KR20100099825A - Supporter for experimental vessel - Google Patents

Abstract

The present invention relates to a pedestal for mounting a plurality of rectangular experimental containers for storing various samples, such as blood, more specifically, the upper plate 10 having a plurality of insertion holes 11 and the position facing the insertion hole The lower plate 20 having a seating groove 21 in the up and down, but the support bar between the upper and lower plates vertically assembled by the insertion hole 11 and the seating groove of the upper and lower plates to the experimental container (5) Insert the seats respectively, the lower plate 20 is formed in the bottom surface 25 in which the seating groove 21 is formed in multiple stages to seat the insertion hole 11 and the upper and lower plates 10, 20 Since each experimental container 5 inserted into the groove 21 is provided to form a height difference, the height difference of the test container provides convenience of use due to the ease of detachment, as well as excellent compactness of the mold and mold moldability. That There is a characteristic.

Description

Support for experimental vessels {Supporter for experimental vessel}

The present invention relates to a pedestal for mounting a large number of rectangular test containers for storing various samples such as blood, and more specifically, the test container is inserted into the plurality of insertion holes and seating grooves formed in the upper and lower plates to be seated, The height of the seating groove of the plate is formed in a multi-stage structure, and it relates to a pedestal for an experiment container provided with excellent mold formability as well as ease of use due to ease of detachment due to height deviation of each test container.

In general, hospitals, other medical institutions or institutions that mainly conduct various experiments collect various samples such as blood and store and store them in rectangular experimental containers.

Such a test container is to be used to stand and install a large number of standing in a separate pedestal because of the risk of falling easily stand-alone installation or easy fall.

1 and 2, the conventional experimental container support is configured to be coupled to the upper and lower plates (2) and 3 to be spaced apart from the support bar (4), the upper and lower plates in the insertion hole (2a) and the seating groove (3a) is formed in a number of opposing position by inserting the test vessel (5) into each insertion hole (2a) and the seating groove (3a) to be used for seating.

At this time, the support bar (4) is formed to extend to the outside of the upper plate (2) is to be assembled to connect to the vertical assembly to the lower plate (3).

However, the conventional experimental container pedestal has the following problems.

First, since each of the seating recesses 3a of the lower plate 3 are formed at the same height, the lab vessels 5 are positioned at the same height when the lab vessels 5 are inserted and used, respectively. It was difficult to grip).

That is, it was very inconvenient to insert and withdraw the experiment container 5.

In addition, since the support bar 4 formed integrally with the upper plate extends to the outside of the upper plate 2, the size of the mold for forming the upper plate is largely required, and thus the injection moldability of the upper plate is required. There was a very difficult problem.

The present invention has been invented to solve the above problems with the prior art, while inserting a rectangular test container into a plurality of insertion holes and seating grooves formed opposite to the upper and lower plates, the height of the seating groove of the lower plate is multi-stage structure The purpose of the present invention is to provide excellent mold formability as well as ease of use due to ease of detachment due to the height difference of each test container.

In addition, an object of the present invention is to provide a more excellent use convenience by detachably configured a name plate for displaying a group of samples to be stored in the experimental container.

This invention,

Comprising an upper plate having a plurality of insertion holes and a lower plate having a seating groove in a position opposite to the insertion hole, by vertically assembling the support bar between the upper and lower plates to the insertion hole and the seating groove of the upper and lower plates. Each of the test vessels inserted into the rectangular test container is inserted into the seat, and the bottom plate has a bottom surface in which the seating groove is formed in multiple stages. There is this.

The lower plate of the present invention is characterized in that it is cut into the same length in the space between the seating grooves to form a plurality of vertical foldable vertical bars to be inserted into the assembly hole of the upper plate to assemble vertically.

Between the vertical bars of the present invention is characterized in that the name plate having a coupler is inserted into the vertical bar and supported by the vertical bar up and down, left and right to attach and detach.

The present invention is inserted into the test container with a plurality of insertion holes and seating grooves formed opposite to the upper and lower plates, the height of the seating groove of the lower plate is formed in a multi-stage structure to be used in accordance with the ease of removal by the height difference of each test container. Convenience, of course, the support bar is not formed to extend to the outside of the plate as in the prior art, it is formed by utilizing a space where the seating groove is not formed on the inside, and the name plate is detachably configured for ease of use, compactness of the mold, mold moldability It is to have the effect of providing excellent.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

That is, the pedestal for the experiment container of the present invention, as shown in Figure 3 to 7, the upper plate 10 having a plurality of insertion holes 11, and the seating groove 21 in a position opposite to the insertion hole The lower plate 20 having the upper and lower sides, but the vertical support bar between the upper and lower plates to vertically mount the rectangular test vessel 5 into the insertion hole 11 and the seating groove of the upper and lower plates, respectively. It is composed.

At this time, the lower plate 20 is formed by the bottom surface 25 in which the seating grooves 21 are formed in multiple stages, the insertion hole 11 and the seating grooves 21 of the upper and lower plates 10 and 20. Each test vessel 5 is inserted into the installation is made to form a height difference.

Of course, the bottom surface of the lower plate 20 may be formed in the same surface and only the height of the seating groove 21 may be formed in multiple stages, but this is included in the range of equality.

 In addition, the lower plate 20 is cut to the same length in the space between the seating groove 21 to form a plurality of vertically foldable vertical bar 22 to be inserted into the assembly hole 12 of the upper plate 10 vertically Configured to assemble.

In addition, between the plurality of vertical bars (22, 22) is provided so that the name plate 50 having a coupling hole 52 is inserted into and supported in the vertical bar up, down, left, and right.

Hereinafter, the operation and operation of the present invention will be described.

First, the present invention is formed by forming the support bar 22 as a space between the seating grooves 21 of the lower plate 20 to be cut and used vertically folded, thereby miniaturizing the mold compared to extending to the outside of the conventional upper plate. Of course, by providing excellent moldability of the mold is to increase the productability of the product.

The pedestal of the present invention assembling the upper and lower plates 10, 20 to face up and down spaced apart, the vertical plate 22 formed in the inner side of the lower plate 20, the upper plate (bending and bending) It is to be assembled by inserting into the assembly hole 12 of 10).

The pedestal of the present invention assembled as described above is used to insert and support various test containers 5 through the insertion hole 11 of the upper plate 10 to be seated and supported in the seating groove 21 of the lower plate 20. .

In particular, since the seating grooves 21 of the lower plate 20 are formed in a multi-stage structure having different heights of the bottom surface 25, when the plurality of test containers 5 are densely inserted into the seating grooves, Experiment container 5 is to form a multi-level projecting height.

That is, since the upper and lower heights of the plurality of test vessels 5 protrude in a multi-stage form, a space for allowing the user to individually hold adjacent test vessels 5 is secured so that the detachable use is simply provided.

In addition, the pedestal of the present invention indicates the group of the sample stored in the experimental container (5) between the vertical bars (22, 22) to provide a name plate 50 to facilitate the separation between the coupling sphere 52 This is because it is used to detachable to the vertical bar is to provide excellent ease of use.

In addition, the present invention since the insertion hole 11 and the seating groove 21 of the upper and lower plates 10 and 20 are collectively formed in a single or various sizes, so that the diameter of the test vessel 5 to be installed is a single type or multiple. It is to be able to mount the kind intensively.

1 is a plan view showing a conventional pedestal.

Figure 2 is a side cross-sectional view showing an assembled state of a conventional pedestal.

3 is a plan view showing a pedestal of the present invention.

Figure 4 is a side cross-sectional view showing a pedestal of the present invention.

Figure 5 is a side cross-sectional view showing a state of use of the present invention.

Figure 6 is a front view showing a state in which the nameplate of the present invention is coupled.

7 is a perspective view showing the nameplate of FIG.

** Description of the symbols for the main parts of the drawings **

10: upper plate 11: insertion hole

20: lower plate 21: seating groove

25: bottom 22: vertical bar

12: Assemblyman 50: Nameplate

Claims (3)

The upper plate 10 having a plurality of insertion holes 11 and the lower plate 20 having a seating groove 21 at a position opposite to the insertion hole is configured up and down, but the support bar between the upper and lower plates In the pedestal for mounting and mounting the rectangular test vessel (5) into the vertical insertion hole 11 and the seating groove of the upper and lower plates, respectively, The lower plate 20 forms the bottom surface 25 in which the seating grooves 21 are formed in multiple stages and is inserted into the insertion hole 11 and the seating grooves 21 of the upper and lower plates 10 and 20. Pedestal for experiment vessel, characterized in that each experiment vessel 5 is installed to form a height deviation. The method of claim 1, The lower plate 20 is cut to the same length in the space between the seating groove 21 to form a plurality of vertical foldable vertical bar 22 to be inserted into the assembly hole 12 of the upper plate 10 to assemble vertically Pedestal for experiment vessel, characterized in that made. The method according to claim 1 or 2, Between the vertical bars (22) and (22), a pedestal for experiment container, characterized in that it is configured to be detachably used by providing a name plate (50) having a coupling sphere 52 is inserted into and supported in the vertical bar vertically .

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