Summary of the invention
To solve technical problem present in background technique, the present invention proposes a kind of Soil K+adsorption alkali-hydrolyzable nitrogen batch detection
Equipment.
A kind of Soil K+adsorption alkali-hydrolyzable nitrogen batch detection device proposed by the present invention, comprising: supporting table, crane, support
Disk, reagent dropwise mechanism, the first driving mechanism, the second driving mechanism, third driving mechanism;
Supporting table is equipped with the first rotating shaft being vertically arranged, and support plate may be rotatably mounted at support by the first rotating shaft
On platform, support plate is equipped with multiple diffusion boats, and diffusion boat is equipped with the second shaft being vertically arranged and by second shaft
It may be rotatably mounted in support plate, the first driving mechanism is connect for driving support plate to rotate with support plate, the second driving mechanism
It connect with diffusion boat for driving diffusion boat to rotate;
Crane liftable is mounted in supporting table, and third driving mechanism drives crane lifting, reagent dropwise mechanism peace
On crane and it is located above diffusion boat.
It preferably, further include uncovery mechanism and pivoted frame, crane is equipped with the third shaft being vertically arranged, and pivoted frame passes through the
Three shafts may be rotatably mounted on crane, and diffusion boat is equipped with lid, and uncovery mechanism and reagent dropwise mechanism are mounted on pivoted frame
On.
Preferably, lid is equipped with adsorpting iron plate, and uncovery mechanism is equipped with the electromagnet cooperated with adsorpting iron plate.
Preferably, electromagnet one end is equipped with horizontally disposed 4th shaft, and electromagnet is rotatably mounted by the 4th shaft
On uncovery mechanism.
Preferably, the first driving mechanism includes driving motor and the driving gear that is mounted on driving motor, drives gear
It is vertically arranged, diffusion boat periphery is equipped with the turning gear with driving gear cooperation.
Preferably, including multiple support plates, multiple support plates are set gradually from the top down.
Preferably, multiple diffusion boats in each support plate are distributed around first rotating shaft.
It preferably, further include Weighing mechanism, Weighing mechanism is located at below support plate for weighing to diffusion boat.
In the present invention, the Soil K+adsorption alkali-hydrolyzable nitrogen batch detection device proposed, support plate passes through the first rotating shaft
It may be rotatably mounted in supporting table, support plate is equipped with multiple diffusion boats, and diffusion boat is rotatably mounted by second shaft
In support plate, for driving support plate to rotate, the second driving mechanism is gone up and down the first driving mechanism for driving diffusion boat to rotate
Frame liftable is mounted in supporting table, and third driving mechanism drives crane lifting, and reagent dropwise mechanism is mounted on crane
And it is located above diffusion boat.By the Soil K+adsorption alkali-hydrolyzable nitrogen batch detection device of above-mentioned optimization design, pass through support plate reality
Existing multiple diffusion boat Switch of working position, by reagent dropwise mechanism and the first driving mechanism, are expanding when diffusion boat is in charging station
It dissipates and is continuously finished reagent addition in ware, and realize reagent being uniformly distributed in diffusion boat, to improve treatment effeciency, guarantee
Diffusion boat batch standardization.
Specific embodiment
As illustrated in fig. 1 and 2, Fig. 1 is a kind of structure of Soil K+adsorption alkali-hydrolyzable nitrogen batch detection device proposed by the present invention
Schematic diagram, Fig. 2 are that a kind of uncovery mechanism of Soil K+adsorption alkali-hydrolyzable nitrogen batch detection device and lid proposed by the present invention cooperate
Structural schematic diagram.
Referring to Fig.1 with 2, a kind of Soil K+adsorption alkali-hydrolyzable nitrogen batch detection device proposed by the present invention, comprising: supporting table 1,
Crane 2, support plate 3, reagent dropwise mechanism 4, the first driving mechanism, the second driving mechanism, third driving mechanism;
Supporting table 1 is equipped with the first rotating shaft being vertically arranged, and support plate 3 may be rotatably mounted at branch by the first rotating shaft
It supports on platform 1, support plate 3 is equipped with multiple diffusion boats 5, and diffusion boat 5 is equipped with the second shaft for being vertically arranged and by described the
Two shafts may be rotatably mounted in support plate 3, and the first driving mechanism is connect for driving support plate 3 to rotate with support plate 3, and second
Driving mechanism is connect for driving diffusion boat 5 to rotate with diffusion boat 5;
2 liftable of crane is mounted in supporting table 1, and third driving mechanism drives crane 2 to go up and down, reagent dropwise mechanism
4 are mounted on crane 2 and are located at 5 top of diffusion boat.
In specific work process of the Soil K+adsorption of the present embodiment with alkali-hydrolyzable nitrogen batch detection device, the first driving mechanism is driven
Dynamic support plate rotation, so that diffusion boat to be fed is moved to dropwise addition station, then reagent dropwise mechanism declines with crane,
Reagent is added dropwise in the diffusion boat of direction on diffusion boat, while the driving of the second driving mechanism is located at the diffusion boat rotation that station is added dropwise,
So that reagent is uniformly distributed in diffusion boat, to improve treatment effeciency.
In the present embodiment, the Soil K+adsorption proposed alkali-hydrolyzable nitrogen batch detection device, support plate pass through described first
Shaft may be rotatably mounted in supporting table, and support plate is equipped with multiple diffusion boats, and diffusion boat can be rotated by second shaft
It being mounted in support plate, for driving support plate to rotate, the second driving mechanism is used to that diffusion boat to be driven to rotate the first driving mechanism,
Crane liftable is mounted in supporting table, and third driving mechanism drives crane lifting, and reagent dropwise mechanism is mounted on lifting
On frame and it is located above diffusion boat.By the Soil K+adsorption alkali-hydrolyzable nitrogen batch detection device of above-mentioned optimization design, pass through support
Disk realizes multiple diffusion boat Switch of working position, when diffusion boat is in charging station, by reagent dropwise mechanism and the first driving mechanism,
It is continuously finished reagent addition in diffusion boat, and realizes reagent being uniformly distributed in diffusion boat, so that treatment effeciency is improved,
Guarantee the standardization of diffusion boat batch.
It in a specific embodiment, further include uncovery mechanism 6 and pivoted frame 7, crane 2 is equipped with the third being vertically arranged and turns
Axis, pivoted frame 7 may be rotatably mounted on crane 2 by third shaft, and diffusion boat 5 is equipped with lid, uncovery mechanism 6 and reagent drop
Add mechanism 4 to be mounted on pivoted frame 7, influence each other between the reagent of multiple diffusion boats in order to prevent, lid is set on diffusion boat,
By the way that uncovery mechanism is arranged, lid is opened by taking off lid structure before reagent is added dropwise;By the way that pivoted frame is arranged, incited somebody to action in uncovery mechanism
After lid is opened, by rotating pivoted frame, the Switch of working position for taking off lid and dropwise addition is realized.
In further specific embodiment, lid is equipped with adsorpting iron plate, and uncovery mechanism 6 is equipped with matches with adsorpting iron plate
The electromagnet 8 of conjunction, when taking off lid, uncovery mechanism is powered by electromagnet, is adsorbed to the adsorpting iron plate on lid, to realize
Lid takes off lid.
In the further set-up mode of uncovery mechanism, 8 one end of electromagnet is equipped with horizontally disposed 4th shaft, electromagnetism
Iron 8 may be rotatably mounted on uncovery mechanism 6 by the 4th shaft, take off lid effect to further increase, and peace may be reversed in electromagnet
On uncovery mechanism, when taking off lid, after electromagnet adsorbs lid by iron plate, is rotated by electromagnet, realize the overturning of lid
It opens.
In other specific embodiments of the second driving mechanism, the second driving mechanism includes driving motor and is mounted on driving
Driving gear 9 on motor, driving gear 9 are vertically arranged, and 5 periphery of diffusion boat is equipped with the turning gear cooperated with driving gear 9;For
The rotation that diffusion boat is realized the reagent dropwise during is expanded when station is added dropwise as support plate rotation is moved in diffusion boat
The turning gear for dissipating ware periphery is engaged with driving gear, and driving motor moves diffusion boat rotation by driving gear band, so that simplification is set
Standby mechanism setting.
In order to improve batch processing effect, multiple support plates 3 are set in supporting table, multiple support plates 3 from the top down according to
Secondary setting, is gone up and down by elevating mechanism, realizes movement of the reagent dropwise mechanism between multiple support plates.
In other specific set-up modes, multiple diffusion boats 5 in each support plate 3 are distributed around first rotating shaft.
It further include weighing in a specific embodiment to realize that the quantitative reagent to the diffusion boat that station is added dropwise is added dropwise
Mechanism 11, Weighing mechanism 11 are located at below support plate 3 for weighing to diffusion boat 5;In specific work process, weigher
Structure is weighed in the diffusion boat that station is added dropwise, to realize that reagent dropwise is quantitative controllable;In addition, fixed in order to improve reagent
The accuracy being added dropwise is measured, can repeatedly be dripped by reagent dropwise mechanism and Weighing mechanism in the diffusion boat that station is added dropwise
Add time weighing.
The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto,
Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its
Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.