CN215709246U

CN215709246U - Three-dimensional belt conveyor off tracking monitoring system

Info

Publication number: CN215709246U
Application number: CN202121103000.6U
Authority: CN
Inventors: 李铮
Original assignee: Ningxia Guangtianxia Electronics Technology Co ltd
Current assignee: Ningxia Guangtianxia Technology Co ltd
Priority date: 2021-05-21
Filing date: 2021-05-21
Publication date: 2022-02-01
Anticipated expiration: 2031-05-21

Abstract

The utility model relates to a conveyer detects technical field, specifically is three-dimensional band conveyer off tracking monitoring system, including support and belt pulley, the support is two-way symmetry setting, be equipped with the belt pulley between the support, it is equipped with drive assembly to be located the belt pulley below position between the support, drive assembly's removal tip is equipped with determine module. The belt deviation detection device can realize reciprocating movement of the detection assembly back and forth through the driving force provided by the driving assembly, the problem that the deviation detection device in the prior art mostly detects fixed points is solved through the matching of the detection assembly and the clamping assembly, the motor in the device is combined to drive the screw rod to rotate in the forward and reverse directions through the forward and reverse installation, the screw rod is meshed with the movable block, meanwhile, the movable block can reciprocate back and forth along the screw rod under the guiding and limiting effects of the guide rod, the deviation detection of different points of a belt in a belt pulley can be met, and the actual requirements are greatly met.

Description

Three-dimensional belt conveyor off tracking monitoring system

Technical Field

The utility model relates to the technical field of conveyor detection, in particular to a three-dimensional belt conveyor deviation monitoring system.

Background

The belt conveyor is a belt conveyor for short, and has the advantages of fixed type, movable type, simple structure and high efficiency. A continuous conveyor machine with flexible conveyor belts for carrying and pulling material, an endless conveyor belt looped around drive and direction-changing drums, the upper and lower branches between the drums being supported by a plurality of idler rollers. The materials are placed on the upper branch, and the conveying belt and the materials are dragged to run by utilizing the friction force between the driving roller and the belt.

The existing belt conveyor is prone to deviation when conveying large articles, deviation detection devices are needed to be adopted to conduct deviation detection on the belt conveyor aiming at the deviation problem, most of the existing belt conveyor deviation detection devices are fixed point detection, deviation detection cannot be conducted on belts at different positions, or the fixed points of the detection devices need to be changed to conduct detection of different points, the process is troublesome, and the actual detection requirements cannot be met, therefore, a three-dimensional belt conveyor deviation monitoring system is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a three-dimensional belt conveyor deviation monitoring system to solve the problems that most of the existing deviation detection devices in the background art are used for detecting fixed points and cannot perform deviation detection on belts at different positions.

In order to achieve the above purpose, the present application provides the following technical solutions: three-dimensional band conveyer off tracking monitoring system, including support and belt pulley, the support is bilateral symmetry and sets up, be equipped with the belt pulley between the support, it is equipped with drive assembly to be located the belt pulley below position between the support, drive assembly's removal tip is equipped with determine module, determine module's tip is equipped with the block subassembly, and the block subassembly is located the bilateral symmetry setting of belt pulley, and block subassembly and belt pulley structure cooperation, the outside surface of support is located drive assembly's bilateral symmetry and is equipped with buffering subassembly, and buffering subassembly and drive assembly structure cooperation.

Preferably, the driving assembly comprises a T-shaped fixing block, a screw, a motor, a guide rod and a moving block, the T-shaped fixing block is symmetrically and fixedly installed on the outer surface of the support below the belt pulley, the screw is rotatably installed between the T-shaped fixing blocks, the motor is fixedly installed on the surface of the support on one side of the screw, the output end of the motor is fixedly connected with the end of the screw, the moving block is arranged on the outer surface of the screw in a meshed mode, the guide rod is fixedly installed below the screw between the T-shaped fixing blocks, and the guide rod penetrates through the moving block in a sliding mode.

Further, the motor works through positive and negative dress and drives the screw rod forward and reverse rotation, is connected with the movable block through the screw rod meshing, and simultaneously under the direction limiting displacement of guide arm, the movable block can make a reciprocating motion along the screw rod, can satisfy and carry out the off tracking to the belt different points department in the belt pulley and detect, very big satisfied actual needs.

Preferably, the detection assembly comprises a detection end block, a trapezoid hole, an insertion rod, a spring A and a pressure sensor, the detection end block is fixedly installed on the upper surface of the moving block, the trapezoid hole is formed in the side surface of the detection end block, the insertion rod is slidably inserted in the trapezoid hole, the pressure sensor is fixedly installed on the side wall of the trapezoid hole, the spring A is fixedly installed at the end part of the pressure sensor, the end part of the spring A is fixedly connected with the end part of the insertion rod, and the insertion rod is elastically connected with the pressure sensor through the spring A.

Further, when the roller clamping belt surface moves back and forth, the fixed rod is fixedly connected with the inserted rod, the inserted rod can slide inwards and outwards along the inner wall of the trapezoidal hole under the traction of the fixed rod, meanwhile, the spring A correspondingly stretches and compresses through the traction of the inserted rod, when the length of the spring A is changed, the received force is changed, the spring A transmits the received force to the pressure sensor, the pressure sensor can convert the received force into a data signal and transmits the data signal to a computer at any time, the data can be displayed in a certain range for people to refer to, when the deviation of a certain position of the belt occurs, the position of the roller is changed by the pressure of the belt after the roller moves to the position, the pressure is transmitted to the spring A through the inserted rod, abnormal data is obtained through the detection of the pressure sensor, and people can timely overhaul the roller after finding.

Preferably, the clamping assembly comprises a fixing rod, a rotating shaft and a roller, the end part of the inserting rod is located outside the detection end block and fixedly provided with the fixing rod, the rotating shaft is symmetrically and fixedly arranged on the lower surface of the fixing rod, the outer surface of the rotating shaft is rotatably sleeved with the roller, and the roller is clamped and matched with the belt pulley.

Furthermore, before the belt pulley works, the belt of the belt pulley is clamped between the rollers, and the rollers rotate relative to the rotating shaft, so that the belt is convenient to move when the belt pulley works.

Preferably, buffering subassembly includes buffer block, side opening, T type extrusion piece and spring B, the support side surface is located the outside symmetry fixed mounting buffer block of T type fixed block, the side opening is seted up to buffer block medial extremity, the inside slip of side opening is inserted and is established T type extrusion piece, side opening lateral wall fixed mounting spring B, and spring B tip and T type extrusion piece tip fixed connection, and T type extrusion piece passes through spring B and side opening lateral wall elastic connection.

Furthermore, in the moving process of the moving block, the end parts of the T-shaped extrusion blocks on the two sides can be contacted and extruded, then the T-shaped extrusion blocks extrude the springs B, the springs B can be elastically compressed, certain impact force from the moving block is buffered, and the phenomenon that the moving block is blocked due to excessive movement is effectively prevented.

Preferably, the spring B and the spring A are both made of high carbon spring steel materials.

Furthermore, the carbon spring steel material has high elasticity, and the service life of the spring B and the spring A is prolonged.

In conclusion, the technical effects and advantages of the utility model are as follows:

1. according to the belt deviation detection device, the detection assembly can reciprocate back and forth through the driving force provided by the driving assembly, the problem that the deviation detection device in the prior art mostly detects fixed points is solved through the matching of the detection assembly and the clamping assembly, the motor in the device is combined to drive the screw rod to rotate forward and backward through forward and backward installation, the screw rod is meshed with the movable block, meanwhile, under the guiding and limiting effects of the guide rod, the movable block can reciprocate back and forth along the screw rod, the deviation detection of different points of a belt in a belt pulley can be met, and the actual requirements are greatly met;

2. according to the device, the impact force caused by excessive movement of the driving assembly can be effectively buffered through the buffering assembly, and by combining the fact that the T-shaped extrusion blocks at two sides can be contacted and extruded in the moving process of the moving block, then the T-shaped extrusion blocks extrude the spring B, the spring B can be elastically compressed, the impact force from the moving block is buffered, the phenomenon that the moving block is stuck due to excessive movement is effectively prevented, and the service life of the whole device is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a driving assembly according to the present invention;

FIG. 3 is a schematic view of a detecting assembly according to the present invention;

FIG. 4 is a schematic view of a fastening assembly according to the present invention;

FIG. 5 is a schematic view of a buffer assembly according to the present invention.

In the figure: 1. a support; 2. a belt pulley; 3. a drive assembly; 301. a T-shaped fixed block; 302. A screw; 303. a motor; 304. a guide bar; 305. a moving block; 4. a detection component; 401. Detecting an end-block; 402. a trapezoidal hole; 403. inserting a rod; 404. a spring A; 405. a pressure sensor; 5. clamping the assembly; 501. fixing the rod; 502. a rotating shaft; 503. a drum; 6. a buffer assembly; 601. a buffer block; 602. a side hole; 603. a T-shaped extrusion block; 604. and a spring B.

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.

Example (b): please refer to the three-dimensional belt conveyor off tracking monitoring system shown in fig. 1-5, which comprises a bracket 1 and a belt pulley 2, wherein the bracket 1 is arranged symmetrically in two directions, the belt pulley 2 is arranged between the brackets 1, a driving component 3 is arranged between the brackets 1 and below the belt pulley 2, a detecting component 4 is arranged at the moving end of the driving component 3, a clamping component 5 is arranged at the end of the detecting component 4, the clamping component 5 is symmetrically arranged at two sides of the belt pulley 2, the clamping component 5 is structurally matched with the belt pulley 2, buffering components 6 are symmetrically arranged at two sides of the driving component 3 on the outer side surface of the bracket 1, and the buffering components 6 are structurally matched with the driving component 3;

in this embodiment, the driving assembly 3 includes a T-shaped fixing block 301, a screw 302, a motor 303, a guide rod 304 and a moving block 305, the T-shaped fixing block 301 is symmetrically and fixedly installed at a position below the belt pulley 2 on the outer side surface of the bracket 1, the screw 302 is rotatably installed between the T-shaped fixing blocks 301, the motor 303 is fixedly installed on the surface of the bracket 1 on one side of the screw 302, the output end of the motor 303 is fixedly connected with the end of the screw 302, the moving block 305 is engaged and sleeved on the outer surface of the screw 302, the guide rod 304 is fixedly installed below the screw 302 between the T-shaped fixing blocks 301, the guide rod 304 penetrates through the moving block 305 in a sliding manner, the motor 303 drives the screw 302 to rotate in the forward and reverse directions through forward and reverse installation, and is engaged and connected with the moving block 305 through the screw 302, and the moving block 305 can reciprocate back and forth along the screw 302 under the guiding and limiting effect of the guide rod 304, so as to perform deviation detection on different points of the belt in the belt pulley 2, the actual requirements are greatly met;

as a preferred embodiment of this embodiment, the detecting assembly 4 includes a detecting end block 401, a trapezoidal hole 402, an inserting rod 403, a spring a404 and a pressure sensor 405, the detecting end block 401 is fixedly mounted on the upper surface of the moving block 305, the trapezoidal hole 402 is formed on the side surface of the detecting end block 401, the inserting rod 403 is slidably inserted in the trapezoidal hole 402, the pressure sensor 405 is fixedly mounted on the side wall of the trapezoidal hole 402, the spring a404 is fixedly mounted on the end of the pressure sensor 405, the end of the spring a404 is fixedly connected with the end of the inserting rod 403, the inserting rod 403 is elastically connected with the pressure sensor 405 through the spring a404, when the roller 503 is engaged with the surface of the belt to move back and forth, the fixing rod 501 is fixedly connected with the inserting rod, the inserting rod 403 can slide inwards and outwards along the inner wall of the trapezoidal hole 402 under the traction of the fixing rod 501, the spring a404 is correspondingly elongated and compressed through the traction of the inserting rod 403, when the length of the spring a404 changes, the force applied to the spring a404 changes, the spring A404 transmits the received force to the pressure sensor 405, the pressure sensor 405 can convert the received force into a data signal, the data signal is transmitted to a computer at any time, the data can be displayed in a certain range for people to refer, if the belt deviates at a certain position, the position of the roller 503 is changed by the pressure of the belt after the roller 503 moves to the position, the data is transmitted to the spring A404 through the inserted link 403, abnormal data is detected by the pressure sensor 405, and the roller can be overhauled in time after people find the abnormal data;

as a preferred embodiment of this embodiment, the fastening assembly 5 includes a fixing rod 501, a rotating shaft 502 and a roller 503, the end of the insertion rod 403 is located outside the detection end block 401 and fixedly installs the fixing rod 501, the rotating shaft 502 is symmetrically and fixedly installed on the lower surface of the fixing rod 501, the outer surface of the rotating shaft 502 is rotatably sleeved with the roller 503, and the roller 503 is engaged with the pulley 2, before the pulley 2 works, the belt of the pulley 2 is engaged between the rollers 503, and the roller 503 rotates relative to the rotating shaft 502, so that the movement of the belt is facilitated when the pulley 2 works;

in this embodiment, the buffer assembly 6 includes a buffer block 601, a side hole 602, a T-shaped extrusion block 603 and a spring B604, the buffer block 601 is symmetrically and fixedly mounted on the side surface of the bracket 1 located outside the T-shaped fixed block 301, the side hole 602 is formed at the end of the inner side of the buffer block 601, the T-shaped extrusion block 603 is slidably inserted into the side hole 602, the spring B604 is fixedly mounted on the side wall of the side hole 602, the end of the spring B604 is fixedly connected with the end of the T-shaped extrusion block 603, and the T-shaped extrusion block 603 is elastically connected with the side wall of the side hole 602 through the spring B604, so that the end of the T-shaped extrusion block 603 on both sides can be contacted and extruded in the moving process of the moving block 305, and then the spring B604 can be extruded by the T-shaped extrusion block 603, and the spring B604 can be elastically compressed to buffer the impact force from the moving block 305, thereby effectively preventing the moving block 305 from being stuck due to excessive movement;

in this embodiment, the spring B604 and the spring a404 are both made of a high carbon spring steel material, which has high elasticity, so that the service lives of the spring B604 and the spring a404 are prolonged.

This practical theory of operation:

before belt pulley 2 works, the belt of belt pulley 2 is clamped between rollers 503, and rollers 503 rotate relatively with rotating shaft 502, the belt is convenient to move when belt pulley 2 works, when belt pulley 2 works normally, motor 303 works to drive screw 302 to rotate forward through positive rotation, motor 303 works to drive screw 302 to rotate backward through reverse rotation, and is meshed with moving block 305 through screw 302 and connected, meanwhile, under the guiding and limiting effect of guide rod 304, moving block 305 can reciprocate back and forth along screw 302, in the moving block 305 moving process, moving block 305 can drive detecting component 4 to move back and forth, the deviation detection of different points of the belt in belt pulley 2 can be met, and the actual requirement is greatly met.

When the roller 503 is engaged with the surface of the belt to move back and forth, the fixing rod 501 is fixedly connected with the inserting rod 403, the inserting rod 403 can slide inwards and outwards along the inner wall of the trapezoidal hole 402 under the traction of the fixing rod 501, meanwhile, the spring a404 is correspondingly elongated and compressed through the traction of the inserting rod 403, when the length of the spring a404 is changed, the force borne by the spring a404 is transmitted to the pressure sensor 405, the pressure sensor 405 can convert the force borne by the spring into a data signal, the data signal is transmitted to a computer in real time, the data can be displayed within a certain range for people to refer to, if the belt deviates at a certain position, the position of the roller 503 is changed by the pressure of the belt after the roller 503 moves to the position, the pressure borne by the inserting rod 403 is transmitted to the spring a404, abnormal data can be detected by the pressure sensor 405, when people find that the belt can be overhauled in time, and meanwhile, the moving block 305 moves, the end parts of the T-shaped extrusion blocks 603 on the two sides can be contacted and extruded, then the T-shaped extrusion blocks 603 extrude the spring B604, the spring B604 can be elastically compressed, certain impact force from the moving block 305 is buffered, and the phenomenon of blocking caused by excessive movement of the moving block 305 is effectively prevented.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. Three-dimensional band conveyer off tracking monitoring system, including support (1) and belt pulley (2), its characterized in that: support (1) is the bilateral symmetry and sets up, be equipped with belt pulley (2) between support (1), it is equipped with drive assembly (3) to lie in belt pulley (2) below position between support (1), the removal tip of drive assembly (3) is equipped with determine module (4), the tip of determine module (4) is equipped with block subassembly (5), and block subassembly (5) are located the bilateral symmetry setting of belt pulley (2), and block subassembly (5) and belt pulley (2) structure cooperation, the bilateral symmetry that the outside surface of support (1) lies in drive assembly (3) is equipped with buffering subassembly (6), and buffering subassembly (6) and drive assembly (3) structure cooperation.

2. The three-dimensional belt conveyor off-tracking monitoring system of claim 1, wherein: the driving assembly (3) comprises a T-shaped fixing block (301), a screw rod (302), a motor (303), a guide rod (304) and a moving block (305), the outer side surface of the support (1) is located below the belt pulley (2) and is symmetrically and fixedly provided with the T-shaped fixing block (301), the screw rod (302) is rotatably arranged between the T-shaped fixing blocks (301), one side of the screw rod (302) is located on the support (1) and is fixedly provided with the motor (303), the output end part of the motor (303) is fixedly connected with the end part of the screw rod (302), the moving block (305) is arranged on the outer surface of the screw rod (302) in a meshing and sleeving mode, the guide rod (304) is fixedly arranged below the screw rod (302) between the T-shaped fixing blocks (301), and the guide rod (304) penetrates through the moving block (305) in a sliding mode.

3. The three-dimensional belt conveyor off-tracking monitoring system of claim 2, wherein: the detection assembly (4) comprises a detection end block (401), a trapezoidal hole (402), an insertion rod (403), a spring A (404) and a pressure sensor (405), the detection end block (401) is fixedly mounted on the upper surface of the moving block (305), the trapezoidal hole (402) is formed in the side surface of the detection end block (401), the insertion rod (403) is slidably inserted in the trapezoidal hole (402), the pressure sensor (405) is fixedly mounted on the side wall of the trapezoidal hole (402), the spring A (404) is fixedly mounted on the end portion of the pressure sensor (405), the end portion of the spring A (404) is fixedly connected with the end portion of the insertion rod (403), and the insertion rod (403) is elastically connected with the pressure sensor (405) through the spring A (404).

4. The three-dimensional belt conveyor off-tracking monitoring system of claim 3, wherein: the clamping assembly (5) comprises a fixing rod (501), a rotating shaft (502) and a roller (503), the end of the inserting rod (403) is located on the detecting end block (401) and fixedly provided with the fixing rod (501), the rotating shaft (502) is symmetrically and fixedly arranged on the lower surface of the fixing rod (501), the outer surface of the rotating shaft (502) is rotatably sleeved with the roller (503), and the roller (503) is clamped and matched with the belt pulley (2).

5. The three-dimensional belt conveyor off-tracking monitoring system of claim 2, wherein: buffer unit (6) are including buffer block (601), side opening (602), the extrusion piece of T type (603) and spring B (604), support (1) side surface is located outside symmetry fixed mounting buffer block (601) of T type fixed block (301), side opening (602) are seted up to buffer block (601) medial extremity, side opening (602) inside slip is inserted and is established T type extrusion piece (603), side opening (602) lateral wall fixed mounting spring B (604), and spring B (604) tip and T type extrusion piece (603) tip fixed connection, and T type extrusion piece (603) are through spring B (604) and side opening (602) lateral wall elastic connection.

6. The three-dimensional belt conveyor off-tracking monitoring system of claim 5, wherein: the spring B (604) and the spring A (404) are both made of high carbon spring steel materials.