RU2458842C1 - Belt conveyor tensioner - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: proposed device comprises tensioning drum 1 fitted on car 2 to displace in frame guides 3. Tensioner drive consists of vertical reduction gear 4 with reel 5 on low-speed shaft and brake 6 on high-speed shaft. Reduction gear is mounted on tensioning drum car 2 with clearance 7. Said reduction gear is articulated by chain gearing 8 and electromagnetic coupling 9 with tensioning drum shaft 11. End of steel cable rope 12 is secured on reel while its free end 13 is fastened at frame rear section. Reel with said cable rope is arranged along conveyor lengthwise axis 14. Torques transmitted by said electromagnetic coupling are defined by the following relationship: M_c=0.5 T D/(i_ri_cgη), where M_c is maximum coupling torque, Nm; T is designed braking force developed by tensioning drum, N; D is mean cable rope winding diameter, m; i_r is reduction gear rear ratio; i_cg is chain gearing gear ratio; η is total efficiency of reduction gear and chain gearing.

EFFECT: decreased sizes of work zone at conveyor tail section, simplified design.

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Description

The invention relates to conveyor engineering, namely to the tail winch tensioning devices of belt conveyors, and can be used on conveyors of increased length.

Known winch belt conveyor tension device, including a movable drum enveloped by conveyor belt and a kinematically connected two-wire winch with manual drive (Polunin V.T., Gulenko G.N. Conveyors for mining enterprises. M .: Nedra, 1978, p. 96 , fig. 2.39).

The disadvantages of this device are significant dimensions in the longitudinal direction, which makes it difficult or impossible to use it as a tail tensioner, as well as manual winch drive, eliminating the possibility of using the device with remote and automatic control of the conveyor.

Closest to the claimed and adopted for the prototype is a tail tensioner of a winch type, consisting of a tension drum mounted on a trolley with the ability to move it along the guides of the frame mounted outside the winch frame, including the engine, gearbox, brake and a reel fixed to the low-speed shaft of the gearbox with a steel wire rope fixed on it, which is kinematically connected to the trolley of the tension drum using a multiple pulley block (Tarasov Yu.D. Transport vehicles continuously action.St. Petersburg, 2009, p. 52-53, Fig. 23e).

However, the disadvantages of the known tensioning device are increased dimensions in the longitudinal direction relative to the axis of the conveyor, due to the need for free space outside the rear of the conveyor, and the need to install a special winch drive motor.

The technical result of the invention is to reduce the necessary dimensions of the working area in the rear of the conveyor and simplify the drive to move the tension drum of the device.

The technical result is achieved in that in a belt conveyor tensioner comprising a tension drum mounted on a trolley with the possibility of its movement along the frame guides, a winch including a gearbox with a drive, a brake and a bobbin mounted on a low-speed shaft of the gearbox with a steel wire rope fixed to it, the vertical type gearbox is mounted on the trolley of the tension drum with a clearance relative to it and with the help of a chain transmission and a clutch of maximum torque with an electromagnetically controlled kinematic the ski is connected with the axis of the tension drum, and the free end of the steel wire rope is fixed in the rear of the frame, and the bobbin with the steel wire rope is placed along the longitudinal axis of the conveyor, while the magnitude of the torque transmitted by the said clutch is determined from the ratio:

M _cr = 0.5 TD / (i _p i _cp η),

where M _kr is the maximum torque realized by the coupling, Nm; T is the calculated value of the braking force developed by the tension drum, N; D is the average diameter of winding the traction rope on the reel, m; i _p - gear ratio; i _cp - gear ratio of the chain transmission; η - the total value of the efficiency of the gearbox and chain transmission.

The belt conveyor tensioner is shown in the drawing, where in Fig. 1 is a plan, in Fig. 2 is a view A in Fig. 1.

The belt conveyor tension device comprises a tension drum 1 mounted on the trolley 2 with the possibility of its movement along the guides of the frame 3. The tension device drive consists of a vertical type gearbox 4 with a reel 5 on a slow shaft and a brake 6 on a high speed shaft. The gearbox 4 is mounted on the trolley 2 of the tension drum 1 with a gap 7 relative to it. The gearbox 4 using a chain gear 8 and a clutch 9 of the maximum torque with a controlled electromagnet 10, mounted on the trolley 2, is kinematically connected with the axis 11 of the tension drum 1. On the reel 5 is fixed the end of the steel wire rope 12, and its free end 13 is fixed in the rear frames 3. The reel 5 with a steel wire rope 12 is placed along the longitudinal axis 14 of the conveyor. The magnitude of the torque transmitted by the clutch 9 of the limit torque is determined from the ratio:

M _cr = 0.5 TD / (i _p i _cp η),

where M _cr - realized by the clutch 9 maximum torque, Nm; T is the calculated value of the braking force developed by the tension drum 1, N; D is the average diameter of winding the traction rope on the reel 5, m; i _p is the gear ratio of gearbox 4; i _cp - gear ratio of the chain gear 8; η - the total value of the efficiency of the gearbox 4 and the chain transmission 8.

The steel wire rope 12 can be directly connected to the tail of the frame 3 or through a multiple pulley block to gain strength (not shown).

The tension device operates as follows. If it is necessary to turn on the tensioning device with remote control or automatically by the signal of the tension sensor of the conveyor belt or another sensor, for example, fixing the slipping of the conveyor belt on the drive drum, an electromagnet 10 is activated, which includes a clutch 9 of the maximum torque. Due to this, the torque from the axis 11 of the tension drum 1 is transmitted to the chain gear 8 and from it to the high-speed shaft of the gear 4. When the gear 4 is switched on through its low-speed shaft, the torque is transmitted to the bobbin 5. When the bobbin 5 is rotated, the steel wire rope 12 is wound on it, thanks to why the trolley 2 with the tension drum 1 is shifted towards the rear of the frame 3, pulling the conveyor belt to the calculated value of the tensile force T, after which the sleeve of the clutch 9 of the maximum moment will begin to slip relative to the coupling half, fixed on the axis 11 of the tension drum 1, the electromagnet 10 is turned off, and the brake 6 is turned on, fixing the position of the trolley 2 with the tension drum 1 after displacement with the appropriate tension of the conveyor belt. In this case, due to the gear ratio of the chain transmission 8, the loads on the gear 4 and the tension drum 1 are further reduced. Due to the presence of a chain transmission 8 and gear 4 between the tension drum 1 and the axis 11 of the gear 8, the power take-off from the conveyor spent on the conveyor belt tension due to rotation is minimized the tension drum 1. This solution also allows you to guarantee the necessary torque M _cr on the axis 11 of the tension drum 1 without slipping the conveyor belt.

Distinctive features of the invention make it possible to reduce the necessary dimensions of the working area in the rear of the conveyor and to simplify the design of the drive to move the drum of the belt conveyor tension device, and make it possible to use the device on conveyors of increased length, including in underground conditions where the working area is limited.

Claims (1)

A belt conveyor tensioner comprising a tension drum mounted on a trolley with the possibility of moving it along the frame guides, a winch including a gearbox with a drive, a brake and a bobbin mounted on a low-speed shaft of a gearbox with a steel wire rope fixed to it, characterized in that the gearbox is of a vertical type mounted on a trolley of a tension drum with a gap relative to it and with the help of a chain transmission and a clutch of maximum torque with a controlled electromagnet mounted on a trolley, kinematics It is closely connected with the axis of the tension drum, and the free end of the steel wire rope is fixed in the rear part of the frame, and a bobbin with a steel wire rope is placed along the longitudinal axis of the conveyor.

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