CN216301928U - Sample transport case with shock-absorbing function - Google Patents

Abstract

The utility model discloses a sample transport case with a shock absorption function, which comprises a case body; the box body consists of an outer box body and an inner box body; the outer box body and the inner box body are both provided with an open accommodating cavity, and the inner box body is arranged in the accommodating cavity of the outer box body; the inner side wall of the outer box body is connected with the outer side wall of the inner box body through a horizontal damping mechanism, and the inner bottom wall of the outer box body is connected with the outer bottom wall of the inner box body through a vertical damping mechanism; a sample placing disc is arranged in the accommodating cavity of the inner box body, a plurality of sample tube through holes are formed in the sample placing disc in a penetrating mode, and sample tube buffering mechanisms are arranged in the sample tube through holes; the sample tube buffer mechanism consists of an arc-shaped clamping plate and a first spring; the arc-shaped clamping plates are arranged with more than two groups and are respectively fixedly connected with the inner side walls of the sample tube through holes through the first springs, and a cavity for clamping the sample tube is encircled between the arc-shaped clamping plates. The utility model obviously improves the protection effect on the sample in the transportation process and is suitable for long-distance sample transportation.

Description

Sample transport case with shock-absorbing function

Technical Field

The utility model relates to the technical field of sample sampling and transporting devices, in particular to a sample transporting box with a damping function.

Background

In the field of environmental monitoring, there is a need to involve various samples, such as liquid samples, solid samples, and gas samples. For some remote sampling occasions, the method also relates to the transportation of the taken sample to a detection place, but the existing remote sample transportation device is easily disturbed by the outside during the transportation process, and no shock absorption measure or poor shock absorption effect exists. Thereby affecting the subsequent detection of the sample.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a sample transport case with a damping function, which is suitable for long-distance sample transport and has better protection on samples in the transport process.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

a sample transport case with a shock absorption function comprises a case body and a case cover hinged with the case body; the box body consists of an outer box body and an inner box body; the outer box body and the inner box body are both provided with an open accommodating cavity, and the inner box body is arranged in the accommodating cavity of the outer box body; the inner side wall of the outer box body is connected with the outer side wall of the inner box body through a horizontal damping mechanism, and the inner bottom wall of the outer box body is connected with the outer bottom wall of the inner box body through a vertical damping mechanism; a sample placing disc is arranged in the accommodating cavity of the inner box body, a plurality of sample tube through holes are formed in the sample placing disc in a penetrating mode, and sample tube buffering mechanisms are arranged in the sample tube through holes; the sample tube buffer mechanism consists of an arc-shaped clamping plate and a first spring; arc block board has arranged more than two sets of and respectively through the inside wall fixed connection of first spring with the appearance pipe through-hole, surrounds the cavity that encloses a block appearance pipe between the arc block board.

Preferably, the vertical shock-absorbing mechanism is composed of a fixing part, a first sliding part, a second sliding part, a sliding rod, a connecting rod and a second spring; the fixed part is fixed on the inner bottom wall of the outer box body, the sliding rod is sleeved with a second spring, and two end parts of the second spring are respectively connected with a first sliding part and a second sliding part; the first sliding part and the second sliding part are respectively and movably hinged with the fixed part through a connecting rod; the two connecting rods are in an inverted V shape.

Preferably, the horizontal damping mechanism is composed of a plurality of sets of third springs.

Preferably, an elastic buffer pad is arranged at the lower part of the accommodating chamber of the inner box body.

Preferably, the elastic buffer cushion is provided with a sample tube bottom accommodating groove corresponding to the sample tube through hole.

The utility model has the beneficial effects that:

according to the transporting device disclosed by the utility model, when a sample is transported, the sample is arranged in the sample tube, and the sample tube is clamped between the arc-shaped clamping plates; particularly, when the sample tube is bumped, the horizontal damping mechanism is used for buffering and filtering vibration in the horizontal direction, the vertical damping mechanism is used for filtering vibration in the vertical direction, and the sample tube buffering mechanism is used for filtering vibration in the clamping circumferential direction of the sample tube, so that the bumpy vibration of the sample tube is fully reduced. Compared with the traditional single vibration filtering mode, the utility model obviously improves the protection effect on the sample in the transportation process.

Drawings

FIG. 1 is a schematic view of the internal structure of the case of the present invention;

fig. 2 is a schematic top view of the sample-placing tray.

In the figure, 1-box, 2-outer box, 3-inner box, 4-horizontal damping mechanism, 5-vertical damping mechanism, 6-sample placing plate, 7-sample tube through hole, 8-sample tube buffer mechanism, 9-arc clamping plate, 10-first spring, 11-fixing part, 12-first sliding part, 13-second sliding part, 14-sliding rod, 15-connecting rod, 16-second spring, 17-third spring, 18-elastic buffer cushion, 19-sample tube bottom holding tank and 20-sample tube.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 and 2, a sample transport case with a shock absorption function comprises a case body 1 and a case cover hinged with the case body 1; the box body 1 consists of an outer box body 2 and an inner box body 3; the outer box body 2 and the inner box body 3 are both rectangular;

the outer box body 2 and the inner box body 3 are both provided with an open accommodating cavity, and the inner box body 3 is arranged in the accommodating cavity of the outer box body 2; the inner side wall of the outer box body 2 is connected with the outer side wall of the inner box body 3 through a horizontal damping mechanism 4, and the inner bottom wall of the outer box body 2 is connected with the outer bottom wall of the inner box body 3 through a vertical damping mechanism 5; a sample placing disc 6 is arranged in the accommodating cavity of the inner box body 3, a plurality of sample tube through holes 7 are penetratingly formed in the sample placing disc 6, and a sample tube buffer mechanism 8 is arranged in the sample tube through holes 7; the sample tube buffer mechanism 8 consists of an arc-shaped clamping plate 9 and a first spring 10; the arc-shaped clamping plates 9 are arranged with more than two groups and are respectively fixedly connected with the inner side walls of the sample tube through holes 7 through the first springs 10, and a cavity for clamping the sample tube 20 is encircled between the arc-shaped clamping plates 9. Two or three of the arc-shaped engaging plates 9 are preferably provided.

Preferably, the vertical shock absorbing mechanism 5 is composed of a fixing portion 11, a first sliding portion 12, a second sliding portion 13, a sliding rod 14, a connecting rod 15 and a second spring 16; the fixed part 11 is fixed on the inner bottom wall of the outer box body 2, a second spring 16 is sleeved on the sliding rod 14, and two ends of the second spring are respectively connected with a first sliding part 12 and a second sliding part 13; the first sliding part 12 and the second sliding part 13 are respectively articulated with the fixed part 11 through a connecting rod 15; the two connecting rods 15 are in an inverted V shape.

Adopt above-mentioned design, when box 1 received the ascending jolt of vertical direction, interior box 3 was in the in-process of downstream, made two angle between connecting rod 15 becomes bigger, and the both ends of second spring 16 receive first sliding part 12 and the gliding effect in the outside of second sliding part 13 to being pulled up, and then realizing straining the shake on the horizontal direction to jolt in vertical direction, this kind of mode strain the shake effect better.

Preferably, the horizontal damping mechanism 4 is composed of a plurality of sets of third springs 17.

Preferably, in order to further protect the sample tube 20, the lower portion of the containing chamber of the inner case 3 is provided with an elastic buffer 18.

Preferably, in order to better fit the bottom end of the sample tube 20 and facilitate the placement of the bottom end of the sample tube, the elastic buffer pad 18 is provided with a sample tube bottom end accommodating groove 19 corresponding to the sample tube through hole 7.

The working principle of the utility model is as follows:

when a sample is transported, the sample is arranged in a sample tube, and the sample tube is clamped between the arc-shaped clamping plates; particularly, when the sample tube is bumped, the horizontal damping mechanism is used for buffering and filtering vibration in the horizontal direction, the vertical damping mechanism is used for filtering vibration in the vertical direction, and the sample tube buffering mechanism is used for filtering vibration in the clamping circumferential direction of the sample tube, so that the bumpy vibration of the sample tube is fully reduced. Compared with the traditional single vibration filtering mode, the utility model obviously improves the protection effect on the sample in the transportation process.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, and the scope of protection is still within the scope of the utility model.

Claims (5)

1. A sample transport case with a shock absorption function comprises a case body (1) and a case cover hinged with the case body (1); the method is characterized in that: the box body (1) consists of an outer box body (2) and an inner box body (3); the outer box body (2) and the inner box body (3) are both provided with an open accommodating cavity, and the inner box body (3) is arranged in the accommodating cavity of the outer box body (2); the inner side wall of the outer box body (2) is connected with the outer side wall of the inner box body (3) through a horizontal damping mechanism (4), and the inner bottom wall of the outer box body (2) is connected with the outer bottom wall of the inner box body (3) through a vertical damping mechanism (5); a sample placing disc (6) is arranged in the accommodating cavity of the inner box body (3), a plurality of sample tube through holes (7) are formed in the sample placing disc (6) in a penetrating mode, and a sample tube buffering mechanism (8) is arranged in each sample tube through hole (7); the sample tube buffer mechanism (8) consists of an arc-shaped clamping plate (9) and a first spring (10); arc block board (9) have arranged more than two sets ofly and respectively through first spring (10) and the inside wall fixed connection of sample pipe through-hole (7), enclose the cavity of a block sample pipe (20) between arc block board (9).

2. The sample transport case with shock-absorbing function as set forth in claim 1, wherein: the vertical damping mechanism (5) consists of a fixing part (11), a first sliding part (12), a second sliding part (13), a sliding rod (14), a connecting rod (15) and a second spring (16); the fixed part (11) is fixed on the inner bottom wall of the outer box body (2), a second spring (16) is sleeved on the sliding rod (14), and two ends of the second spring are respectively connected with a first sliding part (12) and a second sliding part (13); the first sliding part (12) and the second sliding part (13) are respectively and movably hinged with the fixed part (11) through a connecting rod (15); the two connecting rods (15) are in an inverted splayed shape.

3. A specimen transport case having a shock-absorbing function according to claim 1 or 2, characterized in that: the horizontal damping mechanism (4) is composed of a plurality of groups of third springs (17).

4. The sample transport case with shock-absorbing function as set forth in claim 3, wherein: an elastic buffer cushion (18) is arranged at the lower part of the containing chamber of the inner box body (3).

5. The sample transport case with shock-absorbing function as set forth in claim 4, wherein: and a sample tube bottom accommodating groove (19) is formed in the elastic buffer pad (18) corresponding to the sample tube through hole (7).

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