CN217759800U - Clean laboratory of assembled - Google Patents

Abstract

The utility model relates to a clean laboratory of assembled belongs to laboratory structure technical field, and it includes the laboratory main part, be provided with the function post on the ceiling of laboratory main part, the function post is formed by a plurality of concatenation posts concatenations, and is adjacent can dismantle the connection through connection structure between the concatenation post. The utility model discloses the effect that improves the convenience has.

Description

Clean laboratory of assembled

Technical Field

The utility model belongs to the technical field of laboratory structure technique and specifically relates to a clean laboratory of assembled is related to.

Background

With the development and progress of science and technology, the requirements of scientific research on various process conditions of clean laboratories are further improved, and the research direction of laboratories is also continuously adjusted, expanded and updated. Common assembled laboratory not only has transportation convenience, transports the advantage that the flexibility is high and the dismouting is simple, can also solve the new demand of laboratory construction under the current situation to the at utmost, is one of the important direction of future laboratory construction.

At present, in order to make the wiring and water and power supply pipeline arrangement in the laboratory meet the layout requirements of laboratory instruments and equipment, the cables and pipelines are usually laid in a functional column installed on the ceiling of the laboratory, so that the functional column becomes common equipment in the laboratory.

In view of the above-mentioned related art, the inventors found that at least the following problems exist in the related art: the function post length in common laboratory is longer, and it is great to occupy the space, is not convenient for transport, leads to the convenience relatively poor.

SUMMERY OF THE UTILITY MODEL

In order to improve the convenience, the utility model provides a clean laboratory of assembled.

The utility model provides a pair of clean laboratory of assembled adopts following technical scheme:

the utility model provides a clean laboratory of assembled, is in including ceiling and setting function post on the ceiling, the function post is formed by a plurality of concatenation posts concatenations, and is adjacent can dismantle the connection through connection structure between the concatenation post.

By adopting the technical scheme, a plurality of spliced columns are spliced through the connecting structure, and the functional columns can be formed and installed on the ceiling of the laboratory main body for use; when needs transported, be a plurality of concatenation posts with the longer function post split of length to the space that has significantly reduced is convenient for transport, has improved the convenience.

Optionally, the connection structure includes a fixing member and an insertion block, the insertion block is disposed at one end of the splicing column, an insertion groove for inserting the insertion block is formed in an adjacent splicing column of the splicing column, the insertion block is adapted to the insertion groove, and the fixing member is used for fixing the insertion block in the insertion groove.

By adopting the technical scheme, when splicing and mounting are carried out, the splicing blocks on the splicing columns are inserted in alignment with the splicing grooves on the adjacent splicing columns, and then the splicing blocks are fixed in the splicing grooves by utilizing the fixing pieces, so that the splicing and mounting between the adjacent splicing columns can be completed; when needs are dismantled, make the mounting no longer fix the grafting piece, will insert the piece again from the inserting groove in take out can, convenient and fast.

Optionally, the fixing part includes a connecting rod and a plurality of bolts arranged on the connecting rod, the insertion block is provided with a positioning hole, the bolts penetrate through the side wall of the insertion groove and then are inserted into the positioning hole, and the connecting rod is attached to the side wall of the functional column.

By adopting the technical scheme, after the inserting block is inserted into the inserting groove, the inserting pin penetrates through the side wall of the inserting groove to be in inserting fit with the positioning hole by utilizing the positioning hole on the inserting block, so that the inserting block is conveniently fixed in the inserting groove, and the stability of the functional column in use is improved; because the locating hole has all been seted up on the grafting piece of every concatenation post, utilize the connecting rod to remove a plurality of bolts simultaneously and insert and locate corresponding locating hole in, saved and need respectively fixed a plurality of concatenation posts simultaneously with a plurality of bolt male processes, improved work efficiency.

Optionally, the connecting rod support structure further comprises a limiting structure, and the limiting structure is used for limiting the connecting rod on the functional column.

Through adopting above-mentioned technical scheme, utilize limit structure with the connecting rod spacing on the function post to avoided the gag lever post to remove to a certain extent and leaded to the bolt to shift out the condition emergence in the locating hole, stability when having improved adjacent concatenation post concatenation.

Optionally, limit structure includes gag lever post, stopper and supports tight piece, the shifting chute has been seted up to the one end of connecting rod, the gag lever post passes through the shifting chute removes to insert and establishes in the connecting rod, it is used for with the gag lever post supports tightly in the connecting rod to support the piece, the stopper sets up on the function post, the gag lever post has been seted up on the stopper, the gag lever post passes through the gag lever post with the stopper cooperation of pegging graft.

By adopting the technical scheme, the plurality of bolts are movably inserted into the corresponding positioning holes, the connecting rod is attached to the function column, the limiting rod in the connecting rod is moved, the extending section of the limiting rod extending out of the moving groove is in inserting fit with the limiting groove in the limiting block, and the limiting rod is abutted in the connecting rod by the abutting piece, so that the connecting rod can be limited on the function column; when the splicing column needs to be disassembled, the abutting piece does not abut against the limiting rod any more, the limiting rod in the connecting rod is moved to be separated from the limiting groove and not to limit the connecting rod, the connecting rod is moved to enable the bolt to be separated from the positioning hole, and then the splicing block on the splicing column can be taken out from the splicing groove on the adjacent splicing column and the disassembly is completed; the connection and the disassembly can be completed without tools, the operation is simple, and the convenience is greatly improved.

Optionally, the fastening piece includes a fastening bolt, and the fastening bolt penetrates through the side wall of the moving groove and is fastened on the limiting rod.

Through adopting above-mentioned technical scheme, utilize to support tight bolt and pass behind the lateral wall of shifting chute and support tightly the gag lever post, can accomplish the fixed to the gag lever post, further improved the stability of connecting between adjacent concatenation post simultaneously.

Optionally, the limiting rod further comprises an anti-dropping part, and the anti-dropping part is used for preventing the limiting rod from being completely separated from the moving groove.

Through adopting above-mentioned technical scheme, utilize anticreep piece to prevent that the gag lever post breaks away from outside the shifting chute completely to when the connecting rod is taken, need not to worry that the condition that the gag lever post in the connecting rod loses takes place.

Optionally, the anticreep piece includes flange and anticreep piece, the flange sets up on the lateral wall that the shifting chute is close to notch department, the anticreep piece sets up the gag lever post is located the one end of shifting chute department.

Through adopting above-mentioned technical scheme, utilize the flange to block the anticreep piece, can be spacing at the shifting chute with the gag lever post to the condition emergence that the gag lever post breaks away from the shifting chute has been avoided to a certain extent.

Optionally, a spring is further arranged in the moving groove, one end of the spring is connected to the inner wall of the moving groove, the other end of the spring is connected to the anti-falling block, and the limiting rod always tends to move out of the moving groove due to the spring.

By adopting the technical scheme, the limiting rod is pressed into the moving groove to compress the spring, then a plurality of bolts on the connecting rod are inserted into the corresponding positioning holes, the connecting rod is attached to the functional column, the limiting rod is loosened to enable the limiting rod to be in inserted fit with the insertion groove of the limiting block under the elastic action of the spring, and then the limiting rod is limited by the abutting bolt; through setting up the spring, stability when further having improved spacingly.

Optionally, a placing rack is further arranged on the function column, a plurality of placing grooves are formed in the placing rack, and the placing grooves are used for placing experimental tools.

Through adopting above-mentioned technical scheme, utilize the standing groove on the rack to be convenient for the experimenter to place the laboratory glassware, further improved the convenience.

To sum up, the utility model discloses a following at least one useful technological effect:

1. splicing a plurality of splicing columns through a connecting structure to form a functional column which is arranged on a ceiling of a laboratory main body for use; when transportation is needed, the functional column with longer length is split into a plurality of splicing columns, so that the occupied space is greatly reduced, the transportation is convenient, and the convenience is improved;

2. a plurality of bolts are movably inserted into the corresponding positioning holes, the connecting rod is attached to the functional column, the limiting rod in the connecting rod is moved, the extending section of the limiting rod extending out of the moving groove is in inserting fit with the limiting groove in the limiting block, and the limiting rod is abutted in the connecting rod by the abutting piece, so that the connecting rod can be limited on the functional column; when the splicing column needs to be disassembled, the abutting piece does not abut against the limiting rod any more, the limiting rod in the connecting rod is moved to be separated from the limiting groove and not to limit the connecting rod, the connecting rod is moved to enable the bolt to be separated from the positioning hole, and then the splicing block on the splicing column can be taken out from the splicing groove on the adjacent splicing column and the disassembly is completed; the connection and the disassembly can be completed without tools, the operation is simple, and the convenience is greatly improved;

3. the experimental tool is convenient to place by experimenters through the placing groove on the placing frame, and convenience is further improved.

Drawings

Fig. 1 is a schematic structural view of a clean bench assembled according to an embodiment of the present disclosure.

Fig. 2 is a partial exploded view of a fabricated clean laboratory according to an embodiment of the present application.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Description of reference numerals: 1. a ceiling; 2. a functional column; 21. splicing the columns; 211. a first splice column; 212. a second splice column; 213. a third spliced column; 3. placing a rack; 31. hanging a ring; 32. a placement groove; 33. hooking; 4. a laboratory bench; 5. a connecting structure; 51. a fixing member; 511. a connecting rod; 5111. a moving groove; 512. a bolt; 52. an insertion block; 521. positioning holes; 6. inserting grooves; 7. a limiting structure; 71. a limiting rod; 72. a limiting block; 721. a limiting groove; 73. tightly abutting against the bolt; 8. a drop-off prevention member; 81. a flange; 82. an anti-drop block; 9. a spring.

Detailed Description

The present invention will be described in further detail with reference to the accompanying fig. 1-3.

The embodiment of the utility model discloses clean laboratory of assembled.

Referring to fig. 1, a clean laboratory of assembled includes ceiling 1 and sets up function post 2 on ceiling 1, still is provided with laboratory bench 4 in the laboratory, and function post 2 is located directly over laboratory bench 4, can dismantle on the function post 2 and be provided with rack 3, has seted up a plurality of standing grooves 32 on the rack 3, and standing groove 32 is used for supplying the laboratory tool to place, has improved the convenience when experimenting.

Referring to fig. 1, the functional column 2 is formed by splicing a plurality of splicing columns 21, and adjacent splicing columns 21 are detachably connected through a connecting structure 5; when assembling function post 2, the staff can select the quantity that sets up of concatenation post 21 according to actual demand, and the quantity of concatenation post 21 can set up to two, three, four, five etc. can reach required length can to be convenient for adapt to the installation demand in different laboratories, have stronger flexibility.

Referring to fig. 1, in the present embodiment, the number of the splicing columns 21 is three, namely, the first splicing column 211, the second splicing column 212 and the third splicing column 213, and therefore, only the splicing manner among the first splicing column 211, the second splicing column 212 and the third splicing column 213 will be described below.

Referring to fig. 2, in this embodiment, as an implementation manner that the placement frame 3 is detachably disposed on the function column 2, a hook 33 is disposed on the third splicing column 213 through a bolt, a hanging ring 31 is welded on the placement frame 3, and the hook 33 is engaged with the hanging ring 31, so as to facilitate the placement frame 3 to be mounted on the function column 2.

Referring to fig. 2, the connection structure 5 includes a fixing member 51 and an insertion block 52, the insertion block 52 is disposed at an end of the first splicing column 211 far away from the ceiling 1 of the laboratory body, one side of the second splicing column 212 close to the first splicing column 211 is provided with an insertion groove 6 into which the insertion block 52 is inserted, the insertion block 52 is adapted to the insertion groove 6, and the fixing member 51 is used for fixing the insertion block 52 in the insertion groove 6; in this embodiment, the cross-sectional shape of the splicing block 52 is a square-shaped, the splicing block 52 and the splicing groove 6 are disposed on the first splicing column 211, the second splicing column 212 and the third splicing column 213, the splicing block 52 is fixed in the splicing groove 6 by the fixing member 51 by utilizing the splicing fit of the splicing block 52 and the splicing groove 6, and the splicing installation among the first splicing column 211, the second splicing column 212 and the third splicing column 213 can be completed.

Referring to fig. 1 and 2, as an embodiment of the fixing member 51, the fixing member 51 includes a connecting rod 511 and a plurality of pins 512 disposed on the connecting rod 511, a positioning hole 521 is formed on the insertion block 52, the pins 512 are inserted into the positioning hole 521 after passing through the side wall of the insertion slot 6, and the connecting rod 511 is attached to the side wall of the functional column 2; in this application embodiment, not only need fix the grafting piece 52 between first concatenation post 211 and the second concatenation post 212, still need fix the grafting piece 52 between second concatenation post 212 and the third concatenation post 213, therefore, the quantity of bolt 512 is two, and be used for respectively carrying out the grafting cooperation with corresponding locating hole 521, utilize connecting rod 511 to remove two bolts 512 simultaneously and insert and locate corresponding locating hole 521 in, the process that need insert respectively has been saved, thereby be convenient for fix a plurality of concatenation posts 21 simultaneously, and the work efficiency is improved.

Referring to fig. 2, the device further comprises a limiting structure 7, wherein the limiting structure 7 is used for limiting the connecting rod 511 on the functional column 2; the limiting structure 7 comprises a limiting rod 71, a limiting block 72 and a propping piece, one end of the connecting rod 511 is provided with a moving groove 5111, the limiting rod 71 is movably inserted into the connecting rod 511 through the moving groove 5111, the propping piece is used for propping the limiting rod 71 tightly into the connecting rod 511, the limiting block 72 is arranged on the functional column 2, the limiting block 72 is provided with a limiting groove 721, and the limiting rod 71 is in splicing fit with the limiting block 72 through the limiting groove 721; it should be noted that, when the plug 512 passes through the sidewall of the inserting slot 6 and then is inserted into the positioning hole 521, and the connecting rod 511 is attached to the sidewall of the functional post 2, the notch of the moving slot 5111 is opposite to the notch of the limiting slot 721.

Referring to fig. 2 and 3, in this embodiment, in order to improve stability, both sides of the function column 2 are provided with a connecting rod 511 and a limiting mechanism, and a moving groove 5111 for the limiting rod 71 to move is provided at both ends of the connecting rod 511, correspondingly, both sides of the first splicing column 211 and both sides of the third splicing column 213 are provided with a limiting block 72 through bolt fixing, the splicing cooperation of the limiting rod 71 and the limiting groove 721 is utilized, the limiting rod 71 is abutted tightly in the connecting rod 511 by the abutting part, so that the connecting rod 511 can be stably limited on the function column 2, the situation that the bolt 512 moves out of the positioning hole 521 is avoided from moving by the limiting rod 71 to a certain extent, the stability of splicing adjacent splicing columns 21 is improved, and meanwhile, tools are not needed when connecting and disassembling, the operation is simple, and convenience is greatly improved.

Referring to fig. 2 and 3, as an embodiment of the fastening member, the fastening member is a fastening bolt 73, the fastening bolt 73 penetrates through a side wall of the moving groove 5111 and is fastened on the limiting rod 71, and the fastening bolt 73 is used for fastening the limiting rod 71, so that the fixing of the limiting rod 71 can be completed, and meanwhile, the connection stability between the adjacent splicing columns 21 is further improved.

Referring to fig. 2 and 3, a disengagement preventing member 8 and a spring 9 are further disposed in the moving groove 5111, and the disengagement preventing member 8 is used for preventing the limiting rod 71 from completely disengaging from the moving groove 5111; the anti-disengaging part 8 comprises a flange 81 and an anti-disengaging block 82, the flange 81 is integrally arranged on the side wall of the moving groove 5111 close to the notch, the anti-disengaging block 82 is integrally arranged at one end of the limiting rod 71 in the moving groove 5111, one end of the spring 9 is connected to the inner wall of the moving groove 5111, the other end of the spring 9 is connected to the anti-disengaging block 82, and the limiting rod 71 is always allowed to move towards the outside of the moving groove 5111 by the spring 9; the anti-dropping block 82 is blocked by the flange 81, so that the part of the limiting rod 71 can be limited in the moving groove 5111, when the connecting rod 511 is taken, the situation that the limiting rod 71 in the connecting rod 511 is lost does not need to be worried about, and meanwhile, the stability when the connecting rod 511 is limited is improved to a certain extent by the elastic action of the spring 9.

The embodiment of the utility model provides a clean laboratory of assembled implements the principle and does: when the functional columns 2 need to be spliced and installed, the splicing blocks 52 on the splicing columns 21 are aligned with the splicing grooves 6 on the adjacent splicing columns 21 to be inserted, the limiting rods 71 on the connecting rods 511 are pressed to enable the limiting rods 71 to move towards the direction in the moving grooves 5111, then the plurality of bolts 512 on the connecting rods 511 are inserted into the corresponding positioning holes 521 to enable the connecting rods 511 to be attached to the functional columns 2, the limiting rods 71 are loosened to enable the limiting rods 71 to be in splicing fit with the splicing grooves 6 of the limiting blocks 72 under the elastic action of the springs 9, and then the abutting bolts 73 are utilized to abut against the limiting rods 71, so that the connection between the adjacent splicing columns 21 can be completed, and the functional columns 2 formed by the plurality of splicing columns 21 can be conveniently installed on the ceiling 1 of the laboratory body for use; when needs transported, rotate and support tight bolt 73 and no longer support tightly gag lever post 71, gag lever post 71 in the portable connecting rod 511 breaks away from outside spacing groove 721, move away from connecting rod 511 and make bolt 512 break away from locating hole 521, can take out and accomplish the dismantlement in the inserting groove 6 on splicing column 21 from adjacent splicing column 21 with the grafting piece 52 on the splicing column 21, through being a plurality of splicing columns 21 with the longer function post 2 split of length, thereby the occupation space that has significantly reduced, be convenient for transport, and the convenience is improved.

Above is the preferred embodiment of the utility model, not limit according to this the utility model discloses a protection scope, the event: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. An assembled clean laboratory which is characterized in that: include ceiling (1) and set up function post (2) on ceiling (1), function post (2) are formed by a plurality of concatenation posts (21) concatenation, and are adjacent can dismantle the connection through connection structure (5) between concatenation post (21).

2. The assembled clean laboratory according to claim 1, wherein: the connecting structure (5) comprises a fixing piece (51) and an inserting piece (52), the inserting piece (52) is arranged at one end of the splicing column (21), an inserting groove (6) for inserting the inserting piece (52) is formed in the adjacent splicing column (21) of the splicing column (21), the inserting piece (52) is matched with the inserting groove (6), and the fixing piece (51) is used for fixing the inserting piece (52) in the inserting groove (6).

3. The assembled clean laboratory according to claim 2, wherein: the fixing piece (51) comprises a connecting rod (511) and a plurality of bolts (512) arranged on the connecting rod (511), positioning holes (521) are formed in the inserting block (52), the bolts (512) penetrate through the side wall of the inserting groove (6) and then are inserted into the positioning holes (521), and the connecting rod (511) is attached to the side wall of the functional column (2).

4. The assembled clean laboratory according to claim 3, wherein: the connecting rod (511) is limited on the functional column (2) by the limiting structure (7).

5. The assembled clean laboratory according to claim 4, wherein: limiting structure (7) include gag lever post (71), stopper (72) and support tight piece, shifting chute (5111) have been seted up to the one end of connecting rod (511), gag lever post (71) pass through shifting chute (5111) remove to insert and establish in connecting rod (511), it is used for with to support tight gag lever post (71) support tightly in connecting rod (511), stopper (72) set up on function post (2), spacing groove (721) have been seted up on stopper (72), gag lever post (71) pass through spacing groove (721) with stopper (72) cooperation of pegging graft.

6. The assembled clean laboratory according to claim 5, wherein: the abutting piece comprises an abutting bolt (73), and the abutting bolt (73) penetrates through the side wall of the moving groove (5111) and abuts against the limiting rod (71).

7. The assembled clean laboratory according to claim 5, wherein: the anti-falling device further comprises an anti-falling part (8), and the anti-falling part (8) is used for preventing the limiting rod (71) from being completely separated out of the moving groove (5111).

8. The assembled clean laboratory according to claim 7, wherein: anticreep piece (8) are including flange (81) and anticreep piece (82), flange (81) set up on moving groove (5111) are close to the lateral wall of notch department, anticreep piece (82) set up gag lever post (71) are located one end in moving groove (5111).

9. The assembled clean laboratory according to claim 8, wherein: still be provided with spring (9) in shifting chute (5111), the one end of spring (9) is connected on the inner wall of shifting chute (5111), the other end of spring (9) connect in on anticreep piece (82), spring (9) make gag lever post (71) have the trend of moving outside shifting chute (5111) all the time.

10. The assembled clean laboratory according to any one of claims 1 to 9, wherein: still be provided with rack (3) on function post (2), a plurality of standing grooves (32) have been seted up on rack (3), standing groove (32) are used for supplying the experiment instrument to place.

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