CN205735536U - A kind of depositing dust mixing arrangement produced for nuclear power station dry powder and mortar - Google Patents

Abstract

This utility model discloses a kind of depositing dust mixing arrangement produced for nuclear power station dry powder and mortar, it includes combination raw materials blanking chamber, vibrations room, shot condensing chamber, batch mixing propeller, combination raw materials blanking chamber base plate, valve, cross pond, effluent trough, mixed stirring device, mix and blend room, shot particle blanking bucket, shot particle blanking control valve, drying cover, shot seat board, dust exhaust apparatus, shock module, discharging guides screen plate, housing, electromagnetic water valve, bellows, vibrations casing, air exhauster assembly, vibration motor one group, spring, limited block, vibration motor two groups, expansion sweep-up flexible pipe, dust suction chamber, condensing chamber main body, interval body, discharge bucket, combination raw materials hopper, combination raw materials blanking control valve, condensing chamber discharging opening.The purpose of this utility model is to provide a kind of depositing dust mixing arrangement produced for nuclear power station dry powder and mortar, can reach the effect of depositing dust by the adsorbing powder dust in raw material at shot particle surface, reduce air pollution.

Description

A kind of depositing dust mixing arrangement produced for nuclear power station dry powder and mortar

Technical field

This utility model belongs to radioprotective dry powder and mortar processing technique field, is specially one for nuclear power The depositing dust mixing arrangement that dry powder and mortar of standing produces.

Background technology

A kind of radioprotective dry powder and mortar, it is that (its structure is hollow sphere, table by shot granule Face is coated with groove) aggregate that processes with drying screening, inorganic coagulation material, the combination such as additive Raw material carries out a kind of graininess of physical mixed by a certain percentage, with form fortune packed or in bulk To building site, add water the material that i.e. can be used directly after mixing and stirring.This radioprotective combining shot granule Dry powder and mortar is built a wall Stability Analysis of Structures, has the effects such as anticracking, antidetonation, sound insulation, anti-leak, radioprotective, Useful application, in nuclear power station, has good development prospect.

A kind of radioprotective dry powder and mortar, is attended by a large amount of subparticle in its raw material, with shot granule When carrying out mix and blend, these subparticles form substantial amounts of powder, and these powder such as control not in time, Below, the storage of dry powder and mortar, course of conveying can produce a large amount of airborne dust, air is polluted, The health of operator is threatened, dust is not effectively treated in mixing apparatus at present, There is environment and healthy hidden danger.

Utility model content

The purpose of this utility model is for problem above, it is provided that a kind of raw for nuclear power station dry powder and mortar The depositing dust mixing arrangement produced, can reach depositing dust by the adsorbing powder dust in raw material at shot particle surface Effect, reduce to air pollution.

For realizing object above, the technical solution adopted in the utility model is: it includes housing (8), It is internally provided with condensing chamber main body (29)；It is provided with shot in described condensing chamber main body (29) to condense Room (3)；Described shot condensing chamber (3) outer end is provided with interval body (30)；Described interval body (30) Internal for vibrations room (2)；The outer left and right sides of described vibrations room (2) is provided with combination raw materials blanking chamber (1)； Described combination raw materials blanking chamber (1) lower end is provided with mix and blend room (20)；Described mix and blend room (20) bottom is provided with discharge bucket (31)；Described combinatorial principle blanking chamber (1) and shot condensing chamber (3) top is respectively arranged with shot particle blanking bucket (11) and combination raw materials hopper (32)； It is respectively arranged with shot in described shot particle blanking bucket (11) and combination raw materials hopper (32) Grain blanking control valve (12) and combination raw materials blanking control valve (33)；Described shot condensing chamber (3) It is internally provided with shock module (16)；Shot seat board (14) it is provided with in described shock module (16)； The quantity of described shot seat board (14) is multiple, is evenly distributed on the left and right two of shock module (16) End, wherein the left end of odd term is connected to shock module (16) left end and tilts to the right, even number Right-hand member be connected to shock module (16) right-hand member inclined downward to the left；Described shot seat board (14) Angled end and shock module (16) between for spacing arrange；Described the top shot seat board (14) Top spacing is provided with drying cover (13)；Described shot seat board (14) includes plate body (1401)；Institute Aquaporin (1402) and warm braw passage (1404) it was provided with in stating plate body (1401)；Described plate body (1401) upper end is provided with shot resettlement groove (3203)；Described aquaporin (1402) of crossing is pacified with shot Put and be connected between groove (3203)；It is provided with warm braw interface on the side panel of described plate body (1401) (1406)；Described warm braw interface (1406) is connected with warm braw passage (1404)；Described warm braw leads to Road (1404) lower end is provided with vent (1405)；It is provided with flexible on described shot seat board (14) Flexible pipe (20)；Described bellows (20) was connected in aquaporin (1402)；Described flexible soft Pipe (20) end connects electromagnetic water valve (19)；Described warm braw interface (1406) connects warm-air drier； The left and right sides, described shot condensing chamber (3) bottom is provided with condensing chamber discharging opening (34)；Described shot Seat board (32) bottom was provided with pond (7)；Described pond (7) excessively and shot condensing chamber (3) Between by discharging guide screen plate (17) be spaced；Described discharging guides the upper setting of screen plate (17) There is water hole；Described bottom, pond (7) of crossing is provided with effluent trough (8)；Described shock module (16) On be provided with dust exhaust apparatus (15)；Described combination raw materials blanking chamber (1) bottom is provided with batch mixing and advances Device (4)；Described batch mixing pusher (4) lower section is combination raw materials blanking chamber base plate (5)；Described combination Base plate (5) the inner, raw material blanking room is provided with valve (6)；Arrange in described mix and blend room (10) There is mixed stirring device (9).

Further, described shock module (16) includes shaking casing (21), being arranged on vibrations casing (21) spring (24) at upper and lower two ends；Described spring (24) and vibrations casing (21) left and right sides It is provided with limited block (25)；Described limited block (25) is fixedly connected in condensing chamber main body (29).

Further, described dust exhaust apparatus (15) includes air exhauster assembly (22), dust suction chamber (28) With expansion sweep-up flexible pipe (27)；Described air exhauster assembly (22) is arranged in vibrations casing (21), Its quantity is multiple, is separately positioned on the upper end of shot seat board (14)；Described air exhauster assembly (22) One end connection internal at shot condensing chamber (3), the other end is arranged in dust suction chamber (28)；Described Dust suction chamber (28) is for sealing structure；One end of described expansion sweep-up flexible pipe (27) is connected to dust suction chamber (28), in, the other end connects in combinatorial principle blanking chamber (1).

Further, the angle of inclination of described shot seat board (32) is 5 °～35 °.

Further, described discharging guides screen plate (17) is inverted V-shaped structure.

Further, described drying cover (13) includes cover body (1301)；In described cover body (1301) It is provided with cover body passage (1302)；Described cover body passage (1302) lower end is provided with cover body air vent (1303)；Cover body warm braw interface (1304) it is provided with in described cover body (1301) side panel；Institute State cover body warm braw interface (1304) to be connected with cover body passage (1302).

The beneficial effects of the utility model:

1, the dust in raw material firmly can be adsorbed at shot particle surface, reduce the powder in raw material Dirt, reduces air pollution.

2, shot particle surface covers one layer of dust, is then advanced with batch mixing by batch mixing propeller one group Device two groups repeatedly mixes, and the mixing that can make dry powder and mortar is more uniform, can reduce setting simultaneously Standby abrasion.

3, this device continuous production is good, and discharging is convenient and little to equipment attrition.

In sum, the batch mixing dust exhaust apparatus that this utility model produces for a kind of radioprotective dry powder and mortar, Can uniformly be mixed with other raw material by shot granule, production efficiency is high, discharging facilitates and to setting Standby abrasion is little, and additionally this device can reach fall by the adsorbing powder dust in raw material at shot particle surface The effect of dirt, reduces air pollution.

Accompanying drawing explanation

Fig. 1 is the main cross-sectional schematic of this utility model.

Fig. 2 is the partial enlarged view A in Fig. 1.

Fig. 3 is the structural representation being connected between shot seat board and bellows in this utility model.

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

Fig. 5 is the principal section structural representation of drying cover in this utility model.

Described in figure, label character is expressed as: 1, combination raw materials blanking chamber；2, vibrations room；3, shot Condensing chamber；4, batch mixing propeller；5, combination raw materials blanking chamber base plate；6, valve；7, pond is crossed； 8, effluent trough；9, mixed stirring device；10, mix and blend room；11, shot particle blanking bucket； 12, shot particle blanking control valve；13, drying cover；1301, cover body；1302, cover body passage； 1303, cover air vent；1304, cover body warm braw interface；14, shot seat board；1401, plate body； 1402, aquaporin is crossed；1403, shot resettlement groove；1404, warm braw passage；1405, vent； 1406, warm braw interface；15, dust exhaust apparatus；16, shock module；17, discharging guides screen plate； 18, housing；19, electromagnetic water valve；20, bellows；21, vibrations casing；22, convulsion unit Part；23, vibration motor one group；24, spring；25, limited block；26, vibration motor two groups；27、 Expansion sweep-up flexible pipe；28, dust suction chamber；29, condensing chamber main body；30, interval body；31, discharge bucket； 32, combination raw materials hopper；33, combination raw materials blanking control valve；34, condensing chamber discharging opening.

Detailed description of the invention

In order to make those skilled in the art be more fully understood that the technical solution of the utility model, below in conjunction with This utility model is described in detail by accompanying drawing, and the description of this part is only exemplary and explanatory, no Tackle protection domain of the present utility model and have any restriction effect.

As Figure 1-Figure 5, concrete structure of the present utility model is: it includes housing 8, inside it It is provided with condensing chamber main body 29；It is provided with shot condensing chamber 3 in described condensing chamber main body 29；Described lead Ball condensing chamber 3 outer end is provided with interval body 30；Described interval body 30 is internal for vibrations room 2；Described shake The dynamic outer left and right sides, room 2 is provided with combination raw materials blanking chamber 1；Described combination raw materials blanking chamber 1 lower end sets It is equipped with mix and blend room 20；It is provided with discharge bucket 31 bottom described mix and blend room 20；Described combination Principle blanking chamber 1 is respectively arranged with shot particle blanking bucket 11 and combination with the top of shot condensing chamber 3 Raw material blanking bucket 32；Described shot particle blanking bucket 11 is respectively provided with in combination raw materials hopper 32 There are shot particle blanking control valve 12 and combination raw materials blanking control valve 33；In described shot condensing chamber 3 Portion is provided with shock module 16；It is provided with shot seat board 14 in described shock module 16；Described shot The quantity of seat board 14 is multiple, is evenly distributed on the two ends, left and right of shock module 16, wherein odd term Left end be connected to shock module 16 left end and tilt to the right, the right-hand member of even item be connected to vibrations Module 16 right-hand member to the left inclined downward；The angled end of described shot seat board 14 and shock module 16 Between for spacing arrange；Above described the top shot seat board 14, spacing is provided with drying cover 13；Described Shot seat board 14 includes plate body 1401；It was provided with aquaporin 1402 and warm braw in described plate body 1401 Passage 1404；Described plate body 1401 upper end is provided with shot resettlement groove 3203；Described aquaporin 1402 excessively And it is connected between shot resettlement groove 3203；It is provided with warm braw on the side panel of described plate body 1401 to connect Mouth 1406；Described warm braw interface 1406 is connected with warm braw passage 1404；Described warm braw passage 1404 Lower end is provided with vent 1405；It is provided with bellows 20 on described shot seat board 14；Described stretch Contracting flexible pipe 20 was connected in aquaporin 1402；Described bellows 20 end connects electromagnetic water valve 19；Described warm braw interface 1406 connects warm-air drier；Bottom described shot condensing chamber 3, the left and right sides sets It is equipped with condensing chamber discharging opening 34；It was provided with pond 7 bottom described shot seat board 32；Described pond excessively Guide screen plate 17 by discharging between 7 and shot condensing chamber 3 to be spaced；Described discharging guides screen plate Water hole it is provided with on 17；Described mistake is provided with effluent trough 8 bottom pond 7；Described shock module 16 On be provided with dust exhaust apparatus 15；It is provided with batch mixing propeller 4 bottom described combination raw materials blanking chamber 1； It it is combination raw materials blanking chamber base plate 5 below described batch mixing pusher 4；Described combination raw materials blanking chamber base plate 5 the inners are provided with valve 6；It is provided with mixed stirring device 9 in described mix and blend room 10.

Preferably, described shock module 16 includes shaking casing 21, being arranged on vibrations casing about 21 The spring 24 at two ends；Described spring 24 is provided with limited block 25 with vibrations casing 21 left and right sides；Institute State limited block 25 to be fixedly connected in condensing chamber main body 29.

Preferably, described dust exhaust apparatus 15 includes air exhauster assembly 22, dust suction chamber 28 and expansion sweep-up Flexible pipe 27；Described air exhauster assembly 22 is arranged on vibrations casing 21, and its quantity is multiple, respectively It is arranged on the upper end of shot seat board 14；One end of described air exhauster assembly 22 connects at shot condensing chamber 3 Inside, the other end is arranged in dust suction chamber 28；Described dust suction chamber 28 is for sealing structure；Described flexible One end of hose 27 is connected in dust suction chamber 28, and the other end connects in combinatorial principle blanking chamber 1.

Preferably, the angle of inclination of described shot seat board 32 is 5 °～35 °.

Preferably, described discharging guides screen plate 17 is inverted V-shaped structure.

Preferably, described drying cover 13 includes cover body 1301；It is provided with cover body in described cover body 1301 Passage 1302；Described cover body passage 1302 lower end is provided with cover body air vent 1303；Described cover body 1301 Cover body warm braw interface 1304 it is provided with in side panel；Described cover body warm braw interface 1304 and cover body passage 1302 are connected.

As it is shown in figure 1, add shot granule in shot particle blanking bucket time specifically used；In combination Raw material blanking bucket adds the combinations such as the aggregate of drying screening process, inorganic coagulation material, additive Raw material；Above raw material is respectively enterd with combination raw materials blanking control valve by shot particle blanking control valve In shot condensing chamber and combination raw materials blanking chamber.The landing the most successively of shot granule is respectively On layer shot seat board: a shot granule part under gravity is scattered on the superiors' shot seat board also Stablize in shot resettlement groove；Another part shot granule is along the downward landing in shot seat board inclined-plane to lower floor's lead On ball seat plate, landing successively；By controlling electromagnetic water valve, water aquaporin excessively in shot seat board And shot resettlement groove attaches at shot particle surface.Dust exhaust apparatus is former by combining in combination raw materials blanking chamber Dust in material is drawn in shot condensing chamber, and is laid on the upper surface of shot granule；Control vibrations One group of motor；Making shock module be in microseism state, now shot granule is in shot resettlement groove Fluctuation status, shot surface is all covered by dust；Start warm-air drier to be carried out by the moisture on shot surface Drying, now dust is fitted in shot particle surface firmly；After drying completes, control vibration motor Two groups, making shock module process sharp pounding state, surface is wrapped in the shot granule of dust strongly Take off shot resettlement groove under shock effect, be slipped to lower floor's shot seat board successively from upper strata shot seat board, Then mix and blend is entered into by condensing chamber discharging opening indoor；It is stirred by mixed stirring device； Can be transported by discharging opening by radioprotective dry powder and mortar after stirring, is stored.

Above it can be seen that a kind of depositing dust produced for nuclear power station dry powder and mortar of this utility model mixes Device, can reach the effect of depositing dust by the adsorbing powder dust in raw material at shot particle surface, reduces To air pollution.

It should be noted that in this article, term " include ", " comprising " or its any other become Body is intended to comprising of nonexcludability, so that include the process of a series of key element, method, thing Which key element product or equipment not only include, but also include other key elements being not expressly set out, or Person is also to include the key element intrinsic for this process, method, article or equipment.

Principle of the present utility model and embodiment are set forth by specific case used herein, The explanation of above example is only intended to help to understand method of the present utility model and core concept thereof.Above Described is only preferred implementation of the present utility model, it is noted that due to the finiteness of literal expression, And objectively there is unlimited concrete structure, for those skilled in the art, On the premise of this utility model principle, it is also possible to make some improvement, retouch or change, also Above-mentioned technical characteristic can be combined by rights；These improve retouching, change or combine, Or the most improved design by utility model and technical scheme directly apply to other occasion, all should regard For protection domain of the present utility model.

Claims (6)

1. the depositing dust mixing arrangement produced for nuclear power station dry powder and mortar, it is characterised in that it includes shell Body (8), it is internally provided with condensing chamber main body (29)；It is provided with in described condensing chamber main body (29) Shot condensing chamber (3)；Described shot condensing chamber (3) outer end is provided with interval body (30)；Described interval Body (30) is internal for vibrations room (2)；The outer left and right sides of described vibrations room (2) is provided with combination raw materials Blanking chamber (1)；Described combination raw materials blanking chamber (1) lower end is provided with mix and blend room (20)；Described Bottom, mix and blend room (20) is provided with discharge bucket (31)；Described combinatorial principle blanking chamber (1) and lead The top of ball condensing chamber (3) is respectively arranged with shot particle blanking bucket (11) and combination raw materials hopper (32)；Described shot particle blanking bucket (11) is respectively arranged with in combination raw materials hopper (32) Shot particle blanking control valve (12) and combination raw materials blanking control valve (33)；Described shot condensing chamber (3) shock module (16) it is internally provided with；Shot seat board (14) it is provided with in described shock module (16)； The quantity of described shot seat board (14) is multiple, is evenly distributed on the two ends, left and right of shock module (16), Wherein the left end of odd term is connected to shock module (16) left end and tilts to the right, the right side of even item End is connected to shock module (16) right-hand member inclined downward to the left；The inclination of described shot seat board (14) Arrange for spacing between end and shock module (16)；Between described the top shot seat board (14) top Away from being provided with drying cover (13)；Described shot seat board (14) includes plate body (1401)；Described plate body (1401) Inside it was provided with aquaporin (1402) and warm braw passage (1404)；Described plate body (1401) upper end sets It is equipped with shot resettlement groove (3203)；Described cross aquaporin (1402) with shot resettlement groove (3203) it Between be connected；Warm braw interface (1406) it is provided with on the side panel of described plate body (1401)；Described warm Wind interface (1406) is connected with warm braw passage (1404)；Described warm braw passage (1404) lower end sets It is equipped with vent (1405)；It is provided with bellows (20) on described shot seat board (14)；Described stretch Contracting flexible pipe (20) was connected in aquaporin (1402)；Described bellows (20) end connects to be had Electromagnetic water valve (19)；Described warm braw interface (1406) connects warm-air drier；Described shot condensing chamber (3) The left and right sides, bottom is provided with condensing chamber discharging opening (34)；Described shot seat board (32) bottom is provided with Cross pond (7)；Described mistake guides screen plate by discharging between pond (7) and shot condensing chamber (3) (17) interval；Described discharging guides and is provided with water hole on screen plate (17)；Described pond (7) excessively Bottom is provided with effluent trough (8)；Dust exhaust apparatus (15) it is provided with in described shock module (16)；Institute State combination raw materials blanking chamber (1) bottom and be provided with batch mixing propeller (4)；Described batch mixing pusher (4) Lower section is combination raw materials blanking chamber base plate (5)；Described combination raw materials blanking chamber base plate (5) is inner to be arranged There is valve (6)；It is provided with mixed stirring device (9) in described mix and blend room (10).

A kind of depositing dust mixing arrangement produced for nuclear power station dry powder and mortar the most according to claim 1, It is characterized in that, described shock module (16) includes shaking casing (21), being arranged on vibrations casing (21) The spring (24) at two ends up and down；Described spring (24) is provided with vibrations casing (21) left and right sides Limited block (25)；Described limited block (25) is fixedly connected in condensing chamber main body (29).

A kind of depositing dust mixing arrangement produced for nuclear power station dry powder and mortar the most according to claim 1, It is characterized in that, described dust exhaust apparatus (15) include air exhauster assembly (22), dust suction chamber (28) with Expansion sweep-up flexible pipe (27)；Described air exhauster assembly (22) is arranged in vibrations casing (21), its Quantity is multiple, is separately positioned on the upper end of shot seat board (14)；Described air exhauster assembly (22) One end connection is internal at shot condensing chamber (3), and the other end is arranged in dust suction chamber (28)；Described suction Dirt room (28) is for sealing structure；One end of described expansion sweep-up flexible pipe (27) is connected to dust suction chamber (28) In, the other end connects in combinatorial principle blanking chamber (1).

A kind of depositing dust mixing arrangement produced for nuclear power station dry powder and mortar the most according to claim 1, It is characterized in that, the angle of inclination of described shot seat board (32) is 5 °～35 °.

A kind of depositing dust mixing arrangement produced for nuclear power station dry powder and mortar the most according to claim 1, It is characterized in that, it is inverted V-shaped structure that described discharging guides screen plate (17).

A kind of depositing dust mixing arrangement produced for nuclear power station dry powder and mortar the most according to claim 1, It is characterized in that, described drying cover (13) includes cover body (1301)；Described cover body sets in (1301) It is equipped with cover body passage (1302)；Described cover body passage (1302) lower end is provided with cover body air vent (1303)； Cover body warm braw interface (1304) it is provided with in described cover body (1301) side panel；Described cover body warm braw Interface (1304) is connected with cover body passage (1302).