CN221317319U

CN221317319U - Sample storage device for environmental monitoring

Info

Publication number: CN221317319U
Application number: CN202323048140.XU
Authority: CN
Inventors: 杨凤娥; 廖莉; 周字能; 杨萍萍
Original assignee: Yunnan Provincial Department Of Ecology And Environment Stationed At Dali Prefecture Ecological Environment Monitoring Station
Current assignee: Yunnan Provincial Department Of Ecology And Environment Stationed At Dali Prefecture Ecological Environment Monitoring Station
Priority date: 2023-11-10
Filing date: 2023-11-10
Publication date: 2024-07-12
Anticipated expiration: 2033-11-10

Abstract

The utility model belongs to the technical field of sample storage devices, and particularly discloses a sample storage device for environmental monitoring, which comprises an outer box body and a box cover hinged to the top of the outer box body; the inner part of the outer box body is integrally connected with the inner box body, the lower part of the inner box body is hollow, and the hollow part is longitudinally and slidably connected with a bearing seat; the inner box body is provided with a storage hole corresponding to the bearing seat, a clamping mechanism which is adaptive to the size of the sample bottle is arranged in the storage hole, and a damping mechanism is also arranged at the bottom of the storage hole in the bearing seat; lifting connecting rods are arranged on two sides of the inner surface of the box cover corresponding to two sides of the bearing seat, and the bearing seat is lifted in the inner box body when the box cover is opened. The utility model can orderly classify and store the sample bottles with different sizes, is convenient to take during detection, can perform shock absorption protection on the samples, and avoids sample damage caused by collision.

Description

Sample storage device for environmental monitoring

Technical Field

The utility model belongs to the technical field of sample storage devices, and particularly relates to a sample storage device for environmental monitoring.

Background

Environmental monitoring refers to determining environmental quality and its trend by measuring representative values of factors affecting environmental quality. The main means of environmental monitoring include physical means, chemical means and biological means, and the environmental monitoring is to track the change of environmental quality and determine the environmental quality level by detecting the content and the discharge amount of various substances which have influence on human beings and the environment, thus providing foundation and guarantee for the work of environmental management, pollution control and the like.

Because of the large environmental monitoring range, a large number of samples are required and tested to determine the data, so that a large number of sampled samples need to be stored. The existing storage device stacks sample bottles with different sizes in the storage device, samples are chaotic, inconvenient to take during detection, samples cannot be protected effectively, and the sample bottles are easy to collide with each other during moving and transferring to cause sample damage.

Disclosure of utility model

In order to solve the technical problems, the utility model designs the sample storage device for environment monitoring, which can orderly store sample bottles with different sizes in a classified manner, is convenient to take during detection, can perform shock absorption protection on samples, and can avoid sample damage caused by collision.

In order to achieve the technical purpose, the utility model is realized by the following technical scheme: the sample storage device for environmental monitoring comprises an outer box body and a box cover hinged to the top of the outer box body;

The inner part of the outer box body is integrally connected with the inner box body, the lower part of the inner box body is hollow, and the hollow part is longitudinally and slidably connected with a bearing seat; the inner box body is provided with a storage hole corresponding to the bearing seat, a clamping mechanism which is adaptive to the size of the sample bottle is arranged in the storage hole, and a damping mechanism is also arranged at the bottom of the storage hole in the bearing seat;

Lifting connecting rods are arranged on two sides of the inner surface of the box cover corresponding to two sides of the bearing seat and are connected, and the bearing seat is lifted in the inner box body when the box cover is opened.

Preferably, the peripheral surface of the hollow part of the lower part of the inner box body is provided with sliding grooves, the sliding grooves corresponding to the lifting connecting rod sides penetrate through the sliding grooves, and the bearing seat is in sliding connection with the sliding grooves through sliding blocks arranged on the peripheral surface; the bottom of the inner box body is also provided with a buffer cushion.

Preferably, the lifting connecting rod comprises a first connecting rod, a second connecting rod and a third connecting rod, the head end of the first connecting rod is hinged with a sliding block on the side face of the bearing seat, the tail end of the first connecting rod is hinged with the head end of the second connecting rod, the tail end of the second connecting rod is hinged with a connecting seat arranged on the inner wall of the outer box body, the head end of the third connecting rod is hinged with the second connecting rod close to the head end, and the tail end of the third connecting rod is hinged with the edge of the inner surface of the box cover.

Preferably, a torsion spring is further arranged at the joint of the tail end of the second connecting rod and the connecting seat hinge arranged on the inner wall of the outer box body, and the torsion spring returns to the initial state and turns to the opening direction of the box cover.

Preferably, the storage hole is respectively provided with a large-aperture sample bottle hole and a small-aperture sample tube hole, and a label is arranged beside the sample bottle hole on the top surface of the inner box body.

Preferably, the clamping mechanism comprises telescopic columns symmetrically arranged on two sides of the storage hole and clamping pieces connected with the tail ends of the telescopic columns, the clamping pieces are arranged to be in arc contact with the sample bottle, and the telescopic columns support the clamping pieces to clamp the sample bottle.

Preferably, the telescopic column comprises a loop bar, a telescopic bar and a telescopic spring, wherein the loop bar is connected with the inner wall of the storage hole, and the telescopic bar is connected inside the loop bar in a sliding manner through the telescopic spring.

Preferably, the damping mechanism comprises a baffle plate and a damping spring, the baffle plate is connected to the bottom of the storage hole in the bearing seat through the damping spring, and the baffle plate bears the sample bottle.

Preferably, a lock catch is arranged on the opposite side of the outer box body and the hinged box cover and is connected with a lock pin arranged on the box cover; the case cover is also provided with a handle.

The beneficial effects of the utility model are as follows:

(1) Storage hole that corresponds to bear the seat through interior box and offer carries out orderly placement storage with the sample bottle, is provided with the fixture of self-adaptation sample bottle size in the storage hole, carries out the centre gripping with the sample bottle of equidimension not fixed, avoids rocking the collision about, and the inside storage hole bottom of bearing the seat still is provided with damper simultaneously, carries out the shock attenuation protection of vertical direction to the sample, avoids rocking the collision from top to bottom and leads to the sample damage.

(2) The bearing seat is connected with the hollow part at the lower part of the inner box body in a sliding manner, lifting connecting rods are arranged at two sides of the inner surface of the box cover, corresponding to the two sides of the bearing seat, and are connected, when the box cover is opened, the bearing seat is driven to lift up by the lifting connecting rods, the top of the sample bottle placed in the storage hole is pushed out of the inner box body, and samples are taken during detection conveniently.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the drawings used for the description of the embodiments are briefly described below.

FIG. 1 is a schematic diagram of the overall axial structure of the present utility model;

FIG. 2 is a schematic diagram of the overall side view, internal perspective, structure of the present utility model;

FIG. 3 is a schematic view of the partial structure at A in FIG. 2;

FIG. 4 is a schematic diagram of the overall upper view of the present utility model;

FIG. 5 is a schematic view of the cross-sectional structure of A-A in FIG. 4;

FIG. 6 is a schematic view of the internal structure of the telescopic column of the present utility model;

In the drawings, the structural names represented by the reference numerals are as follows:

the novel anti-vibration box comprises a 1-outer box body, a 101-lock catch, a 102-connecting seat, a 2-inner box body, a 201-sliding groove, a 202-buffer cushion, a 3-bearing seat, a 4-lifting connecting rod, a 401-first connecting rod, a 402-second connecting rod, a 403-third connecting rod, a 404-torsion spring, a 5-box cover, a 501-lock catch, a 502-handle, a 6-storage hole, a 601-tag, a 7-telescopic column, a 701-loop bar, a 702-telescopic bar, a 703-telescopic spring, an 8-clamping piece, a 9-baffle plate and a 10-damping spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. In addition, the technical features of the respective embodiments described below may be combined with each other as long as they do not collide with each other.

Example 1

In order to solve when carrying out environmental monitoring sample, the present storage device all stacks the sample bottle that the size is different in storage device, and the sample is chaotic, can not effectually protect the sample, and the easy problem that collides each other and lead to the sample to damage between the sample bottle when removing the transfer. Referring to fig. 1, 4 to 6, a sample storage device for environmental monitoring is provided, which comprises an outer case 1, and a case cover 5 hinged on the top of the outer case 1;

The inner part of the outer box body 1 is integrally connected with the inner box body 2, the lower part of the inner box body 2 is hollow, and the hollow part is connected with a bearing seat 3; the inner box body 2 is provided with a storage hole 6 corresponding to the bearing seat 3, a clamping mechanism which is adaptive to the size of a sample bottle is arranged in the storage hole 6, the clamping mechanism comprises telescopic columns 7 symmetrically arranged on two sides of the storage hole 6 and clamping pieces 8 connected with the tail ends of the telescopic columns 7, the clamping pieces 8 are arranged to be in arc contact with the sample bottle, the telescopic columns 7 support the clamping pieces 8 to clamp the sample bottle, the telescopic columns 7 comprise a sleeve rod 701, a telescopic rod 702 and a telescopic spring 703, the sleeve rod 701 is connected with the inner wall of the storage hole 6, and the telescopic rod 702 is connected inside the sleeve rod 701 in a sliding manner through the telescopic spring 703; the bottom of the storage hole 6 in the bearing seat 3 is also provided with a damping mechanism; the damping mechanism comprises a baffle plate 9 and a damping spring 10, the baffle plate 9 is connected to the bottom of the storage hole 6 in the bearing seat 3 through the damping spring 10, and the baffle plate 9 bears a sample bottle.

Storage hole 6 that corresponds to bear seat 3 through interior box 2 carries out orderly placing and stores the sample bottle, under the flexible circumstances of telescopic link 702 self-adaptation is supported to telescopic spring 703 of telescopic column 7 in the storage hole 6, centre gripping piece 8 carries out the centre gripping with the not sample bottle of equidimension fixedly, avoids rocking the collision side by side, and baffle 9 of the inside storage hole 6 bottom of bearing seat 3 bear the sample bottle simultaneously under damping spring 10's support, carries out the shock attenuation protection of vertical direction to the sample, avoids rocking the collision from top to bottom and leads to the sample damage.

In order to make the sample scope of storing wider, set up the sample bottle hole of big aperture and the sample tube hole of aperture respectively with the apopore 6, can place not unidimensional sample bottle and sample tube respectively, the sample bottle hole side of interior box 2 top surface still is provided with the tag 601, is convenient for carry out the classification discernment of sample.

In order to facilitate the sealing of the box body, the whole device is convenient to carry, a lock catch 101 is arranged on the opposite side of the outer box body 1 and the hinged box cover 5 and is connected with a lock pin 501 arranged on the box cover 5, so that the box body is locked; in order to facilitate manual control of opening and closing of the cover 5, a handle 502 is further provided on the cover 5.

Example 2

On the basis of embodiment 1, in order to solve the problem that the sample is inconvenient to take, referring to fig. 2 to 3, in this embodiment, the peripheral surface of the hollow portion of the lower portion of the inner box 2 is provided with a chute 201, and the chute 201 corresponding to the lifting connecting rod 4 side is a through chute 201, and the bearing seat 3 is slidably connected with the chute 201 through a sliding block provided on the peripheral surface; lifting connecting rods 4 are arranged on two sides of the inner surface of the box cover 5 corresponding to two sides of the bearing seat 3 and are connected, and the bearing seat 3 is lifted in the inner box body 2 when the box cover 5 is opened.

The lifting connecting rod 4 comprises a first connecting rod 401, a second connecting rod 402 and a third connecting rod 403, wherein the head end of the first connecting rod 401 is hinged with a sliding block on the side face of the bearing seat 3, the tail end of the first connecting rod 401 is hinged with the head end of the second connecting rod 402, the tail end of the second connecting rod 402 is hinged with the connecting seat 102 arranged on the inner wall of the outer box body 1, the head end of the third connecting rod 403 is hinged with the position, close to the head end, of the second connecting rod 402, and the tail end of the third connecting rod 403 is hinged with the edge of the inner surface of the box cover 5.

When the case lid 5 is opened, the third connecting rod 403 follows the rotation of the case lid 5 and generates displacement in the vertical direction, so that the second connecting rod 402 is driven to rotate at the position hinged with the connecting seat 102, and the second connecting rod 402 also generates displacement in the vertical direction, so that the first connecting rod 401 is driven to generate displacement in the vertical direction, the bearing seat 3 can only generate displacement in the vertical direction under the connection of the sliding block of the bearing seat 3 and the sliding groove 201 of the inner case 2, so that the bearing seat 3 is lifted in the inner case 2, and the top of the sample bottle in the storage hole 6 is pushed out of the inner case 2, so that the taking detection is facilitated.

In order to make the operator more relaxed when lifting the case cover 5, a torsion spring 404 is further provided at the hinge joint of the end of the second link 402 and the connection seat 102 provided at the inner wall of the outer case 1, and the torsion spring 404 returns to the original state to turn to the direction in which the case cover 5 is opened, so that the torsion spring 404 provides a turning assistance in the opening direction when the case cover 5 needs to be opened.

In order to further alleviate the shock of the storage hole 6 in the carrying seat 3 when the carrying seat 3 is lifted, a buffer pad 202 is further provided at the bottom of the inner case 2.

The preferred embodiments of the utility model disclosed above are intended only to assist in the explanation of the utility model. The preferred embodiments are not exhaustive or to limit the utility model to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching.

Claims

1. The sample storage device for environmental monitoring comprises an outer box body (1) and a box cover (5) hinged to the top of the outer box body (1); the method is characterized in that:

The inner part of the outer box body (1) is integrally connected with the inner box body (2), the lower part of the inner box body (2) is hollow, and the hollow part is longitudinally and slidably connected with a bearing seat (3); the inner box body (2) is provided with a storage hole (6) corresponding to the bearing seat (3), a clamping mechanism which is adaptive to the size of the sample bottle is arranged in the storage hole (6), and a damping mechanism is also arranged at the bottom of the storage hole (6) in the bearing seat (3);

Lifting connecting rods (4) are arranged on two sides of the inner surface of the box cover (5) corresponding to two sides of the bearing seat (3) to be connected, and the bearing seat (3) is lifted in the inner box body (2) when the box cover (5) is opened.

2. The sample storage device for environmental monitoring according to claim 1, wherein the peripheral surfaces of the hollow parts of the lower part of the inner box body (2) are provided with sliding grooves (201), the sliding grooves (201) corresponding to the lifting connecting rods (4) are all penetrating through the sliding grooves (201), and the bearing seat (3) is in sliding connection with the sliding grooves (201) through sliding blocks arranged on the peripheral surfaces; the bottom of the inner box body (2) is also provided with a buffer pad (202).

3. The sample storage device for environmental monitoring according to claim 2, wherein the lifting connecting rod (4) comprises a first connecting rod (401), a second connecting rod (402) and a third connecting rod (403), the head end of the first connecting rod (401) is hinged with a sliding block on the side face of the bearing seat (3), the tail end of the first connecting rod (401) is hinged with the head end of the second connecting rod (402), the tail end of the second connecting rod (402) is hinged with a connecting seat (102) arranged on the inner wall of the outer box body (1), the head end of the third connecting rod (403) is hinged with the position, close to the head end, of the second connecting rod (402), and the tail end of the third connecting rod (403) is hinged with the edge of the inner surface of the box cover (5).

4. The sample storage device for environmental monitoring according to claim 3, wherein a torsion spring (404) is further provided at a hinge joint of the end of the second link (402) and the connection seat (102) provided on the inner wall of the outer casing (1), and the torsion spring (404) returns to the original state and turns to a direction in which the cover (5) is opened.

5. The sample storage device for environment monitoring according to claim 1, wherein the storage hole (6) is provided with a sample bottle hole with a large aperture and a sample tube hole with a small aperture respectively, and a label plate (601) is further arranged beside the sample bottle hole on the top surface of the inner box body (2).

6. The sample storage device for environmental monitoring according to claim 1, wherein the clamping mechanism comprises telescopic columns (7) symmetrically arranged on two sides of the storage hole (6) and clamping pieces (8) connected with the tail ends of the telescopic columns (7), the clamping pieces (8) are arranged to be in arc contact with the sample bottles, and the telescopic columns (7) support the clamping pieces (8) to clamp the sample bottles.

7. The sample storage device for environmental monitoring according to claim 6, wherein the telescopic column (7) comprises a sleeve rod (701), a telescopic rod (702) and a telescopic spring (703), the sleeve rod (701) is connected with the inner wall of the storage hole (6), and the telescopic rod (702) is slidably connected inside the sleeve rod (701) through the telescopic spring (703).

8. The sample storage device for environmental monitoring according to claim 1, wherein the damping mechanism comprises a baffle plate (9) and a damping spring (10), the baffle plate (9) is connected to the bottom of the storage hole (6) in the bearing seat (3) through the damping spring (10), and the baffle plate (9) bears a sample bottle.

9. The sample storage device for environmental monitoring according to claim 1, wherein the outer case (1) is connected to a latch (101) provided on the opposite side of the hinged case cover (5) and a lock pin (501) provided on the case cover (5); the case cover (5) is also provided with a handle (502).