link block (25), the reciprocal lifting link block (25) It is connected with matched with rejected product discharge port width and cooperates reciprocal material blocking block (26), and reciprocal lifting with helical blade (17) The oscillation cycle of link block (25) and the rotation period of material mixing motor (16) cooperate；The lower part of the reciprocal material blocking block (26) connects The inclined guiding inclined plate (27) in inside to the lower part is connect, and the vertical height for being oriented to inclined plate (27) is greater than reciprocal lifter drawing bar (24) Go up and down section height.

The invention has the benefit that

1, particulate material can individually be fed, and configuration can be uniformly dropped by the effect of stirring blade Raw material and cement and water can be sufficiently mixed stirring, and then can ensure to make by the bottom of cylinder, the stirring rod of cooperation bottom design At concrete grout in particulate material keep uniform substantially.

2, discharging switch block and discharging push the design of cylinder, the concrete grout of bottom can be tilted, and then facilitate coagulation Soil paste enters in transport tube from configuration outlet.

3, the design linked up with, the equipment that can be hung oneself by driving integrally takes out mixing part, convenient for the dimension of mixing part Shield and replacement.

4, by detecting radiant matter transmitter and the cooperation of radiant matter detector in cylinder, by measuring concrete grout to radiation The blocking situation of substance determines whether the whether qualified distribution of the content of the particle in concrete grout is uniform, and then can ensure into The concrete block of type is solidified by qualified concrete grout, and radiation shield concrete block after molding is greatly improved Qualification rate reduces subsequent processing cost and wastage of material cost.

5, conveying intercepts cylinder and detects the matching design of push cylinder, can make concrete grout is sectional to be examined It surveys, and then is segmented and excludes underproof concrete grout, reducing whole waste situation when whole detection excludes (has some mixed Unqualified solidifying soil paste is uneven caused due to stirring, it is only necessary to the section concrete slurry for lacking particle excludes, and one section One section of detection just can achieve this purpose).

6, detection intercepts the design of block, and concrete grout can be carried out just one-step forming with detection push block (has specific shape Shape does not solidify completely, can become again pulpous state by stirring), and then radiant matter transmitter and radiant matter can be cooperated to receive Device completes the detection of concrete grout radiation protection, and testing result can be made more accurate.

7, the design of the helical blade of material mixing motor, material mixing cylinder and its inside can will test preliminary molding mixed in cylinder Solidifying soil blends pulp, while can play and be again stirring for uniform effect, the rejected product discharge port that material mixing cylinder lower part opens up Category filter collection can be carried out according to testing result with qualified product discharge port.

8, cylinder squared design is detected, the concrete grout squarely of detection can be made, consistency of thickness can be improved the essence of detection Degree, while can also be that radiant matter transmitter has wider array of detection range；The circular design of material mixing cylinder facilitates helical blade to mixed The stirring and conveying of solidifying soil paste；Circumference cylinder docking block can be realized the perfect docking of detection cylinder and material mixing cylinder.

9, rejected product discharging closing device is simple in sturcture, ingenious in design, and the rejected product that curved surface opens up is gone out Material mouth can be played and accurately be opened and closed.

10, the design of reciprocal lifter drawing bar and reciprocal material blocking block can scrape concrete grout remaining on helical blade, And then it can remain to avoid rejected product concrete into qualified product concrete.

11, it is oriented to the design of inclined plate, the reciprocal lifting of the concrete entered in rejected product discharge nozzle interference can be prevented The work of pull rod.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of the collocation mechanism of radiation shield concrete slurry for neutron research.

Fig. 2 is the structural schematic diagram of radiation protection detection device.

Fig. 3 is the partial enlarged view of A in Fig. 2.

Fig. 4 is the partial enlarged view of B in Fig. 2.

Label character as shown in the figure indicates are as follows: 1, rack；2, cylinder is detected；3, transport tube；4, conveying intercepts cylinder；5, it conveys Intercept block；6, delivery port；7, radiant matter transmitter；8, radiant matter receiver；9, push cylinder is detected；10, push block is detected； 11, detection intercepts block；12, elevator is intercepted；13, lifting cylinder is intercepted；14, circumference cylinder docks block；15, material mixing cylinder；16, material mixing Motor；17, helical blade；18, rejected product discharge port；19, rejected product discharge nozzle；20, qualified product discharge port；21, qualified Product discharge nozzle；22, discharging folding pull rod；23, discharging folding block；24, reciprocal lifter drawing bar；25, link block is back and forth gone up and down；26, Reciprocal material blocking block；27, it is oriented to inclined plate；31, case is configured；32, particulate charge mouth；33, water filling port；34, cement feed inlet；35, match Set outlet；36, delivery control valve；37, radiation protection detection device；38, upper cover；39, stirring motor；40, switch block is stirred；41, it stirs Mix blade；42, lifter drawing bar is stirred；43, lifting seat is stirred；44, stirring rod；45, discharge switch block；46, discharging pushes cylinder； 47, sealing ring；48, bolt is installed；49, it links up with.

Specific embodiment

In order to make those skilled in the art more fully understand technical solution of the present invention, with reference to the accompanying drawing to the present invention into Row detailed description, the description of this part be only it is exemplary and explanatory, should not have any limitation to protection scope of the present invention Effect.

As shown in Figs 1-4, a kind of structure of the invention are as follows: configuration machine of the radiation shield concrete slurry for neutron research Structure, it includes rack 1 and the configuration cylinder 31 being arranged thereon, and the top of the configuration cylinder 31 uniformly offers no less than 3 Particulate charge mouth 32, middle part offer water filling port 33 and cement feed inlet 34, lower part offer configuration outlet 35, the configuration Outlet 35 is connected with transport tube 3 by delivery control valve 36, and the lower section of the upper cover 38 of the configuration cylinder 31 is provided with to walk vertically To stirring motor 39, the lower part of the stirring motor 39 is connected with stirring switch block 40, the side of the described stirring switch block 40 It is evenly provided with stirring blade 41, lower part is provided with stirring lifter drawing bar 42, the lower part company of the stirring lifter drawing bar 42 It is connected to stirring lifting seat 43, inclined stirring rod 44 under the surrounding of the stirring lifting seat 43 is evenly provided with outward, institute The height for the stirring switch block 40 stated is between particulate charge mouth 32 and water filling port 33.

Preferably, the bottom of the configuration cylinder 31 is hinged with discharging switch block 45, and hinged position is located at configuration outlet At 35, the discharging switch block 45 is elastomer block, and the lower chain of the other side opposite with hinged mouth is connected to discharging and pushes cylinder 46, the discharging pushes that cylinder 46 is arranged in rack 1 and its stretch rod passes through the bottom of configuration cylinder 31, and configures cylinder 31 The position that bottom and discharging push the cooperation of 46 stretch rod of cylinder is provided with sealing ring 47.

Preferably, the upper cover 38 is mounted on configuration cylinder 31 by installing bolt 48, in 38 upside of upper cover Portion is provided with hook 49.

Preferably, the lower part of the transport tube 3 is combined with radiation protection detection device 37, the radiation protection detection device 37 include the detection cylinder 2 being arranged in rack 1, and 2 top of detection cylinder offers the delivery port 6 docked with transport tube 3, institute The interior right upper portion for the detection cylinder 2 stated is inlaid with radiant matter transmitter 7, lower part is inlaid with and cooperates with 7 position of radiant matter transmitter Radiant matter receiver 8.

Preferably, conveying is provided on the detection cylinder 2 and intercepts cylinder 4, the conveying intercept cylinder 4 be connected with The conveying that delivery port 6 cooperates intercepts block 5, and the left side of the detection cylinder 2 is internally provided with detection push cylinder 9, the inspection Push cylinder 9 is surveyed to be connected with and the detection matched detection push block 10 of cylinder 2.

Preferably, the right end of the detection cylinder 2 is combined with detection and intercepts block 11, and the detection intercepts the top of block 11 It is connected with and intercepts elevator 12, the interception elevator 12 is connected on the interception lifting cylinder 13 of detection 2 top of cylinder setting.

Preferably, material mixing cylinder 15 is combined on the right side of the detection cylinder 2, the right side of the material mixing cylinder 15 is provided with output Axis is passed to the material mixing motor 16 of material mixing cylinder 15, is provided with helical blade 17 on the output shaft of the material mixing motor 16, described The lower part of material mixing cylinder 15 from left to right offers rejected product discharge port 18 and qualified product discharge port 20 respectively, and has been respectively cooperating with Rejected product discharge nozzle 19 and qualified product discharge nozzle 21, are provided in the material mixing cylinder 15 and rejected product discharge port 18 cooperates Rejected product discharge closing device.

Preferably, the detection cylinder 2 is square tube, and the material mixing cylinder 15 is round cylinder, and the left end of mixing drum 15 It is fixed with and docks block 14 with the circumference cylinder that detection cylinder 2 cooperates, the outside for having an area of cylinder docking block 14 is with detection cylinder 2 with rule Lattice it is rectangular, inner hole is circle with 15 inner hole same specification of material mixing cylinder, and round for inscribed circle rectangular in detection cylinder 2.

Preferably, rejected product discharging closing device includes being embedded in material mixing cylinder 15 and being symmetrically distributed in not conforming to The discharging of 18 two sides of lattice product discharge port opens and closes pull rod 22, and the discharging folding pull rod 22 is connected with and rejected product discharge port 18 The discharging of cooperation opens and closes block, and the discharging folding block 23 is similar to the vertical cross-section of 15 bottom of material mixing cylinder.

Preferably, it is provided with the reciprocal lifter drawing bar 24 moved towards vertically on the inner wall of the rejected product discharge nozzle 19, The reciprocal lifter drawing bar 24 is connected with reciprocal lifting link block 25, and the reciprocal lifting link block 25 is connected with and does not conform to Lattice product discharge port width is matched and cooperates reciprocal material blocking block 26, and the reciprocal week of reciprocal lifting link block 25 with helical blade 17 The rotation period of phase and material mixing motor 16 cooperates；Inclined guiding on the inside of the lower part connection to the lower part of the reciprocal material blocking block 26 Inclined plate 27, and the vertical height for being oriented to inclined plate 27 is greater than the lifting section height of reciprocal lifter drawing bar 24.

When specifically used, configuration process is as follows, first water and cement is injected into configuration cylinder 2, later from particulate charge mouth 32 are added particulate matter, while starting stirring motor 39, make it that stirring blade 41 and stirring lifter drawing bar 42 be driven to rotate, pass through Stirring blade 41 by it is evengranular be scattering into configuration cylinder 2 bottom, later by stirring lifter drawing bar 42 drive stirring rod into The screw of row rotation and lifting, plurality of raw materials is mixed, while particulate matter distribution is more uniform, forms coagulation Soil paste is opened by delivery control valve 36 later, enters concrete grout in transport tube 3, while pushing cylinder by discharging 46 drive being rotated up for discharging switch block 45, further facilitate concrete grout and enter in transport tube 3 from configuration outlet 35, later Detection operation is carried out, detection operation is as follows, so that detection is intercepted block 11 and is located at minimum position, intercepts detection cylinder 2, make simultaneously Detection push block 10 is in the right side of delivery port 6, makes conveying interception cylinder 4 that conveying be driven to intercept block 5 later and moves, makes delivery port 6 be in connected state with delivery pipe 3, and rejected product discharging at this time opens and closes block 23 and is in closed state, and concrete grout can be from Delivery pipe 3 enters in detection cylinder 2, when the amount of entrance reaches a certain level, intercepts cylinder 4 by conveying and conveying is driven to intercept Block 5 closes delivery pipe 3, is driven later by detection push cylinder 9 and detects push block 10 concrete grout is turned right promotion, radiated Object transmitter 7 issues to form the rectangular concrete grout not solidified completely, passes through the transmitting radiation of radiant matter transmitter 7 later Object, radiant matter are not penetrated into radiant matter collector 8 after the absorption of concrete grout, then the result detected is qualification, if Be penetrated into radiant matter collector 8 then testing result be it is unqualified, it is qualified such as to detect, and discharging closing device continues to remain closed, and stirs Expect that motor 16 operates, detection, which intercepts block 11 and is intercepted lifting cylinder 13 and drives, to be risen, and detection push cylinder 9 drives detection push block Concrete grout is pushed to material mixing cylinder 15 by 10, by being fed to qualified product discharge port 20 to the right under the rotary action of helical blade 17 After drop into qualified product discharge nozzle 21；Such as detect unqualified, then the closing device that discharges is opened, while reciprocal lifter drawing bar 24 with 16 synchronous operation of material mixing motor, detection, which intercepts block 11 and is intercepted lifting cylinder 13 and drives, to be risen, and detection push cylinder 9 drives detection Concrete grout is pushed to material mixing cylinder 15 by push block 10, is fed to rejected product to the right under the rotary action by helical blade 17 In rejected product discharge nozzle 19 is dropped into after discharge port 18

It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row His property includes, so that the process, method, article or equipment for including a series of elements not only includes those elements, and And further include other elements that are not explicitly listed, or further include for this process, method, article or equipment institute it is intrinsic Element.

Used herein a specific example illustrates the principle and implementation of the invention, the explanation of above example It is merely used to help understand method and its core concept of the invention.The above is only a preferred embodiment of the present invention, it answers When pointing out due to the finiteness of literal expression, and objectively there is unlimited specific structure, for the common skill of the art For art personnel, without departing from the principle of the present invention, several improvement, retouching or variation can also be made, can also incited somebody to action Above-mentioned technical characteristic is combined in the right way；These improve retouching, variation or combination, or the not improved structure by invention Think and technical solution directly applies to other occasions, is regarded as protection scope of the present invention.

Claims (10)

1. a kind of collocation mechanism of the radiation shield concrete slurry for neutron research, it includes rack (1) and what is be arranged thereon match Set cylinder (31), which is characterized in that the top of the configuration cylinder (31) uniformly offers no less than 3 particulate charge mouths (32), middle part offers water filling port (33) and cement feed inlet (34), lower part offer configuration outlet (35), and described configures Mouth (35) is connected with transport tube (3) by delivery control valve (36), the lower section setting of the upper cover (38) of the configuration cylinder (31) There is the stirring motor (39) moved towards vertically, the lower part of the stirring motor (39) is connected with stirring switch block (40), and described stirs The side for mixing switch block (40) is evenly provided with stirring blade (41), lower part is provided with stirring lifter drawing bar (42), and described stirs The lower part for mixing lifter drawing bar (42) is connected with stirring lifting seat (43), and the surrounding of the stirring lifting seat (43) is uniformly arranged Have have a down dip outward oblique stirring rod (44), the height of the stirring switch block (40) is in particulate charge mouth (32) and water filling port (33) Between.

2. a kind of collocation mechanism of radiation shield concrete slurry for neutron research according to claim 1, feature exist In the bottom of the configuration cylinder (31) is hinged with discharging switch block (45), and hinged position is located at configuration outlet (35), institute The discharging switch block (45) stated is elastomer block, and the lower chain of the other side opposite with hinged mouth is connected to discharging and pushes cylinder (46), The discharging pushes cylinder (46) setting on rack (1) and its stretch rod passes through the bottom of configuration cylinder (31), and configures cylinder (31) position that bottom and discharging pushes the cooperation of cylinder (46) stretch rod is provided with sealing ring (47).

3. a kind of collocation mechanism of radiation shield concrete slurry for neutron research according to claim 1, feature exist In the upper cover (38) is mounted in configuration cylinder (31) by installing bolt (48), and middle side part is set in the upper cover (38) It is equipped with hook (49).

4. a kind of collocation mechanism of radiation shield concrete slurry for neutron research according to claim 1, feature exist In the lower part of the transport tube (3) is combined with radiation protection detection device (37), and the radiation protection detection device (37) includes The detection cylinder (2) being arranged on rack (1), described detection cylinder (2) top offer the delivery port docked with transport tube (3) (6), the interior right upper portion of the detection cylinder (2) is inlaid with radiant matter transmitter (7), lower part is inlaid with and radiant matter transmitter (7) the radiant matter receiver (8) of position cooperation.

5. a kind of collocation mechanism of radiation shield concrete slurry for neutron research according to claim 4, feature exist In being provided with conveying on the detection cylinder (2) and intercept cylinder (4), the conveying intercepts cylinder (4) and is connected with and delivery port (6) conveying cooperated intercepts block (5), and detection push cylinder (9) is internally provided on the left of the detection cylinder (2), described Detection push cylinder (9) is connected with and detection cylinder (2) matched detection push block (10).

6. a kind of collocation mechanism of radiation shield concrete slurry for neutron research according to claim 5, feature exist In the right end of the detection cylinder (2) is combined with detection and intercepts block (11), and the top that the detection intercepts block (11) is connected with It intercepts elevator (12), the interception elevator (12) is connected to the interception lifting cylinder (13) of detection cylinder (2) top setting On.

7. a kind of collocation mechanism of radiation shield concrete slurry for neutron research according to claim 6, feature exist In detection cylinder (2) right side is combined with material mixing cylinder (15), and it is incoming that output shaft is provided on the right side of the material mixing cylinder (15) The material mixing motor (16) of material mixing cylinder (15) is provided with helical blade (17) on the output shaft of the material mixing motor (16), described The lower part of material mixing cylinder (15) from left to right offer rejected product discharge port (18) and qualified product discharge port (20) respectively, and point Be not combined with rejected product discharge nozzle (19) and qualified product discharge nozzle (21), be provided in the material mixing cylinder (15) with it is unqualified The rejected product discharging closing device of product discharge port (18) cooperation.

8. a kind of collocation mechanism of radiation shield concrete slurry for neutron research according to claim 7, feature exist In the detection cylinder (2) is square tube, and the material mixing cylinder (15) is round cylinder, and the left end of mixing drum (15) is fixed with It is docked block (14) with the circumference cylinder of detection cylinder (2) cooperation, the outside of circumference cylinder docking block (14) is same with detection cylinder (2) Specification it is rectangular, inner hole is circle with material mixing cylinder (15) inner hole same specification, and round is rectangular inscribed in detection cylinder (2) Circle.

9. a kind of collocation mechanism of radiation shield concrete slurry for neutron research according to claim 7 or 8, feature It is, the rejected product discharging closing device includes being embedded in material mixing cylinder (15) and being symmetrically distributed in rejected product discharging The discharging of mouth (18) two sides opens and closes pull rod (22), and discharging folding pull rod (22) is connected with and rejected product discharge port (18) The discharging of cooperation opens and closes block, and discharging folding block (23) is similar to the vertical cross-section of material mixing cylinder (15) bottom.

10. a kind of collocation mechanism of radiation shield concrete slurry for neutron research according to claim 9, feature exist In being provided with the reciprocal lifter drawing bar (24) moved towards vertically on the inner wall of the rejected product discharge nozzle (19), described is past Multiple lifter drawing bar (24) are connected with reciprocal lifting link block (25), the reciprocal lifting link block (25) be connected with it is unqualified Product discharge port width is matched and cooperates reciprocal material blocking block (26) with helical blade (17), and back and forth goes up and down the past of link block (25) The rotation period of multiple period and material mixing motor (16) cooperates；It is rolled in the lower part connection to the lower part of the reciprocal material blocking block (26) Oblique guiding inclined plate (27), and the vertical height for being oriented to inclined plate (27) is greater than the lifting section height of reciprocal lifter drawing bar (24).