RU2485470C1 - Bench for examination of parameters of suspended conveyor belt of deep fluting with side supports by devices - Google Patents

Abstract

FIELD: testing equipment.

SUBSTANCE: bench comprises a frame (1), a conveyor belt (2) with ledges (3) on its boards, facing inside a belt contour closed on a driving (4) and a tension (5) drums. Support devices for the belt are made in the form of disc rollers (6, 7) as capable of their stop against ledges of boards of the upper branch of the belt. The lower branch of the belt is arranged under the upper branch with sagging, providing for placement of disc rollers between boards of belt branches. Cylindrical rollers (8, 9) are installed at outer sides of the belt branches as capable of rotation on axes and interaction with boards. Distance between axes of drums is accepted as equal to at least triple run of a belt between support devices. Above the upper branch of the belt contour coaxially with support devices on the frame there is a slider (12) installed to imitate load onto the conveyor belt equipped with a helical drive (10) with a device (11) for fixation of pressing force and with a set of disc rollers (13) arranged in the lower part of the slider, with the possibility to generate cross profile of the belt and to provide for angle of inclination of side edges of the belt to the horizon. The tension drum is equipped with a helical tensioning device (14) and a device (15) for fixation of tensioning force.

EFFECT: invention provides for the possibility to carry out examinations of parameters of a suspended belt of deep fluting and its side disc support devices.

2 cl, 2 dwg

Description

The invention relates to conveyor transport, and in particular to stands for studying the parameters of belt conveyors, and can be used to study the parameters of a suspended conveyor belt of deep groove and its supporting devices in the form of disk rollers interacting with the protruding sides of the load-bearing branch of the conveyor belt.

A known stand taken as a prototype is a stand for studying the stress state of a grooved belt, containing a frame, a segment of a conveyor belt fixed on it with the possibility of placing samples of transported cargo on it, a support device for the belt, a device for measuring the belt tension and a device for its tension (Pat. RF № 2188787, 2002, IPC 7 B65G 15/00, 43/00).

However, the known stand cannot be used to study the parameters of a suspended groove tape with the support of its side protrusions on supporting devices in the form of disk rollers.

The technical result of the invention is the ability to conduct research on the parameters of the hanging ribbon of deep grooves and its side disk support devices.

The technical result is achieved by the fact that in the test bench for the parameters of a suspended conveyor belt of deep groove with side support devices containing a frame, a segment of the conveyor belt, a belt support device, a device for measuring the belt tension and a device for its tension, the conveyor belt is made with protrusions on its sides facing inwardly closed on the drive and tension drums of the tape contour, with the width of the tape and its transverse profile corresponding to the parameters we simulate of the conveyor, while the design of each supporting device for the tape is made in the form of disk rollers oriented in the vertical plane with the possibility of their abutment against the protrusions of the sides of the upper branch of the tape, and the lower branch of the tape is placed under the upper branch with a deflection that ensures the placement of disk rollers between the sides of the upper and the lower branches of the tape, and on the outer sides of the upper and lower branches are placed with the possibility of rotation on the axes and interaction with the sides of the tape cylindrical rollers, and the disk roller is placed between with cylindrical rollers in one vertical plane, the distance between the axes of the drive and tension drums is taken to be at least three times the span of the belt between the supporting devices of the simulated conveyor, and the supporting devices on the stand are located in the middle of the span between the drive and tension drums, above the upper branch of the belt contour coaxially with the supporting devices on the frame with the ability to move in a vertical plane mounted imitating the load on the conveyor belt from the weight of the transported cargo equipped screw a drive with a device for fixing the effort of pressing the slider with a set of disk rollers with rounded rims located in its lower part with the possibility of rotation of the rollers relative to the axes fixed on the slider and the interaction of the rollers with the surface of the tape with the possibility of forming its transverse profile corresponding to the transverse profile of the load-bearing branch of the tape simulated the conveyor and the possibility of ensuring the angle α of the inclination of the side edges of the tape to the horizon, equal to the angle of inclination of the side edges of the conveyor belt of the conveyor being conveyed, the tension drum is equipped with a screw tensioning device and a device for fixing the tensile force T with the possibility of changing its value from double minimum to double maximum possible on the load-bearing branch of the belt of the simulated conveyor, i.e. T = 2S ₁ ÷ 2S ₂ , where S ₁ and S ₂ are the possible minimum and maximum tension of the load-bearing branch of the conveyor belt of the simulated conveyor, while the drive drum equipped with the drive unit provides the speed of the stand belt equal to the speed of the belt of the simulated conveyor, and the force pressing the rollers installed on the slider to the stand ribbon is equal to

P = glq = glQ / (3.6v), H,

where g is the acceleration of gravity, m / s; l - span between the supports of the load-bearing branch of the conveyor belt, m; q is the linear mass of the transported cargo, kg / m; Q - productivity, t / h; v is the speed of the belt of the simulated conveyor, m / s. The drive unit motor can be adopted with an adjustable number of pole pairs to enable the study of conveyor parameters at various belt speeds.

The stand is presented in figure 1 - plan, figure 2 - section aa in figure 1.

The bench for researching the parameters of a suspended conveyor belt of deep groove with side support devices comprises a frame 1, a conveyor belt 2 made with projections 3 on its sides facing inwardly of the belt loop infinitely closed on the drive 4 and tension 5 reels. The width of the belt 2 and its transverse profile are adopted corresponding to the parameters of the simulated conveyor. The design of each supporting device for the tape 2 is made in the form of disk rollers 6 and 7 oriented in the vertical plane with the possibility of their abutment against the protrusions 3 of the sides of the upper branch of the tape 2. The lower branch of the tape 2 is placed under the upper branch with a deflection that ensures the placement of the disk rollers 6 and 7 between the sides of the upper and lower branches of the tape 2. On the outer sides of the upper and lower branches of the tape 2 are placed with the possibility of rotation on the axes and interact with the sides of the tape 2 cylindrical rollers 8 and 9. Moreover, each disk roller 6 and 7 sizes Shchen between the cylindrical rollers 8 and 9 in the same vertical plane. The distance between the axes of the drive 4 and the tension 5 drums is taken to be at least triple span l of the tape between the supporting devices of the simulated conveyor. Supporting devices (6, 7, 8, 9) on the stand are placed in the middle of the span between drive 4 and tension 5 reels. Simulating the load on the conveyor belt from the weight of the transported cargo, equipped with a screw drive 10 with a device 11 for fixing the pressing force of the slider 12 with a set of disk rollers 13 with rounded rims with the possibility of rotation of the rollers relative to the axes fixed on the slider 12 and the interaction of the rollers 13 with the surface of the tape 2 with the possibility of its formation river profile corresponding to the transverse profile of the load-bearing branch of the belt of the simulated conveyor and the possibility of providing an angle α of the inclination of the side edges of the belt 2 to the horizon, equal to the angle of inclination of the side edges of the conveyor belt of the simulated conveyor. The tension drum 5 is equipped with a screw tensioner 14 and a device 15 for fixing the tension force T with the possibility of changing its value from double minimum to double maximum possible on the load-bearing branch of the belt of the simulated conveyor, i.e. T = 2S ₁ ÷ 2S ₂ , where S ₁ and S ₂ - respectively, the minimum and maximum tension of the load-bearing branch of the conveyor belt of the simulated conveyor. Equipped with a drive unit 16, the drive drum 4 provides a speed v of the belt 2 of the stand, equal to the speed of the belt of the simulated conveyor. The force of pressing the rollers installed on the slider to the tape 2 of the stand is equal

P = glq = glQ / (3.6v), H,

where g is the acceleration of gravity, m / s; l - span between the supports of the load-bearing branch of the conveyor belt, m; q is the linear mass of the transported cargo, kg / m; Q - productivity, t / h; v is the speed of the belt of the simulated conveyor, m / s. The motor of the drive unit 16 of the drum 4 can be adopted with an adjustable number of pairs of poles for the possibility of studying the parameters of the conveyor at various speeds v of the belt.

Research at the stand are carried out as follows. Drive 4 and tension 5 drums, belt 2 and supporting devices 6, 7, 8, 9 for it in the manufacture of the stand are taken in their parameters exactly the same as that of the simulated conveyor. After mounting the supporting devices and placing the disk rollers 13 with the formation of a predetermined transverse profile of the upper branch of the belt 2 with a design force P of pressing the rollers 13 to the belt 2 before turning on the drive unit 16 of the drive drum 4 using the screw drive 14 of the tension drum 5, the belt circuit 2 is informed of the tension T , which provides the calculated tension of the upper branch of the belt 2, equal to the tension of the load-bearing branch of the conveyor belt of the simulated conveyor. Next, the drive unit 16 is turned on. The accepted distance between the drive 4 and the tension 5 reels provides a change in the transverse profile of the belt 2 when it escapes from the tension drum 5 and runs onto the drive drum 4. The total duration of the movement of the belt 2 when it interacts with the supporting and pressing devices is determined by the permissible the service life of the sides of the tape 2 and supporting devices or the duration of the next turn-on of the drive 16 of the tape 2 is selected taking into account the possibility of periodic visual and instrumental quality assessment Twa and wear investigated elements - projecting side edges 3 of the belt 2 and the elements 6, 7, 8, 9 of support devices. Studies are carried out at different speeds v of the belt 2 by adjusting the rotational speed of the rotor of the motor of the drive unit 16, with different values of the tension of the belt 2 and with different efforts P of pressing the disk rollers 13 to the belt 2, simulating the linear load on the conveyor belt of the simulated conveyor from the transported cargo. The data obtained as a result of the research at various tensiones of the belt 2, its speed v and the efforts P of pressing the disk rollers 13 to the belt 2 will allow us to establish the appropriate dependences of the working capacity and service life of the investigated conveyor elements on the above parameters, which will optimize these parameters and determine the area of rational the use of supporting devices for belt conveyors with increased grooves of the load-bearing branch of the suspended conveyor belt and increased productivity Strongly conveyor.

Distinctive features of the invention provide the possibility of researching the parameters of a hanging groove of a deep groove and its side disk support devices with an assessment of the reliability and possible service life of the conveyor belt and its side support devices in the form of disk rollers.

Claims (2)

1. A bench for studying the parameters of a suspended conveyor belt of deep groove with side support devices, comprising a frame, a segment of the conveyor belt, a belt support device, a device for measuring the belt tension and a device for its tension, characterized in that the conveyor belt is made with protrusions on it the sides facing inwardly of the belt contour endlessly closed on the drive and tension drums with the belt width and its transverse profile corresponding to the parameters of the simulated conveyor, while The design of each support device for the tape is made in the form of disk rollers oriented in the vertical plane with the possibility of their abutment against the protrusions of the sides of the upper branch of the tape, and the lower branch of the tape is placed under the upper branch with a deflection that ensures the placement of disk rollers between the sides of the upper and lower branches of the tape, and from the outer sides of the upper and lower branches are arranged to rotate on the axes and interact with the sides of the tape cylindrical rollers, and the disk roller is placed between the cylindrical rollers in one vertical plane, the distance between the axes of the drive and tension drums is taken to be at least three times the span of the belt between the supporting devices of the simulated conveyor, and the supporting devices on the stand are located in the middle of the span between the drive and tension drums, above the upper branch of the belt contour coaxially with the supporting devices on simulating the load on the conveyor belt from the weight of the transported cargo, equipped with a screw drive with a device for fixing the pressing force of the slider with a set of disk rollers with rounded rims located in its lower part with the possibility of rotation of the rollers relative to the axes fixed on the slider and the interaction of the rollers with the surface of the tape with the possibility of forming a cross profile corresponding to the transverse profile of the load-bearing branch of the belt of the simulated conveyor and the possibility of providing angle, and the inclination of the side edges of the tape to the horizon, equal to the angle of inclination of the side edges of the conveyor belt of the simulated conveyor, zhnoy drum is provided with a screw-tensioning device and the device for fixing the tensioning force T with the possibility of changing its value in the range from minimum to double dual maximum possible branches on the load-bearing belt conveyor simulated, i.e. T = 2S ₁ ÷ 2S ₂ , where S ₁ and S ₂ are the possible minimum and maximum tension of the load-bearing branch of the conveyor belt of the simulated conveyor, while the drive drum equipped with a drive unit ensures the speed of the stand belt equal to the speed of the belt of the simulated conveyor, and the pressing force the rollers installed on the slide to the stand ribbon are equal to
P = glq = glQ / (3.6v), H,
where g is the acceleration of gravity m / s ² ; l - span between the supports of the load-bearing branch of the conveyor belt, m; q is the linear mass of the transported cargo, kg / m; Q - productivity, t / h; v is the speed of the belt of the simulated conveyor, m / s. 2. The stand according to claim 1, characterized in that the drive unit motor is adopted with an adjustable number of pole pairs to enable the study of conveyor parameters at different belt speeds.

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