CN201078885Y - Combined type shielding house - Google Patents

Abstract

A composite shield room is provided, which comprises: a plurality of radiation-resistant modules, which are suitable for composing the wall and roof of the composite shield room; a plurality of first connecting pieces, which are used for corner connection among the radiation-resistant modules; a plurality of second connecting pieces, which are used for plane connection among the radiation-resistant modules; as well as a radiation-resistant door body, which is arranged on the wall being composed of the radiation-resistant modules and is used for opening and closing the shield room. The composite shield room is convenient in assembly or disassembly, and is suitable for ray-testing systems with testing places requiring frequent moving.

Description

Combined shielding house

Technical field

The utility model relates to a kind of combined shielding house that is used for the ray detection place, in particular to the combined shielding house of being made up of a plurality of prefabricated radiation proof modules.

Background technology

In the ray detection field, for example, in workshop or laboratory, detected target is carried out ray detection by radiographic source, and at harbour, the station, highway, on the railway container is carried out ray detection to detect in the application such as goods in it, for the on-radiation around the safeguard work place, particularly need the personnel except that detecting target, particularly operating personnel shield to prevent to be subjected to the injury of radiation, the fixed shielding house of the ray that has been produced when having proposed some maskable radiographic sources detections, operating personnel operate equipment such as radiation source in shielding house, realize the ray detection to detected target.In addition, under the situation of carrying out indoor detection, radiographic source is placed on the base of shielding house, thereby the radiation that radiographic source sends is all shielded in shielding house, and operating personnel operate equipment such as radiation source outside shielding house, realize the ray detection to detected target.

Yet when the detection place is changed or moved to needs, perhaps as when harbour need carry out strange land movable random detection to container, this shielding house was not easy to dismounting, installs and transports.

In recent years, developed the packaged type shielding house.The bottom of this packaged type shielding house is equipped with a plurality of wheels, thereby can move.Yet, the moving range of packaged type shielding house is limited and owing to its volume is not easy to handling greatly, and the size of packaged type shielding house is fixed, and therefore may need to change shielding house for different radioactivity equipment, thereby causes bigger expense expenditure.

The utility model content

In order to address the above problem, the utility model provides a kind of combined shielding house of being made up of a plurality of modules, and this combined shielding house assembling or convenient disassembly are applicable in the required roving ray detection system of checkout area.

According to an aspect of the present utility model, described combined shielding house comprises: a plurality of radiation proof modules, and described a plurality of radiation proof modules are suitable for constituting the wall and the roof of described combined shielding house; The turning that a plurality of first connectors, described a plurality of first connectors are used for described radiation proof intermodule connects; The plane that a plurality of second connectors, described a plurality of second connectors are used for described radiation proof intermodule connects; And the radiation-retarding door body, described radiation-retarding door body is arranged on the wall that is made of described radiation proof module, and is used to open and close described shielding house.

Each described radiation proof module all comprises: supporting layer; Be layered in the radiation shield on the described supporting layer; And a plurality of links, described link is fixed on the described radiation shield, and is applicable to and the described second connector combination, to realize the plane combination between the described radiation proof module.

Described supporting layer is two-layer, and described a plurality of link is fixed between the two-layer described radiation shield.

Described second connector comprises threaded portion, to be threaded with described link.

Described first connector is the L type connector with two sidewalls, described two sidewalls abut against respectively on the side end of two radiation proof modules, and described second connector passes described two sidewalls respectively, thereby the turning of realizing two radiation proof intermodules connects.

Alternatively, described first connector comprises L type stereotype.

Described radiation shield is made by the material that comprises lead.

In two radiation proof modules that adjacent plane connects, the link of one of them radiation proof module is provided with and is used to through hole that second connector is passed, and the link of another radiation proof module is provided with and is used for the screwed hole that is threaded with second connector.

According to another aspect of the present utility model, described module is provided with the lifting eye that is used to lift.

According to another aspect of the present utility model, described radiation-retarding door body comprises radiation shield and supporting bracket.

Description of drawings

Above-mentioned and other aspect of the present utility model and feature will be from presenting the explanation of embodiment is clear below in conjunction with accompanying drawing, wherein:

Fig. 1 is the schematic perspective view according to the combined shielding house of the utility model embodiment;

Fig. 2 is the modular structure of combined shielding house of displayed map 1 and the top plan view of module interface; And

Fig. 3 is the amplification profile of the section I among Fig. 2.

Embodiment

Describe illustrative of the present utility model, non-limiting example with reference to the accompanying drawings in detail, to further specifying according to combined shielding house of the present utility model.

Now with reference to Fig. 1 to Fig. 3 embodiment of the present utility model is described.Fig. 1 has shown the combined shielding house according to an embodiment of the present utility model, and described shielding house for example can be placed on (not shown) on the steel plate of ground.This combined shielding house comprises: a plurality of radiation proof modules 6, and radiation proof module 6 for example can prefabricatedly form, and has different shape and size according to actual needs, to constitute the wall and the roof of combined shielding house; The turning that a plurality of first connector, 5, the first connectors 5 are used between the described radiation proof module 6 connects; A plurality of second connector, 4, the second connectors 4 for example can be long screw rods, and the plane that is used for described radiation proof intermodule connects; And radiation-retarding door body 7, radiation-retarding door body 7 is arranged on the wall that is made of radiation proof module 6, and is used to open and close shielding house.

Like this, assembled by first connector 5 and second connector 4 by a plurality of radiation proof modules 6 according to combined shielding house of the present utility model, its dismounting and installation are all very convenient, thereby can move according to the demand in the practical application.When the mobile and combined shielding house of needs and when transporting, take into combined shielding house apart a plurality of modules, therefore conveniently transport and to take parking space little, and save cost.

As can be seen from Figure 1, for example, each wall and roof are formed by three radiation proof modules, but the utility model is not limited thereto, can be according to the size of the area of radiation proof module 6 and required shielding house by two, three even more a plurality of modular wall component wall and roof, and form the quantity of the radiation proof module 6 on each wall and roof can be identical or different.

With reference to Fig. 2 and Fig. 3, shown according to the radiation proof modular structure of the combined shielding house of the utility model embodiment and the top plan view of the interface between the module.In one embodiment, each radiation proof module 6 all comprises: by the supporting layer of for example being made by rigid materials such as steel 3; For example be layered in radiation shield 2 on the supporting layer 3 by modes such as bonding, welding, bolt connections; And a plurality of links 1, this link 1 is fixed on the described radiation shield, and is applicable to and the described second connector combination, to realize the plane combination between the described radiation proof module.

In one embodiment, radiation shield 2 comprises internal radiation screen and external radiation screen, and supporting layer 3 is two-layer, this internal radiation screen and external radiation screen are layered in respectively on this two-layer supporting layer, and a plurality of links 1 are fixed between internal radiation screen and the external radiation screen by threaded connector, have only supporting layer 3 to be exposed to the outside like this.In one embodiment, radiation shield 2 is a stereotype.Alternatively, but radiation shield also can form by material such as radiation proof such as tungsten, lead-antimony alloy, galvanized metal, composite material or decay ray.Under the situation that radiation shield 2 is made by lead, because plumbous intensity is lower, so adopt supporting layer 3 to improve the structural strength of whole shielding house.

Be formed with screwed hole on the link 1,, thereby form the wall and the roof of combined shielding house so that second connector 4 is threaded with screwed hole so that two adjacent blocks are fixed together.In the present embodiment, form the wall of combined shielding house and three modules on roof and pass through at least two second connectors 4, for example be threaded the long bolt of part, fixed to one another.

In an embodiment of the present utility model, between roof and each sidewalls and be in the right angle setting between the adjacent wall.First connector 5 is for having the L type connector of two sidewalls, two sidewalls abut against respectively on the side end of two radiation proof modules, and at least two second connectors 4 pass two sidewalls of first connector 5 respectively and are threaded on the link 1, thereby the turning of realizing two radiation proof intermodules connects.This second connector 4 passes the whole width of a radiation proof module 6 further and arrives the link of another radiation proof module that is connected with this radiation proof module flat, be threaded with link, thereby realize that the plane between adjacent two radiation proof modules connects with another radiation proof module.For example, in two radiation proof modules 6 that mutual plane connects, have the through hole that passes for second connector 4 on the link 1 of one of them radiation proof module, and on the link 1 of another radiation proof module 6, be provided with the screwed hole that is threaded with second connector 4.During installation, make second connector 4 pass through hole on one of them radiation proof module, and be screwed in the screwed hole of another radiation proof module, thereby reach the purpose that the plane connects and fix these two modules.

In another kind of embodiment, the first L shaped connector 5 closely adheres to by adhesive on the side end of two radiation proof modules 6 of connection of adjacent corners, thereby adjacent radiation proof module is linked together securely.Alternatively, connector 5 can comprise radiation proof material, and the shape of described connector can be any suitable shape except that L shaped.

In one embodiment, each radiation proof module itself has the lifting structure, as lifting eye, so that lifting radiation proof module.When combined shielding house being taken apart for transportation, by lifting eye with the single radiation proof module of boom hoisting handling, thereby transportation is become easily and easy operating.

Because the roof of shielding house and wall are formed by several modules, so reduced the size of individual module effectively.Simultaneously, because each intermodule adopts the standard connector to fix, so can dismantle easily and assemble.The shielding house module that disassembles can be transported easily, and has saved space shared when transporting effectively.Although the embodiment that forms by three modules by each wall and the roof of combined shielding house has illustrated the utility model, yet those of ordinary skills will be understood that, the radiation proof module number of forming each wall and roof is not limited thereto, and can be for being no less than two any amount, and form the radiation proof module number on each wall and roof can be different.The thickness of radiation proof module in addition, and physical dimension can also change according to the size of conductively-closed equipment.Therefore, can be according to the needs split-mounting type shielding house of practical application, to be applicable to the application places of different ray detection.

Although exemplary embodiments of the present utility model is illustrated, but obviously those of ordinary skill is appreciated that, under the situation that does not deviate from spirit of the present utility model and principle, can change, its scope claims with and equivalent in limit.

Claims (10)

1. combined shielding house is characterized in that comprising:

A plurality of radiation proof modules, described a plurality of radiation proof modules are suitable for constituting the wall and the roof of described combined shielding house;

The turning that a plurality of first connectors, described a plurality of first connectors are used for described radiation proof intermodule connects;

The plane that a plurality of second connectors, described a plurality of second connectors are used for described radiation proof intermodule connects; And

The radiation-retarding door body, described radiation-retarding door body is arranged on the wall that is made of described radiation proof module, and is used to open and close described shielding house.

2. combined shielding house as claimed in claim 1 is characterized in that, each described radiation proof module all comprises:

Supporting layer;

Be layered in the radiation shield on the described supporting layer; And

A plurality of links, described link is fixed on the described radiation shield, and is applicable to and the described second connector combination, to realize the plane combination between the described radiation proof module.

3. combined shielding house as claimed in claim 2 is characterized in that, described supporting layer is two-layer, and described a plurality of link is fixed between the two-layer described radiation shield.

4. combined shielding house as claimed in claim 2 is characterized in that, described second connector comprises threaded portion, to be threaded with described link.

5. combined shielding house as claimed in claim 3, it is characterized in that, described first connector is the L type connector with two sidewalls, described two sidewalls abut against respectively on the side end of two radiation proof modules, and described second connector passes described two sidewalls respectively, thereby the turning of realizing two radiation proof intermodules connects.

6. combined shielding house as claimed in claim 5 is characterized in that, described first connector comprises L type stereotype.

7. combined shielding house as claimed in claim 2 is characterized in that, described radiation shield is made by the material that comprises lead.

8. combined shielding house as claimed in claim 1, it is characterized in that, in two radiation proof modules that adjacent plane connects, the link of one of them radiation proof module is provided with and is used to through hole that second connector is passed, and the link of another radiation proof module is provided with and is used for the screwed hole that is threaded with second connector.

9. combined shielding house as claimed in claim 1 is characterized in that described module is provided with the lifting eye that is used to lift.

10. combined shielding house as claimed in claim 1 is characterized in that, described radiation-retarding door body comprises radiation shield and supporting bracket.

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