CN112478581A - System and method for detecting deflection torque of pipe belt machine - Google Patents

Abstract

The invention discloses a system and a method for detecting the deflection torque of a pipe belt machine, which relate to the technical field of pipe belt machines and comprise the following steps: the lifting platform is arranged on a support frame of the main frame of the pipe belt conveyor and is used for supporting the whole device; the linear guide rail is arranged on the lifting platform; the linear sliding block is arranged on the linear guide rail; the connecting plate is fixed on the linear sliding block; the carrier roller is used for supporting the belt at the bearing section and is arranged on the connecting plate through a carrier roller bracket; pressure sensor installs on liftable platform through the mounting panel, and pressure sensor installs between mounting panel and connecting plate, and contacts with the connecting plate. The belt conveyor drives the carrier roller to move horizontally, and the deflection angle is detected through the pressure sensor, so that the deflection angle is fed back to the deflection adjusting system, and the deflection adjustment is more convenient and faster.

Description

System and method for detecting deflection torque of pipe belt machine

Technical Field

The invention relates to the technical field of pipe belt machines, in particular to a system and a method for detecting the deflection torque of a pipe belt machine.

Background

The tubular conveyor (hereinafter referred to as a pipe belt conveyor) is developed by the company of Prositong Japan from 1964, and is a new type developed on the basis of the common groove-shaped belt conveyor. Its conveying belt is still a plane adhesive tape, but its carrying branch section is equipped with proper carrier rollers, so that the conveying belt which is originally made into the form of trough at the charging point can be upwards rolled into a circular tube, two side edges of the conveying belt are mutually overlapped, the material can be wrapped in the tube and conveyed until it is close to the discharging point, and the conveying belt can be unfolded, and can be flatly winded into the head drum. The pipe belt machine is off tracking, the phenomenon of twisting probably appears in the operation in-process, and its concrete embodiment is that the sticky tape overlap joint position from directly over, deflects both sides even below, causes the unusual wearing and tearing of conveyer belt and bearing roller, material to spill, even conveyer belt upset, tearing etc. great equipment trouble, and its economic loss is little then several hundred thousand, and is great then several million.

The existing pipe belt machine detection device can only detect the twisting direction of a pipe belt machine belt, and the size of the twisting angle cannot be quantized, so that the deviation adjusting force cannot be determined when the pipe belt machine belt is adjusted.

Disclosure of Invention

The invention provides a system and a method for detecting the deflection torque of a pipe belt conveyor.

In order to achieve the purpose, the invention adopts the following technical scheme:

a pipe belt machine yawing moment detection system, comprising:

the lifting platform is arranged on a support frame of the main frame of the pipe belt conveyor and is used for supporting the whole device;

the linear guide rail is arranged on the lifting platform;

the linear sliding block is arranged on the linear guide rail;

the connecting plate is fixed on the linear sliding block;

the carrier roller is used for supporting the belt at the bearing section and is arranged on the connecting plate through a carrier roller bracket;

pressure sensor installs on liftable platform through the mounting panel, and pressure sensor installs between mounting panel and connecting plate, and contacts with the connecting plate.

Furthermore, the lifting platform comprises a lifting platform base, a jack is arranged on the lifting platform base and controlled by a motor, and the upper end of the jack is connected with the lifting platform upper seat.

Furthermore, a sliding pin is installed at the upper end of the lifting platform base, a sleeve is installed on the lower side of the lifting platform upper base, and the sliding pin is arranged in the sleeve.

Further, the jack is a scissor jack.

Furthermore, the number of the linear guide rails is two, and the two linear guide rails are arranged on the upper seat of the lifting platform in parallel.

Furthermore, each linear guide rail is provided with two linear sliding blocks, and the linear sliding blocks on the same side of the two linear guide rails are connected through a connecting plate.

Furthermore, each connecting plate is provided with a roller bracket.

The invention has the following advantages: the belt conveyor drives the carrier roller to move horizontally, and the deflection angle is detected through the pressure sensor, so that the deflection angle is fed back to the deflection adjusting system, and the deflection adjustment is more convenient and faster.

Drawings

FIG. 1 is a schematic view of the present invention in its installed configuration;

FIG. 2 is a schematic right-view structural diagram of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic structural view of the present invention;

FIG. 4 is a schematic diagram of the right view structure of FIG. 4 according to the present invention.

In the figure: the lifting platform comprises a bearing section belt 1, a lifting platform base 2, a lifting platform upper seat 3, a linear guide rail 4, a linear sliding block 5, a connecting plate 6, a carrier roller support 7, a carrier roller 8, a sliding pin 9, a sleeve 10, a jack 11, a motor 12 and a pressure sensor 13.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1:

referring to fig. 1-4, a pipe belt machine yawing moment detection system includes: the lifting platform is arranged on a support frame of the main frame of the pipe belt conveyor and is used for supporting the whole device; the linear guide rail 4 is arranged on the lifting platform; the two linear guide rails 4 are arranged on the lifting platform upper seat 3 of the lifting platform in parallel. Each linear guide rail 4 is provided with two linear sliding blocks 5, and the linear sliding blocks 5 on the same side of the two linear guide rails 4 are connected through a connecting plate 6. The linear sliding block 5 is arranged on the linear guide rail 4; the connecting plate 6 is fixed on the linear sliding block 5; each connecting plate 6 is provided with a roller bracket 7. The carrier roller 8 is used for supporting the belt 1 at the bearing section and is arranged on the connecting plate 6 through a carrier roller bracket 7; pressure sensor 13 installs on liftable platform through the mounting panel, and pressure sensor 13 installs between mounting panel and connecting plate 6, and contacts with connecting plate 6.

The lifting platform comprises a lifting platform base 2, a jack 11 is arranged on the lifting platform base 2, the jack 11 is controlled by a motor 12, and the upper end of the jack 11 is connected with a lifting platform upper seat 3. The lifting platform is characterized in that a sliding pin 9 is installed at the upper end of the lifting platform base 2, a sleeve 10 is installed on the lower side of the lifting platform upper seat 3, and the sliding pin 9 is arranged in the sleeve 10. The jack 11 is a scissor jack.

When the pipe belt machine needs to be detected, the motor 12 drives the jack 11 to ascend, the jack 11 drives the upper lifting platform seat 3 to move upwards, the sleeve 10 below the upper lifting platform seat 3 moves longitudinally on the sliding pin 9, so that the carrier roller 8 is in contact with the bearing section belt 1 of the pipe belt machine, when the belt is not twisted, the bearing section belt 1 of the pipe belt machine drives the carrier roller 8 to rotate on the carrier roller bracket 7, when bearing section belt 1 twists reverse, bearing section belt 1 of pipe belt machine drives bearing roller 8 and rotates on bearing roller support 7, and bearing section belt 1 can drive bearing roller 8 and slide on linear guide 4 through sharp slider 5, and sharp slider 5 is gliding simultaneously drives connecting plate 6 and removes, and connecting plate 6 can extrude pressure sensor 13 and make pressure sensor 13's numerical value change, and operating personnel can adjust partially according to pressure sensor 13's numerical value change to pipe belt machine.

Example 2:

a method for detecting deflection torque of a pipe belt machine comprises the steps that when the pipe belt machine needs to be detected, a motor 12 drives a jack 11 to ascend, the jack 11 drives an upper seat 3 of a lifting platform to move upwards, a sleeve 10 below the upper seat 3 of the lifting platform moves on a sliding pin 9 in the longitudinal direction, a carrier roller 8 is in contact with a carrier belt 1 of the pipe belt machine, when the belt is not twisted, the carrier belt 1 of the pipe belt machine drives the carrier roller 8 to rotate on a carrier roller support 7, when the carrier belt 1 is twisted, the carrier belt 1 of the pipe belt machine drives the carrier roller 8 to rotate on the carrier roller support 7, meanwhile, the carrier belt 1 can drive the carrier roller 8 to slide on a linear guide rail 4 through a linear slide block 5, the linear slide block 5 drives a connecting plate 6 to move while sliding, the connecting plate 6 can extrude a pressure sensor 13, the numerical value of the pressure sensor 13 is changed, and the numerical values of the, an operator can adjust the deviation of the pipe belt machine according to the numerical value change of the pressure sensor 13.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The utility model provides a pipe tape unit yawing moment detecting system which characterized in that: the method comprises the following steps:

the lifting platform is arranged on a support frame of the main frame of the pipe belt conveyor and is used for supporting the whole device;

the linear guide rail (4) is arranged on the lifting platform;

the linear sliding block (5) is arranged on the linear guide rail (4);

the connecting plate (6) is fixed on the linear sliding block (5);

the carrier roller (8) is used for supporting the belt (1) at the bearing section and is arranged on the connecting plate (6) through a carrier roller bracket (7);

pressure sensor (13) is installed on liftable platform through the mounting panel, and pressure sensor (13) are installed between mounting panel and connecting plate (6), and contact with connecting plate (6).

2. The pipe belt machine deflection torque detection system according to claim 1, wherein the lifting platform comprises a lifting platform base (2), a jack (11) is mounted on the lifting platform base (2), the jack (11) is controlled by a motor (12), and the upper end of the jack (11) is connected with the lifting platform upper seat (3).

3. The pipe belt machine deflection torque detection system according to claim 2, wherein a sliding pin (9) is installed at the upper end of the lifting platform base (2), a sleeve (10) is installed at the lower side of the lifting platform upper base (3), and the sliding pin (9) is arranged in the sleeve (10).

4. The belt conveyor yawing moment detecting system of claim 2, wherein the jack (11) is a scissor jack.

5. The pipe belt machine deflection moment detection system according to claim 1, wherein two linear guide rails (4) are provided, and the two linear guide rails (4) are arranged on the lifting platform upper seat (3) of the lifting platform in parallel.

6. The pipe belt machine deflection torque detection system according to claim 5, wherein each linear guide rail (4) is provided with two linear sliding blocks (5), and the linear sliding blocks (5) on the same side of the two linear guide rails (4) are connected through a connecting plate (6).

7. The pipe belt machine yawing moment detecting system of claim 6, wherein each connecting plate (6) is provided with a roller support (7).

8. A pipe belt machine deflection moment detection method is characterized in that when a pipe belt machine needs to be detected, a motor (12) drives a jack (11) to ascend, the jack (11) drives an upper seat (3) of a lifting platform to move upwards, a sleeve (10) below the upper seat (3) of the lifting platform moves on a sliding pin (9) longitudinally, so that a carrier roller (8) is in contact with a bearing section belt (1) of the pipe belt machine, when the belt is not twisted, the bearing section belt (1) of the pipe belt machine drives the carrier roller (8) to rotate on a carrier roller bracket (7), when the bearing section belt (1) is twisted, the bearing section belt (1) of the pipe belt machine drives the carrier roller (8) to rotate on the carrier roller bracket (7), the bearing section belt (1) can drive the carrier roller (8) to slide on a linear guide rail (4) through a linear sliding block (5), and a connecting plate (6) is driven to move while the linear sliding block (5) slides, pressure sensor (13) can be extruded in connecting plate (6) and the numerical value that makes pressure sensor (13) changes, and through the numerical value of comparison two sets of pressure sensor, operating personnel can adjust partially according to pressure sensor (13)'s numerical value change to the pipe tape unit.

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