CN216612151U - Geological exploration sample strorage device - Google Patents

Abstract

The utility model relates to a geological exploration sample storage device, and belongs to the technical field of geological exploration. The utility model aims to solve the problem of disordered sample storage. Including outer box body and interior cavity, interior cavity sets up in outer box body, and the internal separator that has arranged of interior cavity, sample storage bottle place on the separator, and the side of outer box body articulates there is the side door. This device is convenient for the sample to get and is used the classification.

Description

Geological exploration sample strorage device

Technical Field

The utility model relates to a geological exploration sample storage device, and belongs to the technical field of geological exploration.

Background

The geological exploration needs to depend on a soil sample, so the collection and storage of the soil sample are basic materials for geological exploration research, and the geological exploration sample storage device provides reliable technical support for geological exploration work. The geological exploration sample storage device is mainly used for storing soil samples collected by soil environment investigation, soil component scientific research, river and lake sediment geological samples and the like, and in order to avoid sample pollution, a sample bottle for containing soil is a specially-made lead-free glass bottle. Most of geological exploration sample strorage device is the box of a switch, and the sample is deposited the confusion, and it is unfavorable for the sample to take the classification.

Therefore, there is a need to provide a device for storing samples for geological exploration, which solves the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem of disordered sample storage. The following presents a simplified summary of the utility model in order to provide a basic understanding of some aspects of the utility model. It should be understood that this summary is not an exhaustive overview of the utility model. It is not intended to determine the key or critical elements of the present invention, nor is it intended to limit the scope of the present invention.

The technical scheme of the utility model is as follows:

the utility model provides a geological exploration sample strorage device, includes outer box body and interior cavity, interior cavity sets up in outer box body, and interior cavity is internal to be arranged with the separator, and sample storage bottle places on the separator, and the side of outer box body articulates there is the side door.

Preferably: the separators are partition plates, and a plurality of separators are arranged in a longitudinal array.

Preferably: the separator includes bottom baffle, bottom connecting rod, middle level baffle, middle level connecting rod, upper baffle and limit stop, and the lateral wall of interior cavity is provided with the spout, and is three the limit stop array is arranged in the spout, and limit stop corresponds the position from the bottom up and articulates in order has bottom baffle, middle level baffle, upper baffle, and the inner of bottom baffle, middle level baffle, upper baffle is located corresponding limit stop top, and the lower extreme and the bottom baffle outer end sliding connection of bottom connecting rod, the upper end and the middle level baffle outer end of bottom connecting rod are articulated, the lower extreme of middle level connecting rod and the outer end sliding connection of middle level baffle, and the upper end of middle level connecting rod is articulated with the outer end of upper baffle, and the length of bottom connecting rod is greater than the length of middle level connecting rod, the upper portion of outer box is provided with deposits the mouth, deposits the mouth and corresponds the setting with interior cavity.

Preferably: interior cavity is the U type, and the U type opening part of interior cavity corresponds the setting with the side door, and the lateral wall and the sample of interior cavity are deposited bottle profile modeling and are set up, and the lateral wall equipartition of interior cavity has three spout, and the separator corresponds the setting with the spout, deposits the mouth and deposits bottle profile modeling according to the sample.

Preferably: and a cover plate is arranged at the storage opening.

Preferably: the upper part of the outer box body is provided with a rotating shaft, and the cover plate is arranged on the upper part of the storage opening through the rotating shaft and covers the storage opening.

The utility model has the following beneficial effects:

the device is convenient for taking, using and classifying samples;

the device enables the sample storage bottles to be orderly stored in the device on the premise of not opening the side door, so that the sample storage bottles are prevented from falling off when being loaded into the device, and the device is convenient to arrange and store;

when the device takes out a sample, the storage of other interlayer sample storage bottles is not influenced, and the placement of the sample is clear at a glance.

Drawings

FIG. 1 is a perspective view of a geological survey sample storage device;

FIG. 2 is a top view of the internal cavity;

FIG. 3 is a cross-sectional view of FIG. 2;

FIG. 4 is a schematic view of the structure of the separator;

in the figure, 1-outer box, 2-inner box, 3-sample storage bottle, 11-cover plate, 12-storage opening, 13-side door, 21-sliding groove, 22-separating part, 221-bottom layer partition, 222-bottom layer connecting rod, 223-middle layer partition, 224-middle layer connecting rod, 225-upper layer partition, 226-limit stop.

Detailed Description

In order that the objects, aspects and advantages of the utility model will become more apparent, the utility model will be described by way of example only, and in connection with the accompanying drawings. It is to be understood that such description is merely illustrative and not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The first embodiment is as follows: the geological exploration sample storage device comprises an outer box body 1 and an inner cavity body 2, wherein the inner cavity body 2 is arranged in the outer box body 1, a partition 22 is arranged in the inner cavity body 2, a sample storage bottle 3 is placed on the partition, a side door 13 is hinged to the side face of the outer box body 1, the partition 22 is a partition, and a plurality of partitions 22 are longitudinally arranged in an array and are inserted into the inner cavity body 2 and divide the inner cavity body 2 into a plurality of storage cavities; the sample is convenient to take, use and classify.

The second embodiment is as follows: the embodiment is described with reference to fig. 1 to 3, and the geological exploration sample storage device of the embodiment comprises an outer box body 1 and an inner box body 2, wherein the inner box body 2 is arranged in the outer box body 1, a partition 22 is arranged in the inner box body 2, a sample storage bottle 3 is arranged on the partition, one end of the side surface of the outer box body 1 is hinged to one end of the side surface of a side door 13, the other end of the side surface of the outer box body 1 is connected to the other end of the side surface of the side door 13 through a door lock, the partition 22 comprises a bottom partition 221, a bottom connecting rod 222, a middle partition 223, a middle connecting rod 224, an upper partition 225 and limit stops 226, the side wall of the inner box body 2 is provided with a chute 21, three limit stops 226 are arranged in the chute 21 in an array manner, and the corresponding positions of the limit stops 226 are sequentially hinged to a bottom partition 221, a middle partition 223, an upper partition 225, a bottom partition 221, a middle partition 223 and a middle partition 223, The inner end of the upper layer clapboard 225 is positioned above the corresponding limit stop 226, the lower end of the bottom connecting rod 222 is connected with the outer end of the bottom clapboard 221 in a sliding way, the upper end of the bottom connecting rod 222 is hinged with the outer end of the middle layer clapboard 223, the lower end of the middle layer connecting rod 224 is connected with the outer end of the middle layer clapboard 223 in a sliding way, the upper end of the middle layer connecting rod 224 is hinged with the outer end of the upper layer clapboard 225, the length of the bottom connecting rod 222 is larger than that of the middle layer connecting rod 224, the upper part of the outer box 1 is provided with a storage port 12, the storage port 12 is arranged corresponding to the inner cavity 2, the inner cavity 2 is U-shaped, the U-shaped opening of the inner cavity 2 is arranged corresponding to the side door 13, the side wall of the inner cavity 2 is arranged in a shape-copying way with the sample storage bottle 3, the side wall of the inner cavity 2 is uniformly distributed with three sliding grooves 21, the separating component 22 is arranged corresponding to the sliding grooves 21, the storage port 12 is processed in a shape according to the sample storage bottle 3, the storage port 12 is provided with a cover plate 11, the upper part of the outer box body 1 is provided with a rotating shaft, and the cover plate 11 is arranged on the upper part of the storage opening 12 through the rotating shaft and covers the storage opening 12; the cover plate 11 is rotated to open the storage port 12, the sample is put into the inner cavity 2 through the storage port 12, the sample storage bottle 3 keeps a stable state and moves downwards under the limit action of the side door 13 and the inner cavity 2 until the sample storage bottle 3 contacts with the inner end of the bottom layer partition 221 and presses the inner end of the bottom layer partition 221, the outer end of the bottom layer partition 221 pushes the inner end of the middle layer partition 223 to enter the inner cavity 2 through the bottom layer connecting rod 222, meanwhile, the upper layer partition 225 rotates through the middle layer connecting rod 224, but the inner end of the upper layer partition 225 is positioned in the sliding chute 21, the next sample storage bottle 3 is put in to press the inner end of the middle layer partition 223, the rotation angle of the middle layer partition 223 is increased, the rotation angle of the upper layer partition 225 is increased, the inner end of the upper layer partition 225 extends into the inner cavity 2, and the sample storage bottles 3 are orderly stored in the device in sequence on the premise of not opening the side door 13, the sample storage bottle 3 is prevented from falling when the sample storage bottle 3 is loaded into the device, so that the sample storage bottle 3 is convenient to arrange and store; the limit stopper 226 limits the rotation of the partition, and when a sample is taken out, the side door 13 is opened, so that the storage of other interlayer sample storage bottles 3 is not affected when the sample storage bottle 3 is taken out.

It should be noted that, in the above embodiments, as long as the technical solutions can be aligned and combined without contradiction, those skilled in the art can exhaust all possibilities according to the mathematical knowledge of the alignment and combination, and therefore, the present invention does not describe the technical solutions after alignment and combination one by one, but it should be understood that the technical solutions after alignment and combination have been disclosed by the present invention.

This embodiment is only illustrative of the patent and does not limit the scope of protection thereof, and those skilled in the art can make modifications to its part without departing from the spirit of the patent.

Claims (6)

1. A geological exploration sample storage device which is characterized in that: including outer box body (1) and interior cavity (2), interior cavity (2) set up in outer box body (1), have arranged separator (22) in interior cavity (2), and sample storage bottle (3) are placed on separator (22), and the side of outer box body (1) articulates there is side door (13).

2. A geological survey sample storage device as recited in claim 1, wherein: the separators (22) are partition plates, and a plurality of separators (22) are arranged in a longitudinal array.

3. A geological survey sample storage device as recited in claim 1, wherein: the partition (22) comprises a bottom partition (221), a bottom connecting rod (222), a middle partition (223), a middle connecting rod (224), an upper partition (225) and limit stops (226), a sliding groove (21) is formed in the side wall of the inner cavity (2), the three limit stops (226) are arranged in the sliding groove (21) in an array mode, the corresponding positions of the limit stops (226) are sequentially hinged to the bottom partition (221), the middle partition (223) and the upper partition (225) from bottom to top, the inner ends of the bottom partition (221), the middle partition (223) and the upper partition (225) are located above the corresponding limit stops (226), the lower end of the bottom connecting rod (222) is connected with the outer end of the bottom partition (221) in a sliding mode, the upper end of the bottom connecting rod (222) is hinged to the outer end of the middle partition (223), the lower end of the middle connecting rod (224) is connected with the outer end of the middle partition (223) in a sliding mode, the upper end of the middle layer connecting rod (224) is hinged with the outer end of the upper layer clapboard (225), the length of the bottom layer connecting rod (222) is larger than that of the middle layer connecting rod (224), the upper part of the outer box body (1) is provided with a storage opening (12), and the storage opening (12) is arranged corresponding to the inner cavity body (2).

4. A geological survey sample storage device as recited in claim 3, wherein: interior cavity (2) are the U type, and the U type opening part and side door (13) of interior cavity (2) correspond the setting, and the lateral wall and the sample of interior cavity (2) are deposited bottle (3) profile modeling and are set up, and the lateral wall equipartition of interior cavity (2) has three spout (21), and separator (22) correspond the setting with spout (21), deposit mouth (12) and deposit bottle (3) profile modeling according to the sample.

5. A geological survey sample storage device as defined in claim 3 or 4, wherein: a cover plate (11) is arranged at the storage port (12).

6. A geological survey sample storage device as recited in claim 5, wherein: the upper part of the outer box body (1) is provided with a rotating shaft, and the cover plate (11) is arranged on the upper part of the storage opening (12) through the rotating shaft and covers the storage opening (12).

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