CN214526074U - Be used for fungus mushroom to transport flowing water packing apparatus - Google Patents

Abstract

The utility model relates to a be used for fungus mushroom to transport flowing water packing apparatus. The transfer trolley assembly is positioned on one side of the length direction of the flow frame assembly; one end of the flow rack assembly, which is close to the transfer trolley assembly, is an input end, the other end of the flow rack assembly is an output end, the transfer trolley assembly is matched with the flow rack assembly for use, the transfer boxes in a plurality of layers of mushroom placed in the transfer trolley assembly can be transported to the output end of the flow rack assembly from the input end of the flow rack assembly, and the transfer boxes in the mushroom can be transported to the next layer of mushroom only after being taken out from the output end. The utility model is used for fungus mushroom transports flowing water packing apparatus has invented a principle that mainly relies on natural gravity, under the condition that consumes minimum energy consumption, just can accomplish the transportation after the whole gathering of fungus mushroom, and in addition, whole device structural design is simple, safe and reliable, and the cost of manufacture is not high, especially adapted popularization and application.

Description

Be used for fungus mushroom to transport flowing water packing apparatus

Technical Field

The utility model belongs to fungus mushroom production and processing equipment field, concretely relates to be used for fungus mushroom to transport flowing water packing apparatus.

Background

Mushrooms are an ideal multi-functional food, and the variety and quantity thereof are increasing day by day. In the industrial production of the edible mushrooms, the streamlined processing is adopted in the aspect of planting and culturing, so that the production efficiency of the industrial production of the edible mushrooms is improved. However, in the mushroom harvesting process, manual mushroom harvesting is usually adopted, and after harvesting, because further sorting, processing, cleaning and packaging are needed, multiple manual transportation is needed, the production efficiency is low, and the labor cost is high.

Disclosure of Invention

The utility model provides a to the above-mentioned problem, invent a device that can conveniently transport each other between the process after being applicable to fungus mushroom harvesting and accomplish the packing.

The invention aims to be realized by the following technical scheme: the mushroom transfer running water packaging device is characterized by comprising a running water frame assembly and a transfer trolley assembly, wherein the transfer trolley assembly is positioned on one side of the running water frame assembly in the length direction; one end of the flow rack assembly, which is close to the transfer trolley assembly, is an input end, the other end of the flow rack assembly is an output end, the transfer trolley assembly is matched with the flow rack assembly for use, a plurality of layers of mushroom middle transfer boxes placed in the transfer trolley assembly can be transported to the output end of the flow rack assembly from the input end of the flow rack assembly, and the mushroom middle transfer boxes can be transported to the next layer of mushroom middle transfer boxes only after being taken out from the output end; the assembly of the flow rack consists of a rack body and a gravity sliding mechanism, wherein the rack body comprises an upper side beam horizontally arranged at the upper part and a lower side beam horizontally arranged at the lower part, a slide rail beam arranged in the middle part and having a certain inclination along the horizontal direction, and an upper cross beam horizontally arranged on the upper part, a lower cross beam horizontally arranged at the lower part, a supporting upright post vertically arranged vertically, and a foot seat arranged at the bottom, two adjacent edges of the upper part of the supporting upright post close to the end part are connected with the end part of the upper cross beam, the other edge is connected with the end part of the upper side beam, two adjacent edges of the lower part of the supporting upright post close to the end part are connected, one edge is connected with the end part of the lower cross beam, the other side is connected with the end part of the lower side beam, the position close to the upper part of the middle part of the supporting upright post is connected with a sliding rail beam, and the sliding rail beam has a certain inclination along the horizontal direction; the gravity sliding mechanism comprises a sliding tray, the sliding tray is formed by combining a bottom plate and four side plates, the bottom plate is rectangular, the four side plates extend upwards along the four sides of the bottom plate and have a certain outward drawing angle, the extending tail ends of the four side plates are provided with spigot flanges with certain widths, the spigot flanges form integral connection of the upper edge of the sliding tray, a reinforcing block is arranged on the spigot flanges of one side plate in the width direction of the sliding tray, the middle part of the reinforcing block is provided with a connecting nut, one end of the reinforcing block, which is close to the transfer trolley assembly, is provided with a stroke switch collision block, the connecting nut is connected with a drag hook, one end of the drag hook is provided with threads, the other end of the drag hook is annular, a through hole of the annular ring penetrates through a sheath steel wire rope for connection, a bearing which is in rolling fit with the track of the middle sliding rail beam is arranged below the sliding tray, and a vertical shaft is arranged between the bearing and the bottom of the sliding tray, the vertical shaft is cylindrical, one end of the vertical shaft is connected with the bottom of the sliding tray, and the other end of the vertical shaft is connected with the bearing. And two ends of the middle slide rail beam are respectively provided with a pair of buffer devices in the direction of the upward beam. The side edge of the frame body is provided with an oblique sliding groove at one side close to the lifting transfer trolley assembly, the oblique sliding groove is formed by a bottom plate along the length direction, two edges of the oblique sliding groove extend upwards for 90 degrees to form a first bending edge and a second bending edge, the edges of the first bending edge and the second bending edge in the length direction extend upwards for 90 degrees to form a third bending edge and a fourth bending edge, a balance weight supporting plate is arranged in the oblique sliding groove, a plurality of balance weights are arranged on the balance weight supporting plate, the upper end portion and the lower end portion of the balance weight supporting plate are respectively provided with an upward section of extending section, the extending section of the upper end portion is provided with a thread, the thread is connected with a drag hook, a through hole of a drag hook ring penetrates through a sheath steel wire rope for connection, the other end of the steel wire rope extends along the upward inclination direction of the oblique sliding groove, penetrates through a transverse transition wheel and a plurality of longitudinal transition wheels, and is connected with the drag hook arranged on the sliding tray.

The transportation principle of the assembly line frame assembly is as follows: the mushroom transfer box enters the input end of the assembly line frame and is placed in the sliding tray, sliding potential energy is generated to the lower end through the inclination of the inclined sliding groove by means of self weight, the potential energy overcomes the weight of a balancing weight on a balancing weight supporting plate arranged in the inclined sliding groove and then is converted into kinetic energy, and the mushroom transfer box advances towards the direction of the output end through the sliding tray and then stops after entering the buffer device.

The transfer trolley assembly comprises a transfer trolley frame body and a lifting mechanism, wherein the transfer trolley frame body comprises a first frame, a second frame and a braked universal wheel, the first frame and the second frame are respectively formed by combining two vertical columns and two horizontally arranged side beams, the first frame and the second frame are respectively combined into a whole by connecting the middle positions of the side beams in the first frame and the second frame through a first upper cross beam and a first lower cross beam, the lifting mechanism comprises a transmission belt arranged in the middle of the first frame and a transmission belt arranged in the middle of the second frame, a rolling shaft matched with the transmission belt and used for transmitting power, a synchronous belt transmission device matched with the rolling shaft on the upper portion, a motor used for transmitting power to the synchronous belt transmission device, and a support plate used for fixing the motor, the transmission belt is arranged on the outer surface of the rolling shaft in a back direction, the mushroom cultivation box is characterized in that a plurality of clamping plates which are horizontal and equidistant are arranged, the cross section of each clamping plate is L-shaped, the direction of the narrow side of each clamping plate is consistent with the advancing direction of the corresponding conveying belt, a mushroom cultivation box is arranged between the conveying belt in the middle of the first frame and the conveying belt in the middle of the second frame, the mushroom cultivation box is formed by combining a rectangular bottom plate and four side plates which vertically extend along four sides of the bottom plate, clamping notches which are matched with the clamping plates and can slide are formed in the two side plates which are parallel to the conveying belts, the support plate is U-shaped and specifically comprises a first plate, a second plate and a third plate, the first plate and the second plate are parallel, one end of each clamping plate is in right-angle transition connection with the third plate, the other end of each clamping plate is connected with the stand column, the third plate is connected with the motor, an air cylinder pushing device is arranged below the synchronous belt conveying device, and the air cylinder pushing device comprises an air cylinder, The cylinder mounting beam is connected with an upright post below a synchronous belt transmission device, the cylinder is mounted in the middle of the cylinder mounting beam, the direction of an exposed piston rod in the cylinder corresponds to the direction of a flow rack assembly, a light sensor is mounted on the upward surface of the cylinder mounting beam, the push block is mounted at the exposed end of the piston rod, an angle adjusting support is arranged on two upright posts close to one side of the flow rack assembly and consists of two connected right-angled laths and an arc-shaped lath which are connected together, the middle part of the arc-shaped lath is an arc-shaped groove and is a right-angled lath, one right-angled edge of the right-angled lath is connected with the upright post on one side facing the flow rack assembly, the lower sliding plate is a flat rectangular plate, and the two narrow edges of the lower sliding plate are hinged with the upright post close to the edge, and the mounting height is the same as that of the adjusting bracket, a threaded hole is arranged in the middle of the two narrow sides, the position of the threaded hole corresponds to the position of the arc-shaped groove of the arc-shaped lath, and a tension bolt is mounted at the threaded hole.

The operation principle of the synchronous belt transmission device is as follows: the induction through the light sensor starts and closes, and the ejector pad of piston rod withdraws from fungus mushroom transfer case to the input and carries the fungus mushroom transfer case that the cardboard was placed with the transmission band and promote as cylinder thrust unit in, and the light sensor closes hold-in range transmission device's operation through the induction after promoting to the setting position.

The buffer device comprises two flexible long blocks and compression springs arranged between the two flexible long blocks and arranged at two end parts of the flexible long blocks. The travel switch arranged in the buffer device close to the transfer vehicle assembly is touched through the travel switch collision block on the sliding tray reinforcing block, and the travel switch controls the action of the air cylinder in the air cylinder pushing device.

Preferably, the transportation vehicle assembly of the continuous packaging device for mushroom transportation is matched with the continuous rack assembly for use, so that the transportation vehicle assembly can transport a plurality of layers of mushroom middle transfer boxes placed in the transportation vehicle assembly from the input end of the continuous rack assembly to the output end of the continuous rack assembly, and can continue to enter the next layer of mushroom middle transfer boxes for transportation only after the mushroom middle transfer boxes are taken out from the output end, thereby ensuring that the mushroom to be processed at the output end can be extracted and packaged all the time in circulation, and avoiding excessive station storage.

Preferably, the two ends of the sliding rail beam in the flow rack assembly are respectively provided with a pair of buffer devices so as to play a role in buffering in the transportation process.

Preferably, the mushroom transfer running water packaging device is characterized in that the mushroom transfer boxes are unloaded from the transfer trolley assemblies to the running water frame assemblies, and the angles can be adjusted through the adjusting supports, so that the mushroom transfer running water packaging device is stable.

Preferably, be used for fungus mushroom to transport flowing water packing apparatus, the balancing weight that sets up on the balancing weight layer board, quantity and its weight can increase and reduce to be fit for the fungus mushroom of different kinds of weight.

To sum up, compared with the prior art, the utility model has the following advantages:

the utility model is used for fungus mushroom transports flowing water packing apparatus has invented a principle that mainly relies on natural gravity, under the condition that consumes minimum energy consumption, just can accomplish the transportation after the whole gathering of fungus mushroom, and in addition, whole device structural design is simple, safe and reliable, and the cost of manufacture is not high, especially adapted application and popularization.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a partial enlarged view of the utility model at A;

fig. 3 is a rear view of the present invention;

fig. 4 is a partial enlarged view of the utility model at the position B;

fig. 5 is a top view of the present invention;

fig. 6 is a partial enlarged view of the utility model at C;

fig. 7 is a right side view of the present invention;

fig. 8 is a partial enlarged view of the utility model at D;

fig. 9 is a partial enlarged view of the utility model at E;

fig. 10 is a front view of the present invention;

fig. 11 is a partial enlarged view of the present invention at F.

The labels in the figure are: 1. a flow rack assembly; 11. a frame body; 111. an upper edge beam; 112. a lower edge beam; 113. a sliding rail beam; 114. supporting the upright post; 115. an upper cross beam; 116 a lower cross member; 117. a foot seat; 12. a gravity slide mechanism; 121. a sliding tray; 1211. a reinforcing block; 1212. a connecting nut; 1213. a travel switch collision block; 1214. flanging the seam allowance; 1215. a travel switch; 127. pulling a hook; 128. sheathing a steel wire rope; 129. a transverse transition wheel; 1291. longitudinally arranging a transition wheel; 2. a transfer trolley assembly; 21. a transfer carriage body; 211. a first frame; 2111. a column; 2112. a boundary beam; 212. a second frame; 213. a first upper cross member; 214. a first lower cross member; 22. a lifting mechanism; 221. a conveyor belt; 222. a roller; 223. a synchronous belt transmission device; 224. a motor; 225. a support plate; 2251. a first plate member; 2252. a second plate member; 2253. a third plate member; 226. clamping a plate; 227. a mushroom transferring box; 2271. clamping the notch; 23. a cylinder pushing device; 231. a cylinder; 2311. a light sensor; 232. a cylinder mounting beam; 233. a push block; 234. a lower slide plate; 235. adjusting the bracket; 236. tightening and loosening the bolts; 24. an input end; 25. an output end; 26. the universal wheel can be braked; 3. a buffer device; 31. a flexible long bar block; 32. compressing the spring.

Detailed Description

The invention will be further described with reference to the embodiments shown in the drawings to which:

examples

As shown in fig. 1 to 11, a running water packing device for mushroom transfer is characterized by comprising a running water rack assembly 1 and a transfer trolley assembly 2, wherein the transfer trolley assembly 2 is positioned on one side of the running water rack assembly 1 in the length direction; one end of the assembly line frame 1 close to the transfer vehicle assembly 2 is an input end 24, the other end is an output end 25, the transfer vehicle assembly 2 is matched with the assembly line frame 1 for use, the transfer boxes 227 in a plurality of layers of mushroom placed in the transfer vehicle assembly 1 can be transported from the input end 24 in the assembly line frame 1 to the output end 25 in the assembly line frame 1, and the transfer boxes 227 in the mushroom can be transported to the next layer of mushroom continuously only after being taken out from the output end 25; the assembly line frame 1 comprises a frame body 11 and a gravity sliding mechanism 12, wherein the frame body 11 comprises an upper side beam 111 horizontally arranged on the upper part, a lower side beam 112 horizontally arranged on the lower part, a slide rail beam 113 arranged in the middle part and having a certain inclination along the horizontal direction, an upper cross beam 115 horizontally arranged on the upper part, a lower cross beam 116 horizontally arranged on the lower part, a support upright 114 vertically arranged vertically, and a foot stool 117 arranged at the bottom, specifically, two adjacent sides of the upper part of the support upright close to the end position are connected with the end part of the upper cross beam 115 on one side, the end part of the upper side beam 111 on the other side is connected with the end part of the lower part of the support upright close to the end position, one side is connected with the end part of the lower cross beam 116 on the other side, the end part of the lower side beam 112 on the other side is connected with the slide rail beam 113 on the upper part of the middle part of the support upright, the slide rail beam has a certain inclination along the horizontal direction; the gravity sliding mechanism 12 comprises a sliding tray 121, the sliding tray is formed by combining a bottom plate and four side plates, the bottom plate is rectangular, the four side plates extend upwards along four sides of the bottom plate and have a certain outward drawing angle, the extending tail ends of the four side plates are provided with spigot flanges 1214 with a certain width, the spigot flanges form integral connection of the upper edge of the sliding tray, in the width direction of the sliding tray, a reinforcing block 1211 is arranged on the spigot flanges of one side plate, a connecting nut 1212 is arranged in the middle of the reinforcing block, a stroke switch collision block 1213 is arranged at one end of the reinforcing block close to the transfer trolley assembly 2, the connecting nut 1212 is connected with a drag hook 127, one end of the drag hook is provided with threads, the other end of the drag hook is annular, a through hole of the annular ring penetrates through a sheath steel wire rope 128 to be connected, a bearing 122 which is in rolling fit with the track of the middle sliding rail beam 113 is arranged below the sliding tray, a vertical shaft 123 is arranged between the bearing and the bottom of the sliding tray 121, the vertical shaft is cylindrical, one end of the vertical shaft is connected with the bottom of the sliding tray 121, and the other end of the vertical shaft is connected with the bearing 122. Two ends of the middle slide rail beam 113 are respectively provided with a pair of buffer devices 3 in the direction of the upper cross beam 115. An inclined chute 124 is arranged at one side of the side edge of the frame body 11 close to the lifting transfer trolley assembly 2, the inclined chute extends from the bottom plate 1241 along the length direction and two edges upwards by 90 degrees to form a first bending edge 1242 and a second bending edge 1243, and a third folding edge 1244 and a fourth folding edge 1245 are extended upwards by 90 degrees along the edges of the first folding edge 1242 and the second folding edge 1243 in the length direction, a counterweight supporting plate 125 is arranged in the oblique sliding chute, a plurality of counterweight blocks 126 are arranged on the counterweight supporting plate, the upper end part and the lower end part of the counterweight supporting plate 125 are respectively provided with an upward extending section, the extension section of the upper end part is provided with threads, the threads are connected with a draw hook 127, a through hole of a draw hook ring is connected with a sheath steel wire rope 128 in a penetrating mode, the other end of the steel wire rope extends along the upward slope direction of the inclined sliding chute 124, penetrates through the transverse transition wheel 129 and the plurality of longitudinal transition wheels 1291 and is connected with the draw hook 127 arranged on the sliding tray 121.

The transportation principle of the assembly line frame 1 is as follows: the mushroom transferring box 227 enters the input end 24 of the assembly line frame 1, is placed in the sliding tray 121, generates sliding potential energy to the lower end through the slope of the inclined chute 124 by means of self weight, the potential energy overcomes the weight of the counterweight block 126 on the counterweight support plate 125 arranged in the inclined chute 124 and then is converted into kinetic energy, and the mushroom transferring box 227 advances towards the output end 25 direction through the sliding tray 121 and then enters the buffer device 3 to be stopped.

The transfer trolley assembly 2 comprises a transfer trolley frame body 21 and a lifting mechanism 22, wherein the transfer trolley frame body 21 comprises a first frame 211 and a second frame 212, the first frame 211 and the second frame 212 are respectively formed by combining two upright posts 2111 which are vertically arranged and two edge beams 2121 which are horizontally arranged, the first frame and the second frame are respectively combined into a whole by connecting the middle positions of the edge beams in the first frame and the second frame through a first upper cross beam 213 and a first lower cross beam 214, the lifting mechanism 22 comprises a transmission belt 221 which is arranged in the middle of the first frame and a transmission belt 221 which is arranged in the middle of the second frame, a roller 222 which is matched with the transmission belt 221 and transmits power, a synchronous belt transmission device 223 which is matched with the upper roller, a motor 224 which transmits power to the synchronous belt transmission device, and a support plate 225 which is used for fixing the motor, the outer surface of the transmission belt 221, which is opposite to the roller, is provided with a plurality of horizontal clamping plates 226 which are equidistant from each other, the cross section of each clamping plate is L-shaped, the narrow side of each clamping plate faces to the direction consistent with the advancing direction of the transmission belt 221, a mushroom transferring box 227 is arranged between the transmission belt between the first frame and the transmission belt between the second frame, the mushroom transferring box is formed by combining a rectangular bottom plate and four side plates which vertically extend along the four sides of the bottom plate, two side plates which are parallel to the transmission belt 221 are provided with clamping notches 2271 which are matched with the clamping plates 226 and can slide, the support plate 225 is U-shaped and specifically comprises a first plate 2251, a second plate 2252 and a third plate 2253, the first plate and the second plate are parallel, one end of the first plate is in right-angle transition connection with the third plate, the other end of the first plate is connected with the upright post 211, and the third plate is connected with the motor 224, an air cylinder pushing device 23 is arranged below the synchronous belt transmission device 223, the air cylinder pushing device 23 is composed of an air cylinder 231, an air cylinder mounting beam 232, a push block 233, a lower sliding plate 234, an angle adjusting support 235 and a tightening bolt 236, the air cylinder mounting beam 232 is connected with the upright column below the synchronous belt transmission device 223, the air cylinder 231 is mounted in the middle of the air cylinder mounting beam 232, the direction of an exposed piston rod in the air cylinder corresponds to the direction of the assembly line frame assembly 1, an optical sensor 2311 is mounted on the upward side of the air cylinder mounting beam, the push block 233 is mounted at the exposed end of the piston rod, the angle adjusting support 235 is arranged on the two upright columns 211 close to one side of the assembly line frame assembly 1, the adjusting support is composed of two connected rectangular laths and an arc lath, the middle of the arc lath is an arc groove and is a rectangular lath, one edge of the rectangular laths is connected with the upright column 211 on the side facing the assembly line assembly 1, the lower sliding plate 234 is a flat rectangular plate, and two narrow sides of the lower sliding plate are hinged to the upright post 211 at positions close to the edges, the mounting height of the lower sliding plate is the same as that of the adjusting bracket, threaded holes are formed in the middle of the two narrow sides, the positions of the threaded holes correspond to the positions of the arc-shaped grooves of the arc-shaped slats, and elastic bolts 236 are mounted at the threaded holes.

The operation principle of the synchronous belt transmission device 223 is as follows: the mushroom transfer box 227 is pushed out to the input end 24 by the push block 233 of the piston rod in the cylinder pushing device 23, the light sensor starts the synchronous belt transmission device 223 according to the induction feedback, the synchronous belt transmission device 223 rotates through the transmission belt 221, the mushroom transfer box 227 placed on the clamping plate 226 on the transmission belt 221 is lifted, and the light sensor closes the synchronous belt transmission device 223 through induction after being lifted to the set position.

The buffer device 3 includes two flexible strips 31 and compression springs 32 disposed between the two flexible strips at both ends of the flexible strips. Wherein a flexible strip block installed in the buffer device 3 near the trolley assembly 2 on the side near the sliding tray 121 is provided at the end thereof near the side of the trolley assembly 2 with a stroke switch 1215 for touch operation thereof by a stroke switch striker 1213 on the sliding tray reinforcement block, which controls the operation of the cylinder 231 in the cylinder pushing device 23.

When in use: placing the collected mushrooms into a mushroom middle transfer box 227, placing the mushroom middle transfer box 227 on a clamping plate 226 of a conveying belt 221 of a transfer vehicle assembly 2, ensuring that a clamping notch 2271 corresponds to the clamping plate 226, filling all layers, placing the transfer vehicle assembly 2 to a corresponding position of a flow rack assembly 1, braking a brakeable universal wheel 26 of the transfer vehicle assembly 2, stopping the transfer vehicle assembly 2, manually operating and debugging the flow rack assembly 1 to a reasonable counterweight block 126 according to the weight loaded by the mushroom middle transfer box 227, manually operating and debugging the mushroom middle transfer box 227 to be fully loaded with the mushrooms into a sliding tray 121, generating sliding potential energy to the lower end of the mushrooms through the slope of an inclined chute 124 by virtue of the self-weight, adjusting the weight of the counterweight block 126 at the moment, overcoming the potential energy to the reasonable weight arranged in the inclined chute 124, sliding the mushroom middle transfer box 227 to advance towards the output end 25 through the tray 121, after entering the buffering device 3, the power system is powered on for standby, that is, the power system enters a working state, when the mushroom transferring box 227 is taken out from the output end of the assembly line 1 for packaging, the sliding tray 121 is unloaded by weight, the weight of the balancing weight 126 is pulled, the sliding tray 121 passes through the connected sheath steel wire rope 128 and the component drag hook 127 thereof, the transverse transition wheel 129 and the longitudinal transition wheel 1291, the sliding tray 121 returns to the input end 24 from the output end 25 and enters the buffering device 3 at the side of the input end, the travel switch collision block 1213 on the sliding tray 121 triggers the travel switch 1215 on the cylinder 231 in the control cylinder pushing device 23, the piston rod in the cylinder 231 drives the push block 233 to push the loaded mushroom transferring box 227 forwards to the lower sliding plate 234, the mushroom transferring box 227 enters the sliding tray 121, that is the input end 24, and simultaneously, the optical sensor 2311 on the cylinder mounting beam 232 starts the synchronous belt transmission device 223 according to the induction feedback, the synchronous belt transmission device 223 rotates through the transmission belt 221, the mushroom transferring box 227 placed on the clamping plate 226 on the transmission belt 221 is lifted, the light sensor closes the operation of the synchronous belt transmission device 223 through sensing after the mushroom transferring box is lifted to a set position, meanwhile, the mushroom transferring box 227 which just enters the input end 24 of the assembly line frame 1 reaches the output end 25 of the assembly line frame 1 along with natural gravity, the mushroom transferring box waits for extraction, and the processes are sequentially circulated after the mushroom transferring box is extracted.

Claims (6)

1. The mushroom transfer running water packaging device is characterized by comprising a running water rack assembly (1) and a transfer trolley assembly (2), wherein the transfer trolley assembly (2) is positioned on one side of the running water rack assembly (1) in the length direction; one end of the flow rack assembly (1) close to the transfer trolley assembly (2) is an input end (24), the other end of the flow rack assembly is an output end (25), the transfer trolley assembly (2) is matched with the flow rack assembly (1) for use, the transfer boxes (227) in a plurality of layers of mushrooms placed in the transfer trolley assembly (2) can be transported to the output end (25) of the flow rack assembly (1) from the input end (24) of the flow rack assembly (1), and the transfer boxes (227) in the mushrooms can be transported to the next layer of transfer boxes (227) only after being taken out from the output end (25);

the assembly (1) of the water rack consists of a rack body (11) and a gravity sliding mechanism (12), wherein the rack body (11) comprises an upper side beam (111) horizontally arranged on the upper part, a lower side beam (112) horizontally arranged on the lower part, a slide rail beam (113) arranged in the middle part and having a certain inclination along the horizontal direction, an upper cross beam (115) horizontally arranged on the upper part, a lower cross beam (116) horizontally arranged on the lower part, a vertical supporting upright post (114) and a foot stool (117) arranged on the bottom part, the upper part of the supporting upright post is close to two adjacent sides of the end position, one side is connected with the end part of the upper cross beam (115), the other side is connected with the end part of the upper side beam (111), the lower part of the supporting upright post is close to two adjacent sides of the end position, one side is connected with the end part of the lower cross beam (116), and the other side is connected with the end part of the lower side beam (112), the upper position of the middle part of the supporting upright post is connected with a slide rail beam (113), and the slide rail beam has a certain inclination along the horizontal direction;

the gravity sliding mechanism (12) comprises a sliding tray (121), the sliding tray is formed by combining a bottom plate and four side plates, the bottom plate is rectangular, the four side plates extend upwards along four sides of the bottom plate and have a certain outward drawing angle, the extending tail ends of the four side plates are provided with spigot flanges (1214) with a certain width, the spigot flanges form integral connection of the upper edge of the sliding tray, in the width direction of the sliding tray, a reinforcing block (1211) is arranged on the spigot flanges of one side plate, a connecting nut (1212) is arranged in the middle of the reinforcing block, a travel switch collision block (1213) is arranged at one end of the reinforcing block close to the transfer trolley assembly (2), the connecting nut (1212) is connected with a drag hook (127), one end of the drag hook is provided with threads, the other end is annular, a sheath steel wire rope (128) penetrates through the through hole of the annular ring to be connected with the through hole, a bearing (122) in rolling fit with a track of a middle sliding rail beam (113) is arranged below the sliding tray, a vertical shaft (123) is arranged between the bearing and the bottom of the sliding tray (121), the vertical shaft is cylindrical, one end of the vertical shaft is connected with the bottom of the sliding tray (121), and the other end of the vertical shaft is connected with the bearing (122).

2. The mushroom transporting running water baling device according to claim 1, wherein a pair of cushioning devices (3) are respectively provided at both ends of the middle sliding rail beam (113) in a direction toward the upper beam (115).

3. The mushroom-transporting running water baling device according to claim 1, wherein the side of the frame body (11) near the lifting and transporting vehicle assembly (2) is provided with an inclined chute (124) which is formed by extending a first bending edge (1242) and a second bending edge (1243) from the bottom plate (1241) along the length direction and extending 90 degrees upwards along both edges, and extending a third bending edge (1244) and a fourth bending edge (1245) from the first bending edge (1242) and the second bending edge (1243) along the length direction and 90 degrees upwards along the edges, a counterweight support plate (125) is provided in the inclined chute, a plurality of counterweights (126) are provided on the counterweight support plate, the upper end portion and the lower end portion of the counterweight support plate (125) are provided with an upward extending section, wherein the extending section of the upper end portion is provided with a thread, the thread is connected with a draw hook (127), and a steel wire rope (128) is connected with a through hole of the draw hook, the other end of the steel wire rope extends along the upward slope direction of the oblique sliding chute (124), passes through the transverse transition wheel (129) and the plurality of longitudinal transition wheels (1291) and is connected with a draw hook (127) arranged on the sliding tray (121).

4. The running water baling device for mushroom transfer according to claim 1, wherein the transfer vehicle assembly (2) comprises a transfer vehicle frame body (21) and an elevating mechanism (22), wherein the transfer vehicle frame body (21) comprises a first frame (211), a second frame (212) and a brakable universal wheel (26), wherein the first frame (211) and the second frame (212) are respectively composed of two vertically-arranged upright posts (2111) and two horizontally-arranged side beams (2112), the first frame and the second frame are respectively composed into a whole by a first upper cross beam (213) and a first lower cross beam (214) by connecting the middle positions of the side beams in the first frame and the second frame, the elevating mechanism (22) comprises a conveyor belt (221) arranged between the first frame and a conveyor belt (221) arranged between the second frame, the device comprises a transmission belt (221), rolling shafts (222) which are matched and connected with the transmission belt (221) and transmit power, a synchronous belt transmission device (223) which is matched with the rolling shafts at the upper part, a motor (224) which transmits power to the synchronous belt transmission device, and a support plate (225) which is used for fixing the motor, wherein the transmission belt (221) is provided with a plurality of clamping plates (226) which are horizontal and are equidistant mutually on the outer surface back to the rolling shafts, the cross section of each clamping plate is L-shaped, the direction of the narrower side faces of each clamping plate is consistent with the advancing direction of the transmission belt (221), a mushroom transferring box (227) is arranged between the transmission belt in the middle of a first frame and the transmission belt in the middle of a second frame, the mushroom transferring box is composed of a rectangular bottom plate and four side plates which vertically extend along the four sides of the bottom plate, two side plates which are parallel to the transmission belt (221) are provided with notches (2271) which are matched with the clamping plates (226) and can slide, the support plate (225) is U-shaped, and specifically comprises a first plate (2251), a second plate (2252) and a third plate (2253), wherein the first plate and the second plate are parallel, one end of the first plate is in right-angle transition connection with the third plate, the other end of the first plate is connected with an upright post (2111), the third plate is connected with a motor (224), an air cylinder pushing device (23) is arranged below the synchronous belt transmission device (223), the air cylinder pushing device (23) comprises an air cylinder (231), an air cylinder mounting beam (232), a push block (233), a lower slide plate (234), an angle adjusting bracket (235) and a tightening bolt (236), specifically, the air cylinder mounting beam (232) is connected with the upright post below the synchronous belt transmission device (223), the air cylinder (231) is arranged in the middle of the air cylinder mounting beam (232), and the direction of an exposed piston rod in the air cylinder corresponds to the direction of the running water frame assembly (1), the upward surface of the cylinder mounting beam is provided with a light sensor (2311), the end part of the piston rod exposed is provided with a push block (233), an angle adjusting bracket (235) is arranged on two upright posts (2111) close to one side of the assembly (1) of the water flowing rack, the adjusting bracket is formed by connecting two connected battens which are at right angles with an arc-shaped batten, wherein the middle part of the arc-shaped lath is an arc-shaped groove and is a right-angled lath, one right-angled edge of the arc-shaped lath is connected with the upright post (2111) at one side facing the assembly line (1), the lower sliding plate (234) is a flat rectangular plate, two sides with narrower width are hinged with the upright post (2111) at the position close to the edge, the installation height is the same as that of the adjusting bracket, a threaded hole is arranged at the middle position of the two sides with narrower width, the threaded hole is arranged at a position corresponding to the arc-shaped groove of the arc-shaped lath, and a loose-tight bolt (236) is arranged at the threaded hole.

5. The running water baling device for mushroom transfer according to claim 2, characterized in that the buffer device (3) comprises two flexible long blocks (31) between which the two ends of the flexible long blocks are provided with compression springs (32), wherein the flexible long blocks mounted in the buffer device (3) near the trolley assembly (2) near the side of the sliding tray (121) are provided with travel switches (1215) near the side of the trolley assembly (2).

6. The continuous flow packaging device for mushroom transfer according to claim 3, characterized in that the number and weight of the counter weight blocks (126) arranged on the counter weight supporting plate (125) can be increased or decreased.

Images