CN213246865U - Glutinous food forming integrated machine - Google Patents

Abstract

The utility model discloses a glutinous nature food shaping all-in-one belongs to food processing technology field. It comprises a frame. The device mainly utilizes the hopper, the extrusion head and the material preparation mould to prepare the glutinous food, and has the advantages of fast forming, can change material making moulds with various shapes to produce cylindrical and flake wrappers and can also collect redundant powder and dust, the pressure stabilizing mechanism in the hopper is utilized to prevent the splashing of the materials in the hopper, and three powder spreaders are utilized, dusting the surface of Margarita on the conveyer belt and the conveyer belt to avoid sticking on the conveyer belt, in addition, the cutting knife is used for cutting, so that the phenomenon that two or more adjacent glutinous foods are mutually adhered is avoided, the glutinous foods are conveyed to an external vibrating screen or a spiral conveyor by a conveyor belt, in addition, the powder collecting hopper is used for receiving the residual powder on the conveying belt, and the powder collecting drawer is used for pouring the powder, so that the production requirement is met, and the processing efficiency is improved.

Description

Glutinous food forming integrated machine

Technical Field

The utility model relates to a glutinous nature food shaping all-in-one belongs to food processing technology field.

Background

The glutinous food has the characteristics of strong viscosity, strong Q property and difficult forming, so the problems of difficult operation, large dust, labor consumption and the like can occur during production.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the technical problem that above-mentioned background art mentioned, and adopt following technical scheme to realize:

a roller is further arranged at the bottom of the rack, a conveying belt is mounted at the top of the rack, a hopper is further fixedly mounted at the top of the rack, an auger is rotatably connected inside the hopper, a pressure stabilizing mechanism is further arranged inside the hopper and used for avoiding the situation that dust generated by the auger inside the hopper during rotation splashes, an extrusion head is communicated with the end portion of one end of the hopper, a material manufacturing mold is communicated with one end of the extrusion head, the hopper, the extrusion head and the material manufacturing mold are all located above the conveying belt, a cutter mechanism is further arranged at one end of the top of the rack and used for cutting materials conveyed by the conveying belt, three powder spreaders are further arranged at the top of the rack, one of the powder spreaders is used for spreading powder on the surfaces of the materials, and the other two spreaders are used for spreading powder on the conveying belt, the bottom of the rack is also provided with two powder collecting hoppers for receiving materials on the conveying belt, and the two powder collecting hoppers are provided with powder collecting drawers.

As a preferable example, the rack is further provided with a first motor assembly for driving the conveyor belt to rotate, and the first motor assembly comprises a first motor, a first main chain wheel, a first auxiliary chain wheel and a first chain, the first motor is fixed on the rack, the first main chain wheel is fixed at the output end of the first motor, the conveyor belt is mounted at the top of the rack through a plurality of rolling rollers, the first auxiliary chain wheel is fixedly sleeved on one of the rolling rollers, and the first chain is sleeved on the first main chain wheel and the first auxiliary chain wheel together.

Adopt above-mentioned scheme, start first motor, drive the rotation of first main chain wheel, drive the rotation of first chain then to drive first rotation from the sprocket, drive the rotation of roller then, drive the rotation of conveyer belt then, can realize then that the material on the conveyer belt carries out the purpose of conveying.

As preferred example, steady voltage mechanism is transversely to roll roller and second motor element, transversely roll the roller and the auger is "ten" font setting inside the hopper, transversely roll the roller and also rotate the inside of connecting at the hopper, just transversely roll the one end tip of roller and stretch out the hopper, transversely roll the roller and be close but contactless with the inside auger of hopper, second motor element includes second motor, second main chain wheel, second chain and second slave sprocket, the inside at the frame is fixed to the second motor, just second main chain wheel is fixed at second motor output, the second is fixed on being located the outer horizontal roller of hopper from the sprocket, the second chain cup joints jointly on second main chain wheel and second slave sprocket.

Adopt above-mentioned scheme, start the second motor to drive the rotation of second main chain wheel, drive the rotation of second chain then, thereby drive the second from the rotation of sprocket, drive the rotation of horizontal roller then, prevent the condition that the material splashes from appearing in the auger of hopper inside rotating the in-process with this.

As a preferred example, the shape of the transverse roller is a bamboo joint shape with a round top and a round bottom and a glass side wall.

As preferred example, still be equipped with third motor element in the frame for the drive auger transmission, third motor element includes third motor, third main chain wheel, third chain and third slave sprocket, the top at the frame is fixed to the third motor, just the third main chain wheel is fixed at third motor output, the number of auger is a plurality ofly, and is every two adjacent connecting piece interconnect is passed through to the one end of auger, one of them the hopper is stretched out to the one end of auger, the fixed cup joint of third slave sprocket is on the auger that stretches out the hopper, the third chain cup joints jointly on third main chain wheel and third slave sprocket.

Adopt above-mentioned scheme, start the third motor, drive the rotation of third main chain wheel, then drive the rotation of third chain to drive the third and follow the rotation of sprocket, then drive the rotation of auger, and under the connection of connecting piece, thereby drive the rotation of a plurality of augers, then can realize during the material in the hopper extrudes into the extrusion head through the auger, with this can in arriving the system material mould.

As a preferred example, the distribution sequence of the three said dusters, hoppers and cutter mechanisms on top of the conveyor belt is from left to right the dusters, hoppers, dusters, cutter mechanisms and dusters.

As a preferred example, the cutter mechanism includes a case, a driving source, and a cutter, wherein a fixed end of the driving source is fixedly mounted on the case, a movable end of the driving source is located outside the case, and the cutter is fixed to the movable end of the driving source.

By adopting the scheme, the cutter is driven to move up and down relative to the conveyor belt by a driving source (the driving source can be one of an air cylinder, an oil cylinder and an electric push rod), so that the cutting operation of the cutter on the material is realized;

in addition, during cutting, a sensor can be arranged according to actual production requirements to determine whether the sticky food exists between every two sticky food, so that the sticky food can be transmitted to the control panel, and then the control panel controls the driving source to cut.

As a preferable example, the end part of the conveyor belt at one side of the cutter mechanism is also provided with an external vibrating screen or a spiral conveyor for receiving materials.

As a preferred example, each of the dusters includes a dusting hopper having a bottom communicating with a top of the conveyor belt, and a brush rotatably provided inside the dusting hopper.

As a preferred example, the bottom of the extrusion head communicates with the molding die via a flange.

The utility model has the advantages that: the device mainly utilizes the hopper, the extrusion head and the material preparation mould to prepare the glutinous food, and has the advantages of fast forming, can change material making moulds with various shapes to produce cylindrical and flake wrappers and can also collect redundant powder and dust, the pressure stabilizing mechanism in the hopper is utilized to prevent the splashing of the materials in the hopper, and three powder spreaders are utilized, dusting the surface of Margarita on the conveyer belt and the conveyer belt to avoid sticking on the conveyer belt, in addition, the cutting knife is used for cutting, so that the phenomenon that two or more adjacent glutinous foods are mutually adhered is avoided, the glutinous foods are conveyed to an external vibrating screen or a spiral conveyor by a conveyor belt, in addition, the powder collecting hopper is used for receiving the residual powder on the conveying belt, and the powder collecting drawer is used for pouring the powder, so that the production requirement is met, and the processing efficiency is improved.

Drawings

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

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

FIG. 3 is a schematic structural view of portion A of FIG. 1;

FIG. 4 is a schematic structural diagram of portion B of FIG. 1;

fig. 5 is a schematic structural view of the powder spreader of the present invention;

fig. 6 is a control block diagram of a control panel of the present apparatus.

In the figure: the device comprises a rack 1, a conveyor belt 2, a hopper 3, a packing auger 4, an extrusion head 5, a material preparation mold 6, a powder spreader 7, a powder spreading hopper 71, a brush 72, a powder collecting hopper 8, a powder collecting drawer 9, a first motor 10, a first main chain wheel 11, a first auxiliary chain wheel 12, a first chain 13, a transverse roller 14, a second motor 15, a third motor 16, a cutter mechanism 17 and a control panel 18.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the functions of the present invention easy to understand and understand, the present invention is further explained by combining the following specific drawings.

As shown in fig. 1-6, the glutinous food forming integrated machine comprises a frame 1, rollers are further arranged at the bottom of the frame 1, a conveyor belt 2 is mounted at the top of the frame 1, a hopper 3 is further fixedly mounted at the top of the frame 1, an auger 4 is rotatably connected inside the hopper 3, a pressure stabilizing mechanism is further arranged inside the hopper 3 and used for avoiding the situation that dust generated when the auger 4 inside the hopper 3 rotates splashes, an extrusion head 5 is communicated with one end of the hopper 3, one end of the extrusion head 5 is communicated with a material making mold 6, the hopper 3, the extrusion head 5 and the material making mold 6 are all positioned above the conveyor belt 2, a cutter mechanism is further arranged at one end of the top of the frame 1 and used for cutting materials conveyed by the conveyor belt 2, three powder spreaders 7 are further arranged at the top of the frame 1, one of the powder spreaders 7 is used for spreading powder on the surface of the materials, the other two spreaders 7 are used for spreading powder on the conveyor belt 2, the bottom of frame 1 still is equipped with two powder collection hoppers 8 for connect the material on the conveyer belt 2, all is equipped with powder collection drawer 9 on two powder collection hoppers 8.

Still be equipped with first motor element in the frame 1 for drive conveyer belt 2 rotates, it includes first motor 10, first main chain wheel 11, first from sprocket 12 and first chain 13, first motor 10 fixes in frame 1, and first main chain wheel 11 is fixed at first motor 10 output, and conveyer belt 2 installs at frame 1 top through a plurality of roller rolls, and first from sprocket 12 is fixed cup joints on one of them roller, and first chain 13 cup joints jointly on first main chain wheel 11 and first from sprocket 12.

The pressure stabilizing mechanism is a transverse roller 14 and a second motor assembly, the transverse roller 14 and the packing auger 4 are arranged in a cross shape in the hopper 3, the transverse roller 14 is also rotatably connected in the hopper 3, one end of the transverse roller 14 extends out of the hopper 3, the transverse roller 14 is close to but not in contact with the packing auger 4 in the hopper 3, the second motor assembly comprises a second motor 15, a second main chain wheel, a second chain and a second driven chain wheel, the second motor 15 is fixed in the rack 1, the second main chain wheel is fixed at the output end of the second motor 15, the second driven chain wheel is fixed on the transverse roller 14 outside the hopper 3, and the second chain is jointly sleeved on the second main chain wheel and the second driven chain wheel.

The transverse roller 14 is in a bamboo joint shape with a round top and a round bottom and a glass side wall.

Still be equipped with the third motor element in the frame 1 for drive auger 4 transmission, the third motor element includes third motor 16, the third main chain wheel, third chain and third follow sprocket, third motor 16 is fixed at the top of frame 1, and the third main chain wheel is fixed at the 16 output of third motor, the number of auger 4 is a plurality of, the one end of every two adjacent auger 4 passes through connecting piece interconnect, hopper 3 is stretched out to the one end of one of them auger 4, the fixed cup joint of third follow sprocket is on the auger 4 who stretches out hopper 3, the third chain cup joints jointly on third main chain wheel and third follow sprocket.

The three dusters 7, the hopper 3 and the cutter mechanism 17 are distributed on the top of the conveyor belt 2 in sequence from left to right to form the dusters 7, the hopper 3, the dusters 7, the cutter mechanism 17 and the dusters 7.

The cutter mechanism 17 comprises a box body, a driving source and a cutter, wherein a fixed end of the driving source is fixedly arranged on the box body, a movable end of the driving source is positioned outside the box body, and the cutter and the movable end of the driving source are fixed.

The driving source may be one of an air cylinder, an oil cylinder, and an electric push rod.

The end part of the conveyor belt 2 at one side of the cutter mechanism 17 is also provided with an external vibrating screen or a spiral conveyor for receiving materials.

The bottom of the extrusion head 5 is communicated with a material making mould 6 through a flange, and the material making mould 6 can be designed according to the actual use condition of materials, such as the shape, the size and the like of pearls in milk tea.

Every duster 7 includes dusting hopper 71 and brush 72, dusting hopper 71's bottom is linked together with the top of conveyer belt 2, brush 72 rotates and establishes the inside at dusting hopper 71, brush 72 includes axle and brush hair, the brush hair is located the axle middle part, and the tip of brush hair is close but contactless with dusting hopper 71 bottom lateral wall, dusting hopper 71 is stretched out to the one end of axle, according to the in-service use condition, want under the dusting condition, realize that the powder can spill on conveyer belt 2, mainly there are following three kinds of realization:

firstly, a fourth motor can be arranged on a frame 1, belt pulleys are respectively arranged on a shaft and the fourth motor and connected through a belt, the belt pulley connected with the fourth motor is driven to rotate through the rotation of the fourth motor, the belt pulley connected with the shaft is driven to rotate under the transmission of the belt, then the shaft is driven to rotate, then a brush is driven to rotate, and then the powder spreading purpose can be realized on a conveyor belt 2 through a powder spreading hopper 71;

secondly, a hand wheel is directly arranged at the end part of the shaft, the hand wheel is directly rotated to drive the shaft to rotate and further drive the brush to rotate, and then the powder scattering purpose can be realized on the conveying belt 2 through the powder scattering hopper 71;

thirdly, or nothing is arranged on the shaft, powder is directly scattered in the powder scattering hopper 71, the powder directly falls to drive the shaft to rotate, then the brush is driven to rotate, and then the powder scattering purpose on the conveyor belt 2 can be realized through the powder scattering hopper 71;

the frame 1 is further fixedly provided with a control panel 18 for controlling the first motor, the second motor, the third motor, and the fourth motor (if the duster 7 is controlled by the above-mentioned scheme, the control panel 18 needs to control the fourth motor, and therefore the fourth motor is indicated by a dashed-line frame in fig. 6), and the driving source is turned on or off.

The working principle is as follows:

firstly, a hopper 3, an extrusion head 5 and a material preparation mould 6 are utilized to prepare glutinous food, the material preparation mould has the characteristics of fast forming and multiple shapes can be changed to produce cylindrical and flake wrappers, and can also collect redundant powder and dust, the condition that the materials splash in the hopper 3 is prevented by utilizing a pressure stabilizing mechanism in the hopper 3, three powder spreaders 7 are utilized to spread powder on the surfaces of pearls on milk tea on a conveying belt 2 and the conveying belt 2 so as not to be adhered to the conveying belt 2, a cutter is utilized to cut the pearls, the pearls are conveyed to an external vibrating screen or a spiral conveyor by the conveying belt 2, in addition, a powder collecting hopper 8 is utilized to receive the residual powder on the conveying belt 2, and a powder collecting drawer 9 is utilized to pour the materials, so that the production requirement is met, and the processing efficiency is improved.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and such changes and modifications fall within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. Waxy food shaping all-in-one, including frame (1), the bottom of frame (1) still is equipped with gyro wheel, its characterized in that: the conveying belt (2) is installed at the top of the rack (1), the hopper (3) is fixedly installed at the top of the rack (1), the packing auger (4) is connected to the inner portion of the hopper (3) in a rotating mode, a pressure stabilizing mechanism is further arranged inside the hopper (3) and used for avoiding the situation that dust generated by the packing auger (4) inside the hopper (3) in the rotating mode splashes, an extrusion head (5) is arranged in a communicated mode at the end portion of one end of the hopper (3), a material manufacturing mold (6) is detachably communicated with one end of the extrusion head (5), the hopper (3), the extrusion head (5) and the material manufacturing mold (6) are all located above the conveying belt (2), a cutter mechanism is further arranged at one end of the top of the rack (1) and used for cutting materials conveyed by the conveying belt (2), and three powder spreaders (7) are further arranged at the top of the rack (1), one of them duster (7) are used for dusting the surface of material, and two of another duster (7) are used for dusting conveyer belt (2), the bottom of frame (1) still is equipped with two collection powder fill (8) for connect the material on conveyer belt (2), two all be equipped with collection powder drawer (9) on collection powder fill (8).

2. The waxy food molding all-in-one machine according to claim 1, characterized in that: still be equipped with first motor element on frame (1) for drive conveyer belt (2) rotate, it includes first motor (10), first main chain wheel (11), first from sprocket (12) and first chain (13), first motor (10) are fixed in frame (1), first main chain wheel (11) are fixed in first motor (10) output, conveyer belt (2) are installed at frame (1) top through a plurality of roller, just first from sprocket (12) are fixed cup joint in one of them on the roller, first chain (13) cup joint jointly on first main chain wheel (11) and first from sprocket (12).

3. The waxy food molding all-in-one machine according to claim 1, characterized in that: the pressure stabilizing mechanism is a transverse roller (14) and a second motor component, the transverse roller (14) and the packing auger (4) are arranged in the hopper (3) in a cross shape, the transverse roller (14) is also rotatably connected in the hopper (3), and one end part of the transverse roller (14) extends out of the hopper (3), the transverse roller (14) is close to but not contacted with the packing auger (4) in the hopper (3), the second motor component comprises a second motor (15), a second main chain wheel, a second chain and a second auxiliary chain wheel, the second motor (15) is fixed in the rack (1), and the second main chain wheel is fixed at the output end of a second motor (15), the second driven chain wheel is fixed on a transverse roller (14) positioned outside the hopper (3), and the second chain is sleeved on the second main chain wheel and the second driven chain wheel together.

4. The waxy food molding all-in-one machine according to claim 3, characterized in that: the transverse roller (14) is in a bamboo joint shape with a round top and a round bottom and a glass side wall.

5. The waxy food molding all-in-one machine according to claim 1, characterized in that: still be equipped with third motor element in frame (1) for drive auger (4) transmission, third motor element includes third motor (16), third main chain wheel, third chain and third follow sprocket, the top in frame (1) is fixed in third motor (16), just third main chain wheel is fixed at third motor (16) output, the number of auger (4) is a plurality of, and is per two adjacent connecting piece interconnect is passed through to the one end of auger (4), one of them hopper (3) is stretched out to the one end of auger (4), the third follows sprocket fixed cup joint on auger (4) that stretch out hopper (3), the third chain cup joints jointly on third main chain wheel and third follow sprocket.

6. The waxy food molding all-in-one machine according to claim 1, characterized in that: the three powder spreaders (7), the hopper (3) and the cutter mechanism (17) are distributed on the top of the conveyor belt (2) from left to right in sequence, wherein the powder spreaders (7), the hopper (3), the powder spreaders (7), the cutter mechanism (17) and the powder spreaders (7) are arranged on the top of the conveyor belt.

7. The waxy food molding all-in-one machine according to claim 6, characterized in that: cutter mechanism (17) are including box, driving source and cutter, fixed mounting driving source stiff end on the box, the driving source expansion end is located the box outside, the cutter is fixed with the driving source expansion end.

8. The waxy food molding all-in-one machine according to claim 1, characterized in that: and an external vibrating screen or a spiral conveyor for receiving materials is further arranged at the end part of the conveyor belt (2) positioned on one side of the cutter mechanism (17).

9. The waxy food molding all-in-one machine according to claim 1, characterized in that: every duster (7) are including dusting hopper (71) and brush (72), the bottom of dusting hopper (71) is linked together with the top of conveyer belt (2), inside at dusting hopper (71) is established in the rotation of brush (72).

10. The waxy food molding all-in-one machine according to claim 1, characterized in that: the bottom of the extrusion head (5) is communicated with the material manufacturing mould (6) through a flange.

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