SU1362695A1 - Thermal pneumatic conveyer - Google Patents

Abstract

The invention relates to the transport of cargo air cushion. The purpose of the invention is to increase reliability. The thermopnev mockwirer contains a pneumocamera 1, in the upper wall 2 of which cylindrical channels 3 are made. Wall 2 has the shape of an isosceles trapezoid in cross section. On the wall 2 with the possibility of mixing, e- from the actuator, made in the form of a bimetal-v-clean plate 8 inside the chamber 1, an adjusting plate 7 is installed. The movement of the product in the transport direction is due to the impact of air jets deflected from the vertical. through channels 3 and holes 11 in the wall 7, having a surface formed by an arc of a circle. A change in air temperature in one direction or another deforms the plate 8, which leads to the movement of the product in the direction of transport or in the opposite direction. 2 hp f-ly, 9 ill. ff: ff: sf y y: ffyS: yyyyify ::: y О5 to о: FIG. 2

Description

The invention relates to the transport of goods on an air conveyor, namely to thermo-pneumatic conveyors.

The purpose of the invention is to increase the reliability of the pneumoconveyor.

FIG. 1 schematically shows a thermopneumatic conveyor, top view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one; in fig. 4 shows a section B-B in FIG. one; in fig. 5 is a section of YYD in FIG. one; in fig. 6 — node I in FIG. 2 for the case when t to, where t is the air temperature, and to is the temperature of the specified heat treatment mode; in fig. 7 is the same in FIG. 8 is the same as in FIG. 9 - the same, with.

A thermopneumatic conveyor consists of a pneumatic chamber 1, in the upper wall 2 of which, along the longitudinal axis, perpendicular to its surface there are cylindrical channels 3 for the passage of air, with the upper wall 2 having an equilateral trapezoidal shape, the larger base 4 of which is facing the inside of the chamber, In the upper wall of chamber 2, between the cylindrical channels 3 and perpendicularly inclined surfaces 5, channels 6 are made for air lubrication of the mating surfaces and the adjustment plate 7 freely mounted on the upper wall of chamber 2 with the ability to move along the latter from the actuator, made in the form of a bimetallic plate 8 associated with it, which is installed inside the pneumatic chamber 1 perpendicular to the bottom and rigidly connected to it with one end plate 7 by means of connecting elements 9 located in the holes 10 made in the upper wall 2 of the chamber, the adjustment plate 7 being joined with the entire lower surface with the surface of the upper wall of the chamber and There are vertical holes 11, the surface of which is formed by an arc of a circle that faces convexity inside the channel. The adjustment plate 7 has guides 12 which are made along the entire length, the distance between which is equal to the width of the product being transported.

The thermopneumatic conveyor operates in heating mode as follows.

The pneumatic chamber 1 is supplied with heated air, the temperature t of which corresponds to the temperature to a given heat treatment mode.

In the bimetallic plate 8, the left junction has a linear spacing coefficient greater than the right one. The bimetallic plate 8 is set to a temperature to, corresponding to a given heat treatment mode so that it is perpendicular to the bottom of the pneumatic chamber 1.

At the same time, it determines the position of the adjustment plate 7 relative to the upper wall of the pneumatic chamber 2, in which the side walls of the openings 11 of the adjustment plate 8 are embedded in the amount A into the vertical jets of air flowing out of the cylindrical channels 3 in the upper wall of the chamber (Fig. 2 and 6) . Air jets formed by cylindrical channels 3, "adhere to the surfaces (the Coanda effect) of the holes 11 and deviate from the vertical by a predetermined angle. An air gap is created between the bottom surface of the product and the adjustment plate 7, which maintains the product in suspension. The movement of the product in the direction of transport is carried out due to the impact on it of air jets deflected from the vertical. This angle of jet deflection provides a given speed of movement, and time

thermal effect on the product of heated air is determined by its temperature corresponding to a given heat treatment mode, i.e. t to.

When the temperature t is fed into the pneumatic chamber 1 heated

Compared to the temperature of the desired heat treatment mode, the bimetallic plate is deformed, displacing the adjustment plate 7 to the right (see Fig. 7). The side walls of the openings 11 are embedded in vertical jets of air flowing out of the cylindrical channels 3 by an amount a, and. The jets of air deviate from the vertical at an angle of f |, Consequently, the product will move with greater speed, while the product is overheated, since the time of thermo-sockets

STI will decrease.

When air enters the pneumatic chamber 1 with a temperature t lower than the temperature of the specified heat treatment mode, to, t to the bimetallic plate 8 is deformed, displacing the adjustment plate 7 to the left (see Fig. 8). The introduction of the side walls of the holes 11 in the vertical jets flowing out of the cylindrical channels 3 will be less. Air jets deviate from vertical

at an angle of f2, f2 of fos- Therefore, the transport speed will decrease, which will increase the transport time and the thermal action time. Thus, in this case, the mode of heat treatment of the product.

In the case when the temperature t of air supplied to the pneumatic chamber 1 is below the maximum allowable tnp for a given heat treatment mode, t txp, the deviation of the bimetal plate to the left

will lead to the fact that air jets emanating from cylindrical channels 3 will flow around the opposite walls of vertical holes 11. Air jets will deviate from the vertical by the angle fz (Fig. 9), i.e. air jets will be directed towards the intended direction of movement of the product, preventing them from entering the thermopneumatic conveyor.

Claims (2)

1. A thermopneumatic conveyor containing a pneumatic chamber, in the upper wall of which, along the longitudinal axis perpendicular to its surface, cylindrical channels for the passage of air are made, and an adjusting plate, freely installed 2. A thermopneumatic conveyor according to claim 1, characterized in that the upper wall of the pneumatic chamber is made with an equilateral trapezoidal cross-section, the larger base of which is encased on the upper wall of the chamber with the possibility of moving along the latter into the inside of the chamber. drive, made in the form of associated3. The thermopneumatic conveyor according to claim 2, wherein the bimetallic plate is different, distinguished by the fact that in the upper wall of the chamber that in order to increase the reliable-between the cylindrical perforation channels, the bimetallic plate of ustanov-diculturally inclined surfaces are drawn inside the pneumatic chamber, the channels for air lubrication pendulum bottom and rigidly connected with it 20 superficially mate. J (iO-J (g -J ( b c r (RiL one end, and the other with the adjustment plate by means of connecting elements located in the holes made in the upper wall of the chamber, the adjustment plate being joined with the entire lower surface with the surface of the upper wall of the chamber and made with vertical channels whose surface is formed by an arc of a circle facing convexity inside the channel. 2. Thermopneumatic conveyor according to claim 1, characterized in that the upper wall of the pneumatic chamber is made with a cross-section in the shape of an isosceles trapezium, the larger base of which is facing the inside of the chamber. u2.b 5-5 % FIG. five I X at //////// /. , FIG. 6 $$$ S $$ 7 ////// 7. U / //////// L H x . lp2 (po TO FIG. 7 UchXXX XXXX V XXX4 XVXXXXX Vs. Fig.8 .fp I ///BUT /////////// A t, p ( L X H H H M FIG. 9 Compiled by G. Kiseleva Editor E. SliganTechred I. VeresKorrektor M. Maksimishinets Order 5953/15 Circulation 776 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Project, 4