CN214396879U - Soil heavy metal detects uses sample storage device convenient to it is categorised - Google Patents

Abstract

The utility model provides a soil heavy metal detects uses sample storage device convenient to it is categorised, belongs to soil and detects sample storage device technical field. The device includes the storage device main part, the universal wheel, the handle, the articulated apron of storage device main part, the apron is fixed with the montant, the storage device main part is equipped with the recess, set up the fixed block on the recess, the fixed block is through first spring coupling movable block, set up a set of stand on the apron, the stand passes through a set of guard plate of second spring coupling, set up the sealing strip on the guard plate, the bottom of storage device main part sets up the motor, first gear is connected to the output of motor, establish the second gear around the first gear, set up the bull stick on the second gear, the carousel is connected to the bull stick, be equipped with the spout on the carousel, set up the baffle on the carousel, set up the cross slot on the baffle, set up the connecting rod in the spout, set up on the connecting rod and store bucket splint. The utility model discloses the convenience is opened and is closed the device, and the sample is taken, prevents to bump and make the sample splash out at the removal in-process.

Description

Soil heavy metal detects uses sample storage device convenient to it is categorised

Technical Field

The utility model belongs to the technical field of soil detection sample storage device, concretely relates to be convenient for categorised soil heavy metal detects uses sample storage device.

Background

In order to comprehensively understand the current situation of the land quality, soil in various regions needs to be sampled and investigated, and then the quality level of the land is evaluated. In the process of taking soil samples back to a research institute for detection after collection, a soil sample storage device is used, however, the existing soil sample classified storage device has the following problems:

current soil sample classified storage device, the soil sample that will dig out is mainly that the manual work is placed in the holding vessel, and the in-process holding vessel that removes easily takes place the collision and leads to the sample to splash and scatter in storage device, is not convenient for carry out anticollision and prevent the processing of splashing to the holding vessel. Simultaneously, current soil sample classified storage device when taking out the sample of drawing, generally need take apart whole device all to take out soil sample, and is comparatively loaded down with trivial details, is not convenient for carry on swift taking.

In order to solve the problems, innovative design is urgently needed on the basis of the original soil sample classified storage device.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the above-mentioned prior art, the utility model aims to design provides a soil heavy metal detects uses sample storage device convenient to it is categorised. The problem of among the prior art soil sample classified storage device be not convenient for to the holding vessel anticollision and prevent the processing that splashes, be not convenient for carry out swift taking simultaneously is solved.

A sample storage device convenient for classification for soil heavy metal detection comprises a storage device main body, universal wheels and a handle, and is characterized in that a cover plate is hinged to the left side of the top of the storage device main body, a vertical rod is fixed to the bottom of the right side of the cover plate, a groove is formed in the position, corresponding to the vertical rod, of the top end of the right side of the storage device main body, a fixed block is arranged on the left side wall of the groove, and the fixed block is connected with a movable block through a first spring;

the bottom of the cover plate is provided with a group of stand columns, the stand columns are connected with a group of protection plates through second springs, and the top edges of the protection plates are provided with sealing strips;

the bottom of storage device main part sets up the motor, first gear is connected to the output of motor, the meshing sets up a set of second gear all around of first gear, the central point of second gear sets up the bull stick, the top fixed connection carousel of bull stick, be equipped with the spout on the carousel, the cooperation sets up the baffle above the carousel on the inner wall of storage device main part, run through on the baffle and set up the cross slot, the spout fit in sets up the connecting rod, the one end that the connecting rod runs through the cross slot sets up storage barrel splint.

The utility model provides a soil heavy metal detects and uses sample storage device convenient to it is categorised, its characterized in that the lower tip of montant sets up to spherical structure, the fast right-hand member of activity is the triangle-shaped structure, montant and movable block, the movable block passes through to constitute elastic telescopic structure between first spring and the fixed block.

The utility model provides a soil heavy metal detects and uses sample storage device convenient to it is categorised which characterized in that the guard plate is fan-shaped structure, the closed circular cone structure that constitutes of every group guard plate, the guard plate passes through to constitute elasticity structure that opens and shuts between second spring and the stand.

The utility model provides a soil heavy metal detects and uses sample storage device convenient to it is categorised which characterized in that the spout is the arc structure, sliding connection between spout and the connecting rod.

The utility model provides a soil heavy metal detects and uses sample storage device convenient to it is categorised which characterized in that laminate between horizontal groove and the connecting rod, the width in horizontal groove equals the external diameter of connecting rod.

The utility model provides a soil heavy metal detects and uses sample storage device convenient to it is categorised which characterized in that it is semi-circular structure to store bucket splint.

Compared with the prior art, the beneficial effects of the utility model are that:

1. through the universal wheel that sets up, the apron, the montant, a groove, the fixed block, first spring and movable block for the universal wheel can conveniently remove the device, when the sample need be taken, rotate the apron, the apron just can make the montant extrude the movable block, the movable block will extrude first spring and retract to fixed in, the apron will be opened, then because the elastic action of first spring will drive the movable block and move to the outside, and then conveniently open and close the device, make things convenient for taking of sample.

2. Through the first gear, the second gear, the carousel, the spout, the connecting rod, cross slot and the splint that set up for first gear will drive the carousel and rotate in step when driving the second gear and rotate, will drive the connecting rod after the carousel rotates and remove in the spout, and the cross slot can restrict the displacement range of connecting rod, and then drives splint and carry out the centre gripping to the sample section of thick bamboo, prevents to bump and make the sample splash out at the removal in-process.

Drawings

FIG. 1 is a schematic view of the overall cross-sectional structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

FIG. 3 is a schematic top view of the protection plate of the present invention;

fig. 4 is a schematic view of the connection structure of the first gear and the second gear of the present invention;

FIG. 5 is a schematic view of the top view structure of the sliding chute of the present invention;

FIG. 6 is a schematic top view of the cross slot of the present invention;

fig. 7 is a schematic view of the top view of the clamp plate of the storage barrel of the present invention.

In the figure: 1-a storage device body; 2-universal wheel, 3-handle, 4-cover plate, 5-vertical rod, 6-groove, 7-fixed block, 8-first spring, 9-movable block, 10-upright column, 11-second spring, 12-protective plate, 13-sealing strip, 14-motor, 15-first gear, 16-second gear, 17-rotating rod, 18-rotating disk, 19-sliding chute, 20-partition plate, 21-transverse chute, 22-connecting rod and 23-storage barrel clamping plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example (b):

as shown in figure 1, the sample storage device for soil heavy metal detection convenient to classify comprises a storage device main body 1, universal wheels 2 and a handle 3.

As shown in fig. 1 and 2, a cover plate 4 is hinged to the left side of the top of the storage device body 1, a vertical rod 5 is fixed to the bottom of the right side of the cover plate 4, and the lower end of the vertical rod 5 is of a spherical structure. The right side top of storage device main part 1 is equipped with recess 6 with montant 5 corresponding position, sets up fixed block 7 on the left side wall of recess 6. The fixed block 7 is connected with the movable block 9 through a first spring 8, and the right end part of the movable block 9 is of a triangular structure. The vertical rod 5 is clamped with the movable block 9, and the movable block 9 forms an elastic telescopic structure with the fixed block 7 through the first spring 8. Because the end of the vertical rod 5 is of a spherical structure, the friction force in the moving process can be reduced.

As shown in fig. 1 and 3, a set of posts 10 are provided at the bottom of the cover plate 4. The upright 10 is connected to a set of protection plates 12 by means of a second spring 11. Protection plate 12 is fan-shaped structure, and every group protection plate 12 closure constitutes the circular cone structure, and protection plate 12 passes through to constitute the elasticity structure that opens and shuts between second spring 11 and the stand 10 for protection plate 12 will extrude second spring 11 and remove to stand 10 after receiving the extrusion, and protection plate 12 behind the one end can constitute a confined piece, and then seals the top of storage cylinder, prevents that the sample from splashing out because of accidental collision. The top edge of the shield plate 12 is provided with a seal 13.

As shown in fig. 1 and 4, 5, 6, and 7, a motor 14 is provided at the bottom of the storage device body 1. The output of the motor 14 is connected to a first gear 15. A group of second gears 16 are meshed around the first gears 15. A rotating rod 17 is arranged at the central part of the second gear 16. The top of the rotating rod 17 is fixedly connected with a rotating disc 18. The rotary table 18 is provided with a sliding groove 19, and the sliding groove 19 is of an arc structure. A partition 20 is disposed above the turntable 18 and on the inner wall of the storage device body 1. The partition plate 20 is provided with a transverse groove 21. The sliding groove 19 is internally provided with a connecting rod 22 in a matching way, and the sliding groove 19 is connected with the connecting rod 22 in a sliding way, so that the rotating disc 18 can drive the connecting rod 22 to synchronously rotate in the sliding groove 19 when rotating. Connecting rod 22 runs through the one end setting of horizontal groove 21 and stores bucket splint 23, stores bucket splint 23 and is semi-circular structure for store bucket splint 23 when carrying out the fixed centre gripping to storing the bucket, can be better with its outer laminating of wall. The transverse groove 21 is attached to the connecting rod 22, and the width of the transverse groove 21 is equal to the outer diameter of the connecting rod 22, so that when the connecting rod 22 rotates along with the sliding groove 19, the transverse groove 21 limits the moving range of the connecting rod 22, and the connecting rod 22 can only move linearly.

In actual use:

when needing to place the sample and storing the bucket, manual rotation apron 4, montant 5 on the apron 4 will extrude the movable block 9, and the movable block 9 will compress first spring 8 and in the withdrawal fixed block 7, wait that montant 7 removes and just can realize the upset of apron 4 behind the contact point of the outside through fixed block 7, and then will collect the sample and store the bucket and put into storage device main part 1 inside, place the intermediate position in storage bucket splint 23 promptly.

After the sample is placed, the motor 14 is started, the motor 14 drives the first gear 15 to rotate, the first gear 15 drives the second gear 16 to rotate after rotating, the rotating rod 17 rotates synchronously along with the second gear 16, and the rotating rod 17 drives the rotating disc 18 to rotate synchronously. The rotary table 18 drives the connecting rod 22 to slide in the sliding groove 19, and the transverse groove 21 on the partition plate 20 limits the moving range of the connecting rod 22, so that the connecting rod 22 can only move linearly, and the storage barrel clamping plate 23 is driven to fixedly clamp the sample storage barrel, and the sample storage barrel is prevented from colliding in the transportation process.

After the sample is fixed, close apron 4, apron 4 bottom guard plate 12 will with the top contact of storing the bucket to make guard plate 12 receive the extrusion, the central point of 11 item stands of compression second spring puts the removal, and sealing strip 13 on guard plate 12 will laminate each other, and then stores the bucket to the sample and seals, prevents that the sample from splashing out.

When transporting the collected sample, the handle 3 is held, the storage device main body 1 is pushed, and the universal wheels 2 are convenient to move and turn.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a soil heavy metal detects uses sample storage device convenient to it is categorised, includes storage device main part (1), universal wheel (2), handle (3), its characterized in that the top left side of storage device main part (1) articulates and is connected with apron (4), the right side bottom of apron (4) is fixed with montant (5), the right side top of storage device main part (1) is equipped with recess (6) with montant (5) corresponding position, set up fixed block (7) on the left side wall of recess (6), fixed block (7) are connected movable block (9) through first spring (8), the bottom of apron (4) sets up a set of stand (10), stand (10) are connected a set of guard plate (12) through second spring (11), the top edge of guard plate (12) sets up sealing strip (13), the bottom of storage device main part (1) sets up motor (14), first gear (15) is connected to the output of motor (14), the meshing all around of first gear (15) sets up a set of second gear (16), the central point of second gear (16) sets up bull stick (17), top fixed connection carousel (18) of bull stick (17), be equipped with spout (19) on carousel (18), carousel (18) top cooperation sets up baffle (20) on the inner wall of storage device main part (1), run through on baffle (20) and set up horizontal groove (21), spout (19) fit in sets up connecting rod (22), the one end that connecting rod (22) run through horizontal groove (21) sets up storage bucket splint (23).

2. The sample storage device for soil heavy metal detection convenient to classify as claimed in claim 1, characterized in that the lower end of said vertical rod (5) is set to be a spherical structure, the right end of said movable block (9) is a triangular structure, said vertical rod (5) is fastened with said movable block (9), said movable block (9) forms an elastic telescopic structure with said fixed block (7) through said first spring (8).

3. The sample storage device for soil heavy metal detection convenient to classify as claimed in claim 1, characterized in that said protection plates (12) are fan-shaped structures, said protection plates (12) of each group are closed to form a cone structure, said protection plates (12) are elastically opened and closed with said upright post (10) by said second spring (11).

4. The sample storage device for soil heavy metal detection convenient to classify as claimed in claim 1 wherein, said slide groove (19) is an arc structure, and the slide groove (19) is connected with the connecting rod (22) in a sliding manner.

5. The sample storage device for soil heavy metal detection convenient to classify as claimed in claim 1, characterized in that said transverse groove (21) is fitted with the connecting rod (22), the width of the transverse groove (21) is equal to the outer diameter of the connecting rod (22).

6. The sample storage device for soil heavy metal detection convenient to classify as claimed in claim 1 wherein said storage barrel clamp plate (23) is a semicircular structure.

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