CN210635321U

CN210635321U - Pecan peel machine loading attachment

Info

Publication number: CN210635321U
Application number: CN201921586066.8U
Authority: CN
Inventors: 易坚荣; 冯沃强; 梁红光; 吴瑞祥
Original assignee: Hezhong Power Machinery Factory Gulao Town Heshan City
Current assignee: Hezhong Power Machinery Factory Gulao Town Heshan City
Priority date: 2019-09-23
Filing date: 2019-09-23
Publication date: 2020-05-29
Anticipated expiration: 2029-09-23

Abstract

The utility model discloses a pecan peel machine loading attachment, it relates to pecan peel machine field, it contains the hopper subassembly, power component, drive assembly, first adjustment subassembly, second adjustment subassembly, third adjustment subassembly, fourth adjustment subassembly, power component installs the below at the hopper subassembly, power component is connected with drive assembly, first adjustment subassembly sets up on the hopper subassembly, second adjustment subassembly is installed on drive assembly, third adjustment subassembly is installed on drive assembly, fourth adjustment subassembly is installed on the hopper subassembly. The loading device of the pecan huller can enable disordered pecans to orderly fall onto the support block in the hopper assembly through the inclined surface rolling to form a queue; the breach size of adjustment first adjustment subassembly and median septum can form and seal or not gap of uniform size for can control from the second blanking dish from first adjustment subassembly pass the pecan quantity of treating the shelling of first blanking dish, make things convenient for actual production needs.

Description

Pecan peel machine loading attachment

The technical field is as follows:

the utility model relates to a pecan peel machine loading attachment belongs to pecan peel machine technical field.

Background art:

the nuts are a classification of closed fruits, have hard pericarp and contain 1 or more seeds, such as fruits of Chinese chestnuts, almonds and the like, are essential parts of plants, are generally rich in nutrition, contain high protein, grease, mineral substances and vitamins, and have excellent effects on growth and development of human bodies, physique enhancement and disease prevention. The pecan is one of nuts, is produced in North America, Australia and other countries, and a small amount of test seeds are also started in Zhejiang province in China at present, and the pecan is rich in nutrition and delicious in taste.

The pecan nuts are wrapped by a shell, the shell needs to be removed in the manufacturing process, and the general processing modes are divided into two modes, namely a manual mode and a mechanical mode, wherein the manual mode is to cut the shell manually and then take out the pecan nuts in the shell. The mechanical means are generally implemented by semi-automatic machines. The machine consists of a rotating grinding wheel roller and a fixed sand strip, the pecans are conveyed into a gap between the rotating grinding wheel roller and the fixed sand strip, and the pecans are rubbed, extruded and rubbed in the gap due to the rotation of the grinding wheel roller and the fixation of the sand strip, so that the shells are crushed and separated from the kernels, and the kernels are separated from the shells due to the extrusion, so that the kernels are easily damaged and crushed. Whether the manual mode or the mechanical mode is adopted, the integrity of the shelled nuts is low, and the subsequent processing and sale of the nuts are influenced.

The loading attachment of the pecan peel machine of traditional mode generally is put into the hopper to the nut, then makes the pecan fall into the anchor clamps through the mode of vibration stirring, and this kind of mode once only can fall a nut to the anchor clamps in, can appear the situation that the nut does not blanking or many blanking moreover, and efficiency is lower.

The utility model has the following contents:

to the above problem, the to-be-solved technical problem of the utility model is to provide a novel structure, safe and reliable, the flexible operation, convenient to use, it is effectual efficient, can adapt to certain diameter scope and can carry out the pecan peel machine loading attachment of plastic to the pecan.

The utility model discloses a pecan peel machine loading attachment, it contains the hopper subassembly, power component, drive assembly, first adjustment subassembly, second adjustment subassembly, third adjustment subassembly, fourth adjustment subassembly, power component installs in the below of hopper subassembly, power component is connected with drive assembly, first adjustment subassembly sets up on the hopper subassembly, second adjustment subassembly is installed on drive assembly, third adjustment subassembly is installed on drive assembly, fourth adjustment subassembly is installed on the hopper subassembly.

Preferably, the hopper component is a base body of the feeding device of the whole pecan huller and is used for supporting and fixing other components and spare parts, the hopper assembly comprises a first blanking disc, a second blanking disc and a middle partition plate, the first blanking disc and the second blanking disc are respectively formed by welding stainless steel plates or metal plates with different shapes and are provided with a certain inclined plane, the pecans to be unshelled can slide to the bottom of the hopper component along the inclined plane, the middle clapboard is arranged between the first blanking disc and the second blanking disc, the pecan shelling device is used for separating other parts which are already installed on pecan to be shelled, a first adjusting component installation position, a second adjusting component installation position and a third adjusting component installation position are arranged on the middle partition plate, a first adjusting component is installed on the first adjusting component installation position, a second adjusting component is installed on the second adjusting component installation position, and a third adjusting component is installed on the third adjusting component installation position.

Preferably, the power assembly is arranged below the hopper assembly and used for providing power for the feeding device, the power assembly comprises a power assembly base, a motor, a power driving sprocket, a power chain, a power driven sprocket, a connecting disc, a transmission driving sprocket, a sprocket connecting disc, a spindle and a bearing seat assembly, the power assembly base is arranged below the hopper assembly and used for providing supporting force for the motor, the motor is an asynchronous motor, a stepping motor or a servo motor, the specific motor form is not limited, and is within the protection range of the patent, an output shaft of the motor can be connected with a speed reducer or not and used for providing power transmission for the feeding device, the power driving sprocket is connected with the output shaft of the motor through a key, one end of the power chain is connected with the power driving sprocket, and the other end of the power chain is connected with the power driven sprocket, the power driven chain wheel is fixed on the connecting disc through a bolt, the connecting disc is connected with the main shaft through a key, two ends of the main shaft are sleeved on a bearing of the bearing seat assembly, the main shaft can rotate on the bearing seat assembly at a high speed, the transmission driving chain wheel is fixed on the connecting disc through the chain wheel connecting disc through a bolt, the rotation of the power driven chain wheel can drive the transmission driving chain wheel to rotate, and therefore when the motor rotates at a high speed, power can be transmitted to the transmission driving chain wheel through chain transmission, and the transmission driving chain wheel rotates at a high speed.

Preferably, the transmission assembly is used for transmitting power through a chain transmission by the power assembly and conveying the pecans to be hulled, the transmission assembly comprises a transmission chain, a transmission driven chain wheel and support blocks, the transmission chain is in a closed ring shape, one end of the transmission chain is connected with the transmission driving chain wheel, the other end of the transmission chain is connected with the transmission driven chain wheel to form the transmission assembly of the chain wheel chain, the number of the support blocks is not limited, the support blocks are fixedly assembled on chain links of the transmission chain, the transmission chain comprises a first cambered surface, a second cambered surface and support block gaps, the first cambered surface and the second cambered surface have certain radians, after the support block is assembled with the transmission chain, the first cambered surface and the second cambered surface form an inwards concave groove, so that pecans to be hulled can fall into the groove to be conveyed, and the support block notch 313 is a linear notch, so that the adjusting block of the fourth adjusting assembly can be embedded into the support block notch.

Preferably, the first adjusting assembly is arranged on the hopper assembly and used for adjusting the number of the pecans to be conveyed on the hopper assembly, the first adjusting assembly is of a plate-shaped structure and is arranged on the middle partition plate, the size of the gap between the first adjusting assembly and the middle partition plate can be adjusted through the position locked by the bolt, and the gap can be closed or different in size, so that the number of the pecans to be unshelled, which pass through the first blanking plate from the first adjusting assembly from the second blanking plate, can be controlled, and the actual production requirement is facilitated.

Preferably, the second adjusting assembly is mounted on the transmission assembly and used for rejecting a plurality of pecans on the transmission assembly, the second adjusting assembly is folded and mounted on the middle partition plate through bolts and can rotate along the middle partition plate, a tip portion of the second adjusting assembly is arranged at the front end of the second adjusting assembly, and when a plurality of pecans to be unshelled are arranged on the support block, only one pecan to be unshelled can pass through a cavity formed by the tip portion of the second adjusting assembly and the support block and then is conveyed upwards continuously, and other pecans to be unshelled slide down on the first blanking disc along the outer side of the tip portion of the second adjusting assembly and return to the lower portion of the hopper assembly.

Preferably, the third adjusting assembly is mounted on the transmission assembly and used for screening the height of the pecans to be hulled, so that the pecans meeting the height can pass through the third adjusting assembly, the third adjusting assembly is folded and mounted on the middle partition plate through bolts and can rotate along the middle partition plate, the front end of the third adjusting assembly is provided with a tip part of the third adjusting assembly, and by adjusting the distance between the tip part of the third adjusting assembly and the support block, when the diameter of the pecans to be hulled on the support block is larger than the processing range of the huller, the pecans to be hulled cannot pass through a cavity formed by the tip part of the third adjusting assembly and the support block, slide down on the first blanking disc along the outer side of the tip part of the third adjusting assembly and return to the lower part of the hopper assembly, and the pecans within the diameter of the processing range can pass through the cavity formed by the tip part of the third adjusting assembly and the support block and then continue to be conveyed upwards.

Preferably, the fourth adjusting assembly is mounted on the hopper assembly and used for queuing and shaping the pecans in the transmission assembly, the fourth adjusting assembly comprises an adjusting fixed block, an adjusting rotating plate and an adjusting screw rod, the adjusting fixed block is welded on the middle partition plate, the adjusting rotating plate is fixed on the adjusting fixed block through a bolt and can rotate along the adjusting fixed block, the adjusting screw rod penetrates through the transmission chain and the middle partition plate and is finally in threaded connection with the adjusting rotating plate, when the adjusting screw rod is rotated, the adjusting rotating plate can rotate, so that the tip part of the adjusting rotating plate is embedded into the notch of the supporting block, and due to the effect of the tip part of the adjusting rotating plate, the position of the pecans to be hulled on the supporting block can be tightly attached to the tip part of the adjusting rotating plate, so that a relatively neat queue is formed, and the stability of subsequent processes is convenient.

The utility model has the advantages that:

1. the loading device of the pecan huller can enable disordered pecans to orderly fall onto the support block in the hopper assembly through the inclined surface rolling to form a queue;

2. the size of the gap between the first adjusting assembly and the middle clapboard is adjusted to form a closed gap or gaps with different sizes, so that the number of pecans to be unshelled, which pass from the second blanking disc to the first blanking disc from the first adjusting assembly, can be controlled, and the actual production needs are facilitated;

3. adjusting the distance between the tip of the second adjusting assembly and the support block to ensure that only one pecan to be hulled passes through a cavity formed by the tip of the second adjusting assembly and the support block and then is conveyed upwards continuously;

4. the distance between the tip of the third adjusting component and the support block is adjusted, so that the pecans within the diameter of the processing range can pass through a cavity formed by the tip of the third adjusting component and the support block and then are conveyed upwards continuously;

5. the fourth adjusting assembly can queue and shape the pecans of the transmission assembly, and the pecans meeting the shelling conditions are conveyed to the top of the transmission assembly and then slide to the next working procedure;

6. the power chain is controlled by the driver to control the stepping motor or the servo motor, so that the motion precision is high and the speed is adjustable.

Description of the drawings:

for ease of illustration, the invention is described in detail by the following detailed description and accompanying drawings.

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

fig. 2 is a side view of the present invention;

FIG. 3 is a schematic structural view of the hopper assembly of the present invention;

FIG. 4 is a schematic structural view of a power assembly according to the present invention;

fig. 5 is a schematic structural diagram of the transmission assembly of the present invention;

FIG. 6 is a schematic structural view of a fourth adjusting assembly according to the present invention;

fig. 7 is a schematic structural view of the present invention installed behind a pecan sheller.

1-a hopper assembly; 11-a first blanking disc; 12-a second blanking disc; 13-a middle separator; 131-a first adjustment assembly mounting location; 132-a second adjustment assembly mounting location; 133-a third trim component mounting location; 2-a power assembly; 21-assembly base; 22-a motor; 23-a power drive sprocket; 24-a power chain; 25-a powered driven sprocket; 26-a connecting disc; 27-a drive sprocket; 28-sprocket attachment disk; 29-a main shaft; 210-a bearing housing assembly; 3-a transmission assembly; 31-a drive chain; 311-first cambered surface; 312-a second arc; 313-a pallet gap; 32-drive driven sprocket; 33-a support block; 4-a first adjustment assembly; 5-a second adjustment assembly; 51-a second conditioning assembly tip; 6-a third adjustment assembly; 61-a third conditioning assembly tip; 7-a fourth adjustment assembly; 71-adjusting a fixed block; 72-adjusting the rotating plate; 721-adjusting the rotating plate tip; 73-adjusting screw.

The specific implementation mode is as follows:

as shown in fig. 1 to 7, the following technical solutions are adopted in the present embodiment: the fruit peeler comprises a hopper assembly 1, a power assembly 2, a transmission assembly 3, a first adjusting assembly 4, a second adjusting assembly 5, a third adjusting assembly 6 and a fourth adjusting assembly 7, wherein the power assembly 2 is arranged below the hopper assembly 1 and used for providing power for a feeding device, the power assembly 2 is connected with the transmission assembly 3, the transmission assembly 3 is used for transmitting power through chain transmission by the power assembly 2 and conveying jatropha fruits to be peeled, the first adjusting assembly 4 is arranged on the hopper assembly 1 and used for adjusting the number of the jatropha fruits to be conveyed on the hopper assembly 1, the second adjusting assembly 5 is arranged on the transmission assembly 3 and used for eliminating the condition of a plurality of jatropha fruits on the transmission assembly 3, the third adjusting assembly 6 is arranged on the transmission assembly 3 and used for screening the height of the jatropha fruits to be peeled so that the jatropha fruit meeting the height passes through the third adjusting assembly 6, and the fourth adjusting assembly 7 is arranged on the hopper assembly 1, the function of the device is to queue and shape the pecans in the transmission assembly 3, and the pecans form the whole of the feeding device of the pecan huller.

The hopper assembly 1 is a base body of a feeding device of the whole pecan huller and is used for supporting and fixing other assemblies and spare and accessory parts, the hopper assembly 1 comprises a first blanking disc 11, a second blanking disc 12 and a middle partition plate 13, the first blanking disc 11 and the second blanking disc 12 are formed by welding stainless steel plates or metal plates with different shapes and are provided with a certain inclined plane, pecans to be hulled can slide to the bottom of the hopper assembly 1 along the inclined plane, the middle partition plate 13 is erected between the first blanking disc 11 and the second blanking disc 12 and is used for separating other parts installed on the pecans to be hulled, the middle partition plate 13 is provided with a first adjusting assembly installation position 131, a second adjusting assembly installation position 132 and a third adjusting assembly installation position 133, the first adjusting assembly installation position 131 is provided with a first adjusting assembly 4, and the second adjusting assembly installation position 132 is provided with a second adjusting assembly 5, the third adjusting component 6 is mounted on the third adjusting component mounting position 133; the power assembly 2 is arranged below the hopper assembly 1 and used for providing power for a feeding device, the power assembly 2 comprises a power assembly base 21, a motor 22, a power driving chain wheel 23, a power chain 24, a power driven chain wheel 25, a connecting disc 26, a transmission driving chain wheel 27, a chain wheel connecting disc 28, a spindle 29 and a bearing block assembly 210, the power assembly base 21 is arranged below the hopper assembly 1 and provides supporting force for the motor 22, the motor 22 is an asynchronous motor, a stepping motor or a servo motor, the specific motor form is not limited, and within the protection range of the patent, an output shaft of the motor 22 can be connected with a speed reducer or not connected with the speed reducer and used for providing power transmission for the feeding device, the power driving chain wheel 23 is connected with the output shaft of the motor 22 through a key, one end of the power chain 24 is connected with the power driving chain wheel 23, the other end of the power chain 24 is linked with a power driven sprocket 25, the power driven sprocket 25 is fixed on a connecting disc 26 through a bolt, the connecting disc 26 is connected with a main shaft 29 through a key, two ends of the main shaft 29 are sleeved on a bearing of a bearing seat assembly 210, so that the main shaft 29 can rotate on the bearing seat assembly 210 at a high speed, a transmission driving sprocket 27 is fixed on the connecting disc 26 through a sprocket connecting disc 28 through a bolt, the rotation of the power driven sprocket 25 can drive the transmission driving sprocket 27 to rotate, and therefore when the motor 22 rotates at a high speed, power can be transmitted to the transmission driving sprocket 27 through chain transmission, and the transmission driving sprocket 27 rotates at a high speed; the transmission component 3 transmits power through a chain transmission by the power component 2 and is used for conveying pecans to be hulled, the transmission component 3 comprises a transmission chain 31, a transmission driven chain wheel 32 and a support block 33, the transmission chain 31 is in a closed ring shape, one end of the transmission chain 31 is linked with the transmission driving chain wheel 27, the other end of the transmission chain 31 is linked with the transmission driven chain wheel 32 to form a transmission component of a chain wheel chain, the number of the support block 33 is not limited, the support block is fixedly assembled on a chain link of the transmission chain 31, the transmission chain 31 comprises a first arc surface 311, a second arc surface 312 and a support block notch 313, the first arc surface 311 and the second arc surface 312 have certain radians, after the support block 33 and the transmission chain 31 are assembled, the first arc surface 311 and the second arc surface 312 form an inwards concave groove, so that the pecans to be hulled can fall into the groove for conveying, the support block notch 313 is in a shape of a straight notch, so that the adjusting block of the fourth adjusting component 7 can be embedded into the supporting block notch 313; the first adjusting assembly 4 is arranged on the hopper assembly 1 and used for adjusting the number of the pecans to be conveyed on the hopper assembly 1, the first adjusting assembly 4 is of a plate-shaped structure and is arranged on the middle partition plate 13, the size of a gap between the first adjusting assembly 4 and the middle partition plate 13 can be adjusted through the position locked by a bolt, and a closed gap or gaps with different sizes can be formed, so that the number of the pecans to be unshelled, which pass from the first adjusting assembly 4 to the first blanking plate 11 from the second blanking plate 12, can be controlled, and the actual production needs are facilitated; the second adjusting component 5 is mounted on the transmission component 3 and is used for removing a plurality of pecans on the transmission component 3, the second adjusting component 5 is in a folded plate shape and is mounted on the middle partition plate 13 through bolts and can rotate along the middle partition plate 13, a second adjusting component tip part 51 is arranged at the front end of the second adjusting component, and by adjusting the distance between the second adjusting component tip part 51 and the support block 33, when a plurality of pecans to be peeled are on the support block 33, only one pecan to be peeled can pass through a cavity formed by the second adjusting component tip part 51 and the support block 33 and then is conveyed upwards, and other pecans to be peeled slide down on the first blanking disc 11 along the outer side of the second adjusting component tip part 51 and return to the lower part of the hopper component 1; the third adjusting component 6 is arranged on the transmission component 3 and is used for screening the height of the pecans to be hulled, so that the pecans meeting the height can pass through the third adjusting component 6, the third adjusting component 6 is in a folded plate shape and is arranged on the middle clapboard 13 through bolts and can rotate along the middle clapboard 13, the front end of the bracket is provided with a third adjusting component tip part 61, and by adjusting the distance between the third adjusting component tip part 61 and the bracket 33, when the diameter of the pecan to be hulled on the bracket 33 is larger than the processing range of the huller, the pecans to be hulled cannot pass through the cavity formed by the tip 61 of the third adjusting assembly and the supporting block 33, slide down on the first blanking tray 11 along the outer side of the tip 61 of the third adjusting assembly, return to the lower part of the hopper assembly 1, the pecans within the diameter of the processing range can pass through the cavity formed by the tip part 61 of the third adjusting assembly and the support block 33 and then are conveyed upwards continuously; the fourth adjusting component 7 is arranged on the hopper component 1 and is used for queuing and shaping the pecans on the transmission component 3, the fourth adjusting assembly 7 comprises an adjusting fixed block 71, an adjusting rotating plate 72 and an adjusting screw rod 73, the adjusting fixed block 71 is welded on the middle partition plate 13, the adjusting rotating plate 72 is fixed on the adjusting fixed block 71 through bolts so as to be capable of rotating along the adjusting fixed block 71, the adjusting screw rod 73 penetrates through the transmission chain 31 and the middle partition plate 13 and is finally in threaded connection with the adjusting rotating plate 72, when the adjusting screw rod 73 is rotated, the adjustment rotating plate 72 can be rotated so that the adjustment rotating plate tip 721 is inserted into the tray notch 313, due to the effect of adjusting the rotating plate tip portion 721, the position of the pecan to be unshelled on the support block 33 can be tightly attached to the rotating plate tip portion 721, so that a relatively tidy queue is formed, and the stability of subsequent processes is facilitated.

In the working of the embodiment, pecans with unlimited number are put into the hopper assembly 1, because the periphery of the hopper assembly 1 is in an inclined plane structure, the pecans roll downwards along the inclined planes of the first blanking disc 11 and the second blanking disc 12 on the hopper assembly 1, the pecans at the bottommost part reach the bottom of the hopper assembly 1 and fall on the support block 33 at the bottom of the transmission assembly 3, the quantity of the pecans to be unshelled, which pass through the first blanking disc 11 from the first adjustment assembly 4 to the first blanking disc 11 from the second blanking disc 12, can be adjusted by adjusting the size of the notch of the first adjustment assembly 4 on the middle partition plate 13, at the moment, the feeding device is started, the motor 22 rotates to drive the power driving sprocket 23 to rotate, then the power chain 24 and the power driven sprocket 25 are used to reduce the speed of the motor 22 to drive the main shaft 29 to rotate, the main shaft 29 drives the driving sprocket 27 to rotate, thereby driving the transmission chain 31 and the power driven sprocket 32 to rotate, finally, the support block 33 on the driving chain 31 is driven to drive the pecans to be hulled to be continuously conveyed upwards, when the pecans to be hulled are conveyed upwards, the distance between the tip part 51 of the second adjusting component and the support block 33 is adjusted, only one pecan to be hulled can pass through a cavity formed by the tip part 51 of the second adjusting component and the support block 33 and then is continuously conveyed upwards, the distance between the tip part 61 of the third adjusting component and the support block 33 is adjusted, the pecan within the diameter of a processing range can pass through the cavity formed by the tip part 61 of the third adjusting component and the support block 33 and then is continuously conveyed upwards, then the pecan in the driving component 3 is queued and shaped by the fourth adjusting component 7, the pecan meeting hulling conditions is conveyed to the top of the driving component 3 and then slides to the next procedure, when the pecan needs to be added to the feeding device by the feeding device, the feeding device does not need to be stopped, and the pecans are directly placed into the feeding device.

The loading device of the pecan huller in the specific embodiment can enable disordered pecans to orderly fall onto the support block in the hopper assembly through the inclined surface rolling, so as to form a queue; the size of the gap between the first adjusting assembly and the middle clapboard is adjusted to form a closed gap or gaps with different sizes, so that the number of pecans to be unshelled, which pass from the second blanking disc to the first blanking disc from the first adjusting assembly, can be controlled, and the actual production needs are facilitated; adjusting the distance between the tip of the second adjusting assembly and the support block to ensure that only one pecan to be hulled passes through a cavity formed by the tip of the second adjusting assembly and the support block and then is conveyed upwards continuously; the distance between the tip of the third adjusting component and the support block is adjusted, so that the pecans within the diameter of the processing range can pass through a cavity formed by the tip of the third adjusting component and the support block and then are conveyed upwards continuously; the fourth adjusting assembly can queue and shape the pecans of the transmission assembly, and the pecans meeting the shelling conditions are conveyed to the top of the transmission assembly and then slide to the next working procedure; the power chain is controlled by the driver to control the stepping motor or the servo motor, so that the motion precision is high and the speed is adjustable.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a pecan peel machine loading attachment which characterized in that: it contains hopper subassembly (1), power component (2), drive assembly (3), first adjustment subassembly (4), second adjustment subassembly (5), third adjustment subassembly (6), fourth adjustment subassembly (7), power component (2) are installed in the below of hopper subassembly (1), power component (2) are connected with drive assembly (3), first adjustment subassembly (4) set up on hopper subassembly (1), second adjustment subassembly (5) are installed on drive assembly (3), third adjustment subassembly (6) are installed on drive assembly (3), fourth adjustment subassembly (7) are installed on hopper subassembly (1).

2. The pecan sheller feeding device according to claim 1, wherein: hopper subassembly (1) including first charging tray (11), second charging tray (12) and well intermediate bottom board (13), intermediate bottom board (13) erect in the centre of first charging tray (11) and second charging tray (12), be provided with first adjustment subassembly installation position (131) on well intermediate bottom board (13), second adjustment subassembly installation position (132) and third adjustment subassembly installation position (133), install first adjustment subassembly (4) on first adjustment subassembly installation position (131), install second adjustment subassembly (5) on second adjustment subassembly installation position (132), install third adjustment subassembly (6) on third adjustment subassembly installation position (133).

3. The pecan sheller feeding device according to claim 1, wherein: the power assembly (2) comprises a power assembly base (21), a motor (22), a power driving chain wheel (23), a power chain (24), a power driven chain wheel (25), a connecting disc (26), a transmission driving chain wheel (27), a chain wheel connecting disc (28), a main shaft (29) and a bearing seat assembly (210), wherein the power assembly base (21) is arranged below the hopper assembly (1), the power driving chain wheel (23) is connected with an output shaft of the motor (22) through a key, one end of the power chain (24) is connected with the power driving chain wheel (23), the other end of the power chain (24) is connected with the power driven chain wheel (25), the power driven chain wheel (25) is fixed on the connecting disc (26) through a bolt, the connecting disc (26) is connected with the main shaft (29) through a key, two ends of the main shaft (29) are sleeved on a bearing of the bearing seat assembly (210), the driving drive sprocket (27) is fixed on the connecting disc (26) through a sprocket connecting disc (28) by bolts.

4. The pecan sheller feeding device according to claim 1, wherein: the transmission assembly (3) comprises a transmission chain (31), a transmission driven sprocket (32) and a supporting block (33), wherein the transmission chain (31) is in a closed ring shape, one end of the transmission chain (31) is linked with the transmission driving sprocket (27), the other end of the transmission chain (31) is linked with the transmission driven sprocket (32) to form a transmission assembly of the sprocket chain, the supporting block (33) is fixedly assembled on a chain link of the transmission chain (31), the transmission chain (31) comprises a first cambered surface (311), a second cambered surface (312) and a supporting block notch (313), the first cambered surface (311) and the second cambered surface (312) are assembled after the supporting block (33) and the transmission chain (31), the first cambered surface (311) and the second cambered surface (312) form an inwards concave groove, the support block notch (313) is a linear notch, and the adjusting block of the fourth adjusting component (7) is embedded into the support block notch (313).

5. The pecan sheller feeding device according to claim 1, wherein: the first adjusting component (4) is of a plate-shaped structure and is arranged on the middle partition plate (13).

6. The pecan sheller feeding device according to claim 1, wherein: the second adjusting component (5) is in a folded plate shape and is arranged on the middle partition plate (13) through a bolt, and the front end of the second adjusting component is provided with a second adjusting component tip part (51).

7. The pecan sheller feeding device according to claim 1, wherein: the third adjusting component (6) is in a folded plate shape and is arranged on the middle partition plate (13) through a bolt, and the front end of the third adjusting component is provided with a third adjusting component tip part (61).

8. The pecan sheller feeding device according to claim 1, wherein: the fourth adjusting assembly (7) comprises an adjusting fixing block (71), an adjusting rotating plate (72) and an adjusting screw rod (73), the adjusting fixing block (71) is welded on the middle partition plate (13), the adjusting rotating plate (72) is fixed on the adjusting fixing block (71) through a bolt, and the adjusting screw rod (73) penetrates through the transmission chain (31) and the middle partition plate (13) and is in threaded connection with the adjusting rotating plate (72).