CN210157804U

CN210157804U - Three-dimensional agricultural production system

Info

Publication number: CN210157804U
Application number: CN201920738411.9U
Authority: CN
Inventors: 谷虹芸; 范淼淼
Original assignee: Yantai Youxiang Health Technology Incubation Park Co Ltd
Current assignee: Yantai Youxiang Health Technology Incubation Park Co Ltd
Priority date: 2019-05-21
Filing date: 2019-05-21
Publication date: 2020-03-20
Anticipated expiration: 2029-05-21

Abstract

A stereoscopic agricultural production system comprises a plurality of sets of stereoscopic planting frames, infusion assemblies and liquid storage tanks which are arranged side by side; the stereoscopic planting frame comprises a first mounting plate, a planting box for planting crops, a crop fixing frame, a fixing rod and a second mounting plate; the two ends of the fixed rod are respectively connected with the first mounting plate and the second mounting plate, and first mounting holes are uniformly formed in the first mounting plate and the second mounting plate respectively; the planting box sequentially penetrates through a first mounting hole in the first mounting plate and a first mounting hole in the second mounting plate respectively, and a liquid inlet hole, a first planting hole and a second planting hole are formed in the planting box; fixing frames are respectively arranged above the first planting hole and the second planting hole; the crop fixing frame is respectively connected with the first mounting plate and the second mounting plate; the liquid outlet end of the transfusion component is respectively connected with the liquid inlet hole, and the liquid inlet end of the transfusion component is respectively connected with the liquid outlet hole of the liquid storage tank. The utility model discloses cultivate to crops and have the advantage that improves space utilization, practice thrift and to use arable area.

Description

Three-dimensional agricultural production system

Technical Field

The utility model relates to a three-dimensional farming technical field especially relates to a three-dimensional agriculture production system.

Background

China is a big agricultural country, and in the previous agricultural production and movement, China walks a road of 'low-level plane cultivation', but China has limited culturable area, and limited cultivated land can not meet the requirement of large-batch agricultural product production, so that three-dimensional agricultural production is very necessary, and the three-dimensional agricultural is arranged in a multilayer structure to plant crops; in the process of stereoscopic agricultural planting, the nutrient solution is required to be provided for crops regularly when the crops are separated from soil during production; however, the existing three-dimensional agricultural planting mostly adopts spray irrigation to provide nutrient solution for crops, and the nutrient solution spraying usually causes the waste of a large amount of nutrient solution.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

In order to solve the technical problems existing in the background technology, the utility model provides a three-dimensional agricultural production system which cultures crops and has the advantages of improving the space utilization rate and saving the usable cultivated land area; the utility model provides a planting box which provides nutrient solution for crops in a bottom water seepage mode; compared with the sprinkling irrigation, the nutrient solution is saved, and the waste of the nutrient solution is greatly avoided.

(II) technical scheme

In order to solve the problems, the utility model provides a three-dimensional agricultural production system, which comprises a plurality of groups of three-dimensional planting frames, infusion assemblies and liquid storage tanks which are arranged side by side; the stereoscopic planting frame comprises a first mounting plate, a planting box for planting crops, a crop fixing frame, a fixing rod and a second mounting plate;

the first mounting plate and the second mounting plate are arranged side by side, a gap is reserved between the first mounting plate and the second mounting plate, two ends of the fixed rod are respectively connected with the first mounting plate and the second mounting plate, and first mounting holes are uniformly formed in the first mounting plate and the second mounting plate respectively;

the planting box sequentially penetrates through a first mounting hole and a gap on the first mounting plate and a first mounting hole on the second mounting plate respectively, the planting box is detachably connected with the first mounting plate and the second mounting plate respectively, the planting box is vertically arranged with the first mounting plate and the second mounting plate respectively, a liquid inlet hole is formed in the upper end of the planting box, and a first planting hole and a second planting hole for planting crops are formed in the upper end of the planting box respectively; crop fixing frames for climbing crops are respectively arranged above the first planting hole and the second planting hole; the crop fixing frame is respectively connected with the first mounting plate and the second mounting plate and is respectively positioned on the end surfaces of the first mounting plate and the second mounting plate which are far away from each other;

the liquid outlet ends of the infusion components are respectively connected with the liquid inlet holes, and the liquid inlet ends of the infusion components are respectively connected with the liquid outlet holes of the liquid storage tank; the liquid storage tank is filled with nutrient solution for crop production.

Preferably, the first mounting plate and the second mounting plate are identical in structure; the first mounting plate and the second mounting plate are symmetrically arranged with a median line of the fixing rod.

Preferably, a first partition plate is arranged in the planting box; the first partition board is used for dividing the interior of the planting box into a first storage bin at the lower layer and a second storage bin at the upper layer; a second partition plate and a third partition plate are arranged in the second storage bin side by side; the second partition plate and the third partition plate are used for dividing the interior of the second storage bin into a first planting bin, a liquid inlet bin and a second planting bin in sequence; the first partition plate is provided with a first through hole for communicating the first storage bin with the second planting bin, a second through hole for communicating the first storage bin with the liquid inlet bin and a third through hole for communicating the first storage bin with the first planting bin;

the first planting holes are respectively communicated with the first planting bins; a first filter cloth is arranged at the bottom of the first planting bin, and a planting matrix for planting crops is placed in the first planting bin;

the second planting holes are respectively communicated with the second planting bins; a second filter cloth is arranged at the bottom of the second planting bin, and a planting matrix for planting crops is placed in the second planting bin;

the liquid inlet holes are respectively communicated with the liquid inlet bin.

Preferably, the first planting bin is provided with a first opening for adding or cleaning the planting matrix into the first planting bin; the first opening is provided with a first sealing door.

Preferably, the second planting bin is provided with a second opening for adding or cleaning the planting matrix into the second planting bin; and a second sealing door is arranged at the second opening.

Preferably, the crop fixing frame comprises a first connecting rod and a second connecting rod; the first mounting plate and the second mounting plate are respectively provided with a second mounting hole; the second mounting holes are respectively positioned above the first mounting holes; the first connecting rods are screwed into the second mounting holes respectively in a threaded manner, and the first connecting rods are provided with placing grooves at equal intervals; the second connecting rods are detachably arranged in the placing grooves respectively.

Preferably, the infusion assembly comprises a water pump, a first infusion tube and a second infusion tube; the liquid inlet end of the water pump is respectively connected with the liquid outlet hole of the liquid storage tank, and the liquid outlet end of the water pump is respectively connected with the first liquid conveying pipe; one end of the second infusion tube is respectively connected with the liquid inlet hole, and the other end of the second infusion tube is respectively connected with the first infusion tube.

Preferably, the liquid storage tank is provided with a liquid adding hole; a liquid feeding hopper is arranged in the liquid feeding hole; the liquid feeding hopper is provided with a sealing cover.

Preferably, a rotating shaft is arranged in the liquid storage tank; the rotating shaft is provided with a stirring rod and is connected with a driving device arranged on the liquid storage tank in a transmission way.

The above technical scheme of the utility model has following profitable technological effect:

when the device is used, according to the variety of crops to be cultured, a proper first mounting plate and a proper second mounting plate are selected, the first mounting plate and the second mounting plate are respectively formed by using a fixed rod, the planting boxes are respectively placed on the first mounting plate and the second mounting plate, the crops are respectively planted in the first planting hole and the second planting hole of the planting boxes, and nutrient solution stored in the liquid storage tank is conveyed into the planting boxes through the liquid conveying assembly so that the crops can normally grow; crops grow upwards along the mounting plate and under the support of the crop fixing frame, and the stereoscopic structure is adopted to cultivate the crops, so that the stereoscopic structure has the advantages of improving the space utilization rate and saving the usable cultivated land area;

the other planting box provides nutrient solution for crops in a bottom water seepage mode; compared with the sprinkling irrigation, the nutrient solution is saved, and the waste of the nutrient solution is greatly avoided.

Drawings

Fig. 1 is a schematic structural view of a three-dimensional agricultural production system provided by the utility model.

Fig. 2 is the structure diagram of a part a enlarged in a stereoscopic agricultural production system provided by the utility model.

Fig. 3 is a schematic structural view of a part B of a stereoscopic agricultural production system according to the present invention.

Fig. 4 is a front view of the first mounting plate in the stereoscopic agricultural production system provided by the utility model.

Fig. 5 is a schematic view of a three-dimensional structure of a first connecting rod in a three-dimensional agricultural production system according to the present invention.

Fig. 6 is the utility model provides a structural schematic diagram of planting case in three-dimensional agricultural production system.

Fig. 7 is a schematic view of a three-dimensional structure of a planting box in a three-dimensional agricultural production system.

Reference numerals: 1. a first mounting plate; 11. a first mounting hole; 12. a second mounting hole; 2. planting boxes; 3. a crop fixing frame; 31. a first connecting rod; 32. a second connecting rod; 33. a placement groove; 4. a second mounting plate; 5. a fluid delivery assembly; 51. a water pump; 52. a first infusion tube; 53. a second infusion tube; 6. a liquid storage tank; 61. a drive device; 62. a liquid feeding hopper; 63. a rotating shaft; 64. a stirring rod; 201. a first separator; 202. a first storage compartment; 203. a first through hole; 204. a second separator; 205. a second through hole; 206. a third through hole; 207. a first planting bin; 208. a first planting hole; 209. a third partition plate; 210. a liquid inlet bin; 211. a liquid inlet hole; 212. a first liquid level sensor; 213. a second liquid level sensor; 214. a second planting hole; 215. a second planting bin; 216. a second opening; 217. a first opening; 7. and (5) fixing the rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-7, the utility model provides a three-dimensional agricultural production system, which comprises a plurality of sets of three-dimensional planting frames, a transfusion component 5 and a liquid storage tank 6 which are arranged side by side;

the stereoscopic planting frame comprises a first mounting plate 1, a planting box 2 for planting crops, a crop fixing frame 3, a fixing rod 7 and a second mounting plate 4; it should be noted that the first mounting plate 1 and the second mounting plate 4 are mainly used for placing the planting box 2, and therefore the specific structures of the first mounting plate 1 and the second mounting plate 4 are not described in detail, and in this description, the first mounting plate 1 and the second mounting plate 4 are respectively selected to be rectangular parallelepiped structures;

the first mounting plate 1 and the second mounting plate 4 are arranged side by side, a gap is reserved between the first mounting plate 1 and the second mounting plate 4, two ends of the fixed rod 7 are respectively connected with the first mounting plate 1 and the second mounting plate 4, and first mounting holes 11 for placing the planting boxes 2 are respectively and uniformly arranged on the first mounting plate 1 and the second mounting plate 4;

the first mounting plate 1 and the second mounting plate 4 with the first mounting holes 11 at different intervals are selected according to different crops to be cultivated; the distance between the first mounting holes 11 arranged along the height direction of the mounting plate is not less than the length of the mature period of the planted crop, and if pepper is planted, the distance between the upper first mounting hole 11 and the lower first mounting hole 11 is not less than the plant height of the mature period of the pepper of the variety;

the planting box 2 sequentially penetrates through a first mounting hole 11 and a gap on the first mounting plate 1 and a first mounting hole 11 on the second mounting plate 4 respectively, the planting box 2 is detachably connected with the first mounting plate 1 and the second mounting plate 4 respectively, the planting box 2 is vertically arranged with the first mounting plate 1 and the second mounting plate 4 respectively, a liquid inlet hole 211 is formed in the upper end of the planting box 2, and a first planting hole 208 and a second planting hole 214 for planting crops are formed in the upper end of the planting box 2 respectively; a crop fixing frame 3 for crop climbing is arranged above the first planting hole 208 and the second planting hole 214 respectively;

the crop fixing frame 3 is respectively connected with the first mounting plate 1 and the second mounting plate 4, and the crop fixing frame 3 is respectively positioned on the end surfaces of the first mounting plate 1 and the second mounting plate 4 which are far away from each other;

it should be noted that the first planting holes 208 and the second planting holes 214 are respectively located on two sides of the first mounting plate 1 and the second mounting plate 4, and crops planted in the first planting holes 208 and the second planting holes 214 can grow upwards along the end surfaces of the first mounting plate 1 and the second mounting plate 4 respectively under the support of the crop fixing frame 3;

the liquid outlet ends of the infusion components 5 are respectively connected with a liquid inlet hole 211, and the liquid inlet ends of the infusion components 5 are respectively connected with a liquid outlet hole of the liquid storage tank 6; nutrient solution for crop production is stored in the liquid storage tank 6; the nutrient solution is selected from but not limited to liquid generated by ammoniation of crop straws.

In the utility model, when in use, the proper first mounting plate 1 and the second mounting plate 4 are selected according to the variety of the crop to be cultivated, the fixing rod 7 is used to respectively combine the first mounting plate 1 and the second mounting plate 4, the planting box 2 is respectively arranged on the first mounting plate 1 and the second mounting plate 4, the crop is respectively planted in the first planting hole 208 and the second planting hole 214 of the planting box 2, and the nutrient solution stored in the liquid storage tank 6 is conveyed into the planting box 2 through the transfusion component 5 for the normal growth of the crop; crops grow upwards along the mounting plate and under the support of the crop fixing frame 3, and the three-dimensional structure is adopted to cultivate the crops, so that the three-dimensional structure has the advantages of improving the space utilization rate and saving the usable cultivated land area; and the structure is convenient to install and is worth popularizing.

In an alternative embodiment, the first mounting plate 1 and the second mounting plate 4 are identical in construction; the first mounting plate 1 and the second mounting plate 4 are symmetrically arranged with a median line of the fixing rod 7.

It should be noted that, when installing the universal wheel with first mounting panel 1 and second mounting panel 4 lower extreme, then conveniently remove it, conveniently remove the stereoscopic planting frame through the universal wheel.

In an alternative embodiment, a first partition 201 is arranged in the planting box 2; the first partition 201 is used for dividing the interior of the planting box 2 into a first storage bin 202 at a lower layer and a second storage bin at an upper layer; a second partition plate 204 and a third partition plate 209 are arranged in the second storage bin side by side; the second partition 204 and the third partition 209 are used for dividing the interior of the second storage bin into a first planting bin 207, a liquid inlet bin 210 and a second planting bin 215 in sequence; a first through hole 203 for communicating the first storage bin 202 with the second planting bin 215, a second through hole 205 for communicating the first storage bin 202 with the liquid inlet bin 210 and a third through hole 206 for communicating the first storage bin 202 with the first planting bin 207 are formed in the first partition plate 201;

the first planting holes 208 are respectively communicated with the first planting bins 207; a first filter cloth is arranged at the bottom of the first planting bin 207, and a planting base body for planting crops is placed in the first planting bin 207;

the second planting holes 214 are respectively communicated with the second planting bins 215; a second filter cloth is arranged at the bottom of the second planting bin 215, and a planting base body for planting crops is placed in the second planting bin 215;

the liquid inlet holes 211 are respectively communicated with the liquid inlet bins 210.

Furthermore, the planting matrix is selected from but not limited to sponge.

It should be noted that, a first liquid level sensor 212 and a second liquid level sensor 213 are further arranged in the liquid inlet bin 210 along the height direction of the planting box 2; the first liquid level sensor 212 and the second liquid level sensor 213 are arranged to control nutrient solutions which need to be added to crops at different stages, so that the production cost is reduced, and the yield is prevented from being influenced by too much nutrient solution provided for the crops; in addition, humidity sensors are arranged in the planting bins, and electromagnetic valves are respectively arranged in the second infusion tubes 53; the electromagnetic valve, the humidity sensor and the temperature sensor are all connected with the controller; the controller is connected with the water pump 51; when the humidity sensor feeds back water shortage in the hollow bin of the controller, the controller controls the water pump 51 to be powered on to operate, and the water pump 51 conveys nutrient solution into the liquid inlet bin 210 from the first liquid conveying pipe 52 and the second liquid conveying pipe 53 in sequence; when the liquid level sensor detects that the liquid level is enough to feed back the added nutrient solution to the controller, the controller controls the electromagnetic valve to be closed, and the nutrient solution cannot enter the liquid inlet bin 210 from the second liquid conveying pipe 53;

it should be noted that after the nutrient solution enters the solution inlet bin 210, the nutrient solution enters the first storage bin 202 from the second through hole 205, the nutrient solution in the first storage bin 202 enters the second planting bin 215 and the first planting bin 207 from the first through hole 203 and the third through hole 206, and the nutrient solution is provided for crops in a bottom water seepage manner; compared with the sprinkling irrigation, the nutrient solution is saved, and the waste of the nutrient solution is greatly avoided.

In an alternative embodiment, the first planting compartment 207 is provided with a first opening 217 for adding or cleaning planting matrix into the first planting compartment 207; the first opening 217 is provided with a first sealing door.

In an alternative embodiment, the second planting compartment 215 is provided with a second opening 216 for adding or cleaning planting matrix into the second planting compartment 215; a second sealing door is arranged at the second opening 216.

In an alternative embodiment, the crop holder 3 comprises a first connecting rod 31 and a second connecting rod 32; the first mounting plate 1 and the second mounting plate 4 are respectively provided with a second mounting hole 12; the second mounting holes 12 are respectively positioned above the first mounting holes 11; the first connecting rods 31 are screwed into the second mounting holes 12 respectively, and the first connecting rods 31 are provided with placing grooves 33 at equal intervals; the second connecting rods 32 are detachably disposed in the placement grooves 33, respectively.

It should be noted that, rationally select the quantity of head rod 31 according to the crop, install head rod 31 on the mounting panel, be connected second connecting rod 32 and head rod 31, the mount is constituteed to a plurality of head rods 31 and second connecting rod 32 to make things convenient for the crop to climb along the mount and grow, perhaps protect the crop through the mount.

In an alternative embodiment, infusion set 5 includes a water pump 51, a first infusion tube 52, and a second infusion tube 53; the liquid inlet end of the water pump 51 is respectively connected with the liquid outlet hole of the liquid storage tank 6, and the liquid outlet end of the water pump 51 is respectively connected with the first liquid conveying pipe 52; one end of the second infusion tube 53 is connected with the liquid inlet hole 211, and the other end of the second infusion tube 53 is connected with the first infusion tube 52; a first infusion tube 52 is disposed within the aperture; the water pump 51 is provided on the reservoir 6.

In an alternative embodiment, the liquid storage tank 6 is provided with a liquid adding hole; a liquid feeding hopper 62 is arranged in the liquid feeding hole; the liquid adding funnel 62 is provided with a sealing cover.

In an alternative embodiment, a rotating shaft 63 is provided within reservoir 6; the rotating shaft 63 is provided with a stirring rod 64, and the rotating shaft 63 is in transmission connection with a driving device 61 arranged on the liquid storage tank 6; the driving device 61 is a variable frequency motor.

The driving device 61 is provided to rotate the rotating shaft 63 and the stirring rod 64 to stir the nutrient solution, so as to ensure the uniformity of the components of the nutrient solution.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims

1. A stereoscopic agricultural production system is characterized by comprising a plurality of groups of stereoscopic planting frames, infusion assemblies (5) and liquid storage tanks (6) which are arranged side by side; the stereoscopic planting frame comprises a first mounting plate (1), a planting box (2) for planting crops, a crop fixing frame (3), a fixing rod (7) and a second mounting plate (4);

the mounting structure comprises a first mounting plate (1) and a second mounting plate (4), wherein the first mounting plate (1) and the second mounting plate (4) are arranged side by side, a gap is reserved between the first mounting plate (1) and the second mounting plate (4), two ends of a fixed rod (7) are respectively connected with the first mounting plate (1) and the second mounting plate (4), and first mounting holes (11) are respectively and uniformly formed in the first mounting plate (1) and the second mounting plate (4);

the planting box (2) sequentially penetrates through a first mounting hole (11) in the first mounting plate (1), a gap and a first mounting hole (11) in the second mounting plate (4) respectively, the planting box (2) is detachably connected with the first mounting plate (1) and the second mounting plate (4) respectively, the planting box (2) is vertically arranged with the first mounting plate (1) and the second mounting plate (4) respectively, a liquid inlet hole (211) is formed in the upper end of the planting box (2), and a first planting hole (208) and a second planting hole (214) for planting crops are formed in the upper end of the planting box (2) respectively; crop fixing frames (3) used for climbing crops are respectively arranged above the first planting holes (208) and the second planting holes (214); the crop fixing frame (3) is respectively connected with the first mounting plate (1) and the second mounting plate (4), and the crop fixing frame (3) is respectively positioned on the end surfaces of the first mounting plate (1) and the second mounting plate (4) which are far away from each other;

the liquid outlet ends of the infusion components (5) are respectively connected with a liquid inlet hole (211), and the liquid inlet ends of the infusion components (5) are respectively connected with a liquid outlet hole of the liquid storage tank (6); the liquid storage tank (6) is internally provided with nutrient solution for crop production.

2. A stereoscopic agricultural production system according to claim 1, wherein the first mounting plate (1) and the second mounting plate (4) are identical in structure; the first mounting plate (1) and the second mounting plate (4) are symmetrically arranged by a median line of the fixed rod (7).

3. A stereoscopic agricultural production system according to claim 1, wherein a first partition (201) is provided in the planting box (2); the first partition plate (201) is used for dividing the interior of the planting box (2) into a first storage bin (202) at the lower layer and a second storage bin at the upper layer; a second partition plate (204) and a third partition plate (209) are arranged in the second storage bin side by side; the second partition plate (204) and the third partition plate (209) are used for dividing the interior of the second storage bin into a first planting bin (207), a liquid inlet bin (210) and a second planting bin (215) in sequence; a first through hole (203) for communicating the first storage bin (202) with the second planting bin (215), a second through hole (205) for communicating the first storage bin (202) with the liquid inlet bin (210) and a third through hole (206) for communicating the first storage bin (202) with the first planting bin (207) are formed in the first partition plate (201);

the first planting holes (208) are respectively communicated with the first planting bins (207); a first filter cloth is arranged at the bottom of the first planting bin (207), and a planting matrix for planting crops is placed in the first planting bin (207);

the second planting holes (214) are respectively communicated with the second planting bins (215); a second filter cloth is arranged at the bottom of the second planting bin (215), and a planting matrix for planting crops is placed in the second planting bin (215);

the liquid inlet holes (211) are respectively communicated with the liquid inlet bin (210).

4. The stereoscopic agricultural production system according to claim 3, wherein the first planting bin (207) is provided with a first opening (217) for adding or cleaning planting substrates into the first planting bin (207); a first sealing door is arranged at the first opening (217).

5. The stereoscopic agricultural production system of claim 3, wherein the second planting bin (215) is provided with a second opening (216) for adding or cleaning planting substrates into the second planting bin (215); a second sealing door is arranged at the second opening (216).

6. The stereoscopic agricultural production system of claim 1, wherein the crop holder (3) comprises a first connecting rod (31) and a second connecting rod (32); the first mounting plate (1) and the second mounting plate (4) are respectively provided with a second mounting hole (12); the second mounting holes (12) are respectively positioned above the first mounting holes (11); the first connecting rods (31) are screwed into the second mounting holes (12) respectively in a threaded manner, and the first connecting rods (31) are provided with placing grooves (33) at equal intervals; the second connecting rods (32) are respectively and detachably arranged in the placing grooves (33).

7. The stereoscopic agricultural production system of claim 1, wherein the infusion assembly (5) comprises a water pump (51), a first infusion tube (52) and a second infusion tube (53); the liquid inlet end of the water pump (51) is respectively connected with the liquid outlet hole of the liquid storage tank (6), and the liquid outlet end of the water pump (51) is respectively connected with the first liquid conveying pipe (52); one end of the second infusion tube (53) is respectively connected with the liquid inlet hole (211), and the other end of the second infusion tube (53) is respectively connected with the first infusion tube (52).

8. The stereoscopic agricultural production system of claim 1, wherein the liquid storage tank (6) is provided with a liquid adding hole; a liquid feeding hopper (62) is arranged in the liquid feeding hole; a sealing cover is arranged on the liquid adding hopper (62).

9. The stereoscopic agricultural production system of claim 8, wherein the fluid reservoir (6) is provided with a rotating shaft (63); the rotating shaft (63) is provided with a stirring rod (64), and the rotating shaft (63) is connected with a driving device (61) arranged on the liquid storage tank (6) in a transmission way.