CN212821453U - A separator for plant experiment explant washes - Google Patents

Abstract

A separation device for washing explants in plant experiments comprises an upper bottle body, a middle bottle body and a lower bottle body, wherein the upper bottle body, the middle bottle body and the lower bottle body are sequentially in threaded connection; the lower end of the middle-layer bottle body is provided with a filter plate, the filter plate divides the device into a cleaning area and an impurity removing area, and the upper end of the cleaning area is provided with a screen plate or a screen cylinder; the lower end of the impurity removing area is provided with a water through hole. The utility model provides a pair of a separator for plant experiment explant washes can accomplish the explant fast and wash and the separation of impurity.

Description

A separator for plant experiment explant washes

Technical Field

The utility model relates to a separator, especially a separator that is used for plant experiment explant to wash.

Background

Present plant tissue culture explant washing unit, the device structure is more loaded down with trivial details (2015 year, liu fu ping, a plant tissue culture explant flowing water washing unit), and to washing dust and the effectual separation of fine sand on the explant, deposit always in washing the cup, cause tissue culture explant surface to wash thoroughly and also can not adjust washing unit's capacity according to the volume of explant.

Disclosure of Invention

The utility model aims to solve the technical problem that a separator for plant experiment explant washes is provided, can wash and make dust and fine sand separation rejection to the explant.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

a separation device for washing explants in plant experiments comprises an upper bottle body, a middle bottle body and a lower bottle body, wherein the upper bottle body, the middle bottle body and the lower bottle body are sequentially in threaded connection; the lower end of the middle-layer bottle body is provided with a filter plate, the filter plate divides the device into a cleaning area and an impurity removing area, and the upper end of the cleaning area is provided with a screen plate or a screen cylinder; the lower end of the impurity removing area is provided with a water through hole.

The inner walls of the upper layer bottle body and the middle layer bottle body are respectively provided with a supporting block, the supporting blocks are provided with clamping grooves, and the screen plate is clamped with the clamping grooves through the clamping blocks.

The upper part and the lower part of the net cylinder are provided with zippers with hanging rings, the zippers at the lower ends are hung with the hooks on the filter plates, and the zippers at the upper ends are hung with the hooks on the upper-layer bottle body or the middle-layer bottle body.

The net barrel comprises a left half cylinder body and a right half cylinder body, one side of the left half cylinder body and one side of the right half cylinder body are hinged with each other, the other side of the left half cylinder body and the other side of the right half cylinder body are both provided with a semicircular threaded rod, and when the left half cylinder body and the right half cylinder body are folded, the two semicircular threaded rods are spliced into a threaded rod and locked through nuts.

The utility model relates to a separator for plant experiment explant washes has following technological effect:

1) the supporting blocks are arranged in the upper layer bottle body and the middle layer bottle body, so that the mounting position of the screen plate can be selected according to the amount of washed explants, and flexible adjustment is realized.

2) Through the different designs of the filter holes of the filter plate, the meshes of the screen plate and the apertures of the water holes on the lower-layer bottle body, the running water is ensured to be filled with the whole bottle body quickly, and the washing material is driven to rotate up and down and discharge impurities on the explant.

3) And the three layers of bottle bodies are in threaded connection, so that the bottle is convenient to disassemble, clean and install.

4) Through setting up the bottle lid, can select according to the different inoculation time of washing the material, play certain effect of moisturizing and preventing the dust.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a sectional view (first type) of the present invention.

Fig. 2 is a sectional view (second embodiment) of the present invention.

Fig. 3 is a partially enlarged schematic view of the installation of the middle screen plate and the supporting block of the present invention.

Fig. 4 is a schematic structural view of the middle net drum of the present invention.

Fig. 5 is a schematic structural view of the middle left half cylinder of the present invention.

In the figure: the bottle comprises an upper-layer bottle body 1, a middle-layer bottle body 2, a lower-layer bottle body 3, a filter plate 4, a cleaning area 5, an impurity removing area 6, a screen plate 7, a screen cylinder 8, a water through hole 9, a support block 10, a clamping block 11, a zipper 12, a hook 13, a left semi-cylinder body 8-1, a right semi-cylinder body 8-2, a semicircular threaded rod 8-3 and a nut 8-4.

Detailed Description

As shown in figure 1, a separation device for washing plant experiment explants comprises an upper bottle body 1, a middle bottle body 2 and a lower bottle body 3, wherein the upper bottle body 1, the middle bottle body 2 and the lower bottle body 3 are sequentially in threaded connection. In addition, the upper end of the upper layer bottle body 1 is connected with a bottle cap through threads.

As shown in fig. 1, the lower end of the middle-layer bottle body 2 is provided with a filter plate 4 (the filter plate 4 is fully provided with small holes with the diameter of 2mm, when the explant is prevented from leaking, dust and fine sand are discharged), the filter plate 4 divides the device into a cleaning area 5 and an impurity removing area 6, wherein the upper end of the cleaning area 5 is provided with a screen plate 7 (the mesh aperture is 3mm, the explant is prevented from overflowing upwards) and the lower end of the impurity removing area 6 is provided with a water passing hole 9 (the small hole with the diameter of 5 mm). The screen plate 7 is flushed by water, then dust and fine sand are discharged through the filter plate 4 at the bottom of the middle-layer bottle body, and finally impurities such as the dust and the fine sand are thoroughly discharged at the water through holes 9 of the lower-layer bottle body 3.

As shown in fig. 3, the inner walls of the upper layer bottle body 1 and the middle layer bottle body 2 are both provided with a support block 10, the support block 10 is provided with a clamping groove, and the screen 7 is clamped with the clamping groove through a clamping block 11. Thereby facilitating the detachment of the mesh plate 7.

Alternatively, as shown in fig. 1, the device adopts another mode, the mesh plate 7 is replaced by a mesh cylinder 8, mesh holes are distributed on the mesh cylinder 8, and the mesh hole diameter is 3 mm. The upper part and the lower part of the net cylinder 8 are provided with zippers 12 with hanging rings, the zipper 12 at the lower end is hung with hooks 13 on the filter plates 4, and the zipper 12 at the upper end is hung with the hooks 13 on the upper-layer bottle body 1 or the middle-layer bottle body 2. When carrying out the inoculation experiment like this, can directly take off this net section of thick bamboo 8 can, need not to dismantle the bottle.

The net cylinder 8 comprises a left half cylinder body 8-1 and a right half cylinder body 8-2, one sides of the left half cylinder body 8-1 and the right half cylinder body 8-2 are hinged with each other through a pin shaft, two groups of semicircular threaded rods 8-3 are arranged on the other sides of the left half cylinder body 8-1 and the right half cylinder body 8-2, and when the left half cylinder body 8-1 and the right half cylinder body 8-2 are folded, the left and right semicircular threaded rods 8-3 are spliced into a threaded rod and locked through nuts 8-4. Thereby facilitating disassembly and assembly fixation.

The working principle and the process are as follows:

1) as shown in fig. 1, during operation, the bottle cap is removed, the explant is washed and placed in the middle bottle 2, the position of the screen plate 7 is selected according to the amount of the washed explant and is fixed (in the middle bottle 2 in fig. 1), then the lower bottle and the upper bottle are installed, and the whole explant washing separation device is completed.

2) And a tap water valve is opened, water is firstly added into the flushing device, and as the diameter of the water flowing hole of the filter plate 4 in the middle-layer bottle body 2 is smaller than the aperture of the water flowing hole of the screen plate 7, tap water can fill the cleaning area 5 quickly. The explant in the washing process is driven to rotate up and down by adjusting the flow rate of tap water, so that the purpose of washing the explant is achieved. And impurities such as dust and fine sand are discharged through the water flowing holes of the middle-layer bottle body 2 and the lower-layer bottle body 3. When the inoculation experiment is carried out, only the bottle body (namely the middle-layer bottle body 2 in the picture 1) filled with the explant needs to be taken down, and the operation is simple and easy.

Claims (4)

1. The utility model provides a separator for plant experiment explant washes which characterized in that: comprises an upper layer bottle body (1), a middle layer bottle body (2) and a lower layer bottle body (3), wherein the upper layer bottle body (1), the middle layer bottle body (2) and the lower layer bottle body (3) are sequentially connected by screw threads; the lower end of the middle-layer bottle body (2) is provided with a filter plate (4), the device is divided into a cleaning area (5) and an impurity removing area (6) by the filter plate (4), and the upper end of the cleaning area (5) is provided with a screen plate (7) or a screen cylinder (8); the lower end of the impurity removing area (6) is provided with a water through hole (9).

2. The separation device for washing plant experimental explants according to claim 1, wherein: the inner walls of the upper layer bottle body (1) and the middle layer bottle body (2) are respectively provided with a supporting block (10), the supporting blocks (10) are provided with clamping grooves, and the screen plate (7) is clamped with the clamping grooves through clamping blocks (11).

3. The separation device for washing plant experimental explants according to claim 1, wherein: the upper part and the lower part of the net cylinder (8) are provided with zippers (12) with hanging rings, the zipper (12) at the lower end is hung with a hook (13) on the filter plate (4), and the zipper (12) at the upper end is hung with the hook (13) on the upper-layer bottle body (1) or the middle-layer bottle body (2).

4. The separation device for washing plant experimental explants according to claim 3, wherein: the net barrel (8) comprises a left half cylinder body (8-1) and a right half cylinder body (8-2), one sides of the left half cylinder body (8-1) and the right half cylinder body (8-2) are hinged with each other, the other sides of the left half cylinder body and the right half cylinder body (8-2) are respectively provided with a half round threaded rod (8-3), and when the left half cylinder body (8-1) and the right half cylinder body (8-2) are folded, the two half round threaded rods (8-3) are spliced into a threaded rod and locked through nuts (8-4).

Images