CN218107324U - Automatic loading system for non-edible vegetable oil - Google Patents

Abstract

The utility model discloses an automatic loading system for inedible vegetable oil, which relates to the technical field of inedible vegetable oil loading, and comprises a plurality of raw material tanks which are respectively communicated with a first material guide pipe through a first material discharge pipe; the first stirring tank is communicated with the first material guide pipe through a first material feeding pipe; the first stirring tank is also provided with a second discharge pipe, and the second discharge pipe is provided with a second discharge valve; the feed end of the second stirring tank is communicated with the tail end of the first material guide pipe; one end of the third material guide pipe is communicated with the second material discharge pipe and the fifth material discharge pipe; the tail end of the third material guide pipe is communicated with one end of a fifth material guide pipe; one end of the sixth material guiding pipe is communicated with the tail end of the fifth material guiding pipe; the feed end of the finished product tank is communicated with the tail end of the sixth material guide pipe; the discharge pipe is connected to the discharge end of the finished product tank; this application has convenient to use, degree of automation is high, can realize integrative control, avoid advantages such as artifical transportation.

Description

Automatic loading system for non-edible vegetable oil

Technical Field

The utility model relates to a technical field of non-edible vegetable oil loading, in particular to non-edible vegetable oil automatic loading system.

Background

The non-edible vegetable oil is in the process of production and processing, the raw materials need to be mixed and stirred in multiple steps, then finished products are loaded, in the existing whole production process, the connectivity among all the steps is weak, the raw materials cannot be connected into a finished pipeline system, the materials need to be transported between mixing and stirring, workers are needed, the whole production process of the non-edible vegetable oil cannot be completely communicated through the pipeline system, therefore, the non-edible vegetable oil automatic loading system is arranged, the production of the non-edible oil is integrated with the loading through pipeline control, and discontinuity among all the steps is avoided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a non-edible vegetable oil automatic loading system is provided to solve among the prior art that the description in the background art production of non-edible vegetable oil low to the loading continuity, the middle each step between add man-hour, still need the problem of artifical transportation.

In order to solve the above problems, the utility model provides a following technical scheme: an automatic loading system for inedible vegetable oil is composed of

The first material guide pipe is provided with a feeding pump and a first flow meter;

the plurality of raw material tanks are respectively communicated with the first material guide pipes through first material discharge pipes;

wherein, the first discharging pipe is provided with a first discharging valve;

the first stirring tank is communicated with the first material guide pipe through a first feeding pipe, and the first feeding pipe is provided with a second feeding valve;

the first stirring tank is also provided with a first discharge pipe, and the first discharge pipe is provided with a first discharge valve;

the feeding end of the second stirring tank is communicated with the tail end of the first material guide pipe, and a first feeding valve is arranged at one end, close to the second stirring tank, of the first material guide pipe;

the second stirring tank is also provided with a fifth discharge pipe, and the fifth discharge pipe is provided with a third discharge valve;

one end of the third material guiding pipe is communicated with the second material discharging pipe and the fifth material discharging pipe, and a third circulating pump, a static mixing box and a nano emulsifying machine are arranged on the third material guiding pipe;

the fifth material guide pipe is provided with a fourth discharge valve;

the tail end of the third material guide pipe is communicated with one end of a fifth material guide pipe;

the sixth material guide pipe is provided with a finished product feeding pump, a second flowmeter and a finished product feeding valve, and one end of the sixth material guide pipe is communicated with the tail end of the fifth material guide pipe;

the feed end of the finished product tank is communicated with the tail end of the sixth material guide pipe;

the discharge pipe is connected to the discharge end of the finished product tank;

wherein, the discharge pipe is provided with a finished product discharge valve, a finished product discharge pump, a third flowmeter and a loading valve.

Preferably: the first stirring tank is further provided with a third discharging pipe, the third discharging pipe is provided with a first circulating valve, the second stirring tank is further provided with a fourth discharging pipe, the fourth discharging pipe is provided with a second circulating valve, the third discharging pipe and the fourth discharging pipe are communicated with one end of a second material guiding pipe, and the other end of the second material guiding pipe is communicated with the intersection of the third material guiding pipe and the fifth material guiding pipe.

Preferably: the two ends of the fifth material guide pipe are also respectively communicated with the two ends of the fourth material guide pipe, and the fourth material guide pipe is provided with a filtering feeding valve, a filtering feeding pump, a filtering discharging valve and a filter box.

The beneficial effect of adopting above technical scheme is:

this application can be with the leading-in first passage of material in a plurality of head tanks through the first bleeder valve on the passage that sets up, through the first charge valve of charge pump cooperation, the second charge valve will mix the raw materials and send into first agitator tank or second agitator tank and stir, static mixing box on the material after will stirring passes through the third passage, nanometer emulsion machine processing back, send to in the fifth passage, send to the finished product jar by the sixth passage again, discharge by the discharging pipe again, in leading-in canned car loading with finished product raw materials, can realize the pipeline setting of raw materials to finished product loading, realize the purpose of automatic loading, the artifical transportation step in each step in the centre of avoiding, it is polluted to reduce non-edible vegetable oil through the pipeline transportation simultaneously.

Drawings

Fig. 1 is a schematic diagram of the automatic loading system for inedible vegetable oil of the present invention.

Wherein: a raw material tank 10, a material guiding pipe 11, a first discharging valve 12, a first discharging pipe 20, a first valve 21, a first material guiding pipe 30, a feeding pump 31, a first flowmeter 32, a first feeding valve 33, a first stirring tank 40, a first feeding pipe 41, a second feeding valve 42, a second discharging pipe 43, a second discharging valve 44, a third discharging pipe 45, a first circulating valve 46, a second stirring tank 50, a fourth discharging pipe 51, a second circulating valve 52, a fifth discharging pipe 53, a third discharging valve 54, a second material guiding pipe 60, a third material guiding pipe 70, a third circulating pump 71, a static mixing box 72, a nano-emulsifying machine 73, a fourth material guiding pipe 80, a filtering feeding valve 81, a filtering feeding pump 82, a filtering pump 83, a filtering material valve 84, a filtering box 85, a fifth material guiding pipe 86, a fourth discharging valve 87, a finished product tank 90, a sixth material guiding pipe 91, a finished product feeding pump 92, a second flowmeter 93, a finished product feeding valve 94, a discharging pipe 95, a finished product discharging valve 96, a finished product discharging valve 97, a filtering material discharging pump 98, a third material loading valve 99, and a loading meter.

Detailed Description

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

Referring to fig. 1, in the first embodiment, an automatic loading system for inedible vegetable oil comprises

A first material guide pipe 30 having a feed pump 31, a first flow meter 32;

a plurality of material tanks 10 respectively communicated with the first material guiding pipes 30 through first material discharging pipes 20;

wherein the first tapping pipe 20 is provided with a first tapping valve 21;

a first stirring tank 40 communicating with the first guide duct 30 through a first feeding pipe 41, the first feeding pipe 41 having a second feeding valve 42;

wherein, the first stirring tank 40 is further provided with a second discharging pipe 43, and the second discharging pipe 43 is provided with a second discharging valve 44;

a second stirring tank 50, the feeding end of which is communicated with the tail end of the first material guiding pipe 30, and one end of the first material guiding pipe 30 close to the second stirring tank 50 is provided with a first feeding valve 33;

wherein, the second stirring tank 50 is further provided with a fifth discharging pipe 53, and the fifth discharging pipe 53 is provided with a third discharging valve 54;

a third material guiding pipe 70, one end of which is communicated with the second discharging pipe 43 and the fifth discharging pipe 53, wherein the third material guiding pipe 70 is provided with a third circulating pump 71, a static mixing box 72 and a nano emulsifying machine 73;

a fifth material guide pipe 86 having a fourth discharge valve 87;

wherein, the end of the third material guiding pipe 70 is communicated with one end of the fifth material guiding pipe 86;

a sixth material guiding pipe 91 having a finished product feeding pump 92, a second flow meter 93, and a finished product feeding valve 94, one end of the sixth material guiding pipe 91 being communicated with the end of the fifth material guiding pipe 86;

a finished product tank 90, the feed end of which is communicated with the tail end of the sixth material guide pipe 91;

a discharge pipe 95 connected to the discharge end of the finished product tank 90;

wherein, the discharging pipe 95 is provided with a finished product discharging valve 96, a finished product discharging pump 97, a third flow meter 98 and a loading valve 99.

The present embodiment is implemented as follows:

when the nano-emulsion processing equipment is used, whether raw materials in different raw material tanks 10 flow out of a first discharging pipe 20 or not can be controlled by controlling different first discharging valves 21, a feeding pump 31 provides power, a first flow meter 32 meters the flow of the raw materials, then the raw materials enter a second stirring tank 50 or a first feeding pipe 41 through a first guide pipe 30 and enter the first stirring tank 40, whether the raw materials enter the first stirring tank 40 or the second stirring tank 50 is controlled through a first feeding valve 33 and a second feeding valve 42, then a stirred mixture is introduced into a third guide pipe 70 through a second discharging pipe 43 on the first stirring tank 40 or a fifth discharging pipe 53 on the second stirring tank 50, a second discharging pipe 43 and a third discharging valve 54 are controlled through a second discharging valve 44 and a fifth discharging pipe 53 is controlled through a third discharging valve 54, the third guide pipe 70 is powered by a third circulating pump 71, the raw materials are mixed through a static mixing box 72, the mixed mixture is processed by a nano-emulsion machine 73, and the processed into a finished product is introduced into a finished product tank 90 through a fifth guide pipe 86 and a sixth guide pipe 91, power is provided by a finished product pump 92, and the finished product meter 93 can meter the finished product flow into a finished product tank 90; and then the finished product discharge pump 97 leads out the raw materials in the finished product tank 90 for loading, the loading amount can be measured through the third flow meter 98, and the loading valve 99 controls the opening and closing of the discharge pipe 95.

This application can realize from raw materials to finished product, to a whole set of production processes of loading again, establishes ties each processing step through valve, pump, pipeline, realizes the production loading to the control unit of this application all is by external industrial control computer unified control.

Example two

As an optimization scheme of the first embodiment, the first stirring tank 40 further has a third discharging pipe 45, the third discharging pipe 45 has a first circulating valve 46, the second stirring tank 50 further has a fourth discharging pipe 51, the fourth discharging pipe 51 has a second circulating valve 52, the third discharging pipe 45 and the fourth discharging pipe 51 are communicated with one end of a second material guiding pipe 60, and the other end of the second material guiding pipe 60 is communicated with the intersection of a third material guiding pipe 70 and a fifth material guiding pipe 86.

In this embodiment, the third discharge pipe 45 and the first circulation valve 46, the fourth discharge pipe 51 and the second circulation valve 52 can reintroduce the material in the third liquid guide pipe 70 into the first agitation tank 40 or the second agitation tank 50 for circulation processing.

EXAMPLE III

As an optimized scheme of the first embodiment, two ends of the fifth material guiding pipe 86 are further respectively communicated with two ends of the fourth material guiding pipe 80, and the fourth material guiding pipe 80 is provided with a filtering material inlet valve 81, a filtering material inlet pump 82, a filtering material outlet pump 83, a filtering material outlet valve 84 and a filtering box 85.

The material flowing out of the third material guiding pipe 70 can enter the sixth material guiding pipe 91 after being stored in the filtering box 85 through the arranged fourth material guiding pipe 80, the filtering material feeding pump 82 can send the material to the filtering box 85, and the filtering material discharging pump 83 can lead out the material in the filtering box 85.

The above is only the preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and improvements can be made without departing from the inventive concept, and all of them belong to the protection scope of the present invention.

Claims (3)

1. An automatic loading system for inedible vegetable oil is characterized by comprising

The first material guide pipe is provided with a feeding pump and a first flow meter;

the plurality of raw material tanks are respectively communicated with the first material guide pipes through first material discharge pipes;

wherein, the first discharging pipe is provided with a first discharging valve;

the first stirring tank is communicated with the first material guide pipe through a first material feeding pipe, and a second material feeding valve is arranged on the first material feeding pipe;

the first stirring tank is also provided with a first discharge pipe, and the first discharge pipe is provided with a first discharge valve;

the feeding end of the second stirring tank is communicated with the tail end of the first material guide pipe, and a first feeding valve is arranged at one end, close to the second stirring tank, of the first material guide pipe;

the second stirring tank is also provided with a fifth discharge pipe, and the fifth discharge pipe is provided with a third discharge valve;

one end of the third material guide pipe is communicated with the second material discharge pipe and the fifth material discharge pipe, and the third material guide pipe is provided with a third circulating pump, a static mixing box and a nano emulsifying machine;

the fifth material guide pipe is provided with a fourth discharge valve;

the tail end of the third material guide pipe is communicated with one end of a fifth material guide pipe;

the sixth material guide pipe is provided with a finished product feeding pump, a second flowmeter and a finished product feeding valve, and one end of the sixth material guide pipe is communicated with the tail end of the fifth material guide pipe;

the feed end of the finished product tank is communicated with the tail end of the sixth material guide pipe;

the discharge pipe is connected to the discharge end of the finished product tank;

wherein, the discharging pipe is provided with a finished product discharging valve, a finished product discharging pump, a third flowmeter and a loading valve.

2. The system of claim 1, wherein the first mixing tank further comprises a third discharging pipe, the third discharging pipe comprises a first circulating valve, the second mixing tank further comprises a fourth discharging pipe, the fourth discharging pipe comprises a second circulating valve, the third discharging pipe and the fourth discharging pipe are in communication with one end of a second material guiding pipe, and the other end of the second material guiding pipe is in communication with the intersection of the third material guiding pipe and the fifth material guiding pipe.

3. The system of claim 1, wherein two ends of the fifth material guiding pipe are respectively connected to two ends of a fourth material guiding pipe, and the fourth material guiding pipe is provided with a filtering material feeding valve, a filtering material feeding pump, a filtering material discharging valve and a filtering box.

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