RU2350544C1 - Inclined conveyor belt - Google Patents

Abstract

FIELD: transport, conveyors.

SUBSTANCE: conveyor locking device consists of locking appliance fixed on shell (7) of drum (4) to interact with movable locking element. The aforesaid appliance represents blades (6) oriented horizontally relative to drum axle (5), planes of the said blades being located along generating lines of the drum surface. Locking element 8) features rectangular cross section. Plate (12) on conveyor frame (3) is hinged horizontally thereto to allow the plate turning in vertical plane. The axis of hinge (13) is shifted with respect to plate (14) centre of gravity towards power drive (11). The plate free end, on the power drive side, is loaded by helical spring (15) towards the conveyor frame. Latter has stop (16) to interact with the plate in its horizontal position in the section between the helical spring and hinge. Time of cutting off power drive is selected, with respect to that of cutting off the conveyor drive, to have lag varying from zero to the time of the conveyor belt free running out after cutting conveyor drive.

EFFECT: simpler design, possibility to brake conveyor belt after cutting off drive motor, reduced running out and belt braking time.

2 cl, 4 dwg

Description

The invention relates to conveyor engineering, namely to inclined belt conveyors equipped with locking devices, and can be used on belt conveyors transporting cargo up.

Known inclined belt conveyor, including an envelope of tape and installed in bearings on the conveyor frame, a drum and a locking device consisting of a ratchet wheel, a movable locking element with the possibility of its interaction with the teeth of the ratchet wheel (Zenkov R.L. and other continuous transport machines. M .: Mechanical engineering, 1987, p. 121-122, fig. 2.21, c).

Its disadvantage is the relatively small value of the braking torque provided by the locking device, associated with the limitation of the magnitude of the contact stresses in the pair of the locking element - the tooth of the ratchet wheel and the limitation of the diameter of the ratchet wheel itself with the conditions of the layout of the conveyor drive equipment.

Known inclined belt conveyor (prototype), including an envelope tape and mounted in bearings on the conveyor frame, a drum and a locking device consisting of a ratchet wheel, a movable locking element with the possibility of its interaction with the teeth of the ratchet wheel, while the locking element is spring-loaded and placed in the support sliding with the possibility of axial displacement, equipped with a shank with the possibility of its interaction with a power drive connected in parallel with the drive of the conveyor belt, support the housing and the drum bearing housing are mounted on a common plate mounted on the conveyor frame, while the back of the locking element has a curved profile with a bulge outward, and the idle side of the teeth of the ratchet wheel is profiled from two mating curved sections of opposite curvature, the ratchet wheel can be mounted on the drum shaft or made in the form of a ring gear fixed to the drum shell (RU No. 2167090, 7 В65G 15/08, 2001).

The disadvantages of the known inclined belt conveyor are the complexity of the ratchet wheel design and the impossibility of using it not only to keep the loop of the belt loaded with the transported cargo from its return stroke, but also to simultaneously brake the belt after turning off the drive motor with a decrease in the free run-out and the time of braking the belt. The need for this may arise, including when there is no brake in the drive system of the conveyor belt or when the brake fails. In the second case, an additional device for braking the contour of the belt can be used for especially critical conveyor lift systems to eliminate the possibility of emergency situations when the brake fails or if the kinematic connection between the drive drum and the drive is disturbed during conveyor operation.

The technical result of the invention is to simplify the design of the locking device and the possibility of using the locking device, not only to keep the loop of the belt loaded with the transported cargo from returning, but also to simultaneously brake the belt after turning off the drive motor with a decrease in the free run-out and the time of braking of the belt.

The technical result is achieved in that in an inclined belt conveyor, including a drum envelope and mounted in bearings on the conveyor frame, a drum and a locking device, consisting of a drum fixed to the drum shell to lock the locking device with the possibility of its interaction with a movable locking element, which is spring loaded and placed in a sliding support with the possibility of axial displacement, equipped with a shank with the possibility of its interaction with a power drive connected in parallel but with the conveyor belt drive, the sliding support and the power drive are fixed to a common plate mounted on the conveyor frame, according to the invention, the locking device mounted on the drum is made in the form of blades radially oriented relative to the axis of the drum, the planes of which are placed along the cylindrical surface of the drum, the locking element in cross section is made rectangular, and the plate on the conveyor frame is installed by means of a horizontal hinge with the possibility of turning the plate in the vertical plane, while the hinge axis is shifted relative to the center of gravity of the plate towards the power drive, the free end of the plate from the side of the power drive is spring-loaded with a coil spring to the conveyor frame, and a stop is fixed on the conveyor frame with the possibility of its interaction with the plate when it is horizontal the section between the hinge and the coil spring, while the moment the power drive is turned off relative to the moment the conveyor drive is turned off is selected with a delay ranging from zero to the free time ha of conveyor belt after turning off the conveyor drive.

The conveyor can be equipped with two locking devices located on both sides of the drum.

An inclined belt conveyor is shown in FIG. 1 - side view of the drum at the time of locking the drum; figure 2 is the same, in the process of braking before stopping; figure 3 - plan of figure 1; figure 4 is a transverse section along the support slide with a locking element.

The inclined belt conveyor includes an envelope tape 1 and a drum 4 mounted in bearings 2 on the conveyor frame 3 and a locking device consisting of a locking device mounted on the drum, made in the form of blades 6 radially oriented relative to the axis 5 of the drum 4. The planes of the blades 6 are arranged along generatrixes the cylindrical surface of the shell 7 of the drum 4 with the possibility of their interaction with the movable locking element 8. The locking element 8 is spring-loaded with a compression spring 9 and placed in the sliding support 10 s the possibility of axial displacement, equipped with a shank with the possibility of its interaction with the power drive 11. The power drive can be made, for example, in the form of an electromagnet. In this case, the shank of the locking element 8 is connected to the anchor of the electromagnet. The locking element 8 in the cross section is made rectangular. The sliding support 10 and the power drive 11 are mounted on a common plate 12, and the plate 12 on the conveyor frame 3 is installed by means of a horizontal hinge 13 with the possibility of rotation of the plate 12 in a vertical plane. In this case, the axis of the hinge 13 is offset relative to the center of gravity 14 of the plate 12 towards the power drive 11. The free end of the plate 12 from the side of the power drive 11 is spring-loaded with a coil spring 15 to the conveyor frame 3. An emphasis 16 is fixed on the conveyor frame 3 with the possibility of its interaction with the plate 12 at its horizontal position in the area between the hinge 13 and the coil spring 15. At that, the moment of turning off the power drive 11 relative to the moment of turning off the conveyor drive (not shown) is selected with a delay ranging from zero to the free run-out time of the belt 1 of the conveyor after turning off the conveyor drive. 17 and 18 are the points of attachment of the coil spring 15 to the plate 12 and the conveyor frame 3, 19 and 20 are the direction of rotation of the drum 4 after and before it stops when the conveyor drive is turned off. The conveyor can be equipped with two locking devices located on both sides of the drum.

Inclined belt conveyor operates as follows. When you turn off the drive motor of the conveyor belt 1 due to the kinetic energy stored by the moving elements of the conveyor belt continues to move with a constant decrease in speed from left to right (figure 2). In this case, with the direction of rotation 20 of the drum 4, the blades 6 fixed to its shell 7 will periodically interact with the locking elements 8, acting on it from top to bottom. Due to this, during each such interaction, the plate 12 will rotate counterclockwise relative to the hinge 13, overcoming the force of the spring 15, and the drum 4 and kinematically connected movable conveyor elements (belt with transported load, deflecting devices and rotating roller bearings) will receive brake pulses accelerating deceleration of the belt 1 of the conveyor. This is ensured when the power drive 11 is turned off simultaneously with the conveyor drive motor (the delay in turning off the power drive 11 is zero). When you turn off the power drive 11 after turning off the conveyor drive with a delay equal to the free run-out time of the belt 1, the locking element 8, will move towards the drum 4 only after it stops. After stopping the drum 4 in both the first and second cases, the tape 1 under the influence of the sinusoidal component of the weight located on the tape 1 of the transported cargo starts to move down, and the drum 4 starts to turn in the direction 19 (Fig. 1). When the drum 4 rotates in direction 19, one of the blades 6 fixed on its shell 7 (closest to the locking element 8) from below will come into contact with the locking element 8. Under the action of the arising torque, the plate 12 will turn clockwise until it contacts the stop 16 and will be fixed in this position. Due to this, the loop of the belt 1 will be stopped and held in this position until the next turn on the conveyor drive. When the conveyor drive is turned on, the power drive 11 will be turned on at the same time, which, overcoming the force of the spring 9, will divert the locking element 8 from the drum 4. When the conveyor is operating and the drum 4 is rotating, the blades 6 will freely pass by the locking element 8 without interacting with it until the next stop conveyor belt. By changing the stiffness of the coil spring 15, it is possible to increase or decrease the value of the brake pulses transmitted from the locking element 8 to the drum 4 through the blades 6, i.e. adjust the braking time of the conveyor and the braking distance of the belt 1. For inclined belt conveyors of increased length and more loaded conveyor can be equipped with two locking devices located on both sides of the drum.

Distinctive features of the invention make it possible to simplify the design of the locking device and make it possible to use the locking device not only to keep the loop of the belt loaded with the transported cargo from returning, but also to simultaneously brake the belt after turning off the drive motor with a decrease in the free run-out and the time of braking the belt.

Claims (2)

1. Inclined belt conveyor, including a tape envelope and a drum and a locking device mounted in bearings on the conveyor frame, consisting of a locking device mounted on the drum shell with the possibility of its interaction with a movable locking element, which is spring-loaded and placed in the sliding support with axial displacement, equipped with a shank with the possibility of its interaction with a power drive connected in parallel with the drive of the conveyor belt, sliding support and force the drive is mounted on a common plate mounted on the conveyor frame, characterized in that the locking device mounted on the drum is made in the form of blades radially oriented relative to the axis of the drum, the planes of which are placed along the cylindrical surface of the drum, the locking element is made in rectangular cross section, and the plate on the conveyor frame is installed by means of a horizontal hinge with the possibility of rotation of the plate in a vertical plane, while the axis of the hinge is offset flax of the center of gravity of the plate towards the power drive, the free end of the plate from the side of the power drive is spring loaded with a coil spring to the conveyor frame, and an emphasis is fixed on the conveyor frame with the possibility of its interaction with the plate when it is horizontal in the area between the hinge and the coil spring, At this time, the moment of turning off the power drive relative to the moment of turning off the conveyor drive is selected with a delay ranging from zero to the free-run time of the conveyor belt after turning off the conveyor drive. 2. The conveyor according to claim 1, characterized in that it is equipped with two locking devices located on both sides of the drum.

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