CN219689652U

CN219689652U - Animal oil processing system

Info

Publication number: CN219689652U
Application number: CN202320601624.3U
Authority: CN
Inventors: 胡国辉; 陈培垦; 陈志勇
Original assignee: Xiamen Luzhengkuan Mechanical Equipment Installation Engineering Co ltd
Current assignee: Xiamen Luzhengkuan Mechanical Equipment Installation Engineering Co ltd
Priority date: 2023-03-24
Filing date: 2023-03-24
Publication date: 2023-09-15
Anticipated expiration: 2033-03-24

Abstract

The utility model discloses an animal oil processing system which comprises a crusher, a vacuum preheating reaction kettle, a vacuum cooking pot, a vacuum discharge tank, a first vacuum pump and a second vacuum pump, wherein a material storage buffer tank is arranged at the discharge port of the crusher, the material storage buffer tank is arranged between the discharge port of the material storage buffer tank and the feed port of the vacuum preheating reaction kettle, between the discharge port of the vacuum preheating reaction kettle and the feed port of the vacuum cooking pot and between the discharge port of the vacuum cooking pot and the feed port of the vacuum discharge tank respectively and mutually connected through a communication pipeline, the first vacuum pump is connected with the vacuum preheating reaction kettle through the communication pipeline, and the second vacuum pump is simultaneously connected with the vacuum cooking pot and the vacuum discharge tank through the communication pipeline. The materials are completely conveyed by the suction effect of the communication pipeline matched with the negative pressure, so that the problems of material falling, smell scattering, sewage overflow and the like do not exist in the conveying process of the materials, and the problems of cleanness, neatness and sanitation of the production environment can be effectively improved.

Description

Animal oil processing system

Technical Field

The utility model relates to the technical field of grease processing equipment, in particular to an animal oil processing system.

Background

In the traditional animal oil processing field, due to special materials (high viscosity), the traditional conveying mode and defects thereof are as follows: 1. the auger conveying has the defects that the bottom elevation angle of the vertical conveying efficiency cannot be too large, otherwise, the auger conveying is easy to slip, the structural layout is scattered, and the field utilization rate is low; 2. the conveying of the chain plate conveying belt has the defects of incomplete unloading, difficult gap clamping and cleaning, increased cleaning water treatment capacity, short service life, high maintenance difficulty and the like; 3. the open impeller pump is much limited by the material temperature, the particle size and the solid proportion, and has poor adaptability.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the animal oil processing system, and materials can be transported in a whole-course vacuum airtight and efficient way in the animal oil processing system, thereby being beneficial to improving the clean and tidy production environment.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the utility model provides an animal oil processing system, including the breaker, the vacuum preheats the reation kettle, the vacuum decocts the pot, vacuum discharge tank, first vacuum pump and second vacuum pump, the discharge gate department of breaker is equipped with a storage buffer tank, between the discharge gate of storage buffer tank and the feed inlet of vacuum preheats the reation kettle, between the discharge gate of vacuum preheats the reation kettle and the feed inlet of vacuum decocts the pot and between the feed inlet of vacuum decocts the pot and the feed inlet of vacuum discharge tank respectively through a communication pipeline interconnect, and first vacuum pump is connected with vacuum preheats the reation kettle through the communication pipeline, the second vacuum pump is connected with vacuum decocts pot and vacuum discharge tank through the communication pipeline simultaneously.

Further, the animal oil processing system further comprises a cooler, the cooler is provided with an inlet and an outlet, the vacuum cooking pot and the vacuum discharging tank are simultaneously connected with the inlet of the cooler through a communication pipeline, and the second vacuum pump is connected with the outlet of the cooler through the communication pipeline.

Further, vacuum pressure gauges are arranged on the vacuum preheating reaction kettle, the vacuum cooking pot and the vacuum discharge tank.

Further, an automatic valve is respectively arranged at the discharge port of the storage buffer tank, the discharge port of the vacuum preheating reaction kettle, the feed port and the discharge port of the vacuum cooking pot and the feed port and the discharge port of the vacuum discharge tank.

Further, be equipped with first evacuation interface on the vacuum preheating reaction kettle, first vacuum pump is linked together with the first evacuation interface of vacuum preheating reaction kettle through the intercommunication pipeline, and first evacuation interface department installs automatic valve, be equipped with the second evacuation interface on the vacuum cooking pot, the second vacuum pump is linked together with the second evacuation interface of vacuum cooking pot through the intercommunication pipeline, and second evacuation interface department installs automatic valve, be equipped with the third evacuation interface on the vacuum discharge tank, the second vacuum pump is linked together with the third evacuation interface of vacuum discharge tank through the intercommunication pipeline, and automatic valve is installed to third evacuation interface department.

Further, the automatic valve is an electric ball valve or a pneumatic ball valve.

The technical scheme has the following advantages or beneficial effects:

in the animal oil processing system, the material storage buffer tank, the vacuum preheating reaction kettle, the vacuum cooking pot and the vacuum discharging tank are sequentially and hermetically communicated together through the communication pipeline, and the first vacuum pump which independently vacuumizes the vacuum preheating reaction kettle is arranged on the vacuum preheating reaction kettle, and the second vacuum pump is utilized to vacuumize the vacuum cooking pot and the vacuum discharging tank at the same time, so that the vacuum operation is carried out according to the specific working condition requirements of the vacuum preheating reaction kettle, the vacuum cooking pot and the vacuum discharging tank, the animal oil processing system works intermittently in the oil processing process, and materials are completely conveyed by the suction effect of the communication pipeline matched with the negative pressure among the material storage buffer tank, the vacuum cooking pot and the vacuum discharging tank, so that the whole conveying environment of the materials is airtight, the problems of material falling, smell scattering, sewage overflow and the like are avoided, and the clean and sanitary problems of the production environment can be effectively improved.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the present utility model.

Description of the reference numerals:

1. a crusher, 2, a vacuum preheating reaction kettle, 3, a vacuum cooking pot, 4, a vacuum discharge tank, 5, a first vacuum pump, 6, a second vacuum pump, 7, a cooler, 8, a vacuum pressure gauge, 9, an automatic valve, 11, a storage buffer tank, 21, a first vacuumizing interface, 31, a second vacuumizing interface, 41 and a third vacuumizing interface.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Referring to fig. 1, an embodiment of the present utility model provides an animal oil processing system, which includes a crusher 1, a vacuum preheating reaction kettle 2, a vacuum cooking kettle 3, a vacuum discharge tank 4, a first vacuum pump 5 and a second vacuum pump 6, wherein a material storage buffer tank 11 is disposed at a discharge port of the crusher 1, a connection pipeline is respectively disposed between the discharge port of the material storage buffer tank 11 and a feed port of the vacuum preheating reaction kettle 2, between the discharge port of the vacuum preheating reaction kettle 2 and the feed port of the vacuum cooking kettle 3, and between the discharge port of the vacuum cooking kettle 3 and the feed port of the vacuum discharge tank 4, and the first vacuum pump 5 is connected with the vacuum preheating reaction kettle 2 through the connection pipeline, and the second vacuum pump 6 is simultaneously connected with the vacuum cooking kettle 3 and the vacuum discharge tank 4 through the connection pipeline. It can be understood that in this embodiment, the material storage buffer tank 11, the vacuum preheating reaction kettle 2, the vacuum cooking pot 3 and the vacuum discharging tank 4 are sequentially and hermetically communicated together through the communication pipeline, and the vacuum preheating reaction kettle 2 is provided with the first vacuum pump 5 for independently vacuumizing the vacuum preheating reaction kettle 2, and the vacuum cooking pot 3 and the vacuum discharging tank 4 are simultaneously vacuumized by the second vacuum pump 6, so that the vacuum cooking operation is favorably carried out according to the specific working condition requirements of the vacuum preheating reaction kettle 2, the vacuum cooking pot 3 and the vacuum discharging tank 4, the animal oil processing system performs intermittent work in the grease processing process, and materials are completely conveyed by the suction effect of the cooperation of the communication pipeline and the negative pressure between the material storage buffer tank 11, the vacuum cooking pot 2, the vacuum cooking pot 3 and the vacuum discharging tank 4, so that the conveying environment of the materials is completely sealed, the problems of material falling, smell scattering, sewage overflow and the like are avoided, and the clean and tidy problem of the production environment can be effectively improved.

Referring to fig. 1, in a preferred embodiment, the animal oil processing system further includes a cooler 7, the cooler 7 has an inlet and an outlet, the vacuum cooking pan 3 and the vacuum discharge tank 4 are simultaneously connected to the inlet of the cooler 7 through a communication pipeline, and the second vacuum pump 6 is connected to the outlet of the cooler 7 through a communication pipeline. Because the steam in the vacuum cooking pot 3 and the vacuum discharging tank 4 is heavier, the steam in the vacuum cooking pot 3 and the vacuum discharging tank 4 is firstly condensed by the cooler 7, and then the vacuum operation of the vacuum cooking pot 3 and the vacuum discharging tank 4 is smoothly carried out by the second vacuum pump 6.

Referring to fig. 1, in a preferred embodiment, a vacuum pressure gauge 8 is installed on each of the vacuum preheating reaction kettle 2, the vacuum cooking pot 3 and the vacuum discharging pot 4.

Referring to fig. 1, in a preferred embodiment, an automatic valve 9 is installed at the discharge port of the storage buffer tank 11, the discharge port of the vacuum preheating reaction kettle 2, the feed port and the discharge port of the vacuum cooking kettle 3, and the feed port and the discharge port of the vacuum discharge tank 4, respectively. In a preferred embodiment, preferably, the vacuum preheating reaction kettle 2 is provided with a first vacuumizing interface 21, the first vacuum pump 5 is communicated with the first vacuumizing interface 21 of the vacuum preheating reaction kettle 2 through a communication pipeline, an automatic valve 9 is installed at the first vacuumizing interface 21, the vacuum cooking pot 3 is provided with a second vacuumizing interface 31, the second vacuum pump 6 is communicated with the second vacuumizing interface 31 of the vacuum cooking pot 3 through a communication pipeline, an automatic valve 9 is installed at the second vacuumizing interface 31, a third vacuumizing interface 41 is arranged on the vacuum discharging tank 4, the second vacuum pump 6 is communicated with the third vacuumizing interface 41 of the vacuum discharging tank 4 through a communication pipeline, and the automatic valve 9 is installed at the third vacuumizing interface 41. The vacuum pumping action of the first vacuum pump 5 and the second vacuum pump 6 is matched through the on-demand switching action of the respective movable valve 9, so that negative pressure can be effectively generated in the animal oil processing system, and materials can be sequentially transferred in a sealing manner among the storage buffer tank 11, the vacuum preheating reaction kettle 2, the vacuum cooking pot 3 and the vacuum discharging tank 4 through the negative pressure action, and the clean and tidy sanitation of the transfer process is improved.

Referring to fig. 1, in a preferred embodiment, the automatic valve 9 is an electric ball valve or a pneumatic ball valve. However, it will be appreciated by those skilled in the art that in other embodiments, the automatic valve 9 may be any other valve structure conventionally controlled automatically in the art, and is not limited to the electric ball valve or the pneumatic ball valve disclosed in this embodiment, as long as it can be opened automatically to form a conduction or closed automatically to form a stop as required.

The embodiments are merely illustrative of the technical solution of the present utility model, and not limiting thereof; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some of the technical features thereof can be replaced with equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model, and therefore all other embodiments obtained by those skilled in the art without making creative efforts are intended to fall within the protection scope of the present utility model.

Claims

1. An animal oil processing system, characterized by: including breaker (1), vacuum preheats reation kettle (2), vacuum decoct pot (3), vacuum discharge tank (4), first vacuum pump (5) and second vacuum pump (6), the discharge gate department of breaker (1) is equipped with a storage buffer tank (11), between the discharge gate of storage buffer tank (11) and the feed inlet of vacuum preheats reation kettle (2), between the discharge gate of vacuum preheats reation kettle (2) and the feed inlet of vacuum decoct pot (3) and between the feed inlet of vacuum decoct pot (3) and vacuum discharge tank (4) respectively through a communication pipeline interconnect, and first vacuum pump (5) are connected with vacuum preheats reation kettle (2) through the communication pipeline, second vacuum pump (6) are connected with vacuum decoct pot (3) and vacuum discharge tank (4) simultaneously through the communication pipeline.

2. The animal oil processing system of claim 1, wherein: the animal oil processing system further comprises a cooler (7), the cooler (7) is provided with an inlet and an outlet, the vacuum cooking pot (3) and the vacuum discharge tank (4) are simultaneously connected with the inlet of the cooler (7) through a communication pipeline, and the second vacuum pump (6) is connected with the outlet of the cooler (7) through the communication pipeline.

3. The animal oil processing system of claim 1, wherein: vacuum pressure gauges (8) are arranged on the vacuum preheating reaction kettle (2), the vacuum cooking pot (3) and the vacuum discharge tank (4).

4. A system for processing animal oil according to any one of claims 1 to 3, wherein: an automatic valve (9) is respectively arranged at the discharge port of the material storage buffer tank (11), the discharge port of the vacuum preheating reaction kettle (2), the feed port and the discharge port of the vacuum cooking pot (3) and the feed port and the discharge port of the vacuum material outlet tank (4).

5. The animal oil processing system of claim 4, wherein: be equipped with first evacuation interface (21) on vacuum preheating reation kettle (2), first vacuum pump (5) are linked together through communication pipeline and first evacuation interface (21) of vacuum preheating reation kettle (2), and first evacuation interface (21) department installs automatic valve (9), be equipped with second evacuation interface (31) on vacuum cooking pot (3), second vacuum pump (6) are linked together through communication pipeline and second evacuation interface (31) of vacuum cooking pot (3), and second evacuation interface (31) department installs automatic valve (9), be equipped with third evacuation interface (41) on vacuum discharge tank (4), second vacuum pump (6) are linked together through communication pipeline and third evacuation interface (41) of vacuum discharge tank (4), and automatic valve (9) are installed to third evacuation interface (41) department.

6. The animal oil processing system of claim 5, wherein: the automatic valve (9) is an electric ball valve or a pneumatic ball valve.