A kind of microtrabeculae rack for test tube
[technical field]
The utility model relates to a kind of test-tube stent, particularly a kind of microtrabeculae rack for test tube.
[background technology]
In laboratory, some chemical tests and analysis, need to utilize microtrabeculae rack for test tube to carry out microtrabeculae leakage to solution separated, first, test tube is placed on common test-tube stent, solution that will be separated is contained in microtrabeculae, microtrabeculae is placed on microtrabeculae rack for test tube, then microtrabeculae rack for test tube is placed on common test-tube stent, microtrabeculae on microtrabeculae rack for test tube is aimed at the test tube on common test-tube stent, guarantee that in microtrabeculae, isolated leakage is collected in test tube, this microtrabeculae rack for test tube is owing to not coordinating with common test-tube stent location, in use, need to adjust position and guarantee that the microtrabeculae on microtrabeculae rack for test tube aims at the test tube on common test-tube stent, complex operation, efficiency is lower.
[utility model content]
The utility model provides a kind of microtrabeculae rack for test tube, to solve in the microtrabeculae and the test tube alignment procedures on common test-tube stent of above-mentioned microtrabeculae rack for test tube on guaranteeing microtrabeculae rack for test tube, and complex operation, the technical problem that efficiency is lower.
In order to solve the problems of the technologies described above, the utility model provides a kind of microtrabeculae rack for test tube, comprise two-layer rack platform: the first rack platform and the second rack platform, on described every layer of rack platform, be provided with being mutually applied to insert the microtrabeculae through hole of microtrabeculae, described rack platform surrounding is provided with the surrounding outer wall matching to downward-extension and common test-tube stent outer, and the test tube through hole of described microtrabeculae through hole and common test-tube stent is corresponding.
The beneficial effects of the utility model are: because microtrabeculae rack for test tube platform surrounding is provided with the surrounding outer wall matching to downward-extension and common test-tube stent outer, surrounding outer wall forms a cavity, the internal diameter of cavity and the outer of common test-tube stent match, like this, when microtrabeculae rack for test tube is placed on common test-tube stent, microtrabeculae rack for test tube just can not need to adjust with directly locating to coordinate with common test-tube stent, simultaneously, because the test tube through hole of microtrabeculae through hole and common test-tube stent is corresponding, so also guaranteed aiming at of microtrabeculae on microtrabeculae rack for test tube and test tube on common test-tube stent, easy to operate, fast.
On the basis of technique scheme, the utility model can also be done following improvement.
Further, described surrounding outer wall is n shape structure, at outer wall quadrangle, becomes V groove structure and described common test-tube stent to match.
Adopt the beneficial effect of above-mentioned further scheme to be: because outer wall quadrangle becomes V groove structure and described common test-tube stent, to match, V groove structure just can coordinate with the location, four angles of common test-tube stent like this, easy for installation, n shape structure forms cavity structure in the surrounding of microtrabeculae rack for test tube simultaneously, is convenient to experimenter's use.
On the basis of technique scheme, the utility model can also be done following improvement.
Further, described surrounding outer wall equals the height of common test-tube stent to the length of downward-extension.
Adopt the beneficial effect of above-mentioned further scheme to be: because surrounding outer wall equals the height of common test-tube stent to the length of downward-extension, when microtrabeculae rack for test tube is placed on common test-tube stent, the bottom of microtrabeculae rack for test tube and common test-tube stent bottom maintain an equal level, and use very reliable.
On the basis of technique scheme, the utility model can also be done following improvement.
Further, described V groove structure is provided with the several grooves parallel with described rack platform, and described groove has inserted plate.
Adopt the beneficial effect of above-mentioned further scheme to be: when plate is placed on to the groove the inside being parallel to each other, whole plate forms a plane, when microtrabeculae rack for test tube is placed on common test-tube stent, the plane that plate forms contacts with the end face of common test-tube stent and is spacing, change the relative distance of microtrabeculae rack for test tube and common test-tube stent, be convenient to place microtrabeculae and the test tube of different length specification.
On the basis of technique scheme, the utility model can also be done following improvement.
Further, described rack platform and surrounding outer wall are transparent material.
Adopt the beneficial effect of above-mentioned further scheme to be: the microtrabeculae rack for test tube that transparent material is made into, in use can know microtrabeculae leakage flow process, well the monitoring experiment process of reaching.
[accompanying drawing explanation]
Fig. 1 is the positive perspective view of the preferred implementation column one of the utility model microtrabeculae rack for test tube,
Fig. 2 is preferred implementation column one schematic bottom view of the utility model microtrabeculae rack for test tube,
Fig. 3 is that the utility model microtrabeculae rack for test tube side is n shape structural upright structural representation,
Fig. 4 is that the utility model microtrabeculae rack for test tube side is that n shape structure and common test-tube stent are installed perspective view,
Fig. 5 is that in the utility model microtrabeculae rack for test tube, microtrabeculae and test tube are arranged on the schematic diagram on rack for test tube,
Fig. 6 is the reeded cutaway view of the utility model microtrabeculae rack for test tube V groove structure band,
Fig. 7 is that the utility model microtrabeculae rack for test tube is with groove structure pipe support and common test-tube stent scheme of installation.
In accompanying drawing, the list of parts of each label representative is as follows:
1, the first rack platform, the 11, first microtrabeculae through hole, the 2, second rack platform, 21, the second microtrabeculae through hole, 3, outer wall, 31, V groove structure, 32, groove, 4, common test-tube stent, 5, test tube through hole, 51, the first laminate, 52, the second laminate, 53, three ply board, 6, plate, 7, microtrabeculae, 8, test tube.
[specific embodiment]
Below in conjunction with drawings and Examples, the utility model is further described.
The preferred implementation column one of the utility model microtrabeculae rack for test tube is referring to Fig. 1, Fig. 2, from positive stereochemical structure, comprise the first rack platform 1, on the first rack platform 1, be evenly provided with the microtrabeculae through hole 11 corresponding with the test tube through hole of common test-tube stent, rack platform surrounding is provided with the surrounding outer wall 3 matching to downward-extension and common test-tube stent outer; From bottom view, surrounding outer wall 3 forms a cavity, the internal diameter of cavity and the outer of common test-tube stent match, while like this microtrabeculae rack for test tube being placed on common test-tube stent, microtrabeculae rack for test tube just can not need to adjust with directly locating to coordinate with common test-tube stent, meanwhile, and because the test tube through hole of microtrabeculae through hole and common test-tube stent is corresponding, so also guaranteed aiming at of microtrabeculae on microtrabeculae rack for test tube and test tube on common test-tube stent, easy to operate, quick.
The utility model microtrabeculae rack for test tube side be n shape structure referring to Fig. 3, comprise the first rack platform 1 and the second rack platform 2, two stands platform is parallel to each other; On the first rack platform 1, be evenly provided with the microtrabeculae through hole 11 corresponding with the test tube through hole of common test-tube stent, on the second rack platform 2, be evenly provided with the microtrabeculae through hole 21 corresponding with the test tube through hole of common test-tube stent, microtrabeculae through hole 11 and microtrabeculae through hole 21 are mutually corresponding; Rack platform 1,2 surroundings are provided with the surrounding outer wall 3 matching to downward-extension and common test-tube stent outer, outer wall 3 is set to N-shaped structure, four jiaos of outer walls just form V groove structure 31 like this, and V groove structure 31 just can coordinate with the location, four angles of common test-tube stent.When microtrabeculae rack for test tube is placed on common test-tube stent, by V groove structure location, coordinate, because microtrabeculae through hole is mutually corresponding with test tube through hole, do not need just to make any adjustments and can directly use, n shape structure forms cavity structure in the surrounding of microtrabeculae rack for test tube simultaneously, lab assistant can be placed on hand at cavity place and transport microtrabeculae rack for test tube, very convenient experimenter's use.
The utility model microtrabeculae rack for test tube side is the microtrabeculae rack for test tube of N-shaped structure and the mounting structure figure of common test-tube stent and uses schematic diagram referring to Fig. 4, Fig. 5, microtrabeculae rack for test tube coordinates with the location, four angles of common test-tube stent 4 by V groove structure, the upper surface of common test-tube stent 4 both sides contacts cooperation with the lower surface of the second rack platform 2, surrounding outer wall 3 equals the height of common test-tube stent 4 to the length of downward-extension, like this microtrabeculae rack for test tube with regard to frame on common test-tube stent 4, maintain an equal level with the bottom of common test-tube stent 4, common test-tube stent 4 comprises three plates 51 layer by layer, 52, 53, often on plate, be provided with test tube through hole 5 layer by layer, and mutually corresponding, microtrabeculae through hole 11 on test tube through hole 5 and microtrabeculae rack for test tube is corresponding.In use, first test tube 8 is placed in the test tube through hole 5 of common test-tube stent 4; Solution that will be separated is contained in microtrabeculae 7, microtrabeculae 7 is placed on microtrabeculae rack for test tube, then directly microtrabeculae rack for test tube is placed on common test-tube stent 4, due to V groove and the 4 location cooperations of common test-tube stent of microtrabeculae rack for test tube, microtrabeculae 7 just can directly be aimed at test tube 8 like this, very convenient.
The utility model microtrabeculae rack for test tube V groove reeded cutaway view of structure band and with common test-tube stent installation diagram referring to Fig. 6, Fig. 7,31 li, the V groove structure that becomes at microtrabeculae rack for test tube outer wall quadrangle is provided with the groove 32 paralleling with rack platform 1,2, each V groove structure 31 is provided with 4 grooves 32, and every layer of groove 32 places that V groove structure is 31 li at grade; In groove 32 the insides, be provided with plate 6, plate 6 on every like this one deck groove 32 just forms a plane of orientation, plane of orientation coordinates with the upper surface location of common test-tube stent 4, change the relative distance of microtrabeculae rack for test tube and common test-tube stent 4, be convenient to place microtrabeculae and the test tube of different length specification.
This practical microtrabeculae rack for test tube newly providing, rack platform and surrounding outer wall are transparent material, the microtrabeculae rack for test tube that transparent material is made in use can be known and reach microtrabeculae leakage flow process, can fine monitoring experiment process.
Above microtrabeculae rack for test tube provided by the utility model is described in detail, applied specific case herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment is just for helping to understand core concept of the present utility model; , for one of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model meanwhile.