CN211643540U - Novel automatic deviation adjusting device for belt - Google Patents

Abstract

The utility model relates to a novel automatic belt deviation adjusting device; the belt deviation adjusting device comprises a supporting seat, wherein a hydraulic station is arranged at one end of the supporting seat and is respectively connected with a first deviation adjusting rotary base and a second deviation adjusting rotary base which are arranged on the supporting seat through hydraulic lines, a first deviation adjusting rotary support is arranged on the first deviation adjusting rotary base, a second deviation adjusting rotary support is arranged on the second deviation adjusting rotary base, a belt support is arranged between the first deviation adjusting rotary support and the second deviation adjusting rotary support, a first carrier roller is arranged on the first deviation adjusting rotary support, a first deviation sensing rod is arranged at one end of the first deviation adjusting rotary support, a second carrier roller is arranged on the second deviation adjusting rotary support, a second deviation sensing rod is arranged at one end of the second deviation adjusting rotary support, and belts are arranged on the upper surfaces of the belt support, the first carrier roller and the second carrier roller; the automatic deviation adjusting device has the advantages of reasonable structural design, automatic control, high deviation adjusting speed, high precision and flexible preparation.

Description

Novel automatic deviation adjusting device for belt

Technical Field

The utility model relates to a belt feeder technical field especially relates to a novel automatic tuningout of belt device.

Background

The belt conveyor is a continuous conveying machine which is most commonly applied in the industrial process and can be used for conveying powder and finished materials in the horizontal direction and the inclined direction with small gradient. One of common defects of the belt conveyor has the problem of belt deviation, and the harmfulness of the belt conveyor greatly causes system failure shutdown, abnormal damage to main parts of equipment and severe material spilling.

The deviation of the belt is caused by various reasons, such as uneven joints caused by installation, deflection in the process of transporting and installing the frame, unstable inclined blanking points of the guide chute, uneven mineral aggregate distribution and the like. The invention discloses a patent of found data CN201810133564, which also adopts a similar hydraulic deviation adjusting system, but the invention has the following problems: 1. three bearing rollers in the left, middle and right on a bracket, the deviation rectification must be moved together, the mutual influence is similar to the mutual influence of the left and right adjustment amplitude of the wheels of an automobile, the amplitude is limited 2, the structure of the patent is complex, and the control is not flexible.

Disclosure of Invention

The utility model aims to overcome the not enough among the prior art, provide a structural design is reasonable, independent control, and the range of regulation is big, and control is nimble, the effectual automatic tuningout of novel belt of rectifying device.

The utility model discloses a realize through following technical scheme: the automatic deviation adjusting device comprises a supporting seat, wherein a hydraulic station is arranged at one end of the supporting seat and is respectively connected with a first deviation adjusting rotary base and a second deviation adjusting rotary base which are arranged on the supporting seat through hydraulic lines, a first deviation adjusting rotary support is arranged on the first deviation adjusting rotary base, a second deviation adjusting rotary support is arranged on the second deviation adjusting rotary base, a belt support is arranged between the first deviation adjusting rotary support and the second deviation adjusting rotary support, a first carrier roller is arranged on the first deviation adjusting rotary support, a first deviation sensing rod is arranged at one end of the first deviation adjusting rotary support, a second carrier roller is arranged on the second deviation adjusting rotary support, a second deviation sensing rod is arranged at one end of the second deviation adjusting rotary support, and a belt is arranged on the upper surfaces of the belt support, the first carrier roller and the second carrier roller.

Preferably, the first idler and the second idler are conical idlers.

Preferably, the hydraulic station, the first deviation induction rod and the second deviation induction rod are connected with the central processing unit through wireless signals.

Preferably, the first deviation induction rod and the second deviation induction rod are symmetrically arranged.

The utility model discloses an adopt independent free control about first bearing roller and the second bearing roller, the range of regulation is big, and control is nimble, can only open unilateral independent adjustment at every turn at the not too serious condition of belt off tracking, has structural design rationally, and automated control adjusts the fast precision height of inclined to one side, the nimble advantage of preparing.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in figure 1, the utility model relates to a novel automatic belt deviation adjusting device, which comprises a supporting seat 1, one end of the supporting seat 1 is provided with a hydraulic station 2, the hydraulic station 2 is respectively connected with a first deviation adjusting rotary base 4 and a second deviation adjusting rotary base 5 which are arranged on the supporting seat 1 through a hydraulic line 3, the first deviation adjusting rotary base 4 is provided with a first deviation adjusting rotary bracket 6, the second deviation adjusting rotary base 5 is provided with a second deviation adjusting rotary bracket 7, a belt bracket 8 is arranged between the first deviation adjusting rotary bracket 6 and the second deviation adjusting rotary bracket 7, the first deviation adjusting rotary bracket 6 is provided with a first roller 9, one end of the first deviation adjusting rotary bracket 6 is provided with a first deviation sensing rod 10, the second deviation adjusting rotary bracket 7 is provided with a second roller 11, one end of the second deviation adjusting rotary bracket 7 is provided with a second deviation sensing rod 12, and a belt 13 is arranged on the upper surfaces of the belt bracket 8, the first carrier roller 9 and the second carrier roller 11. The first carrier roller 9 and the second carrier roller 11 are conical carrier rollers. The hydraulic station 2, the first deviation induction rod 10 and the second deviation induction rod 12 are connected with the central processing unit through wireless signals. The first deviation induction rod 10 and the second deviation induction rod 12 are symmetrically arranged.

The utility model discloses a first off tracking response pole 10 and the 12 symmetry settings of second off tracking response pole, the system can send corresponding off tracking signal when belt 13 runs into first bearing roller 9 or the both sides of second bearing roller 11, can be according to the off tracking signal power, judges belt 13 off tracking degree to can in time arrive the on-the-spot inspection reason. The belt runs into the first deviation sensing rod 10 or the second deviation sensing rod 12 after deviation, a deviation alarm signal is sent out, the system enables the hydraulic station 2 to act according to the signal, and the hydraulic station 2 drives the first deviation adjusting rotating support 6 and the second deviation adjusting rotating support 7 to work.

The working principle of the first deviation-adjusting rotating bracket 6 and the second deviation-adjusting rotating bracket is as follows: the belt 13 has the tendency of adjusting from a high position to a low position, so that the carrier roller deviation side moves towards the running direction of the belt 13, and the carrier roller on the non-deviation side moves towards the opposite direction of the belt running, so that the carrier roller forms a carrier roller high in the belt advancing direction, the carrier roller on the non-advancing side is low, and the belt 13 can be adjusted to deviate slowly according to the difference of the height. When the belt 13 leaves the deviation induction rod, namely the deviation of the belt 13 can be corrected, the hydraulic station 2 sends a signal, the deviation-adjusting rotating frame recovers, and the next belt deviation adjustment is waited.

The utility model provides an automatic change device that realizes tuningout realizes reporting to the police and tuningout function at tuningout in-process, drives tuningout mechanism and realizes online automatic tuningout through hydraulic system.

The first carrier roller 9 or the second carrier roller 11 is a conical roller, and the deviation adjusting effect is better than the operation effect of a round roller in actual operation.

The utility model has the advantages of reasonable design, the work of the first tuningout runing rest 6 of hydraulic pressure station 2 drive respectively and the second tuningout runing rest 7, adjusts in a flexible way, and is efficient.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (4)

1. The utility model provides a novel automatic tuningout of belt device, includes supporting seat (1), its characterized in that: one end of a supporting seat (1) is provided with a hydraulic station (2), the hydraulic station (2) is respectively connected with a first deviation-adjusting rotating base (4) and a second deviation-adjusting rotating base (5) which are arranged on the supporting seat (1) through a hydraulic line (3), a first deviation-adjusting rotating support (6) is arranged on the first deviation-adjusting rotating base (4), a second deviation-adjusting rotating support (7) is arranged on the second deviation-adjusting rotating base (5), a belt support (8) is arranged between the first deviation-adjusting rotating support (6) and the second deviation-adjusting rotating support (7), a first carrier roller (9) is arranged on the first deviation-adjusting rotating support (6), one end of the first deviation-adjusting rotating support (6) is provided with a first deviation induction rod (10), a second carrier roller (11) is arranged on the second deviation-adjusting rotating support (7), one end of the second deviation-adjusting rotating support (7) is provided with a second deviation induction rod (12), the belt support (8), The upper surfaces of the first carrier roller (9) and the second carrier roller (11) are provided with belts (13).

2. The novel automatic belt deviation adjusting device of claim 1, characterized in that: the first carrier roller (9) and the second carrier roller (11) are conical carrier rollers.

3. The novel automatic belt deviation adjusting device of claim 1, characterized in that: the hydraulic station (2), the first deviation induction rod (10) and the second deviation induction rod (12) are connected with the central processing unit through wireless signals.

4. The novel automatic belt deviation adjusting device of claim 1, characterized in that: the first deviation induction rod (10) and the second deviation induction rod (12) are symmetrically arranged.

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