CN111977041A

CN111977041A - Soil sample's bottling mechanism

Info

Publication number: CN111977041A
Application number: CN202010711378.8A
Authority: CN
Inventors: 厉风英
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-22
Filing date: 2020-07-22
Publication date: 2020-11-24

Abstract

The invention discloses a soil sample bottling mechanism, which comprises a fixed support, a movable support and a placing disc, wherein the placing disc is fixed on the movable support, the movable support is rotatably fixed on the fixed support, a circular groove is formed in the placing disc, a sample bottle is placed on the circular groove, an outer shell is arranged above the sample bottle, a discharging channel is arranged at the bottom of the outer shell, a power mechanism is arranged on the outer side of the fixed support, the power mechanism is connected with the movable support, and a quantitative control mechanism is arranged on the discharging channel; according to the invention, a sample bottle is placed on a placing disc at one side of a movable support, a power mechanism drives the movable support to rotate to the bottom of a discharging channel, and after the sample bottle is filled with a soil sample, the movable support rotates to the other side to take down the sample bottle; the quantitative control mechanism is used for opening or closing the discharge channel, when a sample bottle is arranged at the bottom of the discharge channel, the quantitative control mechanism opens the discharge channel, the soil sample falls into the sample bottle from the discharge channel, a certain amount of the soil sample is well loaded, and the discharge channel is closed.

Description

Soil sample's bottling mechanism

Technical Field

The invention relates to the field of bottling of soil samples, in particular to a bottling mechanism of the soil samples.

Background

Soil sample preparation, from the process of going through mixing, drying, levigating and sieving afterwards, soil sample preparation back, the bottling of need weighing makes things convenient for follow-up experiment to use, and present soil sample bottling mostly is manual operation to in order to guarantee unanimous load capacity need weigh the bottling simultaneously, and bottling inefficiency wastes time and energy.

Disclosure of Invention

The invention aims to provide a soil sample bottling mechanism, wherein a placing disc is arranged on a movable support, a sample bottle is placed on the placing disc on one side of the movable support, a power mechanism drives the movable support to rotate by a certain angle so that the sample bottle is positioned at the bottom of a discharge channel, after the soil sample is bottled by the sample bottle, the power mechanism drives the movable support to rotate by a certain angle, and the sample bottle is taken down and sealed on the other side of the movable support; the quantitative control mechanism is used for opening or closing the discharge channel, when a sample bottle is arranged at the bottom of the discharge channel, the discharge channel is opened by the quantitative control mechanism, a soil sample falls into the sample bottle from the discharge channel, and the discharge channel is controlled to be closed by the quantitative control mechanism through timing control or a gravity sensor below the sample bottle, so that the loading capacity of the bottle is basically consistent.

In order to realize the purpose of the invention, the invention adopts the following technical scheme:

the utility model provides a bottling mechanism of soil sample, includes fixed bolster, movable support and places the dish, places the dish and fixes on movable support, and movable support rotatably fixes on fixed bolster, places to be equipped with the circular slot on the dish, is used for placing the sample bottle on the circular slot, and sample bottle top is equipped with the shell body, and the shell body bottom is equipped with discharging channel, and the fixed bolster outside is equipped with power unit, and power unit and movable support connection are equipped with quantitative control mechanism on the discharging channel.

The movable support comprises two turntables and a central rod, the two fixed supports are arranged on the outer side of the turntables, the turntables are fixed on two sides of the central rod, two sides of the central rod can be rotatably connected with the fixed supports, the central rod drives the turntables and the placing plates to rotate, and the placing plates keep horizontal in the rotating process due to the action of gravity.

Place the dish and be equipped with three effective raise the efficiency. The rotating disc is provided with three connecting rods, hanging rods are arranged at two ends of the placing disc and rotatably connected with the connecting rods, sample bottles are placed on the placing disc from one side, the third motor drives the placing disc to rotate by 120 degrees, the sample bottles are located at the bottom of the discharging channel, soil samples are loaded into the sample bottles from the bottom of the channel, after the soil samples are loaded in a sufficient quantity, the third motor drives the placing disc to rotate by 120 degrees, and the sample bottles are taken down from the other side.

The power mechanism comprises a third motor, a driving wheel, a chain and a driving wheel, an output shaft of the third motor is fixedly connected with the driving wheel, the driving wheel is connected with the driving wheel through the chain, the driving wheel is fixedly connected with the central rod, the third motor is started, the third motor drives the driving wheel to rotate, the driving wheel drives the driving wheel to rotate through the chain, and the driving wheel drives the central rod to rotate.

The quantitative control mechanism comprises an air cylinder and a baffle plate, the air cylinder is fixed on the outer side of the discharge channel, an extension rod of the air cylinder is fixedly connected with one end of the baffle plate, a through groove matched with the baffle plate is formed in the bottom of the discharge channel, and the baffle plate is movably arranged in the through groove; the extension bar of cylinder is leading to inslot rearward movement, drives the separation blade rearward movement, opens discharging channel, and soil detects weight in discharging channel falls into the sample bottle, and when weight reached the setting value, the extension bar of cylinder moved forward and sealed discharging channel.

The circular groove bottom is equipped with gravity sensor, and circular groove one side is equipped with the weight display screen, and control system includes control chip, control chip and first motor, second motor, third motor, solenoid valve and three gravity sensor electric connection.

Compared with the prior art, the bottle-filling mechanism of the soil sample adopting the technical scheme has the following beneficial effects:

firstly, the placing disc is arranged on the movable support, the sample bottles are placed on the placing disc on one side of the movable support, the power mechanism drives the movable support to rotate by a certain angle, so that the sample bottles are positioned at the bottom of the discharging channel, after the soil samples are filled in the sample bottles, the power mechanism drives the movable support to rotate by a certain angle, and the sample bottles are taken down from the other side of the movable support and sealed.

And the quantitative control mechanism is used for opening or closing the discharge channel, when a sample bottle is arranged at the bottom of the discharge channel, the discharge channel is opened by the quantitative control mechanism, the soil sample falls into the sample bottle from the discharge channel, and the discharge channel is controlled to be closed by the quantitative control mechanism through timing control or a gravity sensor below the sample bottle, so that the loading capacity of the bottle is basically consistent.

Drawings

FIG. 1 is a schematic structural view of a soil sample preparation device according to the present invention.

Fig. 2 is a partial cross-sectional view of a soil sample preparation device.

FIG. 3 is a partial cross-sectional view of another angle of the soil sample preparation device.

Fig. 4 is a schematic cross-sectional view of a soil sample preparation device.

Fig. 5 is a schematic structural view of a grinding mechanism in the soil sample preparation device.

Fig. 6 is a schematic structural diagram of a screening and drying mechanism in the soil sample preparation device.

Fig. 7 is a schematic structural view of a bottling mechanism in the soil sample preparation device.

Reference numerals: 1. a grinding mechanism; 11. a grinding wheel; 110. cutting the strips; 12. a grinding plate; 13. grinding the channel; 14. a first motor; 15. a sloping plate; 16. a guide block; 2. a screening and drying mechanism; 21. a second motor; 22. a sieve tray; 220. a card slot; 23. connecting columns; 24. a connecting rod; 25. placing a ring; 250. a clamping block; 26. an annular plate; 3. a bottling mechanism; 31. fixing a bracket; 32. placing a tray; 321. a hanging rod; 322. a circular groove; 323. a weight display screen; 33. a turntable; 34. a center pole; 35. a third motor; 36. a chain; 4. A feed channel; 5. an outer housing; 52. a limiting plate; 53. a locking buckle; 54. a cover plate; 55. a support pillar; 56. a fixing plate; 57. a clamping and connecting plate; 6. a discharge channel; 7. a sample bottle; 8. a quantitative control mechanism; 81. a cylinder; 82. a baffle plate.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 7, a soil sample preparation device, including grinding mechanism 1, screening drying mechanism 2 and bottling mechanism 3, grinding mechanism 1 locates screening drying mechanism 2 one side, bottling mechanism 3 is located screening drying mechanism 2 below, grinding mechanism 1 top is equipped with tubaeform feedstock channel 4, through pouring soil in feedstock channel 4, soil is smashed through grinding mechanism 1 and is ground, send into screening drying mechanism 2, screening drying mechanism 2 sieves soil sample dry enough, pack into the bottle through bottling mechanism 3 and preserve.

Soil sample preparation facilities still includes shell body 5, and shell body 5 below is equipped with a plurality of support columns 55 and the joint board 57 that are used for supporting shell body 5, support column 55 top and shell body 5 fixed connection, support column 55 bottom and fixed plate 56 fixed connection, fixed plate 56 and ground fixed connection, conveniently fix soil sample preparation facilities, and fixed plate 56 bottom also can set up the rotating wheel, conveniently removes soil sample preparation facilities.

The grinding mechanism 1 comprises a grinding wheel 11 and a grinding plate 12, the grinding plate 12 is of an L shape, the inner side of the grinding plate 12 is provided with a round angle, the grinding wheel 11 is arranged on the inner side of the grinding plate 12, the grinding wheel 11 is arranged between the grinding plates 12 and is provided with a grinding channel 13, the axis of the round angle on the inner side of the grinding plate 12 is not intersected with the axis of the grinding wheel 11, the axis of the grinding wheel 11 is positioned on the outer side of the axis of the round angle, so that the grinding channel 13 is gradually reduced from top to bottom, a feeding channel 4 is positioned above the grinding channel 13, one side of the grinding wheel 11 is provided with a first motor 14, the first motor 14 is fixed on an outer shell 5, the grinding wheel 11 is fixedly connected with an output shaft of the first motor 14, the grinding wheel 11 is provided with a plurality of cutting strips 110 for guiding, a soil sample enters the grinding channel 13 through the feeding channel 4, the first motor 14 is started, the output shaft of the, and mutually support with grinding plate 12, extrude the soil sample, grind passageway 13 from the top down and diminish gradually for the soil piece is constantly crushed and is become exquisite soil and reach and grind passageway 13 bottom, and the cutting strip 110 evagination outside grinding wheel 11, the cross-section of cutting strip 110 is the inverted triangle-shaped, and at the rotatory in-process of grinding wheel 11, cutting strip 110 transports the opposite side with exquisite soil from grinding passageway 13 bottom.

The shell body 5 side is equipped with first opening, lapping plate 12 detachably locates in the first opening, after the grinding, can dismantle lapping plate 12 and get off the inside remaining soil sample of clearance, be equipped with limiting plate 52 on the first opening, lapping plate 12 medial surface and limiting plate 52 butt, limiting plate 52 makes lapping plate 12 put into relevant position accurately, be equipped with the locking that is used for locking lapping plate 12 on the shell body 5 and detain 53, locking detains 53 can fix on shell body 5 with the below is slided, locking detains 53 and is located first opening top, locking detains 53 and includes spout and slide, the spout is the inverted trapezoid, the slide slidable is located in the spout, the spout top is equipped with magnet, the slide top is made for the material that can be inhaled by the magnetism.

The grinding plate 12 needs to be disassembled, the sliding plate slides upwards, the sliding plate is fixed in the sliding groove through magnetic attraction, and then the grinding plate 12 is taken out from the first opening; when the grinding plate 12 needs to be installed, the grinding plate 12 is placed in the first opening firstly, the position of the grinding plate 12 is determined through the limiting plate 52, and then the sliding plate is moved downwards to be clamped on the first opening, so that the grinding plate 12 is effectively prevented from sliding out.

Grind 1 one side of mechanism and be equipped with the swash plate 15 that is used for the soil sample to fall into screening drying mechanism 2, the 15 downward slopping of swash plate, and 15 both sides of swash plate all are equipped with guide block 16, and exquisite soil sample constantly piles up, from the 15 landing of swash plate, fall into screening drying mechanism 2 and sieve the drying, and guide block 16 is used for reducing the exit width of swash plate 15, and guide block 16 makes the soil sample all fall into inside screening drying mechanism 2.

The other side of the outer shell 5 is provided with a second opening, the second opening is used for placing the sieve tray 22 or taking out the sieve tray 22, the second opening is provided with a cover plate 54, the top of the cover plate 54 is connected with the second opening in a turnover mode, the side of the cover plate 54 is provided with a convex limiting strip, and the cover plate 54 is provided with a handle which is convenient to turn over manually.

The screening and drying mechanism 2 is arranged on one side of the second opening, the screening and drying mechanism 2 comprises a second motor 21, a rotating part and a screen disc 22, the second motor 21 is fixed on the top of the outer shell 5, the rotating part comprises a connecting column 23, a plurality of connecting rods 24 with place ring 25, the output shaft of second motor 21 and spliced pole 23 top fixed connection, spliced pole 23 side is equipped with and is used for making things convenient for the pivoted spout, be equipped with joint board 57 in the shell body 5, be equipped with on the joint board 57 with spout assorted round hole, spliced pole 23 through a plurality of connecting rods 24 with place ring 25 fixed connection, it is equipped with the annular slab 26 that is used for the direction on the ring 25 to place, annular slab 26 is loudspeaker form, sieve tray 22 detachably places on placing ring 25, sieve tray 22 top is equipped with a plurality of draw-in grooves 220, it is equipped with on the ring 25 with draw-in groove 220 assorted fixture block 250 to place, it is equipped with discharging channel 6 to place ring 25 below, discharging channel 6 is.

Before using, sieve tray 22 gets into shell body 5 through the second opening, and when the soil sample of different particle diameters of needs, removable corresponding sieve tray 22 to the clearance is conveniently taken out, sieve tray 22 is placed on placing ring 25, and the draw-in groove 220 and the fixture block 250 joint of sieve tray 22, and fixture block 250 restriction sieve tray 22 radially rotates.

Soil sample falls into on annular plate 26 from swash plate 15, annular plate 26 is with the leading-in screen tray 22 of soil sample in, second motor 21 starts, the output shaft of second motor 21 drives spliced pole 23 and rotates, spliced pole 23 is fixed through joint board 57, and it is rotatory on joint board 57, spliced pole 23 drives through connecting rod 24 and places the ring 25 rotation, it drives screen tray 22 rotation to place the ring 25, when screen tray 22 is rotatory, soil sample in the screen tray 22 falls into on discharging channel 6 from the sieve mesh of screen tray 22 side and bottom, the in-process that falls has drying effect, in order to make soil sample drier, can set up ventilative negative pressure mechanism and/or heating mechanism at the 5 medial surfaces of the shell body in the screen tray 22 outside.

The bottling mechanism 3 comprises two fixed brackets 31, a movable bracket and three placing discs 32, the bottom of the fixed bracket 31 is fixed on a fixed plate 56, the two fixed brackets 31 are arranged on two sides of the movable bracket, the movable bracket comprises two turntables 33 and a central rod 34, the turntables 33 are fixed on two sides of the central rod 34, two sides of the central rod 34 can be rotatably connected with the fixed brackets 31, three connecting rods 24 are arranged on the turntables 33, hanging rods 321 are arranged at two ends of the placing discs 32, the hanging rods 321 are rotatably connected with the connecting rods 24, circular grooves 322 are arranged on the placing discs 32, sample bottles 7 are placed on the circular grooves 322, a power mechanism is arranged outside the fixed brackets 31, the power mechanism comprises a third motor, the output shaft of the third motor 35 is fixedly connected with the driving wheel, the driving wheel is connected with the driving wheel through the chain 36, and the driving wheel is fixedly connected with the central rod 34.

Third motor 35 starts, third motor 35 drives the action wheel rotatory, the action wheel passes through chain 36 and drives the drive wheel rotatory, it is rotatory that the drive wheel drives well core rod 34, well core rod 34 drives carousel 33 and places the dish 32 rotatory, it is because of the action of gravity to place the dish 32, keep the level at rotatory in-process, place sample bottle 7 on the dish 32 from placing of one side, third motor 35 drives and places the dish 32 rotatory 120, sample bottle 7 is located discharge passage 6 bottom, soil sample packs into sample bottle 7 from the passageway bottom, adorn enough quantitative back, third motor 35 drives and places the dish 32 rotatory 120, take off sample bottle 7 from the opposite side, it sets up three effective raise the efficiency to place dish 32.

Soil sample preparation facilities still includes quantitative control mechanism 8 and control system, quantitative control mechanism 8 includes cylinder 81 and separation blade 82, cylinder 81 one side is equipped with the solenoid valve, cylinder 81 is fixed in the 6 outsides of discharging channel, the extension bar of cylinder 81 and separation blade 82 one end fixed connection, 6 bottoms of discharging channel are equipped with the logical groove with separation blade 82 assorted, separation blade 82 is used for sealing or opens discharging channel 6, the movably inslot that locates of separation blade 82, circular slot 322 bottom is equipped with gravity sensor, circular slot 322 one side is equipped with weight display screen 323, control system includes control chip, control chip and first motor 14, second motor 21, third motor 35, solenoid valve and three gravity sensor electric connection.

When there is sample bottle 7 bottom discharging channel 6, the extension bar of cylinder 81 moves backward in leading to the inslot, drives separation blade 82 and moves backward, opens discharging channel 6, and soil falls into sample bottle 7 from discharging channel 6 in, and the gravity sensor of sample bottle 7 below detects weight, and when reaching the setting value to weight, the extension bar of cylinder 81 moved forward and seals discharging channel 6.

The use process comprises the following steps:

1. during the use, pour soil into from feedstock channel 4 top, the soil sample goes into to grind passageway 13, and first motor 14 starts, and the output shaft of first motor 14 drives grinding miller 11 rotatory, and grinding miller 11 constantly drives soil sample and gets into and grind passageway 13 to mutually support with lapping plate 12, extrude the soil sample.

2. Grind passageway 13 from the top down and diminish gradually for the soil piece constantly is become fine and smooth soil by the crushing and arrives and grind passageway 13 bottom, at the rotatory in-process of grinding miller 11, and cutting strip 110 transports the opposite side with fine and smooth soil from grinding passageway 13 bottom, and fine and smooth soil sample constantly piles up from swash plate 15 landing, and guide block 16 makes soil sample all fall into inside screening drying mechanism 2.

3. Soil sample falls into on annular plate 26 from swash plate 15, annular plate 26 is with the leading-in sieve of soil sample dish 22, second motor 21 starts, the output shaft of second motor 21 drives spliced pole 23 and rotates, spliced pole 23 drives through connecting rod 24 and places the ring 25 rotation, it drives sieve dish 22 rotation to place the ring 25, when sieve dish 22 is rotatory, soil sample in the sieve dish 22 falls into discharging channel 6 from the sieve mesh of sieve dish 22 side and bottom on, discharging channel 6 is sealed by separation blade 82.

4. The third motor 35 is started, the third motor 35 drives the driving wheel to rotate, the driving wheel drives the driving wheel to rotate through the chain 36, the driving wheel drives the central rod 34 to rotate, the central rod 34 drives the turntable 33 and the placing disc 32 to rotate, and the placing disc 32 is kept horizontal in the rotating process due to the action of gravity.

5. Put sample bottle 7 on the dish 32 of placing from one side, third motor 35 drives and places the dish 32 rotatory 120, sample bottle 7 is located discharge passage 6 bottom, the extension bar of cylinder 81 moves backward in leading to the inslot, drive separation blade 82 and move backward, open discharge passage 6, soil falls into sample bottle 7 from discharge passage 6 in, the gravity sensor of sample bottle 7 below detects weight, when reaching the setting value to weight, the extension bar of cylinder 81 moves forward and seals discharge passage 6.

6. After the sufficient ration of dress, third motor 35 drives and places the rotatory 120 of dish 32, takes off sample bottle 7 from the opposite side, places dish 32 and sets up three effective raise the efficiency.

7. After the soil sample preparation, can dismantle the clearance with lapping plate 12, with the slide upwards sliding, the slide is inhaled and is fixed in the spout through magnetism, then takes out lapping plate 12 from first opening, conveniently clears up lapping plate 12 and grinding miller 11.

8. When soil samples with different grain diameters are needed, the cover plate 54 can be opened to replace the corresponding sieve tray 22 through the second opening, the sieve tray 22 is placed on the placing ring 25, the clamping groove 220 of the sieve tray 22 is clamped with the clamping block 250, and the clamping block 250 limits the sieve tray 22 to rotate in the radial direction.

The foregoing is a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit of the invention, and these should be considered to be within the scope of the invention.

Claims

1. The utility model provides a bottled mechanism of soil sample which characterized in that: including fixed bolster (31), the movable support with place dish (32), place dish (32) and fix on the movable support, the movable support rotatably fixes on the fixed bolster, it is equipped with circular slot (322) on dish (32) to place, be used for placing sample bottle (7) on circular slot (322), sample bottle (7) top is equipped with shell body (5), shell body (5) bottom is equipped with discharging channel (6), the fixed bolster (31) outside is equipped with power unit, power unit and movable support connection, be equipped with quantitative control mechanism (8) on discharging channel (6).

2. The soil sample bottling plant according to claim 1, wherein: the movable support comprises two turntables (33) and a center rod (34), the number of the fixed supports (31) is two, the two fixed supports (31) are arranged on the outer side of the turntables (33), the turntables (33) are fixed on two sides of the center rod (34), and two sides of the center rod (34) can be rotatably connected with the fixed supports (31).

3. The soil sample bottling plant according to claim 2, wherein: the three placing discs (32) are arranged, the three connecting rods (24) are arranged on the rotating disc (33), hanging rods (321) are arranged at two ends of each placing disc (32), and the hanging rods (321) are rotatably connected with the connecting rods (24).

4. A soil sample bottling plant according to any one of claims 4, wherein: the power mechanism comprises a third motor (35), a driving wheel, a chain (36) and a driving wheel, wherein an output shaft of the third motor (35) is fixedly connected with the driving wheel, the driving wheel is connected with the driving wheel through the chain (36), and the driving wheel is fixedly connected with the central rod (34).

5. A soil sample bottling plant according to any one of claims 1 to 4, wherein: quantitative control mechanism (8) include cylinder (81) and separation blade (82), and cylinder (81) are fixed in discharging channel (6) outside, and the extension bar and separation blade (82) one end fixed connection of cylinder (81), discharging channel (6) bottom be equipped with separation blade (82) assorted logical groove, and the inslot is located to separation blade (82) movably.

6. The soil sample bottling plant according to claim 5, wherein: the bottom of the circular groove (322) is provided with a gravity sensor, and one side of the circular groove (322) is provided with a weight display screen (323).