CN219261329U - Dust-free room frame structure assembled in modularized mode - Google Patents

Abstract

The utility model provides a modularized assembled dust-free room frame structure, which comprises: four upright posts; four lower beams arranged between adjacent upright posts; a plurality of support columns vertically arranged on the lower beam; an upper frame arranged above each upright post and each supporting post; the upper end face of each support column is in plug-in fit with the lower end face of the upper frame body, and the lower end face is in plug-in fit with the upper end face of the lower beam; two ends of each lower beam are in plug-in fit with the lower part of the first upright post; the lower end face of the upper frame body is fixedly connected with a plurality of first embedded parts which are correspondingly embedded and matched with the upright posts and a plurality of second embedded parts which are correspondingly embedded and matched with the support posts; the modularized assembly structure is formed, basic fixation is carried out in the modes of inserting and embedding, and uniform welding fixation is carried out after complete assembly, so that the convenience degree of dust-free room construction is improved.

Description

Dust-free room frame structure assembled in modularized mode

Technical Field

The utility model relates to the technical field of dust-free room structures, in particular to a modularized assembled dust-free room frame structure.

Background

The dust-free room is a specially designed dust-free and clean room which eliminates the pollutants such as particles and bacteria in the air within a certain space range, and controls the indoor temperature, cleanliness, indoor pressure, air flow speed and air flow distribution, noise vibration, illumination and static electricity within a certain requirement range.

The existing dust-free room is formed by directly welding aluminum profiles, the mode is difficult to build, installers are required to have a certain professional foundation, the aluminum profiles are cut into corresponding lengths according to the corresponding drawings and are directly welded, manual alignment and support are required during welding, the operation is inconvenient, the size precision is difficult to guarantee due to manual alignment, and the situation that the size of the finally built dust-free room deviates from the size of the specification or the dust-free room is askew can occur.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, an object of the present utility model is to provide a modularized dust-free room frame structure, which is used for solving the problems that in the prior art, the method of directly welding and constructing the dust-free room by using aluminum profiles is inconvenient to operate and difficult to ensure the dimensional accuracy.

To achieve the above and other related objects, the present utility model provides a modularized assembled dust-free booth frame structure, comprising:

four upright posts;

four lower beams arranged between adjacent upright posts;

a plurality of support columns vertically arranged on the lower beam;

an upper frame arranged above each upright post and each supporting post;

the upper end face of each support column is in plug-in fit with the lower end face of the upper frame body, and the lower end face of each support column is in plug-in fit with the upper end face of the lower beam;

two ends of each lower beam are in plug-in fit with the lower part of the first upright post;

the lower end face of the upper frame body is fixedly connected with a plurality of first embedded parts which are correspondingly embedded and matched with the stand columns and a plurality of second embedded parts which are correspondingly embedded and matched with the support columns.

Through adopting above-mentioned technical scheme, form modularized packaging structure with stand, underbeam, support column, last framework, firstly with pegging graft, the form of embedding is fixed basically, after the complete equipment, carry out unified welded fastening again, improved the convenient degree when the dust-free room is built, simultaneously, the mode of unified welded fastening again after the equipment is accomplished has guaranteed the dimensional accuracy in the dust-free room after the completion of building.

In an embodiment of the utility model, the upper frame body includes: the first upper beams and the second upper beams are symmetrically arranged, and the first upper beams and the second upper beams Liang Shouwei are connected to form an upper frame body.

In an embodiment of the present utility model, each of the columns includes: an L-shaped column body with an open L-shaped section; the section of the M-shaped column body is M-shaped and is fixedly connected with the inner side of the L-shaped column body; the lower end surfaces of the L-shaped column body and the M-shaped column body are flush, and the upper end surface of the M-shaped column body is higher than the L-shaped column body; the upper end face of each L-shaped column body is respectively abutted with the lower end face of the corresponding first upper beam or second upper beam, and the side end face of each M-shaped column body is respectively abutted with the side end faces of the corresponding first upper beam and second upper beam; the two ends of each lower beam are respectively provided with a first pin piece in plug-in fit with the side part of the corresponding L-shaped column body and a second pin piece in plug-in fit with the side part of the corresponding M-shaped column body.

Through adopting above-mentioned technical scheme, M type cylinder butt first upper beam and the side terminal surface of second upper beam have realized the spacing to the X axial of first upper beam and second upper beam, and first round pin piece and second round pin piece have realized the spacing to the Z axial of underbeam, have further strengthened modular packaging structure.

In one embodiment of the present utility model, the support column comprises: an outer cylinder with an open rectangle section; the section of the inner column body is rectangular with an opening smaller than that of the outer column body, and the inner column body is arranged in the middle of the inner side of the outer column body and fixedly connected with the opening of the outer column body; the lower end face of the outer column body is flush with the lower end face of the inner column body, and the upper end face of the inner column body is higher than the outer column body; the upper end face of each outer column body is abutted with the lower end face of the corresponding first upper beam or second upper beam, and the side end face of each inner column body is abutted with the side end face of the corresponding first upper beam or second upper beam.

Through adopting above-mentioned technical scheme, interior cylinder butt first upper beam or second upper beam side terminal surface has realized the X axial spacing to first upper beam and second upper beam, has further strengthened modularization package assembly.

In an embodiment of the present utility model, a third pin member is disposed at the lower end of each outer column and is in plug-in fit with the upper portion of the corresponding lower beam, and a fourth pin member is disposed at the upper end and is in plug-in fit with the lower portion of the corresponding first upper beam or the second upper beam; the lower end of each inner column body is provided with a fifth pin piece which is in plug-in fit with the upper part of the corresponding lower beam.

Through adopting above-mentioned technical scheme, the fourth round pin piece has realized the Y axial spacing to first upper beam and second upper beam, and the third round pin piece has realized the Y axial spacing to the underbeam with fifth round pin piece, has further strengthened modularization package assembly.

In an embodiment of the present utility model, the shape of each first embedded part is matched with the sectional shape of the combined L-shaped column and the M-shaped column, and each first embedded part is fixedly connected with the corresponding first upper beam and the second upper beam and is embedded into the L-shaped column and the M-shaped column of the corresponding upright column; the shape of each second embedded part is matched with the sectional shape of the combined outer column body and the sectional shape of the combined inner column body, and each second embedded part is fixedly connected with the corresponding first upper beam or the corresponding second upper beam and is embedded into the outer column body and the corresponding inner column body of the corresponding upright column.

Through adopting above-mentioned technical scheme, first embedded part and second embedded part have further realized the X, Y axial spacing to first upper beam and second upper beam, have further strengthened modularization package assembly.

As described above, the modularized assembled dust-free room frame structure of the utility model has the following beneficial effects: the modularized assembly structure is formed, the basic fixing is firstly carried out in the inserting and embedding modes, and after the assembly is completed, the unified welding and fixing are carried out, so that the convenience degree of the dust-free room during the construction is improved, and meanwhile, the mode of the unified welding and fixing after the assembly is completed ensures the dimensional accuracy of the dust-free room after the construction is completed.

Drawings

Fig. 1 is a schematic view showing the whole structure of a modularized assembled dust-free room frame according to an embodiment of the utility model.

Fig. 2 shows a partial enlarged view at a of fig. 1.

Fig. 3 shows an exploded view at a of fig. 1.

Fig. 4 shows a partial enlarged view at B of fig. 1.

Fig. 5 shows an exploded view at B of fig. 1.

Fig. 6 shows a partial enlarged view at C of fig. 1.

Fig. 7 shows an exploded view at C of fig. 1.

Fig. 8 shows a partial enlarged view at D of fig. 1.

Fig. 9 shows an exploded view at D of fig. 1.

Description of the reference numerals

1. A column; 11. an L-shaped column; 12. an M-shaped column; 2. a lower beam; 21. a first pin member; 22. a second pin member; 3. a support column; 31. an outer cylinder; 311. a third pin member; 312. a fourth pin member; 32. an inner cylinder; 321. a fifth pin member; 4. an upper frame; 41. a first upper beam; 42. a second upper beam; 5. a first insert; 6. a second insert.

Detailed Description

Further advantages and effects of the present utility model will become apparent to those skilled in the art from the disclosure of the present utility model, which is described by the following specific examples.

Please refer to fig. 1 to 9. It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the utility model to the extent that it can be practiced, since modifications, changes in the proportions, or otherwise, used in the practice of the utility model, are not intended to be critical to the essential characteristics of the utility model, but are intended to fall within the spirit and scope of the utility model. Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the utility model, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the utility model may be practiced.

Referring to fig. 1-9, the present utility model provides a modularized dust-free room frame structure, comprising:

four upright posts 1;

four lower beams 2 arranged between adjacent columns 1;

a plurality of support columns 3 vertically arranged on the lower beam 2;

an upper frame 4 disposed above each of the columns 1 and the support columns 3;

the upper end face of each support column 3 is in plug-in fit with the lower end face of the upper frame 4, and the lower end face is in plug-in fit with the upper end face of the lower beam 2;

two ends of each lower beam 2 are in plug-in fit with the lower part of the first upright post 1;

the lower end surface of the upper frame body 4 is fixedly connected with a plurality of first embedded parts 5 which are correspondingly embedded and matched with the upright posts 1 and a plurality of second embedded parts 6 which are correspondingly embedded and matched with the support posts 3;

the upright post 1, the lower beam 2, the support column 3 and the upper frame body 4 form a modularized assembly structure, the basic fixing is firstly carried out in a plugging and embedding mode, and after the complete assembly, the unified welding and fixing are carried out, so that the convenience degree of the dust-free room during the construction is improved, and meanwhile, the mode of the unified welding and fixing after the assembly is finished ensures the dimensional accuracy of the dust-free room after the construction is completed.

The upper frame 4 includes: the upper frame 4 is formed by connecting two symmetrically arranged first upper beams 41 and two symmetrically arranged second upper beams 42 end to end.

Each upright 1 comprises: an L-shaped column 11 with an open L-shaped cross section; the M-shaped column body 12 is in an M shape in section and is fixedly connected with the inner side of the L-shaped column body 11; the lower end surfaces of the L-shaped column 11 and the M-shaped column 12 are flush, and the upper end surface of the M-shaped column 12 is higher than the L-shaped column 11; the upper end surfaces of the L-shaped columns 11 are respectively abutted with the lower end surfaces of the corresponding first upper beams 41 or second upper beams 42, and the side end surfaces of the M-shaped columns 12 are respectively abutted with the side end surfaces of the corresponding first upper beams 41 and second upper beams 42; the two ends of each lower beam 2 are respectively provided with a first pin piece 21 in plug-in fit with the side part of the corresponding L-shaped column 11 and a second pin piece 22 in plug-in fit with the side part of the corresponding M-shaped column 12; the side end surfaces of the M-shaped column body 12 abutting the first upper beam 41 and the second upper beam 42 achieve X-axis limiting of the first upper beam 41 and the second upper beam 42, the first pin piece 21 and the second pin piece 22 achieve Z-axis limiting of the lower beam 2, and the modularized assembly structure is further reinforced.

The support column 3 includes: an outer column 31 having an open rectangular cross section; the inner column body 32 is rectangular with a smaller opening than the outer column body 31 in section, is arranged in the middle of the inner side of the outer column body 31 and is fixedly connected with the opening of the outer column body 31; the outer column 31 is flush with the lower end surface of the inner column 32, and the upper end surface of the inner column 32 is higher than the outer column 31; the upper end surface of each outer column 31 is abutted against the lower end surface of the corresponding first upper beam 41 or second upper beam 42, and the side end surface of each inner column 32 is abutted against the side end surface of the corresponding first upper beam 41 or second upper beam 42; the inner column 32 abuts against the side end face of the first upper beam 41 or the second upper beam 42 to achieve X-axis limiting of the first upper beam 41 and the second upper beam 42, and the modularized assembly structure is further reinforced.

The lower end of each outer column 31 is provided with a third pin piece 311 which is in plug-in fit with the upper part of the corresponding lower beam 2, and the upper end is provided with a fourth pin piece 312 which is in plug-in fit with the lower part of the corresponding first upper beam 41 or second upper beam 42; the lower end of each inner column 32 is provided with a fifth pin 321 which is in plug-in fit with the upper part of the corresponding lower beam 2; the fourth pin 312 realizes the Y-axis limitation of the first upper beam 41 and the second upper beam 42, and the third pin 311 and the fifth pin 321 realize the Y-axis limitation of the lower beam 2, further reinforcing the modular assembly structure.

The shape of each first embedded piece 5 is matched with the sectional shape of the combined L-shaped column 11 and M-shaped column 12, and each first embedded piece 5 is fixedly connected with the corresponding first upper beam 41 and second upper beam 42 and embedded into the L-shaped column 11 and M-shaped column 12 of the corresponding upright column 1; the shape of each second embedded piece 6 is matched with the sectional shape of the combined outer column 31 and inner column 32, and each second embedded piece 6 is fixedly connected with the corresponding first upper beam 41 or second upper beam 42 and embedded in the outer column 31 and inner column 32 of the corresponding upright column 1; the first insert 5 and the second insert 6 further achieve an axial limit of X, Y of the first upper beam 41 and the second upper beam 42, further reinforcing the modular assembly structure.

The working principle of the modularized assembled dust-free room frame structure provided by the utility model is as follows: the upright column 1, the lower beam 2, the support column 3 and the upper frame body 4 form a modularized assembly structure, the basic fixation is firstly carried out in a plugging and embedding mode, and after the complete assembly, the unified welding fixation is carried out.

In summary, the modular assembly structure is formed, the basic fixing is performed in the inserting and embedding modes, and the unified welding and fixing are performed after the complete assembly, so that the convenience degree of the dust-free room is improved, and meanwhile, the dimensional accuracy of the dust-free room after the completion of the assembly is ensured in the mode of unified welding and fixing after the completion of the assembly. Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (6)

1. A modular assembled dust-free booth frame structure comprising:

four upright posts (1);

four lower beams (2) arranged between adjacent upright posts (1);

a plurality of support columns (3) vertically arranged on the lower beam (2);

an upper frame body (4) arranged above each upright post (1) and each supporting post (3);

the upper end face of each support column (3) is in plug-in fit with the lower end face of the upper frame body (4), and the lower end face is in plug-in fit with the upper end face of the lower beam (2);

two ends of each lower beam (2) are in plug-in fit with the lower part of the first upright post (1);

the lower end face of the upper frame body (4) is fixedly connected with a plurality of first embedded parts (5) which are correspondingly embedded and matched with the upright posts (1) and a plurality of second embedded parts (6) which are correspondingly embedded and matched with the support posts (3).

2. A modular assembled cleanroom frame structure as in claim 1, wherein: the upper frame (4) comprises: the upper frame comprises two symmetrically arranged first upper beams (41) and two symmetrically arranged second upper beams (42), and the first upper beams (41) and the second upper beams (42) are connected end to form an upper frame body (4).

3. A modular assembled cleanroom frame structure as in claim 2, wherein: each upright (1) comprises: an L-shaped column (11) with an open L-shaped section; the section of the M-shaped column body (12) is M-shaped and is fixedly connected with the inner side of the L-shaped column body (11); the lower end surfaces of the L-shaped column body (11) and the M-shaped column body (12) are flush, and the upper end surface of the M-shaped column body (12) is higher than the L-shaped column body (11); the upper end face of each L-shaped column body (11) is respectively abutted with the lower end face of the corresponding first upper beam (41) or second upper beam (42), and the side end face of each M-shaped column body (12) is respectively abutted with the side end faces of the corresponding first upper beam (41) and second upper beam (42); the two ends of each lower beam (2) are respectively provided with a first pin piece (21) in plug-in fit with the side part of the corresponding L-shaped column (11) and a second pin piece (22) in plug-in fit with the side part of the corresponding M-shaped column (12).

4. A modular assembled cleanroom frame structure as in claim 3, wherein: the support column (3) comprises: an outer column (31) having an open rectangular cross section; the section of the inner column body (32) is in a rectangle with an opening smaller than that of the outer column body (31), and the inner column body is arranged in the middle of the inner side of the outer column body (31) and fixedly connected with the opening of the outer column body (31); the outer column body (31) is flush with the lower end surface of the inner column body (32), and the upper end surface of the inner column body (32) is higher than the outer column body (31); the upper end surface of each outer column (31) is abutted against the lower end surface of the corresponding first upper beam (41) or second upper beam (42), and the side end surface of each inner column (32) is abutted against the side end surface of the corresponding first upper beam (41) or second upper beam (42).

5. The modular assembled cleanroom frame structure of claim 4, wherein: the lower end of each outer column body (31) is provided with a third pin piece (311) which is in plug-in fit with the upper part of the corresponding lower beam (2), and the upper end of each outer column body is provided with a fourth pin piece (312) which is in plug-in fit with the lower part of the corresponding first upper beam (41) or second upper beam (42); the lower end of each inner column body (32) is provided with a fifth pin (321) which is in plug-in fit with the upper part of the corresponding lower beam (2).

6. The modular assembled cleanroom frame structure of claim 5, wherein: the shape of each first embedded part (5) is matched with the sectional shape of the combined L-shaped column body (11) and the M-shaped column body (12), and each first embedded part (5) is fixedly connected with the corresponding first upper beam (41) and the corresponding second upper beam (42) and is embedded into the L-shaped column body (11) and the M-shaped column body (12) of the corresponding upright column (1); the shape of each second embedded part (6) is matched with the sectional shape of the outer column body (31) and the sectional shape of the inner column body (32) after being combined, and each second embedded part (6) is fixedly connected with the corresponding first upper beam (41) or the second upper beam (42) respectively and is embedded into the outer column body (31) and the inner column body (32) of the corresponding upright column (1).

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