CN110514474A - A kind of Soil K+adsorption automatic collecting device - Google Patents

Abstract

The invention discloses a kind of Soil K+adsorption automatic collecting devices, it include a body, a second housing sliding slot is provided on the body, a sliding is provided in the second housing sliding slot takes clay model block, described take is provided with the power plant module slided up and down on clay model block, described take is provided with first turn hole in clay model block, the auger conveyor of a rotation is provided in first turn hole, second motor is provided in the power plant module, augur described in second motor driven, the collection module slided up and down is provided on the body, being arranged side by side on the collection module has collection groove, soil is fed sequentially into collection groove by the auger conveyor, boring extracting soil can be further carried out on the ground by auger conveyor, it is recessed so as to which soil is transported to collection It is stored in slot, further avoids trouble caused by artificially collecting soil.

Description

A kind of Soil K+adsorption automatic collecting device

Technical field

The present invention relates to a kind of soil collection devices, and in particular to a kind of Soil K+adsorption automatic collecting device, more particularly to It is a kind of can be to the Soil K+adsorption automatic collecting device that soil sample is collected automatically.

Background technique

With the continuous development of society, the continuous promotion for further promoting industrial technology, wherein present During industry and agricultural production, the importance of Soil K+adsorption is increasingly taken seriously, such as in the mistake of agricultural production Cheng Zhong can further analyze the content of soil by the detection to soil, thus can in the planting process in later period The proportion for adjusting fertilizer, thus the effect for being optimal fertilizer efficiency, wherein during being detected to soil firstly the need of Soil is collected, traditional soil collection mode is all manually to complete to collect mostly, although by manually can be complete At the collection operation of soil sample, but during by artificially collecting soil sample due to land area to be detected compared with Greatly, so just further causing the increase of workload, while the efficiency of soil collection is also reduced, wherein in present mud It is all to be completed by human assistance mostly, so mechanical can not completely be detached from artificial behaviour in the machinery of native sample collection Make.

Thus, it is necessary to design a kind of Soil K+adsorption automatic collecting device, to solve the above technical problems.

Summary of the invention

The object of the present invention is to overcome the problems of the prior art, provides a kind of Soil K+adsorption automatic collecting device, A second housing sliding slot is provided on body, a sliding is provided in second housing sliding slot takes clay model block, is taking It is provided with the auger conveyor of a rotation on clay model block, can further carry out on the ground taking soil by auger conveyor Operation is additionally provided with a collection module on body, collection groove is provided on collection module, so as to divide soil It is other to be transported in collection groove, to complete the collection of soil, further avoid trouble caused by artificially collecting.

The invention is realized by the following technical scheme:

A kind of Soil K+adsorption automatic collecting device includes a body, a second housing sliding slot is provided on the body, A sliding is provided in the second housing sliding slot takes clay model block, and one and described the are additionally provided on the body The third body sliding slot of the two corresponding connections of body sliding slot, described take are provided with the power mould slided up and down on clay model block Block, described take are provided with first turn hole in clay model block, the auger conveyor of a rotation is provided in first turn hole, Second motor, augur described in second motor driven, the body are provided in the power plant module On be additionally provided with the press sliding block that a press power plant module slides up and down, the power plant module drives the helical feed Device slides up and down.Can further drive the rotation of auger conveyor by the rotation of the second motor, so as to Boring extracting soil is carried out on ground, while power plant module can be pressed by pressing sliding block, so as to further will Auger conveyor presses against in ground, to complete to take native operation.

The collection module slided up and down is provided on the body, being arranged side by side on the collection module has collection recessed Soil is fed sequentially into collection groove by slot, the auger conveyor.Can by collection groove further to soil into Row storage, to store soil sample.

The third motor for taking clay model block to slide laterally described in control is provided in the body.Can by third motor into The control of one step takes sliding laterally for clay model block, so as to further adjust the position for taking clay model block, so as to by mud Soil is transported in different collection grooves.

It is provided in the body and controls the 4th motor that the collection module slides up and down.Collection module can be passed through It slides up and down, so as to which further soil sample is stored in the collection groove of different estate.

The first motor for controlling the press sliding block sliding is provided in the body.

Further, the second housing sliding slot and the third body sliding slot are rectangle setting respectively, and described first Turn hole rounded setting is provided with a press slide-bar in the first motor, and the press slide-bar is in first turn hole It slides, is provided with second shaft on second motor, the auger conveyor is connected in second shaft, described It takes the two sides of clay model block to be respectively arranged with second support slipper, is respectively arranged with one first on second support slipper Slide opening is respectively arranged with first slide-bar slided in first slide opening, first slide-bar on the power plant module T-shaped setting respectively, is respectively arranged with first spring for suppressing the power plant module on first slide-bar, and described second The two sides of body sliding slot are respectively arranged with the second sliding slot of support second support slipper.

Further, the first turn hole of a connection corresponding with the third body sliding slot is provided on the body, The second thread spindle of a sliding is provided in first turn hole, second thread spindle is connected on the press sliding block, It is provided with the first gear of a rotation at the top of the body, is provided with one and second thread spindle in the first gear It is corresponding to engage the first threaded hole connected, a second gear, the second gear and institute are provided in the first motor The corresponding engagement connection of first gear is stated, the both ends of the press sliding block are connected separately with second slide-bar, and described second is sliding Axis slides on the body respectively, and the center of the press sliding block, the jacking sliding is arranged in second thread spindle The length of block is identical as the length of the third body sliding slot.

Further, the two sides for taking clay model block are connected separately with first support slipper, and the second housing is sliding The two sides of slot are respectively arranged with the first sliding groove of a support the first support slipper sliding, set respectively in the first sliding groove It is equipped with the first thread spindle of a rotation, the end of first thread spindle is respectively arranged with first sprocket wheel, and two first By a corresponding connection of the first chain between sprocket wheel, one of them described first thread spindle of the third motor driven turns It is dynamic, the threaded hole of an engagement connection corresponding with first thread spindle is respectively arranged on first support slipper.

Further, described to take the butt hole that a connection corresponding with first turn hole is provided on clay model block, institute It states and takes clay model block and the second housing sliding slot to be tightly connected, be provided with a row and the second housing sliding slot on the body The position of the tap of corresponding connection, the tap setting is corresponding with the collection groove respectively, the second housing Row positioning induction module corresponding with the discharge hole site is provided in sliding slot.

Further, the both ends of the first housing sliding slot are respectively arranged with a third sliding slot, in the third sliding slot It is respectively arranged with the third thread spindle of a rotation, the third support that a sliding is respectively arranged in the third sliding slot is slided Block is respectively arranged with the second screw thread of an engagement connection corresponding with the third thread spindle on the third support slipper Hole, the both ends of the collection module are connected on the third support slipper, and the end of the third thread spindle is set respectively It is equipped with corresponding second sprocket wheel, by a corresponding connection of the second chain between two the second sprocket wheels, the described 4th The one of third thread spindle rotation of motor driven, the tapered setting of the opening of the collection groove.

Further, the both ends of the body be respectively arranged with one rotation first rotating shaft, the two of the first rotating shaft End is respectively arranged with an active runner, and the 5th electricity of driving first rotating shaft rotation is respectively arranged in the body Machine is additionally provided with remote control module in the body.

Compared with prior art, the beneficial effects of the present invention are:

Be provided in body slide laterally take clay model block, taking the auger conveyor that rotation is provided in clay model block, thus Can be drilled on the ground by auger conveyor, so as to bore soil sample, while can by tap into Soil sample is transported in collection groove set by collection module by one step, to complete the collection of soil sample；

Soil can further can be transported in different collection grooves, while energy with sliding laterally for clay model block is taken Soil sample, can further be transported in the collection groove of different estate by enough sliding up and down by collection module, from And trouble caused by artificially collecting soil sample can be further avoided, to improve efficiency.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawing.

Fig. 1 is Soil K+adsorption of embodiment of the present invention automatic collecting device overall structure diagram.

Fig. 2 is Soil K+adsorption of embodiment of the present invention automatic collecting device overall structure top view.

Fig. 3 is collection module of embodiment of the present invention overall structure diagram.

Fig. 4 is that the embodiment of the present invention presses sliding block overall structure diagram.

Fig. 5 is that the embodiment of the present invention takes clay model block overall structure diagram.

Fig. 6 is active of embodiment of the present invention runner overall structure diagram.

In figure: 1 body, 2 active runners, 3 first rotating shafts, 4 first housing sliding slots, 5 collection modules, 6 collection grooves, 7 rows Portal, 8 second housing sliding slots, 9 take clay model block, 10 positioning induction modules, 11 first sliding grooves, 12 first support slippers, 13 first Thread spindle, 14 second sliding slots, 15 second support slippers, 16 power plant modules, 17 third body sliding slots, 18 press sliding blocks, 19 second Thread spindle, 20 first gears, 21 second gears, 22 first motors, 23 first turn holes, 24 butt holes, 25 second motors, 26 press Slide-bar, 27 second shafts, 28 auger conveyors, 29 first slide-bars, 30 first springs, 31 first slide openings, 32 third sliding slots, 33 Three support slippers, 34 third thread spindles, 35 third motors, 36 first sprocket wheels, 37 first chains, 38 first threaded holes, 39 first Turn hole, 40 second slide-bars, 41 second threaded holes, 42 second sprocket wheels, 43 second chains, 44 the 4th motors, 45 the 5th motors.

Specific embodiment

As shown in Figures 1 to 6, a kind of Soil K+adsorption automatic collecting device includes a body 1, sets on the body 1 It is equipped with a second housing sliding slot 8, a sliding is provided in the second housing sliding slot 8 takes clay model block 9, the machine The third body sliding slot 17 of a connection corresponding with the second housing sliding slot 8 is additionally provided on body 1, it is described to take clay model block 9 On be provided with the power plant module slided up and down 16, described take is provided with first turn hole 23 in clay model block 9, described first It is provided with the auger conveyor 28 of a rotation in turn hole 23, is provided with second motor 25, institute in the power plant module 16 Stating the second motor 25 drives the auger conveyor 28 to rotate, and the press power plant module is additionally provided on the body 1 The 16 press sliding blocks 18 slided up and down, the power plant module 16 drive the auger conveyor 28 to slide up and down.

It is provided with a second housing sliding slot 8 on body 1, the second housing sliding slot 8 is arranged in cuboid, and described the A sliding is provided in two body sliding slots 8 takes clay model block 9, described that clay model block 9 is taken to be square setting, also sets in body 1 It is equipped with a third body sliding slot 17, the third body sliding slot 17 is arranged in cuboid, the length of the third body sliding slot 17 Degree is identical with the length of the second housing sliding slot 8, and the power plant module 16 slided is provided on clay model block 9 in described take, The power plant module 16 can slide up and down on clay model block 9 in described take, and one first turn is provided on taking clay model block 9 Hole 23, first turn hole 23 are a through-hole, and the auger conveyor 28 of a rotation is provided in first turn hole 23, The auger conveyor 28 is arranged on the power plant module 16, and second motor 25, energy are provided in power plant module 16 Enough by the further rotation for driving auger conveyor 28 of the rotation of the second motor 25, about one is provided on body 1 The length of the press sliding block 18 of sliding, the press sliding block 18 is identical with the length of the third body sliding slot 17, the press Sliding block 18 can further press sliding up and down for the power plant module 16 during sliding up and down, so as into one The press auger conveyor 28 of step slides up and down, after further auger conveyor 28 is pressed against in soil, Neng Goujin Being carried out on the ground by auger conveyor 28 of one step takes native operation, to be carried out soil into one by auger conveyor 28 The conveying of step, to complete to take native operation automatically to soil.

The collection module slided up and down 5 is provided on the body 1, being arranged side by side on the collection module 5 there are receipts Collect groove 6, soil is fed sequentially into collection groove 6 by the auger conveyor 28.

It is provided with the collection module slided up and down 5 on body 1, collection groove 6 is provided on collection module 5, The collection groove 6 is disposed side by side on the collection module 5, and collection module 5 is superposed, and can pass through auger conveyor 28 Soil is further transported in mobile phone groove 6, so as to complete the collection of soil sample, further avoids artificial receipts Collect trouble caused by soil, to improve efficiency, and can be by soil successively defeated by the sliding of mud collection module 9 It is sent in different collection grooves 6, so that the soil of different location be made to complete to collect storage.

The third motor 35 for taking clay model block 9 to slide laterally described in control is provided in the body 1.

The sliding for taking clay model block 9 can be further adjusted, by the rotation of third motor 35 so as to by mud Soil being transported in different collection grooves 6 successively, so that the soil of different location be stored.

It is provided in the body 1 and controls the 4th motor 44 that the collection module 5 slides up and down.

It is provided with the 4th motor 44 in body 1, can further be controlled by the rotation of the 4th motor 44 Collection module 5 processed slides up and down, so as to be transported to soil in the collection groove 6 of different levels, due to collection module 5 In the state for superposition, so sliding up and down for collection module 5 can further be controlled by the 4th motor 44, so as to adjust The position of collection groove 6 can pass through the sliding of collection module 5, energy after soil sample is filled in one layer of collection groove 6 Enough further by soil sample collection in next layer of collection groove 6.

It is provided in the body 1 and controls the first motor 22 that the press sliding block 18 slides.

Sliding up and down for sliding block 18 can be pressed by the further control of rotation of first motor 22, thus further Auger conveyor 28 is pressed, so as to further press against auger conveyor 28 in soil, thus to soil It is sampled.

As shown in Figure 1 and Figure 5, the second housing sliding slot 8 and the third body sliding slot 17 are rectangle setting respectively, The rounded setting of first turn hole 23,25 are provided with a press slide-bar 26, the press slide-bar 26 in the first motor It is slided in first turn hole 26, second shaft 27, the auger conveyor 28 is provided on second motor 25 It being connected in second shaft 27, the two sides for taking clay model block 9 are respectively arranged with second support slipper 15, and described It is respectively arranged with first slide opening 31 on two support slippers 15, one is respectively arranged on the power plant module 16 described The first slide-bar 29 slided in one slide opening 31, first slide-bar 29 are distinguished T-shaped setting, are set respectively on first slide-bar 29 It is equipped with first spring 30 for suppressing the power plant module 16, the two sides of 25 sliding slot of the second housing are respectively arranged with one Support the second sliding slot 14 of second support slipper 15.

The second housing sliding slot 8 and the setting of the long cuboid of the third body sliding slot 17, and the second housing is sliding Slot 8 with third body sliding slot 17 is corresponding is connected to, the rounded setting of first turn hole 23 is arranged in the first motor 25 There are a press slide-bar 26, the rounded setting of the press slide-bar 26, the press slide-bar 26 is slided in first turn hole 23 It is dynamic, and the diameter of the press slide-bar 26 is corresponding with the diameter of the first turn hole 23, gap is 1 millimeter, on the second motor 25 It is provided with second shaft 27, the auger conveyor 28 is connected in second shaft 27, so as to pass through second The further rotation for driving auger conveyor 28 of the rotation of shaft 27 is taking the two sides of clay model block 9 to be respectively arranged with one the Two support slippers 15 are respectively arranged with first slide opening 31 on the second support slipper 15, what first slide opening 31 was arranged Quantity is configured according to the needs of design, and slided in first slide opening 31 is provided on the power plant module 16 One slide-bar 31, so as to be supported by the first slide-bar 29 to power plant module 16, so as to guarantee to power plant module 16 It is normally slided up and down on taking clay model block 9, while power mould can be further driven to by taking sliding laterally for clay model block 9 The sliding of block 16 is respectively arranged with first spring 30 on the first slide-bar 29, can be by the first spring 30 to power mould Block 16 is suppressed, and so as to further reset power plant module 16, is respectively set in the two sides of second housing sliding slot 25 There is a second sliding slot 14, second support slipper 15 slides in the second sliding slot 14 respectively, so as to pass through the Two sliding slots 14 are supported the second support slipper 15, so as to further guarantee to the normal cunning for taking clay model block 9 It is dynamic.

As shown in Figure 1 and Figure 4, a connection corresponding with the third body sliding slot 17 is provided on the body 1 First turn hole 39, the second thread spindle 19 of a sliding is provided in first turn hole 39, and second thread spindle 19 connects On the press sliding block 18, it is provided with the first gear 20 of a rotation at the top of the body 1, is set in the first gear 20 It is equipped with the first threaded hole 38 of an engagement connection corresponding with second thread spindle 19, is provided in the first motor 22 One second gear 21, the second gear 21 engagement connection corresponding with the first gear 20, the press sliding block 18 Both ends are connected separately with second slide-bar 40, and second slide-bar 40 slides on the body 1 respectively, second screw thread The center of the press sliding block 18, the length of the press sliding block 18 and the third body sliding slot 17 is arranged in axis 19 Length is identical.

The first turn hole 39 of a connection corresponding with the third body sliding slot 17 is provided on body 1, first The second thread spindle 19 of a sliding is provided in turn hole 39, the second thread spindle 19 is connected on the press sliding block 18, thus Sliding up and down for sliding block 18 can be pressed by further drive that slide up and down of the second thread spindle 19, in the press of body 1 It is provided with the first gear 20 of a rotation, first threaded hole 38, second screw thread are provided in first gear 20 Axis 19 and the corresponding engagement of first threaded hole 38 connection, so as to can be into one by the rotation of the first gear 20 The sliding for making the second about 19 thread spindle of step, so that sliding up and down for press sliding block 18 is further driven, it is further logical It crosses sliding up and down for sliding block 18 of press to press power plant module 16, so as to press against auger conveyor 28 in ground It carries out taking native operation, the rotation of second gear 21 can be further driven by the rotation of the first motor 22, so as to It is enough connected by second gear 21 with the corresponding engagement of the first gear 20, can further drive the second thread spindle 19 Slide up and down, be respectively arranged with second slide-bar 40 at the both ends of press sliding block 18, the second slide-bar 40 is set on body 1 Slide opening in sliding, so as to by second slide-bar 40 further to press sliding block 18 be supported, so as to The further press effect guaranteed to the press sliding block 18 to power plant module 16.

As depicted in figs. 1 and 2, the two sides for taking clay model block 9 are connected separately with first support slipper 12, and described The two sides of two body sliding slots 8 are respectively arranged with the first sliding groove 11 that support first support slipper 12 slides, and described the The first thread spindle 13 of a rotation is respectively arranged in one sliding slot 11, the end of first thread spindle 13 is respectively arranged with one A first sprocket wheel 36, by a corresponding connection of the first chain 37 between two the first sprocket wheels 36, the third motor 35 is driven It moves one of them described first thread spindle 13 to rotate, is respectively arranged with one and first spiral shell on first support slipper 12 The threaded hole of the corresponding engagement connection of line axis 13.

The two sides of clay model block 9 are being taken to be respectively arranged with first support slipper 12, in the two sides of second housing sliding slot 8 point It is not provided with a first sliding groove 11, first support slipper 12 slides in the first sliding groove 11 respectively, described Be respectively arranged in one sliding slot 11 one rotation the first thread spindle 13, be respectively arranged on the first support slipper 12 one with The threaded hole of the corresponding engagement connection of first thread spindle 13, can be into one so as to pass through the rotation of the first thread spindle 13 The sliding of the first support slipper of drive 12 of step, so as to further drive the sliding for taking clay model block 9, while driving power The sliding of module 16 is put into soil in different collection grooves 8 after further adjustment takes the position of clay model block 9, from And the soil sample of different location can be stored in the collection groove 8 of different layers.

As shown in Figure 1, Figure 2 and shown in Fig. 5, described take is provided with a company corresponding with first turn hole 23 on clay model block 9 Logical butt hole 24, it is described to take clay model block 9 and the second housing sliding slot 8 to be tightly connected, a row is provided on the body 1 The tap 7 of connection corresponding with the second housing sliding slot 8, the position that the tap 7 is arranged are recessed with the collection respectively Slot 6 is corresponding, and row positioning induction module corresponding with 7 position of tap is provided in the second housing sliding slot 8 10。

The butt hole 24 of a connection corresponding with first turn hole 23 is provided on taking clay model block 9, so as to After taking soil on the ground by auger conveyor 28, further soil sample can be discharged by butt hole 24, The quantity that the quantity that the tap 7 is arranged and collection groove 6 are arranged is identical, while the position being arranged is also corresponding, second Induction module 10 corresponding with 7 position of tap is provided in body sliding slot 8, so as to pass through induction module 10 into one The induction of step takes the position of clay model block 9, so as to further control the sliding for taking clay model block 9, further by soil sample This is accurately transported in different collection grooves 6, the position phase of position and the tap 7 that positioning induction module 10 is arranged It is corresponding, and the quantity being arranged is identical.

As shown in Figure 1 to Figure 3, the both ends of the first housing sliding slot 4 are respectively arranged with a third sliding slot 32, and described It is respectively arranged with the third thread spindle 34 of a rotation in three sliding slots 32, is respectively arranged with a sliding in the third sliding slot 32 Third support slipper 33, one is respectively arranged on the third support slipper 33 and corresponding with the third thread spindle 34 is nibbled The second threaded hole 41 of connection is closed, the both ends of the collection module 5 are connected on the third support slipper 33, and described the The end of three thread spindles 34 is respectively arranged with corresponding second sprocket wheel 42, passes through one the between two the second sprocket wheels 42 The corresponding connection of two chain 43, the 4th motor 44 drive one of third thread spindle 34 to rotate, the collection groove 6 The tapered setting of opening.

It is respectively arranged with a third sliding slot 32 at the both ends of first housing sliding slot 4, is respectively set in third sliding slot 32 There is the third thread spindle 34 an of shaft, the third support slipper 33, In of a sliding is respectively arranged in third sliding slot 32 Be respectively arranged with second threaded hole 41 on third support slipper 33, the third thread spindle 34 respectively with second screw thread The corresponding engagement in hole 41 connection, so as to further drive third support slipper by the rotation of the third thread spindle 34 33 sliding, the both ends of the collection module 5 are connected on the third support slipper 33, so as to further band The sliding of dynamic third support slipper 33, is respectively arranged with second sprocket wheel 42 in the end of third thread spindle 34, at two the By a corresponding connection of the second chain 43 between two sprocket wheels 42, so as to further by the rotation of the 4th motor 44 The rotation of third thread spindle 34 is driven, so as to further rotate two third thread spindles 34, further drive is received Collection module 5 slides up and down, since collection module 5 is superposed, so as to which soil sample to be transported to the receipts of different levels Collect in groove 6, so as to complete the collection of soil sample.Camera can be set on body 1 simultaneously, so as to further The case where checking soil sample collection, while can further adjust the regional location of the collection of soil sample.

As shown in figures 1 to 6, the both ends of the body 1 be respectively arranged with one rotation first rotating shaft 3, described first The both ends of shaft 3 are respectively arranged with an active runner 2, and the driving first rotating shaft 3 is respectively arranged in the body 1 5th motor 45 of rotation is additionally provided with remote control module in the body 1.

It is respectively arranged with the first rotating shaft 3 of a rotation at the both ends of body 1, is respectively set at the both ends of first rotating shaft 3 There is an active runner 2, the rotation of first rotating shaft 3 can be further driven by the rotation of the 5th motor 45, so as to The further rotation for driving active runner 2, so as to drive the sliding of body 1, while can pass through remote control module Realize long-range control.

The working principle of the invention is: a second housing sliding slot 8 is provided on body 1, in second housing sliding slot 8 Be provided with one slide laterally take clay model block 9, taking the top of clay model block 9 to be provided with the power plant module slided up and down 6, An auger conveyor 28 is provided on power plant module 6, it, can be into one so as to sliding up and down by power plant module 6 Auger conveyor 28 is pressed in ground to which 6 can further be taken on the ground by auger conveyor 28 by step Native operation；

It is provided with tap arranged side by side in second housing sliding slot 8, a first housing sliding slot is additionally provided on body 4, it is provided with the collection module 5 of sliding in first housing sliding slot 4, is provided with collection groove arranged side by side on collection module 5 6, so as to which further soil is drained into collection groove 6 by tap 7, take clay model block 9 that can slide laterally, from And can be drained into different collection grooves 6 by being discharged into hole 7, while can sliding up and down by collection module 5, thus Further soil sample can be stored in the collection groove 6 of different estate；

The press sliding block 18 of sliding is provided in third body sliding slot 17, it can be further by pressing the sliding of sliding block 18 Power plant module 16 is pressed, so as to which the acquisition of sample will be carried out in the press to soil of auger conveyor 28；

The sliding that press sliding block 18 can be controlled by first motor 22, further carries out press control to power plant module 16, Soil is taken to control auger conveyor 28；

The rotation that auger conveyor 28 is further driven by the second motor 25, to carry out the acquisition of soil sample；

It can further be controlled by the rotation of third motor 35 and take sliding laterally for clay model block 9, so as to by soil sample This is by being transported in different collection grooves 6；

By the rotation of the 4th motor 45, the sliding of body 1 can be further controlled, to carry out sample in different zones position This acquisition.

Claims (7)

1. a kind of Soil K+adsorption automatic collecting device, it is characterised in that: include a body, be provided with one on the body Second housing sliding slot, a sliding is provided in the second housing sliding slot takes clay model block, also sets up on the body There is the third body sliding slot of a connection corresponding with the second housing sliding slot, described take is provided with about one on clay model block The power plant module of sliding, described take are provided with first turn hole, a rotation are provided in first turn hole in clay model block Auger conveyor, be provided with second motor, auger conveyor described in second motor driven in the power plant module It rotates, the press sliding block that a press power plant module slides up and down, the power plant module band is additionally provided on the body The auger conveyor is moved to slide up and down；

The collection module slided up and down is provided on the body, being arranged side by side on the collection module has collection groove, Soil is fed sequentially into collection groove by the auger conveyor；

The third motor for taking clay model block to slide laterally described in control is provided in the body；

It is provided in the body and controls the 4th motor that the collection module slides up and down；

The first motor for controlling the press sliding block sliding is provided in the body.

2. a kind of Soil K+adsorption automatic collecting device according to claim 1, it is characterised in that: the second housing sliding slot and The third body sliding slot is rectangle setting respectively, the rounded setting of the first turn hole, is provided in the first motor One press slide-bar, the press slide-bar slide in first turn hole, and one second turn is provided on second motor Axis, the auger conveyor are connected in second shaft, and the two sides for taking clay model block are respectively arranged with one second Sliding block is supportted, first slide opening is respectively arranged on second support slipper, is respectively arranged with one on the power plant module The first slide-bar slided in first slide opening, first slide-bar are distinguished T-shaped setting, are set respectively on first slide-bar It is equipped with first spring for suppressing the power plant module, the two sides of the second housing sliding slot are respectively arranged with a support institute State the second sliding slot of the second support slipper.

3. a kind of Soil K+adsorption automatic collecting device according to claim 1, it is characterised in that: be provided with one on the body First turn hole of a connection corresponding with the third body sliding slot is provided with the second spiral shell of a sliding in first turn hole Line axis, second thread spindle are connected on the press sliding block, and the first gear of a rotation is provided at the top of the body, The first threaded hole of an engagement connection corresponding with second thread spindle, first electricity are provided in the first gear A second gear, second gear engagement connection corresponding with the first gear, the press sliding block are provided on machine Both ends be connected separately with second slide-bar, second slide-bar slides on the body respectively, second thread spindle The center of the press sliding block is set, and the length of the press sliding block is identical as the length of the third body sliding slot.

4. a kind of Soil K+adsorption automatic collecting device according to claim 1, it is characterised in that: the two sides for taking clay model block It is connected separately with first support slipper, the two sides of the second housing sliding slot are respectively arranged with described first of support The first sliding groove of sliding block sliding is supportted, the first thread spindle of a rotation, first spiral shell are respectively arranged in the first sliding groove The end of line axis is respectively arranged with first sprocket wheel, passes through a corresponding connection of the first chain between two the first sprocket wheels, One of them described first thread spindle rotation of the third motor driven, be respectively arranged on first support slipper one with The threaded hole of the corresponding engagement connection of first thread spindle.

5. a kind of Soil K+adsorption automatic collecting device according to claim 1, it is characterised in that: described take is arranged on clay model block There is the butt hole of a connection corresponding with first turn hole, it is described that clay model block and the second housing sliding slot is taken to connect for sealing It connects, the tap of row connection corresponding with the second housing sliding slot is provided on the body, the tap setting Position is corresponding with the collection groove respectively, and it is opposite with the discharge hole site that a row is provided in the second housing sliding slot The positioning induction module answered.

6. a kind of Soil K+adsorption automatic collecting device according to claim 1, it is characterised in that: the first housing sliding slot Both ends are respectively arranged with a third sliding slot, and the third thread spindle of a rotation is respectively arranged in the third sliding slot, described The third support slipper of a sliding is respectively arranged in third sliding slot, be respectively arranged on the third support slipper one with Second threaded hole of the corresponding engagement connection of third thread spindle, the both ends of the collection module are connected to the third On support slipper, the end of the third thread spindle is respectively arranged with corresponding second sprocket wheel, two the second sprocket wheels it Between by a corresponding connection of the second chain, the one of third thread spindle rotation of the 4th motor driven, the collection The tapered setting of the opening of groove.

7. a kind of Soil K+adsorption automatic collecting device according to claim 1, it is characterised in that: distinguish at the both ends of the body It is provided with the first rotating shaft of a rotation, the both ends of the first rotating shaft are respectively arranged with an active runner, in the body It is respectively arranged with the 5th motor of driving first rotating shaft rotation, is additionally provided with remote control module in the body.