CN116969053A

CN116969053A - Sample storage device for environmental monitoring

Info

Publication number: CN116969053A
Application number: CN202311227724.5A
Authority: CN
Inventors: 王旭东; 蔡芬芬; 吴军港; 贺斌
Original assignee: Zaozhuang Yuchen Environmental Protection Consulting Co ltd
Current assignee: Zaozhuang Yuchen Environmental Protection Consulting Co ltd
Priority date: 2023-09-22
Filing date: 2023-09-22
Publication date: 2023-10-31

Abstract

The invention discloses a sample storage device for environmental monitoring, which relates to the technical field of sample storage and comprises a base box and a storage frame arranged above the base box, wherein a storage seat is arranged in the storage frame, storage holes for storing storage tubes are formed in the storage seat, a plurality of storage holes are formed in the storage seat and are arrayed in rows, and a lifting mechanism for lifting the storage tubes in the storage holes is arranged in the base box and comprises a jack post, a control post, a first clamping groove, a second clamping groove, a first clamping rod, a second clamping rod and an elastic ejector rod. The invention aims at solving the problems that in the prior art, when the sample storage tubes are stored, in order to improve the utilization rate of the storage box, the placing gaps among the storage tubes are smaller, so that staff are inconvenient to take the sample storage tubes, and the like. The invention has the advantages that when the sample storage tubes are stored, the placing gaps among the storage tubes are reduced, and the sample storage tubes are still convenient for staff to take.

Description

Sample storage device for environmental monitoring

Technical Field

The invention relates to the technical field of sample storage, in particular to a sample storage device for environmental monitoring.

Background

Environmental monitoring is to determine environmental quality or pollution level and its trend by measuring a representative value affecting environmental quality factors, and when environmental monitoring is performed, it is necessary to sample a monitored item, so that a sample is assayed later, and the pollution level of the environment is analyzed according to assay data, etc., and when the sample is sampled, a test tube-like storage tube is generally adopted for storage, and the sample is stored through a storage box.

In the prior art, when the bin is used for storing, a plurality of storage pipes are generally inserted into the storage jack for storage, and when the storage pipes are stored, the gaps between the storage pipes are smaller for improving the utilization rate of the bin, so that the problem that staff cannot conveniently take the storage pipes due to smaller gaps exists when the storage pipes are taken later.

Aiming at the technical problems, the invention discloses a sample storage device for environmental monitoring, which has the advantages that when the sample storage tubes are stored, the sample storage device still facilitates the staff to take the sample while reducing the placing gap between the storage tubes.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a sample storage device for environmental monitoring, so as to solve the technical problems that in the prior art, when a sample storage tube is stored, the gap between the storage tube and the storage tube is smaller in order to improve the utilization rate of a storage box, and therefore, when the storage tube is taken later, workers are inconvenient to take due to the smaller gap.

The invention is realized by the following technical scheme: the invention discloses a sample storage device for environmental monitoring, which comprises a base box and a storage frame arranged above the base box, wherein a storage seat is arranged in the storage frame, storage holes for storing storage pipes are formed in the storage seat, a plurality of storage holes are formed in the storage seat and are arranged in rows and columns, and a lifting mechanism for lifting the storage pipes in the storage holes is arranged in the base box;

the elevating system includes jack post, the control post, first draw-in groove, the second draw-in groove, first clamping lever, second clamping lever and elasticity ejector pin, the jack post is located the inside of base box, and the top of jack post extends to the inside of storing the hole, the below of jack post is provided with the control post with one heart, first draw-in groove and second draw-in groove have been seted up respectively to the front end of control post outer wall top and one side of below, the inside of base box transversely is provided with first clamping lever, and the both ends of first clamping lever are fixed respectively and are provided with first disc, first clamping lever eccentric setting is in the one end of first disc, the other end of first disc is provided with first pivot with one heart, the one end of first pivot extends to the outer wall of base box and is connected with the lateral wall rotation of base box, first clamping lever joint is in the inside of first draw-in groove, and first clamping groove is located the first clamping lever and use the first pivot as the rotation orbit of centre of a circle, the inside vertical second clamping lever that is provided with the second clamping lever, the both ends of second clamping lever are fixed respectively and are provided with the second eccentric disc, and the second clamping lever sets up at the second eccentric setting is at the second clamping lever and the second clamping lever outside of the second disc and the second spindle, the outside of second clamping lever is provided with the second spindle and the second clamping lever is connected with the second spindle, the outside of second clamping lever is located the second coaxial setting at the second clamping lever, the second clamping lever.

Further, the apron is installed to the top of storing the frame, and the quantity of jack-prop is the same with storing the hole, and jack-prop and store the same vertical axis setting in hole, and first clamping lever is located the front end of control post, and first clamping lever is provided with a plurality ofly, and a plurality of first clamping levers are arranged in a row in the inside of base box, and the second clamping lever is located one side of control post, and the second clamping lever is provided with a plurality ofly, and a plurality of second clamping levers are arranged in a row in the inside of base box.

Further, the elastic ejector rod comprises an ejector rod body, a sliding block and a first spring, a sliding groove is formed in the control column, the top end of the ejector rod body penetrates through the bottom surface of the control column to extend to the inside of the sliding groove, the sliding block is fixedly arranged at one end of the ejector rod body, the sliding block is in sliding fit with the sliding groove in the sliding groove, and the first spring is arranged between the top end of the sliding block and the top wall of the sliding groove.

Further, the outer wall of the top column is sleeved with a limiting ring, and the limiting ring is arranged inside the base box.

Further, the outer wall of first pivot and second pivot has cup jointed the second spring respectively, and the second spring is located the inside of base box, and the both ends of the second spring of first pivot outer wall respectively with the inner wall of base box and first disc fixed connection, the both ends of the epaxial second spring of second are respectively with base box inner wall and second disc fixed connection.

Further, the below of every control post all is provided with the removal groove, and the diapire at the base box is seted up to the removal groove, and the removal groove is L shape, and the ejector pin body is pegged graft in the removal inslot and with removal inslot wall sliding fit, the ejector pin body is in the straightway point of removal groove.

Further, the control column is in sliding fit with the jacking column.

Further, the both sides of control post all are provided with first limiting plate, and the outer wall and the first limiting plate sliding fit of control post, and first limiting plate is fixed to be set up at first kelly outer wall, and the front end and the rear end of control post all are provided with the second limiting plate, and the wall and the second limiting plate sliding fit of control post, second limiting plate and second kelly fixed connection.

Further, the second spring at one end of the first clamping rod is arranged in the direction opposite to the second clamping groove, and the second spring at one end of the second clamping rod is arranged in the direction opposite to the first clamping groove.

The invention has the following advantages:

(1) According to the invention, the lifting mechanism is arranged, so that the storage pipes can be stored in the storage holes when being stored, and then when the storage pipes are taken, only the first clamping rod and the second clamping rod of the storage pipes are required to rotate, so that the storage pipes can be lifted independently, and the storage pipes can be higher than other storage pipes by one section, thereby being convenient for staff to take the storage pipes, and therefore, the gap between each storage pipe can be reduced, and when the storage pipes are taken, the taken storage pipes can be lifted through the lifting mechanism to be taken, so that the utilization rate of the storage seat is improved, and the storage pipes are still convenient to take under the condition of reducing the placing gap between the storage pipes.

(2) According to the storage device, the lifting mechanism, the moving groove, the first limiting plate and the second limiting plate are arranged, so that the storage device is not only convenient for single taking of the storage tubes, but also convenient for taking when a plurality of storage tubes are needed, for example, when a row or a column of storage tubes are needed, only one step of operation is needed, the first clamping rod or the second clamping rod is pushed, and then the first clamping rod or the second clamping rod is rotated, so that a row or a column of Guan Ju liters can be stored, after a row or a column of storage tubes are lifted, the storage tubes of a row or a column are higher than the storage tubes of an adjacent row or a column by one section, the storage tubes of a row or a column are still convenient to take, and when a plurality of storage tubes are lifted, the operation is simpler, and each storage tube is not needed to be lifted sequentially, so that time is wasted.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the base box of the present invention;

FIG. 3 is a schematic front view showing the internal structure of the base box of the present invention;

FIG. 4 is a schematic view of the structure of the present invention shown in FIG. 3 at a partially enlarged scale;

FIG. 5 is a schematic view of a partial cross-sectional structure of a storage seat according to the present invention;

FIG. 6 is a schematic diagram of a control seat according to the present invention;

FIG. 7 is a schematic view of the structure of the present invention shown in FIG. 6 at B in a partially enlarged manner;

fig. 8 is a schematic view of the lifting state of the control column according to the present invention.

In the figure: 1. a base box; 2. a storage frame; 3. a storage seat; 4. a storage hole; 5. a cover plate; 6. a lifting mechanism; 7. a limiting hole; 8. a first disc; 9. a first rotating shaft; 10. a second disc; 11. a second rotating shaft; 12. a chute; 13. a limiting ring; 14. a second spring; 15. a moving groove; 16. a first limiting plate; 17. a second limiting plate; 61. a top column; 62. a control column; 63. a first clamping groove; 64. a second clamping groove; 65. a first clamping rod; 66. a second clamping rod; 67. an elastic ejector rod; 671. a push rod body; 672. a slide block; 673. a first spring.

Detailed Description

The following detailed description of embodiments of the present invention, which are given by taking the technical solution of the present invention as a premise, gives detailed embodiments and specific operation procedures, but the scope of the present invention is not limited to the following embodiments, and in the description of the present invention, words indicating orientation or positional relationship like "front", "rear", "left", "right", etc. are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the device or element to be referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

The embodiment 1 discloses a sample storage device for environmental monitoring, as shown in fig. 1-8, which comprises a base box 1, as shown in fig. 1-2, a storage frame 2 is arranged above the base box 1, a storage seat 3 is fixedly arranged inside the storage frame 2, storage holes 4 are formed in the storage seat 3, a plurality of storage holes 4 are arranged in rows and columns, and the storage holes 4 penetrate through the upper end face of the storage seat 3, so that a sample storage tube can be placed inside the storage holes 4 for storage, a cover plate 5 is movably arranged above the storage frame 2 through a hinge, and an upper opening of the storage frame 2 is sealed through the cover plate 5, so that the internal storage tube is protected;

when the storage tubes are placed in the storage holes 4, the storage tubes to be taken out can be lifted up by the lifting mechanism 6 alone because the lifting mechanism 6 is arranged in the base box 1, so that the top ends of the storage tubes are higher than the top ends of the adjacent storage tubes by one section because the storage tubes are lifted up when the storage tubes are placed in the storage holes 4, and the storage tubes are difficult to take out by workers because the distance between the adjacent storage tubes is smaller when the workers take out the storage tubes, so that the storage tubes to be taken out can be taken out conveniently by the workers, as shown in fig. 2, by arranging the lifting mechanism 6 in the base box 1;

specifically, as shown in fig. 2-7, the lifting mechanism 6 comprises a jack post 61, a control post 62, a first clamping groove 63, a second clamping groove 64, a first clamping rod 65, a second clamping rod 66 and an elastic ejector rod 67, wherein the jack post 61 is positioned in the base box 1, the top end of the jack post 61 penetrates through the top wall of the base box 1 and the bottom wall of the storage frame 2 to extend into the storage hole 4, specifically, the top wall of the base box 1 and the bottom wall of the storage frame 2 are both provided with limiting holes 7, the top end of the jack post 61 penetrates through the limiting holes 7 to extend into the storage hole 4, the outer wall of the jack post 61 is in sliding fit with the inner wall of the limiting holes 7, in addition, the number of the jack posts 61 is the same as that of the storage holes 4, the jack posts 61 are arranged below each storage hole 4, the top posts 61 in the base box 1 are arranged in rows and columns with the storage holes 4, the top posts 61 and the storage holes 4 are arranged on the same vertical axis, the control posts 62 are arranged below the top posts 61 and are concentric with the control posts 62, so that when the storage tubes are placed in the storage holes 4, the storage tubes can be supported by the top posts 61, and when the storage tubes are placed in the storage holes 4, the height of each storage tube is the same, and in order to improve the utilization rate of the storage seat 3, the distance of each storage hole 4 is relatively close, so that the distance of each storage tube is relatively close, and the storage tubes are inconvenient to take;

therefore, the outer wall of the control column 62 is provided with a first clamping groove 63 and a second clamping groove 64, the first clamping groove 63 is arranged on the front end surface of the control column 62, the second clamping groove 64 is arranged on one side end surface of the control column 62, the second clamping groove 64 is positioned below the first clamping groove 63, in addition, the inside of the base box 1 is transversely provided with a first clamping rod 65, the first clamping rod 65 is positioned on the front end of the control column 62, the first clamping rods 65 are provided with a plurality of first clamping rods 65 which are arranged in rows in the inside of the base box 1, two ends of the first clamping rods 65 are respectively fixedly provided with a first disc 8, the fixed points of the first clamping rods 65 and the first disc 8 are arranged at the position close to the circumference of the end surface of the first disc 8, namely, the first clamping rods 65 are eccentrically arranged at one end of the first disc 8, the other end of the first disc 8 is fixedly provided with a first rotating shaft 9, the first rotating shaft 9 is concentric with the first disc 8, the first rotating shaft 9 is rotationally connected with the side wall of the base box 1, and one end of the first rotating shaft 9 extends to the outside of the base box 1, so that when the first rotating shaft 9 rotates, the first clamping rods 65 rotate around the circle center of the first rotating shaft 9, in addition, the first clamping rods 65 are clamped inside the first clamping grooves 63, the first clamping grooves 63 are positioned on a rotating track of the first clamping rods 65 around the circle center of the first rotating shaft 9, and the first clamping rods 65 can be inserted into the first clamping grooves 63 or separated from the first clamping grooves 63 along with the rotation of the first clamping rods 65 around the circle center of the first rotating shaft 9, and each first clamping rod 65 is clamped inside the first clamping groove 63 of each control column 62 arranged in a row inside the base box 1, so that the control columns 62 in a row are positioned through one first clamping rod 65;

in addition, as shown in fig. 2 to 7, the second clamping rod 66 is vertically arranged in the base box 1, the second clamping rod 66 is positioned at one side of the control column 62, a plurality of second clamping rods 66 are arranged in a row, a plurality of second clamping rods 66 are arranged in the base box 1, two ends of each second clamping rod 66 are respectively fixedly provided with a second disc 10, the fixed point of each second clamping rod 66 and the second disc 10 is arranged at the position close to the circumference of the end face of the second disc 10, namely, the second clamping rod 66 is eccentrically arranged at one end of the second disc 10, the other end of the second disc 10 is fixedly provided with a second rotating shaft 11, the second rotating shaft 11 is concentric with the second disc 10, the second rotating shafts 11 at two ends of each second clamping rod 66 are respectively connected with the outer walls of the front end and the rear end of the base box 1, and one end of the second rotating shaft 11 extends to the outside of the base box 1, so when the second rotating shaft 11 rotates, the second clamping rods 66 rotate around the center of the second rotating shaft 11, in addition, the second clamping rods 66 are clamped inside the second clamping grooves 64, the second clamping grooves 64 are positioned on the rotating track of the second clamping rods 66 rotating around the center of the second rotating shaft 11, and along with the rotation of the second clamping rods 66 around the center of the second rotating shaft 11, the second clamping rods 66 can be inserted into the second clamping grooves 64 or separated from the second clamping grooves 64, and each second clamping rod 66 is clamped inside the second clamping groove 64 of each control column 62 arranged in a row inside the base box 1, so that one row of control columns 62 are positioned through one second clamping rod 66;

as shown in fig. 3-5, an elastic ejector rod 67 is disposed below each control column 62, the ejector rod 61 can be lifted up through the elastic ejector rod 67, the elastic ejector rod 67 comprises an ejector rod body 671, a sliding block 672 and a first spring 673, wherein when the ejector rod 61 is located in the storage hole 4, the top end of the ejector rod body 671 passes through the bottom surface of the control column 62 and extends into the control column 62, the inside of the control column 62 is provided with a sliding groove 12, one end of the ejector rod body 671 located in the control column 62 is located in the sliding groove 12, one end of the ejector rod body 671 located in the sliding groove 12 is fixedly provided with the sliding block 672, the sliding block 672 is matched up and down in the sliding groove 12, the top end of the sliding block 672 and the top wall of the sliding groove 12 are provided with the first spring 673, so that the ejector rod body 671 is rebounded through the first spring 673, when the ejector rod 61 is located in the storage hole 4, the storage tube is pressed down, the ejector rod 61 and the control column 62 are pressed down, and the first spring 673 is compressed and released when the ejector rod 673 is pressed down;

when the control column 62 is pressed down, the first clamping rod 65 and the second clamping rod 66 can be rotated through the first rotating shaft 9 and the second rotating shaft 11 respectively, so that the first clamping rod 65 and the second clamping rod 66 rotate and are clamped in the first clamping groove 63 and the second clamping groove 64 respectively, the control column 62 is positioned, the control column 62 is prevented from moving upwards through the elastic ejector rod 67, when a storage tube is placed in the storage hole 4, the storage tube can be pressed down, the storage height of the storage tube is limited through the first clamping rod 65 and the second clamping rod 66, when the storage tube needs to be taken out, the first clamping rod 65 where the storage tube is located can be rotated through the first rotating shaft 9, the first clamping rod 65 is separated from the first clamping groove 63 in a rotating mode, but one row of control columns 62 controlled by the first clamping rod 65 can still be positioned through the second clamping rod 66 of each row, the control post 62 will not move upwards, then the staff rotates the second clamping rod 66 of the storage tube through the second rotating shaft 11, so that the second clamping rod 66 below the storage tube is separated from the second clamping groove 64, the control post 62 below the storage tube will rise through the elastic ejector rod 67 without the positioning of the first clamping rod 65 and the second clamping rod 66, so that the storage tube can be lifted alone, the staff can conveniently pick up the storage tube, it is noted that when the second clamping rod 66 rotates, a row of control posts 62 controlled by the second clamping rod 66 will be positioned through the first clamping rod 65 of each row, but the first clamping rod 65 at the storage tube to be removed is separated from the first clamping groove 63, therefore, only the control post 62 at the position rises, the control posts 62 at other positions will not lift, so that the storage tube can be lifted alone, the first clamping rod 65 and the second clamping rod 66 are only required to rotate, and the structure is simple, so that the later maintenance is convenient;

in addition, as shown in fig. 5, when the elastic ejector rod 67 lifts the ejector rod 61, in order to limit the ejector rod 61, the outer wall of the ejector rod 61 is sleeved with the limiting ring 13, the limiting ring 13 is inside the base box 1, and the outer diameter of the limiting ring 13 is larger than the inner diameter of the limiting hole 7, so that when the ejector rod 61 lifts, the lifting of the ejector rod 61 can be limited by the limiting ring 13;

when the storage tube is stored in the storage hole 4, in order to automatically clamp the first clamping rod 65 and the second clamping rod 66 in the first clamping groove 63 and the second clamping groove 64, the outer walls of the first rotating shaft 9 and the second rotating shaft 11 are respectively sleeved with the second spring 14, the second spring 14 is positioned in the base box 1, specifically, one end of the second spring 14 on the outer wall of the first rotating shaft 9 is fixedly connected with the inner wall of the base box 1, the other end is fixedly connected with the first disc 8, and the same, one end of the second spring 14 on the second rotating shaft 11 is fixedly connected with the inner wall of the base box 1, the other end is fixedly connected with the second disc 10, therefore, when the first rotating shaft 9 and the second rotating shaft 11 are rotated, the first rotating shaft 9 and the second rotating shaft 11 can be reset through the torsion of the second spring 14, and the first spring 673 is required to be explained after being fully unfolded, after the control post 62 rises to the upper limit, that is, after the limit ring 13 contacts with the top wall of the base box 1, as shown in fig. 8, the first clamping rod 65 is located below the first clamping groove 63, the outer wall of the first clamping rod 65 is attached to the outer wall of the control post 62, the second clamping rod 66 is located below the second clamping groove 64, the outer wall of the second clamping rod 66 is attached to the outer wall of the control post 62, and a certain pressure can be applied to the first clamping rod 65 and the second clamping rod 66 by the torsion of the second spring 14, so that when the storage tube is placed in the storage hole 4, the control post 62 can be moved downwards by pressing the storage tube, and when the control post 62 moves downwards, the first clamping groove 63 moves to the first clamping rod 65, and simultaneously the second clamping groove 64 moves to the second clamping rod 66, the torsion of the second spring 14 can automatically rotate the first clamping rod 65 and clamp the first clamping groove 63, and simultaneously the second clamping rod 66 can automatically rotate and clamp the second clamping groove 64 by the torsion of the second spring 14 to position the control column 62, so that when the storage tube is placed, the height of the storage tube can be positioned only by pressing the storage tube downwards;

because the control column 62 is positioned through the first clamping rod 65 and the second clamping rod 66, the control column 62 is subjected to double positioning through the first clamping rod 65 and the second clamping rod 66 after being pressed down, so that when the first clamping rod 65 is damaged and cannot play a positioning role, the second clamping rod 66 can continue playing a positioning role, and when the second clamping rod 66 is damaged and cannot play a positioning role, the first clamping rod 65 can play a positioning role, and the device is more stable to use;

when taking the storage tubes, the first clamping rod 65 and the second clamping rod 66 are required to be rotated to lift each storage tube, so that when taking the storage tubes in batches, the operation is not convenient enough, for example, when placing the storage tubes, a worker can place the storage tubes of the same type of samples in one row or one row for distinguishing, and when taking the storage tubes of the same type, if the first clamping rod 65 and the second clamping rod 66 are required to be rotated and unlocked for taking each storage tube, the taking is not convenient enough, time is wasted, and the more storage holes 4 in one row or one row are, the more inconvenient the taking of the storage tubes is;

therefore, as shown in fig. 2, 3, 4, 6 and 7, a moving groove 15 is provided under each control column 62, and the moving groove 15 is opened at the bottom wall of the base box 1, and the moving groove 15 is L-shaped, a jack body 671 is inserted inside the moving groove 15 and slidingly engaged with the inner wall of the moving groove 15, and the jack body 671 is at the right angle point of the moving groove 15, it is to be noted that when the jack body 671 is at the right angle point of the moving groove 15, the first clamping rod 65 is located inside the first clamping groove 63, and the second clamping rod 66 is located inside the second clamping groove 64, and the moving groove 15 is configured in length such that when one end of the jack body 671 is laterally moved to the end face inside the moving groove 15, the second clamping rod 66 is separated from the second clamping groove 64, and the same, when one end of the jack body 671 is moved to the vertical end face inside the moving groove 15, the first clamping rod 65 is separated from the first clamping groove 63; therefore, when a row of storage tubes needs to be lifted, the control column 62 of the row is moved transversely and moved in the opposite direction of the second clamping groove 64, the control column 62 drives the ejector rod body 671 to move transversely in the moving groove 15, so that the second clamping groove 64 is separated from the second clamping rod 66, the second clamping rod 66 cannot position the control column 62, meanwhile, when the control column 62 moves, the control column 62 moves transversely, the first clamping rod 65 is still inserted in the first clamping groove 63, then a worker only needs to rotate the first clamping rod 65, so that the first clamping rod 65 is separated from the first clamping groove 63, the control column 62 of the row above the first clamping rod 65 is lifted, and the storage tubes are lifted, when a row of storage tubes need to be lifted, the same control column 62 only needs to be moved vertically, the position of the control column is limited by the ejector rod body 671 and the moving groove 15, and the moving direction is opposite to the first clamping groove 63, so that the first clamping groove 63 and the first clamping groove 63 need to be lifted, and the first clamping rod 65 need to be lifted, and the storage tubes need to be lifted more conveniently and only be lifted, and the storage tubes need to be lifted when the first clamping groove and the first clamping groove are lifted, and the first clamping groove are separated, and the first clamping rod is lifted, and the storage tube is only need to be lifted, and the first lifting tube and the storage tube to be lifted;

in order to prevent the control column 62 from moving, the connection between the control column 62 and the top column 61 is set to be in sliding fit, so that the top column 61 does not affect the movement of the control column 62 when the control column 62 moves, in addition, in order to facilitate the movement of a row of control columns 62 or a column of control columns 62 by a worker, as shown in fig. 2, 3, 4, 6 and 7, the first limiting plates 16 are disposed on both sides of each control column 62, the outer walls of both sides of the control column 62 are respectively in sliding fit with the first limiting plates 16 on both sides, the first limiting plates 16 are fixedly disposed on the outer walls of the first clamping rods 65, so that when the control column 62 of a row needs to be laterally moved, only the first clamping rods 65 need to be moved, and in addition, the second limiting plates 17 are disposed on the front end and the rear end of each control column 62, and the front end and the rear end outer wall of the control column 62 are respectively in sliding fit with the second limiting plate 17, and the second limiting plate 17 is fixedly connected with the second clamping rod 66, so that when the control column 62 in a row is vertically moved, the control column 62 can be moved through the second clamping rod 66, in addition, when the first clamping rod 65 and the second clamping rod 66 are moved, in order to enable the first clamping rod 65 and the second clamping rod 66 to be automatically reset, the second spring 14 at one end of the first clamping rod 65 is arranged in the direction opposite to the second clamping groove 64, and the second spring 14 at one end of the second clamping rod 66 is arranged in the direction opposite to the first clamping groove 63, so that after the first clamping rod 65 and the second clamping rod 66 are moved, the first clamping rod 65 and the second clamping rod 66 can be respectively reset through the second spring 14.

The principle of the invention is as follows: when the invention is used, firstly, a storage tube is needed to be placed in the storage hole 4, then the storage tube is pressed down, so that the control column 62 moves down, when the control column 62 moves down, the first clamping groove 63 moves to the first clamping rod 65, the second clamping groove 64 moves to the second clamping rod 66, the first clamping rod 65 automatically rotates and is clamped in the first clamping groove 63 by the torsion force of the second spring 14, and meanwhile, the second clamping rod 66 also automatically rotates and is clamped in the second clamping groove 64 by the torsion force of the second spring 14 to position the control column 62, therefore, when the storage tube is placed, the storage tube can be positioned only by pressing down, thereby the storage tube is stored, the cover plate 5 is closed, when a test tube is needed to be taken out, if only one storage tube is needed to be taken out singly, the first clamping rod 65 where the storage tube is located can be rotated through the first rotating shaft 9, the first clamping rod 65 rotates to enable the first clamping rod 65 to be separated from the first clamping groove 63, but one row of control columns 62 controlled by the first clamping rod 65 still can be positioned through the second clamping rods 66 of each row, the control columns 62 cannot move upwards, then the staff rotates the second clamping rods 66 where the storage tube is located again to enable the second clamping rods 66 below the storage tube to be separated from the second clamping grooves 64, the control columns 62 below the storage tube are lifted through the elastic ejector rods 67 under the condition that the first clamping rods 65 and the second clamping rods 66 are not positioned, so that the storage tube is lifted alone, the staff can conveniently take the storage tube, when the staff needs to take one row or one row of storage tubes, the control columns 62 of the row are moved transversely, and move in the opposite direction of the second clamping grooves 64, the control post 62 drives the ram body 671 to move laterally in the moving slot 15, so that the second clamping slot 64 is separated from the second clamping rod 66, and therefore the second clamping rod 66 cannot position the control post 62, meanwhile, when the control post 62 moves, the first clamping rod 65 still can be inserted into the first clamping slot 63 due to the lateral movement of the control post 62, then the worker only needs to rotate the first clamping rod 65, so that the first clamping rod 65 is separated from the first clamping slot 63, the control post 62 on the upper row of the first clamping rod 65 can lift and lift a storage tube, and when a row of storage tubes need to be lifted, the same control post 62 only needs to move vertically, and the moving direction is opposite to that of the first clamping slot 63, so that the first clamping slot 63 is separated from the first clamping rod 65, then only the second clamping rod 66 needs to be rotated, and a row of storage Guan Ju can be lifted, so that when one row or a plurality of storage tubes need to be lifted, only one row of storage tubes need to be lifted.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a sample storage device for environmental monitoring, includes base box (1) and sets up storage frame (2) in base box (1) top, the inside of storage frame (2) is provided with stores seat (3), and stores the inside of seat (3) and offer and be used for storing storage hole (4) of storage tube, store hole (4) are provided with a plurality of, and store hole (4) are arranged in rows and columns, a serial communication port, the inside of base box (1) is provided with elevating system (6) that are used for carrying out lifting to storing hole (4) inside storage tube;

the lifting mechanism (6) comprises a jacking column (61), a control column (62), a first clamping groove (63), a second clamping groove (64), a first clamping rod (65), a second clamping rod (66) and an elastic ejector rod (67), wherein the jacking column (61) is positioned in the base box (1), the top end of the jacking column (61) extends to the inside of the storage hole (4), the control column (62) is concentrically arranged below the jacking column (61), the front end above the outer wall of the control column (62) and one side below the front end of the outer wall of the control column are respectively provided with the first clamping groove (63) and the second clamping groove (64), the inside of the base box (1) is transversely provided with the first clamping rod (65), the two ends of the first clamping rod (65) are respectively fixedly provided with a first disc (8), the first clamping rod (65) is eccentrically arranged at one end of the first disc (8), the other end of the first disc (8) is concentrically provided with a first rotating shaft (9), one end of the first rotating shaft (9) extends to the outer wall of the base box (1) and is connected with the first clamping rod (63) and is positioned on the first track (63) of the first rotating track (65) of the first clamping rod (1), the inside of base box (1) is vertical to be provided with second clamping lever (66), the both ends of second clamping lever (66) are fixed respectively and are provided with second disc (10), and second clamping lever (66) eccentric setting is in second disc (10) one end, the other end of second disc (10) is provided with second pivot (11) with one heart, second pivot (11) at second clamping lever (66) both ends are connected and extend to the outside of base box (1) with the front end and the rear end outer wall rotation of base box (1) respectively, second clamping lever (66) joint is in the inside of second draw-in groove (64), and second draw-in groove (64) are located on the rotation orbit that second clamping lever (66) used second pivot (11) as the centre of a circle, every the below of control post (62) all is provided with elasticity ejector pin (67).

2. The sample storage device for environmental monitoring according to claim 1, wherein a cover plate (5) is installed above the storage frame (2), the number of the top posts (61) is the same as that of the storage holes (4), the top posts (61) and the storage holes (4) are arranged on the same vertical axis, the first clamping rods (65) are positioned at the front ends of the control posts (62), the first clamping rods (65) are arranged in a plurality, the first clamping rods (65) are arranged in a row in the base box (1), the second clamping rods (66) are positioned on one side of the control posts (62), the second clamping rods (66) are arranged in a plurality, and the second clamping rods (66) are arranged in a row in the base box (1).

3. The sample storage device for environmental monitoring according to claim 1, wherein the elastic ejector rod (67) comprises an ejector rod body (671), a sliding block (672) and a first spring (673), the inside of the control column (62) is provided with a sliding groove (12), the top end of the ejector rod body (671) penetrates through the bottom surface of the control column (62) to extend into the inside of the sliding groove (12), the sliding block (672) is fixedly arranged at one end of the ejector rod body (671) located in the sliding groove (12), the sliding block (672) is in sliding fit up and down in the sliding groove (12), and the first spring (673) is arranged between the top end of the sliding block (672) and the top wall of the sliding groove (12).

4. The sample storage device for environmental monitoring according to claim 1, wherein the outer wall of the top column (61) is sleeved with a limiting ring (13), and the limiting ring (13) is arranged inside the base box (1).

5. The sample storage device for environmental monitoring according to claim 1, wherein the outer walls of the first rotating shaft (9) and the second rotating shaft (11) are respectively sleeved with a second spring (14), the second spring (14) is located inside the base box (1), two ends of the second spring (14) on the outer wall of the first rotating shaft (9) are respectively fixedly connected with the inner wall of the base box (1) and the first disc (8), and two ends of the second spring (14) on the second rotating shaft (11) are respectively fixedly connected with the inner wall of the base box (1) and the second disc (10).

6. A sample storage device for environmental monitoring according to claim 3, wherein a moving groove (15) is provided below each control column (62), the moving groove (15) is provided on the bottom wall of the base box (1), the moving groove (15) is L-shaped, the ejector rod body (671) is inserted into the moving groove (15) and slidingly engaged with the inner wall of the moving groove (15), and the ejector rod body (671) is located at a right angle point of the moving groove (15).

7. A sample storage device for environmental monitoring as defined in claim 1, wherein said control post (62) is a sliding fit with said top post (61).

8. The sample storage device for environmental monitoring according to claim 1, wherein the first limiting plates (16) are arranged on two sides of the control column (62), the outer wall of the control column (62) is in sliding fit with the first limiting plates (16), the first limiting plates (16) are fixedly arranged on the outer wall of the first clamping rod (65), the second limiting plates (17) are arranged at the front end and the rear end of the control column (62), the wall of the control column (62) is in sliding fit with the second limiting plates (17), and the second limiting plates (17) are fixedly connected with the second clamping rod (66).

9. A sample storage device for environmental monitoring according to claim 1, wherein the second spring (14) at one end of the first clamping rod (65) is disposed in a direction opposite to the second clamping groove (64), and the second spring (14) at one end of the second clamping rod (66) is disposed in a direction opposite to the first clamping groove (63).