CN219125317U - Golden mushroom cleaning device in batches - Google Patents

Abstract

The utility model discloses a batch cleaning device for flammulina velutipes, which comprises a flushing mechanism for flushing flammulina velutipes, a spin-drying mechanism for throwing out residual moisture in flammulina velutipes, a conveying mechanism for continuously conveying flammulina velutipes, and a cleaning mechanism for cleaning gaps in flammulina velutipes; when the needle mushroom cleaning device is used, when the needle mushrooms are moved to the position above the first gasket, the first telescopic rod drives the appliance for placing the needle mushrooms to move upwards through the first gasket, at the moment, the first water pump conveys the water source in the first water tank to the inside of the cleaning tank through the first conveying pipe, and at the moment, the first motor drives the water source in the cleaning tank to rotate through the fan blades, so that the water source cleans the needle mushrooms fixed on the appliance, and the water source passes through gaps between the surface of the needle mushrooms and the needle mushrooms, so that the clear effect on the needle mushrooms is improved.

Description

Golden mushroom cleaning device in batches

Technical Field

The utility model relates to the technical field of flammulina velutipes cleaning devices, in particular to a flammulina velutipes batch cleaning device.

Background

Needle mushrooms are widely distributed in nature, in China, japan, russian, europe, north America, australia, etc.; the method is suitable for the growth of flammulina velutipes from south to Yunnan, from east to Jiangsu and from west to Xinjiang in North China; needle mushrooms contain no chlorophyll, do not have photosynthesis, cannot produce carbohydrates, but can grow in a dark environment completely, and must absorb ready-made organic substances such as degradation products of carbohydrates, proteins and fats from a culture medium, are a saprophyte, are heterotrophic organisms, and belong to basidiomycetes; needle mushrooms are wood saprophytes and are easy to grow on dead trunks and stumps of broad-leaved trees such as willow, elm and poplar, and after the needle mushrooms are ripe, the needle mushrooms need to be carefully cleaned so as to be beneficial to subsequent work;

the prior publication number is: CN211185787U; the batch cleaning device for the production and processing of the flammulina velutipes comprises a base, a cleaning mechanism, a lifting mechanism and an air drying mechanism; the cleaning mechanism is arranged above the base and comprises a cleaning box, support plates and a cylinder, wherein the cleaning box is fixedly connected to the top of the base, the support plates are symmetrically fixedly connected to the top of the base, top plates are fixedly connected to the tops of the two support plates, a motor is fixedly connected to the top of each top plate, and the cylinder is rotatably connected to the top plates; according to the utility model, the needle mushrooms are placed in the cleaning box, and then the motor is used for driving the cylinder and the circular shaft to rotate, so that the needle mushrooms between the clamping plate and the baffle are driven to rotate in water in the cleaning box, the purpose of thoroughly cleaning the needle mushrooms is realized, meanwhile, the fan blades are driven to rotate through the rotating shaft, so that wind is generated, the effect of rapidly airing the needle mushrooms is realized, and the cleaned needle mushrooms are convenient to store;

in the use process, the hydraulic telescopic rod drives the L-shaped plate to move downwards through the lifting plate, the L-shaped plate drives the fixing plate to move downwards through the circular shaft, the motor drives the cylinder to rotate through the first rotating wheel and the first belt, the cylinder drives the fixing plate to rotate through the circular shaft, so that the needle mushrooms are moved into the cleaning box and rotate, the needle mushrooms are cleaned, in the process, the fixing plate drives the needle mushrooms to move into the cleaning box to rotate, the needle mushrooms drive the cleaning water to rotate, in the process, the needle mushrooms and the cleaning water rotate at the same speed, and the cleaning water possibly cannot clean gaps in the needle mushrooms, so that the cleaning effect is reduced.

Disclosure of Invention

The utility model aims to solve the problems and provide a flammulina velutipes batch cleaning device.

The utility model realizes the above purpose through the following technical scheme:

the device comprises a flushing mechanism for flushing needle mushrooms, a spin-drying mechanism for throwing out residual water in the needle mushrooms, a conveying mechanism for continuously conveying the needle mushrooms, and a cleaning mechanism for cleaning gaps in the needle mushrooms;

the washing mechanism is arranged behind the flushing mechanism, the flushing mechanism is arranged behind the spin-drying mechanism, and the washing mechanism is arranged below the washing mechanism;

the cleaning mechanism comprises a first supporting block, the first supporting block is arranged behind the flushing mechanism, a first telescopic rod is fixedly arranged above the first supporting block, a first gasket is fixedly arranged at the output end of the first telescopic rod, a cleaning box is arranged above the first gasket, a first motor is fixedly arranged above the cleaning box, a fan blade is fixedly arranged at the output end of the first motor, a fan blade bearing is arranged inside the cleaning box, a first water tank is fixedly arranged above the cleaning box, a first water pump is fixedly arranged above the first water tank, a first conveying pipe is fixedly arranged above the first water pump, and the other end of the first conveying pipe is fixedly arranged above the cleaning box.

Preferably, the cleaning mechanism further comprises two first supporting frames, the two first supporting frames are transversely and fixedly installed on two sides of the cleaning box, a first supporting rod is arranged below the first supporting frames, a second telescopic rod is fixedly installed above the first supporting rods, a first collecting box is fixedly installed at the output end of the second telescopic rod, the first collecting box is slidably installed above the first supporting rods, a first baffle is fixedly installed at one end of the first collecting box, and a first blocking cover is movably installed in front of the first collecting box.

Preferably, the flushing mechanism comprises a second supporting block, the second supporting block is arranged in front of the first supporting block, a third telescopic rod is fixedly arranged above the second supporting block, a second gasket is fixedly arranged at the output end of the third telescopic rod, a flushing box is arranged above the second gasket, a second motor is fixedly arranged in front of the flushing box, a threaded rod is arranged at the output end coupler of the second motor, a threaded rod bearing is arranged above the flushing box, a sliding rod is arranged on one side of the threaded rod, the sliding rod is fixedly arranged above the flushing box, a movable frame is movably arranged outside the threaded rod, the other end of the movable frame is slidably arranged outside the sliding rod, and seven spray heads are fixedly arranged below the movable frame.

Preferably, the flushing mechanism further comprises two second supporting frames, the two second supporting frames are transversely and fixedly installed on two sides of the flushing box, one of the two second supporting frames is fixedly provided with a second water tank, the upper part of the second water tank is fixedly provided with a second water pump, the upper part of the second water pump is fixedly provided with a second conveying pipe, the other end of the second conveying pipe is fixedly installed on the upper part of the movable frame, the lower part of the second supporting frames is provided with a second supporting rod, the upper part of the second supporting rod is fixedly provided with a fourth telescopic rod, the output end of the fourth telescopic rod is fixedly provided with a second collecting box, the second collecting box is slidably installed on the upper part of the second supporting rod, one end of the second collecting box is fixedly provided with a second baffle, and the front part of the second collecting box is movably provided with a second blocking cover.

Preferably, the spin-drying mechanism comprises a fifth telescopic rod, the fifth telescopic rod is arranged in front of the second supporting block, a first supporting plate is fixedly arranged at the output end of the fifth telescopic rod, a third motor is fixedly arranged above the first supporting plate, a combined head is fixedly arranged at the output end of the third motor, the combined head is rotatably arranged above the first supporting plate, a spin-drying frame is arranged above the combined head, two third blocking covers are transversely movably arranged below the spin-drying frame, and third supporting frames are fixedly arranged at two sides of the spin-drying frame.

Preferably, the conveying mechanism comprises a fourth supporting frame, the fourth supporting frame is arranged to be ten, and is longitudinally arranged below the spin-drying mechanism, two rotating rods are arranged on a bearing above the fourth supporting frame, one of the rotating rods is provided with a fourth motor through a shaft coupling at the input end of the rotating rod, the fourth motor is fixedly arranged on one side of the fourth supporting frame, a second supporting plate is fixedly arranged above the fourth supporting frame, the second supporting plate is arranged between the two rotating rods, two rotating rods are externally meshed and connected with a conveying belt, a placing plate is arranged above the conveying belt, and a combination plate is fixedly arranged below the placing plate.

Preferably, a rotating groove is formed above the first supporting plate, and the combined head is rotatably mounted in the rotating groove above the first supporting plate.

Preferably, the surface above the placing plate is made of rubber, four water diversion holes are formed in the placing plate, and the combining holes are formed below the combining plate and are completely matched with the upper part of the combining head.

The beneficial effects are that: when the needle mushroom cleaning device is used, when the needle mushrooms are moved to the position above the first gasket, the first telescopic rod drives the appliance for placing the needle mushrooms to move upwards through the first gasket, at the moment, the first water pump conveys the water source in the first water tank to the inside of the cleaning tank through the first conveying pipe, and at the moment, the first motor drives the water source in the cleaning tank to rotate through the fan blades, so that the water source cleans the needle mushrooms fixed on the appliance, and the water source passes through gaps between the surface of the needle mushrooms and the needle mushrooms, so that the clear effect on the needle mushrooms is improved.

Additional features and advantages of the utility model will be set forth in the description which follows, or may be learned by practice of the utility model.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model, and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the description serve to explain, without limitation, the utility model.

In the drawings:

FIG. 1 is a schematic diagram of a flammulina velutipes batch cleaning device according to the utility model;

FIG. 2 is a cross-sectional view of a cleaning mechanism of a flammulina velutipes batch cleaning device according to the present utility model;

FIG. 3 is a cross-sectional view of a flushing mechanism of the flammulina velutipes batch cleaning device of the present utility model;

FIG. 4 is a cross-sectional view of a spin-drying mechanism of a flammulina velutipes batch cleaning device of the present utility model;

FIG. 5 is a schematic diagram of a conveying mechanism of a flammulina velutipes batch cleaning device according to the utility model;

FIG. 6 is a schematic bottom view of a placement plate of a flammulina velutipes batch cleaning device of the present utility model;

fig. 7 is an enlarged schematic view of the position a of the flammulina velutipes batch cleaning device.

The reference numerals are explained as follows: 1. a cleaning mechanism; 2. a flushing mechanism; 3. a spin-drying mechanism; 4. a conveying mechanism; 101. a first support block; 102. a first telescopic rod; 103. a first gasket; 104. a cleaning box; 105. a first motor; 106. a fan blade; 107. a first water tank; 108. a first water pump; 109. a first delivery tube; 110. a first support frame; 111. a first support bar; 112. a second telescopic rod; 113. a first collection box; 114. a first baffle; 115. a first blanking cover; 201. a second support block; 202. a third telescopic rod; 203. a second gasket; 204. a flushing box; 205. a second motor; 206. a threaded rod; 207. a slide bar; 208. a movable frame; 209. a spray head; 210. a second water tank; 211. a second water pump; 212. a second delivery tube; 213. a second support frame; 214. a second support bar; 215. a fourth telescopic rod; 216. a second collection box; 217. a second baffle; 218. a second blanking cover; 301. a fifth telescopic rod; 302. a first support plate; 303. a third motor; 304. a combined head; 305. a drying rack; 306. a third blanking cover; 307. a third support frame; 401. a fourth support frame; 402. a fourth motor; 403. a rotating rod; 404. a second support plate; 405. a conveyor belt; 406. placing a plate; 407. and combining the plates.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1-7, the flammulina velutipes batch cleaning device comprises a flushing mechanism 2 for flushing flammulina velutipes, a spin-drying mechanism 3 for throwing out residual moisture in flammulina velutipes, a conveying mechanism 4 for continuously conveying flammulina velutipes, and a cleaning mechanism 1 for cleaning gaps in flammulina velutipes;

the cleaning mechanism 1 is arranged behind the flushing mechanism 2, the flushing mechanism 2 is arranged behind the spin-drying mechanism 3, and the cleaning mechanism 1 is arranged below the cleaning mechanism 1.

Referring to fig. 1 and 2, in the present embodiment, a cleaning mechanism 1 includes a first supporting block 101, the first supporting block 101 is disposed behind a flushing mechanism 2, a first telescopic rod 102 is fixedly mounted above the first supporting block 101 through a bolt, a first gasket 103 is fixedly mounted at an output end of the first telescopic rod 102 through a bolt, a cleaning tank 104 is disposed above the first gasket 103, a first motor 105 is fixedly mounted above the cleaning tank 104 through a bolt, a fan blade 106 is fixedly mounted at an output end of the first motor 105 through a bolt, and a fan blade 106 bearing is mounted inside the cleaning tank 104, a first water tank 107 is fixedly mounted above the cleaning tank 104 through a bolt, a first water pump 108 is fixedly mounted above the first water tank 107 through a bolt, a first conveying pipe 109 is fixedly mounted above the first water pump 108 through a bolt, and the other end of the first conveying pipe 109 is fixedly mounted above the cleaning tank 104 through a bolt.

Referring to fig. 1 and 2, in this embodiment, the cleaning mechanism 1 further includes two first supporting frames 110, the two first supporting frames 110 are transversely mounted on two sides of the cleaning box 104 through screws, a first supporting rod 111 is disposed below the first supporting frames 110, a second telescopic rod 112 is fixedly mounted above the first supporting rod 111 through bolts, a first collecting box 113 is fixedly mounted at an output end of the second telescopic rod 112 through bolts, the first collecting box 113 is slidably mounted above the first supporting rod 111, a first baffle 114 is fixedly mounted at one end of the first collecting box 113 through bolts, and a first blocking cover 115 is movably mounted in front of the first collecting box 113 through threads.

Referring to fig. 1 and 3, in the present embodiment, the flushing mechanism 2 includes a second supporting block 201, the second supporting block 201 is disposed in front of the first supporting block 101, a third telescopic rod 202 is fixedly mounted above the second supporting block 201 through a bolt, a second gasket 203 is fixedly mounted at an output end of the third telescopic rod 202 through a bolt, a flushing tank 204 is disposed above the second gasket 203, a second motor 205 is fixedly mounted in front of the flushing tank 204 through a bolt, a threaded rod 206 is mounted at an output end coupler of the second motor 205, a threaded rod 206 is bearing-mounted above the flushing tank 204, a sliding rod 207 is disposed at one side of the threaded rod 206, the sliding rod 207 is fixedly mounted above the flushing tank 204 through a bolt, a movable frame 208 is movably mounted outside the threaded rod 206 through a thread, and the other end of the movable frame 208 is slidably mounted outside the sliding rod 207, and seven spray heads 209 are fixedly mounted below the movable frame 208 through a bolt.

Referring to fig. 1 and 3, in this embodiment, the flushing mechanism 2 further includes two second supporting frames 213, the second supporting frames 213 are transversely fixed on two sides of the flushing tank 204 by screws, one of the second supporting frames 213 is fixedly provided with a second water tank 210 by screws, the second water tank 210 is fixedly provided with a second water pump 211 by bolts, the second water pump 211 is fixedly provided with a second conveying pipe 212 by bolts, the other end of the second conveying pipe 212 is fixedly provided with a movable frame 208 by bolts, a second supporting rod 214 is arranged below the second supporting frame 213, a fourth telescopic rod 215 is fixedly provided with a second collecting box 216 by bolts above the second supporting rod 214, the output end of the fourth telescopic rod 215 is fixedly provided with a second collecting box 216 by bolts, the second collecting box 216 is slidably mounted above the second supporting rod 214, one end of the second collecting box 216 is fixedly provided with a second baffle 217 by bolts, and the front of the second collecting box 216 is movably provided with a second blocking cover 218 by threads.

Referring to fig. 1 and 4, in this embodiment, the spin-drying mechanism 3 includes a fifth telescopic rod 301, the fifth telescopic rod 301 is disposed in front of the second supporting block 201, the output end of the fifth telescopic rod 301 is fixedly mounted with a first supporting plate 302 through a screw, a third motor 303 is fixedly mounted above the first supporting plate 302 through a bolt, the output end of the third motor 303 is fixedly mounted with a combined head 304 through a screw, the combined head 304 is rotatably mounted above the first supporting plate 302, a rotating groove is formed above the first supporting plate 302, the combined head 304 is rotatably mounted in the rotating groove above the first supporting plate 302, a spin-drying frame 305 is disposed above the combined head 304, two third blocking covers 306 are transversely movably mounted below the spin-drying frame 305 through threads, and both sides of the spin-drying frame 305 are fixedly mounted with a third supporting frame 307 through screws.

Referring to fig. 5, 6 and 7, in this embodiment, the conveying mechanism 4 includes a fourth supporting frame 401, ten fourth supporting frames 401 are longitudinally disposed below the spin-drying mechanism 3, two rotating rods 403 are mounted on bearings above the fourth supporting frame 401, a fourth motor 402 is mounted at an input end coupler of one rotating rod 403, a fixing portion of the fourth motor 402 is fixedly mounted on one side of the fourth supporting frame 401 through bolts, a second supporting plate 404 is mounted above the fourth supporting frame 401 through bolts, the second supporting plate 404 is located between the two rotating rods 403, a conveying belt 405 is connected to the two rotating rods 403 in an external engagement manner, a placing plate 406 is disposed above the conveying belt 405, a rubber material is disposed on the upper surface of the placing plate 406, four water diversion holes are formed inside the placing plate 406, a combination plate 407 is fixedly mounted below the placing plate 406 through bolts, and a combination hole is formed below the combination plate 407 and is completely matched with the upper portion of the combination head 304.

Working principle: when the needle mushroom cleaning box is used, the first blocking cover 115, the second blocking cover 218 and the third blocking cover 306 are rotated, the needle mushrooms are removed, the original positions are connected with the water supply pipe, waste water is collected, the needle mushrooms are placed above the third blocking cover 306, at the moment, the fourth motor 402 drives the conveying belt 405 to rotate through the rotating rod 403, the placing plate 406 is driven to move, when the needle mushrooms are moved above the first gasket 103, the first telescopic rod 102 drives the placing plate 406 to move upwards through the first gasket 103, at the moment, the second telescopic rod 112 drives the first baffle 114 to move through the first collecting box 113, the water supply hole of the placing plate 406 is blocked by the first baffle 114, the first water pump 108 transmits the water source inside the first water tank 107 to the inside of the cleaning box 104 through the first conveying pipe 109, meanwhile, the first motor 105 drives the water source inside the cleaning box 104 to rotate through the fan blades 106, so that gaps between the needle mushrooms and the water source are flushed, after the cleaning operation is finished, the second telescopic rod 112 drives the first collecting box 113 to continue to move, so that the water source in the cleaning box 104 flows into the first collecting box 113 through the water diversion hole of the placing plate 406, after the water draining operation is finished, the second telescopic rod 112 drives the first collecting box 113 to reset, the first telescopic rod 102 moves downwards through the first gasket 103, the conveying belt 405 continues to drive the placing plate 406 to move, when the placing plate 406 moves above the third telescopic rod 202, the third telescopic rod 202 drives the placing plate 406 to move upwards through the second gasket 203, at the moment, the fourth telescopic rod 215 drives the second baffle 217 to move through the second collecting box 216, so that the water diversion hole of the placing plate 406 is blocked by the second baffle 217, meanwhile, the second water pump 211 transmits the water source in the second water tank 210 to the inside of the spray head 209 through the second conveying pipe 212, and the needle mushroom is flushed through the spray head 209, the second motor 205 drives the movable frame 208 to move along the sliding rod 207 through the threaded rod 206, the fourth telescopic rod 215 drives the second collecting box 216 to continue to move, so that a water source in the flushing box 204 flows into the second collecting box 216 through a water diversion hole of the placing plate 406, residual dirt on the surface of the flammulina velutipes is flushed out, after flushing operation is completed, the fourth telescopic rod 215 drives the second collecting box 216 to reset, the third telescopic rod 202 drives the placing plate 406 to move downwards through the second gasket 203, the conveyor belt 405 continues to drive the placing plate 406 to move, when the conveyor belt 405 moves to the upper part of the combined head 304, the fifth telescopic rod 301 drives the third motor 303 and the combined head 304 to move upwards through the first supporting plate 302, and meanwhile, the combined head 304 is embedded into a combined hole of the combined plate 407, at the moment, the third motor 303 drives the combined plate 407 and the placing plate 406 to rotate through the combined head 304, residual moisture on the surface of the flammulina velutipes is thrown onto the inner wall of the frame 305, after flushing operation is completed, the fifth telescopic rod 301 drives the first supporting plate 302 to reset, so that the placing plate 406 moves downwards to the conveyor belt 405, and the flammulina velutipes is moved upwards, when the flammulina velutipes is cleaned, and dried, and the cleaning and drying operations are finished.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and their equivalents.

Claims (8)

1. The utility model provides a flammulina velutipes belt cleaning device in batches, is including being used for carrying out the scouring mechanism (2) of scouring operation to flammulina velutipes, be used for throwing away the mechanism (3) that spin-dries of the inside remaining moisture of flammulina velutipes, be used for continuously conveying the transport mechanism (4) of flammulina velutipes, its characterized in that: the needle mushroom cleaning machine also comprises a cleaning mechanism (1) for cleaning the gaps inside the needle mushrooms;

the washing mechanism (1) is arranged behind the flushing mechanism (2), the flushing mechanism (2) is arranged behind the spin-drying mechanism (3), and the washing mechanism (1) is arranged below the washing mechanism (1);

the cleaning mechanism (1) comprises a first supporting block (101), the first supporting block (101) is arranged behind the flushing mechanism (2), a first telescopic rod (102) is fixedly arranged above the first supporting block (101), a first gasket (103) is fixedly arranged at the output end of the first telescopic rod (102), a cleaning box (104) is arranged above the first gasket (103), a first motor (105) is fixedly arranged above the cleaning box (104), fan blades (106) are fixedly arranged at the output end of the first motor (105), the fan blades (106) are arranged inside the cleaning box (104) in a bearing mode, a first water tank (107) is fixedly arranged above the cleaning box (104), a first water pump (108) is fixedly arranged above the first water tank (107), a first conveying pipe (109) is fixedly arranged above the first water pump (108), and the other end of the first conveying pipe (109) is fixedly arranged above the cleaning box (104).

2. The flammulina velutipes batch cleaning device according to claim 1, characterized in that: the cleaning mechanism (1) further comprises two first supporting frames (110), the two first supporting frames (110) are transversely and fixedly installed on two sides of the cleaning box (104), first supporting rods (111) are arranged below the first supporting frames (110), second telescopic rods (112) are fixedly installed above the first supporting rods (111), first collecting boxes (113) are fixedly installed at the output ends of the second telescopic rods (112), the first collecting boxes (113) are slidably installed above the first supporting rods (111), first baffle plates (114) are fixedly installed at one ends of the first collecting boxes (113), and first blocking covers (115) are movably installed in front of the first collecting boxes (113).

3. The flammulina velutipes batch cleaning device according to claim 1, characterized in that: the flushing mechanism (2) comprises a second supporting block (201), the second supporting block (201) is arranged in front of the first supporting block (101), a third telescopic rod (202) is fixedly arranged above the second supporting block (201), a second gasket (203) is fixedly arranged at the output end of the third telescopic rod (202), a flushing box (204) is arranged above the second gasket (203), a second motor (205) is fixedly arranged in front of the flushing box (204), a threaded rod (206) is arranged at the output end coupler of the second motor (205), a threaded rod (206) is arranged above the flushing box (204) in a bearing mode, a sliding rod (207) is arranged on one side of the threaded rod (206), the sliding rod (207) is fixedly arranged above the flushing box (204), a movable frame (208) is movably arranged outside the threaded rod (206), the other end of the movable frame (208) is slidably arranged outside the sliding rod (207), and seven spray heads (209) are fixedly arranged below the movable frame (208).

4. A flammulina velutipes batch cleaning device according to claim 3, characterized in that: the flushing mechanism (2) further comprises two second supporting frames (213), the two second supporting frames (213) are transversely and fixedly installed on two sides of the flushing box (204), one of the two second supporting frames (213) is fixedly installed with a second water tank (210), a second water pump (211) is fixedly installed above the second water tank (210), a second conveying pipe (212) is fixedly installed above the second water pump (211), the other end of the second conveying pipe (212) is fixedly installed above the movable frame (208), a second supporting rod (214) is arranged below the second supporting frame (213), a fourth telescopic rod (215) is fixedly installed above the second supporting rod (214), a second collecting box (216) is fixedly installed at the output end of the fourth telescopic rod (215), a second baffle (217) is fixedly installed at one end of the second collecting box (216) above the second collecting box (214), and a second blocking cover (218) is fixedly installed in front of the second supporting rod (216).

5. A flammulina velutipes batch cleaning device according to claim 3, characterized in that: the spin-drying mechanism (3) comprises a fifth telescopic rod (301), the fifth telescopic rod (301) is arranged in front of the second supporting block (201), a first supporting plate (302) is fixedly arranged at the output end of the fifth telescopic rod (301), a third motor (303) is fixedly arranged above the first supporting plate (302), a combined head (304) is fixedly arranged at the output end of the third motor (303), the combined head (304) is rotatably arranged above the first supporting plate (302), a spin-drying frame (305) is arranged above the combined head (304), two third blocking covers (306) are transversely movably arranged below the spin-drying frame (305), and third supporting frames (307) are fixedly arranged on two sides of the spin-drying frame (305).

6. The flammulina velutipes batch cleaning device according to claim 5, characterized in that: the conveying mechanism (4) comprises a fourth supporting frame (401), the fourth supporting frame (401) is arranged to be ten, and is longitudinally arranged below the spin-drying mechanism (3), two rotating rods (403) are arranged above the fourth supporting frame (401) in a bearing mode, one of the rotating rods (403) is provided with a fourth motor (402) in a coupling mode at the input end, the fixed part of the fourth motor (402) is fixedly arranged on one side of the fourth supporting frame (401), a second supporting plate (404) is fixedly arranged above the fourth supporting frame (401), the second supporting plate (404) is located between the two rotating rods (403), two rotating rods (403) are connected with a conveying belt (405) in an externally meshed mode, a placing plate (406) is arranged above the conveying belt (405), and a combination plate (407) is fixedly arranged below the placing plate (406).

7. The flammulina velutipes batch cleaning device according to claim 5, characterized in that: a rotating groove is formed above the first supporting plate (302), and the combined head (304) is rotatably arranged in the rotating groove above the first supporting plate (302).

8. The flammulina velutipes batch cleaning device according to claim 6, characterized in that: the surface above the placing plate (406) is made of rubber, four water diversion holes are formed in the placing plate (406), and the combining holes are formed below the combining plate (407) and are completely matched with the upper part of the combining head (304).

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