CN212975301U - Reducing mechanism is used in oligopeptide production - Google Patents

Reducing mechanism is used in oligopeptide production Download PDF

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Publication number
CN212975301U
CN212975301U CN202021529133.5U CN202021529133U CN212975301U CN 212975301 U CN212975301 U CN 212975301U CN 202021529133 U CN202021529133 U CN 202021529133U CN 212975301 U CN212975301 U CN 212975301U
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China
Prior art keywords
crushing
box
roller
bearing
bearing box
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CN202021529133.5U
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Chinese (zh)
Inventor
包卫洋
王祖哲
赵林英
孙天利
张延胜
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Dalian Bluescitech Technology Development Co ltd
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Dalian Bluescitech Technology Development Co ltd
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Abstract

The utility model discloses a crushing device for oligopeptide production, which relates to the technical field of oligopeptide processing and solves the technical problems that the existing crushing device for oligopeptide production only adopts one-time crushing, so that the oligopeptide is not thoroughly crushed and the working efficiency of the crushing device for oligopeptide production is reduced, and comprises a bearing box, wherein the upper wall surface of the bearing box is provided with a feed hopper, a primary crushing device is fixedly arranged in the bearing box below the feed hopper, a baffle is fixedly arranged in the bearing box and below the primary crushing device, and a secondary crushing device is fixedly arranged in the bearing box and below the baffle, the utility model discloses a secondary crushing is carried out on raw materials by matching the primary crushing device and the secondary crushing device, thereby improving the working efficiency of the crushing device, improving the yield of the oligopeptide, recovering raw materials which are not completely crushed by a recovery device and carrying out secondary crushing, thereby improving the utilization rate of the waste.

Description

Reducing mechanism is used in oligopeptide production
Technical Field
The utility model relates to an oligopeptide processing technology field specifically is a reducing mechanism is used in oligopeptide production.
Background
The oligopeptide is prepared by refining and processing skin and bone of deep sea fish which have no pollution or relatively small pollution as raw materials, and is a novel ingredient of nutritional health food.
When the oligopeptide is processed, need smash the raw materials to guarantee the accuracy of follow-up processing, the reducing mechanism for the oligopeptide production that has now mostly adopts disposable crushing, owing to only use disposable crushing, thereby make the kibbling not thorough of oligopeptide raw materials, still have some great raw materials in the resultant, reduce the work efficiency of reducing mechanism for the oligopeptide production, thereby influence the manufacture process of follow-up processing.
SUMMERY OF THE UTILITY MODEL
Not enough to prior art, the utility model provides a reducing mechanism is used in oligopeptide production has solved current reducing mechanism is used in oligopeptide production and has only adopted one shot crushing to lead to the oligopeptide to smash thoroughly inadequately, reduce the technical problem of reducing mechanism work efficiency for the oligopeptide production.
In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a reducing mechanism is used in oligopeptide production, includes the carrier box, the feeder hopper is installed to the wall on the carrier box, be located feeder hopper below fixed mounting and have elementary reducing mechanism in the carrier box, just be located elementary reducing mechanism below fixed mounting and have the baffle in the carrier box, just be located baffle below fixed mounting and have secondary reducing mechanism in the carrier box, just be located secondary reducing mechanism below fixed mounting and have the filter in the carrier box, the guide mouth has been seted up on the carrier box side wall, the guide mouth is connected with the filter, fixed mounting has recovery unit on the carrier box side wall, recovery unit is connected with the guide mouth, the discharge gate has been seted up to the carrier box lower wall.
Preferably, primary reducing mechanism includes the dog that a pair of structure is the same, and is a pair of dog fixed mounting is in bearing box internal face both sides, it is a pair of just be located in the bearing box movable mounting has the roller of rolling between the dog, wall behind the bearing box is run through to roller one end, fixed mounting has the protective housing on the wall behind the bearing box, fixed mounting has first motor in the protective housing, first motor drive end and roller through end fixed connection roll.
Preferably, the rolling roller and the stop block are respectively provided with a plurality of crushing sawteeth with the same structure.
Preferably, the secondary crushing device comprises a secondary crushing box, the secondary crushing box is fixedly installed in the bearing box and located below the baffle, a first opening is formed in one end of the upper wall surface of the secondary crushing box, the baffle is connected with the first opening, a first crushing roller is movably installed in the secondary crushing box, a second crushing roller is movably installed in the secondary crushing box and located on one side of the first crushing roller, the first crushing roller and the second crushing roller are parallel to each other, one ends of the first crushing roller and the second crushing roller penetrate through the secondary crushing box and the other side wall surface of the bearing box, belt pulleys are respectively and fixedly installed on the penetrating ends of the first crushing roller and the second crushing roller, a transmission belt is sleeved between the belt pulleys, an assembling box is fixedly installed on the other side wall surface of the bearing box, a second motor is fixedly installed in the assembling box, and a driving end of the second motor is fixedly connected with the penetrating end of the first crushing roller, and a second opening is formed in the lower wall surface of the secondary crushing box.
Preferably, the first and second mill rollers are helical mill rollers, and the first and second mill rollers are engaged with each other.
Preferably, the recycling device comprises a recycling box, the recycling box is fixedly mounted on the side wall surface of the bearing box, the material guide port is communicated with the inner cavity of the recycling box, a bearing is fixedly mounted on the lower wall surface in the recycling box, a screw rod is fixedly mounted on the upper wall surface and the inner ring of the bearing in the recycling box, the upper end of the screw rod penetrates through the upper wall surface of the recycling box, and a third motor is fixedly mounted on the penetrating end of the screw rod.
Preferably, the upper end of the side wall surface of the recovery box is provided with a guide plate, and the guide plate penetrates through the side wall surface of the bearing box.
Preferably, a pair of the stoppers are in a concave structure.
Advantageous effects
The utility model provides a reducing mechanism is used in oligopeptide production has solved current reducing mechanism is used in oligopeptide production and has only adopted one time to smash to lead to the oligopeptide to smash thoroughly inadequately, reduce the technical problem of reducing mechanism work efficiency is used in oligopeptide production, the utility model discloses a primary crushing device and secondary reducing mechanism cooperation carry out the regrinding to the raw materials, have improved reducing mechanism's work efficiency, improve the yield of oligopeptide, retrieve not complete kibbling raw and other materials and carry out the regrinding through recovery unit, thereby have improved the utilization ratio of waste material.
Drawings
Fig. 1 is the utility model discloses a reducing mechanism's for oligopeptide production front view structure schematic diagram.
Fig. 2 is the utility model discloses a primary crushing structure schematic diagram of reducing mechanism is used in oligopeptide production.
Fig. 3 is the utility model discloses a secondary crushing structure schematic diagram of reducing mechanism is used in oligopeptide production.
In the figure: 1-a carrying case; 2-a feed hopper; 3-a baffle plate; 4-a filter plate; 5-a material guide port; 6-discharging port; 7-a stop block; 8-rolling roller; 9-a protective box; 10-a first electric machine; 11-crushing the saw teeth; 12-a secondary crushing bin; 13-a first opening; 14-a first crushing roller; 15-a second crushing roller; 16-a belt pulley; 17-a drive belt; 18-an assembly box; 19-a second electric machine; 20-a recycling bin; 21-a bearing; 22-screw rod; 23-a third motor; 24-a lead-out plate; 25-second opening.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-3, the present invention provides a technical solution: a crushing device for oligopeptide production comprises a bearing box 1, wherein a feed hopper 2 is installed on the upper wall surface of the bearing box 1, a primary crushing device is fixedly installed in the bearing box 1 below the feed hopper 2, a baffle 3 is fixedly installed in the bearing box 1 and below the primary crushing device, a secondary crushing device is fixedly installed in the bearing box 1 and below the baffle 3, a filter plate 4 is fixedly installed in the bearing box 1 and below the secondary crushing device, a material guide opening 5 is formed in the side wall surface of the bearing box 1, the material guide opening 5 is connected with the filter plate 4, a recovery device is fixedly installed on the side wall surface of the bearing box 1, the recovery device is connected with the material guide opening 5, a material outlet 6 is formed in the lower wall surface of the bearing box 1, the primary crushing device comprises a pair of stop blocks 7 with the same structure, and a pair of the stop blocks 7 are fixedly installed on two sides of the inner wall surface of the bearing box, a rolling roller 8 is movably mounted in the bearing box 1 and between the pair of stoppers 7, one end of the rolling roller 8 penetrates through the rear wall surface of the bearing box 1, a protective box 9 is fixedly mounted on the rear wall surface of the bearing box 1, a first motor 10 is fixedly mounted in the protective box 9, a driving end of the first motor 10 is fixedly connected with the penetrating end of the rolling roller 8, a plurality of crushing saw teeth 11 with the same structure are respectively arranged on the rolling roller 8 and the stoppers 7, the secondary crushing device comprises a secondary crushing box 12, the secondary crushing box 12 is fixedly mounted in the bearing box 1 and positioned below the baffle 3, one end of the upper wall surface of the secondary crushing box 12 is provided with a first opening 13, the baffle 3 is connected with the first opening 13, a first crushing roller 14 is movably mounted in the secondary crushing box 12, and a second crushing roller 15 is movably mounted on one side of the first crushing roller 14 in the secondary crushing box 12, the first crushing roller 14 and the second crushing roller 15 are parallel to each other, one end of each of the first crushing roller 14 and the second crushing roller 15 penetrates through the other side wall surface of the secondary crushing box 12 and the other side wall surface of the bearing box 1, the penetrating end of each of the first crushing roller 14 and the second crushing roller 15 is respectively and fixedly provided with a belt pulley 16, a transmission belt 17 is sleeved between the belt pulleys 16, the other side wall surface of the bearing box 1 is fixedly provided with an assembly box 18, a second motor 19 is fixedly arranged in the assembly box 18, the driving end of the second motor 19 is fixedly connected with the penetrating end of the first crushing roller 14, the lower wall surface of the secondary crushing box 12 is provided with a second opening 25, the first crushing roller 14 and the second crushing roller 15 are spiral crushing rollers, the first crushing roller 14 and the second crushing roller 15 are meshed with each other, the recovery device comprises a recovery box 20, and the recovery box 20 is fixedly arranged on the side wall surface of the bearing box 1, the material guide port 5 is communicated with the inner cavity of the recycling box 20, a bearing 21 is fixedly mounted on the lower wall surface in the recycling box 20, a screw 22 is fixedly mounted on the inner ring of the bearing 21 and the upper wall surface of the recycling box 20, the upper end of the screw 22 penetrates through the upper wall surface of the recycling box 20, a third motor 23 is fixedly mounted on the upper end of the screw 22, a guide plate 24 is mounted at the upper end of the side wall surface of the recycling box 20, the guide plate 24 penetrates through the side wall surface of the bearing box 1, and the stop block 7 is of a concave structure.
The detailed connection means is a technique known in the art, and the following mainly describes the working principle and process, and the specific operation is as follows.
Example (b): as can be known from fig. 1 to 3 of the specification, in use, the first motor 10, the second motor 19, and the third motor 23 are electrically connected to an external power source and a controller through wires, an operator controls the first motor 10, the second motor 19, and the third motor 23 to start through the controller, the driving end of the first motor 10 drives the grinding roller 8 to rotate, the second motor 19 drives the first crushing roller 14 to rotate, the first crushing roller 14 and the second crushing roller 15 are connected through the belt pulley 16 and the conveying belt 17, so that the first crushing roller 14 and the second crushing roller 15 rotate, the third motor 23 drives the screw 22 to rotate under the action of the bearing 21, the raw material to be crushed is introduced through the feed hopper 22, the raw material is primarily crushed between the grinding roller 8 and the stopper 7, the primarily crushed raw material slides to the first opening 13 on the secondary crushing box 12 through the inclined surface of the stopper 7, and carry out the crushing of rolling for the second time under the effect that first crushing roller 14 and second crushing roller 15 mesh, because first crushing roller 14 and second crushing roller 15 are spiral dress, the raw materials after consequently the second is smashed are under the drive of screw thread, move to second opening 25 department whereabouts, and descend and filter on filter 4, because filter 4 is also the slope, the qualified raw materials of smashing fall to discharge gate 6 through filter 4 and derive, the material that the volume is relatively great slides to guide opening 5 department and enters collection box 20 along with the filter 4 inclined plane, along with the route of screw rod 22 is transported to on deriving plate 24 in collection box 20, send again to between rolling roller 8 and dog 7 through deriving plate 24 and smash once more.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Claims (8)

1. A crushing device for oligopeptide production comprises a bearing box (1) and is characterized in that, the upper wall surface of the bearing box (1) is provided with a feed hopper (2), a primary crushing device is fixedly arranged in the bearing box (1) below the feed hopper (2), a baffle (3) is fixedly arranged in the bearing box (1) and below the primary crushing device, a secondary crushing device is fixedly arranged in the bearing box (1) and below the baffle (3), a filter plate (4) is fixedly arranged in the bearing box (1) and below the secondary crushing device, a material guide port (5) is arranged on the side wall surface of the bearing box (1), the material guide port (5) is connected with the filter plate (4), the recycling device is fixedly mounted on the side wall surface of the bearing box (1), the recycling device is connected with the material guide port (5), and the lower wall surface of the bearing box (1) is provided with a material outlet (6).
2. The crushing device for oligopeptide production according to claim 1, wherein the primary crushing device comprises a pair of stoppers (7) with the same structure, the pair of stoppers (7) are fixedly arranged on two sides of the inner wall surface of the bearing box (1), a rolling roller (8) is movably arranged in the bearing box (1) and between the pair of stoppers (7), one end of the rolling roller (8) penetrates through the rear wall surface of the bearing box (1), a protection box (9) is fixedly arranged on the rear wall surface of the bearing box (1), a first motor (10) is fixedly arranged in the protection box (9), and the driving end of the first motor (10) is fixedly connected with the penetrating end of the rolling roller (8).
3. The crushing device for oligopeptide production according to claim 2, wherein the rolling roller (8) and the stopper (7) are respectively provided with a plurality of crushing saw teeth (11) with the same structure.
4. The crushing device for oligopeptide production according to claim 1, wherein the secondary crushing device comprises a secondary crushing box (12), the secondary crushing box (12) is fixedly arranged in the bearing box (1) and is positioned below the baffle (3), one end of the upper wall surface of the secondary crushing box (12) is provided with a first opening (13), the baffle (3) is connected with the first opening (13), a first crushing roller (14) is movably arranged in the secondary crushing box (12), a second crushing roller (15) is movably arranged in the secondary crushing box (12) and is positioned on one side of the first crushing roller (14), the first crushing roller (14) and the second crushing roller (15) are parallel to each other, one end of the first crushing roller (14) and one end of the second crushing roller (15) penetrate through the secondary crushing box (12) and the other side wall surface of the bearing box (1), first crushing roller (14) and second crushing roller (15) run through to serve fixed mounting respectively have belt pulley (16), the cover is equipped with driving belt (17) between belt pulley (16), fixed mounting has assembly box (18) on bearing box (1) another side wall face, fixed mounting has second motor (19) in assembly box (18), second motor (19) drive end and first crushing roller (14) run through fixed connection, secondary crushing box (12) have seted up second opening (25) on the wall down.
5. The pulverizing apparatus according to claim 4, wherein the first pulverizing roller (14) and the second pulverizing roller (15) are helical pulverizing rollers, and the first pulverizing roller (14) and the second pulverizing roller (15) are engaged with each other.
6. The crushing device for oligopeptide production according to claim 1, wherein the recovery device comprises a recovery box (20), the recovery box (20) is fixedly installed on the side wall surface of the bearing box (1), the material guide port (5) is communicated with the inner cavity of the recovery box (20), a bearing (21) is fixedly installed on the inner lower wall surface of the recovery box (20), a screw rod (22) is fixedly installed between the inner upper wall surface of the recovery box (20) and the inner ring of the bearing (21), the upper end of the screw rod (22) penetrates through the upper wall surface of the recovery box (20), and a third motor (23) is fixedly installed on the penetrating end of the screw rod (22).
7. The crushing device for oligopeptide production according to claim 6, wherein a guide-out plate (24) is installed at the upper end of the side wall surface of the recovery box (20), and the guide-out plate (24) penetrates through the side wall surface of the carrying box (1).
8. The pulverizer for producing oligopeptide according to claim 2, wherein a pair of the stoppers (7) have a concave structure.
CN202021529133.5U 2020-07-29 2020-07-29 Reducing mechanism is used in oligopeptide production Active CN212975301U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202021529133.5U CN212975301U (en) 2020-07-29 2020-07-29 Reducing mechanism is used in oligopeptide production

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202021529133.5U CN212975301U (en) 2020-07-29 2020-07-29 Reducing mechanism is used in oligopeptide production

Publications (1)

Publication Number Publication Date
CN212975301U true CN212975301U (en) 2021-04-16

Family

ID=75430329

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202021529133.5U Active CN212975301U (en) 2020-07-29 2020-07-29 Reducing mechanism is used in oligopeptide production

Country Status (1)

Country Link
CN (1) CN212975301U (en)

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