阅读说明：本技术 一种蔬菜运输方法 (Vegetable transportation method ) 是由 李世琴 于 2021-10-20 设计创作，主要内容包括：本发明属于蔬菜运输设备领域,尤其涉及一种蔬菜运输方法,该蔬菜运输方法采用一种蔬菜运输方法设备配合完成,该包括箱体,箱体下方设有减震部件对箱体进行减震和保持水平状态,箱体内部下端设有摆放部件方便蔬菜的存放和拿取,箱体内部一端设有冷藏部件对箱体内部进行制冷冷藏,箱体内部两侧设有保湿部件对蔬菜进行雾化保湿,箱体一端转动设有第一转动柱,第一转动柱上固设有转动门,箱体上端转动设有第二转动柱,第二转动柱上固设有折叠门,折叠门中间转动设有第三转动柱,转动门与折叠门之间滑动设有密封滑块。本发明有效的利用了运输车的空间和对存储箱起到一定减震作用,方便蔬菜的存放和取出,还有避免了蔬菜之间的挤压。(The invention belongs to the field of vegetable transportation equipment, and particularly relates to a vegetable transportation method which is completed by matching vegetable transportation method equipment. The invention effectively utilizes the space of the transport vehicle and plays a certain role in damping the storage box, thereby facilitating the storage and the taking out of vegetables and avoiding the extrusion among the vegetables.)

1. A vegetable transportation method is characterized by comprising the following steps:

s1, placing the vegetables, opening the storage box, extending the placing plate out of the box body to facilitate placing the vegetables, retracting the placing plate into the box body, and closing the storage box;

s2, carrying out transportation shock absorption, wherein the storage box generates shock in the transportation process, and rotating shock absorption in the direction is carried out on the storage box according to the shock direction of the transport vehicle, so that the horizontal state of the storage box is ensured;

s3: refrigerating, namely performing heat absorption phenomenon in the process of physical state change in the storage box through the cooperation effect of shock absorption, circulating the storage box by gas and liquid, and continuously absorbing and releasing heat so as to achieve the aim of refrigeration;

s4: atomizing and spraying water, namely rotating and atomizing the vegetables to spray water, and keeping the vegetables fresh;

s5: secondary cold air spraying is carried out on the vegetables at the next layer by matching water falling from the vegetables with cold air;

s6: the vegetables are taken out, the transportation vehicle transports the storage box to a destination, the storage box is opened, and the placing plate extends out of the box body to facilitate the taking out of the vegetables;

the steps S1-S6 are completed by matching of a vegetable transportation method and equipment, the vegetable transportation method and equipment comprises a box body (10), a shock absorption component (11) is arranged below the box body (10) to absorb shock and keep the box body (10) in a horizontal state, a placing component (12) is arranged at the lower end inside the box body (10) to facilitate storage and taking of vegetables, a refrigerating component (13) is arranged at one end inside the box body (10) to refrigerate and refrigerate the inside of the box body (10), moisturizing components (14) are arranged on two sides inside the box body (10) to atomize and moisturize the vegetables, a first rotating column (21) is rotatably arranged at one end of the box body (10), a rotating door (22) is fixedly arranged on the first rotating column (21), a second rotating column (25) is rotatably arranged at the upper end of the box body (10), a folding door (23) is fixedly arranged on the second rotating column (25), a third rotating column (26) is rotatably arranged in the middle of the folding door (23), and a sealing sliding block (24) is arranged between the rotating door (22) and the folding door (23) in a sliding manner.

2. A vegetable transportation method according to claim 1, wherein: damping part (11) include base (15), base (15) are located box (10) below, the slip is equipped with a plurality of sliders (17) on base (15), the one end that base (15) direction was kept away from in slider (17) has set firmly support sliding block (16), base (15) upper end slip is equipped with a plurality of snubber blocks (18), be equipped with gasbag (19) between snubber block (18) and base (15), snubber block (18) upper end and box (10) sliding connection, rotate between base (15) the centre and box (10) and be connected and be equipped with shock attenuation rolling ball (27).

3. A vegetable transportation method according to claim 2, wherein: the placing component (12) comprises a first motor (28), the first motor (28) is located at one end, far away from the rotating door (22), of the box body (10), the first motor (28) is fixedly provided with two first linkage columns (29) towards the rotating door (22), one ends, far away from the first motor (28), of the two first linkage columns (29) are rotatably provided with two fixed blocks (30), two moving blocks (61) are rotatably arranged between the two first linkage columns (29), two telescopic groups (31) are arranged at the upper ends of the two fixed blocks (30) and the two moving blocks (61), four placing plates (32) are arranged between the two telescopic groups (31), each telescopic group (31) comprises a plurality of connecting rods (36), a rotating shaft (35) is rotatably arranged between each connecting rod (36) and the placing plate (32), and an adjusting slider (33) is arranged on the periphery of the rotating shaft (35), two sliding grooves (34) are formed in two sides of the placing plate (32), and the adjusting sliding blocks (33) slide in the sliding grooves (34).

4. A vegetable transportation method according to claim 3, wherein: the refrigerating component (13) comprises a refrigerating cavity (41), the refrigerating cavity (41) is positioned in one end wall of the box body (10) towards the first motor (28), a compression block (42) is arranged in the refrigeration cavity (41) in a sliding way, a Freon cavity (58) is arranged in the air bag (19), an upper air pipe (20) is arranged in the shock absorption block (18), the upper air pipe (20) is connected with a Freon cavity (58), a connecting channel (59) is connected between the upper air pipe (20) and the refrigeration cavity (41), a second linkage column (37) is fixedly arranged at one end of the Freon cavity (58) far away from the connecting channel (59), a fan (38) is fixedly arranged at one end of the second linkage column (37) far away from the first motor (28), a deoxidation mechanism (39) is arranged at the upper end of the first motor (28), and a cold air cavity (40) is arranged in the deoxidation mechanism (39) towards the inner direction of the box body (10).

5. A vegetable transportation method according to claim 4, wherein: place the inside upper end of board (32) and be equipped with air intake chamber (45), air intake chamber (45) upper end has set firmly a plurality of lower water valves (46), cold air chamber (40) have set firmly a plurality of butt joint valves (43) to placing board (32) direction, butt joint valve (43) are connected with air intake chamber (45) and are equipped with admission valve (44), air intake chamber (45) below is placing board (32) inside and is being equipped with down air cavity (47), air cavity (47) lower extreme has set firmly a plurality of lower gas atomizing valve (48), air cavity (47) and air intake chamber (45) intercommunication down.

6. A vegetable transportation method according to claim 5, wherein: the moisture retention component (14) comprises a second motor (53), the second motor (53) is positioned on two side walls of the box body (10), two linkage shafts (54) are fixedly arranged on the two second motors (53) towards the inner direction of the box body (10), two rotating discs (55) are fixedly arranged on the two linkage shafts (54) towards the inner direction of the box body (10), two water cavities (56) are arranged inside the two rotating discs (55), a plurality of compression atomizing spray heads (57) are slidably arranged on the two water cavities (56) towards the inner direction of the box body (10), two water feeding channels (51) are arranged below the two linkage shafts (54), the two water feeding channels (51) are communicated with the two water cavities (56), two compression cavities (49) are arranged at the lower ends of the two water feeding channels (51), and two lifting slide blocks (50) are slidably arranged inside the two compression cavities (49), a water pressing channel (60) is connected between the two compression cavities (49) and the upper air pipe (20), and a plurality of atomizing nozzles (52) are fixedly arranged on the two upper water channels (51) towards the inner direction of the box body (10).

Technical Field

The invention belongs to the field of vegetable transportation equipment, and particularly relates to a vegetable transportation method.

Background

The problems of extrusion, fresh keeping and the like can be encountered in the transportation and storage of the vegetables, the deformation of the vegetables can be caused due to the extrusion problem, the attractiveness and the quality of the vegetables are influenced, the temperature and the humidity are not controllable, the vegetables cannot be kept fresh for a long time, and the surfaces of the vegetables are easily frozen due to long-time freezing; the current vegetable transportation equipment can not keep vegetables fresh for a long time, and the temperature and humidity are uncontrollable and easy to extrude and damage.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a vegetable transportation method which can utilize the space of a transport vehicle and play a certain role in damping a storage box, is convenient for storing and taking out vegetables and avoids the extrusion among the vegetables.

The purpose of the invention can be realized by the following technical scheme: a vegetable transportation method comprising the steps of:

s1, placing the vegetables, opening the storage box, extending the placing plate out of the box body to facilitate placing the vegetables, retracting the placing plate into the box body, and closing the storage box;

s2, carrying out transportation shock absorption, wherein the storage box generates shock in the transportation process, and rotating shock absorption in the direction is carried out on the storage box according to the shock direction of the transport vehicle, so that the horizontal state of the storage box is ensured;

s3: refrigerating, namely performing heat absorption phenomenon in the process of physical state change in the storage box through the cooperation effect of shock absorption, circulating the storage box by gas and liquid, and continuously absorbing and releasing heat so as to achieve the aim of refrigeration;

s4: atomizing and spraying water, namely rotating and atomizing the vegetables to spray water, and keeping the vegetables fresh;

s5: secondary cold air spraying is carried out on the vegetables at the next layer by matching water falling from the vegetables with cold air;

s6: the vegetables are taken out, the transportation vehicle transports the storage box to a destination, the storage box is opened, and the placing plate extends out of the box body to facilitate the taking out of the vegetables;

the steps S1-S6 are completed by matching of a vegetable transportation method and equipment, the vegetable transportation method and equipment comprises a box body, a shock absorption component is arranged below the box body to absorb shock and keep the box body in a horizontal state, a placing component is arranged at the lower end inside the box body to facilitate storage and taking of vegetables, a refrigerating component is arranged at one end inside the box body to refrigerate and refrigerate the inside of the box body, moisturizing components are arranged on two sides inside the box body to atomize and moisturize the vegetables, a first rotating column is rotatably arranged at one end of the box body, a rotating door is fixedly arranged on the first rotating column, a second rotating column is rotatably arranged at the upper end of the box body, a folding door is fixedly arranged on the second rotating column, a third rotating column is rotatably arranged in the middle of the folding door, and a sealing slide block is slidably arranged between the rotating door and the folding door.

Preferably, the shock attenuation part includes the base, and the base is located the box below, and it is equipped with a plurality of sliders to slide on the base, and the one end that the base direction was kept away from to the slider has set firmly the support sliding block, and the base upper end slides and is equipped with a plurality of snubber blocks, is equipped with the gasbag between snubber block and the base, snubber block upper end and box sliding connection, rotate between the base in the middle of and the box and be connected and be equipped with the shock attenuation rolling ball.

Preferably, the placing component comprises a first motor, the first motor is located the box and is kept away from revolving door one end, the first motor has set firmly two first linkage posts to the revolving door direction, two first linkage posts are kept away from first motor one end and are rotated and are equipped with two fixed blocks, it is equipped with two movable blocks to rotate in the middle of two first linkage posts, two fixed blocks are equipped with two flexible groups with two movable block upper ends, it places the board to be equipped with four between two flexible groups, flexible group contains and is equipped with a plurality of connecting rods, the connecting rod with place to rotate between the board and be equipped with the pivot, the pivot periphery is equipped with adjust the slider, it is equipped with two spouts to place the board both sides, adjust the slider slides in the spout.

Preferably, cold-stored part is including the refrigeration chamber, the refrigeration chamber is located the box and to first motor direction end wall in, the inside slip of refrigeration chamber is equipped with the compression piece, be equipped with the freon chamber in the gasbag, the inside trachea of being equipped with of snubber block, it is connected with the freon chamber to go up the trachea, it is equipped with the interface channel to go up to be connected between trachea and the refrigeration chamber, the interface channel one end is kept away from in the freon chamber and has set firmly the second linkage post, first motor one end is kept away from to the second linkage post and has set firmly the fan, first motor upper end is equipped with deoxidation mechanism, deoxidation mechanism is equipped with the cold air chamber to the inside direction of box.

Preferably, place the inside upper end of board and be equipped with the chamber of admitting air, admit air the chamber upper end and set firmly a plurality of lower water valves, the cold air chamber has set firmly a plurality of butt joint valves to placing the board direction, the butt joint valve is connected with the chamber of admitting air and is equipped with the admission valve, admit air the chamber below and place the inboard inside and be equipped with down the air cavity, lower air cavity lower extreme has set firmly a plurality of lower gas atomizing valves, lower air cavity and the chamber intercommunication of admitting air.

Preferably, the moisturizing part includes the second motor, the second motor is located box both sides wall, two second motors have set firmly two universal driving shafts to the inside direction of box, two linkage axial have set firmly two rolling discs to the inside direction of box, two inside water cavities that are equipped with of rolling disc, two water cavities slide to the inside direction of box and are equipped with a plurality of compression atomizer, two universal driving shaft below are equipped with two water supply passage, two water supply passage and two water cavity intercommunication, two water supply passage lower extremes are equipped with two compression chambeies, two inside slides of compression chamber are equipped with two lift sliders, it is equipped with the pressurized-water passageway to be connected between two compression chambeies and the last trachea, two water supply passages have set firmly a plurality of atomizer to the inside direction of box.

Has the advantages that:

1. through the setting of shock attenuation part, effectual space that has utilized the transport vechicle with play certain cushioning effect to the storage box.

2. Through putting the part setting, make things convenient for depositing and taking out of vegetables, avoided the extrusion between the vegetables in addition.

3. Through cold-stored part and moisturizing part setting, carry out certain cold-stored and moisturizing to vegetables, prevent the damage of vegetables.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a flow chart of the method of the present invention.

Fig. 2 is a schematic isometric view of the present invention.

Fig. 3 is a schematic structural view in front view of the present invention.

Fig. 4 is a schematic sectional view at a-a in fig. 3.

Fig. 5 is a schematic cross-sectional view at B-B in fig. 3.

Fig. 6 is a schematic view of a portion D in fig. 4.

Fig. 7 is a schematic view of a portion at E in fig. 4.

Fig. 8 is a schematic top view of the present invention.

Fig. 9 is a schematic sectional view at C-C in fig. 8.

Fig. 10 is a schematic view of a portion at F in fig. 9.

In the figure, a box body 10, a shock absorption component 11, a placing component 12, a refrigeration component 13, a moisturizing component 14, a base 15, a support sliding block 16, a sliding block 17, a shock absorption block 18, an air bag 19, an upper air pipe 20, a first rotating column 21, a rotating door 22, a folding door 23, a sealing sliding block 24, a second rotating column 25, a third rotating column 26, a shock absorption rotating ball 27, a first motor 28, a first linkage column 29, a fixed block 30, a telescopic group 31, a placing plate 32, an adjusting sliding block 33, a sliding chute 34, a rotating shaft 35, a connecting rod 36, a second linkage column 37, a fan 38, a deoxidation mechanism 39, a cold air cavity 40, a refrigeration cavity 41, a compression block 42, a butt valve 43, an air inlet valve 44, an air inlet cavity 45, a lower water valve 46, a lower air cavity 47, a lower air atomization valve 48, a compression cavity 49, a lifting sliding block 50, an upper water channel 51, an atomization nozzle 52, a second motor 53, a linkage shaft 54, a rotating disc 55, a water cavity 56, a water storage cavity, A compression atomizing nozzle 57, a Freon cavity 58, a connecting channel 59, a pressurized water channel 60 and a moving block 61.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

With reference to fig. 1-10, a method for transporting vegetables includes the following steps:

s1, placing the vegetables, opening the storage box, extending the placing plate out of the box body to facilitate placing the vegetables, retracting the placing plate into the box body, and closing the storage box;

s2, carrying out transportation shock absorption, wherein the storage box generates shock in the transportation process, and rotating shock absorption in the direction is carried out on the storage box according to the shock direction of the transport vehicle, so that the horizontal state of the storage box is ensured;

s3: refrigerating, namely performing heat absorption phenomenon in the process of physical state change in the storage box through the cooperation effect of shock absorption, circulating the storage box by gas and liquid, and continuously absorbing and releasing heat so as to achieve the aim of refrigeration;

s4: atomizing and spraying water, namely rotating and atomizing the vegetables to spray water, and keeping the vegetables fresh;

s5: secondary cold air spraying is carried out on the vegetables at the next layer by matching water falling from the vegetables with cold air;

s6: the vegetables are taken out, the transportation vehicle transports the storage box to a destination, the storage box is opened, and the placing plate extends out of the box body to facilitate the taking out of the vegetables;

steps S1-S6 are completed by matching of a vegetable transportation method and equipment, the vegetable transportation method and equipment comprises a box body 10, a shock absorption part 11 is arranged below the box body 10 to absorb shock and keep the box body 10 in a horizontal state, a placing part 12 is arranged at the lower end inside the box body 10 to facilitate storage and taking of vegetables, a refrigerating part 13 is arranged at one end inside the box body 10 to refrigerate and refrigerate the inside of the box body 10, moisturizing parts 14 are arranged on two sides inside the box body 10 to atomize and moisturize the vegetables, a first rotating column 21 is rotatably arranged at one end of the box body 10, a rotating door 22 is fixedly arranged on the first rotating column 21, a second rotating column 25 is rotatably arranged at the upper end of the box body 10, a folding door 23 is fixedly arranged on the second rotating column 25, a third rotating column 26 is rotatably arranged in the middle of the folding door 23, and a sealing slide block 24 is slidably arranged between the rotating door 22 and the folding door 23.

Further, referring to fig. 1-10, the damping member 11 includes a base 15, the base 15 is located below the box 10, a plurality of sliding blocks 17 are slidably disposed on the base 15, a supporting sliding block 16 is fixedly disposed at an end of the sliding block 17 away from the base 15, a plurality of damping blocks 18 are slidably disposed at an upper end of the base 15, an air bag 19 is disposed between the damping blocks 18 and the base 15, an upper end of the damping block 18 is slidably connected to the box 10, and a damping rotating ball 27 is rotatably connected between the middle of the base 15 and the box 10.

Further, with reference to fig. 1 to 10, the placing member 12 includes a first motor 28, the first motor 28 is located at one end of the box 10 far away from the rotating door 22, the first motor 28 is fixedly provided with two first linking columns 29 towards the rotating door 22, one end of each of the two first linking columns 29 far away from the first motor 28 is rotatably provided with two fixed blocks 30, the middle of each of the two first linking columns 29 is rotatably provided with two moving blocks 61, two telescopic groups 31 are provided at the upper ends of the two fixed blocks 30 and the two moving blocks 61, four placing plates 32 are provided between the two telescopic groups 31, each of the telescopic groups 31 includes a plurality of connecting rods 36, a rotating shaft 35 is rotatably provided between each of the connecting rods 36 and the placing plates 32, an adjusting slider 33 is provided at the periphery of the rotating shaft 35, two sliding grooves 34 are provided at two sides of the placing plates 32, and the adjusting slider 33 slides in the sliding grooves 34.

Further, with reference to fig. 1-10, the refrigerating component 13 includes a refrigerating chamber 41, the refrigerating chamber 41 is located in an end wall of the box 10 in the direction toward the first motor 28, a compression block 42 is slidably disposed inside the refrigerating chamber 41, a freon chamber 58 is disposed in the air bag 19, an upper air pipe 20 is disposed inside the shock absorption block 18, the upper air pipe 20 is connected with the freon chamber 58, a connection channel 59 is disposed between the upper air pipe 20 and the refrigerating chamber 41, a second linkage column 37 is fixedly disposed at one end of the freon chamber 58 far away from the connection channel 59, a fan 38 is fixedly disposed at one end of the second linkage column 37 far away from the first motor 28, a deoxidation mechanism 39 is disposed at the upper end of the first motor 28, and the deoxidation mechanism 39 is disposed at the end of the box 10 and provided with a cold air chamber 40 in the direction toward the inside of the box 10.

Further, with reference to fig. 1 to 10, an air inlet chamber 45 is provided at an upper end inside the placing plate 32, a plurality of drain valves 46 are fixedly provided at an upper end of the air inlet chamber 45, a plurality of docking valves 43 are fixedly provided at the cold air chamber 40 toward the placing plate 32, the docking valves 43 are connected with the air inlet chamber 45 and provided with air inlet valves 44, a drain air chamber 47 is provided inside the placing plate 32 below the air inlet chamber 45, a plurality of drain atomizing valves 48 are fixedly provided at a lower end of the drain air chamber 47, and the drain air chamber 47 is communicated with the air inlet chamber 45.

Further, referring to fig. 1-10, the moisture retention component 14 includes a second motor 53, the second motor 53 is located on two side walls of the box 10, two linkage shafts 54 are fixedly arranged on the two second motors 53 towards the inside of the box 10, two rotation discs 55 are fixedly arranged on the two linkage shafts 54 towards the inside of the box 10, two water chambers 56 are arranged inside the two rotation discs 55, a plurality of compression atomizing nozzles 57 are slidably arranged in the two water chambers 56 towards the inside of the box 10, two water supply passages 51 are arranged below the two linkage shafts 54, the two water supply passages 51 are communicated with the two water chambers 56, two compression chambers 49 are arranged at the lower ends of the two water supply passages 51, two lifting sliders 50 are slidably arranged inside the two compression chambers 49, a water pressure passage 60 is connected between the two compression chambers 49 and the upper air pipe 20, and a plurality of atomizing nozzles 52 are fixedly arranged on the two water supply passages 51 towards the inside of the box 10.

Principle of operation

S1, vegetables are put in, the first rotating column 21 rotates to drive the rotating door 22 to rotate, the box body 10 is opened, the second rotating column 25 rotates to drive the folding door 23 to rotate, the third rotating column 26 rotates to drive the folding door 23 to fold, the first motor 28 is started clockwise to drive the moving block 61 to move through the rotation of the first linkage column 29, the moving block 61 moves to drive the telescopic group 31 to extend out, the telescopic group 31 extends out to be matched with the sliding block 33 to slide in the sliding groove 34 to horizontally extend the placing plate 32 out of the box body 10 so that the vegetables are placed at the upper end of the placing plate 32, the first motor 28 is started anticlockwise to drive the moving block 61 to move through the rotation of the first linkage column 29, the moving block 61 moves to drive the telescopic group 31 to retract, the telescopic group 31 retracts to drive the placing plate 32 to retract into the box body 10, the third rotating column 26 rotates to drive the folding door 23 to rotate and straighten, the second rotating column 25 rotates to drive the folding door 23 to rotate, and the upper end of the box body 10 is closed, the first rotary column 21 rotates to drive the rotary door 22 to rotate, the sealing slide block 24 slides into the folding door 23, and the box body 10 is sealed and closed.

S2, damping during transportation, wherein the transportation vehicle generates vibration during transportation, the damping rotating ball 27 is matched with the damping block 18 to slide on the base 15 and the box body 10 to damp the rotation of the box body 10 according to the vibration direction of the transportation vehicle so as to ensure the horizontal state of the box body 10, and the sliding block 17 drives the supporting sliding block 16 to slide on the base 15 to change the position so as to facilitate the placement of a plurality of box bodies 10 on the transportation vehicle, thereby reasonably utilizing space.

S3: it is cold-stored, damping block 18 is pushed down through box 10, damping block 18 pushes down gasbag 19, make the freon chamber 58 gas in the gasbag 19 enter into connecting channel 59 through last trachea 20, reentrant refrigeration chamber 41 carries out the heat absorption phenomenon of the change in-process of thing attitude, make its gas-liquid circulation, it is heat-absorbing and exothermic constantly, in order to reach refrigerated purpose, first motor 28 anticlockwise rotates and drives fan 38 through second linkage post 37 and rotate, the air passes through deoxidation mechanism 39 and enters into in the cold air chamber 40, the air in the cold air chamber 40 is refrigerated by refrigeration chamber 41 and enters into in the chamber 45 of admitting air through butt joint valve 43 and admission valve 44 butt joint to vegetables.

S4: atomizing water spray, gas in the lifting slide block 50 enters into the compression chamber 49 through the pressurized water passageway 60 and pushes up the lifting slide block 50, push away the water in the compression chamber 49 in the water channel 51, the water in the water channel 51 is partly to carry out the atomizing water spray to vegetables through atomizer 52, partly enters into the water chamber 56, second motor 53 starts to rotate through universal driving shaft 54 and drives rolling disc 55 and rotate, rolling disc 55 rotates and drives compression atomizer 57 and rotate, compression atomizer 57 rotates and is extruded by flexible group 31, the water atomizing water spray of high pressure in the water chamber 56 behind the extrusion of compression atomizer 57, carry out the effect of moisturizing for vegetables.

S5: and secondary cold air spraying is carried out on the vegetables at the next layer by the lower air atomizing valve 48.

S6: vegetables are taken out, the transportation handlebar is transported to the destination, first post 21 rotates and drives the rotation door 22 and rotate, box 10 is opened, second rotation post 25 rotates and drives folding door 23 and rotates, third rotation post 26 rotates and drives folding door 23 and fold, first motor 28 rotates through first linkage post 29 and drives movable block 61 and remove, movable block 61 removes and drives flexible group 31 and stretches out, flexible group 31 stretches out cooperation adjusting block 33 and slides in spout 34 and place board 32 level and stretch out the just vegetables of box 10 outside and take out.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.