CN218663053U - Soil sample storage device for monitoring soil environment - Google Patents

Abstract

The utility model discloses a soil sample storage facilities that soil environment monitoring used, the power distribution box comprises a box body, the inside of box is provided with the heat insulating block, the upper end of heat insulating block is seted up flutedly, the inside of recess is pegged graft and is had the bottle, the inside lower extreme of recess is provided with elevating system. The utility model adopts the above structure, place the inside back at the bottle with the soil of gathering, place the inside at the recess with the bottle, rotate the apron through the runner assembly afterwards, make the apron laminating in the upper end of box, and through the position of the fixed apron of positioning mechanism, can make the sealed lower extreme and the insulating block laminating of filling up, thereby reach and fix the effect at the recess inside with the bottle, through sealed with the bottle, the heat preservation is handled, and avoid bottle and insulating block to bump through the cushion, thereby play the guard action to the inside soil sample of bottle, avoid soil sample to receive external factor influence and influence the effect of soil environment monitoring, simultaneously portable uses.

Description

Soil sample storage device for monitoring soil environment

Technical Field

The utility model belongs to soil sample saves field, in particular to soil sample save equipment that soil environment monitoring used.

Background

Soil environment monitoring refers to important measures for knowing the quality condition of soil environment, aims to prevent and treat soil pollution damage, and dynamically analyzes and measures the soil pollution degree and development trend, including current situation investigation of soil environment quality, investigation of regional soil environment background value, investigation of soil pollution accidents and dynamic observation of polluted soil, and generally includes the steps of preparation, distribution, sampling, sample preparation, analysis and test, evaluation and the like.

In soil environment monitoring, soil sampling is a link of wherein very important, need preserve soil after soil is gathered usually, if soil is preserved inappropriately, then can cause the influence to the analytical test of soil, in prior art, soil carries with the save of soil sample with bottled or bagged mode usually after gathering, and this kind of mode then leads to soil to receive external factor influence easily, leads to the inside composition of sample soil to appear changing, thereby causes the influence to soil environment monitoring result.

SUMMERY OF THE UTILITY MODEL

To the problem mentioned in the background art, the utility model aims at providing a soil sample save set that soil environment monitoring used to solve among the prior art and carry out the save work of soil sample with bottled or bagged mode, lead to the soil sample to receive external factor influence easily, thereby influence the problem of soil environment monitoring effect.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides a soil sample save equipment that soil environment monitoring used, the power distribution box comprises a box body, the inside of box is provided with the heat insulating block, the upper end of heat insulating block is seted up flutedly, it has the bottle to peg graft in the inside of recess, the inside lower extreme of recess is provided with elevating system, the inside lower extreme of recess is provided with the extension board through elevating system, the upper end of extension board and the inner wall of recess are provided with the cushion respectively, the upper end of extension board is passed through the cushion and is connected with the bottle laminating, the upper end right side of box is provided with the runner assembly, the upper end right side of box rotates through the runner assembly and rotates and is connected with the apron, the lower extreme of apron is provided with sealed the pad, the lower extreme and the heat insulating block laminating of sealed pad are connected, the lower extreme left side of apron is provided with the lug, the upper end of box left side wall is provided with positioning mechanism, positioning mechanism and lug joint.

Further, as preferred technical scheme, elevating system includes spout, branch and drive assembly, the lower extreme at the recess inside is seted up to the spout, branch sets up the lower extreme at the extension board, the lower extreme sliding connection of branch is in the inside of spout, drive assembly sets up the lower extreme at the spout, drive assembly is connected with the branch transmission, the lower extreme of branch lateral wall is provided with first spacing subassembly.

Further, as preferred technical scheme, first spacing subassembly includes first stopper and first spacing groove, first stopper sets up the lower extreme at the branch lateral wall, the inner wall at the spout is seted up to first spacing groove, first stopper sliding connection is in the inside of first spacing groove.

Further, as preferred technical scheme, the drive assembly includes micro motor, screw rod and thread groove, micro motor sets up the lower extreme at the spout, the screw rod sets up the output at micro motor, the inside of spout is stretched into to the upper end of screw rod, the lower extreme at branch is seted up to the thread groove, the inside at the thread groove is connected to the upper end screw thread of screw rod.

Further, as preferred technical scheme, the runner assembly includes a rotary trough and a rotary block, the rotary trough is opened on the upper end right side of the box body, the rotary block is arranged on the lower end right side of the cover plate, and the rotary block is rotatably connected in the rotary trough.

Further, as a preferred technical scheme, the positioning mechanism comprises a rod groove, a spring, a clamping rod and a clamping groove, the rod groove is formed in the left side of the upper end of the box body, the spring is arranged in the rod groove, the clamping rod is arranged at one end of the spring, a second limiting component is arranged on the outer wall of the clamping rod, one end of the clamping rod penetrates through the rod groove, the clamping groove is formed in the side wall of the protruding block, and one end of the clamping rod is inserted into the clamping groove.

Further, as a preferred technical scheme, the second limiting component comprises a second limiting block and a second limiting groove, the second limiting block is arranged on the outer wall of the clamping rod, the inner wall of the rod groove is formed in the second limiting groove, and the second limiting block is connected inside the second limiting groove in a sliding mode.

Further, as an optimal technical scheme, the inside sliding connection of draw-in groove has the push rod, the one end and the kelly laminating of push rod are connected, the outer wall of push rod is provided with the spacing subassembly of third, the other end of push rod runs through the lug through the draw-in groove.

Further, as an optimal technical scheme, the third limiting component comprises a third limiting block and a third limiting groove, the third limiting block is arranged on the outer wall of the push rod, the third limiting groove is formed in the inner wall of the clamping groove, and the third limiting block is connected to the inside of the third limiting groove in a sliding mode.

To sum up, the utility model discloses mainly have following beneficial effect:

firstly, after collected soil is placed in a bottle body, the bottle body is placed in a groove, then a rotating assembly rotates a cover plate to enable the cover plate to be attached to the upper end of a box body, the position of the cover plate is fixed through a positioning mechanism, the lower end of a sealing gasket can be attached to a heat preservation block, and therefore the bottle body is fixed in the groove;

second, when closing apron and box, the extrusion through the lug makes the kelly get into the inside in pole groove, and after the draw-in groove removed the position to the kelly, drive the kelly through the spring and reset, and the position of kelly is stabilized through the spacing subassembly of second, can make the inside of one end insertion draw-in groove of kelly, thereby make the kelly pass through the draw-in groove and fix the lug in the left side of box, and then make positioning mechanism pass through the lug and reach the effect of fixed cover position, when the apron is opened to needs, only need press the push rod to the inside of draw-in groove, and the position of the firm push rod of spacing subassembly through the third, can make the push rod release the draw-in groove with the kelly, reach the effect that makes kelly and draw-in groove separation, thereby make positioning mechanism no longer fix the position of lug, rotate the apron through rotating assembly afterwards, can open the apron, easy operation is swift.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a cross-sectional view of the present invention;

fig. 3 is a schematic structural view of the lifting mechanism of the present invention;

fig. 4 is an enlarged view of a portion a of fig. 2 according to the present invention.

Reference numerals: 1. the box, 2, the heat preservation piece, 21, the recess, 22, the cushion, 3, the bottle, 4, elevating system, 41, the spout, 42, branch, 43, drive assembly, 431, micro motor, 432, the screw rod, 433, the thread groove, 44, first spacing subassembly, 441, first stopper, 442, first spacing groove, 5, the extension board, 6, rotating assembly, 61, the rotary groove, 62, the rotary block, 7, the apron, 71, sealed pad, 72, the lug, 8, positioning mechanism, 81, the pole groove, 82, the spring, 83, the kelly, 84, the draw-in groove, 85, second spacing subassembly, 851, the second stopper, 852, the second spacing groove, 86, the push rod, 87, the third spacing subassembly, 871, the third stopper, 872, the third spacing groove.

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 1

Referring to fig. 1-4, the soil sample storage device for monitoring soil environment according to the embodiment includes a box body 1, a heat preservation block 2 is disposed inside the box body 1, a groove 21 is formed in an upper end of the heat preservation block 2, a bottle body 3 is inserted into the groove 21, a lifting mechanism 4 is disposed at a lower end inside the groove 21, a support plate 5 is disposed at a lower end inside the groove 21 through the lifting mechanism 4, cushions 22 are disposed on an upper end of the support plate 5 and an inner wall of the groove 21, respectively, an upper end of the support plate 5 is connected to the bottle body 3 through the cushion 22 in an attached manner, a rotating assembly 6 is disposed on a right side of the upper end of the box body 1, a cover plate 7 is rotatably connected to a right side of the upper end of the box body 1 through the rotating assembly 6, a sealing pad 71 is disposed at a lower end of the cover plate 7, a lower end of the sealing pad 71 is connected to the heat preservation block 2 in an attached manner, a projection 72 is disposed on a left side of the lower end of the cover plate 7, a positioning mechanism 8 is disposed at an upper end of a left side wall of the box body 1, and the positioning mechanism 8 is connected to the projection 72; place the soil of gathering in the inside of bottle 3 after, place bottle 3 in the inside of recess 21, rotate apron 7 through runner assembly 6 afterwards, make the laminating of apron 7 in the upper end of box 1, and the position of the fixed apron 7 of positioning mechanism 8, can make the lower extreme that seals up pad 71 laminate with insulating block 2, thereby reach and fix bottle 3 at the inside effect of recess 21, through sealing bottle 3, the heat preservation is handled, and avoid bottle 3 and insulating block 2 to collide through cushion 22, thereby play the guard action to the soil sample of bottle 3 inside, avoid soil sample to receive external factor and influence the effect of soil environment monitoring, simultaneously portable uses, and when bottle 3 is taken out to needs, only need open apron 7, drive extension board 5 rebound through elevating system 4 afterwards, can make the upper end of bottle 3 run through recess 21, afterwards can bottle 3 pull out recess 21, and easy operation, it is swift.

Example 2

Referring to fig. 3, on the basis of embodiment 1, in order to achieve the purpose of conveniently taking out the bottle body 3, the present embodiment has an innovative design on the lifting mechanism 4, specifically, the lifting mechanism 4 includes a chute 41, a supporting rod 42 and a transmission assembly 43, the chute 41 is arranged at the lower end inside the groove 21, the supporting rod 42 is arranged at the lower end of the supporting plate 5, the lower end of the supporting rod 42 is slidably connected inside the chute 41, the transmission assembly 43 is arranged at the lower end of the chute 41, the transmission assembly 43 is in transmission connection with the supporting rod 42, and the lower end of the side wall of the supporting rod 42 is provided with a first limit group; drive branch 42 at the inside longitudinal movement of spout 41 through drive assembly 43, and through the position of the firm branch 42 of first spacing subassembly 44, can make branch 42 drive extension board 5 longitudinal movement to make 4 accessible extension boards 5 of elevating system upwards push up bottle 3, treat that the upper end of bottle 3 runs through behind recess 21, can pull out recess 21 with bottle 3, make bottle 3 convenient and fast more when taking out.

Referring to fig. 3, in order to stabilize the position of the supporting rod 42, the first limiting component 44 of the present embodiment includes a first limiting block 441 and a first limiting groove 442, the first limiting block 441 is disposed at the lower end of the side wall of the supporting rod 42, the first limiting groove 442 is disposed on the inner wall of the sliding groove 41, and the first limiting block 441 is slidably connected inside the first limiting groove 442; the first limiting block 441 is slidably connected to the inside of the first limiting groove 442, so that the first limiting component 44 can stabilize the position of the supporting rod 42, and the supporting rod 42 is prevented from rotating along with the transmission component 43 and being unable to move longitudinally.

Referring to fig. 3, for the purpose of moving the support plate 5 longitudinally, the transmission assembly 43 of the present embodiment includes a micro motor 431, a screw 432 and a thread groove 433, the micro motor 431 is disposed at the lower end of the sliding groove 41, the screw 432 is disposed at the output end of the micro motor 431, the upper end of the screw 432 extends into the sliding groove 41, the thread groove 433 is disposed at the lower end of the support rod 42, and the upper end of the screw 432 is connected to the inside of the thread groove 433 in a threaded manner; when the support plate 5 needs to move longitudinally, the micro motor 431 drives the screw 432 to rotate, the position of the support rod 42 is stabilized through the first limiting component 44, the support rod 42 is prevented from rotating along with the screw 432, the screw 432 can drive the support rod 42 to move longitudinally through the thread groove 433, and the transmission component 43 can drive the support plate 5 to move longitudinally through the support rod 42.

Example 3

Referring to fig. 2, on the basis of embodiment 2, in order to achieve the purpose of facilitating the opening and closing of the cover plate 7, the present embodiment has an innovative design on the rotating assembly 6, specifically, the rotating assembly 6 includes a rotating slot 61 and a rotating block 62, the rotating slot 61 is opened on the right side of the upper end of the box body 1, the rotating block 62 is arranged on the right side of the lower end of the cover plate 7, and the rotating block 62 is rotatably connected inside the rotating slot 61; rotate through commentaries on classics piece 62 and connect in the inside of revolving chute 61, can be that apron 7 passes through runner assembly 6 and rotates on the upper end right side of box 1 to be convenient for apron 7 reaches the effect that opens and shuts.

Referring to fig. 4, for the purpose of fixing the position of the cover plate 7, the positioning mechanism 8 of this embodiment includes a rod groove 81, a spring 82, a clamping rod 83 and a clamping groove 84, the rod groove 81 is opened on the left side of the upper end of the box body 1, the spring 82 is disposed inside the rod groove 81, the clamping rod 83 is disposed at one end of the spring 82, a second limiting component 85 is disposed on the outer wall of the clamping rod 83, one end of the clamping rod 83 penetrates through the rod groove 81, the clamping groove 84 is opened on the side wall of the protrusion 72, and one end of the clamping rod 83 is inserted into the clamping groove 84; when closing apron 7 and box 1, the extrusion through lug 72 makes the inside that the kelly 83 got into pole groove 81, and after draw-in groove 84 removed the position to kelly 83, drive kelly 83 through spring 82 and reset, and the position of the kelly 83 of stabilizing through second spacing subassembly 85, can make the inside that draw-in groove 84 was inserted to the one end of kelly 83, thereby make the kelly 83 fix the lug 72 in the left side of box 1 through draw-in groove 84, and then make positioning mechanism 8 reach the effect of fixed apron 7 position through lug 72.

Referring to fig. 4, in order to achieve the purpose of stabilizing the position of the locking rod 83, the second limiting component 85 of this embodiment includes a second limiting block 851 and a second limiting groove 852, the second limiting block 851 is disposed on the outer wall of the locking rod 83, the second limiting groove 852 is disposed on the inner wall of the rod groove 81, and the second limiting block 851 is slidably connected inside the second limiting groove 852; through making second stopper 851 sliding connection in the inside of second spacing groove 852, make second spacing subassembly 85 can stabilize the position of kelly 83 in pole groove 81 inside, avoid kelly 83 to drop the position that influences lug 72.

Referring to fig. 4, in order to separate the locking rod 83 from the locking groove 84, a push rod 86 is slidably connected inside the locking groove 84 of this embodiment, one end of the push rod 86 is attached to the locking rod 83, a third limiting component 87 is disposed on an outer wall of the push rod 86, and the other end of the push rod 86 penetrates through the protrusion 72 through the locking groove 84; when the cover plate 7 needs to be opened, the push rod 86 is only required to be pressed towards the inside of the clamping groove 84, and the position of the push rod 86 is stabilized through the third limiting assembly 87, so that the push rod 86 pushes the clamping rod 83 out of the clamping groove 84, the effect of separating the clamping rod 83 from the clamping groove 84 is achieved, the position of the convex block 72 is no longer fixed by the positioning mechanism 8, and then the cover plate 7 is rotated through the rotating assembly 6, so that the cover plate 7 can be opened.

Referring to fig. 4, in order to achieve the purpose of stabilizing the position of the push rod 86, the third limiting component 87 of this embodiment includes a third limiting block 871 and a third limiting groove 872, the third limiting block 871 is disposed on the outer wall of the push rod 86, the third limiting groove 872 is disposed on the inner wall of the locking groove 84, and the third limiting block 871 is slidably connected inside the third limiting groove 872; the third limiting block 871 is slidably connected inside the third limiting groove 872, so that the third limiting component 87 can stabilize the position of the push rod 86, and the influence on the control of the clamping rod 83 due to the falling of the push rod 86 is avoided.

The use principle and the advantages are as follows: after the collected soil is placed in the bottle body 3, the bottle body 3 is placed in the groove 21, and then the rotating block 62 is rotatably connected in the rotating groove 61, so that the cover plate 7 can be rotated by the rotating component 6, the cover plate 7 is attached to the upper end of the box body 1, and when the cover plate 7 is attached to the box body 1, the clamping rod 83 enters the rod groove 81 through the extrusion of the convex block 72, and after the clamping groove 84 moves to the position of the clamping rod 83, the clamping rod 83 is driven to reset by the spring 82, and is slidably connected in the second limiting groove 852 through the second limiting block 851, so that the position of the clamping rod 83 is stabilized by the second limiting component 85, one end of the clamping rod 83 can be inserted into the clamping groove 84, and the positioning mechanism 8 fixes the position of the cover plate 7 through the convex block 72, so that the lower end of the sealing gasket 71 can be attached to the heat-insulating block 2, and the effect of fixing the bottle body 3 in the groove 21 is achieved, through sealing and heat preservation of the bottle body 3 and avoiding the bottle body 3 from colliding with the heat preservation block 2 through the cushion 22, the soil sample inside the bottle body 3 is protected, the soil sample is prevented from being influenced by external factors to influence the monitoring effect of the soil environment, meanwhile, the portable use is realized, when the soil sample needs to be taken out, the push rod 86 is pressed and is connected inside the third limiting groove 872 in a sliding manner through the third limiting block 871, the third limiting component 87 stabilizes the position of the push rod 86, the push rod 86 can push the clamping rod 83 out of the clamping groove 84, the positioning mechanism 8 is not positioned at the position of the fixed lug 72, then the cover plate 7 can be rotated at the right side of the upper end of the box body 1 through the rotating component 6, the cover plate 7 does not seal the box body 1 again, then the micro motor 431 drives the screw rod 432 to rotate, and is connected inside the first limiting groove 442 in a sliding manner through the first limiting block 441, make the position of the firm branch 42 of first spacing subassembly 44, avoid branch 42 to follow screw 432 and rotate, can make screw 432 drive branch 42 through thread groove 433 at the inside longitudinal movement of spout 41, thereby make drive assembly 43 can drive extension board 5 longitudinal movement through branch 42, and then make elevating system 4 can drive bottle 3 longitudinal movement through extension board 5, treat that the upper end of bottle 3 runs through behind the recess 21, can upwards spur bottle 3 and take out easy operation, swiftly.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a soil sample save set that soil environment monitoring used which characterized in that: including box (1), the inside of box (1) is provided with insulating block (2), recess (21) are seted up to the upper end of insulating block (2), the inside grafting of recess (21) has bottle (3), the inside lower extreme of recess (21) is provided with elevating system (4), the inside lower extreme of recess (21) is provided with extension board (5) through elevating system (4), the upper end of extension board (5) and the inner wall of recess (21) are provided with cushion (22) respectively, the upper end of extension board (5) is passed through cushion (22) and is connected with bottle (3) laminating, the upper end right side of box (1) is provided with runner assembly (6), the upper end right side of box (1) is rotated through runner assembly (6) and is connected with apron (7), the lower extreme of apron (7) is provided with sealed pad (71), the lower extreme that sealed pad (71) is connected with insulating block (2) laminating, the lower extreme left side of apron (7) is provided with lug (72), the upper end of box (1) left side wall is provided with positioning mechanism (8), positioning mechanism (8) and joint lug (72).

2. The soil sample storage device for monitoring soil environment according to claim 1, wherein: elevating system (4) include spout (41), branch (42) and drive assembly (43), the lower extreme at recess (21) inside is seted up in spout (41), branch (42) set up the lower extreme at extension board (5), the lower extreme sliding connection of branch (42) is in the inside of spout (41), drive assembly (43) set up the lower extreme at spout (41), drive assembly (43) are connected with branch (42) transmission, the lower extreme of branch (42) lateral wall is provided with first spacing subassembly (44).

3. The soil sample storage device for monitoring soil environment according to claim 2, wherein: first spacing subassembly (44) include first stopper (441) and first spacing groove (442), first stopper (441) set up the lower extreme at branch (42) lateral wall, the inner wall at spout (41) is seted up in first spacing groove (442), first stopper (441) sliding connection is in the inside of first spacing groove (442).

4. The soil sample storage device for soil environment monitoring according to claim 2, wherein: the transmission assembly (43) comprises a micro motor (431), a screw rod (432) and a thread groove (433), wherein the micro motor (431) is arranged at the lower end of the sliding groove (41), the screw rod (432) is arranged at the output end of the micro motor (431), the upper end of the screw rod (432) extends into the sliding groove (41), the thread groove (433) is arranged at the lower end of the supporting rod (42), and the upper end of the screw rod (432) is in threaded connection with the inside of the thread groove (433).

5. The soil sample storage device for monitoring soil environment according to claim 1, wherein: rotating assembly (6) are including rotating groove (61) and commentaries on classics piece (62), the upper end right side in box (1) is seted up in rotating groove (61), change piece (62) and set up the lower extreme right side at apron (7), change piece (62) and rotate the inside of connecting in rotating groove (61).

6. The soil sample storage device for monitoring soil environment according to claim 1, wherein: positioning mechanism (8) include pole groove (81), spring (82), kelly (83) and draw-in groove (84), the upper end left side at box (1) is seted up in pole groove (81), spring (82) set up the inside in pole groove (81), kelly (83) set up the one end in spring (82), the outer wall of kelly (83) is provided with spacing subassembly of second (85), the one end of kelly (83) runs through pole groove (81), the lateral wall at lug (72) is seted up in draw-in groove (84), the one end of kelly (83) is pegged graft in the inside of draw-in groove (84).

7. The soil sample storage device for soil environment monitoring according to claim 6, wherein: the second limiting component (85) comprises a second limiting block (851) and a second limiting groove (852), the second limiting block (851) is arranged on the outer wall of the clamping rod (83), the second limiting groove (852) is arranged on the inner wall of the rod groove (81), and the second limiting block (851) is connected inside the second limiting groove (852) in a sliding manner.

8. The soil sample storage device for monitoring soil environment according to claim 6, wherein: the inside sliding connection of draw-in groove (84) has push rod (86), the one end and the laminating of kelly (83) of push rod (86) are connected, the outer wall of push rod (86) is provided with third spacing subassembly (87), the other end of push rod (86) passes through draw-in groove (84) and runs through lug (72).

9. The soil sample storage device for monitoring soil environment according to claim 8, wherein: the third limiting component (87) comprises a third limiting block (871) and a third limiting groove (872), the third limiting block (871) is arranged on the outer wall of the push rod (86), the third limiting groove (872) is arranged on the inner wall of the clamping groove (84), and the third limiting block (871) is connected to the inside of the third limiting groove (872) in a sliding manner.

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