CN115606824B - Even peanut wrapping machine wraps up in clothing - Google Patents

Abstract

The invention relates to the technical field of peanut wrapping machines, and discloses a peanut wrapping machine with uniform wrapping, which comprises a bottom rectangular shell and a driving motor, wherein the driving motor is arranged in the bottom rectangular shell, the axial lead of the driving motor is arranged in the bottom rectangular shell at an acute angle, and a rotary ventilation structure penetrating through the side surface structure of the bottom rectangular shell along the axial lead of the driving motor is arranged at the rotor end part of the driving motor. The peanut coating machine with uniform coating utilizes the pressure generated by high-pressure air pressure, so that peanut particles can generate pressure relative to a contact surface during rolling, the capability of attaching powder substances to the surfaces of the peanut particles is improved by utilizing the pressure, meanwhile, an annular air bag at the edge can generate an annular concave area which is expanded from the center to the periphery, and the concave area is positioned in the annular air bag, so that the friction coefficient generated between the concave area and the peanut particles is large, the rolling attachment of the peanut particles is facilitated, and the uniformity during coating is improved.

Description

Even peanut wrapping machine wraps up in clothing

Technical Field

The invention relates to the technical field of peanut coating machines, in particular to a peanut coating machine with uniform coating.

Background

The peanut coating is characterized in that a layer of powdery substances is adhered to the surfaces of peanut particles, a peanut coating machine is needed to be used when the peanuts are coated, the existing peanut coating machine mainly comprises a rotating disc capable of driving the peanut particles to rotate under the action of a driving motor and a baffle plate for blocking the rotating peanuts, after the peanut particles with adhesive oil liquid adhered to the surfaces are injected with the powdery substances, the peanut particles are continuously rolled and adhered to the powdery substances during rotation, and the baffle plate continuously concentrates the peanut particles and the powdery substances during working, so that the peanut particles can be fully contacted with each other, and meanwhile, the centrifugal force is beneficial to the pressure required by the adhesion of the powder on the surfaces of the peanut particles due to the centrifugal force generated during rotation of the particles, so that the coating is realized.

However, in actual operation, the peanut wrapping machine realizes the rolling effect of peanuts by utilizing the centrifugal force of the peanut particles during rotation, so that the peanuts at the edge and colliding with the baffle plate seriously affect the wrapping uniformity of the contact surface due to friction and collision.

Disclosure of Invention

(one) solving the technical problems

According to the peanut wrapping machine, the pressure generated by high-pressure air pressure is utilized, so that the pressure of peanut particles relative to a contact surface can be generated during rolling, the capability of attaching powder substances to the surfaces of the peanut particles is improved by utilizing the pressure, meanwhile, an annular air bag at the edge can generate an annular concave area expanding from the center to the periphery, and the concave area is positioned in the annular air bag, so that the friction coefficient generated between peanut particles is large, the rolling attachment of the peanut particles is facilitated, the uniformity of the peanut particles during wrapping is improved, and the technical problems are solved.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a uniformly wrapped peanut wrapping machine, includes that bottom rectangle shell and axial lead are the driving motor that the acute angle was installed in bottom rectangle shell inside, driving motor's rotor tip installs a rotatory ventilation structure who link up bottom rectangle shell side structure along its axial lead, bottom rectangle shell is equipped with a gas reservation chamber at the middle part periphery of rotatory ventilation structure, and rotatory ventilation structure is equipped with mechanical seal structure at two junctions that are located gas reservation chamber punishment, and bottom rectangle shell's inside is provided with the gas valve that injects gas or exhaust gas reservation intracavity portion gas to gas reservation intracavity portion, and rotatory ventilation structure's rotation end installation one can ventilate with rotatory ventilation structure, and change its side structure appearance under the ventilation state's rotation structure, sealed and detachable closing cap structure is installed to rotation structure's open end.

Through the technical scheme: the pressure generated by high-pressure air pressure can enable peanut particles to generate pressure relative to a contact surface during rolling, so that the capability of attaching powder substances to the surfaces of the peanut particles is improved by the pressure, meanwhile, the annular air bags at the edge can generate annular concave areas which are expanded from the center to the periphery, and the concave areas are positioned in the annular air bags, so that the friction coefficient generated between the peanut particles is large, rolling attachment of the peanut particles is facilitated, and uniformity during wrapping is improved.

Preferably, the rotary ventilation structure comprises a hollow rotating shaft, a rotor installation fixing and mounting groove is formed in the bottom end of the hollow rotating shaft, a hexagonal sleeve placing protruding structure is arranged at the top end of the hollow rotating shaft, a first gas flow hole for gas flow is formed in the center of the hollow rotating shaft, a gas ventilation groove for communicating the first gas flow hole is formed in the middle of the circumferential surface of the hollow rotating shaft, a rotor end structure of a driving motor is fixedly and hermetically mounted in the rotor installation fixing and mounting groove, the hexagonal sleeve placing protruding structure is fixedly and hermetically mounted in the rotating structure, the gas ventilation groove is located in a gas reserved cavity, and the hollow rotating shaft is mounted in the bottom rectangular shell through a mechanical sealing structure at mounting positions located at two ends of the gas ventilation groove.

Through the technical scheme: can play necessary rotary linkage for driving motor can drive the revolution mechanic and rotate, simultaneously, after the external air is poured into, high-pressure air can enter into the inside of revolution mechanic through gas ventilation groove and first gas flow hole, thereby plays the function of ventilation and linkage.

Preferably, the rotating structure comprises a bottom rotating plate and a top annular body, wherein an inner hexagonal installation hole communicated with the upper end surface and the lower end surface of the bottom rotating plate is formed in the center of the bottom end of the bottom rotating plate, an annular air bag is embedded in the circumferential surfaces of the bottom rotating plate and the top annular body, the inner wall of the annular air bag forms a wrapping interval, an inner concave part clamping groove is formed in the upper end surface of the top annular body, a hexagonal limit hole communicated with the wrapping interval is formed in the bottom end of the inner concave part clamping groove, a plurality of fixed limit rods are arranged on the upper surface of the bottom rotating plate at the periphery of the inner hexagonal installation hole, the top ends of the fixed limit rods extend to the inner part of the hexagonal limit hole, a middle linkage plate is arranged at the top end of the bottom rotating plate, the circumference of the middle linkage plate is fixedly connected with the side wall of the hexagonal limit hole through a plurality of transverse fixing rods, a hexagonal sleeve convex structure is arranged in the inner hexagonal installation hole, a sealing cover structure is clamped in the inner concave part clamping groove, and the annular air bag is made of rubber material with a large friction coefficient and elastic function.

Through the technical scheme: can throw into peanut granule and powder in the inside of wrapping up in the interval, after letting in high-pressure gas, this gas can make annular gasbag produce by the center to peripheral great annular concave area of extension, this concave area is because be located annular gasbag middle part, peanut granule and powder can go deep into annular concave area, when rolling, because the effect of high-pressure gas, peanut granule can produce the pressure for the contact surface to utilize this pressure to improve the ability that the powder material was attached to peanut granule surface, simultaneously, the coefficient of friction that produces between annular gasbag and the peanut granule is big, be favorable to the roll adhesion of peanut granule, thereby improve the degree of consistency of wrapping up in.

Preferably, the sealing cover structure comprises a disc-shaped sealing cover, the circumferential surface of the disc-shaped sealing cover is sleeved with a sealing ring, the lower end surface of the disc-shaped sealing cover is provided with a hexagonal limiting protruding structure protruding downwards, the center of the upper end surface of the disc-shaped sealing cover is provided with a pull ring for applying force, the disc-shaped sealing cover can be pulled out or inserted relative to the concave part clamping groove, after the disc-shaped sealing cover and the concave part clamping groove are inserted, the sealing ring can prevent gas flow, and the hexagonal limiting protruding structure can be seamlessly inserted into the hexagonal limiting hole.

Through the technical scheme: after the device is installed, the device can play a necessary sealing role to prevent the internal air pressure of the wrapping section from leaking, so that the whole gravity and the resistance of the inside of the clamping groove of the concave part are larger than the reaction force of high-pressure air to the concave part, and the stability of wrapping under high pressure is ensured.

Compared with the prior art, the invention provides a peanut coating machine with uniform coating, which has the following beneficial effects:

the peanut coating machine with uniform coating utilizes the pressure generated by high-pressure air pressure, so that peanut particles can generate pressure relative to a contact surface during rolling, the capability of attaching powder substances to the surfaces of the peanut particles is improved by utilizing the pressure, meanwhile, an annular air bag at the edge can generate an annular concave area which is expanded from the center to the periphery, and the concave area is positioned in the annular air bag, so that the friction coefficient generated between the concave area and the peanut particles is large, the rolling attachment of the peanut particles is facilitated, and the uniformity during coating is improved.

Drawings

FIG. 1 is a schematic diagram of the present invention in full section;

FIG. 2 is a perspective view of the present invention;

FIG. 3 is a perspective cross-sectional view of a rotary ventilation structure according to the present invention;

FIG. 4 is a perspective cross-sectional view of the turning structure of the present invention;

fig. 5 is a perspective view of a closure structure according to the present invention.

Wherein: 1. a bottom rectangular housing; 2. a driving motor; 3. a gas reserving cavity; 4. a gas valve; 5. a rotary ventilation structure; 51. a hollow rotating shaft; 52. the rotor is provided with a fixed mounting groove; 53. a hexagonal sleeve convex structure; 54. a first gas flow aperture; 55. a gas vent groove; 6. a rotating structure; 61. a bottom rotating plate; 62. a top annular body; 63. an inner hexagonal mounting hole; 64. an annular air bag; 65. a coating section; 66. fixing a limit rod; 67. a middle linkage plate; 68. hexagonal limiting holes; 69. a concave part clamping groove; 7. a capping structure; 71. a disc-shaped sealing cover; 72. a seal ring; 73. a hexagonal limit protrusion structure; 74. and (5) a pull ring.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-2, a peanut wrapping machine with uniform wrapping comprises a bottom rectangular shell 1 and a driving motor 2 with an axis installed in the bottom rectangular shell 1 at an acute angle, wherein a rotary ventilation structure 5 penetrating through a side structure of the bottom rectangular shell 1 along the axis of the driving motor 2 is installed at the rotor end of the driving motor 2, a gas reserving cavity 3 is arranged at the periphery of the middle part of the rotary ventilation structure 5 in the bottom rectangular shell 1, a mechanical sealing structure is installed at two junctions of the gas reserving cavity 3 in the rotary ventilation structure 5, a gas valve 4 for injecting gas into the gas reserving cavity 3 or exhausting gas in the gas reserving cavity 3 is arranged in the bottom rectangular shell 1, a rotary structure 6 capable of ventilating with the rotary ventilation structure 5 and changing the shape of the side structure in a ventilation state is installed at the rotary end of the rotary ventilation structure 5, and a sealing and detachable sealing cover structure 7 is installed at the opening end of the rotary structure 6.

Referring to fig. 3, the rotary ventilation structure 5 includes a hollow rotating shaft 51, a rotor mounting and fixing mounting groove 52 is provided at the bottom end of the hollow rotating shaft 51, a hexagonal sleeve-type protrusion structure 53 is provided at the top end of the hollow rotating shaft 51, a first gas flow hole 54 for gas flow is provided at the center of the hollow rotating shaft 51, a gas ventilation groove 55 communicating with the first gas flow hole 54 is provided at the middle part of the circumferential surface of the hollow rotating shaft 51, a rotor end structure of the driving motor 2 is fixedly and sealingly mounted in the rotor mounting and fixing groove 52, the hexagonal sleeve-type protrusion structure 53 is fixedly and sealingly mounted in the rotating structure 6, the gas ventilation groove 55 is located in the gas reserving cavity 3, and the mounting parts of the two ends of the hollow rotating shaft 51 are mounted in the bottom rectangular housing 1 through mechanical sealing structures.

Referring to fig. 4, the rotating structure 6 includes a bottom rotating plate 61 and a top annular body 62, an inner hexagonal mounting hole 63 communicating with an upper end surface and a lower end surface of the bottom rotating plate 61 is provided at a bottom center of the bottom rotating plate 61, an annular air bag 64 is embedded in a circumferential surface of the bottom rotating plate 61 and the top annular body 62, an inner wall of the annular air bag 64 forms a wrapping section 65, an inner concave part clamping groove 69 is provided at an upper end surface of the top annular body 62, a hexagonal limiting hole 68 communicating with the wrapping section 65 is provided at a bottom end of the inner concave part clamping groove 69, a plurality of fixing limiting rods 66 are provided on an upper surface of the bottom rotating plate 61 at an outer periphery of the inner hexagonal mounting hole 63, a top end of the fixing limiting rods 66 extends to an inner part of the hexagonal limiting hole 68, a middle linkage plate 67 is mounted at a top end of the bottom rotating plate, the middle linkage plate 67 is fixedly connected with a side wall of the hexagonal limiting hole 68 through a plurality of transverse fixing rods, a hexagonal sleeve protruding structure 53 is fixedly and hermetically mounted in the inner hexagonal sleeve protruding structure 63, and the inner concave part clamping groove 69 is provided with an inner annular clamping groove 7 and has an elastic coefficient of an elastic coefficient, and the rubber sealing structure is made of the rubber sealing structure.

Referring to fig. 5, the sealing structure 7 includes a disc-shaped sealing cover 71, a sealing ring 72 is sleeved on the circumferential surface of the disc-shaped sealing cover 71, a hexagonal limiting protrusion structure 73 protruding downwards is disposed on the lower end surface of the disc-shaped sealing cover 71, a pull ring 74 for applying force is installed in the center of the upper end surface of the disc-shaped sealing cover 71, the disc-shaped sealing cover 71 can be pulled out or inserted into the concave component clamping groove 69, after the two components are inserted, the sealing ring 72 can prevent the gas from flowing, and the hexagonal limiting protrusion structure 73 can be seamlessly inserted into the hexagonal limiting hole 68.

When the peanut particle rolling and coating device is used, firstly, peanut particles and food adhering oil adhered to the surfaces of the peanut particles are poured into the coating region 65, then, the driving motor 2 is turned on, under the linkage action of components, the peanut particles continuously roll in the coating region 65 and are adhered to the food adhering oil, after the adhesion is finished, the driving motor 2 is turned off, powder objects are poured into the coating region, then the sealing cover structure 7 is turned off, then, high-pressure air is injected into the gas valve 4 through the high-pressure injector, the gas enters into the coating region 65 along the gap, under the action of the high-pressure air, the annular air bag 64 generates a larger annular concave region extending from the center to the periphery, the concave region can penetrate into the annular concave region due to the fact that the peanut particles and the peanut particles are located in the middle of the annular air bag 64, then, the driving motor 2 is turned on, under the linkage action of the components, meanwhile, the surfaces of the peanut particles are subjected to pressure relative to the contact surface, the pressure is generated, the pressure is not needed when the peanut particles roll in the annular concave region, the pressure is not needed to be large due to the action of the high-pressure air, the pressure is generated relative to the pressure of the high-pressure air, the peanut particles can be adhered to the peanut particles, the pressure is not needed to the rolling and the particles, the pressure is adhered to the peanut particles, the peanut particles can be adhered to the surface, the friction coefficient is high, and the friction coefficient is increased, the peanut particles can be adhered to the particles, and the particles are greatly, and the friction coefficient can be increased.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a wrap up in even peanut wrapping machine of clothing, is acute angle including bottom rectangle shell (1) and axial lead and installs in inside driving motor (2) of bottom rectangle shell (1), its characterized in that: the rotary ventilation structure is characterized in that a rotary ventilation structure (5) penetrating through a side surface structure of a bottom rectangular housing (1) along the axial lead of the rotary ventilation structure is arranged at the rotor end of the driving motor (2), a gas reserving cavity (3) is arranged on the periphery of the middle of the rotary ventilation structure (5) of the bottom rectangular housing (1), mechanical sealing structures are respectively arranged at two junctions of the gas reserving cavity (3), a gas valve (4) for injecting gas into the gas reserving cavity (3) or discharging gas in the gas reserving cavity (3) is arranged in the bottom rectangular housing (1), a rotary structure (6) which can be ventilated with the rotary ventilation structure (5) and changes the shape of the side surface structure of the rotary ventilation structure is arranged at the rotary end of the rotary ventilation structure (5), and a sealing cover structure (7) which is sealed and detachable is arranged at the opening end of the rotary structure (6).

2. A uniformly coated peanut coating machine as claimed in claim 1 wherein: the rotary ventilation structure (5) comprises a hollow rotating shaft (51), a rotor installation fixing and installation groove (52) is formed in the bottom end of the hollow rotating shaft (51), a hexagonal sleeving and protruding structure (53) is arranged at the top end of the hollow rotating shaft (51), a first gas flow hole (54) for gas flow is formed in the center of the hollow rotating shaft (51), and a gas ventilation groove (55) communicated with the first gas flow hole (54) is formed in the middle of the circumferential surface of the hollow rotating shaft (51).

3. A uniformly coated peanut coating machine as claimed in claim 2 wherein: the rotor end structure of the driving motor (2) is fixed and sealed in the rotor installation fixing and installation groove (52), and the hexagonal sleeving convex structure (53) is fixed and sealed in the rotating structure (6).

4. A uniformly coated peanut coating machine as claimed in claim 3 wherein: the gas vent groove (55) is positioned in the gas reserving cavity (3), and the hollow rotating shaft (51) is arranged in the bottom rectangular shell (1) through a mechanical sealing structure at the installation positions at the two ends of the gas vent groove (55).

5. A uniformly coated peanut coating machine as claimed in claim 4 wherein: the utility model provides a rotating-structure (6) is including bottom pivoted plate (61) and top annular body (62), the bottom center of bottom pivoted plate (61) is provided with interior hexagonal mounting hole (63) of its up and down terminal surface of intercommunication, the circumference embedding annular gasbag (64) of bottom pivoted plate (61) and top annular body (62), the inner wall of annular gasbag (64) constitutes and wraps up in clothing interval (65), the up end of top annular body (62) is equipped with indent part card and puts groove (69), and the bottom of indent part card is put groove (69) is provided with six angle spacing hole (68) of intercommunication wrapping up in clothing interval (65), the upper surface of bottom pivoted plate (61) is provided with a plurality of fixed gag lever post (66) in the periphery that is located interior hexagonal mounting hole (63), and the top of a plurality of fixed gag lever post (66) extends to the inside of hexagonal spacing hole (68), and the lateral wall fixed connection of a middle part linkage board (67) through a plurality of horizontal dead lever post and hexagonal spacing hole (68).

6. A uniformly coated peanut coating machine as claimed in claim 5 wherein: the inside of the inner hexagonal mounting hole (63) is fixed, a hexagonal sleeving and placing protruding structure (53) is installed in a sealing mode, and a sealing cover structure (7) is clamped and placed in the inner concave part clamping and placing groove (69).

7. A uniformly coated peanut coating machine as claimed in claim 6 wherein: the annular air bag (64) is made of rubber materials with high friction coefficient and elastic function.

8. A uniformly coated peanut coating machine as claimed in claim 7 wherein: the sealing structure (7) comprises a disc-shaped sealing cover (71), a sealing ring (72) is sleeved on the circumferential surface of the disc-shaped sealing cover (71), a hexagonal limiting protruding structure (73) protruding downwards is arranged on the lower end face of the disc-shaped sealing cover (71), and a pull ring (74) for applying force is arranged in the center of the upper end face of the disc-shaped sealing cover (71).

9. A uniformly coated peanut coating machine as claimed in claim 8 wherein: the disc-shaped sealing cover (71) can be pulled out or inserted into the concave part clamping groove (69), and after the disc-shaped sealing cover and the concave part clamping groove are inserted, the sealing ring (72) can prevent gas from flowing.

10. A uniformly coated peanut coating machine as claimed in claim 9, wherein: the hexagonal limiting protruding structure (73) can be seamlessly inserted into the hexagonal limiting hole (68).