CN111642686A - Mung bean hull processing device and method - Google Patents

Abstract

The invention discloses a mung bean hull processing device and a method, which comprises a bottom plate and is characterized in that: the bottom plate is fixedly connected with an annular belt device, the bottom plate is fixedly connected with a group of uniformly distributed first round rods, the first round rods are fixedly connected with annular separation blades, the annular separation blades and a belt of the annular belt device form a track groove, the bottom plate is fixedly connected with symmetrical first supports, the first supports are symmetrically and respectively fixedly connected with a transverse rod, the first supports are symmetrically and respectively fixedly connected with a blanking mechanism, the bottom plate is fixedly connected with a second support, the second support is fixedly connected with a corresponding transverse rod, the transverse rod is three, the transverse rod is respectively and fixedly connected with a first rack, and the second support is fixedly connected with a uniform smearing mechanism. The invention relates to the field of non-staple food processing, in particular to a mung bean hull processing device and method. The invention is convenient for processing the mung bean hull.

Description

Mung bean hull processing device and method

Technical Field

The invention relates to the field of non-staple food processing, in particular to a mung bean hull processing device and method.

Background

The mung bean hull belongs to local special snacks, and has delicious taste and high nutritional value. The preparation method comprises cleaning semen Phaseoli Radiati and rice, soaking in water for one day, and pulping. Then a large pot is cleaned and is slowly heated. Pouring the green soybean milk into a pot with a funnel, or sticking a thin layer of baked green soybean milk in the pot, and shredding. Thus, a sheet of bean curd skin is obtained. The eating method is similar to that of noodles, and the fried bean curd skin, the shredded pork bean curd skin, the fried bean curd skin and the like can be made into the favorite eating method.

At present, the mung bean hull is mainly manufactured by manpower during processing. The artificial manufacturing efficiency is low, the time consumption is long, and the hidden danger of sanitation is avoided. This is a disadvantage of the prior art.

Disclosure of Invention

The invention aims to provide a device and a method for processing mung bean hull, which are convenient for processing mung bean hull.

The invention adopts the following technical scheme to realize the purpose of the invention:

a mung bean hull processing device and method comprises a bottom plate and is characterized in that: the bottom plate is fixedly connected with an annular belt device, the bottom plate is fixedly connected with a group of uniformly distributed first round rods, a group of first round rods is fixedly connected with an annular blocking piece, the annular blocking piece and a belt of the annular belt device form a track groove, the bottom plate is fixedly connected with symmetrical first supports, the symmetrical first supports are respectively and fixedly connected with transverse rods, the symmetrical first supports are respectively and fixedly connected with a blanking mechanism, the bottom plate is fixedly connected with a second support, the second support is fixedly connected with the corresponding transverse rods, the three transverse rods are respectively and fixedly connected with a first rack, the second support is fixedly connected with a uniform smearing mechanism, the bottom plate is fixedly connected with a heating mechanism, the bottom plate is fixedly connected with a turnover mechanism, the bottom plate is fixedly connected with a third support, the third support is fixedly connected with a separation mechanism, and a group of uniformly distributed round holes are arranged on the belt of the annular belt device, the annular belt device is fixedly connected with the manufacturing mechanism.

As the further injeciton of this technical scheme, unloading mechanism includes the workbin of symmetry, the symmetry first support fixed connection respectively corresponds the workbin, the symmetry the workbin is provided with a set of evenly distributed's unloading round hole respectively, the symmetry first support fixed connection material pipe respectively, the symmetry the material pipe fixed intercommunication respectively corresponds the workbin, the symmetry first support fixed connection electric putter two respectively, the symmetry the push rod end of electric putter two passes respectively and corresponds first support, the symmetry the push rod end of electric putter two passes respectively the correspondence the workbin, the symmetry the push rod end of electric putter two is fixed connection square plate respectively, every the square plate is a set of evenly distributed's round bar two of fixed connection respectively, and is a set of the round bar two matches a set of the unloading round hole.

As a further limitation of the technical scheme, the uniform smearing mechanism comprises a first electric push rod, the second support is fixedly connected with the first electric push rod, and the first electric push rod is fixedly connected with the brush board.

As a further limitation of the technical solution, the heating mechanism includes two sets of symmetrical cylindrical rods, the bottom plate is fixedly connected to the two sets of symmetrical cylindrical rods, the two sets of symmetrical cylindrical rods are respectively and fixedly connected to the heating plate, and the heating plate is matched with the belt of the endless belt device.

As a further limitation of the technical solution, the turnover mechanism includes a first symmetrical vertical rod, the first symmetrical vertical rod is fixedly connected to the bottom plate, the first symmetrical vertical rod is fixedly connected to the sensor, the second symmetrical vertical rod is fixedly connected to the bottom plate, and the second symmetrical vertical rod is fixedly connected to the rack.

As a further limitation of the present technical solution, the detaching mechanism includes an electric push rod four, the third bracket is fixedly connected to the electric push rod four, the electric push rod four is fixedly connected to a circular plate four, the circular plate four is fixedly connected to a motor, an output shaft of the motor passes through the circular plate four, an output shaft of the motor is fixedly connected to an L-shaped rod, the circular plate four bearing is connected to a central shaft of the circular plate three, the circular plate three is fixedly connected to a circular plate two through a symmetrical spring, the circular plate five is fixedly connected to a sliding slot, and a circular rod of the L-shaped rod is disposed in the sliding slot.

As a further inject of this technical scheme, the preparation mechanism includes a set of evenly distributed's fixed block, the belt fixed connection of annular belt device is a set of the fixed block, a set of the fixed block matches a set of the round hole, every the fixed block bearing connection symmetry respectively one of them of round bar three, every group symmetry the round bar three respectively fixed connection ring, every group symmetry three wherein another bearing connection slider respectively of round bar, every group symmetry three wherein another respectively fixed connection gear one of round bar, gear one matches the rack two.

As a further limitation of the technical scheme, each sliding block is respectively arranged in the track groove, each sliding block is respectively and fixedly connected with symmetrical square rods, each square rod is respectively and fixedly connected with a third electric push rod, and the push rod end of each third electric push rod is respectively and fixedly connected with a baffle.

As a further limitation of the technical solution, each circular ring is respectively connected with a circular plate one through a bearing, each circular plate one is respectively and fixedly connected with a cylinder, each cylinder is respectively and fixedly connected with a gear two, and the gear two is matched with the rack one.

The mung bean hull processing method is characterized by comprising the following steps:

the method comprises the following steps: debugging a controller to control the opening, closing and stopping of the electric push rod I, the electric push rod II, the electric push rod III, the electric push rod IV and the motor;

step two: placing a material box at a proper position of the bottom plate, opening a controller, opening the annular belt device and the heating plate by the controller, communicating the material pipe of the blanking mechanism with a superior main material box, communicating the material pipe on the front side of the first support with an oil main material box, communicating the material pipe on the rear side of the first support with a raw material main material box, driving a manufacturing mechanism to move at a constant speed by the annular belt device, driving the cylinder and the circular plate to rotate by the gear II after the gear II of the manufacturing mechanism and the rack on the front side start to be meshed, opening the electric push rod II on the front side by the controller, driving the square plate to move upwards by the contraction of the electric push rod II on the front side, driving the circular rod II to be separated from the blanking circular hole by the square plate, closing the electric push rod II by the controller, and keeping the electric push rod II for a period of time, oil falls onto the first circular plate to form a group of vortex-shaped lines, then the controller enables the second electric push rod on the front side to reversely move to return to the original position, after the second gear in the manufacturing mechanism coated with the oil and the middle rack start to be meshed, the second gear drives the cylinder and the first circular plate to rotate, the controller opens the first electric push rod, the first electric push rod drives the brush on the brush plate to contact the first circular plate, the controller closes the first electric push rod and enables the first electric push rod to keep for a period of time, the circular belt device drives the first circular plate to move when the circular plate rotates, the first circular plate is uniformly coated with the oil by the brush plate, the controller controls the first electric push rod to reversely move to return to the original position, and after the second gear in the manufacturing mechanism coated with the uniform oil and the rack on the rear side start to be meshed, the second gear drives the cylinder and the first circular plate to rotate, the controller opens the second electric push rod on the rear side, the second electric push rod on the rear side contracts to drive the square plate to move upwards, the square plate drives the second circular rod to be separated from the blanking circular hole, the controller closes the second electric push rod and enables the second electric push rod to keep for a period of time, the main material falls onto the first circular plate to form a group of vortex-shaped lines, and then the controller enables the second electric push rod on the rear side to move back to the original position in a reverse direction;

step three: when the manufacturing mechanism fully covered with the bean curd skin passes through the heating plate, the heating plate dries the bean curd skin;

step four: when the manufacturing mechanism fully covered with dried beancurd sheets is positioned below the separating mechanism, the controller controls the electric push rod IV to rapidly descend, the controller turns on the motor, the motor drives the L-shaped rod to rotate, meanwhile, the round rod of the L-shaped rod reciprocates along the chute, the chute drives the round plate III to reciprocate, the round plate III drives the spring and the round plate II to reciprocate, the round plate rotates in a reciprocating manner and simultaneously moves downwards to contact the beancurd sheets, the beancurd sheets are driven to rotate, the beancurd sheets are separated from the round plate I, the beancurd sheets are not bonded with the round plate I, and then, the controller controls the electric push rod IV to reversely move;

step five: when the sensor close to the heating plate detects the fixed block, the controller controls the rear side of the third electric push rod in the group of symmetrical third electric push rods to be completely contracted to enable the baffle at the rear side to be far away from the circular ring, then the first gear is meshed with the first rack, the first gear rotates, the third circular rod, the circular ring, the first circular plate, the cylinder and the second gear are driven by the gear to be overturned, when the first circular plate is in a vertical state, the controller controls the third electric push rod at the front side to be completely contracted to enable the baffle at the front side not to block the overturning of the circular ring and the first circular plate, the third electric push rod at the rear side is controlled by the controller to be completely extended, when the first gear is disengaged from the first rack, the third electric push rod at the front side is controlled by the controller to be completely extended, the circular ring is contacted with the two baffles, and in the overturning process of the first circular plate, the controller controls the third electric push rod on the rear side to be completely contracted when the skin of soya-bean milk falls from the first circular plate and falls into the material box from the circular hole, the first gear is meshed with the first rack when the sensor far away from the heating plate detects the fixed block, the first gear rotates to drive the third circular rod, the third circular ring, the first circular plate, the cylinder and the second gear to turn over, when the first circular plate is in a vertical state, the controller controls the third electric push rod on the front side to be completely contracted to enable the baffle on the front side not to block the turning over of the first circular ring and the first circular plate, the controller controls the third electric push rod on the rear side to be completely extended, when the first gear is disengaged from the first rack, the controller controls the third electric push rod on the front side to be completely extended, and the circular ring is in contact with the two baffles, at the moment, the circular ring and the circular plate are turned for 360 degrees;

step six: and repeating the second step to the fifth step to finish the processing of the soybean hulls.

Compared with the prior art, the invention has the advantages and positive effects that:

1. this device of this device is provided with unloading mechanism and smears even mechanism, and unloading mechanism is earlier with the oil drip on plectane one, then scribble the brush board of mechanism and scribble the oil and evenly prevent that the raw materials from gluing on plectane one, then unloading mechanism drips the raw materials on plectane one, imitates the people and scribbles the oil on plectane one, pours into the pot one of the green soybean milk silk one of beating with the funnel.

2. The device is provided with a heating plate, and the heating plate is used for baking the mung bean skins.

3. The device is provided with a separation mechanism, a circular plate II of the separation mechanism rotates in a reciprocating manner and moves downwards to contact the mung bean skins on the circular plate I, the simulated human hand rotates the mung bean skins, the mung bean skins swing to be separated from the circular plate I, and the baked mung bean skins are prevented from being stuck on the circular plate I.

4. The device is provided with the turnover mechanism, so that the circular plate is firstly turned over by 180 degrees, the mung bean skins fall into the material box under the action of gravity in the process, and then the circular plate is turned over by 180 degrees again to return to the initial position, so that the processing is convenient to continue.

5. The length of a first division line of the rack is slightly smaller than half of the circumference of a first division line of the gear, so that the ring is turned over by slightly smaller than 180 degrees, the ring continuously moves to contact with the baffle under the action of gravity, and an electric push rod III is arranged to drive the baffle to move, thereby increasing the stability of the system.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the first embodiment of the present invention.

Fig. 3 is a partial perspective view of the second embodiment of the present invention.

Fig. 4 is a schematic view of a partial three-dimensional structure of the present invention.

Fig. 5 is a partial perspective view illustrating a fourth embodiment of the present invention.

Fig. 6 is a schematic partial perspective view of the present invention.

Fig. 7 is a schematic diagram of a partial three-dimensional structure according to the present invention.

Fig. 8 is a schematic partial perspective view illustrating a seventh embodiment of the present invention.

Fig. 9 is a partial perspective view illustrating an eighth embodiment of the present invention.

Fig. 10 is a schematic perspective view of the present invention.

In the figure: 1. an annular belt device, 2, an annular baffle plate, 3, a first round rod, 4, a bottom plate, 5, a first support, 6, a second support, 7, a heating plate, 8, a cylindrical rod, 9, a third support, 10, a track groove, 11, a sensor, 12, a first vertical rod, 13, a round hole, 14, a fixing block, 15, a first electric push rod, 16, a brush plate, 17, a cross rod, 18, a first rack, 19, a second round rod, 20, a square plate, 21, a material pipe, 22, a second electric push rod, 23, a bin, 24, a circular blanking hole, 26, a first gear, 27, a slide block, 28, a square rod, 29, a third electric push rod, 30, a baffle, 31, a circular ring, 32, a first round plate, 33, a third round rod, 34, a cylinder, 35, a second gear, 36, a second rack, 37, a second vertical rod, 38, a fourth electric push rod, 39, a motor, 40, an L-shaped rod, 41, a spring, 42, a second round plate, 43, a sliding groove, 45. and a fourth circular plate.

Detailed Description

An embodiment of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the embodiment.

As shown in fig. 1-10, the present invention includes a bottom plate 4, the bottom plate 4 is fixedly connected to an annular belt device 1, the bottom plate 4 is fixedly connected to a set of uniformly distributed first rods 3, a set of first rods 3 is fixedly connected to an annular blocking piece 2, the annular blocking piece 2 and a belt of the annular belt device 1 form a track groove 10, the bottom plate 4 is fixedly connected to symmetrical first brackets 5, the symmetrical first brackets 5 are respectively and fixedly connected to a cross bar 17, the symmetrical first brackets 5 are respectively and fixedly connected to a blanking mechanism, the bottom plate 4 is fixedly connected to a second bracket 6, the second bracket 6 is fixedly connected to a corresponding cross bar 17, three cross bars 17 are respectively and fixedly connected to a first rack 18, the second bracket 6 is fixedly connected to a uniform smearing mechanism, the bottom plate 4 is fixedly connected to a heating mechanism, and the bottom plate 4 is fixedly connected to a turnover mechanism, the bottom plate 4 is fixedly connected with a third support 9, the third support 9 is fixedly connected with a separation mechanism, a group of uniformly distributed round holes 13 are formed in a belt of the annular belt device 1, and the annular belt device 1 is fixedly connected with a manufacturing mechanism.

The blanking mechanism comprises symmetrical feed boxes 23, the symmetrical first brackets 5 are respectively and fixedly connected with the corresponding feed boxes 23, the symmetrical feed boxes 23 are respectively provided with a group of uniformly distributed blanking round holes 24, the symmetrical first supports 5 are respectively fixedly connected with the material pipes 21, the symmetrical material pipes 21 are respectively and fixedly communicated with the corresponding material boxes 23, the symmetrical first brackets 5 are respectively and fixedly connected with electric push rods 22, the push rod ends of the two symmetrical electric push rods 22 respectively penetrate through the corresponding first brackets 5, the symmetrical push rod ends of the second electric push rods 22 penetrate through the corresponding material boxes 23 respectively, the symmetrical push rod ends of the second electric push rods 22 are fixedly connected with square plates 20 respectively, each square plate 20 is fixedly connected with a group of uniformly distributed round rods 19 respectively, and the round rods 19 are matched with the round blanking holes 24.

The uniform smearing mechanism comprises a first electric push rod 15, the second support 6 is fixedly connected with the first electric push rod 15, and the first electric push rod 15 is fixedly connected with a brush board 16.

The heating mechanism comprises two groups of symmetrical cylindrical rods 8, the bottom plate 4 is fixedly connected with the two groups of symmetrical cylindrical rods 8, the two groups of symmetrical cylindrical rods 8 are respectively and fixedly connected with the heating plate 7, and the heating plate 7 is matched with a belt of the annular belt device 1.

The turnover mechanism comprises symmetrical first vertical rods 12, the bottom plate 4 is fixedly connected with the symmetrical first vertical rods 12, the symmetrical first vertical rods 12 are respectively and fixedly connected with the sensors 11, the bottom plate 4 is correspondingly and symmetrically connected with the symmetrical second vertical rods 37, and the symmetrical second vertical rods 37 are respectively and fixedly connected with the racks 36.

The disengaging mechanism comprises an electric push rod four 38, the third bracket 9 is fixedly connected with the electric push rod four 38, the electric push rod four 38 is fixedly connected with a circular plate four 45, the circular plate four 45 is fixedly connected with a motor 39, an output shaft of the motor 39 penetrates through the circular plate four 45, an output shaft of the motor 39 is fixedly connected with an L-shaped rod 40, the circular plate four 45 is in bearing connection with a central shaft of a circular plate three 44, the circular plate three 44 is fixedly connected with a circular plate two 42 through a symmetrical spring 41, the circular plate five 44 is fixedly connected with a sliding groove 43, and a circular rod of the L-shaped rod 40 is arranged in the sliding groove 43.

The mechanism of making includes a set of evenly distributed's fixed block 14, the belt fixed connection of annular belt device 1 is a set of fixed block 14, and is a set of fixed block 14 matches a set of round hole 13, every fixed block 14 bearing connection symmetry respectively one of them of round bar three 33, every group symmetry three 33 of round bar fixed connection ring 31 respectively, every group symmetry three 33 of round bar wherein another bearing connection slider 27 respectively, every group symmetry three 33 of round bar wherein another fixed connection gear 26 respectively, gear 26 matches rack two 36.

Each sliding block 27 is respectively arranged in the track groove 10, each sliding block 27 is respectively and fixedly connected with symmetrical square rods 28, each square rod 28 is respectively and fixedly connected with a third electric push rod 29, and the push rod end of each third electric push rod 29 is respectively and fixedly connected with a baffle 30.

Each circular ring 31 is respectively connected with a circular plate I32 in a bearing mode, each circular plate I32 is respectively and fixedly connected with a cylinder 34, each cylinder 34 is respectively and fixedly connected with a gear II 35, and the gear II 35 is matched with the rack I18.

A mung bean hull processing method comprises the following steps:

the method comprises the following steps: debugging a controller to control the opening, closing and stopping of the electric push rod I15, the electric push rod II 22, the electric push rod III 29, the electric push rod IV 38 and the motor 39;

step two: placing a material box at a proper position of the bottom plate 4, opening a controller, opening the annular belt device 1 and the heating plate 7 by the controller, communicating the material pipe 21 of the blanking mechanism with a superior main material box, communicating the material pipe 21 on the front side of the first bracket 5 with an oil main material box, communicating the material pipe 21 on the rear side of the first bracket 5 with a raw material main material box, driving the manufacturing mechanism to move at a constant speed by the annular belt device 1, driving the cylinder 34 and the circular plate one 32 to rotate by the gear two 35 after the gear two 35 and the rack 17 on the front side of the manufacturing mechanism start to be meshed, opening the electric push rod two 22 on the front side by the controller, driving the square plate 20 to move upwards by the electric push rod two 22 on the front side, driving the circular rod two 19 to be separated from the blanking circular hole 24 by the square plate 20, closing the electric push rod two 22 by the controller, and the second electric push rod 22 is kept for a period of time, oil falls onto the first circular plate 32 to form a group of vortex-shaped lines, then the controller makes the second electric push rod 22 on the front side move back to the original position in a reverse direction, after the second gear 35 in the manufacturing mechanism coated with oil and the middle rack 17 start to be meshed, the second gear 35 drives the cylinder 34 and the first circular plate 32 to rotate, the controller opens the first electric push rod 15, the first electric push rod 15 drives the brushes on the brush plate 16 to contact the first circular plate 32, the controller closes the first electric push rod 15 and makes the first electric push rod 15 keep for a period of time, the first circular plate 32 rotates, the annular belt device 1 drives the first circular plate 32 to move, the brush plate 16 uniformly coats the oil on the first circular plate 32, and the controller controls the first electric push rod 15 to move back to the original position in a reverse direction, after the second gear 35 and the rack 17 on the rear side in the manufacturing mechanism for coating uniform oil materials are meshed, the second gear 35 drives the cylinder 34 and the first circular plate 32 to rotate, the controller opens the second electric push rod 22 on the rear side, the second electric push rod 22 on the rear side contracts to drive the square plate 20 to move upwards, the square plate 20 drives the second circular rod 19 to be separated from the blanking circular hole 24, the controller closes the second electric push rod 22 and enables the second electric push rod 22 to keep for a period of time, main materials fall onto the first circular plate 32 to form a group of vortex-shaped lines, and then the controller enables the second electric push rod 22 on the rear side to reversely move back to the original position;

step three: when the manufacturing mechanism fully covered with the bean curd skin passes through the heating plate 7, the heating plate 7 dries the bean curd skin;

step four: when the manufacturing mechanism fully covered with the dried tofu skin is positioned below the disengaging mechanism, the controller controls the electric push rod four 38 to rapidly descend, the controller turns on the motor 39, the motor 39 drives the L-shaped rod 40 to rotate, the round rod of the L-shaped rod 40 reciprocates along the chute 43, the chute 43 drives the round plate three 44 to reciprocate, the round plate three 44 drives the spring 41 and the round plate two 42 to reciprocate, the round plate 42 reciprocates and moves downwards to contact the tofu skin, the tofu skin is driven to rotate, the tofu skin is disengaged from the round plate one 32, the tofu skin is not bonded with the round plate one 32, and then the controller controls the electric push rod four 38 to reversely move;

step five: when the sensor 11 close to the heating plate 17 detects the fixed block 14, the controller controls the rear side electric push rod three 29 in the group of symmetrical electric push rods three 29 to be completely contracted, so that the baffle 30 at the rear side is far away from the circular ring 31, then the gear one 26 is meshed with the rack one 18, the gear one 26 rotates, the gear one 26 drives the circular rod three 33, the circular ring 31, the circular plate one 32, the cylinder 34 and the gear two 36 to be overturned, when the circular plate one 32 is in a vertical state, the controller controls the front side electric push rod three 29 to be completely contracted, so that the front side baffle 30 does not block the overturning of the circular ring 31 and the circular plate one 32, the controller controls the rear side electric push rod three 29 to be completely extended, and when the gear one 26 is disengaged from the rack one 18, the controller controls the front side electric push rod three 29 to be completely extended, the circular ring 31 contacts with the two baffles 30, in the process of turning the circular plate I32, bean skins fall from the circular plate I32, fall from the circular hole 13 into the material box, when the sensor 11 far away from the heating plate 17 detects the fixed block 14, the controller controls the rear side to completely contract the electric push rod III 29 so that the baffle 30 at the rear side is far away from the circular ring 31, then the gear I26 is meshed with the rack I18, the gear I26 rotates, the gear I26 drives the circular rod III 33, the circular ring 31, the circular plate I32, the cylinder 34 and the gear II 36 to turn over, when the circular plate I32 is in a vertical state, the controller controls the front side to completely contract the electric push rod III 29 so that the baffle 30 at the front side does not block turning of the circular ring 31 and the circular plate I32, and controls the rear side to completely extend the electric push rod III 29, when the first gear 26 is disengaged from the first rack 18, the controller controls the electric push rod III 29 on the front side to be fully extended, the circular ring 31 contacts the two baffles 30, and at the moment, the circular ring 31 and the circular plate I32 are turned for 360 degrees;

step six: and repeating the second step to the fifth step to finish the processing of the soybean hulls.

The symmetrical first brackets 5 are symmetrically distributed about the second bracket 6.

The electric push rod I15, the electric push rod II 22, the electric push rod III 29, the electric push rod IV 38, the motor 39 and the sensor 11 are respectively and electrically connected with a controller.

The annular belt device 1 and the heating plate 7 are electrically connected with the controller.

The working process of the invention is as follows: the controller is debugged to control the opening, closing and stopping of the electric push rod I15, the electric push rod II 22, the electric push rod III 29, the electric push rod IV 38 and the motor 39. (in the initial state, the first electric push rod 15 contracts, the second electric push rod 22 extends fully, the third electric push rod 29 extends fully, the baffle 30 contacts the circular ring 31 to prevent the circular ring 31 from overturning, and the fourth electric push rod 38 contracts fully).

Placing a material box at a proper position of a bottom plate 4, opening a controller, opening an annular belt device 1 and a heating plate 7 by the controller, communicating a material pipe 21 of a blanking mechanism with a superior main material box, communicating the material pipe 21 on a front side first bracket 5 with an oil main material box (oil prevents mung bean skins from being adhered on a circular plate I32), communicating the material pipe 21 on a rear side first bracket 5 with a raw material main material box, driving a manufacturing mechanism to move at a constant speed by the annular belt device 1, driving a cylinder 34 and the circular plate I32 to rotate by a gear II 35 after a gear II 35 of the manufacturing mechanism is meshed with a front side rack 17, opening a front side electric push rod II 22 by the controller, driving a square plate 20 to move upwards by the contraction of the front side electric push rod II 22, driving a round rod II 19 to be disengaged from a blanking round hole 24 by the square plate 20, closing the electric push rod II 22 by the controller, and keeping the electric push rod II 22, the oil falls onto the first circular plate 32 to form a set of vortex-shaped lines, and then the controller moves the second front electric push rod 22 back to the original position. After a second gear 35 in the oil-coated manufacturing mechanism is meshed with a middle rack 17, the second gear 35 drives a cylinder 34 and a first circular plate 32 to rotate, a controller opens a first electric push rod 15, the first electric push rod 15 drives a brush on a brush plate 16 to contact the first circular plate 32, the controller closes the first electric push rod 15, the first electric push rod 15 keeps rotating the first circular plate 32 for a period of time (set according to actual conditions), simultaneously, an annular belt device 1 drives the first circular plate 32 to move, the brush plate 16 uniformly coats oil on the first circular plate 32, the controller controls the first electric push rod 15 to reversely move back to the original position, when the second gear 35 in the oil-coated manufacturing mechanism is meshed with the rear-side rack 17, the second gear 35 drives the cylinder 34 and the first circular plate 32 to rotate, the controller opens a second rear-side electric push rod 22, the second rear-side electric push rod 22 contracts to drive a square plate 20 to move upwards, the square plate 20 drives the round rod II 19 to be separated from the blanking round hole 24, the controller closes the electric push rod II 22, the electric push rod II 22 is kept for a period of time (set according to actual conditions), the main materials fall on the round plate I32 to form a group of vortex-shaped lines, and then the controller enables the rear electric push rod II 22 to reversely move back to the original position.

When the manufacturing mechanism fully covered with the bean curd skin passes through the heating plate 7, the heating plate 7 dries the bean curd skin. When the manufacturing mechanism fully covered with dried beancurd sheets is positioned below the separating mechanism, the controller controls the electric push rod four 38 to rapidly descend, the controller turns on the motor 39, the motor 39 drives the L-shaped rod 40 to rotate, the round rod of the L-shaped rod 40 reciprocates along the chute 43, the chute 43 drives the round plate three 44 to reciprocate, the round plate three 44 drives the spring 41 and the round plate two 42 to reciprocate, the round plate 42 reciprocates and moves downwards to contact the beancurd sheets, the beancurd sheets rotate, the beancurd sheets are separated from the round plate one 32, the beancurd sheets are not bonded with the round plate one 32, and then the controller controls the electric push rod four 38 to reversely move (the extending length of the electric push rod four 38 is set according to actual conditions). When the sensor 11 close to the heating plate 17 detects the fixed block 14, the controller controls the rear side electric push rod three 29 (the electric push rod three 29 far from the heating plate 17) in the group of symmetrical electric push rods three 29 to be completely contracted, so that the rear side baffle 30 is far from the circular ring 31, then the gear one 26 is meshed with the rack one 18, the gear one 26 rotates, the gear one 26 drives the circular rod three 33, the circular ring 31, the circular plate one 32, the cylinder 34 and the gear two 36 to turn over, when the circular plate one 32 is in a vertical state, the controller controls the front side electric push rod three 29 to be completely contracted, so that the front side baffle 30 does not block the turning over of the circular ring 31 and the circular plate one 32, the controller controls the rear side electric push rod three 29 to be completely extended, when the gear one 26 is disengaged with the rack one 18, the controller controls the front side electric push rod three 29 to be completely extended, the circular ring 31 contacts with the two baffles 30 (the length of the index line of the rack one, the ring 31 is turned by slightly less than 180 degrees, the bean skins fall from the first circular plate 32 under the action of gravity to the material box, when the sensor 11 far away from the heating plate 17 detects the fixed block 14, the controller controls the third rear electric push rod 29 to be completely contracted to enable the rear baffle 30 to be far away from the ring 31 in the turning process of the first circular plate 32, then the first gear 26 is meshed with the first rack 18, the first gear 26 rotates to drive the third circular rod 33, the ring 31, the first circular plate 32, the cylinder 34 and the second gear 36 to be turned over, when the first circular plate 32 is in a vertical state, the controller controls the third front electric push rod 29 to be completely contracted to enable the front baffle 30 not to block the turning over of the ring 31 and the first circular plate 32, the controller controls the third rear electric push rod 29 to be completely extended, and when the first gear 26 is disengaged with the first rack 18, the controller controls the third front electric push rod 29 to be completely extended, the ring 31 contacts the two baffles 30, and at this time, the ring 31 and the circular plate-32 are turned 360 degrees.

And repeating the steps to finish the processing of the soybean hulls.

The above disclosure is only for the specific embodiment of the present invention, but the present invention is not limited thereto, and any variations that can be made by those skilled in the art should fall within the scope of the present invention.

Claims (10)

1. The utility model provides a mung bean skin processingequipment, includes bottom plate (4), its characterized in that:

the bottom plate (4) is fixedly connected with the annular belt device (1);

the bottom plate (4) is fixedly connected with a group of uniformly distributed round rods I (3);

the group of first round rods (3) is fixedly connected with the annular baffle plates (2);

the annular baffle plate (2) and a belt of the annular belt device (1) form a track groove (10);

the bottom plate (4) is fixedly connected with symmetrical first brackets (5);

the first brackets (5) are respectively and fixedly connected with a cross rod (17);

the symmetrical first supports (5) are respectively and fixedly connected with a blanking mechanism;

the bottom plate (4) is fixedly connected with a second bracket (6);

the second bracket (6) is fixedly connected with the corresponding cross rod (17);

the three cross rods (17) are respectively and fixedly connected with a first rack (18);

the second bracket (6) is fixedly connected with the uniform smearing mechanism;

the bottom plate (4) is fixedly connected with a heating mechanism;

the bottom plate (4) is fixedly connected with the turnover mechanism;

the bottom plate (4) is fixedly connected with a third bracket (9);

the third bracket (9) is fixedly connected with a disengaging mechanism;

a group of uniformly distributed round holes (13) are formed in the belt of the annular belt device (1);

the annular belt device (1) is fixedly connected with the manufacturing mechanism.

2. The testa Phaseoli Radiati processing device of claim 1, wherein: the blanking mechanism comprises symmetrical material boxes (23), the symmetrical first supports (5) are respectively and fixedly connected with the corresponding material boxes (23), the symmetrical material boxes (23) are respectively provided with a group of uniformly distributed blanking round holes (24), the symmetrical first supports (5) are respectively and fixedly connected with the material pipes (21), the symmetrical material pipes (21) are respectively and fixedly communicated with the corresponding material boxes (23), the symmetrical first supports (5) are respectively and fixedly connected with electric push rod two (22), the symmetrical push rod ends of the electric push rod two (22) respectively penetrate through the corresponding first supports (5), the symmetrical push rod ends of the electric push rod two (22) respectively penetrate through the corresponding material boxes (23), the symmetrical push rod ends of the electric push rod two (22) are respectively and fixedly connected with square plates (20), each square plate (20) is respectively and fixedly connected with a group of uniformly distributed round rod two (19), the second round rods (19) are matched with the circular blanking holes (24).

3. The mung bean hull processing device and method according to claim 1, wherein: the uniform smearing mechanism comprises a first electric push rod (15), the second support (6) is fixedly connected with the first electric push rod (15), and the first electric push rod (15) is fixedly connected with a brush board (16).

4. The mung bean hull processing device and method according to claim 1, wherein: the heating mechanism comprises two groups of symmetrical cylindrical rods (8), the bottom plate (4) is fixedly connected with the two groups of symmetrical cylindrical rods (8), the two groups of symmetrical cylindrical rods (8) are respectively and fixedly connected with the heating plate (7), and the heating plate (7) is matched with a belt of the annular belt device (1).

5. The mung bean hull processing device and method according to claim 1, wherein: the turnover mechanism comprises symmetrical first vertical rods (12), the bottom plate (4) is fixedly connected with the symmetrical first vertical rods (12) and is symmetrical with the symmetrical first vertical rods (12) which are respectively and fixedly connected with the sensor (11), the bottom plate (4) corresponds to the symmetrical first vertical rods (12) and is fixedly connected with the symmetrical second vertical rods (37), and the symmetrical second vertical rods (37) are respectively and fixedly connected with the second racks (36).

6. The mung bean hull processing device and method according to claim 1, wherein: the separation mechanism comprises an electric push rod IV (38), the third support (9) is fixedly connected with the electric push rod IV (38), the electric push rod IV (38) is fixedly connected with a circular plate IV (45), the circular plate IV (45) is fixedly connected with a motor (39), an output shaft of the motor (39) penetrates through the circular plate IV (45), an output shaft of the motor (39) is fixedly connected with an L-shaped rod (40), the circular plate IV (45) is connected with a central shaft of a circular plate III (44) through a bearing, the circular plate III (44) is fixedly connected with a circular plate II (42) through symmetrical springs (41), a circular plate V (44) is fixedly connected with a sliding groove (43), and a circular rod of the L-shaped rod (40) is arranged in the sliding groove (43).

7. The mung bean hull processing device and method according to claim 5, wherein: the mechanism of making includes a set of evenly distributed's fixed block (14), the belt fixed connection of annular belt device (1) is a set of fixed block (14), and is a set of fixed block (14) match a set of round hole (13), every fixed block (14) bearing connection symmetry respectively one of them of round bar three (33), every group symmetry round bar three (33) fixed connection ring (31) respectively, every group symmetry round bar three (33) wherein another bearing connection slider (27) respectively, every group symmetry round bar three (33) wherein another fixed connection gear (26) respectively, gear (26) match rack two (36).

8. The mung bean hull processing device and method according to claim 7, wherein: every slider (27) set up respectively in track groove (10), every slider (27) fixed connection square bar (28) of symmetry respectively, every square bar (28) fixed connection electric putter three (29) respectively, every the push rod end of electric putter three (29) fixed connection baffle (30) respectively.

9. The mung bean hull processing device and method according to claim 7, wherein: each circular ring (31) is respectively connected with a first circular plate (32) in a bearing mode, each first circular plate (32) is respectively and fixedly connected with a cylinder (34), each cylinder (34) is respectively and fixedly connected with a second gear (35), and the second gear (35) is matched with the first rack (18).

10. The mung bean hull processing method is characterized by comprising the following steps:

the method comprises the following steps: debugging a controller to control the opening, closing and stopping of the electric push rod I (15), the electric push rod II (22), the electric push rod III (29), the electric push rod IV (38) and the motor (39);

step two: placing a material box at a proper position of the bottom plate (4), opening a controller, opening the annular belt device (1) and the heating plate (7) by the controller, communicating the material pipe (21) of the blanking mechanism with a superior main material box, communicating the material pipe (21) on the first support (5) at the front side with an oil main material box, communicating the material pipe (21) on the first support (5) at the rear side with a raw material main material box, driving a manufacturing mechanism to move at a constant speed by the annular belt device (1), driving the cylinder (34) and the circular plate I (32) to rotate by the gear II (35) of the manufacturing mechanism after the gear II (35) and the rack (17) at the front side start to be meshed, opening the electric push rod II (22) at the front side, and driving the square plate (20) to move upwards by the electric push rod II (22) at the front side in a contraction manner, the square plate (20) drives the round rod II (19) to be separated from the blanking round hole (24), the controller closes the electric push rod II (22) and enables the electric push rod II (22) to be kept for a period of time, oil falls onto the round plate I (32) to form a group of vortex-shaped lines, then the controller enables the electric push rod II (22) on the front side to move back to the original position in a reverse direction, after the gear II (35) in the oil coating manufacturing mechanism and the middle rack (17) start to be meshed, the gear II (35) drives the cylinder (34) and the round plate I (32) to rotate, the controller opens the electric push rod I (15), the electric push rod I (15) drives the brushes on the brush plate (16) to contact the round plate I (32), the controller closes the electric push rod I (15) and enables the electric push rod I (15) to be kept for a period of time, the circular belt device (1) drives the circular plate I (32) to move when the circular plate I (32) rotates, the brush plate (16) uniformly coats oil on the circular plate I (32), the controller controls the electric push rod I (15) to reversely move back to the original position, when the gear II (35) and the rear side rack (17) in the manufacturing mechanism for uniformly coating the oil are meshed, the gear II (35) drives the cylinder (34) and the circular plate I (32) to rotate, the controller opens the rear side electric push rod II (22), the rear side electric push rod II (22) contracts to drive the square plate (20) to move upwards, the square plate (20) drives the circular rod II (19) to be separated from the blanking circular hole (24), the controller closes the electric push rod II (22), and enables the electric push rod II (22) to keep for a period of time, the main material falls on the circular plate I (32) to form a group of vortex-shaped lines, and then the controller enables the electric push rod II (22) on the rear side to reversely move back to the original position;

step three: when the manufacturing mechanism fully covered with the bean curd skin passes through the heating plate (7), the heating plate (7) dries the bean curd skin;

step four: when the manufacturing mechanism fully covered with dried beancurd sheets is positioned below the disengaging mechanism, the controller controls the electric push rod four (38) to rapidly descend, the controller turns on the motor (39), the motor (39) drives the L-shaped rod (40) to rotate, meanwhile, the round rod of the L-shaped rod (40) reciprocates along the sliding groove (43), the sliding groove (43) drives the circular plate three (44) to reciprocate, the circular plate three (44) drives the spring (41) and the circular plate two (42) to reciprocate, the circular plate two (42) reciprocates and simultaneously moves downwards to contact the beancurd sheets, the beancurd sheets are driven to rotate, the beancurd sheets are disengaged from the circular plate one (32), the beancurd sheets are not bonded with the circular plate one (32), and then, the controller controls the electric push rod four (38) to reversely move;

step five: when the sensor (11) close to the heating plate (17) detects the fixed block (14), the controller controls the rear side of the electric push rods (29) to be symmetrical to completely contract, so that the baffle (30) at the rear side is far away from the circular ring (31), then the gear I (26) is meshed with the rack I (18), the gear I (26) rotates, the gear I (26) drives the circular rod III (33), the circular ring (31), the circular plate I (32), the cylinder (34) and the gear II (36) to turn over, when the circular plate I (32) is in a vertical state, the controller controls the electric push rods (29) at the front side to be completely contracted, so that the baffle (30) at the front side does not block the circular ring (31) and the circular plate I (32) to turn over, and the controller controls the electric push rods (29) at the rear side to be completely extended, when the first gear (26) is disengaged from the first rack (18), the controller controls the electric push rod three (29) at the front side to completely extend, the circular ring (31) contacts two baffles (30), bean skins fall from the first circular plate (32) in the overturning process of the first circular plate (32) and fall into the material box from the circular hole (13), when the sensor (11) far away from the heating plate (17) detects the fixing block (14), the controller controls the electric push rod three (29) at the rear side to completely contract, so that the baffle (30) at the rear side is far away from the circular ring (31), then the first gear (26) is engaged with the first rack (18), the first gear (26) rotates, and the first gear (26) drives the circular rod three (33), the circular ring (31), the first circular plate (32), the cylinder (34) and the second gear (36) to overturn, when the circular plate I (32) is in a vertical state, the controller controls the electric push rod III (29) on the front side to be completely contracted, so that the baffle plate (30) on the front side does not block the circular ring I (31) and the circular plate I (32) to turn over, the controller controls the electric push rod III (29) on the rear side to be completely extended, when the gear I (26) is disengaged from the rack I (18), the controller controls the electric push rod III (29) on the front side to be completely extended, the circular ring I (31) is in contact with the two baffle plates (30), and at the moment, the circular ring I (31) and the circular plate I (32) turn over for 360 degrees;

step six: and repeating the second step to the fifth step to finish the processing of the soybean hulls.

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