CN218406711U - Radiation protection computer lab that founds fast - Google Patents

Abstract

The utility model relates to a quickly constructed radiation-proof machine room, which comprises a keel frame, a plurality of keel modules and a plurality of anti-radiation devices, wherein the keel frame is formed by splicing and fixing the keel modules; the outer decorative layer is arranged on the outer peripheral side of the keel frame and is formed by connecting a plurality of outer decorative buckle plates with splicing sectional materials fixed with the keel frame in sequence; the anti-radiation layer at least comprises a first protective wall layer and a protective top layer, wherein the first protective wall layer corresponds to the outer decorative layer and is arranged on the inner peripheral side of the keel frame, the protective top layer is arranged on the outer top of the keel frame, and a transverse lead angle strip is further arranged at the corner of the top of the keel frame, and two sides of the transverse lead angle strip are respectively overlapped with the first protective wall layer and the protective top layer; the first protective wall layer comprises vertical lead angle strips arranged at the corners of the side parts of the keel frame, and a plurality of plane lead plates which are sequentially fixed in an overlapping manner are arranged between every two adjacent vertical lead angle strips; the inner decoration layer is arranged in the first protection wall layer. The quickly-constructed radiation-proof machine room has the advantages of short construction period, good radiation-proof effect and easiness in transformation and recycling.

Description

Radiation protection computer lab that founds fast

Technical Field

The utility model relates to a radiation protection field especially relates to a radiation protection computer lab that founds fast.

Background

In the hospital, medical equipment with radiation hazard needs to be placed in the computer lab that has the shielding ray function, traditional radiation protection computer lab is built and is adopted reinforced concrete brick wall, later in the wall, the computer lab is built to fixed stereotype and decorative board isotructure on the ceiling, wherein at the in-process of fixed stereotype, run into the corner and still need the constructor to beat the stereotype gradually the bending just can satisfy radiation protection and do not influence the inner layer structure and construct, the computer lab that constructs through above mode can satisfy radiation medical equipment's placing and detection needs, but nevertheless has the construction cycle length, construction cost is high, the defect that reuse rate is low. In order to improve the above defects, some modular machine rooms have appeared at present, which complete the machine room construction by fast overlapping and fixing of modular walls, which can shorten the machine room construction period, but still have the following problems: firstly, the connection firmness of the machine room constructed by the machine room is poor, and the connection firmness is easily influenced by the deformation of individual module walls after the machine room is used for a period of time; the risk of radiation leakage is large, particularly between the side wall and the roof and deformation leakage of the wall body; the three follow-up transformation difficulties and the recycling limitation are large, because the modularized wall body adopts the integral structure form of the radiation-proof material coated by the shell, the protection strength is certain, and the follow-up low-cost modification or recycling is difficult.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a remedy prior art not enough, provide a radiation protection computer lab of founding fast, have the advantage that the construction cycle is short, the radiation protection is effectual, easily reform transform and recycle.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be:

a quickly constructed radiation-proof machine room comprising:

the keel frame is formed by splicing and fixing a plurality of keel modules;

the outer decorative layer is arranged on the outer peripheral side of the keel frame and is formed by connecting a plurality of outer decorative buckle plates with splicing sectional materials fixed with the keel frame in sequence;

the anti-radiation layer at least comprises a first protective wall layer and a protective top layer, wherein the first protective wall layer corresponds to the outer decorative layer and is arranged on the inner peripheral side of the keel frame, the protective top layer is arranged on the outer top of the keel frame, and a transverse lead angle strip is further arranged at the corner of the top of the keel frame, and two sides of the transverse lead angle strip are respectively overlapped with the first protective wall layer and the protective top layer; the first protective wall layer comprises vertical lead angle strips arranged at the corners of the side parts of the keel frame, a plurality of sequentially overlapped and fixed plane lead plates are arranged between every two adjacent vertical lead angle strips, and each vertical lead angle strip and the two plane lead plates at the two sides of the vertical lead angle strip are respectively overlapped and fixed; the protective top layer comprises a plurality of plane lead plates which are sequentially fixed in an overlapping manner;

and the inner decorative layer is arranged in the first protective wall layer and comprises a plurality of inner decorative buckle plates which are sequentially spliced, and two adjacent inner decorative buckle plates are fixed with the keel frame through a plurality of connecting pieces.

According to the radiation-proof machine room, when the radiation-proof machine room is constructed, a stable machine room frame body can be quickly formed by splicing and fixing the keel modules; a tight first protection wall layer can be quickly constructed by matching and fixing a plurality of vertical lead angle bars and a plane lead plate, a tight machine room space can be quickly constructed by matching the vertical lead angle bars with the first protection wall layer and a protection top layer, so that ray leakage is better avoided, and the protection top layer is fixed at the top of the keel frame and can be easily fixed; the construction of the outer decorative layer can be quickly completed through the matching of the outer decorative buckle plate and the splicing section bar; the construction of interior decorative layer can be accomplished comparatively fast through the connecting piece, and this computer lab is compared traditional construction mode and has been shortened the computer lab and has been constructed the cycle, and the radiation protection effect of computer lab is very good, and the holistic firm in connection nature of computer lab is also relatively good.

After the computer lab uses a period, if need increase the computer lab protection dynamics, then can pull down interior decorative layer, increase lead plate or other radiation protection material boards. If the computer lab dismantles the back, can also reuse most material as required, and it is limited for a short time to recycle, for example need bigger computer lab again, can supply as required and lack the material can, if the computer lab that the dynamics of protection is bigger needs, protective material such as increase stereotype can.

Further, still be equipped with the second protective wall layer between first protective wall layer and the interior decoration layer, the second protective wall layer is formed by polylith radiation protection barium board concatenation is fixed, and it is lower to adopt the barium board to increase protection dynamics construction cost.

Furthermore, still be equipped with the function supporting layer between protection top layer and the fossil fragments frame, the function supporting layer is formed by a plurality of gypsum boards or the concatenation of radiation protection barium board, adopts the radiation protection barium board both can support and also can reduce the radiation protection cost. Roof panels may also be top side decorated within the keel frame as desired.

Furthermore, one side of the interior decoration buckle plate facing the keel frame is provided with a groove, and one of a corrugated board, a gypsum board, an aluminum honeycomb board and a radiation-proof barium board is arranged in the groove.

Furthermore, a decorative buckle strip for shielding the connecting piece is arranged at the joint of the adjacent inner decorative buckle plates.

Furthermore, the keel frame can form one or more machine room spaces, when at least two machine room spaces are enclosed, two sides of the keel frame between the adjacent machine room spaces are respectively provided with a partition decorative layer, and a lead plate protective layer is further arranged between the partition decorative layer on at least one side of the partition decorative layer and the keel frame and is arranged as required.

Furthermore, the partition decoration layer has the same structure as the inner decoration layer, and the lead plate protection layer has the same structure as the first protection wall layer.

Further, the length of each keel module is not more than 2.4m for convenient transportation.

The utility model adopts the above technical scheme, the advantage that has is: when the anti-radiation machine room is constructed, a stable machine room frame body can be quickly formed by splicing and fixing keel modules; the vertical lead angle strips are matched and fixed with the plane lead plate, so that a tight first protection wall layer can be quickly constructed, and a tight machine room space can be quickly constructed through the matching of the vertical lead angle strips, the first protection wall layer and the protection top layer, so that ray leakage is well avoided, wherein the protection top layer is fixed at the top of the keel frame and can be easily fixed; the construction of the outer decorative layer can be quickly completed through the matching of the outer decorative buckle plate and the splicing section bar; the construction of interior decorative layer can be accomplished comparatively fast through the connecting piece, and this computer lab compares traditional construction mode and has shortened the computer lab and has constructed the cycle, and the radiation protection effect of computer lab is very good, and the holistic firm in connection nature of computer lab is also relatively good.

The radiation machine room is easy to refit, small in recycling limit and low in cost.

Drawings

FIG. 1 is a partial top view in transverse cross section of one embodiment of the present invention;

FIG. 2 is an enlarged view of part A of FIG. 1;

FIG. 3 is an enlarged view of the portion B of FIG. 1;

fig. 4 is a partial front view in vertical section of one embodiment of the present invention.

In the figure, 1, a keel frame, 2, an outer decorative layer, 3, a radiation-proof layer, 4, an inner decorative layer, 5, a partition decorative layer, 6 and a lead plate protective layer;

21. the outer decorative buckle plate 22, the splicing section bar 31, the first protective wall layer 32, the protective top layer 33, the transverse lead angle bar 34, the second protective wall layer 41, the inner decorative buckle plate 42, the connecting piece 43 and the decorative buckle bar;

311 vertical lead angle bars, 312, plane lead plates, 321 and a function supporting layer.

Detailed Description

In order to clearly explain the technical features of the present invention, the present invention will be explained in detail by means of the following embodiments and with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be taken as limiting the present application. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; the connection can be mechanical connection, electrical connection or communication; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

As shown in fig. 1 to 4, in this embodiment, the quickly-constructed radiation protection machine room includes:

the keel frame 1 is formed by splicing and fixing a plurality of keel modules;

the outer decorative layer 2 is arranged on the outer peripheral side of the keel frame 1 and is formed by sequentially connecting a plurality of outer decorative buckling plates 21 through splicing sectional materials 22 fixed with the keel frame 1, and two splicing concave parts are formed on the concrete splicing sectional materials so that the splicing convex parts of the adjacent outer decorative buckling plates are respectively inserted into the splicing concave parts for fixation;

the anti-radiation layer 3 at least comprises a first protective wall layer 31 arranged on the inner peripheral side of the keel frame 1 corresponding to the outer decorative layer 2 and a protective top layer 32 arranged on the outer top of the keel frame 1, and a transverse lead angle strip 33 with two sides respectively overlapped with the first protective wall layer 31 and the protective top layer 32 is further arranged at the corner of the top of the keel frame 1; the first protective wall layer 31 comprises vertical lead angle strips 311 arranged at the corners of the side parts of the keel frame 1, a plurality of plane lead plates 312 which are sequentially fixed in an overlapping manner are arranged between every two adjacent vertical lead angle strips 311, and each vertical lead angle strip 311 and the two plane lead plates 312 at the two sides of the vertical lead angle strip are respectively fixed in an overlapping manner; the protective top layer 32 comprises a plurality of plane lead plates which are sequentially fixed in an overlapping manner;

the inner decoration layer 4, which is arranged in the first protective wall layer 31, includes a plurality of inner decoration buckle plates 41 that are sequentially spliced, and two adjacent inner decoration buckle plates 41 are fixed with the keel frame 1 through a plurality of connecting pieces 42.

It should be noted that, the keel frame of the radiation protection machine room is manufactured according to actual needs, one or more doors are required to be arranged in the machine room which is actually constructed according to needs, the doors and the machine room are connected and constructed by adopting the existing technology, and redundant description is omitted here.

According to the radiation-proof machine room, when the machine room is constructed, a stable machine room frame body can be quickly formed by splicing and fixing the keel modules; the tight first protective wall layer 31 can be quickly constructed by matching and fixing the plurality of vertical lead angle bars 311 and the plane lead plate 312, the tight machine room space can be quickly constructed by matching the vertical lead angle bars 33 with the first protective wall layer 31 and the protective top layer 32, so that ray leakage is well avoided, and the protective top layer 32 is fixed at the top of the keel frame 1 and can be easily fixed; the construction of the outer decorative layer 2 can be rapidly completed through the matching of the outer decorative buckle plate and the splicing section 22; the construction of interior decoration layer 4 can be relatively accomplished fast through connecting piece 42, and this computer lab is compared traditional construction mode and has been shortened the computer lab and has been constructed the cycle, and the radiation protection effect of computer lab is very good, and the holistic firm in connection nature of computer lab is also relatively good.

After the computer lab uses a period, if need increase the computer lab protection dynamics, then can pull down interior decorative layer 4, increase lead plate or other radiation protection material boards. If the computer lab dismantles the back, can also reuse most material as required, and it is limited for a short time to recycle, for example need bigger computer lab again, can supply as required and lack the material can, if the computer lab that the dynamics of protection is bigger needs, protective material such as increase stereotype can.

Wherein each keel module is machined to a length of no more than 2.4m for ease of transport.

Furthermore, still be equipped with second protective wall layer 34 between first protective wall layer 31 and interior decoration 4, second protective wall layer 34 is formed by polylith radiation protection barium board concatenation is fixed, and it is lower to adopt the barium board to increase protection dynamics construction cost.

Further, still be equipped with function supporting layer 321 between protection top layer 32 and the fossil fragments frame 1, the function supporting layer is formed by a plurality of gypsum boards or the concatenation of radiation protection barium board, adopts the radiation protection barium board both can support and also can reduce the radiation protection cost. A ceiling may also be provided on the top side of the keel frame as desired, with the horizontal line below the roof of the machine in fig. 3 being about the ceiling.

Furthermore, a groove is formed in one side of the internal decorative buckle plate 41, which faces the keel frame, and one of a corrugated board, a gypsum board, an aluminum honeycomb panel and a radiation-proof barium board is arranged in the groove.

Further, the junction between adjacent interior trim clips 41 is provided with trim clips 43 that cover the connectors, which may be, but are not limited to, screws.

In one embodiment, as shown in fig. 1, 3 and 4, the keel frame 1 can form one or more machine room spaces, when at least two machine room spaces are formed, two sides of the keel frame between adjacent machine room spaces are respectively provided with a partition decoration layer 5, and a lead plate protection layer 6 is further arranged between the partition decoration layer 5 and the keel frame 1 on at least one side, and is arranged as required. The partition decorative layer 5 is the same as the inner decorative layer structure, and is formed by splicing a plurality of inner decorative buckle plates 41, the adjacent inner decorative buckle plates 41 are fixed to the keel frame 1 through a plurality of connecting pieces 42, the lead plate protective layer 6 is the same as the first protective wall layer 31 in structure, and specifically comprises vertical lead angle strips 311 arranged at corners, a plurality of sequentially-overlapped plane lead plates 312 are arranged between every two adjacent vertical lead angle strips 311, and the plane lead plates abutting against the vertical lead angle strips are fixed to the vertical lead angle strips in an overlapping manner.

The above-mentioned specific embodiments can not be regarded as the restriction to the scope of protection of the utility model, to technical personnel in this technical field, it is right the utility model discloses any replacement improvement or transform that embodiment made all fall within the scope of protection of the utility model.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims (8)

1. The utility model provides a quick radiation protection computer lab that constructs which characterized in that includes:

the keel frame is formed by splicing and fixing a plurality of keel modules;

the outer decorative layer is arranged on the outer peripheral side of the keel frame and is formed by connecting a plurality of outer decorative buckle plates with splicing sectional materials fixed with the keel frame in sequence;

the anti-radiation layer at least comprises a first protective wall layer and a protective top layer, the first protective wall layer corresponds to the outer decorative layer and is arranged on the inner peripheral side of the keel frame, the protective top layer is arranged on the outer top of the keel frame, and transverse lead angle bars are further arranged at corners of the top of the keel frame, and two sides of the transverse lead angle bars are partially overlapped with the first protective wall layer and the protective top layer respectively; the first protective wall layer comprises vertical lead angle strips arranged at the corners of the side parts of the keel frame, a plurality of sequentially overlapped and fixed plane lead plates are arranged between every two adjacent vertical lead angle strips, and each vertical lead angle strip and the two plane lead plates at the two sides of the vertical lead angle strip are respectively overlapped and fixed; the protective top layer comprises a plurality of plane lead plates which are sequentially fixed in an overlapping manner;

the interior decoration layer, it is located in the first protective wall layer, including a plurality of interior decoration buckle of concatenation in proper order, two adjacent interior decoration buckles through a plurality of connecting pieces with keel frame is fixed.

2. The quickly-constructed radiation-proof machine room as claimed in claim 1, wherein a second protective wall layer is further arranged between the first protective wall layer and the inner decoration layer, and the second protective wall layer is formed by splicing and fixing a plurality of radiation-proof barium plates.

3. The machine room of claim 1, wherein a functional support layer is further arranged between the top protection layer and the keel frame, and the functional support layer is formed by splicing a plurality of gypsum boards or radiation-proof barium boards.

4. The machine room of claim 1, wherein a groove is formed on one side of the internal decorative buckle plate facing the keel frame, and one of a corrugated board, a gypsum board, an aluminum honeycomb board and a radiation-proof barium board is arranged in the groove.

5. The machine room of claim 1, wherein a decorative buckle bar covering the connecting member is provided at the junction of the adjacent inner decorative buckles.

6. The machine room of claim 1, wherein the keel frame is capable of enclosing at least two machine room spaces, two partition decoration layers are respectively disposed on two sides of the keel frame between adjacent machine room spaces, and a lead plate protection layer is further disposed between at least one partition decoration layer and the keel frame.

7. The machine room of claim 6, wherein the partition decoration layer is identical to the inner decoration layer in structure, and the lead plate protection layer is identical to the first protection wall layer in structure.

8. The quickly constructed radiation-proof machine room of claim 1 wherein the length of the keel module is no greater than 2.4m.

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