CN112124852A - Deviation adjusting device of belt conveyor - Google Patents

Abstract

The invention discloses a deviation adjusting device of a belt conveyor, which comprises a clamping assembly, a first clamping assembly and a second clamping assembly, wherein the clamping assembly is used for fixedly clamping a belt; the driving assembly is in driving connection with the clamping assembly so as to drive the clamping assembly to move to a preset position; the two sides of the explosion-proof magnetic switch transmitting end fixing frame are provided with check blocks, one end of one check block is positioned beside one end of the belt, and one end of the other check block is positioned beside the other end of the belt; the number of the explosion-proof magnetic switch transmitting ends is at least 3, and each explosion-proof magnetic switch transmitting end is arranged on the explosion-proof magnetic switch transmitting end fixing frame and is separated by a preset offset distance; and the receiving end of the explosion-proof magnetic switch is arranged corresponding to the transmitting end of the explosion-proof magnetic switch and is used for receiving signals transmitted by the transmitting ends of different explosion-proof magnetic switches. The invention can correct and adjust the deviated belt without stopping the machine, and can always ensure the normal operation of the belt even in the state of conveying materials.

Description

Deviation adjusting device of belt conveyor

Technical Field

The invention relates to the field of material conveyors, in particular to a deviation adjusting device of a belt conveyor.

Background

Present belt conveyor protective equipment is mostly the physics protection, most physics protection all is not convenient for belt conveyor routine maintenance and clean along the line, especially prevents off tracking equipment, take place the off tracking in the belt feeder transportation, it is exactly to shut down the tuningout to handle the most common method now, it is heavy to shut down tuningout work, influence production, monitoring system is not visual, can not make accurate countermeasure the very first time after reporting an emergency and ask for help or increased vigilance, thereby lead to the early warning effect poor, even if the off tracking early warning, it also shuts down the tuningout to carry out. The sensor is mostly some detections, and detection accuracy receives the limitation of mounted position higher. The failure rate of the sensor is high, the reliability of the monitoring result is low, and the accident prevention effect is poor.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a deviation adjusting device of a belt conveyor.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the deviation adjusting device of the belt conveyor comprises a clamping assembly, wherein a belt is fixedly clamped by the clamping assembly; the driving assembly is in driving connection with the clamping assembly so as to drive the clamping assembly to move to a preset position; the device comprises an explosion-proof magnetic switch transmitting end fixing frame, wherein two sides of the explosion-proof magnetic switch transmitting end fixing frame are respectively provided with a stop block, one end of one stop block is positioned beside one end of a belt, and one end of the other stop block is positioned beside the other end of the belt; the number of the explosion-proof magnetic switch transmitting ends is at least 3, and each explosion-proof magnetic switch transmitting end is arranged on the explosion-proof magnetic switch transmitting end fixing frame and is separated by a preset offset distance; and the receiving end of the explosion-proof magnetic switch is arranged corresponding to the transmitting end of the explosion-proof magnetic switch and is used for receiving signals transmitted by different transmitting ends of the explosion-proof magnetic switch.

As a preferable aspect of the present invention, the clamping assembly includes: the driving shaft of the driving assembly is connected with the roller frame; the conical carrier roller is fixedly arranged in the carrier roller frame, and a belt groove is arranged in the conical carrier roller to clamp a belt and realize reverse pushing.

As a preferable aspect of the present invention, the clamping assembly includes: the driving shaft of the driving assembly is connected with the roller frame; the conical carrier roller is fixedly arranged in the carrier roller frame, and a belt groove is arranged in the conical carrier roller to clamp a belt and realize reverse pushing.

As a preferred technical scheme, the clamping assembly further comprises a bearing frame, and the bearing frame is fixedly arranged on the roller frame; the bearing, the bearing all sets up the both sides at the pedestal, the both ends of toper bearing roller are connected with corresponding bearing respectively to it is fixed with the bearing.

As a preferable technical scheme, springs are arranged at two ends of the fixing frame of the transmitting end of the explosion-proof magnetic switch, and one end of each spring is connected to the fixing frame.

As a preferred technical scheme of the invention, a pore plate is arranged between the transmitting end of the explosion-proof magnetic switch and the receiving end of the explosion-proof magnetic switch, and a through hole is penetrated through the pore plate.

As a preferred technical scheme of the present invention, the deviation adjusting device further comprises a tension pulley, wherein the tension pulley is in contact fit with the belt to adjust the tension of the belt; the tensioning devices are arranged beside the belt at intervals and are in control connection with the belt; the tension protection device monitors the tightness of the belt in real time.

As a preferred technical scheme of the present invention, the deviation adjusting device includes a driving assembly base frame and a driving assembly support rib, the driving assembly is disposed on the driving assembly base frame, and one end of the driving assembly support rib is supported and connected to the driving assembly base frame, so that the space occupied on both sides of the present invention can be reduced, and the stability of the deviation adjusting device can be improved.

As a preferred technical solution of the present invention, the deviation adjusting device further comprises a smoke sensor, the smoke sensor detecting a condition of the belt and sending an instruction; and the spraying and sprinkling device receives the instruction of the smoke sensor and sprays fog to the belt.

As a preferable technical solution of the present invention, the offset adjusting apparatus further includes an integrated controller.

Compared with the prior art, the invention has the beneficial effects that:

1. need not the developments tuningout of implementation under the circumstances of shutting down, the toper bearing roller of fluted of adoption can effectively implement a reverse promotion effect to the belt, because be provided with the bearing on the toper bearing roller, the bearing is provided with the bearing bracket and fixes on the bearing roller frame, toper bearing roller opposite side also has drive assembly, these equipment such as drive assembly brace rod, drive assembly bed frame are in order to form a whole, adjust the belt of skew.

2. According to the belt deviation adjusting device, the belt is adjusted by the hydraulic system and the carrier roller, the hydraulic system is good in stability and large in deviation adjusting force, the contact area of the carrier roller and the belt is small, the friction damage degree to the belt is small, the side face, in contact with the belt, of the conical carrier roller is provided with the groove, the edge of the belt enters the groove of the carrier roller, the belt cannot swing when being pushed reversely, and the stability of the deviation adjusting process is improved.

3. The belt conveyor has the advantages that the problem that the conventional belt conveyor needs to be stopped, adjusted and overhauled is solved, and the normal operation of a belt can be ensured all the time in an operating state.

Drawings

Fig. 1 is a schematic view of the overall structure of the embodiment of the present invention.

FIG. 2 is a schematic diagram of a clamping assembly and belt construction according to an embodiment of the invention.

Fig. 3 is a schematic structural diagram of a clamping assembly according to an embodiment of the invention.

Fig. 4 is a schematic structural diagram of an explosion-proof magnetic switch transmitting end and an explosion-proof magnetic switch receiving end according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the deviation preventing right travel switch and the deviation preventing left travel switch according to the embodiment of the invention.

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.

The invention provides a deviation adjusting device of a belt conveyor, which is mainly used on the belt conveyor, in particular to the environment of a slope, a bend and larger viscosity of transported materials, and can correct and adjust a belt 31 deviating from the original position without stopping the machine, thereby greatly improving the production efficiency and reducing the labor intensity of maintenance personnel, and the deviation adjusting device specifically comprises the following components according to the figures 1, 2, 3, 4 and 5:

the clamping assembly fixedly clamps the belt 31, and as shown in fig. 2, the clamping assembly has two clamping assemblies which respectively clamp two ends of the belt 31;

and the driving assembly 24 is in driving connection with the clamping assembly 24 so as to drive the clamping assembly to move to a preset position. The belt 31 often deviates from the initial position during the transportation of the material, the conventional belt conveyor generally closes the operation of the whole machine, and then manually corrects the position of the belt 31, but when the belt deviates during the operation of the belt, the driving assembly 24 drives the clamping assembly which fixedly clamps the belt 31 to move, so as to correct and adjust the belt 31 which deviates from the initial position, that is, even if the belt conveyor is in the operation process, the belt 31 which deviates from the initial position can be corrected and adjusted in real time.

The driving assembly 24 may be an air cylinder or other type of power device, and only for driving the clamping assembly for clamping the belt 31 to move, the present invention adopts a hydraulic cylinder driving manner to drive the clamping assembly to move, and of course, which type of driving assembly 24 is specifically selected may be determined according to the actual situation of the on-site belt conveyor.

The deviation adjusting device comprises a driving component pedestal 35 and a driving component support rib 34, the driving component 24 is arranged on the driving component pedestal 35, according to the attached drawing 2, the driving component pedestal 35 is arranged beside two sides of the belt 31, in order to strengthen the supporting force of the driving component pedestal 35 to the driving component 24, and the like, one end of the driving component support rib 34 is supported and connected to the driving component pedestal 35, and the other end is connected to the ground, so as to strengthen the supporting force of the driving component pedestal 35, thus reducing the space occupying two sides of the deviation adjusting device, and simultaneously realizing the improvement of the stability of the deviation adjusting device.

The anti-explosion magnetic switch transmitting end fixing frame 38 is arranged right above the belt 31, the positions of two side parts of the anti-explosion magnetic switch transmitting end fixing frame 38 are respectively provided with a stop dog 48, one end of one stop dog 48 is positioned beside one end of the belt 31, and one end of the other stop dog 48 is positioned beside the other end of the belt 31; the stopper 48 is used for contacting the belt 31 at the offset initial position, for example, when the belt 31 is offset to the right in the process of conveying materials, the stopper 48 at the right side is contacted, under the driving action of the offset movement of the belt 31, the explosion-proof magnetic switch transmitting end fixing frame 38 is synchronously offset to the right,

at least 3 explosion-proof magnetic switch transmitting ends 39 are arranged on the explosion-proof magnetic switch transmitting end fixing frame 38, each explosion-proof magnetic switch transmitting end 39 is arranged on the explosion-proof magnetic switch transmitting end fixing frame 38, and a preset offset distance is arranged between the explosion-proof magnetic switch transmitting ends 39, and according to the illustration in figure 4, the difference distances between the explosion-proof magnetic switch transmitting ends 39 are uniform and the same;

the anti-explosion magnetic switch receiving end 40 is arranged corresponding to the anti-explosion magnetic switch transmitting end 39, specifically, the anti-explosion magnetic switch receiving end 40 is arranged above each anti-explosion magnetic switch transmitting end 39, the anti-explosion magnetic switch receiving end and the anti-explosion magnetic switch transmitting end are axially corresponding to each other, and the anti-explosion magnetic switch receiving end 40 is used for receiving signals sent by different anti-explosion magnetic switch transmitting ends 39;

under the condition that the belt 31 is used for normally transporting materials (the belt 31 does not deviate), the transmitting end 39 of the explosion-proof magnetic switch at the middle position sends signals to the receiving end 40 of the explosion-proof magnetic switch at any time in the process that the belt 31 transports the materials so as to form a loop; when the belt 31 deviates to the right in the process of conveying materials, that is, when the belt 31 deviates, the belt 31 touches the stopper 48, then the stopper 48 drives the explosion-proof magnetic switch transmitting end fixing frame 38 to move to the right, and at the moment, the explosion-proof magnetic switch transmitting end 39 at the middle position also moves to the right, and when the belt 31 deviates to the left, the explosion-proof magnetic switch transmitting end 39 forms a loop with the explosion-proof magnetic switch receiving end 40 by penetrating through the through hole on the orifice plate 37, then the right driving assembly 24 is started, and the deviation belt 31 is reversely adjusted; when the belt 31 is deflected to form a loop with the explosion-proof magnetic switch receiving end 40 by the middle explosion-proof magnetic switch transmitting end 39 penetrating through the perforation of the via plate 37, the right-hand drive assembly 24 stops working and returns to the original position, thereby completing the correction adjustment of the belt 31.

An orifice plate 37 is arranged between the explosion-proof magnetic switch transmitting end 39 and the explosion-proof magnetic switch receiving end 40, and a through hole is penetrated in the orifice plate 37; when the anti-explosion magnetic switch works normally, the transmitting end 39 of the middle anti-explosion magnetic switch penetrates through the through hole of the pore plate 37 and forms a loop with the receiving end 40 of the anti-explosion magnetic switch, which represents that the anti-explosion magnetic switch works normally; if the belt 31 deviates to the right in the running process, the belt sensor gives an alarm and sends alarm information to the monitoring center, then the explosion-proof magnetic switch transmitting end 39 on the left side forms a loop with the explosion-proof magnetic switch receiving end 40 through the through hole of the orifice plate 37, and then the driving assembly 24 on the right side is started to push the conical carrier roller 29, so that the deviated belt 31 is corrected and adjusted.

Both ends of the fixing frame 38 for the transmitting end of the explosion-proof magnetic switch are provided with springs 44, one end of each spring 44 is connected to the fixing frame 45, and specifically, the springs 44 are arranged in the spring fixing seats 43, so that the belt 31 can drive the fixing frame 38 for the transmitting end of the explosion-proof magnetic switch and the stop block 48 to move when being deviated, and the stop block 48 is rebounded to the initial position under the action of the springs 44 to prepare for the next operation.

The clamping assembly of this embodiment includes the following:

the roller frame 25 is connected with a driving shaft 33 of the driving assembly 24, and when the offset position of the belt 31 is corrected, the driving assembly 24 directly drives the whole roller frame 25 to move;

the tapered carrier roller 29 is fixedly arranged in the carrier roller frame 25, a belt groove is arranged in the tapered carrier roller 29, and the tapered carrier roller 29 with the belt groove is used for preventing the belt 31 from swinging when being pushed.

The bearing frame 26, the bearing frame 26 is fixedly arranged on the roller frame 25;

and the bearings 28 are arranged on two sides of the bearing frame 26, and two ends of the conical carrier roller 29 are respectively connected with the corresponding bearings 28 so as to fix the conical carrier roller 29 in the carrier roller frame 25.

In addition, the present embodiment further includes the following:

the tensioning wheel 9 is used for contacting and fitting the tensioning wheel 9 with the belt 31 to adjust the tensioning force of the belt 31, and when the center distance of the belt 31 cannot be adjusted, the tensioning wheel 9 can be used for tensioning the belt, so that the tensioning force of the belt 31 can be controlled.

Tensioning device 17, tensioning device 17 interval set up by the side of belt and with belt 31 control connection, also be used for adjusting the rate of tension of belt 31 in real time to avoid belt 31 to loose the emergence off tracking accident excessively.

The tension protection device 3 monitors the tightness of the belt 31 in real time, and sends instructions to the tension pulley 9 and the tension device 17 to adjust the tightness of the belt 31 in real time.

A smoke sensor 50 and a spray sprinkler 8; because friction between belt 31 and the frame, draw easily and generate heat, can lead to the material on the band conveyer to generate heat the burning to cause the fire accident, caused serious threat for safety in production, then can also cause the shut down and shut down production, seriously influence production efficiency, therefore the situation of belt 31 is detected constantly to smoke sensor 50 of this embodiment, when taking place foretell accident, then send alarm signal to spraying water device 8 in, spraying water device 8 receives smoke sensor 50's instruction after, then spout fog to belt 31.

The part position on the belt of the carrier roller 30 is connected with the carrier roller 30 in a contact mode, the contact area between the carrier roller 30 and the belt 31 is small, friction on the belt 31 is small, and excessive heating caused by friction with the belt 31 is reduced. It is also to be noted that the idler 30 is of unitary construction with the conical idler 29.

The integrated control device comprises an integrated controller 1 and a single control and protector 2, wherein after the integrated control device 1 is started, all controllers and sensors are in working states, then when the single control and protector 2 is started, a transmission roller 7 starts to operate, if the single control and protector 2 is transported by a multi-stage belt 31, the single control and protector is started step by step in sequence, and materials enter the integrated control device from a transfer conveyor.

Of course, the present embodiment further includes a tensioning device 4, a material-free delay stop device 5, a coal piling sensor 6, a deviation sensor 10, a support plate 11, a tapered roller groove 12, a deviation-preventing bracket screw 13, a deviation-preventing right travel switch 14, a belt tensioning device 15, a redirection idler 16, a conveyor frame 18, a head coal bunker 19, a speed sensor 20, a temperature sensor 21, a lower idler 22, an emergency stop locking switch 23, a drive assembly fixing frame 27, an idler frame fixing screw 32, an idler bracket 46, an idler fixing frame 47 and a left travel switch 49, which are all shown in the drawings and therefore will not be described in further detail.

In summary, the embodiments of the present invention are as follows:

during normal operation, the transmitting end 39 of the middle explosion-proof magnetic switch passes through the through hole of the orifice plate 37 and forms a loop with the receiving end 40 of the explosion-proof magnetic switch, which represents that the invention operates normally; if the belt 31 deviates to the right in the running process, the belt sensor gives an alarm and sends alarm information to the monitoring center, then the explosion-proof magnetic switch transmitting end 39 on the left side forms a loop with the explosion-proof magnetic switch receiving end 40 through the through hole of the orifice plate 37, and then the driving assembly 24 on the right side is started to push the conical carrier roller 29, so that the deviated belt 31 is corrected and adjusted.

Compared with the prior art, the invention can realize that:

1. the belt 31 can be effectively pushed reversely by adopting the grooved conical carrier roller 29 without dynamic deviation adjustment under the condition of stopping, and the conical carrier roller 29 is provided with the bearing 28, the bearing 28 is provided with the bearing frame 26 and fixed on the carrier roller frame, the other side of the conical carrier roller 29 is also provided with the driving assembly 24, the driving assembly support rib 34, the driving assembly base frame 35 and the like to form a whole so as to adjust the deviated belt 31.

2. According to the invention, the belt 31 is offset by applying the hydraulic system and the carrier roller 30, the hydraulic system has good stability and large offset force, the contact area of the carrier roller 30 and the belt 31 is small, the friction damage degree on the belt 31 is small, the side surface of the carrier roller 30 in contact with the belt 31 is provided with a groove, the edge of the belt 31 enters the carrier roller groove, the belt 31 cannot swing when being reversely pushed, and the stability of the offset process is improved.

3. The belt conveyor has the advantages that the deviation adjustment and maintenance are carried out after the existing belt conveyor needs to be stopped, and the normal operation of a belt can be ensured all the time in an operating state.

It will be evident to those skilled in the art that the invention 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 invention 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 (10)

1. An offset adjustment device of a belt conveyor, characterized in that the offset adjustment device comprises:

the clamping assembly is used for fixedly clamping the belt;

the driving assembly is in driving connection with the clamping assembly so as to drive the clamping assembly to move to a preset position;

the device comprises an explosion-proof magnetic switch transmitting end fixing frame, wherein two sides of the explosion-proof magnetic switch transmitting end fixing frame are respectively provided with a stop block, one end of one stop block is positioned beside one end of a belt, and one end of the other stop block is positioned beside the other end of the belt;

the number of the explosion-proof magnetic switch transmitting ends is at least 3, and each explosion-proof magnetic switch transmitting end is arranged on the explosion-proof magnetic switch transmitting end fixing frame and is separated by a preset offset distance;

and the receiving end of the explosion-proof magnetic switch is arranged corresponding to the transmitting end of the explosion-proof magnetic switch and is used for receiving signals transmitted by different transmitting ends of the explosion-proof magnetic switch.

2. The belt conveyor deviation adjusting device according to claim 1, wherein: the deviation adjusting device further comprises a carrier roller, and part of the position on the belt is in contact connection with the carrier roller.

3. The belt conveyor biasing apparatus of claim 1, wherein the clamping assembly comprises:

the driving shaft of the driving assembly is connected with the roller frame;

the conical carrier roller is fixedly arranged in the carrier roller frame, and a belt groove is arranged in the conical carrier roller to clamp a belt and realize reverse pushing.

4. A belt conveyor deviation adjusting apparatus according to claim 3, wherein: the clamping assembly further comprises:

the bearing frame is fixedly arranged on the roller frame;

the bearing, the bearing all sets up the both sides at the pedestal, the both ends of toper bearing roller are connected with corresponding bearing respectively to it is fixed with the bearing.

5. The belt conveyor deviation adjusting device according to claim 1, wherein: springs are arranged at two ends of the fixing frame of the transmitting end of the explosion-proof magnetic switch, and one end of each spring is connected to the fixing frame.

6. The belt conveyor deviation adjusting device according to claim 1, wherein: and a pore plate is arranged between the transmitting end of the explosion-proof magnetic switch and the receiving end of the explosion-proof magnetic switch, and through holes are arranged on the pore plate.

7. The belt conveyor deviation adjusting device according to claim 1, wherein: the offset adjustment device further comprises:

the tensioning wheel is in contact fit with the belt so as to adjust the tensioning force of the belt;

the tensioning devices are arranged beside the belt at intervals and are in control connection with the belt;

the tension protection device monitors the tightness of the belt in real time.

8. The belt conveyor deviation adjusting device according to claim 1, wherein: the deviation adjusting device comprises a driving assembly base frame and a driving assembly supporting rib, the driving assembly is arranged on the driving assembly base frame, and one end of the driving assembly supporting rib is connected to the driving assembly base frame in a supporting mode.

9. The belt conveyor deviation-adjusting device of claim 1, further comprising:

a smoke sensor that detects a condition of the belt and sends an instruction;

and the spraying and sprinkling device receives the instruction of the smoke sensor and sprays fog to the belt.

10. The belt conveyor deviation adjusting device according to claim 1, wherein: the deviation adjusting device further comprises a centralized controller.

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