RU189525U1 - Vermiculite Electric Oven - Google Patents

Abstract

The utility model relates to the field of building materials, in particular, to the technological equipment for the production of exfoliated vermiculite from vermiculite concentrates. The technical result of the utility model is to ensure minimum specific energy consumption of the calcination of vermiculite due to the horizontal position of the furnace, eliminating the convective removal of a part of thermal energy and realizing stable movement of dense flow of intumescent vermiculite in the thermal field of electric heaters. The specified technical Performan achieved in that the electric furnace for firing vermiculite, comprising a frame, trays, lids, heaters, a common movable base provided with a spring-loaded actuator providing motion in the thermal field intumescent vermiculite. The drive contains a hydrovolume exciter in the form of an eccentric shaft with a rolling bearing housed in a housing along with a high-pressure sleeve sandwiched between the eccentric bearing and the housing support plate and connected at one end to the hydraulic unit and the other hydraulic cylinders, the plungers of which abut in a single moving base. The hydraulic unit compensates for the leakage of working fluid in the hydraulic cylinders, and the hydrovolume pathogen provides unbalanced resonant oscillations of a single movable base with baking sheets, which, with a span of 8 ... 12 mm, create a stable unidirectional movement of vermiculite flow across the baking sheets, where it is fired due to thermal radiation from heaters. 10 il.

Description

The invention relates to the field of building materials, in particular to the technological equipment for the production of exfoliated vermiculite from vermiculite concentrates.

Known electric kiln for firing vermiculite concentrates (RU No. 2351862, IPC F27B 9/00, published 10.04.2009), containing trays made of refractory material and installed relative to each other at an angle, provided with electric heaters and lids, electric heaters are made in the form of ribbons mounted on the edge, are placed under the covers on the surfaces of the trays longitudinally so that the spaces between adjacent heaters form longitudinal chambers.

Common features with the claimed utility model are trays made of refractory material, electrical heaters, made in the form of tapes, mounted on the edge and placed longitudinally under the lid, and the lids themselves.

This furnace has the following disadvantage. The flow of intumescent vermiculite moves rapidly along inclined baking sheets. In the upper part of the trays the average distance between intumescent grains δ about equal to their average diameter D, and the gap between them is almost zero. In the middle part and at the end of the exit from the pan, the distances between the grains δ increase significantly and the thermal field created by electric heaters emits radiant energy mainly into the space between the refractory surface of the pan and its lid, heating the air, the wall itself, the walls and the lid, only partially falling on vermiculite grains. Due to the acceleration, it is impossible to create a dense flow of grains with a minimum distance δ between them that does not increase as they move. And this significantly limits the performance of the furnace, since when moving in a dense single-layer flow through the cross-section of the trays at the exit of them, much more vermiculite per unit of time would pass.

Also known is an electric oven with a vibration hearth platform (RU No. 166554, IPC F 27 V 9/06, published 11/27/2016). It contains a baking sheet of refractory material (heat-resistant steel), electric heaters and a thermal lid, a vibratory bottom plate and fixing heads for electric heaters. In this case, the vibration hearth platform is made horizontal, has an eccentric drive, cylindrical and conical springs mounted on opposite sides of the platform; The platform contains rollers placed in the frame guides, a baking tray is installed on the platform, and a thermal cover is installed on the frame above the tray with the possibility of opening. In addition, the furnace in question has a system of tensioning electric heaters with the help of suspended weights.

Common features with the claimed utility model are baking trays of heat-resistant steel, electric heaters, thermal cover, mounting heads for fixing electric heaters; a horizontal movable base in the form of a vibratory bottom platform, an actuator, cylindrical springs mounted on one side of the platform, which contains rollers placed in the frame guides, a baking tray mounted on the platform, and a thermal cover over the baking tray.

This furnace has the following disadvantage. The eccentric drive excites the platform with a baking tray. Due to the installation of conical springs on the one hand, with the horizontal position, the oscillations were not symmetrical and create one-sided vibrotransport effect (Bauman I.I., Bykhovsky V.A. Vibration machines and processes in construction. M., Higher School, 1977, p. 74).

But when testing such a platform with a baking sheet, established

tonalno, due to not pronounced vibrotransport effect of movement

vermiculite on the pan almost did not occur. And only when tilted at 19 ° to the horizon, the movement of the flow of vermiculite arose, became steady and pronounced, directed downward along the slope.

Attempts to increase the rigidity of the conical springs and their number did not lead to anything, since to balance the movable base of the platform, reinforcement was also needed for cylindrical springs located on the other side, therefore, the operation of the furnace in question is possible only when it is inclined.

But in the inclined position of the furnace in the space between the baking sheet and the lid there is an intense movement of air from the bottom up, due to temperature differences. The air flow cools the electric heaters and moving towards the vermiculite and through convective heat exchange removes a significant portion of thermal energy from them, and this inevitably reduces the energy efficiency of the furnace unit, increasing the energy intensity of the calcining process of vermiculite.

In addition, the inclined position makes the furnace more overall, due to a decrease in the rigidity of its frame, vibrations of the structural elements of the frame itself, electrical heaters and suspended weights occur, which leads to unstable oscillations of the bottom platform and changes in the parameters of its oscillations.

The prototype adopted an electric furnace for firing vermiculite (RU No. 169510, IPC F27B 9/06, published 03/21/2017), which contains a frame, baking sheets of heat-resistant steel, lids, heaters in the form of tapes, mounted on an edge, placed under the covers longitudinally. and attached to heads having parallel faces; the furnace is equipped with a bunker, a single movable base spring-loaded on both sides (analogous to a vibratory bottom platform) with an eccentric drive, while baking trays with lids are located on said base one after the other, electric heaters mounted on the console heads are installed longitudinally above the surfaces of the trays, on the trays on the side of the electric heater consoles, trays are fixed with two walls parallel to the surfaces of the trays, each bin on the side of the trays has a slot and is vertical The flap, the bottom of the bunker is made in the form of a horizontal plate that enters the space between the parallel walls of the corresponding tray, the upper surfaces of the upper walls of which are made with a notch directed in the opposite direction, and the single movable base, together with the furnace frame, are installed at an angle with the possibility of changing it, made in the form of hollow beams of rectangular cross-section, assembled in the form of a grid with insulating material placed by the honey beams and inside them.

Common features with the claimed utility model are a frame, baking sheets of heat-resistant steel, lids, electrical heaters in the form of tapes mounted on a rib, placed under the covers longitudinally baking sheets and mounted on heads having parallel faces, bunkers, single movable base with cylindrical springs and actuator , the trays are located on the movable base one after the other, the lids are located on the frame above the trays, the heaters mounted on the cantilever heads are installed longitudinally above the surfaces prot The trays with two walls parallel to the surfaces of the trays are fixed on trays from the side of electric heaters' side consoles, each bin has a slot and a vertical flap on the side of the trays, the bottom of the hopper is made in the form of a horizontal plate entering the space between the parallel walls of the corresponding tray, the top surfaces of the upper the walls of the trays are made with a notch pointing in the direction opposite, and the single movable base is made in the form of hollow beams assembled in the form of a grid with thermal insulation material placed by the honey beams and inside them.

This furnace has similar disadvantages. The eccentric drive excites oscillations of a single moving base with trays. Due to the installation of conical springs on the one hand in a horizontal position, as in the above considered analog, the oscillations should not be symmetrical and create a one-way vibrotransport effect (Bauman I.I., Bykhovsky V.A. Vibration machines and processes in construction. M., "Higher School", 1977, p. 74). However, with a horizontal installation of a single movable base, in spite of the presence of conical springs, non-symmetrical vibrations appear very weakly and there is no vibration transfer of vermiculite across the trays. Sustained unidirectional flow of vermiculite begins only when a single moving base is installed at an angle to the horizon. Therefore, the operation of the furnace in question is impossible in a horizontal position.

However, when the oven is tilted in the spaces between the opposites and the lids, there is an intense upward movement of air, due to temperature differences. The air flow cools the electric heaters and moving towards the intumescent vermiculite and through convective heat exchange removes a significant portion of thermal energy from them, and this inevitably leads to large heat losses and an increase in the energy intensity of the calcining process of vermiculite, since increased heating of electric heaters.

In addition, the inclined position makes such a long oven even more overall and significantly reduces the rigidity of its frame. The decrease in stiffness causes oscillations on the sub-superharmonics of the individual structural elements of the frame itself, leads to lateral buildup of the console-mounted electric heaters (which can cause the heaters to close and burn out) and, as a result, to unstable oscillations of the bottom platform with a deviation from the required span and frequency fluctuations.

The claimed utility model, like its prototype, by creating a dense flow of intumescent vermiculite along the surfaces of the baking sheets in the thermal field of electric heaters with the distance δ between its grains that does not increase as it moves, provides the greatest performance. Only when installing the oven horizontally, the level of energy consumed and the specific energy consumption of roasting vermiculite will be minimal, since only in this case there will be no air flow in the spaces between the trays and the lids that would cool the electric heaters and the vermiculite itself will divert a significant portion of thermal energy from them .

The technical result of the utility model is to provide the minimum specific energy consumption of roasting vermiculite due to the horizontal position of the furnace, eliminating the convective removal of part of the thermal energy and implementing a steady movement of a dense stream of exfoliated vermiculite in the thermal field of electric heaters.

This technical result is achieved by the fact that an electric furnace for firing vermiculite containing a frame, pans, lids, electric heaters, a single movable base, spring-loaded on one side with cylindrical springs and an actuator that creates longitudinal vibrations of the said base, which cause the movement of the electrical elements that swell in the thermal field vermiculite heaters on trays in one direction with a constant average speed of a dense single-layer flow. Bins together with baking trays are located on the said base one by one, the covers are above the baking trays, and electric heaters mounted on the said heads are mounted longitudinally above the surfaces of the baking trays. Trays with two walls parallel to each other, parallel to the surfaces of the trays are fixed on baking sheets from the side of electric heaters, each bunker has a slot and a vertical flap on the side of the trays that adjusts the height of the slope of the vermiculite concentrate pouring out of the slot onto a horizontal plate that is the bottom of the bunker and entering into the space between the parallel upper and lower walls of the corresponding tray. The upper and lower surfaces of the upper wall of the tray are made with a notch directed toward the baking sheet and together provide effective pick-up and movement of the concentrate to the surface of the baking sheet during vibrations. Changing the position of the vertical blades of the bins, which regulate the height of the slopes mentioned above, allows increasing or decreasing the amount of concentrate entering the trays. The drive of a single movable base contains a motor-reducer, a hydrostatic vibration exciter, made in the form of an eccentric shaft with a rolling bearing housed in a housing together with a high-pressure hose (high-pressure hoses used as flexible hydraulic lines in hydraulic drives, see GOST 6286-73) clamped between the eccentric bearing and the base plate of the housing and connected at one end to the hydraulic unit and the other end through the manifold with hydrolines with two hydraulic cylinders fixed symmetrically on the furnace frame relative to its Aulnay axis plungers which abut one movable base. The hydraulic unit contains a tank with mineral oil connected to the suction pipe of the manual pump, the pressure pipe of which is connected to the hydraulic accumulator and pressure gauge by one line and the other with an adjustable throttle that is located in the body of the hydrovolume oscillator. When the eccentric shaft is rotated, the variable volume of mineral oil is displaced from the clamped part of the WFD and fed into the hydraulic cylinders. With a certain combination of the initial pressure in the RVD, the mass of a single movable base with trays, the total stiffness of the cylindrical springs and the volumetric elasticity of the RVD, reduced through the area of the hydraulic cylinders to the said base, the latter resonates. Due to the strongly pronounced nonlinear elastic characteristics of the RVD, these oscillations with a span of 8 ... 12 mm, oscillations in the resonant mode have a pronounced asymmetry, due to which a stable unidirectional movement of the vermiculite flow along

baking surfaces where it is fired.

Thus, due to the ability of the furnace to operate in a horizontal position, the occurrence of air currents capable of diverting a significant portion of thermal energy is eliminated, the minimum specific energy consumption of roasting vermiculite is ensured, and undesirable accompanying oscillatory processes are eliminated.

Distinctive features of the claimed utility model is that not only the upper but also the lower surface of the upper walls of the trays are made with a notch pointing in the opposite direction, and the drive of a single movable base contains a hydrovolume vibration exciter with an eccentric shaft and a rolling bearing placed in the housing along with the RVD sandwiched between the bearing and the base plate of the housing and connected at one end to the hydraulic unit, the other through the manifold and hydraulic lines with two hydraulic cylinders fixed by symmetrical on the frame of the oven, the plungers of which rest on a common movable base; The hydraulic unit contains a tank with mineral oil connected to the suction pipe of the manual pump, the pressure pipe of which is connected to the hydraulic accumulator and pressure gauge by one line, and the other to the adjustable throttle valve that is located in the body of the hydrovolume oscillator.

The presence of distinctive features allows to make a conclusion about the compliance of the claimed utility model to the condition of patentability "novelty."

FIG. 1 shows an electric oven for firing vermiculite (side view).

FIG. 2 shows an electric oven for firing vermiculite (top view).

FIG. 3 shows a fragment of a hydrostatic vibration exciter.

FIG. 4 shows the interface of the tray with the plate-bottom of the hopper with the valve open.

FIG. Figure 5 shows the interface of the tray to the plate-bottom of the bunker with a partially covered flap.

FIG. 6 shows notches above and below on the top wall of the tray.

FIG. 7 shows the hydraulic circuit of the furnace drive.

FIG. 8 shows the volumetric elastic characteristic of a high pressure hose (HPH).

FIG. 9 shows the amplitude-frequency characteristic of a single movable base of the furnace.

FIG. 10 shows a graph of the vibration motion of a single moving base in the resonant mode of oscillation.

Electric oven for firing vermiculite, FIG. 1 and 2, has a frame 1 with vertical posts 2. On the frame 1, using bearings 3, there is a single movable base 4, spring-loaded with cylindrical springs 5 on the right. The single movable base 4 at point a is in contact with hydraulic rams 6, mounted symmetrically on the frame 1 relative to its longitudinal axis, which, through the hydrolines 7 and the collector 8, are connected to a high pressure hose (HPH) 9, which is part of the hydrostatic vibration exciter with the housing 10, the gear motor 11 and the hydraulic unit. In the housing 10 is placed eccentric shaft 12 with a rolling bearing 13; between it and the base plate 14, the HPH 9 is clamped; FIG. 3

On a single movable base 4, hollow beams of trays 15, 16 and 17 are fixed, the gaps between which, the space inside them, and the lids of the trays are filled with insulating material 18. The trays 15, 16 and 17 are made of heat-resistant steel.

On frame 1 there are panels 19, on which heads 20 with parallel edges are fixed, holding electric heaters 21 cantilevered on them, made of nichrome in the form of tapes. Electric heaters 21 are fixed on the heads 20 so that along the entire length of the baking trays 15, 16 and 17 the gap between them and the surfaces of the baking trays is constant, but can be adjusted within 3 ... 8 mm (when switching from concentrates of smaller to larger size and vice versa) due to gaskets that are installed between the panels 19 and the heads 20. The electric heaters 21 of each of the trays 15, 16 and 17 are connected to the same phase of the three-phase power grid. On a single movable base 4 mounted vertical trays 22, tightly attached to the baking sheets 15, 16 and 17 on the right. Thermal insulation panels 23 are fixed to the end parts of the baking sheets 15, 16 and 17 on the left side of the electric heaters 21 consoles, and parallel to the bases of the baking sheets 15, 16 and 17 are mounted trays 24 with two parallel walls parallel to the surfaces of the baking sheets 15, 16 and 17, FIG. 1, 2, 4, 5 and 6. Next to the trays 24 on the frame 1 are mounted bunkers 25, which have slots and vertical flaps 26, which regulate the height of the slope of the vermiculite concentrate, pouring out of the slots of the hoppers 25 on the horizontal plates 27, which are included in the space between the parallel the upper and lower walls of the respective trays 24. The upper and lower surfaces of the upper wall of the trays 24 are made with a notch directed toward the opposite side, FIG. 6

FIG. 7 shows the hydraulic circuit of the entire hydraulic system, including elements of the hydraulic unit, which contains mineral oil tank 28, connected to the suction nozzle of the hand pump 9, whose discharge nozzle is connected to the feed hydraulic reservoir 30 and the pressure gauge 31 by one line, and the other with adjustable throttle 32, which connected to the HPH 9. The hydraulic circuit also shows the hydraulic cylinders 6 and the bearing 8 with the support plate 9, between which the section of the HPH 9 is clamped.

Electric oven for firing vermiculite works as follows. The frame 1 with vertical posts 2 is set to a horizontal position. When starting the hydrovolume exciter of vibrations due to the gearmotor 11 (see Figs. 1, 2, 3 and 7), the eccentric shaft 12 with the rolling bearing 13 begins to alternately compress and decompress the high-pressure hoses 9 with an angular frequency ω, which can be changed using the frequency controller ( is not shown in the figures) controlling the motor-reducer 11. RVD 9, hydraulic lines 7, hydraulic cylinders 6, as well as the hydropneumatic accumulator 30 (Fig. 7) using a manual pump 29 (Fig. 7) are completely filled with mineral oil, which is under the initial pressure P₀. At the same time, the variable volume W of mineral oil is displaced from the clamped part of the high-pressure hoses 9 and flows through hydraulic lines 7 into hydraulic cylinders 6. The purpose of the adjustable choke 32 is to fill all the cavities of the hydraulic system with a fully open flow section. Then, after filling, the throttle 32 is almost completely closed to the minimum cross section, through which from the hydro-pneumatic accumulator 30 there is a gradual and long-term feed with mineral oil to maintain the initial pressure P₀which may gradually decrease due to external leaks in the hydraulic cylinders 6.

With a certain combination of the initial pressure P ₀ , the mass of the single movable base 4 with the trays 15, 16 and 17, the total stiffness of the springs 5 and the bulk elasticity of the high-pressure hoses 9, reduced through the areas f, of the hydraulic cylinders 6 to the single movable base 4, a resonance of said base occurs when the excitation frequency ω will become equal to the natural frequency of oscillations of a single moving base 4 - ω ₀ .

FIG. 8 shows the volumetric elastic characteristic of high pressure hoses 9 with an internal diameter d ₀ = 20 mm and a length of rubber part L = 245 mm, obtained experimentally. The dependence of pressure P on the volume of deformation of the cavity of high pressure hoses 9 ΔW is a pronounced non-linear dependence and can be described by a quadratic function:

(1)

(one)

where k ₁ and k ₂ are empirical coefficients determined experimentally and equal to ₁ = 59.8 · 10 ¹⁰ N / m ⁵ and k ₂ = 62.2 · 10 ¹⁶ N / m ⁸ .

Differentiating expression (1) by the volume of the cavity deformation ΔW

we obtain the formula of the bulk elasticity of the WFD 9:

which should be multiplied by the total area of the plungers of hydraulic cylinders 6 - 2 f, in order to obtain the reduced stiffness of high-pressure hoses 9, which has the dimension N / m, as well as simple cylindrical springs 5.

Then the total stiffness with the _{sum of a} single movable base 4 with regard to the stiffness of the springs 5 will be equal to:

where with _pr - stiffness of the cylindrical spring, N / m.

At resonance, when the excitation frequency ω is equal to the natural frequency of oscillation ω ₀ , the amplitude of oscillations R of a single movable base 4 can reach 8 ... 12 mm, therefore the volume of deformation of the cavity of the high pressure hoses 9 - ΔW will be determined mainly by a small variable volume that is not displaced from the clamped part of the high pressure hoses 9 W, but much larger volume, corresponding to resonant oscillations and equal to:

W _p = 2 f R.

Any oscillatory system with a nonlinear elastic element on the one hand, has the so-called "soft" amplitude-frequency characteristic (AFC). Therefore, the single movable base 4 also has a soft frequency response, shown in FIG. 9.

As the frequency ω increases, the entrance to the resonant mode occurs at the point a at the moment when the excitation frequency ω will become equal to the natural frequency of a single moving base 4 ω₀. At this moment, the latter will begin to oscillate with a span of R corresponding to point A, FIG. 9. After entering the resonance, you can change the magnitude of the resonant oscillations due to the detuning of the rotation frequency of the eccentric shaft 12 (excitation frequency ω) from the natural frequency ω₀. In this case, the range of oscillations will be determined by the position of the points b, c and d at the frequency response.

The graph of changes in vibratory displacement x single moving base

4, which is in resonance, has the form shown in FIG. ten.

, направленное влево при крайнем правом положении единого подвижного основания 4, фиг. 1 и 2, больше максимального ускорения

, направленного вправо при крайнем левом положении единого подвижного основания 4. Если максимум ускорения вправо

больше (как в данном случае), чем максимум ускорения влево

, то будет выполняться условие:Obviously, these are asymmetrical fluctuations in which, as is known, a one-sided transport effect is created (Bauman II, Bykhovsky VA. Vibration machines and processes in construction. M., Higher School, 1977, p. 74 ). In our case, they are characterized by the fact that the maximum acceleration

directed to the left at the extreme right position of the single moving base 4, FIG. 1 and 2, greater than maximum acceleration

directed to the right with the leftmost position of a single moving base 4. If the acceleration maximum to the right

more (as in this case) than the maximum acceleration to the left

, the condition will be fulfilled:

> f_тG / m >

, (2)

> F _r G / m>

, (2)

where f _t is the actual coefficient of friction of vermiculite over the surface of the baking sheets, m is the mass of vermiculite particles (kg) and G is the weight of vermiculite particles (N).

. Поэтому весь поток вермикулита будет двигаться влево по поверхности противней 15, 16 и 17 единого подвижного основания 4, при этом движение будет иметь однонаправленный и пульсирующий характер. The force of inertia acting on vermiculite particles with the extreme right position of the single moving base 4 is directed to the right, therefore vermiculite grains will shift to the right. The inertia force acting on vermiculite particles with the leftmost position of a single moving base 4 is directed to the left, but in accordance with condition (2), the particles do not move on the surface of the trays 15, 16 and 17, so the friction force is equal to F _tr = f _t G greater than the inertia force determined by the product

. Therefore, the entire flow of vermiculite will move to the left along the surface of the trays 15, 16 and 17 of the single movable base 4, while the movement will have a unidirectional and pulsating character.

By changing the excitation frequency of the eccentric ω after the onset of resonant oscillations within the limits from point b to point g, it is possible to control the vibration of x, the amplitude of vibration of ωA and the amplitude of vibration of ω ² A of the single moving base 4, providing a change in the average speed of movement of vermiculite on trays 15, 16 and 17 and roasting time management. Since vermiculite particles are under direct thermal radiation coming from electric heaters 21, they, absorbing this energy, swell and exit the furnace as a finished product.

The supply of vermiculite concentrate from bins 25 to the trays 15, 16 and 17 is carried out as follows. On thermal insulating panels 23 (FIGS. 1, 4 and 5) of the trays 15, 16 and 17 on the side of the consoles of the electric heaters 21 are fixed trays 24 with two parallel walls and parallel surfaces of the trays 15, 16 and 17, and each hopper 25, with The sides of the chutes have a slot and a vertical flap 26 regulating the height of the slope of the vermiculite concentrate pouring out of the slot onto a horizontal plate 27, which is the bottom of the bunker and entering the space between the parallel upper and lower walls of the corresponding tray 24. The upper and the lower surface of the upper wall of each tray 24 is made with a notch directed towards the baking sheet (Fig. 6), which ensures efficient capture and movement of the concentrate on the surface of the baking sheets 15, 16 and 17 during vibrations. Changing the position of the vertical blades 26 of the bunkers 25 allows you to increase or decrease the amount of vermiculite concentrate entering the surface of the baking trays 15, 16 and 17. Thus, the adjustment is made to the mode of movement of the flow of intumescent vermiculite grains with a minimum distance that does not increase as they move in one layer.

This achieves the technical result of the utility model, which consists in ensuring the minimum specific energy consumption of roasting vermiculite due to the horizontal position of the furnace, eliminating the convective removal of part of thermal energy and implementing a steady movement of dense flow of intumescent vermiculite in the thermal field of electric heaters.

Claims (1)

An electric oven for firing vermiculite containing a frame, pans, lids, electric heaters mounted on heads having parallel faces, bunkers, a single movable base with a drive, while the bins along with baking trays are arranged one after the other, the covers are installed above the trays, and electric heaters are fixed on the heads using consoles and mounted longitudinally over the surfaces of the baking trays, trays with two walls parallel to the surface are fixed on the baking sheets on the side of the electric heater consoles trays, bins on the trays side are made with slots and adjustable vertical flaps, the bottom of the bins are made in the form of plates entering the space between the parallel walls of the trays, and the single movable base is made in the form of insulated hollow beams, characterized in that the single movable base on one side is spring-loaded with a cylindrical spring, and its drive contains a hydrostatic vibration exciter in the form of an eccentric shaft with a rolling bearing placed in the housing along with a high-pressure sleeve Okogo pressure, sandwiched between the bearing of the eccentric shaft and the base plate of the housing and connected to one end with an adjustable throttle, and the other end - hydraulic lines with two hydraulic cylinders, the plungers of which rest against a single movable base on the other side of it, mineral oil tank connected to a manual pump , the discharge pipe of which is connected to the hydropneumatic accumulator and pressure gauge by one line, and the other to the adjustable throttle, while the upper and lower surfaces of the upper walls of the trays are made with the direction lennoy towards trays notch.

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