SU745826A1 - Hopper discharge control apparatus - Google Patents

Description

The invention relates to a device for unloading bulk materials from bins, and can be used, for example, in the electrode industry for unloading from bins of dry components into a charge.

A device for controlling the unloading of the hopper is known, comprising a discharge cone (shutter) attached to a lifting and lowering rod passed through the hopper cover, interacting with an eccentric cam mechanism mounted on the hopper cover. Horizontal rods are mounted on the rod, loosening bulk material, preventing it from hanging ¹ ^ hopper. ₁₅ In addition, the shutter and ripper operate from the same actuator, but the eccentric mechanism has open friction pairs, assumes the presence of a gearbox or a low-speed motor, and closing of the hopper outlet with a shutter occurs under the influence of a spring that overcomes the pressure on the material shutter in the hopper m .

The disadvantage of this device is; The fact that the release of material in it is intermittent, which complicates the operation of the device, increases the unloading time of the hopper and enhances the dusting of the material during unloading.

The closest to the proposed technical essence and the achieved result is a device for controlling the unloading of the hopper, containing. Rigidly connected to the rod pneumatic. lindra traction, e attached to it by loosening elements and a shutter ^ 2j.

The disadvantages of this device are the presence of an additional drive (vibrator) for loosening and the lack of loosening of drying material, the volume of the tank does not completely ensure uniform release of the material.

The purpose of the invention is uniform unloading.

This goal is achieved by the fact that the device is equipped with sensors of oscillation amplitude and state of the shutter, the receiving elements of which are mounted on the housing of the pneumatic cylinder, and the sensitive element of both sensors is rigidly fixed to the rod, and the contacts of the said sensors are interconnected 5 in parallel and connected in series with the relay coil, the breaking contact of which is included in the power supply circuit of the pneumatic cylinder control valve.

In addition, the vibration amplitude sensors and the shutter state are installed with the possibility of movement in the direction of movement of the traction.

The drawing shows a structural diagram of this device. fifteen

The device for controlling the unloading of the hopper contains a cylindrical container 1 with a conical bottom, along the axial line of which there is a rigid rod 2, with elements 3 loosened 2 ° attached to it, a bell-type shutter 4 and a sensitive element, acting on the receiving elements of the sensor 6 'the state of the shutter, which controls the state of the shutter, and the sensor 7 of the amplitude of the oscillations ²⁵ , which sets the amplitude of the oscillations. When ^ sp ace sensor elements 6 and 7 are mounted on casing 8 pnevmopilindra mounted on the lid 9 of the container 1, the rod of which is rigidly connected to rod 2, and ³⁰ chuvst- pheno- sensor element 5 ^ rigidly secured to rod 2, the contacts 10 and 11 of said sensors are interconnected in parallel and connected in series with the relay coil 12, 35, the opening contact 13 of which is included in the power circuit of the control valve of the pneumatic cylinder 14.

The receiving elements of the sensors are installed with the possibility of movement along the direction of the thrust ⁴ θ: the receiving element of the sensor 6 to adjust the degree of opening of the shutter, and the receiving element of the sensor 7 to adjust the amplitude of the oscillations. Given the high dust content, ^{45 of the} surrounding workspace is coca. owl and graphite dust (over 50 mg / m) as sensors of vibration amplitude. and shutter states can be applied, for example, non-contact travel switches of a body key and or pneumatic switches directly switching the pneumatic cylinder.

The device operates in the following ₅₅ formed Zoom.

When unloading the container I, the pneumatic cylinder 8 is turned on to open the shutter 4. When moving the pneumatic cylinder rod, the rigid rod 2 rigidly attached to it moves with loosening elements 3 attached to it, the shutter 4 and the element 5 acting on the receiving elements in the extreme position corresponding to the open shutter position sensors 6 and 7. Sensor 6 switches the pneumatic cylinder to close the shutter. Repeated switching of the pneumatic cylinder to the opening of the shutter occurs after the end of the action of the element 5 on the receiving elements of the sensors 6 and 7. Thus, the reciprocating oscillatory movement of the rigid rod is carried out with the loosening elements and the shutter attached to it. By moving the receiving element of the sensor 7 relative to the receiving element of the sensor 6 in the direction of movement of the rod 2, the amplitude of oscillation of the loosening elements 3 is changed, and by changing the position of the receiving element of the sensor 6 in the direction of movement of the rod 2, it controls the degree of opening of the shutter 4. Element 5 is selected so that for any necessary mutual positions of the receiving elements 6 and 7, he can act on them simultaneously.

. The use of the device will ensure uniform release of bulk material, which will improve the reliability of the unloading device of the bunkers in automatic mode.

Claims (3)

(54) DEVICE FOR CONTROLLING UNLOADING OF WHICH The invention relates to devices for unloading bulk materials from bunkers, and can be applied, for example, in the electrode industry for unloading — from bins of dry components to batch. A device is known for controlling the unloading of the bunker, which contains a discharge cone (bolt) attached to a lifting-lowering rod passed through the lid of the bunker and interacting with an eccentric cam mechanism installed on the lid of the bunker. The horizontal rod is reinforced on the rod, loosening the bulk material, preventing it from stalling3 the bunker, In addition, the valve and the ripper work from a single drive, but the eccentric mechanism has open pairs of pairs | assumes the presence of a reducer or low-speed motor, and closing the reservoir with the sump with the outlet hopper & comes under the influence of a straightening spring, which overcomes the pressure on the gate of the material in the bunker; The disadvantage of this device is that the discharge of material in it is intermittent, which complicates the operation of the device, increases the discharge time of the bunker and increases the dusting of the material during unloading. Closest to the proposed technical essence and the achieved result is a device for controlling the unloading of the bunker, which contains a pneumatic rod rigidly connected with the rod. ling (fas, with attached elements of loosening and shutter. The disadvantages of this device are the presence of an additional drive (vibpaTqpa) for loosening and the lack of loosening of the raw material, which in terms of the volume of the container does not completely ensure the uniform release of material. The purpose of the invention is uniform discharge. The goal is achieved by the fact that the device is equipped with vibration amplitude and gate state sensors. 374 receiving elements of which are installed in the case of the pneumatic valve, and the sensitive element of both sensors are rigidly attached to the rod, with the contacts of the sensors connected in parallel and connected in series with the relay winding, the disconnecting contact of the pneumatic cylinder. In addition, the oscillation amplitude and shutter sensors are mounted for movement along the pull rod. The drawing shows a block diagram of this device. The device for controlling the unloading of the bunker contains a cylindrical tank I with a conical bottom, along the axial line of which a rigid hauler 2 passes, with loosening elements 3 attached to it, a bell type gate 4 and a sensor element affecting the receiving elements of the state sensors 6 gate, controlling the state of the gate, and the sensor 7 of the amplitude of oscillations, which sets the amplitude of oscillations. At that, the sensor elements 6 and 7 are mounted on the housing of a pneumatic cylinder {ph 8, installed on the cover 9 of capacitance 1, the rod of which it is rigidly connected to a pull 2, and the sensing element 5 of the sensors is rigidly fixed to t 2, and the contacts 10 and 11 of the said sensors are interconnected paratshitelno and are connected in series with the relay coil 12, the disconnecting contact 13 of which is included in the supply circuit pneumatic cylinder control valve 14.; The sensor receiving elements are mounted for movement in the direction of travel of the thrust rod: the primary element of the sensor b for adjusting the opening degree of the shutter, and the receiving element of the sensor 7 for adjusting the amplitude of oscillations. Taking into account the high dustiness of the surrounding coke and graphite dust working space (over SO mg / m as sensors of amplitude 1 and oscillations and shutter conditions can be used, for example, noncontrolling switches or pneumatic switches that directly switch the pneumatic cylinder. The device works by following the method. the unloading of the tank I is turned on pnevmotsilingf 8 to open the shutter 4. When moving the rod of the pnevmotsilpndra rigidly attached to it, the rod of the ha 2 with attached to it 3 loosening valves, gate 4 and element 5, acting in the extreme, corresponding to the open position of the gate position on the receiving elements of sensors 6 and 7. Sensor 6 switches the pneumatic cylinder to close the gate. Repeated switching of the pneumatic cylinder to open the gate occurs after the end of the action of element 5 on the receiving elements of the sensors 6 and 7. Thus, reciprocating oscillatory movement of the rigid rod is carried out with the loosening elements and the bolt attached to it. Moving the receiving element of the sensor 7 relative to the receiving element of the sensor 6 in the direction of movement of the puller, changes the amplitude of oscillations of the loosening elements 3, and changing the pickup of the receiving element of the sensor 6 in the direction of movement of the pulley 2, adjusts the opening degree of the gate 4. that with the love of the necessary mutual positions of the receiving elements 6 and 7, it can act on them simultaneously. . The use of the device will ensure a uniform release of bulk material, which will increase the reliability of the unloading device of the bins in the automatic mode. Claim 1. Device for controlling the unloading of the hopper, which is rigidly connected to the pneumatic cylinder rod, with attached loosening elements and a shutter, characterized in that, for the purpose of uniform unloading, it is equipped with sensors of oscillation amplitude and gate state, the receiving elements of which mounted on the body of the pneumatic cylinder, and the sensitive element of both sensors are rigidly attached to the rod, and the contacts of the said sensors are interconnected in parallel and connected in series a relay coil, the break contact of which is included in the power control circuit ventilation air cylinder. 2. A device according to claim 1, characterized in that the vibration amplitude sensor is mounted for movement in the direction of thrust. 3. A device according to claim I, in that the sensors of the shutter state are mounted for movement in the direction of travel of the thrust rod. Sources of information taken into account in the examination of 7458 6 1. USSR author's certificate No. 112160, cl. B 65 Q 65 / 7О, О7.О7.56. 2, USSR Author's Certificate N9 534402, cl. B 65 G 65/52, 04/17/74 (prototype). 6 7