CN219296551U - Automatic feeding machine for diced pleurotus eryngii - Google Patents

Abstract

The utility model relates to the technical field of pleurotus eryngii processing, in particular to an automatic feeding machine for pleurotus eryngii dicing, which comprises a storage hopper, a base and a pushing plate, wherein the storage hopper is positioned at one end of the base, one end of the storage hopper is a feeding port, the other end of the storage hopper is provided with a discharging part, and two opposite sides of the discharging part are respectively provided with a through discharging port and a sliding port; the material pushing plate is in sliding connection with the material discharging part, a material pushing groove is concavely formed in the end face of one end of the material pushing plate, a material blocking part is arranged at the other end of the material pushing plate, and the material pushing plate is driven by a first driving mechanism; the base is equipped with the conveyer belt, conveyer belt one end orientation the discharge gate, the other end is equipped with square knife rest, the base is kept away from the one end of storage hopper is equipped with the dicing sword, the dicing sword passes through second actuating mechanism drive. The automatic feeding machine for dicing the pleurotus eryngii can improve the safety of dicing the pleurotus eryngii and the dicing efficiency of the pleurotus eryngii.

Description

Automatic feeding machine for diced pleurotus eryngii

Technical Field

The utility model relates to the technical field of pleurotus eryngii processing, in particular to an automatic feeding machine for dicing pleurotus eryngii.

Background

The pleurotus eryngii is a new variety of rare edible fungi integrating eating, medicinal and dietary therapy. The pleurotus eryngii has the advantages of rich fungus meat, crisp and tender texture, compact and firm structure, milky white, complete eating and crisp and smooth and tasty fungus handle compared with fungus cover, is called as oyster mushroom king and dried oyster mushroom, has pleasant almond fragrance and mouthfeel like abalone, and is suitable for fresh keeping and processing.

When the pleurotus eryngii is processed, the pleurotus eryngii needs to be diced, at present, the pleurotus eryngii can be diced manually or by a machine, and the manual dicing needs larger labor force and has lower efficiency; for machine dicing, generally, the pleurotus eryngii is put on a knife rest of a machine, the machine controls a knife to cut the pleurotus eryngii, so that when dicing is performed each time, the pleurotus eryngii is required to be laid on the knife rest manually, the situation that a worker touches the knife rest or the knife rest by mistake is easy to occur, and when the worker lays the pleurotus eryngii on the knife rest, the machine is required to stop working, the dicing efficiency is reduced, for example, in a comparison document (CN 201920142206.6, a mushroom dicing device), the machine comprises a case, a motor, a screw, a support column, a dicing plate, a dicing blade net, two groups of stop blocks, two groups of first slide rails and two groups of first slide blocks, a dicing cavity is arranged in the case, and a first opening is formed in the top of the case; the device also comprises a placing plate, two groups of guide plates, two groups of electric telescopic rods and two groups of guide sliding rails, and a cleaning cavity is formed in the chassis; still include push pedal, two sets of second slide rails, two sets of second sliders and second electric telescopic handle, quick-witted case front side is provided with gets the dish mouth, gets the dish mouth and is linked together with wasing the chamber. When the automatic dicing machine works, the pick-and-place door is opened firstly, and the mushrooms to be diced are placed on the dicing blade net, so that a comparison file is also a manual feeding mode, workers are required to stand beside the machine for a long time to supplement materials, labor force cannot be effectively reduced, dicing efficiency is improved, and the situation that the workers touch a cutter or a cutter rest by mistake is easy to occur.

Disclosure of Invention

The utility model aims to at least solve one of the technical problems in the background art, and provides an automatic feeding machine for dicing of pleurotus eryngii, which can improve the safety of dicing of pleurotus eryngii and the dicing efficiency of pleurotus eryngii.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the automatic feeding machine for the pleurotus eryngii dices comprises a storage hopper, a base and a pushing plate, wherein the storage hopper is positioned at one end of the base, one end of the storage hopper is a feed inlet, the other end of the storage hopper is provided with a discharge part, one end of the discharge part, which is far away from the feed inlet, is provided with a discharge port, one end of the discharge part, which is close to the discharge port, is fixedly connected with the base, and two opposite sides of the discharge part are respectively provided with a through discharge port and a sliding port;

the two sides of the pushing plate are in sliding connection with the inner wall of the discharging part through sliding rails, two ends of the pushing plate can penetrate through the two discharging holes and the sliding hole, a pushing groove is concavely formed in the end face of one end of the pushing plate, the other end of the pushing plate is provided with a material blocking part, the pushing plate is driven by a first driving mechanism, and the pushing plate slides reciprocally, so that the pushing groove penetrates out of the discharging part through the discharging hole and the material blocking part blocks the discharging hole, or the pushing groove penetrates out of the discharging part through the sliding hole towards the discharging hole and the material blocking part;

the base is provided with a conveying belt, one end of the conveying belt faces the discharge hole, the other end of the conveying belt is provided with a square knife rest, the base is provided with a dicing hole, and the peripheral outer walls of the square knife rest are fixedly connected with the dicing hole;

the utility model discloses a square knife rest, including storage hopper, the base, the storage hopper, the base is kept away from the one end of storage hopper is equipped with the dicing sword, the dicing sword pass through the link with the base rotates, just the dicing sword passes through second actuating mechanism drive, so that the one side of dicing sword can press to or leave square knife rest.

Further, a driving plate is fixedly arranged on one surface of the material blocking part, which is away from the storage hopper, and penetrates into the base and is in sliding connection with the base;

the first driving mechanism comprises a first driving disc and a first driving rod, the first driving disc is connected with the inner wall of the base through a first connecting shaft, one end of the first connecting shaft is rotationally connected with the inner wall of the base, the other end of the first connecting shaft is fixedly connected with the first driving disc, one end of the first driving rod is rotationally connected with the eccentric circle of the first driving disc, and the other end of the first driving rod is rotationally connected with the driving plate;

the first driving disc is driven by a driving motor, a driving shaft of the driving motor is provided with a first transmission gear, a connecting shaft is fixedly provided with a second transmission gear, and the second transmission gear is in transmission connection with the first transmission gear through a first chain.

Further, the second driving mechanism comprises a transmission frame, a second driving disc and a second driving rod, the middle part of the transmission frame is rotatably connected with one end of the dicing cutter, which is close to the discharge hole, two ends of the transmission frame are respectively provided with a transmission rod, one end of the transmission rod is fixedly connected with the transmission frame, and the other end of the transmission rod slides into the base;

the two second driving disks are connected through a second connecting shaft, the second connecting shaft is rotatably arranged in the base, two ends of the second connecting shaft are fixedly connected with the second driving disks respectively, one end of a second driving rod is rotatably connected with one end of a transmission rod, which is far away from the transmission frame, and the other end of the second driving rod is rotatably connected with an eccentric circle of the second driving disk;

the driving shaft of the driving motor is provided with a third transmission gear, the second connecting shaft is provided with a fourth transmission gear, and the fourth transmission gear is in transmission connection with the third transmission gear through a second chain.

Further, the dicing cutter comprises a cutter seat and a cutter surface, one surface of the cutter seat is fixedly connected with the cutter surface, the other surface of the cutter seat is fixedly connected with the connecting frame, the cutter surface is a plurality of cutter heads with hollow structures, and the cutter heads can slide to penetrate through grids of the square cutter frame.

Further, the side plates of the storage hopper are of an inclined structure, so that the width of the discharge opening along the sliding direction of the pushing plate is smaller than that of the discharge opening.

Further, the two sides of the conveying belt and the dicing opening are respectively provided with a striker plate, and the striker plates are fixedly connected with the base.

Further, the side of base be equipped with the row's of dicing mouth intercommunication material notch, row's of dicing mouth is equipped with the stock guide, the stock guide is located dicing mouth below, the stock guide both sides respectively with base fixed connection, just stock guide one end is passed through row's of dicing mouth wears out outside the base.

Further, the discharge hole is provided with a blocking plate, the blocking plate is rotationally connected with the storage hopper through a spring hinge, and the blocking plate seals the discharge hole under the action of the elasticity of the spring hinge.

The beneficial effects of the utility model are as follows:

1. the blocky pleurotus eryngii is placed in the storage hopper, so that the pleurotus eryngii can fall into the pushing groove through the discharging part, the pushing plate penetrates out of the discharging part through the discharging hole under the action of the first driving mechanism, the pleurotus eryngii in the pushing groove is pushed onto the conveying belt, and meanwhile, the material blocking part can seal the discharging hole to prevent the pleurotus eryngii in the discharging part from sliding out through the discharging hole; after the pushing plate pushes materials, under the action of the first driving mechanism, the pushing groove returns to the discharging part again, so that the pushing groove faces the discharging port, and the pleurotus eryngii in the discharging part can fall into the pushing groove again to be pushed for the next time. Under the effect of the transmission belt, the pleurotus eryngii can be conveyed to the square knife rest, and meanwhile, under the effect of the second driving mechanism, the pleurotus eryngii can be pressed to the square knife rest, so that the pleurotus eryngii on the square knife rest is diced, and the diced pleurotus eryngii falls into a dicing opening. According to the utility model, manual feeding is not needed, so that hands of workers are not required to be close to the square blade rest, accidents are effectively avoided, long-time monitoring of the workers is not needed, the labor intensity is effectively reduced, and the dicing efficiency of the pleurotus eryngii is improved.

2. Under driving motor's effect, first connecting axle rotates for first drive gear passes through chain drive second drive gear and rotates, and the one end that first driving plate can drive first actuating lever carries out eccentric circle motion, because the inner wall sliding connection of pushing away flitch both sides through slide rail and row material portion makes first actuating lever can promote or pull the actuating plate, so that the pushing away flitch can reciprocate to wear to locate discharge gate and sliding gate, in order to realize pay-off and fender material. Meanwhile, the driving motor drives the second connecting shaft to rotate, the second connecting shaft drives the second driving disc to rotate respectively, one end of the second driving rod moves eccentrically, the other end of the second driving rod can drive the transmission rod to pass through the base in a reciprocating mode, the transmission frame can repeatedly move towards or away from the square knife rest, and the effect that the dicing knife is pressed towards or away from the square knife rest is achieved. According to the utility model, feeding and dicing operations are realized through one driving motor, so that the cost of the machine is reduced.

Drawings

Fig. 1 is a schematic structural view of an automatic feeding machine for dicing pleurotus eryngii according to a preferred embodiment of the present utility model.

Fig. 2 is a schematic side view structure of an automatic feeding machine for dicing pleurotus eryngii according to a preferred embodiment of the present utility model.

Fig. 3 is a schematic view showing a base structure of an automatic feeding machine for dicing pleurotus eryngii according to a preferred embodiment of the present utility model.

Fig. 4 is a schematic diagram of a driving motor structure of an automatic feeding machine for dicing pleurotus eryngii according to a preferred embodiment of the present utility model.

Fig. 5 is a schematic diagram of a pushing plate structure of an automatic feeding machine for dicing pleurotus eryngii according to a preferred embodiment of the present utility model.

Fig. 6 is a schematic diagram of a pushing chute of an automatic feeding machine for dicing pleurotus eryngii according to a preferred embodiment of the present utility model.

In the figure, 1-storage hopper, 101-feed inlet, 102-discharge outlet, 11-discharge part, 111-discharge outlet, 112-slide inlet, 13-blocking plate, 131-spring hinge, 2-base, 201-dicing inlet, 202-discharge notch, 21-conveying belt, 22-baffle, 23-guide plate, 3-pushing plate, 301-pushing groove, 302-baffle part, 303-driving plate, 4-square blade holder, 5-dicing blade, 501-blade holder, 502-blade face, 51-connecting frame, 6-driving motor, 601-first transmission gear, 602-second transmission gear, 603-first chain, 604-third transmission gear, 605-fourth transmission gear, 606-second chain, 61-first driving plate, 611-first driving rod, 612-connecting shaft, 62-driving frame, 620-driving rod, 621-second driving plate, 622-second driving rod, 623-second connecting shaft.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 6, an automatic feeding machine for dicing pleurotus eryngii according to a preferred embodiment of the present utility model includes a storage hopper 1, a base 2 and a pushing plate 3.

The storage hopper 1 is located the one end of base 2, and storage hopper 1 one end is feed inlet 101, and the other end is equipped with discharge portion 11, and the one end that discharge portion 11 kept away from feed inlet 101 is equipped with bin outlet 102, and the one end that discharge portion 11 is close to bin outlet 102 is fixed connection with base 2, and discharge portion 11 opposite both sides are equipped with discharge gate 111 and the slip mouth 112 that runs through respectively. In this embodiment, the side plates of the storage hopper 1 are of an inclined structure, so that the width of the discharge opening 102 along the sliding direction of the pushing plate 3 is smaller than the width of the discharge opening 102. The storage hopper 1 is also provided with a supporting plate, the supporting plate is positioned on one side of the inclined side plate of the storage hopper 1, one end of the supporting plate is fixedly connected with the storage hopper 1, and the other end of the supporting plate is fixedly connected with the base 2, so that the storage hopper 1 is fixedly erected on the base 2.

As shown in fig. 3 and 5, two sides of the pushing plate 3 are slidably connected to the inner wall of the discharging portion 11 through slide rails 31, and two ends of the pushing plate 3 can be disposed through the discharging port 111 and the sliding port 112. The end face of one end of the pushing plate 3 is concavely provided with a pushing groove 301, the other end of the pushing plate is provided with a blocking part 302, the pushing plate 3 is driven by a first driving mechanism, and the pushing plate 3 slides reciprocally, so that the pushing groove 301 passes out of the discharging part 11 through the discharging hole 111 and the blocking part 302 blocks the discharging hole 102, or the pushing groove 301 passes out of the discharging part 11 through the sliding hole 112 towards the discharging hole 102 and the blocking part 302. In this embodiment, two sides of one end face of the material blocking portion 302 are respectively provided with a plate body, so as to form a material pushing groove 301.

The base 2 is provided with a conveying belt 21, one end of the conveying belt 21 faces the discharge hole 111, the other end of the conveying belt is provided with a square knife rest 4, the base 2 is provided with a dicing hole 201, and the peripheral outer walls of the square knife rest 4 are fixedly connected with the dicing hole 201. The conveying belt 21 is driven by a feeding motor 211, the feeding motor 211 is fixedly arranged in the base 2, and a driving shaft of the feeding motor 211 is in transmission connection with one of the driving roll shafts of the conveying belt 21.

The one end that storage hopper 1 was kept away from to base 2 is equipped with the dicer 5, and the dicer 5 rotates with base 2 through link 51, and the dicer 5 passes through second actuating mechanism drive to make the one side of dicer 5 can press to or leave square knife rest 4.

The two sides of the conveying belt 21 and the dicing opening 22 in this embodiment are respectively provided with a baffle plate 22, and the baffle plate 22 is fixedly connected with the base 2. Under the action of the baffle plate 22, the pleurotus eryngii can be prevented from falling out of the conveying belt 21 and the dicing opening 22, and the pleurotus eryngii can be ensured to accurately enter the square knife rest 4 and be cut smoothly. The opening width of the pushing groove 301 is slightly smaller than the distance between the two striker plates 22, so that the pushing groove 301 can be slidably embedded between the two striker plates 22.

By placing the blocky pleurotus eryngii in the storage hopper 1, the pleurotus eryngii can fall into the pushing groove 301 through the discharging part 11, under the action of the first driving mechanism, the pushing plate 3 passes out of the discharging part 11 through the discharging hole 111, so that the pleurotus eryngii in the pushing groove 301 is pushed onto the conveying belt 21, meanwhile, the material blocking part 302 can seal the discharging hole 102, and the pleurotus eryngii in the discharging part 11 is prevented from sliding out through the discharging hole 102; after the pushing of the pushing plate 3 is completed, under the action of the first driving mechanism, the pushing groove 301 returns to the discharging part 11 again, so that the pushing groove 301 faces the discharging port 102, and the pleurotus eryngii in the discharging part 11 can fall into the pushing groove 301 again for the next pushing.

Under the effect of the transmission belt 21, the pleurotus eryngii can be conveyed to the square blade rest 4, and meanwhile under the effect of the second driving mechanism, the pleurotus eryngii can be pressed to the square blade rest 4, so that the pleurotus eryngii on the square blade rest 4 is diced, and the diced pleurotus eryngii falls into the dicing opening 201. According to the utility model, manual feeding is not needed, so that hands of workers are not required to be close to the square blade rest 4, accidents are effectively avoided, long-time monitoring of the workers is not needed, the labor intensity is effectively reduced, and the dicing efficiency of the pleurotus eryngii is improved.

In this embodiment, as shown in fig. 3, the discharge hole 111 is provided with a blocking plate 13, the blocking plate 13 is rotatably connected with the storage hopper 1 through a spring hinge 131, and the blocking plate 13 seals the discharge hole 111 under the action of the elastic force of the spring hinge 131. Under the action of the blocking plate 13, the pleurotus eryngii in the discharging part 11 can be prevented from accidentally sliding out through the discharging hole 111. When the pushing groove 301 passes through the discharging hole 111 and out of the discharging part 11, the pushing plate 3 can push the blocking plate 13 open so as to realize the opening of the blocking plate 13.

As shown in fig. 3 and 4, a driving plate 303 is fixedly arranged on one surface of the blocking portion 302, which faces away from the storage hopper 1, and the driving plate 303 penetrates into the base 2 and is in sliding connection with the base 2. The upper surface of the base 2 is provided with a through reserved groove, the driving plate 303 penetrates into the base 2 through the reserved groove, and the driving plate 303 is in sliding connection with the reserved groove.

The first driving mechanism includes a first driving disc 61 and a first driving rod 611, the first driving disc 61 is connected with the inner wall of the base 2 through a first connecting shaft 612, one end of the first connecting shaft 612 is rotatably connected with the inner wall of the base 2, the other end of the first connecting shaft is fixedly connected with the first driving disc 61, one end of the first driving rod 611 is rotatably connected with the eccentric circle of the first driving disc 61, and the other end of the first driving rod 611 is rotatably connected with the driving plate 303. In order to increase the stability of the first driving disk 61, a fixing rod may be provided between the first driving disk 61 and the inner wall on which the interlayer 11 is placed, the fixing rod being rotatably connected to the connection shaft 612 through a bearing.

The first driving disk 61 is driven by a driving motor 6, a driving shaft of the driving motor 6 is provided with a first transmission gear 601, a connecting shaft 612 is fixedly provided with a second transmission gear 602, and the second transmission gear 602 is in transmission connection with the first transmission gear 601 through a first chain 603. The driving motor 6 of the present embodiment is fixedly disposed at the bottom inside the base 2.

Under the action of the driving motor 6, the first connecting shaft 612 rotates, so that the first transmission gear 601 drives the second transmission gear 602 to rotate through the chain 603, and the first driving disc 61 can drive one end of the first driving rod 611 to perform eccentric circular motion, and as two sides of the pushing plate 3 are slidably connected with the inner wall of the discharging part 11 through the sliding rail 31, the first driving rod 611 can push or pull the driving plate 303, so that the pushing plate 3 can pass through the discharging hole 111 and the sliding hole 112 in a reciprocating manner, and feeding and blocking are realized.

The second driving mechanism comprises a transmission frame 62, a second driving disc 621 and a second driving rod 622, wherein the middle part of the transmission frame 62 is rotationally connected with one end of the dicing cutter 5, which is close to the discharge hole 102, two ends of the transmission frame 62 are respectively provided with a transmission rod 620, one end of the transmission rod 620 is fixedly connected with the transmission frame 62, and the other end of the transmission rod 620 slides into the base 2.

The two second driving discs 621 are arranged, the two second driving discs 621 are connected through a second connecting shaft 623, the second connecting shaft 623 is rotatably arranged in the base 2, two ends of the second connecting shaft 623 are fixedly connected with the second driving discs 621 respectively, one end of the second driving rod 622 is rotatably connected with one end of the transmission rod 620 far away from the transmission frame 62, and the other end of the second driving rod 622 is rotatably connected with an eccentric circle of the second driving disc 621.

In this embodiment, the second connection shaft 623 is mounted at the bottom in the base 2 by a bearing. The two sides of the base 2 are respectively fixedly provided with a sliding sleeve, and the transmission rod 620 is arranged in the sliding sleeve in a sliding manner so as to realize that the transmission rod 620 penetrates into the base 2 in a sliding manner. The second driving disk 621 is rotatably connected to the second driving lever 622 on the side remote from the driving shaft of the driving motor 6.

The drive shaft of the drive motor 6 is provided with a third transmission gear 604, the second connecting shaft 623 is provided with a fourth transmission gear 605, and the fourth transmission gear 605 is in transmission connection with the third transmission gear 604 via a second chain 606.

The driving motor 6 drives the second connecting shaft 623 to rotate, so that the second connecting shaft 623 respectively drives the second driving disk 621 to rotate, one end of the second driving rod 622 performs eccentric circular motion, the other end can drive the transmission rod 620 to reciprocate through the base 2, and the transmission frame 62 can repeatedly move towards or away from the square blade rest 4, so that the dicing blade 5 is pressed towards or away from the square blade rest 4.

When the pushing groove 301 is opposite to the discharge hole 102, the dicing blade 5 is at the highest position; when the blocking part 302 is opposite to the discharge opening 102, the dicing blade 5 is pressed on the square blade frame 4, so that dicing and feeding are performed alternately. According to the embodiment, feeding and dicing operations are realized through one driving motor 6, so that the cost of the machine is reduced, dicing and feeding are realized in a staggered manner more stably, no program or software control is needed, and the complexity of the machine is reduced.

In this embodiment, the dicing blade 5 includes a blade holder 501 and a blade surface 502, one surface of the blade holder 501 is fixedly connected with the blade surface 502, the other surface of the blade holder 501 is fixedly connected with the connecting frame 51, the blade surface 502 is a plurality of hollow-structured blade heads, and the blade heads can slide through the grids of the square blade holder 4. When the cutter head is embedded into the grid of the square cutter frame 4, the pleurotus eryngii on the square cutter frame 4 is cut, and when the cutter head is continuously pressed down, the pleurotus eryngii in the grid of the square cutter frame 4 can be pushed out and fall into the dicing opening 201 to be collected.

The side of the base 2 is provided with a discharge notch 202 communicated with the dicing opening 201, the discharge notch 202 is provided with a guide plate 23, the guide plate 23 is positioned below the dicing opening 201, two sides of the guide plate 23 are respectively fixedly connected with the base 2, and one end of the guide plate 23 penetrates out of the base 2 through the discharge notch 202. Under the action of the guide plate 23, the diced pleurotus eryngii can be guided so as to be convenient for collecting the diced pleurotus eryngii.

When the automatic feeding machine for dicing pleurotus eryngii of the embodiment is used, blocky pleurotus eryngii is placed in the storage hopper 1, under the effect of the self weight of the pleurotus eryngii, the pleurotus eryngii can fall into the pushing groove 301 through the discharging part 11, the driving motor 6 rotates, the first transmission gear 601 drives the second transmission gear 602 to rotate through the chain 603, the connecting shaft 612 drives the first driving disc 61 to rotate, one end of the first driving rod 611 performs eccentric circular motion, the other end drives the pushing plate 3 through the driving plate 303, the pleurotus eryngii in the pushing groove 301 is pushed onto the conveying belt 21, the material blocking part 302 seals the material discharging opening 102, and the pleurotus eryngii can be conveyed onto the square blade rest 4 under the effect of the conveying belt 21. Meanwhile, the second driving disc 621 is driven to rotate, one end of the second driving rod 622 moves eccentrically, the other end of the second driving rod 622 can drive the transmission rod 620 to penetrate into the base 2 in a sliding mode, and the dicing cutter 5 presses the square blade frame 4 to cut pleurotus eryngii on the square blade frame 4.

When the cutter head is embedded into the grid of the square cutter frame 4, the pleurotus eryngii on the square cutter frame 4 is cut, and when the cutter head is continuously pressed down, the pleurotus eryngii in the grid of the square cutter frame 4 can be pushed out and fall into the dicing opening 201 to be collected.

After the cutting is finished once, the driving motor 6 pulls the driving plate 303, the pushing groove 301 enters the discharging part 11 through the discharging hole 111, the pushing groove 301 faces the discharging hole 102, and the pleurotus eryngii in the discharging part 11 can fall into the pushing groove 301 again for the next pushing. Meanwhile, the driving motor 6 drives the transmission rod 620 to lift up, so that the dicing cutter 5 is separated from the square blade rest 4, and the pleurotus eryngii can enter the square blade rest 4.

Claims (8)

1. The automatic feeding machine for the pleurotus eryngii dices is characterized by comprising a storage hopper (1), a base (2) and a pushing plate (3), wherein the storage hopper (1) is positioned at one end of the base (2), one end of the storage hopper (1) is provided with a feeding port (101), the other end of the storage hopper is provided with a discharging part (11), one end of the discharging part (11) away from the feeding port (101) is provided with a discharging port (102), one end of the discharging part (11) close to the discharging port (102) is fixedly connected with the base (2), and two opposite sides of the discharging part (11) are respectively provided with a penetrating discharging port (111) and a sliding port (112);

the two sides of the pushing plate (3) are in sliding connection with the inner wall of the discharging part (11) through sliding rails (31), two ends of the pushing plate (3) can penetrate through the discharging hole (111) and the sliding hole (112), a pushing groove (301) is concavely arranged on the end face of one end of the pushing plate (3), a material blocking part (302) is arranged on the other end of the pushing plate, the pushing plate (3) is driven by a first driving mechanism, the pushing plate (3) slides reciprocally, so that the pushing groove (301) penetrates out of the discharging part (11) through the discharging hole (111) and the material blocking part (302) blocks the discharging hole (102), or the pushing groove (301) faces the discharging hole (102) and the material blocking part (302) and penetrates out of the discharging part (11) through the sliding hole (112);

the base (2) is provided with a conveying belt (21), one end of the conveying belt (21) faces the discharge hole (111), the other end of the conveying belt is provided with a square knife rest (4), the base (2) is provided with a dicing hole (201), and the peripheral outer walls of the square knife rest (4) are fixedly connected with the dicing hole (201);

the utility model discloses a square knife rest, including storage hopper (1), base (2), storage hopper (1), base (2) are kept away from one end is equipped with dicer (5), dicer (5) through link (51) with base (2) rotate, just dicer (5) are through second actuating mechanism drive, so that one side of dicer (5) can press or leave square knife rest (4).

2. An automatic feeding machine for diced pleurotus eryngii as claimed in claim 1, wherein: a driving plate (303) is fixedly arranged on one surface of the material blocking part (302) back to the storage hopper (1), and the driving plate (303) penetrates into the base (2) and is in sliding connection with the base (2);

the first driving mechanism comprises a first driving disc (61) and a first driving rod (611), the first driving disc (61) is connected with the inner wall of the base (2) through a first connecting shaft (612), one end of the first connecting shaft (612) is rotationally connected with the inner wall of the base (2), the other end of the first connecting shaft is fixedly connected with the first driving disc (61), one end of the first driving rod (611) is rotationally connected with an eccentric circle of the first driving disc (61), and the other end of the first driving rod is rotationally connected with the driving plate (303);

the first driving disc (61) is driven by a driving motor (6), a driving shaft of the driving motor (6) is provided with a first transmission gear (601), a connecting shaft (612) is fixedly provided with a second transmission gear (602), and the second transmission gear (602) is in transmission connection with the first transmission gear (601) through a first chain (603).

3. An automatic feeding machine for diced pleurotus eryngii as claimed in claim 2, characterized in that: the second driving mechanism comprises a transmission frame (62), a second driving disc (621) and a second driving rod (622), the middle part of the transmission frame (62) is rotationally connected with one end of the dicing cutter (5) close to the discharge hole (102), two ends of the transmission frame (62) are respectively provided with a transmission rod (620), one end of the transmission rod (620) is fixedly connected with the transmission frame (62), and the other end of the transmission rod slides into the base (2);

the two second driving discs (621) are arranged, the two second driving discs (621) are connected through a second connecting shaft (623), the second connecting shaft (623) is rotatably arranged in the base (2), two ends of the second connecting shaft (623) are fixedly connected with the second driving discs (621) respectively, one end of the second driving rod (622) is rotatably connected with one end of the transmission rod (620) far away from the transmission frame (62), and the other end of the second driving rod (622) is rotatably connected with an eccentric circle of the second driving disc (621);

the driving shaft of the driving motor (6) is provided with a third transmission gear (604), the second connecting shaft (623) is provided with a fourth transmission gear (605), and the fourth transmission gear (605) is in transmission connection with the third transmission gear (604) through a second chain (606).

4. An automatic feeding machine for diced pleurotus eryngii as claimed in claim 1, wherein: the dicing cutter (5) comprises a cutter seat (501) and a cutter surface (502), one surface of the cutter seat (501) is fixedly connected with the cutter surface (502), the other surface of the cutter seat (501) is fixedly connected with the connecting frame (51), the cutter surface (502) is a plurality of cutter heads with hollow structures, and the cutter heads can slide to penetrate through grids of the square cutter rest (4).

5. An automatic feeding machine for diced pleurotus eryngii as claimed in claim 1, wherein: the side plates of the storage hopper (1) are of an inclined structure, so that the width of the discharge opening (102) along the sliding direction of the pushing plate (3) is smaller than the width of the discharge opening (102).

6. An automatic feeding machine for diced pleurotus eryngii as claimed in claim 1, wherein: the two sides of the conveying belt (21) and the dicing opening (201) are respectively provided with a striker plate (22), and the striker plates (22) are fixedly connected with the base (2).

7. An automatic feeding machine for diced pleurotus eryngii as claimed in claim 1, wherein: the side of base (2) be equipped with discharge notch (202) of dicing mouth (201) intercommunication, discharge notch (202) are equipped with stock guide (23), stock guide (23) are located dicing mouth (201) below, stock guide (23) both sides respectively with base (2) fixed connection, just stock guide (23) one end is passed through discharge notch (202) wears out outside base (2).

8. An automatic feeding machine for diced pleurotus eryngii as claimed in claim 1, wherein: the discharging hole (111) is provided with a blocking plate (13), the blocking plate (13) is rotationally connected with the storage hopper (1) through a spring hinge (131), and the blocking plate (13) is used for sealing the discharging hole (111) under the action of the elasticity of the spring hinge (131).

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