RU120710U1 - DEVICE FOR DUST COUPLING AND BINDING - Google Patents

Abstract

A device for collecting and binding dust, including an aspiration cover for a conveyor belt with a transported dedusting material in the form of an elliptical body, a tangential suction pipe connected with it, connected to an arcuate draft stimulator, its outlet element is located in front of the entrance to the aspiration cover, the outlet element nozzle is made in the form of a circular arc, the center of which is located on the inlet side of the aspiration shelter, in addition, the tangential nozzle is equipped with a nozzle attached to the nozzle of the outlet element, and vertical partitions installed in the outlet element and the nozzle with the formation of three sections with equal areas of flow cross-sections in the body slotted nozzles with a fogger and an air duct are installed, characterized in that an elliptical cylinder is fixed inside the elliptical body, the side surface of which forms an annular elliptical channel with the side surface of the body.

Description

The utility model relates to aero- and hydrodedusting and can be used in the transportation of bulk materials.

The invention is known (SU AS 1580033, E21F 5/00, publ. Bull. 27 of 07.23.90), including an aspiration cover, a suction nozzle, a traction inducer, an elliptical housing with a tangential nozzle and a diffuser, a dust suppression device with slotted nozzles .

The closest is the invention (SU AS 1696738, E21F 5/00, publ. Bull. 45 dated 12/07/91), including the suction cover of the conveyor belt with transported dust-free material, made in the form of an elliptical body containing a tangential nozzle connected to an arc-shaped traction stimulator, its output element is placed in front of the entrance to the suction shelter, the nozzle of the output element is made in the form of an arc of a circle, the center of which is located on the inlet side of the suction shelter, in addition to this tangential provided with a nozzle attached to the outlet nozzle element and the vertical partitions mounted in the output member to form three sections, mounted in the housing with a slotted nozzle and duct fogger.

However, this device does not provide a sufficiently high dust collection efficiency.

The objective of the utility model is to increase the efficiency of dust collection by preventing dust from returning to the working area from the active zone of the device by preventing entrained dust particles from entering the suction zone into the discharge zone of the device.

The essence of the utility model lies in the fact that the device for dust collection and binding includes an aspiration cover for the conveyor belt with transported dust-free material in the form of an elliptical body, a tangential branch pipe connected to it, connected to a traction inducer, made arcuate, its output element is placed in front of the entrance to the aspiration shelter, nozzle of the output element is made in the form of an arc of a circle, the center of which is located on the side of the inlet of the aspiration shelter, in addition to this tangential the nozzle is equipped with a nozzle mounted on the nozzle of the output element and vertical partitions installed in the output element and the nozzle with the formation of three sections with equal passage areas, slotted nozzles with a fogger and air duct are installed in the housing, while an elliptical cylinder is fixed inside the elliptical housing, the side surface of which forms an annular elliptical channel with the side surface of the housing.

The technical result. A device with an elliptical cylinder installed inside the elliptical housing will provide a significant reduction in dust concentration in the air of the working area by preventing the transfer of dust particles from the suction zone to the discharge zone, creating an internal central channel for organizing the suction air flow and an annular elliptical channel isolated from it for organizing the discharge flow air, at the same time does not require additional dust cleaning equipment, complex structural elements and energy costs.

prototype / proposed device Suction speed, m / s 0.4 / 0.4 0.6 / 0.6 0.8 / 0.8 1.0 / 1.0 1,2 / 1,2 1.3 / 1.3 Dust collection efficiency,% 98.2 / 99.5 98.9 / 99.7 99.3 / 99.8 99.8 / 99.9 99.6 / 99.9 99.2 / 99.9

Using the proposed device provides an increase in the efficiency of dust collection (see table), and, therefore, a significant reduction in the concentration of dust in the air of the working area.

The essence of the utility model is illustrated in the drawing, where in Fig.1 is a side view of the device, Fig.2 is a top view, Fig.3 is a General view of the nozzle.

The device for collecting and binding dust contains an elliptical housing 1 with a tangentially attached suction pipe 2, directed to the side opposite to the movement of the material, made arcuate and ending the output element 3 with a nozzle 4, made in the form of an arc of a circle, the center of which is located on the input side suction shelter 5. On the nozzle 4 is fixed nozzles 6, repeating the shape of the nozzle. Its inner cavity and the cavity of the output element are divided by vertical partitions 7 into three sections. The partitions 7 begin from the place of expansion of the nozzle 2 and end at the outer middle nozzle 6. The area of the passage sections of all three sections is the same along the entire length of the partition 7, however, the passage section of the middle section 8 of the nozzle 6 is made constant in height, and at the extreme sections 9 the height of the passage section increases from the center to the side surfaces of the output element 3.

An elliptical cylinder 10 is fixed inside the elliptical body 1, which forms an annular channel with the inner side surface of the elliptical body 1 and passes into an aspiration shelter 5 in the lower part. In this case, the suction shelter 5 has a convex lateral part and an end portion concave inward. The upper surface of the suction shelter 5 is a bias towards the movement of the material. In the indicated annular gap on the inner side surface of the elliptical body 1 along its entire height and along the axes of its elliptical section, as well as at the entrance to the tangential pipe 2, there are installed slotted nozzles 11 in the form of pockets having two concave faces 12 and 13 '. In this case, the face 12 forms with the lateral surface of the elliptical housing 1 a tapering slit channel ending in the output slit section in which the fogger 14 is installed. The face 13 of the slit nozzle 11 is a part of the cylindrical surface, conditionally continuing which the central vertical axis of the elliptical cylinder 10 can be crossed. sections of each subsequent as they approach the tangential nozzle 2 of the slit nozzle 11 increase due to the increase in its width. In addition, in the upper part of the elliptical casing 1 along the central vertical axis of the elliptical cylinder 10 there is a traction stimulator (fan) 15 so that its suction pipe directly communicates with the inner surface of the elliptical housing 1, the discharge pipe with each slotted nozzle 11 through the duct 16. The larger the exit section of the slotted nozzle 11, the larger the diameter of the duct 16, connected to it.

The device operates as follows.

When moving bulk materials by conveyors due to abrasion of fractions of the transported material, dust particles are formed throughout the entire volume of this material. In addition, a certain number of dust particles can be in the layer of the transported material after it is reloaded from the conveyor to the conveyor.

The material to be transported falls into the zone of action of the exit slotted nozzle 4 with the nozzle 6 of the tangential nozzle 2, where, thanks to the design of the output element, the nozzle 4 and the nozzle 6, a compact, directed, spreading air stream is organized, the aerodynamic parameters of which are amplified along the axis of the conveyor belt, and therefore transported material in the direction of the frontal part of the suction shelter open 5. In this case, both particles are blown from the surface and from the volume of transported material of those particles dust, which without the use of the device for any unorganized external impact can become suspended and cause an increase in the concentration of dust in the air of the working area. In addition, the design features of the nozzle 6 provide additional ejection of dust particles into the working cavity of the device and the screening of the dust cloud.

The aforementioned enhancement of the aerodynamic parameters of the nozzles and the output element of the nozzle 4 prevents the spread of dust particles from the zone of action of the air jet injected by this nozzle and directs the particles to the open end part of the suction shelter 5. In this case, the traction stimulator 15 provides an air suction jet whose aerodynamic parameters are distributed so that due to the presence of the open end part of the suction shelter 5 and its slope, these dust particles are picked up, and due to the shape of the lateral surface ti cover layer 5 additionally pressurized material being conveyed and picked up by the remaining material in the layer of dust particles. The transition of the suction cover 5 to the elliptical cylinder 10 ensures the stability of the aerodynamic parameters of the suction torch over the entire surface of the material covered by this suction cover, as well as elimination of the zones of aerodynamic stagnation in the suction cover 5 and intensive removal of dust into the suction pipe of the traction inducer 15, and then into the elliptical cavity housing 1.

Thus, a dusty directed air flow is organized in the cavity of the elliptical cylinder 10, which is guided to the suction nozzle of the traction inducer 15, and then it is divided through the air ducts 16 into the cavities of the slotted injection nozzles 11, where the aerodynamic parameters of this flow are redistributed due to the shape of the face 12 of the slotted nozzles 11 so that these parameters are maximum in the output slit section of each slot nozzle 11. Moreover, the ratio of the area of the slot output section of each slot us adka 11 and the diameter of the corresponding inlet duct 16 increases the flow rate of air injected into the gap as slit nozzles 11 approach the tangential nozzle 2, and therefore, the ejection effect in the cavity of the tangential nozzle 2, which creates conditions for a stable air flow through the tangential nozzle 2 and its nozzle 4 to the layer of transported material. Due to the shape of the face 13 of the slit nozzles 11, a stable vortex is provided in the elliptical annular channel formed by the inner surface of the elliptical body 1 and the outer surface of the elliptical cylinder 10.

Claims (1)

A device for collecting and binding dust, including the suction cover of the conveyor belt with the transported dust-free material in the form of an elliptical body, the tangential suction pipe connected with it, connected to the traction inducer made arcuate, its output element is placed in front of the entrance to the suction shelter, the nozzle of the output element is made in the form of an arc of a circle, the center of which is located on the entrance side of the suction shelter, in addition, the tangential nozzle is equipped with a nozzle, fixed mounted on the nozzle of the output element, and vertical partitions installed in the output element and the nozzle with the formation of three sections with equal passage areas, in the case there are slotted nozzles with a fogger and an air duct, characterized in that an elliptical cylinder is fixed inside the elliptical case, the lateral surface of which forms an annular elliptical channel with the side surface of the housing.