CN113479587A

CN113479587A - Pipeline transmission system with vibration detection blocking pipe

Info

Publication number: CN113479587A
Application number: CN202110735402.6A
Authority: CN
Inventors: 吕荫平; 朱毅
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-30
Filing date: 2021-06-30
Publication date: 2021-10-08
Anticipated expiration: 2041-06-30
Also published as: CN113479587B

Abstract

The invention discloses a pipeline transmission system with a vibration detection pipe blockage, which comprises a fixed plate, a belt transmission device and a control system, wherein the fixed plate is provided with a feeding mechanism controlled by the control system; the sliding channel pipe is arranged at the end part of the fixed plate, a first valve is arranged at the lower end of the sliding channel pipe, and a transition pipe is arranged at the lower end of the first valve; the second valve is arranged at the lower end of the transition pipe, and an air source leading-in pipe is arranged at the lower end of the second valve; and the transmission pipeline is provided with the air source lead-in pipe and is arranged at the lower end of the second valve, and the transmission pipeline is provided with a pipe replacing joint. This take pipeline transmission system of vibration detection stifled pipe through the rotation of swash plate, realizes changing the direction of article to guarantee subsequent transmission effect, and connect fixedly between 2 transmission pipelines through trading the pipe joint, thereby be convenient for dismantle transmission pipeline fast when follow-up change.

Description

Pipeline transmission system with vibration detection blocking pipe

Technical Field

The invention relates to the technical field of pipeline transmission, in particular to a pipeline transmission system with a vibration detection pipe blockage.

Background

The circular articles and the tank-shaped articles can be conveyed through the pipeline, and the articles are pushed by the pneumatic system to move in the pipeline according to the distribution direction of the pipeline.

The publication number is: the device for detecting the article conveyed by the pipeline of CN204203480U comprises the pipeline and the article to be detected; the device is characterized by further comprising a signal source and a signal detection unit, wherein the signal detection unit is arranged on the outer wall of the pipeline, the signal source is arranged on an object to be detected, the object to be detected is transmitted in the pipeline, the signal detection unit can sense a signal sent by the signal source within a certain distance and is arranged on the outer wall of the transmission pipeline directly or through an installation support, and therefore the device saves cost and is convenient to assemble on the premise of meeting conventional requirements.

However, there are some problems in using the above device, for example, when the pipeline is blocked, it is difficult to quickly determine the accurate position, which affects the maintenance speed, and the conveying direction of the object cannot be adjusted, and it cannot be guaranteed that the direction of the object is the same

Disclosure of Invention

The invention aims to provide a pipeline transmission system with a vibration detection blocking pipe, which aims to solve the problems that the accurate position is difficult to quickly determine and the transmission direction of an article cannot be adjusted in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a pipe transmission system with vibration detection for pipe blockage, comprising:

the feeding mechanism is controlled by the control system and is arranged on the fixed plate, and the belt transmission device is arranged at the lower end of the fixed plate;

the sliding channel pipe is arranged at the end part of the fixed plate, a first valve is arranged at the lower end of the sliding channel pipe, and a transition pipe is arranged at the lower end of the first valve;

the second valve is arranged at the lower end of the transition pipe, and an air source leading-in pipe is arranged at the lower end of the second valve;

the transmission pipeline is provided with the air source lead-in pipe, is arranged at the lower end of the second valve and is provided with a pipe replacing joint, and is divided into an inner layer and an outer layer, the inner surface and the outer surface of the transmission pipeline are smooth, the transmission pipeline is divided into a plurality of sections, and the connecting part of the transmission pipeline is provided with one pipe replacing joint;

the first vibration sensor is arranged on the transmission pipeline, the second vibration sensor is arranged on the transmission pipeline, and the transmission pipeline is connected with the third vibration sensor;

the delivery pipe is arranged at the lower end of the conveying pipeline;

the collection box is installed the lower extreme of contact tube, just collect the box and set up to the PVC material.

Preferably, the belt transmission device is further provided with a rotating shaft and a motor;

the rotating shaft is connected with the belt transmission device through a bearing arranged on the belt transmission device;

and the output end of the motor is mutually connected with the rotating shaft, and the motor is placed on the fixing plate.

Preferably, the landing passage pipe is symmetrically provided with 2 mounting plates, the landing passage pipe is provided with the vortex spring through the rotating shaft, and the vortex spring is conveniently mounted on the mounting plates through the structure.

Preferably, vortex spring and swash plate interconnect, the swash plate is provided with 2 altogether, just the swash plate surface sets up to smooth, and through above-mentioned structure, the swash plate of being convenient for rotates under vortex spring's effect.

Preferably, the laminating of swash plate lower extreme has electric telescopic handle, and electric telescopic handle installs on the landing passageway pipe, through above-mentioned structure, be convenient for through electric telescopic handle's work, whether control is laminated with the swash plate.

Preferably, the conveying pipeline is provided with a receiving plate, the receiving plate and the pipe changing joint form a rotating mechanism, and the pipe changing joint can rotate around the receiving plate conveniently through the structure.

Preferably, the transmission pipeline is provided with a fastening plate, the outer surface of the fastening plate is provided with a thread structure, the fastening plate is connected with the pipe replacing joint through the thread structure arranged on the pipe replacing joint, and the pipe replacing joint is convenient to connect the transmission pipelines at the left end and the right end.

Compared with the prior art, the invention has the beneficial effects that: according to the pipeline transmission system with the vibration detection blocking pipe, the direction of an article is changed through rotation of the inclined plate, so that the subsequent transmission effect is ensured, and 2 transmission pipelines are fixedly connected through the pipe changing connector, so that the transmission pipelines can be conveniently and quickly detached during subsequent replacement;

1. the rotating shaft and the belt transmission device are driven to rotate by the motor, so that materials are fed, the material transmission direction is changed by the 2 inclined plates, and then the blocking position of the pipeline is quickly positioned by the vibration sensor;

2. through the rotation of trading the coupling, make and trade the coupling and rotate around accepting the board, trade the coupling just at this moment and mutually connect with the binding plate through the helicitic texture that its upper end set up to realize connecting 2 transmission pipeline fixedly, and be convenient for follow-up dismantlement change.

Drawings

FIG. 1 is a schematic view of a main structure of a transport pipeline according to the present invention;

FIG. 2 is a schematic cross-sectional front view of the belt conveying apparatus of the present invention;

FIG. 3 is a schematic side sectional view of the belt conveyor of the present invention;

FIG. 4 is a schematic sectional view of a transport pipeline according to the present invention;

FIG. 5 is a schematic side view of a pipe-changing joint according to the present invention.

In the figure: 1. a fixing plate; 2. a feeding mechanism; 3. a belt transmission device; 301. a rotating shaft; 302. an electric motor; 4. sliding down the channel tube; 5. a first valve; 6. a transition duct; 7. a second valve; 8. a gas source inlet pipe; 9. pipe replacing joints; 10. a transport pipeline; 11. a first vibration sensor; 12. a second vibration sensor; 13. a third vibration sensor; 14. a delivery pipe; 15. a collection box; 16. mounting a plate; 17. a scroll spring; 18. a sloping plate; 19. an electric telescopic rod; 20. a bearing plate; 21. and (7) fastening the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a pipe transmission system with vibration detection for pipe blockage, comprising:

the device comprises a fixed plate 1, a feeding mechanism 2 controlled by a control system is arranged on the fixed plate 1, and a belt transmission device 3 is arranged at the lower end of the fixed plate 1;

the slide channel pipe 4 is arranged at the end part of the fixed plate 1, the lower end of the slide channel pipe 4 is provided with a first valve 5, and the lower end of the first valve 5 is provided with a transition pipe 6;

the second valve 7 is arranged at the lower end of the transition pipe 6, and an air source inlet pipe 8 is arranged at the lower end of the second valve 7;

the conveying pipeline 10 is provided with an air source inlet pipe 8, the conveying pipeline 10 is arranged at the lower end of the second valve 7, the conveying pipeline 10 is provided with a pipe replacing joint 9, the conveying pipeline 10 is divided into an inner layer and an outer layer, the inner surface and the outer surface of the conveying pipeline 10 are smooth, the conveying pipeline 10 is divided into a plurality of sections, and the connecting part of the conveying pipeline 10 is provided with the pipe replacing joint 9;

the first vibration sensor 11 is arranged on the transmission pipeline 10, the second vibration sensor 12 is arranged on the transmission pipeline 10, and the transmission pipeline 10 is connected with the third vibration sensor 13;

a delivery pipe 14 installed at the lower end of the transport pipeline 10;

a collecting box 15 installed at the lower end of the delivery pipe 14, and the collecting box 15 is made of PVC material;

in this example, the belt transmission device 3 is further provided with a rotating shaft 301 and a motor 302; a rotating shaft 301 connected to the belt transmission device 3 through a bearing provided on the belt transmission device 3; a motor 302 whose output end is connected to the rotating shaft 301, and the motor 302 is placed on the fixing plate 1;

the materials are poured into a storage bin of a feeding mechanism 2, the feeding mechanism 2 lifts the materials one by one to the top and falls into a belt transmission device 3, then a motor 302 is connected with an external power supply, the motor 302 starts to work, the rotating shaft 301 starts to rotate because the output end of the motor 302 is connected with the rotating shaft 301, and the belt transmission device 3 is arranged on the rotating shaft 301, so the belt transmission device 3 starts to rotate, the materials are fed through the rotation of the belt transmission device 3, the falling materials are transmitted into a sliding channel pipe 4 by the belt transmission device 3, then a first valve 5 is opened, the materials slide into a transition pipe 6, the first valve 5 is closed, a second valve 7 is opened, the materials fall into a transmission pipeline 10, the second valve 7 is closed, and an air source leading-in pipe 8 is an inlet of pneumatic transmission airflow, at the moment, the materials are pushed by the airflow and conveyed to the delivery pipe 14, the conveying pipeline 10 is divided into an inner layer and an outer layer, the whole conveying pipeline 10 is divided into a plurality of sections, a pipe changing joint 9 is arranged at the connecting part, for fast replacing the inner tube, a first vibration sensor 11, a second vibration sensor 12 and a third vibration sensor 13 are respectively arranged at different positions on a transmission pipeline 10, when the air speed is high, the vibration frequency is high, if there is a material stuck in the transport pipe 10, the velocity and flow rate of the transport pipe 10 after the stuck point will be reduced or even interrupted, and the vibration frequency will be reduced or even eliminated, for example, when the second vibration sensor 12 detects that the vibration frequency of the test tube is reduced, and the first vibration sensor 11 is unchanged, the sample is clamped at the position before the second vibration sensor 12 and behind the first vibration sensor 11, and then the section of the inner tube of the first vibration sensor 11 can be drawn out and replaced;

2 mounting plates 16 are symmetrically arranged on the sliding channel pipe 4, and a vortex spring 17 is arranged on the sliding channel pipe 4 through a rotating shaft; the scroll springs 17 are connected with the inclined plates 18, the number of the inclined plates 18 is 2, and the outer surfaces of the inclined plates 18 are smooth; the lower end of the inclined plate 18 is attached with an electric telescopic rod 19, and the electric telescopic rod 19 is arranged on the sliding channel pipe 4; the conveying pipeline 10 is provided with a bearing plate 20, and the bearing plate 20 and the pipe replacing joint 9 form a rotating mechanism; the transmission pipeline 10 is provided with a fastening plate 21, the outer surface of the fastening plate 21 is provided with a thread structure, and the fastening plate 21 is connected with the pipe changing joint 9 through the thread structure arranged on the pipe changing joint 9.

When the material contacts with swash plate 18, because distance between two swash plates 18 is slightly big with the diameter of material lower extreme tubular structure, and be less than the diameter of tube head, material lower extreme tubular structure just faces down this moment, the tube head is up, then make electric telescopic handle 19 begin to work, electric telescopic handle 19 just no longer promotes swash plate 18, swash plate 18 just resumes under the effect of deformation at vortex spring 17 this moment, begin to rotate, the material alright slide to the lower extreme of landing passageway pipe 4 this moment, when needs dismantle transmission pipeline 10, change coupling 9 in the rotation, make and change coupling 9 to the direction motion of keeping away from mounting plate 21, it can realize changing transmission pipeline 10's inlayer to not laminating again until the transmission pipeline 10 of controlling both ends.

The working principle is as follows: put into feeding mechanism 2's hopper with the material in, then feeding mechanism 2 promotes the top to the material one by one, and fall into belt transmission device 3, just get into in landing passage pipe 4 through belt transmission device 3 material, then under the effect of first valve 5 and second valve 7, the realization is carried out the material one by one, then under the effect of air supply induction pipe 8, the realization promotes the material, the material is collected in first vibration sensor 11, second vibration sensor 12, third vibration sensor 13 and delivery pipe 14 entering collection box 15 under the effect of transmission pipeline 10, this is exactly this pipeline transmission system's that takes vibration detection to block up the pipe theory of operation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a pipe transmission system of stifled pipe of area vibration detection which characterized in that includes:

the fixed plate is provided with a feeding mechanism controlled by a control system, and the lower end of the fixed plate is provided with a belt transmission device;

the transmission pipeline is provided with the air source lead-in pipe, the transmission pipeline is arranged at the lower end of the second valve, the transmission pipeline is provided with a pipe replacing joint and is divided into an inner layer and an outer layer, the inner surface and the outer surface of the transmission pipeline are smooth, the transmission pipeline is divided into multiple sections, and the connecting part of the transmission pipeline and the outer layer is provided with one pipe replacing joint.

2. The pipe transmission system with the vibration detection pipe blockage of claim 1, wherein the pipe transmission system comprises: the first vibration sensor is arranged on the transmission pipeline, the second vibration sensor is arranged on the transmission pipeline, and the transmission pipeline is connected with the third vibration sensor.

3. The pipe transmission system with the vibration detection pipe blockage of claim 1, wherein the pipe transmission system comprises: and the delivery pipe is arranged at the lower end of the conveying pipeline.

4. The pipe transmission system with the vibration detection pipe blockage of claim 1, wherein the pipe transmission system comprises: the collection box is installed the lower extreme of contact tube, just collect the box and set up to the PVC material.

5. The pipe transmission system with the vibration detection pipe blockage of claim 1, wherein the pipe transmission system comprises: the belt transmission device is also provided with a rotating shaft and a motor;

6. The pipe transmission system with the vibration detection pipe blockage of claim 1, wherein the pipe transmission system comprises: 2 mounting plates are symmetrically arranged on the sliding channel pipe, and a vortex spring is arranged on the sliding channel pipe through a rotating shaft.

7. The pipe transmission system with the vibration detection pipe blockage of claim 6, wherein: vortex spring and swash plate interconnect, the swash plate is provided with 2 altogether, just the swash plate surface sets up to smooth.

8. The pipe transmission system with the vibration detection pipe blockage of claim 7, wherein: the lower end of the inclined plate is attached with an electric telescopic rod, and the electric telescopic rod is installed on the sliding channel pipe.

9. The pipe transmission system with the vibration detection pipe blockage of claim 1, wherein the pipe transmission system comprises: the conveying pipeline is provided with a bearing plate, and the bearing plate and the pipe replacing joint form a rotating mechanism.

10. The pipe transmission system with the vibration detection pipe blockage of claim 1, wherein the pipe transmission system comprises: the transmission pipeline is provided with a fastening plate, the outer surface of the fastening plate is provided with a thread structure, and the fastening plate is connected with the pipe replacing joint through the thread structure arranged on the pipe replacing joint.