CN217652449U - Spliced mobile laboratory - Google Patents

Abstract

The utility model discloses a splicing type mobile laboratory, which comprises two main frame bodies, a wallboard, a roof board and a connecting device; the wall plate is fixedly arranged on the main frame body; the main frame body comprises a top beam, a bottom beam and a support column, wherein two ends of the support column are respectively arranged on the top beam and the bottom beam, and a roof plate is fixedly arranged on the top beam; and the adjacent two main frame bodies are assembled in a sealing splicing way through the connecting device. The wall plate and the roof plate are hermetically arranged on the main frame body, so that a closed space can be formed, and the top beam, the bottom beam and the support column of the main frame body play a role in supporting. When two adjacent body frames are spliced, a connecting device is arranged at intervals of 50 cm or 70 cm, and the body frames are assembled in a sealing and splicing manner through the connecting device, so that the conditions of water leakage and air leakage in a laboratory are prevented. Through connecting device's setting can guarantee that parameters such as indoor light, temperature, atmospheric pressure all maintain in detecting required within range, and then guarantee to detect the accuracy of data.

Description

Spliced mobile laboratory

Technical Field

The utility model relates to a container production facility field, concretely relates to mobile laboratory of concatenation formula.

Background

When dealing with major emergency, need build interim detection laboratory fast, however interim laboratory among the prior art is because it is fast to build, and is sealed the effect not good at the concatenation in-process of support body, leads to the laboratory to appear leaking easily, condition such as leak.

And when optical laboratory or constant temperature and pressure laboratory need be built fast, have strict control to indoor light, temperature, atmospheric pressure isoparametric, nevertheless the relatively poor data deviation that appears in detection easily of indoor sealed effect, can't obtain accurate experimental data.

Therefore, it is necessary to provide a mobile laboratory of a splicing type to solve the above problems.

Disclosure of Invention

An object of the utility model is to overcome prior art's defect, provide a mobile laboratory of concatenation formula.

The technical scheme is as follows:

a splicing type mobile laboratory comprises at least two main frame bodies, wall plates, roof plates and connecting devices; the wall plate is fixedly arranged on the main frame body; the main frame body comprises a top beam, a bottom beam and a support column, two ends of the support column are respectively arranged on the top beam and the bottom beam, and the roof plate is fixedly arranged on the top beam; and the two adjacent main frame bodies are assembled in a sealing splicing way through the connecting device.

Furthermore, the top beam comprises a top side beam and a plurality of top cross beams, and the top cross beams are laid and installed on the top side beam according to the arrangement sequence; the bottom beams comprise bottom side beams and a plurality of bottom cross beams, and the bottom cross beams are paved and installed on the bottom side beams according to the arrangement sequence; and two ends of the support column are respectively arranged on the top side beam and the bottom side beam.

The top cross beams are laid and installed on the top side beams according to the arrangement sequence, and the bottom cross beams are laid and installed on the bottom side beams according to the arrangement sequence, so that the anti-seismic performance of the laboratory is improved.

Furthermore, two ends of the supporting column are respectively provided with a box hanging hole.

In order to facilitate the building and transportation of the laboratory, the spliced mobile laboratory can be hoisted by installing a steel cable or a steel hook on a hoisting box hole of a support column of the mobile laboratory.

Further, the wall plate is hermetically installed on the top side beam and the bottom side beam.

The sealing installation of wallboard sets up and has further guaranteed indoor leakproofness.

Furthermore, the mobile laboratory of concatenation formula is still including window, electronic induction door and floor, window and electronic induction door all inlay install in on the wallboard, the floor lay install in on the bottom side roof beam.

Furthermore, the wallboard and the roof board are both made of glass magnesium boards, and the thickness of the glass magnesium boards ranges from 40 mm to 60 mm.

The glass magnesium board has the advantages of high temperature resistance, flame retardance, sound absorption, shock resistance, insect prevention, corrosion resistance, no toxicity, no odor, no pollution, direct paint spraying, direct veneering, use of exhaust nails and direct installation of ceramic tiles, good coloring property on the surface, high strength, bending resistance, toughness, nailability, sawability, adhesion and convenient decoration. The glass magnesium board can also be compounded with various heat-insulating materials to prepare a composite heat-insulating board, so that the indoor temperature of a laboratory can be kept constant. In the technical scheme, the thickness of the glass magnesium plate is preferably 50 mm.

Furthermore, the connecting device comprises a connecting piece, a cover plate and two shock pads, the bottom side beam and the top side beam of every two adjacent main frames are respectively and fixedly connected with the connecting piece and the shock pads, and the cover plate covers the bottom side beam and the top side beam of every two adjacent main frames.

The two bottom side beams are assembled and spliced through the connecting piece, the two top side beams are assembled and spliced through the connecting piece in the same way, the cover plate covers the bottom side beams and the top side beams respectively, the surface between the two adjacent main frame bodies becomes flat due to the arrangement of the cover plate, and the mutual friction between the cover plate and the bottom side beams and between the cover plate and the top side beams to generate noise can be prevented due to the arrangement of the shockproof pad.

Furthermore, the connecting device also comprises a sealant, and the bottom side beam and the top side beam of the two adjacent main frame bodies are respectively bonded with the sealant.

And a sealant is bonded between the two adjacent bottom side beams and the two adjacent top side beams so as to further ensure the indoor sealing property.

Furthermore, the shockproof pad is made of EPDM plastic, and the sealant is made of silicone adhesive.

Furthermore, the connecting piece comprises a bolt, a first splicing block and a second splicing block, the first splicing block is opposite to the second splicing block in position, the first splicing block and the second splicing block are installed and connected through the bolt, the first splicing block is integrally connected with a fixing block, the second splicing block is integrally connected with a fixing block, and the fixing blocks of the first splicing block and the second splicing block are respectively and fixedly installed on the bottom side beam and the top side beam of the two adjacent main frames.

During the erection joint spare, with between the bottom side roof beam parallel and level and aim at, also parallel and level and aim at between the roof side roof beam of two adjacent body frames, finely tune again and make first concatenation piece relative with the second concatenation piece's position, then insert the bolt, through the mode of twisting the bolt with first concatenation piece and second concatenation piece erection joint, convenient and fast, the connecting piece installation is accomplished the back, bonds the silicone adhesive again, further strengthens indoor leakproofness.

Compared with the prior art, the utility model discloses technical scheme's beneficial effect is:

when a laboratory is built quickly, a closed space can be formed by sealing and installing the wall plates and the roof plates on the main frame body, wherein the top beam, the bottom beam and the support columns of the main frame body play a role in supporting. In the technical scheme, the connecting devices are provided with a plurality of connecting devices, when two adjacent main frame bodies are spliced, one connecting device is arranged at intervals of 30-100 cm, and the main frame bodies are assembled in a sealing and splicing manner through the connecting devices, so that the conditions of water leakage and air leakage in a laboratory are prevented. Through connecting device's setting can guarantee that parameters such as indoor light, temperature, atmospheric pressure all maintain in detecting required within range, and then guarantee to detect the accuracy of data.

Drawings

Fig. 1 is a schematic physical structure diagram of a mobile laboratory in an embodiment of the present invention;

fig. 2 is an exploded view of a mobile laboratory in an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of the structure of FIG. 2;

fig. 4 is a side view of a mobile laboratory in an embodiment of the present invention;

FIG. 5 is a view showing an installation structure of the connecting device and the bottom side members in the embodiment of the present invention;

fig. 6 is a schematic physical structure diagram of a connecting device according to an embodiment of the present invention;

description of reference numerals:

10. the main frame body, 11, top beam, 12, floorbar, 13, support column, 14, hanging box hole, 20, wallboard, 21, roof slab, 30, connecting device, 31, connecting piece, 32, apron, 33, antivrbration pad, 41, top side beam, 42, top cross beam, 51, floorbar, 52, bottom cross beam, 60, window, 61, electronic induction door, 62, floor, 71, first splice block, 72, second splice block, 73, bolt, 74, fixed block.

Detailed Description

The following describes embodiments of the present invention in detail.

As shown in fig. 1 and 2, a mobile laboratory of a splicing type includes at least two main frames 10, wall panels 20, roof panels 21, and connecting devices 30; the wall plate 20 is fixedly arranged on the main frame body 10; the main frame body 10 comprises a top beam 11, a bottom beam 12 and a support column 13, wherein two ends of the support column 13 are respectively arranged on the top beam 11 and the bottom beam 12, and a roof plate 21 is fixedly arranged on the top beam 11; the two adjacent main frames 10 are assembled in a sealing splicing way through the connecting device 30.

Referring to fig. 2 and 3, the top beam 11 includes a top side beam 41 and a plurality of top cross beams 42, and the top cross beams 42 are laid and installed on the top side beam 41 according to an arrangement sequence; the bottom beam 12 comprises a bottom side beam 51 and a plurality of bottom cross beams 52, and the bottom cross beams 52 are paved and installed on the bottom side beam 51 according to the arrangement sequence; the support column 13 is attached at both ends thereof to the top side member 41 and the bottom side member 51, respectively.

Referring to fig. 1 and 2, the mobile laboratory further includes a window 60, an electronic induction door 61 and a floor 62, wherein the window 60 and the electronic induction door 61 are mounted on the wall plate 20 in an embedded manner, and the floor 62 is installed on the bottom side beam 51 in a laying manner.

Referring to fig. 5 and 6, the connecting device 30 includes a connecting member 31, a cover plate 32, two anti-vibration pads 33, and a sealant (not shown in the drawings), the bottom side member 51 and the top side member 41 of two adjacent main frames 10 are respectively connected with the connecting member 31 and the anti-vibration pads 33, and the cover plate 32 covers the bottom side member 51 and the top side member 41 of two adjacent main frames 10; the shock pad 33 is made of EPDM plastic; the bottom side beam 51 and the top side beam 41 of two adjacent main frames 10 are respectively bonded with a sealant (not shown in the figure); the sealant is made of silicone adhesive.

Continuing to refer to fig. 5 and 6, the connecting member 31 includes a bolt 73, a first splicing block 71 and a second splicing block 72, the first splicing block 71 is opposite to the second splicing block 72, the first splicing block 71 is connected to the second splicing block 72 by the bolt 73, the first splicing block 71 is integrally connected to a fixing block 74, the second splicing block 72 is integrally connected to a fixing block 74, and the fixing blocks 74 of the first splicing block 71 and the second splicing block 72 are respectively fixedly mounted on the bottom side beam 51 and the top side beam 41 of the two adjacent main frames 10.

Referring to fig. 4, two ends of the supporting column 13 are respectively provided with a box hanging hole 14.

Referring to fig. 1, 2 and 4, the wall panel 20 is hermetically mounted on the top side beam 41 and the bottom side beam 51; the wall board 20 and the roof board 21 are made of magnesium oxide boards, and the thickness of the magnesium oxide boards ranges from 40 mm to 60 mm.

The embodiment has the following advantages:

1. when a laboratory is rapidly built, a closed space can be formed by the wall plates 20 and the roof plates 21 being hermetically mounted on the main frame 10, wherein the closed space is supported by the top beam 11, the bottom beam 12 and the support columns 13 of the main frame 10. In this embodiment, there are several connecting devices 30, when two adjacent main frame bodies 10 are spliced, one connecting device 30 is arranged at intervals of 50 or 70 cm, and the plurality of main frame bodies 10 are assembled by sealing and splicing through the several connecting devices 30, so as to prevent water leakage and air leakage in a laboratory. The arrangement of the connecting device 30 can ensure that parameters such as indoor light, temperature and atmospheric pressure are maintained in the range required by detection, and further ensure the accuracy of detection data.

2. The top cross members 42 are laid in an arrangement mounted on the top side members 41 in the order of arrangement, and the bottom cross members 52 are laid in an arrangement mounted on the bottom side members 51 in the order of arrangement, so as to increase the earthquake-resistant performance of the laboratory.

3. In order to facilitate the building and transportation of the laboratory, the spliced mobile laboratory can be hoisted by installing a steel rope or a steel hook on a hanging box hole 14 of a support column 13 of the mobile laboratory.

4. The sealing arrangement of the wall panels 20 further ensures the sealing of the room.

5. The glass magnesium board has the advantages of high temperature resistance, flame retardance, sound absorption, shock resistance, insect prevention, corrosion resistance, no toxicity, no odor, no pollution, direct paint spraying, direct veneering, capability of using exhaust nails and directly mounting ceramic tiles, good colorability on the surface, high strength, bending resistance, toughness, nailability, sawability, stickiness and convenient decoration. The glass magnesium board can also be compounded with various heat-insulating materials to form a composite heat-insulating board, so that the indoor temperature of a laboratory can be kept constant. In the present embodiment, the thickness of the glass magnesium plate is preferably 50 mm.

6. The two bottom side beams 51 are assembled and spliced through the connecting pieces 31, the two top side beams 41 are assembled and spliced through the connecting pieces 31 in the same way, the cover plates 32 are covered on the bottom side beams 51 and the top side beams 41 respectively, the surfaces between the two adjacent main frame bodies 10 become flat due to the arrangement of the cover plates 32, and the mutual friction between the cover plates 32 and the bottom side beams 51 and between the cover plates 32 and the top side beams 41 to generate noise can be prevented due to the arrangement of the shock-proof pads 33.

7. A sealant (not shown) is bonded between the two adjacent bottom side members 51 and the two adjacent top side members 41 to further ensure the indoor sealing.

8. When the connecting piece 31 is installed, the bottom side beams 51 of the two adjacent main frame bodies 10 are aligned, the top side beams 41 are aligned, the first splicing blocks 71 and the second splicing blocks 72 are opposite in position through fine adjustment, then the bolts 73 are inserted, the first splicing blocks 71 and the second splicing blocks 72 are installed and connected in a bolt 73 screwing mode, convenience and rapidness are achieved, after the connecting piece 31 is installed, the silicone adhesive is bonded, and indoor sealing performance is further enhanced.

The above are only specific embodiments of the present invention, and the protection scope of the present invention is not limited thereby; any replacement and improvement made on the basis of not violating the conception of the utility model belong to the protection scope of the utility model.

Claims (8)

1. A splicing type mobile laboratory is characterized by comprising at least two main frame bodies, wall plates, roof plates and connecting devices;

the wall plate is fixedly arranged on the main frame body;

the main frame body comprises a top beam, a bottom beam and a support column, two ends of the support column are respectively arranged on the top beam and the bottom beam, and the roof plate is fixedly arranged on the top beam;

the two adjacent main frame bodies are assembled in a sealing splicing way through the connecting device;

the top beam at least comprises a top side beam; the bottom beam includes at least a bottom side beam;

the connecting device comprises connecting pieces, cover plates, sealant and two shock-proof pads, the bottom side beams and the top side beams of two adjacent main frames are respectively connected with the connecting pieces and the shock-proof pads in an installing manner, and the cover plates are covered on the bottom side beams and the top side beams of the two adjacent main frames;

and the bottom side beam and the top side beam of every two adjacent main frame bodies are respectively bonded with a sealant.

2. The mobile laboratory of splicing type according to claim 1, wherein the top beam further comprises a plurality of top cross beams, and the top cross beams are laid and installed on the top side beams in an arrangement order;

the bottom beam also comprises a plurality of bottom cross beams, and the bottom cross beams are paved and installed on the bottom side beams according to the arrangement sequence;

and two ends of the supporting column are respectively arranged on the top side beam and the bottom side beam.

3. The mobile laboratory of claim 2, wherein the two ends of the supporting column are respectively provided with a hanging box hole.

4. The mobile laboratory of claim 2, wherein said wall panels are sealingly mounted to said top and bottom side beams, respectively.

5. The mobile laboratory of any one of claims 2 to 4, further comprising a window, an electronic induction door and a floor, wherein the window and the electronic induction door are mounted on the wall plate in an embedded manner, and the floor is laid on the bottom side beams.

6. The mobile laboratory of claim 5, wherein the wall and roof panels are made of magnesium oxide panels having a thickness ranging from 40 mm to 60 mm.

7. The mobile laboratory assembly of claim 4, wherein the shock pad is made of EPDM plastic, and the sealant is made of silicone adhesive.

8. The mobile laboratory of splicing type according to claim 4, wherein the connecting member comprises a bolt, a first splicing block and a second splicing block, the first splicing block and the second splicing block are opposite in position, the first splicing block and the second splicing block are installed and connected through the bolt, the first splicing block is integrally connected with a fixed block, the second splicing block is integrally connected with a fixed block, and the fixed blocks of the first splicing block and the second splicing block are respectively and fixedly installed on the bottom side beam and the top side beam of two adjacent main frame bodies.

Images