CN106205337A - Pipeline valve well model and manufacture method - Google Patents

Abstract

The pipeline valve well model and its production method are designed for auxiliary teaching through model display and training for migrant workers in construction enterprises, and belong to the field of vocational education facilities; the pipeline valve well model consists of simulated valve well cover, simulated valve well wall, simulated valve, The simulated pipeline and the simulated straight climbing ladder are composed; the simulated valve well cover is covered on the top of the simulated valve well wall; the simulated valve and the simulated pipeline are inside the simulated valve well wall; the simulated valve is in the middle of the simulated pipeline; the simulated straight ladder is installed on the simulated valve well wall side; the beneficial effect of the invention is to enable college students or migrant workers to have a direct understanding of the structure of the pipeline valve well through model demonstration teaching, which is easy to understand.

Description

Pipeline valve well model and its manufacturing method

technical field

The invention relates to a pipeline valve well model and a manufacturing method thereof, which are designed for assisting teaching through model display and training for migrant workers in construction enterprises, and belong to the field of vocational education facilities.

Background technique

The pipeline valve well is an indispensable device in the process of pipeline transportation of medium; in the process of pipeline transportation of medium, it is safer, more convenient to lay underground, and the installation cost and management cost are lower, so the pipeline is buried underground for long-distance transportation In addition, when it is necessary to adjust the medium flow, divide the flow and control in stages, it is necessary to set up valves and valve wells, so that it is easy to operate; it is necessary for college students who are preparing to enter the job and migrant workers who have already entered the job to understand the structure of the pipeline valve well. But for college students who have no practical experience and migrant workers who have not yet entered the working state, it is really not easy for them to understand and master the installation of the distributing machine; the university teaching of construction engineering in China has always been based on lectures Teaching methods. Although China’s higher and secondary vocational education has made breakthroughs in teaching in recent years, using multimedia and other information-based teaching methods, and setting up some teaching situations, it has not fundamentally got rid of the teaching mode that is mainly based on lectures; With the pace of China's economic development, the state has decided to transform a number of applied technology universities. The teachers and facilities of these universities are set up according to the elite training mode. It is very difficult to get close to construction teaching; on the other hand, with China's With the promulgation and implementation of the Industry 2025 plan, the state has strengthened the training requirements for migrant workers in recent years, and the inspection and assessment of construction companies have been strengthened. However, it is difficult for construction companies to organize training on the composition of pipelines, valves and wells for migrant workers. Application The current facilities of technical universities, higher vocational colleges, and secondary vocational schools cannot meet the training requirements of pipeline valve well construction for migrant workers engaged in the construction industry.

The pipeline valve well model provided by the invention can solve these problems.

Contents of the invention

The specific approach of this program is:

The pipeline valve well model as shown in Figure 1 is adopted, which is composed of simulated valve well cover 1, simulated valve well wall 2, simulated valve 3, simulated pipeline 4 and simulated straight ladder 5; simulated valve well cover 1 covers simulated valve well wall 2 The simulation valve 3 and the simulation pipeline 4 are in the simulation valve well wall 2; the simulation valve 3 is in the middle of the simulation pipeline 4; the simulation straight climbing ladder 5 is installed on one side of the simulation valve well wall 2.

The simulated valve well cover 1 is a cover-shaped component for protecting the simulated pipeline valve well.

The simulated valve well wall 2 is a wall-shaped part that protects the simulated valve 3 and the simulated pipeline 4; except for the simulated wellhead, all the simulated valve well walls 2 are set below the simulated ground; the simulated valve well wall 2 is equipped with a simulated valve well cover 1. A simulated straight climbing ladder 5 is installed on one side of the simulated valve well wall 2; the simulated pipeline 4 passes through the simulated valve well wall 2 on both sides and enters the simulated underground.

The simulated valve 3 is a device for controlling the simulated medium flow rate in the simulated pipeline 4; the simulated valve 3 is located in the middle of the simulated pipeline 4 in the valve well of the simulated pipeline, and its two ends are respectively sealed and connected with the simulated pipeline 4.

The simulated pipeline 4 is a part for conveying the simulated medium; the simulated pipeline 4 penetrates the simulated valve well wall 2 and enters the simulated underground; the simulated pipeline 4 is disconnected in the simulated valve well, and is connected as a whole through the simulated valve 3; End seal connection.

The simulated straight climbing ladder 5 is a device for entering and exiting the simulated valve well; the simulated straight climbing ladder 5 is parallel to the simulated valve well wall 2, and the connection points between the simulated straight climbing ladder 5 and the simulated valve well wall 2 are arranged at intervals.

The method for making the pipeline valve well model is to first set the simulated valve well wall 2, and make the simulated pipeline 4 pass through the center line of the simulated valve well wall 2 and enter the simulated soil layer; make the simulated pipeline 4 surround the simulated valve well wall 2 The distance between the simulated nozzles of the two simulated pipelines 4 is equal to the length of the simulated valve 3; the simulated valve 3 is installed to connect the simulated valve 3 to the simulated pipeline 4; the simulated straight climbing ladder 5 is installed to make the simulated straight climbing ladder 5. Consolidate with the simulated valve well wall 2; cover the simulated valve well cover 1.

The beneficial effect of the invention is to enable college students or migrant workers to have a direct understanding of the structure of pipeline valve wells through model display and teaching, which is easy to understand.

Description of drawings

Fig. 1 Schematic diagram of pipeline valve well model.

In the figure: 1-simulated valve manhole cover; 2-simulated valve well wall; 3-simulated valve; 4-simulated pipeline; 5-simulated straight ladder.

detailed description

Example

A university designed the pipeline valve well model as shown in Figure 1, which is composed of simulated valve well cover 1, simulated valve well wall 2, simulated valve 3, simulated pipeline 4 and simulated straight ladder 5; simulated valve well cover 1 is covered in The top of the simulated valve well wall 2; the simulated valve 3 and the simulated pipeline 4 are in the simulated valve well wall 2; the simulated valve 3 is in the middle of the simulated pipeline 4;

The simulated valve well cover 1 is a cover-shaped component for protecting the simulated pipeline valve well.

The simulated valve well wall 2 is a wall-shaped part that protects the simulated valve 3 and the simulated pipeline 4; except for the simulated wellhead, all the simulated valve well walls 2 are set below the simulated ground; the simulated valve well wall 2 is equipped with a simulated valve well cover 1. A simulated straight climbing ladder 5 is installed on one side of the simulated valve well wall 2; the simulated pipeline 4 passes through the simulated valve well wall 2 on both sides and enters the simulated underground.

The simulated valve 3 is a device for controlling the simulated medium flow rate in the simulated pipeline 4; the simulated valve 3 is located in the middle of the simulated pipeline 4 in the valve well of the simulated pipeline, and its two ends are respectively sealed and connected with the simulated pipeline 4.

The simulated pipeline 4 is a part for conveying the simulated medium; the simulated pipeline 4 penetrates the simulated valve well wall 2 and enters the simulated underground; the simulated pipeline 4 is disconnected in the simulated valve well, and is connected as a whole through the simulated valve 3; End seal connection.

The simulated straight climbing ladder 5 is a device for entering and exiting the simulated valve well; the simulated straight climbing ladder 5 is parallel to the simulated valve well wall 2, and the connection points between the simulated straight climbing ladder 5 and the simulated valve well wall 2 are arranged at intervals.

The method for making the pipeline valve well model is to first set the simulated valve well wall 2, and make the simulated pipeline 4 pass through the center line of the simulated valve well wall 2 and enter the simulated soil layer; make the simulated pipeline 4 surround the simulated valve well wall 2 The distance between the simulated nozzles of the two simulated pipelines 4 is equal to the length of the simulated valve 3; the simulated valve 3 is installed to connect the simulated valve 3 to the simulated pipeline 4; the simulated straight climbing ladder 5 is installed to make the simulated straight climbing ladder 5. Consolidate with the simulated valve well wall 2; cover the simulated valve well cover 1.

Claims (7)

1. The pipeline valve well model is characterized in that it is composed of the simulated valve well cover (1), the simulated valve well wall (2), the simulated valve (3), the simulated pipeline (4) and the simulated straight ladder (5); the simulated valve The well cover (1) covers the top of the simulated valve well wall (2); the simulated valve (3) and the simulated pipe (4) are inside the simulated valve well wall (2); the simulated valve (3) is in the middle of the simulated pipe (4) ; The simulated straight climbing ladder (5) is installed on one side of the simulated valve shaft wall (2). 2. The pipeline valve well model according to claim 1, characterized in that the simulated valve well cover (1) is a cover-shaped component for protecting the simulated pipeline valve well. 3. The pipeline valve well model according to claim 1, characterized in that the simulated valve well wall (2) is a wall-shaped part for protecting the simulated valve (3) and the simulated pipeline (4); except for the simulated wellhead, all The simulated valve well wall (2) is set below the simulated ground; the simulated valve well wall (2) is equipped with a simulated valve well cover (1); one side of the simulated valve well wall (2) is equipped with a simulated straight climbing ladder (5 ); the simulated pipeline (4) passes through the simulated valve well wall (2) on both sides and enters the simulated underground. 4. The pipeline valve well model according to claim 1, characterized in that the simulated valve (3) is a device for controlling the flow rate of the simulated medium in the simulated pipeline (4); the simulation of the simulated valve (3) in the simulated pipeline valve well The middle part of the pipeline (4) and both ends are respectively sealed and connected with the simulated pipeline (4). 5. The pipeline valve well model according to claim 1, characterized in that the simulated pipeline (4) is a component for transporting simulated media; the simulated pipeline (4) penetrates through the simulated valve well wall (2) and enters the simulated underground; the simulated pipeline ( 4) It is disconnected in the simulated valve well and connected as a whole through the simulated valve (3); the simulated pipeline (4) is hermetically connected with both ends of the simulated valve (3). 6. The pipeline valve well model according to claim 1, characterized in that the simulated straight climbing ladder (5) is a device for entering and exiting the simulated valve well; the simulated straight climbing ladder (5) is parallel to the simulated valve well wall (2), and simulates The connection point interval between the straight climbing ladder (5) and the simulated valve well wall (2) is set. 7. The method for making the pipeline valve well model is characterized in that the simulated valve well wall (2) is set first, and the simulated pipeline (4) passes through the center line of the simulated valve well wall (2) and enters the simulated soil layer; The simulation pipeline (4) is disconnected in the space enclosed by the simulation valve well wall (2), and the distance between the simulation nozzles of the two relative simulation pipelines (4) is equal to the length of the simulation valve (3); install the simulation valve (3) , so that the simulated valve (3) is connected with the simulated pipeline (4); the simulated straight ladder (5) is installed so that the simulated straight ladder (5) is consolidated with the simulated valve well wall (2); the simulated valve well cover (1) is put on Can.