RU189626U1 - DEVICE FOR DRYING BULK MATERIALS IN INDIRECTED METHOD - Google Patents

Abstract

The utility model discloses a device for drying bulk materials in an indirect way, which includes a cylindrical drum, at one end of which there is a loading opening, and at the other end there is a discharge opening, while inside the cylindrical drum there are several heat exchange tubes laid along the axis of the cylindrical drum and a spiral unloading device at the discharge opening. According to the utility model, the heat exchange tubes are looped. Since only one tube plate is provided in the design, the heat exchange tubes are not subject to pressure from the tube plate on both sides. In addition, one cylindrical drum rotates, so the heat-exchanging tubes are not affected by the torque, which eliminates the twisting of the heat exchanger. 5 hp ff, 2 ill.

Description

IPC F26B11 / 04

LEVEL OF TECHNOLOGY USEFUL MODEL

[001] This utility model relates to the field of devices for drying, in particular, to a device for drying bulk materials in an indirect way.

PRIOR TECHNOLOGY LEVEL

[002] Devices for drying bulk materials in an indirect way is a mechanical device that supplies coolant in the form of water vapor to raw materials intended for drying along the wall of the heat exchange tube in accordance with the principle of thermal conductivity and heat radiation.

[003] In the existing prior art, the unloading of the drying device is due to the mass of the material being processed. On the one hand, in this case it is difficult to control the volume of unloading, on the other hand, the unloading continues until the unloading receiver is under the drying device. In addition, some materials need to be crushed or sifted after drying, i.e. At this stage, the materials need to be fed separately to the crusher or to the sieve, which leads to a loss of time and efficiency.

[004] The internal heat exchange tube of the drying device near the center is in contact with the material less than the external heat exchange tube, so the internal and external heat exchange tubes have different heat exchange efficiency, therefore, the thermal expansion of the tubes will be uneven. In the current level of technology, the heat-exchange tube is fixedly connected to the tube plate on both sides, and the uneven expansion of the inner and outer heat exchange tubes causes a different pressure on the outer and inner tubes from the tube plate side, because of which a portion of the heat exchange tube is crushed plate and breaks off. In addition, in the process of rotation, as provided for in the prior art, the heat exchange tube itself becomes a component of the transmission of dynamic force, so that when transmitting the dynamic force of rotation to the heat exchange tube, there is a torque, and it is easily twisted.

[005] It is known in the art. A device for drying bulk materials in an indirect way, which includes a cylindrical drum, at one end of which there is a loading opening, and at the other end there is a discharge opening, while inside the cylindrical drum there are several heat exchange tubes laid in the direction the axis of the cylindrical drum, see patent specification No. 2382965 , published 27.02.2010.

BRIEF DESCRIPTION OF THE USEFUL MODEL

[006] The objective of the present invention is to eliminate the twisting of the heat exchanger in the device for drying bulk materials.

[007] To solve the problem in a utility model, the following technical solution is used: a device for drying bulk materials indirectly includes a cylindrical drum, at one end of which there is a loading opening, and on the other - a discharge opening, while there are several inside the cylindrical drum heat exchange tubes laid in the direction of the axis of the cylindrical drum. New is that in the center of the cylindrical drum in the axial direction, the first central axis and the second central axis are installed, the first central axis passing through one end of the cylindrical drum, one end of the first central axis inside the cylindrical drum is connected to a sealing head located vertically relative to the first central axis; the sealing head is sealed and connected to the tube plate, and between the sealing head and the tube plate there is a partition that evenly divides the space between the sealing head and the tube plate into two cavities; the tube plate is connected to one end of the second central axis, and the other end of the second central axis passes through the other end of the cylindrical drum, with several supporting plates located vertically relative to the second central axis on the second central axis; at the same time, there are holes on the support plates through which heat exchange tubes can pass; the heat exchanger tubes are U-shaped, and the two ends of the heat exchanger tube pass through the through holes in the support plates, which are in contact with the tube plate.

[008] In addition, there are several lifting platforms on the inner wall of the cylindrical drum for turning the material.

[009] In addition, the first central axis is a hollow cylinder, the inner space of which is divided into three channels along the axis direction, while the inputs of two of the three channels are, respectively, an air intake and an air outlet and are connected to two cavities, and the input of the third channel serves loading window, while in the space inside the cylindrical drum has a hollow body with several loading openings associated with the internal cavity of the cylindrical drum. Due to the U-shaped form, the heat exchange tubes form a return line and at both ends are attached to the tube plate so that the tube plate does not exert pressure on them and it is impossible to break them. The channels are the air intake pipe, the air outlet pipe and the inlet pipe. A filling opening is provided in the inner space of the cylindrical drum to facilitate material loading. The second central axis extending from the tube plate to the rear end of the heat exchange tube is a cast cylinder, which makes it possible to more reliably fix the heat exchange tube, and the unloading is carried out through the discharge hole.

[0010] In addition, the support plate has a mesh structure that provides a more uniform supply of heat to different parts of the internal cavity of the cylindrical drum and allows you to more actively turn the material.

[0011] In addition, a stand is provided under the cylindrical drum, there are toothed gears and circular guides around the cylindrical drum circumference, and there is a pinion gear on the rack capable of hooking to the gears on the drum, and the tension wheel, which joins the circular guides. The drive gear engages the gear on the outer wall of the cylindrical drum and rotates it, which reduces power consumption.

[0012] In addition, there are circular guides on the first central axis and the second central axis, and grooves are provided at both ends of the cylindrical drum, which are joined with circular guides, while there are several balls between the guides and the grooves. The first central axis and the second central axis are mounted on the stand with the help of the holder. Only the cylindrical drum rotates, and the heat exchanger block remains stationary, since the first and second central axes do not rotate, which avoids twisting the heat exchanger.

[0013] The present utility model has the following advantages over the existing prior art heat transfer tubes are looped around, and since only one tube plate is provided in the design, the heat exchange tubes are not subject to pressure from the tube plate on both sides. In addition, one cylindrical drum rotates, so the heat-exchanging tubes are not affected by torque.

DESCRIPTION OF THE DRAWINGS

[0014] Figure 1 is a structural diagram according to Embodiment 1;

[0015] Figure 2 is a diagram of the support plate.

DETAILED DESCRIPTION OF EMBODIMENTS OF IMPLEMENTING THE USEFUL MODEL

[0016] Embodiment 1: As shown in FIG. 1, devices for drying bulk materials indirectly include a cylindrical drum 1, at one end of which there is a loading opening 2, and at the other end there is a discharge opening 3, while on the inner wall of the cylindrical the drum has several lifting platforms 20, and in the center of the cylindrical drum 1 in the axial direction are the first central axis 4 and the second central axis 5, with the first central axis 4 passing through one end of the cylindrical bar ban 1, one end of the first central axis 4 inside the cylindrical drum 1 is connected to a sealing head 6 located vertically relative to the first central axis 4; the sealing head 6 is sealed and connected to the tube plate 7, and between the sealing head 6 and the tube plate 7 there is a partition 8, which evenly divides the space between the sealing head 6 and the tube plate 7 into two cavities 9; the tube plate 7 is connected to one end of the second central axis 5, and the other end of the second central axis 5 passes through the other end of the cylindrical drum 1, while the second central axis 5 also has several supporting plates 10 arranged vertically relative to the second central axis 5; at the same time on the support plates 10 there are openings 22 through which heat exchange tubes 11 can pass; the heat exchange tubes 11 are U-shaped, and the two ends of the heat exchange tube 11 pass through the through holes 22 in the support plates 10, which are in contact with the tube plate 7, and are therefore associated with two cavities 9; the first central axis 4 is a hollow cylinder, the inner space of which is divided into three channels along the axis direction, while the entrances of two of the three channels are, respectively, the air intake and air outlet and are connected to two cavities 9, and the entrance to the third channel serves as a loading window 2, while in the space inside the cylindrical drum 1 there is a hollow body with several loading openings 12 connected with the internal cavity of the cylindrical drum 1. Part of the second central axis 5, extending from the tube plate 7 to the rear end of the heat exchange tube, is a cast cylinder, with the hole at the end of the second central axis 5, which extends beyond the cylindrical drum 1, is a discharge window 3, and part of the axis 5 coming from the rear end of the heat exchange tube 11 to the discharge window 3 is a hollow cylinder, while on the second central axis 5 from the rear end of the heat exchange tube 11 to the cylindrical drum 1 there are several discharge openings 13 connected with the inner space of the cylinder A drum 14 is provided under the cylindrical drum 1. There are gear gears 15 and circular guides 16 around the circumference of the cylindrical drum 1, while the rack 14 has a pinion gear 17 capable of engaging the gears 15 on the drum 1, and the tension wheel 18, coupled with circular guides 16. The pinion gear 17 engages the gear 15 on the outer wall of the cylindrical drum 1 and rotates it. On the first central axis 4 and the second central axis 5 there are circular guides, and at both ends of the cylindrical drum grooves are provided, which are joined to the circular guides. The first Central axis and the second Central axis are mounted on the rack 14 with the holder 19.

[0017] In addition, the presence of a spiral unloading device at the discharge opening allows you to control the amount of unloading of the drying device, as well as adjust the height of the discharge receiver so that the material can be immediately applied to the next technological device without manual labor

Claims (6)

Device for drying bulk materials in an indirect way, which includes a cylindrical drum, at one end of which there is a loading opening, and at the other end there is a discharge opening, while inside the cylindrical drum there are several heat exchange tubes laid in the direction of the axis of the cylindrical drum, characterized by that in the center of the cylindrical drum axially mounted first central axis and second central axis, the first central axis extends through one end of cylinder ndricheskogo drum, one end of the first central axis inside the cylindrical drum is connected with the sealing head, a vertically disposed relative to the first central axis; the sealing head is sealed and connected to the tube plate, and between the sealing head and the tube plate there is a partition that evenly divides the space between the sealing head and the tube plate into two cavities; the tube plate is connected to one end of the second central axis, and the other end of the second central axis passes through the other end of the cylindrical drum, while there are also several supporting plates located vertically relative to the second central axis; at the same time, there are holes on the support plates through which heat exchange tubes can pass; the heat exchanger tubes are U-shaped, and the two ends of the heat exchanger tube pass through the through holes in the support plates, which are in contact with the tube plate. A device according to claim 1, characterized in that the first central axis is a hollow cylinder, the inner space of which is divided into three channels in the direction of the axis, while the entrances of two of the three channels are, respectively, an air intake and an air outlet and are connected to two cavities, and the entrance of the third channel serves as a loading window, while in the space inside the cylindrical drum there is a hollow body with several loading openings connected with the internal cavity of the cylindrical drum, while the second central axis portion extending from the tube plate to the rear end of the heat exchange tube is a cast cylinder, and the axis portion going from the rear end of the heat exchange tube to the discharge window is a hollow cylinder, while on the second central axis from the rear end of the heat exchange tube to cylindrical drum there are several discharge openings associated with the inner space of the cylindrical drum. A device according to claim 1, characterized in that on the inner wall of the cylindrical drum there are several lifting platforms for turning the material. A device according to claim 3, characterized in that the support plate has a mesh structure. A device according to claim 3, characterized in that a stand is provided under the cylindrical drum, there are toothed gears and circular guides around the circumference of the cylindrical drum, and there is a pinion gear on the rack capable of hooking to the gears on the drum and the tension wheel joined to the circular guides . A device according to claim 5, characterized in that circular guides are provided on the first central axis and the second central axis, and grooves are provided at both ends of the cylindrical drum, which are joined with circular guides, while the first central axis and the second central axis are mounted on a stand with using the holder.

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