CN113678857A - A nut spills granulation machine for edible processing - Google Patents

Abstract

The invention relates to the technical field of edible processing particle scattering equipment, in particular to a nut particle scattering machine for edible processing, which comprises a support frame, wherein the upper surface of the support frame is fixedly connected with a horizontal plate, one side of the horizontal plate, which is far away from the support frame, is fixedly connected with a protective box, the upper surface of the protective box is fixedly connected with a storage box, the interior of the storage box is fixedly connected with a discharge funnel, the interior of the protective box is inserted with a driving rotating shaft, the exterior of the driving rotating shaft is sleeved with a sector gear, the outer surface of the sector gear is engaged and connected with a quantity control assembly, the vibration plate vibrates and feeds nut particles in the storage box through transmission between the gears, the phenomenon of blockage is avoided, and after the sector gear is separated from a driven gear, the shielding plate is restored to the original position to shield the discharge funnel, so that the purpose of quantitative feeding is realized, the adding amount is the same each time, thus achieving the effect of quantitative material spreading.

Description

A nut spills granulation machine for edible processing

Technical Field

The invention relates to the technical field of edible processing granule scattering equipment, in particular to a nut granule scattering machine for edible processing.

Background

Food processing, which refers to the processing activities of grain grinding, vegetables, fruits, nuts and other food products directly taking agricultural, forestry, animal husbandry and fishery products as raw materials, is a type of broad agricultural product processing industry, and refers to nut processing, wherein nut particles are scattered on the food to increase the attractiveness and the mouthfeel of the food.

Can spill some nut granules on food in traditional food course of working, spill the granule to a small amount of food and can adopt artificial mode to operate, spill granule equipment to batch production's adoption and produce, spill the in-process of granule equipment on food at present, spill the nut granule of silo on food through the discharge gate, the granule is sprinkled inhomogeneous, and there is the phenomenon of spilling partially, cause the waste of nut granule, influence the pleasing to the eye of food simultaneously, in addition, there is serious problem in the aspect of the control ejection of compact in the equipment, what of the ejection of compact can't get effectual control.

In view of the above-mentioned drawbacks, the present application proposes a solution.

Disclosure of Invention

The invention aims to provide a nut granule scattering machine for edible processing, which is used for solving the problems of uneven particle scattering, partial scattering and quantitative discharging of the existing equipment through a correction assembly, a quantitative assembly and a screening assembly, achieves the effects of accurately positioning a cake blank frame, quantitatively blanking and uniformly scattering the materials, enables the structures to be mutually linked, can well solve the existing problems, and can improve the working efficiency of the equipment.

The purpose of the invention can be realized by the following technical scheme: a nut scattering granulator for edible processing comprises a support frame, wherein a horizontal plate is fixedly connected to the upper surface of the support frame, a protective box is fixedly connected to one side, away from the support frame, of the horizontal plate, a storage box is fixedly connected to the upper surface of the protective box, a discharge funnel is fixedly connected to the interior of the storage box, a driving rotating shaft is inserted into the interior of the protective box, a sector gear is sleeved on the exterior of the driving rotating shaft, the outer surface of the sector gear is meshed with a quantity control assembly, a cylindrical pin is fixedly connected to the front surface of the sector gear, a T-shaped rod is sleeved on the exterior of the cylindrical pin, two ends of the T-shaped rod are movably connected with screening assemblies, a correction assembly is arranged in the protective box, and the correction assembly and the screening assemblies are matched with each other;

two be provided with the conveyer belt between the horizontal plate, one side fixedly connected with driving motor of protective housing, and driving motor and drive pivot mutually support, the location slide has been cup jointed to the outside of T shape pole, and fixes a position the slide and be connected with the protective housing, the inside of protective housing is rotated and is connected with the auxiliary wheel, and the auxiliary wheel matches each other with correction subassembly.

Preferably, accuse volume subassembly includes driven gear, driven gear's inside is pegged graft and is had the location axle, driven gear's front end outside has cup jointed the shielding plate, and shielding plate and ejection of compact funnel mutually support, driven gear's surface meshing is connected with stirring gear, the vibration board has been cup jointed to stirring gear's front surface outside, and the vibration board is located the inside of storage box.

Preferably, accuse volume subassembly still includes interior sleeve pipe, rectangular block, reset spring, holding ring and fixed pin, interior sheathed tube surface fixed connection has the rectangular block, the holding ring has been cup jointed to the outside of location axle, the front surface fixed connection of holding ring has the fixed pin, and fixed pin and guard box mutually support, the front surface fixed connection of holding ring has reset spring, and reset spring's the other end and rectangular block fixed connection.

Preferably, the screening component comprises a linkage pull rod, one end of the linkage pull rod, which is far away from the T-shaped rod, is movably connected with a vertical rod, one end of the vertical rod, which is far away from the linkage pull rod, is fixedly connected with a screening frame, a guide rod is inserted into the vertical rod, one side of the vertical rod is fixedly connected with a buffer spring, the guide rod is located inside the buffer spring, one end of the guide rod is fixedly connected with a limiting frame, the limiting frame is fixedly connected with a protection box, the two limiting frames are fixedly connected with positioning leakage plates, and the positioning leakage plates are inserted into the positioning leakage plates.

Preferably, the sieve mesh is arranged in the sieving frame, the sieve mesh is positioned right above the directional leaking pipe, the sieve mesh is fixedly connected with a sieve net in the sieve mesh, the directional leaking pipe is positioned right above the conveying belt, one end, far away from the vertical rod, of the buffer spring is fixedly connected with the limiting frame, and the moving distance of the vertical rod is smaller than the length of the guide rod.

Preferably, the correction subassembly includes the hollow tube, the inside fixedly connected with extension spring of hollow tube, extension spring's other end fixedly connected with carriage release lever, and the one end of carriage release lever is located the inside of hollow tube, the equal fixedly connected with fixed block in both sides of carriage release lever, the inside swing joint of fixed block has correction pole, the one end internal rotation that the carriage release lever was kept away from to correction pole is connected with the correction wheel, two fixedly connected with spacing spring between the correction pole, two fixedly connected with accepts the pole between the carriage release lever, the last fixed surface of accepting the pole is connected with the haulage rope, and haulage rope and auxiliary wheel are mutually supported.

Preferably, the haulage rope is kept away from the one end and the vertical pole fixed connection of carriage release lever, correct the wheel and be located the conveyer belt directly over, and correct the wheel and distribute in the both sides of conveyer belt, discharge hopper's lower extreme is located the top of screening frame, the drive pivot runs through in the inside and the driving motor fixed connection of protective housing.

Preferably, the front surface fixedly connected with of location slide and the limiting plate that T shape pole matches each other, the spout that matches each other with the cylindric lock is seted up to the inside of T shape pole, one side of horizontal plate is provided with transmission motor, and transmission motor and conveyer belt mutually support.

Preferably, the use method of the nut dusting and granulating machine for edible processing comprises the following steps:

the first step, transmission: opening an external transmission motor to enable the transmission motor to drive a conveyor belt to work, and conveying the cake blank frame above the conveyor belt into the protective box;

second step, positioning: when the bottle blank is conveyed to a material scattering position, the conveying motor stops working, the driving motor is controlled to drive the driving rotating shaft to rotate, the driving rotating shaft drives the external sector gear to synchronously rotate, the driving rotating shaft drives the screening component to reciprocate left and right through the cylindrical pin, when the screening component moves rightwards, the screening component pulls the left traction rope, the right traction rope is loosened, the left traction rope pulls the moving rod to move, the moving rod on the right side is influenced by the deformation of the tension spring to move, the correcting wheels on two sides of the bottle blank frame move oppositely, the cake blank frame in the middle is pushed, the deviated cake blank frame is corrected, and the cake blank frame corresponds to the directional leakage pipes above one by one;

third step, quantification: through transmission among the gears, when the sector gear drives the driven gear above to rotate, the driven gear drives the external shielding plate to rotate, meanwhile, the rectangular block above the sleeve outside the driven gear stretches the reset spring, the reset spring is elastically deformed, the shielding plate deflects at the internal angle of the discharging funnel, the material inside the discharging funnel flows onto the screening frame, after the sector gear and the driven gear are separated, the influence of the restoring force of the reset spring is received, the sleeve drives the driven gear to rotate, then the shielding plate is restored to the original position, the discharging funnel is shielded, and therefore the quantitative feeding purpose is achieved, and the adding amount at each time is the same;

step four, uniform screening: when the driving rotating shaft drives the linkage pull rod to reciprocate left and right, the linkage pull rod drives the vertical rod at the lower end to slide outside the guide rod, the screening frame at the lower end of the vertical rod is shaken at the same time, materials on the screening frame are uniformly flattened, and meanwhile, the materials drop from the inside of the screen to the inside of the directional drain pipe below the screening frame, so that the materials are uniformly scattered on a cake blank;

the fifth step: starting: and after the material scattering is finished, the driving motor is turned off, and the transmission motor is played again to drive the conveyor belt to move so as to process the next biscuit frame.

The invention has the beneficial effects that:

(1) the problem of the location skew that exists is used for solving through the correction subassembly that sets up, the correction wheel of bottle base frame both sides moves in opposite directions, promotes the cake base frame that is located the centre, corrects the cake base frame of skew, and the central point of cake base frame and the central point of directional bushing are on a vertical line simultaneously to the realization carries out the effect of accurate location to cake base frame, so reaches the beneficial effect of improve equipment processing precision, has solved the problem of the skew in the cake base frame transmission course of existence.

(2) Through the transmission between the gear, the vibrations board shakes the pan feeding to the inside nut granule of storage box, avoid appearing the phenomenon of jam, after sector gear and driven gear separately, receive the influence that reset spring restored power, make the shielding plate resume and shelter from ejection of compact funnel on original position, thereby realize the purpose of ration pan feeding, the volume that makes at every turn add is the same, so reach the effect that the ration spilled the material, the problem that the volume of spilling the material is different that exists is solved simultaneously, avoid extravagant.

(3) Solve through the screening subassembly that sets up and spill the inhomogeneous problem of material, the linkage pull rod drives the screening frame of vertical pole lower extreme and rocks, evenly shakeouts nut granule on the screening frame, inside the directional hourglass pipe of the inside drippage of screen cloth below of nut granule simultaneously, make nut granule evenly spill on the cake base, avoid appearing nut granule pile and spilling partial phenomenon, improve pleasing to the eye and the taste of food, so reach the effect of evenly spilling the material, solve the inhomogeneous problem of spilling the material that exists.

Drawings

The invention will be further described with reference to the accompanying drawings;

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is a side cross-sectional view of the structure of the protective case of the present invention;

FIG. 3 is a schematic view of a sector gear configuration of the present invention;

FIG. 4 is a side view of the driven gear of the present invention;

FIG. 5 is a schematic illustration of the construction of screen assemblies of the present invention;

FIG. 6 is a top view of the construction of the screening frame of the present invention;

FIG. 7 is a perspective view of the positioning bushing of the present invention;

figure 8 is a top plan view of the orthotic assembly of the present invention;

fig. 9 is a schematic view of the structure of the travel bar of the present invention.

In the figure: 1. a support frame; 2. a horizontal plate; 3. a conveyor belt; 4. a protective box; 5. a storage box; 6. a drive motor; 7. a discharging hopper; 8. driving the rotating shaft; 9. a sector gear; 10. a quantity control component; 101. a driven gear; 102. positioning the shaft; 103. a stirring gear; 104. a vibration plate; 105. an inner sleeve; 106. a rectangular block; 107. a return spring; 108. a positioning ring; 109. a fixing pin; 100. a shielding plate; 11. a cylindrical pin; 12. a T-shaped rod; 13. positioning the sliding plate; 14. a screen assembly; 141. a linkage pull rod; 142. a vertical rod; 143. a screening rack; 01. screening holes; 02. screening a screen; 144. a buffer spring; 145. a guide bar; 146. a limiting frame; 147. positioning a bushing plate; 148. directional leak pipes; 15. a corrective component; 151. a hollow tube; 152. an extension spring; 153. a travel bar; 154. a fixed block; 155. a leveling rod; 156. a correction wheel; 157. a limit spring; 158. a bearing rod; 159. a hauling rope; 16. an auxiliary wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

referring to fig. 1-4, the present invention is a nut scattering granulator for food processing, including a support frame 1, a horizontal plate 2 is fixedly connected to an upper surface of the support frame 1, a transmission motor is installed on one side of the horizontal plate 2, normal movement of the transmission belt 3 is controlled by controlling the transmission motor, a protection box 4 is fixedly connected to one side of the horizontal plate 2 away from the support frame 1, the transmission belt 3 is disposed between the two horizontal plates 2, during processing of a cake blank, the cake blank holder is placed above the transmission belt 3 for transmission, an external transmission motor is turned on, the transmission motor drives the transmission belt 3 to work, the transmission belt 3 transmits the above cake blank holder to the inside of the protection box 4, a storage box 5 is fixedly connected to the upper surface of the protection box 4, nut particles are added inside the storage box 5, so as to facilitate nut particle scattering of the cake blank on the cake blank holder, nut particles flow into the equipment along a discharge funnel 7 and are finally scattered on a cake blank, a driving rotating shaft 8 is inserted into the protection box 4, a sector gear 9 is sleeved outside the driving rotating shaft 8, and the sector gear 9 plays a role in transmission;

the correcting component 15 is arranged in the protective box 4, when the cake blank frame moves to a material scattering position, the transmission motor stops working, the driving motor 6 is controlled to drive the driving rotating shaft 8 to rotate, the driving rotating shaft 8 drives the external sector gear 9 to synchronously rotate, the sector gear 9 drives the external cylindrical pin 11 to circumferentially rotate, the cylindrical pin 11 drives the T-shaped rod 12 to slide in the limiting plate on the positioning sliding plate 13, the T-shaped rod 12 drives the left traction rope 159 to move by pulling the linkage pull rod 141, when the left traction rope 159 is pulled, the right vertical rod 142 loosens the traction rope 159, the traction rope 159 slides outside the auxiliary wheel 16, the other end of the traction rope 159 is fixedly provided with the bearing rod 158, and the two ends of the bearing rod 158 are fixedly connected with the movable rods 153;

when the left pulling rope 159 is pulled, one end of the left moving rod 153 is extended outwards in the hollow tube 151, the extension spring 152 is elastically deformed, the right pulling rope 159 is influenced by the extension spring 152 which is compressed, the right moving rod 153 and the left moving rod 153 are moved oppositely, fixed blocks 154 are fixedly connected to both sides of the moving rod 153, a correction rod 155 is movably connected to the inside of the fixed blocks 154, a correction wheel 156 is rotatably connected to one end of the correction rod 155 far away from the moving rod 153, the distance from the correction wheel 156 to the inner wall of the protective box 4 is the same at both sides, the initial state of the extension spring 152 is different, a limit 157 spring is fixedly connected between the two correction rods 155, when the moving rod 153 moves, the moving rod 153 drives the correction rod 155 to move along with the correction rod 155, the correction wheel 156 on the correction rod 155 pushes the deflected biscuit frame in the moving process, the cake blank frame is corrected, so that the cake blank frame corresponds to the directional leakage pipes 148 above one to one, and meanwhile, the central point of the cake blank frame and the central point of the directional leakage pipes 148 are on a vertical line, so that the effect of accurately positioning the cake blank frame is realized, the beneficial effect of improving the processing precision of equipment is achieved, and the problem of offset in the process of conveying the cake blank frame is solved.

Example 2:

as shown in fig. 5-7, the outer surface of the sector gear 9 is engaged with the quantity control assembly 10, the quantity control assembly 10 includes a driven gear 101, the sector gear 9 drives the outside quantity control assembly 10 to rotate through transmission between gears, after positioning is completed, the sector gear 9 is engaged with the driven gear 101 for transmission, the driven gear 101 rotates outside the positioning shaft 102, in the process of driving the driven gear 101 to rotate by the sector gear 9, the driven gear 101 drives the shielding plate 100 outside the driven gear 101 to rotate synchronously, so that the shielding plate 100 deflects at the internal angle of the discharging funnel 7, at this time, nut particles inside the discharging funnel 7 flow down from the discharging port, meanwhile, the driven gear 101 drives the stirring gear 103 above the stirring gear 101 to rotate along with the transmission between the gears, the stirring gear 103 drives the external vibration plate 104 to rotate inside the storage box 5, the vibrating plate 104 is driven by a vibrating pump to realize vibration, so that nut particles are vibrated and fed while rotating, and the phenomenon of blockage is avoided;

the outer surface of the inner sleeve 105 is fixedly connected with a rectangular block 106, the positioning shaft 102 is sleeved with a positioning ring 108, the front surface of the positioning ring 108 is fixedly connected with a fixing pin 109, the fixing pin 109 is matched with the protection box 4, the front surface of the positioning ring 108 is fixedly connected with a return spring 107, the other end of the return spring 107 is fixedly connected with the rectangular block 106, in addition, the inner sleeve 105 integrally installed at the rear end of the driven gear 101 drives the rectangular block 106 on the outer surface to move in the rotating process, the return spring 107 on the rectangular block 106 is elastically deformed, the driven gear 101 is convenient to reset after the sector gear 9 is separated from the driven gear 101, the positioning shaft 102 is sleeved with the positioning ring 108, the front surface of the positioning ring 108 is fixedly connected with the fixing pin 109, the other end of the fixing pin 109 is fixedly connected with the inner wall of the protection box 4, after the sector gear 9 is separated from the driven gear 101, receive the influence that reset spring 107 restored power, make interior sleeve pipe 105 drive driven gear 101 and then rotate, make shielding plate 100 resume on original position then, shelter from ejection of compact funnel 7 to realize the purpose of ration pan feeding, make the volume of adding at every turn the same, so reach the effect that the ration spilled the material, solve the problem that the volume of spilling the material that exists is different simultaneously, avoid extravagant.

Example 3:

as shown in fig. 8-9, a sector gear 9 is sleeved outside a driving rotating shaft 8, a quantity control assembly 10 is engaged and connected to the outer surface of the sector gear 9, a cylindrical pin 11 is fixedly connected to the front surface of the sector gear 9, a T-shaped rod 12 is sleeved outside the cylindrical pin 11, screening assemblies 14 are movably connected to both ends of the T-shaped rod 12, each screening assembly 14 includes a linkage pull rod 141, when the linkage pull rod 141 is pulled by the T-shaped rod 12, the linkage pull rod 141 drives the vertical rod 142 to move rightwards first, and then drives the vertical rod 142 to move leftwards, so that the vertical rod 142 slides outside the guide rod 145, the moving distance of the vertical rod 142 is less than the length of the guide rod 145, thereby avoiding falling off, and simultaneously, the buffer spring 144 is deformed during movement, the guide rod 145 is positioned by the limiting frame 146, so that the vertical rod 142 drives the screening frame 143 to perform left-right reciprocating movement, sieve mesh 01 has been seted up to the inside of screening frame 143, and sieve mesh 01 is located directional small opening 148 directly over, sieve mesh 01's inside fixedly connected with screen cloth 02, the inside nut granule that drops of ejection of compact funnel 7 falls on the upper surface of screening frame 143, rock the nut granule at the in-process that screening frame 143 moved, make the even screen cloth 02 from screening frame 143 internally mounted of nut granule drop from top to bottom, the nut granule of whereabouts is along the inside directional small opening 148 that gets of location bushing 147 evenly spills on the cake base, avoid appearing nut granule pile and spilling inclined to one side phenomenon, improve the pleasing to the eye and the taste of food, so reach the effect of evenly spilling the material, the inhomogeneous problem of spilling the material that the solution exists.

The working principle of the invention is as follows: when the material is conveyed to a material scattering position, the conveying motor stops working, the driving motor 6 is controlled to drive the driving rotating shaft 8 to rotate, the driving rotating shaft 8 drives the external sector gear 9 to rotate synchronously, the sector gear 9 drives the external cylindrical pin 11 to rotate circularly, the cylindrical pin 11 drives the T-shaped rod 12 to slide in the limiting plate on the positioning sliding plate 13, the T-shaped rod 12 drives the left traction rope 159 to move by pulling the linkage pull rod 141, the right traction rope 159 is loosened, the left traction rope 159 pulls the movable rod 153 to move, the movable rod 153 on the right side is influenced by the deformation of the tension spring 152 to move, the correcting wheels 156 on the two sides of the bottle blank frame move oppositely, the cake blank frame in the middle is pushed, the deviated cake blank frame is corrected, and meanwhile, the central point of the cake blank frame and the central point of the directional leakage pipe 148 are on a vertical line, therefore, the effect of accurately positioning the cake blank frame is achieved, the beneficial effect of improving the machining precision of equipment is achieved, and the problem that the cake blank frame deviates in the transmission process is solved.

Through the transmission between the gears, when the sector gear 9 drives the driven gear 101 above to rotate, the driven gear 101 drives the external baffle plate 100 to rotate, the baffle plate 100 deflects at the internal angle of the discharging hopper 7, the material in the discharging hopper 7 flows onto the screening frame 143, meanwhile, the driven gear 101 drives the stirring gear 103 above to rotate through the transmission between the gears, so that the vibrating plate 104 vibrates and feeds the nut particles in the storage box 5, the blocking phenomenon is avoided, after the sector gear 9 and the driven gear 101 are separated, the influence of the restoring force of the reset spring 107 is received, the baffle plate 100 is restored to the original position to shield the discharging hopper 7, thereby realizing the purpose of quantitative feeding, the adding amount is the same at each time, the effect of quantitative material spreading is achieved, and the problem of different material amounts existing is solved at the same time, avoid extravagant, when drive pivot 8 drives linkage pull rod 141 and carries out left and right reciprocating motion, make the screening frame 143 of vertical pole 142 lower extreme rock, evenly shakeout the nut granule on screening frame 143, inside the directional hourglass pipe 148 of the inside drippage below of nut granule from screen cloth 02 simultaneously, make the nut granule evenly spill on the cake base, avoid appearing nut granule pile and spilling partial phenomenon, improve pleasing to the eye and the taste of food, so reach the effect of evenly spilling the material, solve the inhomogeneous problem of spilling the material that exists.

In the process of equipment work, fix a position accurate location to the cake blank frame earlier, carry out quantitative unloading after that, evenly spill the material after, make the mutual linkage between the structure, the problem that solution that can be fine exists can improve equipment's work efficiency again.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (9)

1. The nut scattering and granulating machine for edible processing comprises a support frame (1), wherein a horizontal plate (2) is fixedly connected to the upper surface of the support frame (1), a protective box (4) is fixedly connected to one side, away from the support frame (1), of the horizontal plate (2), a storage box (5) is fixedly connected to the upper surface of the protective box (4), and is characterized in that a discharge hopper (7) is fixedly connected to the inside of the storage box (5), a driving rotating shaft (8) is inserted into the protective box (4), a sector gear (9) is sleeved outside the driving rotating shaft (8), a quantity control assembly (10) is connected to the outer surface of the sector gear (9) in a meshed manner, a cylindrical pin (11) is fixedly connected to the front surface of the sector gear (9), a T-shaped rod (12) is sleeved outside the cylindrical pin (11), and screening assemblies (14) are movably connected to two ends of the T-shaped rod (12), a correcting component (15) is arranged inside the protective box (4), and the correcting component (15) is matched with the screening component (14);

two be provided with conveyer belt (3) between horizontal plate (2), one side fixedly connected with driving motor (6) of protective housing (4), and driving motor (6) and drive pivot (8) mutually support, location slide (13) have been cup jointed to the outside of T shape pole (12), and location slide (13) are connected with protective housing (4), the internal rotation of protective housing (4) is connected with auxiliary wheel (16), and auxiliary wheel (16) and correction subassembly (15) match each other.

2. The nut scattering and granulating machine for edible processing as claimed in claim 1, wherein the quantity control assembly (10) comprises a driven gear (101), a positioning shaft (102) is inserted into the driven gear (101), a shielding plate (100) is sleeved outside the front end of the driven gear (101), the shielding plate (100) is matched with the discharging hopper (7), a stirring gear (103) is engaged and connected with the outer surface of the driven gear (101), a vibration plate (104) is sleeved outside the front surface of the stirring gear (103), and the vibration plate (104) is located inside the storage box (5).

3. The nut scattering and granulating machine for edible processing according to claim 2, wherein the quantity control assembly (10) further comprises an inner sleeve (105), a rectangular block (106), a return spring (107), a positioning ring (108) and a fixing pin (109), the rectangular block (106) is fixedly connected to the outer surface of the inner sleeve (105), the positioning ring (108) is sleeved outside the positioning shaft (102), the fixing pin (109) is fixedly connected to the front surface of the positioning ring (108), the fixing pin (109) is matched with the protection box (4), the return spring (107) is fixedly connected to the front surface of the positioning ring (108), and the other end of the return spring (107) is fixedly connected with the rectangular block (106).

4. The nut dispensing and pelletizing machine for food processing of claim 1, the screening assembly (14) comprises a linkage pull rod (141), one end of the linkage pull rod (141) far away from the T-shaped rod (12) is movably connected with a vertical rod (142), one end of the vertical rod (142) far away from the linkage pull rod (141) is fixedly connected with a screening frame (143), a guide rod (145) is inserted into the vertical rod (142), a buffer spring (144) is fixedly connected with one side of the vertical rod (142), and the guide rod (145) is positioned inside the buffer spring (144), one end of the guide rod (145) is fixedly connected with a limit frame (146), and the limiting frames (146) are fixedly connected with the protective box (4), a positioning bushing plate (147) is fixedly connected between the two limiting frames (146), and a directional bushing (148) is inserted into the positioning bushing plate (147).

5. The nut scattering and granulating machine for food processing as claimed in claim 4, wherein the screening holes (01) are formed in the screening rack (143), the screening holes (01) are located right above the directional leaking pipes (148), the screening net (02) is fixedly connected to the inside of the screening holes (01), the directional leaking pipes (148) are located right above the conveyor belt (3), one end of the buffer spring (144) far away from the vertical rod (142) is fixedly connected with the limiting rack (146), and the moving distance of the vertical rod (142) is smaller than the length of the guide rod (145).

6. The nut dusting granulator for food processing according to claim 1, characterized in that the straightening assembly (15) comprises a hollow tube (151), an extension spring (152) is fixedly connected to the inside of the hollow tube (151), a movable rod (153) is fixedly connected to the other end of the extension spring (152), one end of the movable rod (153) is located inside the hollow tube (151), fixed blocks (154) are fixedly connected to both sides of the movable rod (153), a straightening rod (155) is movably connected to the inside of the fixed blocks (154), a straightening wheel (156) is rotatably connected to the end of the straightening rod (155) far away from the movable rod (153), a limit spring (157) is fixedly connected between two straightening rods (155), a receiving rod (158) is fixedly connected between two movable rods (153), and a hauling rope (159) is fixedly connected to the upper surface of the receiving rod (158), and the traction rope (159) is matched with the auxiliary wheel (16).

7. The nut dusting and granulating machine for food processing of claim 6, wherein the end of the pulling rope (159) far away from the moving rod (153) is fixedly connected with the vertical rod (142), the correcting wheel (156) is positioned right above the conveyor belt (3), the correcting wheel (156) is distributed on two sides of the conveyor belt (3), the lower end of the discharging hopper (7) is positioned above the sieving frame (143), and the driving rotating shaft (8) penetrates through the inside of the protective box (4) and is fixedly connected with the driving motor (6).

8. The nut scattering and granulating machine for edible processing according to claim 1, wherein a limiting plate matched with the T-shaped rod (12) is fixedly connected to the front surface of the positioning sliding plate (13), a sliding groove matched with the cylindrical pin (11) is formed in the T-shaped rod (12), a transmission motor is arranged on one side of the horizontal plate (2), and the transmission motor is matched with the conveyor belt (3).

9. The nut dusting granulator for food processing of claim 1, wherein the method of using the nut dusting granulator for food processing comprises the steps of:

the first step, transmission: an external transmission motor is started to drive a transmission belt (3) to work, and the transmission belt (3) transmits the cake blank frame above to the inside of a protective box (4);

second step, positioning: when the material is conveyed to a material scattering position, the conveying motor stops working, the driving motor (6) is controlled to drive the driving rotating shaft (8) to rotate, the driving rotating shaft (8) drives the external sector gear (9) to synchronously rotate, the driving rotating shaft (8) drives the screening component (14) to do left-right reciprocating motion through the cylindrical pin (11), when the screen assembly (14) moves rightwards, the screen assembly (14) pulls the left traction rope (159), the right traction rope (159) is loosened, the left traction rope (159) pulls the movable rod (153) to move, the movable rod (153) on the right moves under the deformation influence of the tension spring (152), the correction wheels (156) on the two sides of the bottle blank rack move oppositely to push the cake blank rack in the middle, correcting the deviated biscuit frames to enable the biscuit frames to correspond to the directional drain pipes (148) above one by one;

third step, quantification: through transmission among the gears, when the sector gear (9) drives the driven gear (101) above to rotate, the driven gear (101) drives the external baffle plate (100) to rotate, meanwhile, the rectangular block (106) above the external inner sleeve (105) of the driven gear (101) stretches the reset spring (107), so that the reset spring (107) is elastically deformed, the baffle plate (100) deflects at the internal angle of the discharging hopper (7), the material in the discharging hopper (7) flows into the screening frame (143), after the sector gear (9) and the driven gear (101) are separated, the influence of the restoring force of the reset spring (107) is received, the inner sleeve (105) drives the driven gear (101) to rotate, then the baffle plate (100) is restored to the original position, the discharging hopper (7) is shielded, and the purpose of quantitative feeding is realized, the amount of each addition is the same;

step four, uniform screening: when the driving rotating shaft (8) drives the linkage pull rod (141) to do left-right reciprocating motion, the linkage pull rod (141) drives the vertical rod (142) at the lower end to slide outside the guide rod (145), meanwhile, the screening frame (143) at the lower end of the vertical rod (142) shakes, materials on the screening frame (143) are uniformly spread, and meanwhile, the materials drop from the inside of the screen (02) to the inside of the directional drain pipe (148) below, so that the materials are uniformly scattered on a cake blank;

the fifth step: starting: after the material scattering is finished, the driving motor (6) is turned off, the transmission motor is started again to drive the conveyor belt (3) to move, and the next cake blank frame is processed.

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