CN114128906A - System for rapidly processing silkworm artificial feed prepared from fresh mulberry leaves - Google Patents

Abstract

The invention belongs to the technical field of special feed equipment, and relates to a system for quickly processing artificial feed for silkworm by using fresh mulberry leaves, which comprises a mulberry leaf twig crushing device, an ultrafine shearing quick pulping device, a quantitative powder curing device, a powerful mixing and homogenizing device and a powerful mixing and homogenizing device which are sequentially arranged along the mulberry leaf processing flow direction, wherein the discharge end of the mulberry leaf twig crushing device is connected with the feed end of the ultrafine shearing quick pulping device, the discharge end of the ultrafine shearing quick pulping device and the discharge end of the quantitative feeding and pulverizing device are both connected with the feed end of the powerful mixing and homogenizing device, and the discharge end of the powerful mixing and homogenizing device is connected with the feed end of the powerful mixing and homogenizing device. The processing system can efficiently and quickly process the mulberry leaves into the feed, and has the characteristics of low labor intensity, low nutrient loss and high feed quality.

Description

System for rapidly processing silkworm artificial feed prepared from fresh mulberry leaves

Technical Field

The invention belongs to the technical field of special feed equipment, and relates to a system for quickly processing silkworm artificial feed prepared from fresh mulberry leaves.

Background

The silk industry of silkworm silk relates to a plurality of fields such as planting and breeding, processing and manufacturing, business circulation, cultural originality and the like, gathers a large number of economic organizations such as small and medium-sized micro-enterprises, farmers, merchants, cooperative society and the like, and is a typical of the collaborative development of two industries, three industries and the harmonious development of large, medium-sized and small enterprises. In recent years, although the silkworm silk industry has actively progressed in the aspects of technical progress, structural adjustment, brand construction and the like, the production mode of silkworm breeding and silkworm breeding is lagged, the innovative design capability is not strong, and the unstable uncertainty of the industry development is increased for a long time. With the continuous and rapid development of social economy, a new path for sustainable development is urgently needed to be found as the sericulture industry crossing the breeding industry, so that the artificial feed intensification and industrial sericulture are realized, and the dream of each sericulture is realized. Promotes the high-quality development of the silk industry, popularizes and applies the artificial feed silkworm breeding technology, and completely meets the target requirements of agricultural ecology and high-quality development.

At present, the artificial feed for silkworms is prepared by a method that mulberry leaf powder, soybean meal powder, corn flour, water and additives are quantified according to a certain proportion and are put into a mixing stirrer to be mixed, the mixed material is put into a tray and is sent into a cooking box to be cooked, and the processing method has the following problems: 1. the fresh mulberry leaves are dried by hot air or dried in the sun, the mulberry leaves are collected and stacked for a long time, the quality is reduced, and the drying and heating time is long, so that the nutrition loss is large; 2. the mulberry leaves are crushed into powder by adopting dry crushing, so that dust pollution and heat are generated in the crushing process, and the mulberry leaf powder is oxidized by contacting with a large amount of air, so that the quality of the mulberry leaf powder is reduced; 3. high-viscosity materials formed by mixing and stirring a plurality of powder materials are not uniform in mixing and stirring, the material discharge of a machine is not clean, and bacterial pollution can be generated after long-time operation; 4. the high-viscosity material with a certain thickness is placed into the tray and sent into the cooking box, the cooking time is long, the material denaturation is serious, and the nutrition loss is large. How to invent an efficient processing system, the fresh mulberry leaves are rapidly processed into the artificial feed for the silkworms in a short time, which not only can simplify the manufacturing process, improve the processing efficiency and lighten the labor intensity, but also can ensure that the fresh mulberry leaves are heated for a short time, the nutrient content of the mulberry leaves can be furthest reserved, and the ingestion of the silkworms is improved.

Disclosure of Invention

Aiming at the problems, the invention provides a system for quickly processing the artificial silkworm feed prepared from fresh mulberry leaves, which can efficiently and quickly process the mulberry leaves into the feed and has the characteristics of low labor intensity, low nutrition loss and high feed quality.

According to the technical scheme of the invention: a quick processing system of fresh mulberry leaf preparation silkworm artificial feed, its characterized in that: comprises a mulberry leaf twig crushing device, a shearing superfine rapid pulping device, a powder quantitative curing device, a strong mixing homogenizing device and an extrusion temperature-control forming device which are sequentially arranged along the mulberry leaf processing flow direction,

the discharge end of the mulberry leaf twig crushing device is connected with the feed end of the shearing superfine rapid pulping device, the discharge end of the shearing superfine rapid pulping device and the discharge end of the quantitative feeding crushing device are both connected with the feed end of the powerful mixing homogenizing device, and the discharge end of the powerful mixing homogenizing device is connected with the feed end of the extrusion temperature control forming device.

As a further improvement of the invention, the shearing superfine rapid pulping device comprises a first base, wherein a crushing part and a first feeding part are arranged on the first base, the feeding end of the crushing part is hermetically connected with a first container, the lower part of the inner cavity of the first container is provided with a material stirring part, the discharging end of the crushing part is connected with the feeding end of the first feeding part, the discharging end of the first feeding part forms the discharging end of the shearing superfine rapid pulping device, and the crushing part is driven by a first power mechanism.

As a further improvement of the invention, the crushing component comprises a crushing cavity and a cavity upper cover fixedly connected with the crushing cavity;

a first main shaft is rotatably arranged in the crushing cavity, a movable cutter head is arranged on the movable cutter head, a fixed cutter head is arranged on the bottom surface of the upper cover of the cavity, and the fixed cutter head is arranged on the fixed cutter head and matched with the movable cutter head.

As a further improvement of the invention, a material pressing spiral part is arranged on the first main shaft corresponding to the upper end of the movable cutter head.

As a further improvement of the present invention, the first power mechanism includes a first driving motor mounted on the first base, and a belt wheel of an output shaft of the first driving motor is connected with a belt wheel of the first spindle by a belt.

As a further improvement of the invention, the powerful mixing and homogenizing device comprises a second base, a fine mixing component is arranged on the second base, the feeding end of the fine mixing component is hermetically connected with the second container, the discharging end of the fine mixing component is connected with the feeding end of the second feeding component, and the fine mixing component is driven by a second power mechanism.

As a further improvement of the invention, the micro-mixing component is driven by a second main shaft, the upper end of the second main shaft is fixedly connected with a stirring pressing-down component, and the stirring pressing-down component is arranged in the second container.

As a further improvement of the present invention, the second power mechanism includes a second driving motor mounted on the second base, and a belt pulley of an output shaft of the second driving motor is connected with a belt pulley of the second spindle by a belt in a tensioning manner.

As a further improvement of the invention, the extrusion temperature-control forming device comprises a screw barrel, wherein a stirring extrusion screw is rotatably arranged in the screw barrel; the circumference surface of the screw barrel is sleeved with a heat exchange jacket, the outer surface of the heat exchange jacket is fixed with a heat preservation layer shell, and the discharge end of the screw barrel is fixedly connected with a molding die head.

As a further improvement of the invention, the top of the second container of the intensive mixing and homogenizing device is connected with a water purifying connecting pipe, and the side part of the second container is provided with a steam interface.

The invention has the technical effects that: the mulberry leaf and twig crushing device, the shearing superfine rapid pulping device, the powder quantitative curing device, the strong mixing homogenizing device and the extrusion temperature control molding device are matched with one another to form the processing device, the processing characteristics of high processing efficiency and short heating time of the mulberry silkworm feed can be realized, and the processed mulberry silkworm feed is small in nutrient loss, high in quality and good in palatability of silkworms.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic structural view of a shearing ultra-fine rapid pulping apparatus.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

FIG. 4 is a schematic structural diagram of an intensive mixing and homogenizing device.

Fig. 5 is a partially enlarged view of fig. 1 at B.

FIG. 6 is a process flow diagram of the present invention.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings.

In the figures 1-6, the device comprises an electric control box 1, a mulberry leaf twig crushing device 2, a superfine shearing rapid pulping device 3, a first machine base 3-1, a first driving motor 3-2, a first main shaft 3-3, a crushing part 3-4, a crushing cavity 3-4-1, a movable cutter head 3-4-2, a movable cutter head 3-4-3, a fixed cutter head 3-4-4, a fixed cutter head 3-4-5, a cavity upper cover 3-4-6, a pressing screw part 3-4-7, a first feeding part 3-5, a material shifting part 3-6, a first container 3-7, a powder quantitative curing device 4, a powerful mixing homogenizing device 5, a second machine base 5-1, a second driving motor 5-2, a second main shaft 5-3, a second machine base 5-3, 5-4 parts of a micro-fine mixing part, 5-5 parts of a second feeding part, 5-6 parts of a stirring pressing part, 5-7 parts of a second container, 6 parts of a quantitative liquid feeding device, 7 parts of a quantitative steam feeding device, 8 parts of an extrusion temperature control forming device, 8-1 parts of a stirring extrusion screw, 8-2 parts of a screw cylinder, 8-3 parts of a heat exchange jacket, 8-4 parts of a heat insulation layer shell, 8-5 parts of a forming die head, 9 parts of a material receiving trolley and the like.

As shown in figures 1-6, the invention relates to a system for rapidly processing silkworm artificial feed prepared from fresh mulberry leaves, which comprises a mulberry leaf twig crushing device 2, a shearing superfine rapid pulping device 3, a powder quantitative curing device 4, a strong mixing and homogenizing device 5 and an extrusion temperature-control forming device 8 which are sequentially arranged along the mulberry leaf processing flow direction.

The discharge end of the mulberry leaf twig crushing device 2 is connected with the feed end of the shearing superfine rapid pulping device 3, the discharge end of the shearing superfine rapid pulping device 3 and the discharge end of the quantitative feeding crushing device 4 are both connected with the feed end of the powerful mixing homogenizing device 5, and the discharge end of the powerful mixing homogenizing device 5 is connected with the feed end of the extrusion temperature control forming device 8.

It can be understood that, as shown in fig. 1, when the product of the invention is applied specifically, the product further comprises an electrical control box 1, and the electrical control box 1 controls the working conditions of the mulberry leaf twig crushing device 2, the shearing superfine rapid pulping device 3, the powder quantitative aging device 4, the intensive mixing and homogenizing device 5 and the extrusion temperature-control molding device 8, so as to ensure that the whole production line can safely and stably produce the cooked silkworm feed according to the set beat.

The mulberry leaf twig crushing device 2 is mainly used for coarsely crushing mulberry leaves in an initial state, a conventional crusher can be adopted, and a motor can be adopted to drive a cutter head to rotate in the accommodating cavity, so that preliminary shearing and crushing of the mulberry leaves are realized.

As shown in figures 2 and 3, the shearing superfine rapid pulping device 3 comprises a first machine base 3-1, a crushing part 3-4 and a first feeding part 3-5 are arranged on the first machine base 3-1, the feeding end of the crushing part 3-4 is hermetically connected with a first container 3-7, the lower part of the inner cavity of the first container 3-7 is provided with a material shifting part 3-6, the discharging end of the crushing part 3-4 is connected with the feeding end of the first feeding part 3-5, the discharging end of the first feeding part 3-5 forms the discharging end of the shearing superfine rapid pulping device 3, and the crushing part 3-4 is driven by a first power mechanism.

The material shifting part 3-6 realizes the material shifting of the mulberry leaves in the first container 3-7 to the crushing part 3-4 by arranging a rotating wheel at the lower part of the first container 3-7, so as to realize the effective blanking of the fluffy and coarsely crushed mulberry leaves in the first container 3-7.

The crushing component 3-4 comprises a crushing cavity 3-4-1 and a cavity upper cover 3-4-6 fixedly connected with the crushing cavity 3-4-1.

A first main shaft 3-3 is rotatably arranged in a crushing cavity 3-4-1, a movable cutter head 3-4-2 is arranged on the first main shaft 3-3, a movable cutter head 3-4-3 is arranged on the movable cutter head 3-4-2, a fixed cutter head 3-4-4 is arranged on the bottom surface of a cavity upper cover 3-4-6, a fixed cutter head 3-4-5 is arranged on the fixed cutter head 3-4-4, and the fixed cutter head 3-4-5 is matched with the movable cutter head 3-4-3.

The upper end of the first main shaft 3-3 corresponding to the movable cutter head 3-4-2 is provided with a pressing spiral component 3-4-7, and in specific practice, the pressing spiral component 3-4-7 adopts a packing auger structure.

The first power mechanism comprises a first driving motor 3-2 arranged on the first base 3-1, and a belt wheel of an output shaft of the first driving motor 3-2 is connected with a belt wheel of the first main shaft 3-3 in a tensioning mode through a belt.

The shearing superfine rapid pulping device 3 can rapidly and finely pulp the coarsely crushed mulberry leaves.

As shown in FIG. 4, the intensive mixing and homogenizing device 5 comprises a second machine base 5-1, a fine mixing component 5-4 is arranged on the second machine base 5-1, the feeding end of the fine mixing component 5-4 is hermetically connected with a second container 5-7, the discharging end of the fine mixing component 5-4 is connected with the feeding end of the second feeding component 5-5, and the fine mixing component 5-4 is driven by a second power mechanism.

The micro mixing component 5-4 is driven by a second main shaft 5-3, the upper end of the second main shaft 5-3 is fixedly connected with a stirring and pressing component 5-6, and the stirring and pressing component 5-6 is arranged in a second container 5-7. In specific use, the stirring and pressing components 5-6 adopt a hinge structure.

The micro-fine mixing component 5-4 comprises a mixing cavity, a second main shaft 5-3 is rotatably arranged in the mixing cavity, a micro-fine crushing cutter head is arranged on the second main shaft 5-3 and synchronously rotates along with the second main shaft 5-3, a fixed crushing cutter head is also arranged in the mixing cavity, and the fixed crushing cutter head is matched with the micro-fine crushing cutter head to realize micro-fine crushing of the mulberry leaf and powder mixture.

The second power mechanism comprises a second driving motor 5-2 arranged on the second base 5-1, and a belt wheel of an output shaft of the second driving motor 5-2 is connected with a belt wheel of the second spindle 5-3 in a tensioning mode through a belt.

The top of a second container 5-7 of the intensive mixing and homogenizing device 5 is connected with a quantitative liquid supply device 6, and the side part of the second container 5-7 is provided with a steam interface 7. During production, purified water is introduced into the second container 5-7 through the quantitative liquid supply device 6, steam is introduced into the second container 5-7 through the steam interface 7, the introduced purified water realizes uniform stirring and mixing of the mulberry leaf and powder mixture, and the introduced steam realizes curing of the mulberry leaf and powder mixture.

The first feeding component 3-5 and the second feeding component 5-5 aim at conveying materials to the next working procedure, and the specific structures of the first feeding component 3-5 and the second feeding component 5-5 are subject to the aim of realizing the feeding; in the invention, the first feeding part 3-5 and the second feeding part 5-5 adopt a delivery pump.

As shown in fig. 5, the extrusion temperature-control molding device 8 comprises a screw cylinder 8-2, and a stirring extrusion screw 8-1 is rotatably arranged in the screw cylinder 8-2; the circumferential surface of the screw cylinder 8-2 is sleeved with a heat exchange jacket 8-3, the outer surface of the heat exchange jacket 8-3 is fixed with a heat insulation layer shell 8-4, and the discharge end of the screw cylinder 8-2 is fixedly connected with a forming die head 8-5.

As shown in figure 1, in order to realize that the molding and discharging of the extrusion temperature-control molding device 8 can be orderly connected with materials, the material-connecting trolley 9 is matched when the extrusion temperature-control molding device is used specifically. Connect material dolly 9 to be equipped with the automatic structure of trying to get to the heart of a matter of fodder, can realize reliable effectual material operation of connecing.

As shown in fig. 6, the processing flow chart of the product of the invention during production is as follows: putting fresh mulberry leaves into a mulberry leaf twig crushing device 2, crushing the mulberry leaf twigs into chips, feeding the crushed chips into a shearing superfine rapid pulping device 3, preparing the chips processed in the previous step into leaf pulp, conveying the leaf pulp to a powerful mixing and homogenizing device 5, adding powder into the powerful mixing and homogenizing device 5 through a powder quantitative curing device 4, introducing purified water and steam into the powerful mixing and homogenizing device 5, enabling the leaf pulp and the powder to be uniformly mixed, curing operation to be achieved, feeding the mixture of the leaf pulp and the powder after the curing operation into an extrusion temperature-control forming device 8, and achieving heat preservation and forming of the feed.

Claims (10)

1. A quick processing system of fresh mulberry leaf preparation silkworm artificial feed, its characterized in that: comprises a mulberry leaf twig crushing device (2), a shearing superfine rapid pulping device (3), a powder quantitative curing device (4), a strong mixing and homogenizing device (5) and an extrusion temperature-control forming device (8) which are sequentially arranged along the mulberry leaf processing flow direction,

the discharge end of the mulberry leaf twig crushing device (2) is connected with the feed end of the shearing superfine rapid pulping device (3), the discharge end of the shearing superfine rapid pulping device (3) and the discharge end of the quantitative feeding and crushing device (4) are both connected with the feed end of the powerful mixing and homogenizing device (5), and the discharge end of the powerful mixing and homogenizing device (5) is connected with the feed end of the extrusion temperature control molding device (8).

2. The system for rapidly processing the silkworm artificial feed prepared from the fresh mulberry leaves as claimed in claim 1, which is characterized in that: the shearing superfine rapid pulping device (3) comprises a first machine base (3-1), a crushing part (3-4) and a first feeding part (3-5) are arranged on the first machine base (3-1), the feeding end of the crushing part (3-4) is hermetically connected with a first container (3-7), a material stirring part (3-6) is arranged on the lower portion of an inner cavity of the first container (3-7), the discharging end of the crushing part (3-4) is connected with the feeding end of the first feeding part (3-5), the discharging end of the first feeding part (3-5) forms the discharging end of the shearing superfine rapid pulping device (3), and the crushing part (3-4) is driven by a first power mechanism.

3. The system for rapidly processing the silkworm artificial feed prepared from the fresh mulberry leaves as claimed in claim 2, wherein the system comprises: the crushing component (3-4) comprises a crushing cavity (3-4-1) and a cavity upper cover (3-4-6) fixedly connected with the crushing cavity (3-4-1);

a first main shaft (3-3) is rotatably arranged in a crushing cavity (3-4-1), a movable cutter head (3-4-2) is installed on the first main shaft (3-3), a movable cutter head (3-4-3) is installed on the movable cutter head (3-4-2), a fixed cutter head (3-4-4) is installed on the bottom surface of a cavity upper cover (3-4-6), a fixed cutter head (3-4-5) is installed on the fixed cutter head (3-4-4), and the fixed cutter head (3-4-5) is matched with the movable cutter head (3-4-3).

4. The system for rapidly processing the silkworm artificial feed prepared from the fresh mulberry leaves as claimed in claim 3, wherein the system comprises: the upper end of the first main shaft (3-3) corresponding to the movable cutter disc (3-4-2) is provided with a pressing spiral part (3-4-7).

5. The system for rapidly processing the silkworm artificial feed prepared from the fresh mulberry leaves as claimed in claim 2, wherein the system comprises: the first power mechanism comprises a first driving motor (3-2) arranged on the first base (3-1), and a belt wheel of an output shaft of the first driving motor (3-2) is connected with a belt wheel of the first main shaft (3-3) in a tensioning mode through a belt.

6. The system for rapidly processing the silkworm artificial feed prepared from the fresh mulberry leaves as claimed in claim 1, which is characterized in that: the strong mixing and homogenizing device (5) comprises a second machine base (5-1), a fine mixing component (5-4) is arranged on the second machine base (5-1), the feeding end of the fine mixing component (5-4) is connected with a second container (5-7) in a sealing mode, the discharging end of the fine mixing component (5-4) is connected with the feeding end of the second feeding component (5-5), and the fine mixing component (5-4) is driven by a second power mechanism.

7. The system for rapidly processing the silkworm artificial feed prepared from the fresh mulberry leaves as claimed in claim 6, wherein the system comprises: the micro mixing component (5-4) is driven by a second main shaft (5-3), the upper end of the second main shaft (5-3) is fixedly connected with a stirring and pressing component (5-6), and the stirring and pressing component (5-6) is arranged in a second container (5-7).

8. The system for rapidly processing the silkworm artificial feed prepared from the fresh mulberry leaves as claimed in claim 6, wherein the system comprises: the second power mechanism comprises a second driving motor (5-2) arranged on a second base (5-1), and a belt wheel of an output shaft of the second driving motor (5-2) is connected with a belt wheel of a second main shaft (5-3) in a tensioning mode through a belt.

9. The system for rapidly processing the silkworm artificial feed prepared from the fresh mulberry leaves as claimed in claim 1, which is characterized in that: the extrusion temperature-control forming device (8) comprises a screw barrel (8-2), and a stirring extrusion screw (8-1) is rotatably arranged in the screw barrel (8-2); the circumference surface of the screw cylinder (8-2) is sleeved with a heat exchange jacket (8-3), the outer surface of the heat exchange jacket (8-3) is fixed with a heat insulation layer shell (8-4), and the discharge end of the screw cylinder (8-2) is fixedly connected with a forming die head (8-5).

10. The system for rapidly processing the silkworm artificial feed prepared from the fresh mulberry leaves as claimed in claim 1, which is characterized in that: the top of a second container (5-7) of the powerful mixing and homogenizing device (5) is connected with a water purifying connecting pipe (6), and the side part of the second container (5-7) is provided with a steam interface (7).

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