CN210357459U - Improved pig brain mincing device for ganglioside raw material production - Google Patents

Abstract

The utility model discloses an improved pig brain stirring device for ganglioside raw material production, which comprises a plurality of stirring components arranged on a frame, wherein each stirring component comprises a stirring rotating shaft, every two stirring components form a stirring unit, and the two stirring rotating shafts in the same stirring unit are connected through a differential mechanism in a transmission way; the input ends of the differentials of two adjacent mincing units are in transmission connection, the input end of at least one differential is in transmission connection with a power machine, and each mincing rotating shaft is provided with a locking assembly. The stirring assemblies of the utility model are connected by the differential transmission, when one stirring assembly stops stirring to take materials, the normal work of other stirring assemblies is not affected, and the production efficiency is ensured; meanwhile, a plurality of differentials are driven by one power machine, so that the production cost is saved, and the later maintenance is simple.

Description

Improved pig brain mincing device for ganglioside raw material production

Technical Field

The utility model relates to a raw materials pulper especially relates to a pig brain pulper that modified is used for ganglioside raw materials production.

Background

The pig brain is the starting material for producing ganglioside, and the extraction of 1kg of ganglioside usually needs several tons of pig brain, and how to effectively crush the pig brain with such huge amount in the production process fully and directly affects the product yield and the production cost.

In actual production, in order to improve production efficiency, a plurality of crushing devices are generally arranged at the same time to work at the same time. However, different time for feeding the raw material will result in different stirring time of the raw material, and eventually different time for taking the raw material from different stirring devices. In order to ensure the safety of operators during material taking, the material is generally taken after the crushing device is completely stopped; if the plurality of crushing devices adopt the same power input, when one of the crushing devices needs to be taken, other crushing devices can be stopped, and the integral production efficiency is greatly influenced; if each stirring device adopts an independent power input, not only the production cost is high, but also the later maintenance is time-consuming and labor-consuming.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a pig brain stirring device that modified is used for ganglioside raw materials production, the concrete scheme is as follows:

the crushing device comprises a plurality of crushing assemblies arranged on a rack, wherein each two crushing assemblies comprise a crushing rotating shaft, each two crushing assemblies form a crushing unit, and the two crushing rotating shafts in the same crushing unit are in transmission connection through a differential mechanism; the input ends of the differentials of two adjacent mincing units are in transmission connection, the input end of at least one differential is in transmission connection with a power machine, and each mincing rotating shaft is provided with a locking assembly.

Furthermore, the bottom ends of two stirring rotating shafts in the same stirring unit are respectively sleeved with a first bevel gear and a second bevel gear, and a first fixing plate and a second fixing plate which are opposite to each other are arranged on the rack; two output shafts of the differential mechanism respectively penetrate through the first fixing plate and the second fixing plate through bearings, a third bevel gear meshed with the first bevel gear is sleeved at the tail end of one output shaft of the differential mechanism, and a fourth bevel gear meshed with the second bevel gear is sleeved at the tail end of the other output shaft of the differential mechanism.

Furthermore, a third fixing plate perpendicular to the first fixing plate and the second fixing plate is further arranged on the rack, an input shaft of the differential mechanism penetrates through the third fixing plate through a bearing, and a fifth bevel gear is sleeved on the input shaft of the differential mechanism; and a transmission shaft is arranged on the third fixing plate through a bearing seat, and a sixth bevel gear meshed with the fifth bevel gear is sleeved at the tail end of the transmission shaft.

Furthermore, a seventh bevel gear is sleeved at the tail end of an input shaft of the differential, the power machine is fixedly connected to the rack, and an eighth bevel gear meshed with the seventh bevel gear is sleeved on an output shaft of the power machine.

Furthermore, the locking assembly comprises a sliding rail arranged on the rack, a locking arm is arranged on the sliding rail through a sliding block, and the locking arm is arranged perpendicular to the sliding rail; the tail end of the locking arm is provided with a locking block which is opposite to the crushing rotating shaft.

Furthermore, a stop block is fixed on the slide rail, and an elastic spring is arranged between the stop block and the locking block; the sliding rail is further provided with a plurality of limiting holes which are uniformly distributed along the axial direction, the sliding block is provided with a through hole which is right opposite to the limiting holes, and a limiting bolt matched with the limiting holes is arranged in the through hole.

Furthermore, the side face of the locking block, which is opposite to the crushing rotating shaft, is provided with a wear-resistant layer.

The beneficial effects of the utility model reside in that: the utility model provides an improved pig brain stirring device for ganglioside raw material production, wherein the stirring components are connected through differential transmission, when one stirring component stops stirring to take materials, the normal work of other stirring components is not affected, and the production efficiency is ensured; meanwhile, a plurality of differentials are driven by one power machine, so that the production cost is saved, and the later maintenance is simple.

Drawings

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

FIG. 2 is a schematic view I (front view direction) of the differential mechanism according to embodiment 1 of the present invention,

FIG. 3 is a schematic view II (in a top view) of the connection of the differential according to embodiment 1 of the present invention,

figure 4 is a schematic structural diagram of a locking assembly in accordance with embodiment 2 of the present invention,

figure 5 is a schematic structural diagram of a locking assembly in accordance with embodiment 3 of the present invention,

fig. 6 is a schematic view of the connection between the sliding block and the sliding rail according to embodiment 3 of the present invention.

Figure number and name: 1. the automatic transmission device comprises a rack, 2, a crushing component, 3, a crushing rotating shaft, 4, a differential mechanism, 5, a power machine, 6, a first bevel gear, 7, a second bevel gear, 8, a first fixing plate, 9, a second fixing plate, 10, a third bevel gear, 11, a fourth bevel gear, 12, a third fixing plate, 13, a fifth bevel gear, 14, a transmission shaft, 15, a sixth bevel gear, 16, a seventh bevel gear, 17, an eighth bevel gear, 18, a sliding rail, 19, a sliding block, 20, a locking arm, 21, a locking block, 22, a stop block, 23, an elastic spring, 24, a limiting hole, 25, a through hole, 26 and a limiting bolt.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples, which are provided only for explaining the present invention and are not intended to limit the scope of the present invention.

Example 1

With reference to fig. 1-3, an improved pig brain mincing device for ganglioside raw material production comprises a plurality of mincing components 2 arranged on a frame 1, wherein each mincing component 2 comprises a mincing rotating shaft 3, every two mincing components 2 form a mincing unit, and the two mincing rotating shafts 3 in the same mincing unit are in transmission connection through a differential mechanism 4; the input ends of the differentials 4 of two adjacent mincing units are in transmission connection, the input end of at least one differential 4 is in transmission connection with a power machine 5, and each mincing rotating shaft 3 is provided with a locking component (not shown in the attached drawings)

The bottom ends of two stirring rotating shafts 3 in the same stirring unit are respectively sleeved with a first bevel gear 6 and a second bevel gear 7, and a first fixing plate 8 and a second fixing plate 9 which are opposite to each other are arranged on the rack 1; two output shafts of the differential mechanism 4 respectively penetrate through a first fixing plate 8 and a second fixing plate 9 through bearings, a third bevel gear 10 meshed with the first bevel gear 6 is sleeved at the tail end of one output shaft of the differential mechanism 4, and a fourth bevel gear 11 meshed with the second bevel gear 7 is sleeved at the tail end of the other output shaft of the differential mechanism 4.

A third fixing plate 12 which is perpendicular to the first fixing plate 8 and the second fixing plate 9 is further arranged on the rack 1, an input shaft of the differential 4 penetrates through the third fixing plate 12 through a bearing, and a fifth bevel gear 13 is sleeved on the input shaft of the differential 4; a transmission shaft 14 is arranged on the third fixing plate 12 through a bearing seat, and a sixth bevel gear 15 meshed with the fifth bevel gear 13 is sleeved at the tail end of the transmission shaft 14.

The end of the input shaft of the differential 4 is sleeved with a seventh bevel gear 16, the power machine 5 is fixedly connected to the frame 1, and the output shaft of the power machine 5 is sleeved with an eighth bevel gear 17 meshed with the seventh bevel gear 16.

The working principle of the embodiment is as follows by referring to the attached drawings of the specification:

after the power machine is started, the input shaft of the differential mechanism is driven to rotate through the eighth bevel gear and the seventh bevel gear, so that two output shafts of the differential mechanism are driven to output to the two crushing rotating shafts respectively, and the normal work of the crushing assembly is guaranteed; meanwhile, the input shaft of the differential mechanism of the other mincing unit is driven by the fifth bevel gear and the sixth bevel gear, so that the normal work of a plurality of mincing components is realized by one power machine; when material is required to be taken, the stirring rotating shaft of one stirring assembly is stopped through the locking assembly, so that the safety of an operator is fully guaranteed, and due to the existence of the differential mechanism, the normal work of the other stirring rotating shaft can not be influenced when the certain stirring rotating shaft is stopped.

Example 2

Referring to fig. 4, the locking assembly includes a slide rail 18 disposed on the frame 1, a locking arm 20 is disposed on the slide rail 18 through a slide block 19, and the locking arm 20 is disposed perpendicular to the slide rail 18; the end of the locking arm 20 is provided with a locking block 21 which is opposite to the mincing rotating shaft 3. The side surface of the locking block 21 opposite to the mincing rotating shaft 3 is provided with a wear-resistant layer. Compare in embodiment 1, the structure of locking subassembly has been injectd to this embodiment, realizes stirring garrulous stopping of subassembly through operation locking arm near stirring garrulous pivot, and is easy and simple to handle, facilitate promotion.

Example 3

With reference to fig. 5 and 6, a stopper 22 is fixed on the slide rail 18, and an elastic spring 23 is disposed between the stopper 22 and the locking block 21; the slide rail 18 is also provided with a plurality of limiting holes 24 which are uniformly arranged along the axial direction, the slide block 19 is provided with a through hole 25 which is just opposite to the limiting holes 24, and a limiting bolt 26 which is matched with the limiting holes 24 is arranged in the through hole 25. Compared with the embodiment 1, the embodiment further defines the structure of the locking assembly, and the locking block is not contacted with the crushing rotating shaft under the condition of no stress, so that the crushing assembly works normally; can change the position of locking arm and carry out spacingly through spacing bolt, make the garrulous pivot of stirring stop motion steadily, realize the stopping of stirring garrulous subassembly.

In summary, the preferred embodiments of the present invention are only examples, and the scope of the present invention is not limited thereto, and all equivalent changes and modifications made in accordance with the scope of the present invention and the contents of the specification are within the scope covered by the present invention.

Claims (7)

1. The utility model provides a modified pig brain stirring device for production of ganglioside raw materials, includes a plurality of stirring subassemblies (2) of locating on frame (1), and stirring subassembly (2) are including stirring garrulous pivot (3), its characterized in that: every two stirring assemblies (2) form a stirring unit, and two stirring rotating shafts (3) in the same stirring unit are in transmission connection through a differential (4); the input ends of the differential mechanisms (4) of two adjacent mincing units are in transmission connection, the input end of at least one differential mechanism (4) is in transmission connection with a power machine (5), and each mincing rotating shaft (3) is provided with a locking assembly.

2. The improved swine brain mincing device for ganglioside material production according to claim 1, wherein: the bottom ends of two stirring rotating shafts (3) in the same stirring unit are respectively sleeved with a first bevel gear (6) and a second bevel gear (7), and a first fixing plate (8) and a second fixing plate (9) which are opposite to each other are arranged on the rack (1); two output shafts of the differential (4) are respectively arranged on the first fixing plate (8) and the second fixing plate (9) in a penetrating mode through bearings, a third bevel gear (10) meshed with the first bevel gear (6) is sleeved at the tail end of one output shaft of the differential (4), and a fourth bevel gear (11) meshed with the second bevel gear (7) is sleeved at the tail end of the other output shaft of the differential (4).

3. The improved swine brain mincing device for ganglioside material production according to claim 2, wherein: a third fixing plate (12) which is perpendicular to the first fixing plate (8) and the second fixing plate (9) is further arranged on the rack (1), an input shaft of the differential (4) penetrates through the third fixing plate (12) through a bearing, and a fifth bevel gear (13) is sleeved on the input shaft of the differential (4); a transmission shaft (14) is arranged on the third fixing plate (12) through a bearing seat, and a sixth bevel gear (15) meshed with the fifth bevel gear (13) is sleeved at the tail end of the transmission shaft (14).

4. The improved swine brain mincing device for ganglioside material production according to claim 3, wherein: the end of an input shaft of the differential (4) is sleeved with a seventh bevel gear (16), the power machine (5) is fixedly connected to the rack (1), and an output shaft of the power machine (5) is sleeved with an eighth bevel gear (17) meshed with the seventh bevel gear (16).

5. The improved swine brain mincing device for ganglioside raw material production according to any one of claims 1-4, wherein: the locking assembly comprises a sliding rail (18) arranged on the rack (1), a locking arm (20) is arranged on the sliding rail (18) through a sliding block (19), and the locking arm (20) is perpendicular to the sliding rail (18); the tail end of the locking arm (20) is provided with a locking block (21) which is right opposite to the stirring rotating shaft (3).

6. The improved swine brain mincing device for ganglioside material production according to claim 5, wherein: a stop block (22) is fixed on the slide rail (18), and an elastic spring (23) is arranged between the stop block (22) and the locking block (21); the sliding rail (18) is further provided with a plurality of limiting holes (24) which are uniformly distributed along the axial direction, the sliding block (19) is provided with a through hole (25) which is right opposite to the limiting holes (24), and a limiting bolt (26) which is matched with the limiting holes (24) is arranged in the through hole (25).

7. The improved swine brain mincing device for ganglioside material production according to claim 5, wherein: and a wear-resistant layer is arranged on the side surface of the locking block (21) opposite to the crushing rotating shaft (3).

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