CN213394647U - Quantitative oil supply data acquisition system for food factory - Google Patents

Abstract

The utility model provides a pair of quantitative fuel feeding data acquisition system of food factory, including oil tank, oil pump, workshop and defeated oil pipe way, still include electric ball valve, pneumatic ball valve, level sensor, flowmeter and controller. An oil outlet of the oil tank is provided with an electric ball valve; a pneumatic ball valve and a flowmeter are arranged at an oil outlet of the workshop; a liquid level sensor is arranged in the oil tank; the controller is connected with the liquid level sensor and the flowmeter and controls the valve, so that quantitative oil supply is realized, manual management of oil is omitted, the condition that data are unreal due to human factors is avoided, and the automation degree of the food industry is improved.

Description

Quantitative oil supply data acquisition system for food factory

Technical Field

The utility model relates to a food fuel feeding field especially relates to a food factory ration fuel feeding data acquisition system.

Background

The existing oil supply measurement of a food factory adopts a weighing and metering mode, and the oil pumping time and the oil pumping weight are manually recorded, so that manual missing record or loss due to misoperation can exist in the process; at present, most of oil tanks in food factories need to be manually transported to the oil tank to fill the oil tank with oil and then transported to a workshop for use, the process is time-consuming, and the sanitary condition can not be guaranteed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: a quantitative oil supply data acquisition system for a food factory is provided.

In order to solve the technical problem, the utility model discloses a technical scheme be: a quantitative oil supply data acquisition system for a food factory comprises an oil tank, an oil pump, a workshop, an oil pipeline and a controller; the oil conveying pipeline comprises a first pipeline and a second pipeline;

the oil tank comprises an oil tank oil outlet, and the oil pump comprises an oil pump oil inlet and an oil pump oil outlet;

one end of the first pipeline is connected with an oil outlet of the oil tank, and the other end of the first pipeline is connected with an oil inlet of the oil pump; an oil outlet of the oil tank is provided with an electric ball valve; a liquid level sensor is arranged in the oil tank;

one end of the second pipeline is connected with an oil outlet of the oil pump, and the other end of the second pipeline is provided with a workshop oil outlet for supplying oil to a workshop; a pneumatic ball valve and a flowmeter are arranged on the workshop oil outlet;

the electric ball valve, the liquid level sensor, the pneumatic ball valve and the flow meter are electrically connected with the controller.

Furthermore, a pressure sensor is arranged on a pipeline connecting the oil outlet of the oil pump and the second pipeline, and the pressure sensor is electrically connected with the controller.

Further, the controller also comprises an output module, and the output module is used for counting and outputting the oil supply data received by the controller.

Further, the oil inlet of the oil pump is respectively connected with the oil outlets of the two oil tanks through a first pipeline.

The beneficial effects of the utility model reside in that: the opening and closing of the pipeline are controlled by an electric ball valve of an oil outlet of the oil tank and a pneumatic ball valve of an oil outlet of a workshop, and the controller controls the electric ball valve and the pneumatic ball valve to enable the oil supply device to supply oil accurately and quantitatively according to a feedback controller of the flowmeter; the controller collects oil quantity data through the liquid level sensor in the oil tank, manual management of oil is omitted, the condition that data are unreal due to human factors is avoided, and the automation degree of the food industry is improved.

Drawings

Fig. 1 is a schematic structural diagram of a quantitative oil supply data acquisition system of a food factory according to a first embodiment of the present invention;

description of reference numerals:

10. an oil tank; 20. an oil pump; 30. a workshop; 40. an oil pipeline; 41. a first pipeline; 42. a second pipeline; 51. an electric ball valve; 52. a pneumatic ball valve; 61. a liquid level sensor; 62. a pressure sensor; 70. a flow meter; 80. a controller; 81. an output module; 91. an oil tank outlet; 92. a workshop oil outlet; 93. an oil inlet of the oil pump; 94. an oil outlet of the oil pump.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1, a quantitative oil supply data acquisition system for a food factory includes an oil tank, an oil pump, a workshop, an oil pipeline and a controller; the oil conveying pipeline comprises a first pipeline and a second pipeline;

the oil tank comprises an oil tank oil outlet, and the oil pump comprises an oil pump oil inlet and an oil pump oil outlet;

one end of the first pipeline is connected with an oil outlet of the oil tank, and the other end of the first pipeline is connected with an oil inlet of the oil pump; an oil outlet of the oil tank is provided with an electric ball valve; a liquid level sensor is arranged in the oil tank;

one end of the second pipeline is connected with an oil outlet of the oil pump, and the other end of the second pipeline is provided with a workshop oil outlet for supplying oil to a workshop; a pneumatic ball valve and a flowmeter are arranged on the workshop oil outlet;

the electric ball valve, the liquid level sensor, the pneumatic ball valve and the flow meter are electrically connected with the controller.

From the above description, the beneficial effects of the present invention are: the opening and closing of the pipeline are controlled by an electric ball valve of an oil outlet of the oil tank and a pneumatic ball valve of an oil outlet of a workshop, and the controller controls the electric ball valve and the pneumatic ball valve to enable the oil supply device to supply oil accurately and quantitatively according to a feedback controller of the flowmeter; the controller collects oil quantity data through the liquid level sensor in the oil tank, manual management of oil is omitted, the condition that data are unreal due to human factors is avoided, and the automation degree of the food industry is improved.

Furthermore, a pressure sensor is arranged on a pipeline connecting the oil outlet of the oil pump and the second pipeline, and the pressure sensor is electrically connected with the controller.

As can be seen from the above description, the pressure sensor arranged on the pipeline connecting the oil outlet of the oil pump and the second pipeline detects the pressure data in the pipeline, and when the pressure data exceeds a set value, the controller gives an alarm and controls the valve to release pressure.

Further, the controller also comprises an output module, and the output module is used for counting and outputting the oil supply data received by the controller.

As can be seen from the above description, the output module of the controller can receive the oil supply data, such as oil supply time, oil supply quantity and oil quantity of the oil tank, and perform statistics and timing output, thereby saving the trouble of manual oil material recording, and facilitating oil supply management and data analysis of food factories.

Further, the oil inlet of the oil pump is respectively connected with the oil outlets of the two oil tanks through a first pipeline.

The description shows that the double oil tanks are connected with the oil pump, so that the condition that when the oil quantity of a single oil tank is too low, the pipeline flow is different, and only the valve can be closed to supplement oil is avoided; the design of oil pump is connected to the double oil tank, and when a certain oil tank oil mass was crossed lowly, can supply through closing single oil tank valve this moment, and another oil tank continues to work, does not influence the continuation of fuel feeding.

Referring to fig. 1, the first embodiment of the present invention is:

the quantitative oil supply data acquisition system for the food factory in the embodiment comprises an oil tank 10, an oil pump 20, a workshop 30, an oil pipeline 40, an electric ball valve 51, a pneumatic ball valve 52, a liquid level sensor 61, a pressure sensor 62, a flow meter 70 and a controller 80.

The oil delivery line 40 includes a first line 41 and a second line 42; the oil tank 10 includes an oil tank outlet 91, and the oil pump 20 includes an oil pump inlet 93 and an oil pump outlet 94.

The oil pump oil inlet 93 is connected to the two oil tank oil outlets 91 of the two oil tanks 10 through the first pipeline 41. The oil tank oil outlet 91 is provided with an electric ball valve 51 for controlling the opening and closing of the oil tank oil outlet 91; the oil tank 10 is provided with a liquid level sensor 61 for detecting oil amount information of the oil tank 10.

One end of the second pipeline 42 is connected with an oil pump outlet 94, and the other end is provided with a workshop oil outlet 92 for supplying oil to the workshop 30; a pressure sensor 62 is arranged on a pipeline connecting the oil outlet 94 of the oil pump and the second pipeline 42 and used for detecting oil pressure data of the pipelines; a workshop oil outlet 92 is formed at the joint of the workshop 30 and the second pipeline 42, a pneumatic ball valve 52 and a flow meter 70 are arranged at the workshop oil outlet 92, the pneumatic ball valve 52 is used for controlling the opening and closing of the workshop oil outlet 92, and the flow meter 70 is used for detecting the oil outlet quantity of the workshop oil outlet 92;

the controller 80 is electrically connected to the electric ball valve 51, the pneumatic ball valve 52, the level sensor 61, the pressure sensor 62, and the flow meter 70. The controller 80 is also provided with an output module 81 for outputting and counting the fueling data.

In this embodiment, the controller 80 controls the electric ball valve 51 and the pneumatic ball valve 52 to open during operation, so that the oil tank 10, the oil pump 20, and the plant 30 are communicated through the oil line 40. The liquid level sensor 61 in the oil tank 10 detects the oil quantity information of the oil tank 10 and sends the information to the controller 80, and when the oil quantity is too low, the controller 80 prompts an alarm.

The oil pump 20 starts to pump the oil in the oil tank 10 through the first pipeline and to the second pipeline 42, and the pressure sensor 62 on the pipeline connecting the oil outlet 94 of the oil pump and the second pipeline 42 detects the pipeline pressure data and is judged and output by the controller 80. When the pipeline pressure is too high, the controller 80 alarms and controls the valve to release pressure.

When the oil flows out from the workshop oil outlet 92, the flow meter 70 of the workshop oil outlet 92 detects the flow of the workshop oil outlet 92 and sends flow information to the controller 80, and the controller 80 compares the flow quantitative value with the set flow quantitative value to judge and control the opening and closing degrees of the electric ball valve 51 and the pneumatic ball valve 52 to adjust the flow.

An output module 81 in the controller 80 counts and outputs the detection data obtained by the controller 80, and accurately records oil supply data such as oil pumping time, oil pumping amount and the like.

To sum up, the utility model provides a pair of food factory ration fuel feeding data acquisition system controls the pipeline switching through the electronic ball valve of oil tank oil-out and the pneumatic ball valve of workshop oil-out for oil supply unit can accurate ration fuel feeding according to the feedback of flowmeter. And the oil quantity data is output and counted by an output module of the controller at regular time through a liquid level sensor in the oil tank. The pressure sensor arranged at the joint of the oil pump and the second pipeline detects pressure data in the pipeline, and when the pressure data exceeds a set value, the controller gives an alarm and controls the valve to release pressure. The output module outputs and counts the oil supply data, so that manual management of oil is omitted, the condition that data are unreal due to human factors is avoided, and the automation degree of the food industry is improved.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (4)

1. A quantitative oil supply data acquisition system for a food factory is characterized by comprising an oil tank, an oil pump, a workshop, an oil pipeline and a controller; the oil conveying pipeline comprises a first pipeline and a second pipeline;

the oil tank comprises an oil tank oil outlet, and the oil pump comprises an oil pump oil inlet and an oil pump oil outlet;

one end of the first pipeline is connected with an oil outlet of the oil tank, and the other end of the first pipeline is connected with an oil inlet of the oil pump; an oil outlet of the oil tank is provided with an electric ball valve; a liquid level sensor is arranged in the oil tank;

one end of the second pipeline is connected with an oil outlet of the oil pump, and the other end of the second pipeline is provided with a workshop oil outlet for supplying oil to a workshop; a pneumatic ball valve and a flowmeter are arranged on the workshop oil outlet;

the electric ball valve, the liquid level sensor, the pneumatic ball valve and the flow meter are electrically connected with the controller.

2. The food factory quantitative oil supply data acquisition system of claim 1, wherein a pressure sensor is arranged on a pipeline connecting the oil outlet of the oil pump and the second pipeline, and the pressure sensor is electrically connected with the controller.

3. The food factory oil dosing data collection system of claim 1, wherein the controller further comprises an output module for counting and outputting the oil dosing data received by the controller.

4. The food factory quantitative oil supply data acquisition system of claim 1, wherein the oil pump oil inlet is connected with two oil tank oil outlets of two oil tanks respectively through a first pipeline.

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