SU1454759A1 - Arrangement for heating freezing fluids in vessel - Google Patents

Abstract

FIELD: transport. The purpose of the invention is to increase the reliability of the device. The device is placed on a tubular fixed in a container. rod electric motor with a housing, equipped with a tubular nozzle. The rotor of the electric motor is made aligned with the pump wheel and is equipped with a debalance. There is a spring hinge between the tubular bar and the motor housing. When the electric motor is turned on, due to the unbalance on the rotor, the tubular nozzle together with the electric motor begins to describe the cone-shaped surface, carried out energy exchange with the surrounding product, ensuring its mixing and heating. 5 hp f-ly, 9 ill. (L

Description

The invention relates to transportation, and more specifically to heating a product in a tank for the purpose of ensuring its unloading when the product has come to a thickened or solidified state, and can be used to heat various products stored in closed tanks.

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

FIG. 1 schematically shows the proposed device; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a section BB in FIG. one; in fig. 4 - spatial spring hinge, longitudinal section; in fig. 5 - tubular nozzle, axial section; figure 6 - cut bar; in fig. 7 - device in the area of the motor, longitudinal section; in fig. 8 - pump wheel, cut; Fig. 9 is a sectional view in the area of attachment of the motor housing and the tubular nozzle.

5 A device for heating up solidifying liquids in a tank (in a tank) includes a hollow tubular rod 1, bent in a plane and inserted into the tank 2, on which it is

10 is fixed at one end 3 in a split rim 4, connected to the nozzle 5 of the hatch of the tank 2; In the same split lid 4 (FIG. 2), a similar rod 6 is fixed with its end 7

15 and discharge pipe 8 for discharging the product. To increase the spatial rigidity of the system, two heating devices introduced into the tank are connected at the intersection of the rods.

20

-h1

SP

with

(Fig. 1 and Fig. 3) with a clamp 9i of half-branches 10 and 11 of which (Fig. 3) are connected by means of fastening with T (|) finger nut 12.5

The tubular boom 1 is provided with longitudinal through holes 13 in the shifts (Figs. 1 and 6). The other end of the W (gangs 1 is connected by flanges 14 to the spatial hinge 15, which is in turn fastened by a fastened joint 16 to the housing 17 of the electric motor, equipped with a tubular nozzle 18.

The space spring hinge 15 15 (Fig. 4) is made in the form of a transversely corrugated multilayer tubular element. The latter includes a metal layer 19 and a layer of material of increased elasticity, for example, 20 ker ep rubber 20. Metal layers provide protection from exposure. product.

Pipe nozzle 18 contains co-conductor supply 33 of the power cable 34 to the motor. The latter is placed in a protective tube 35 containing a flexible corrugated insert 36, hermetically mounted into the housing 17. The cable is withdrawn in the hatch area of the tank (Fig. 1) as a connection panel 37.

The device works as follows.

When the stator windings 25 are included in the network, the product hardened in the tank causes the rotor to rotate through the pump 28 wheel. In this connection, the windings 25 and the stator housing 17 are intensely heated. Under the action of eddy currents, the short-circuited rotor 27 and pump wheel 28 are also heated. Thermoelectically heating leads to fusion and liquefaction of the product around the electric motor. The resistance to rotation of the rotor decreases and it increases speed

1ruiChs1Tc1L netUOM ei l -,.

.installation flange 21 and. provided for rotation up to a nominal 25 (spinning heat transfer by screw-shaped ribs 22, filled from the outer and inner side. In addition, i there are holes 23 for the product to be sucked into the nozzle.

In the area of the motor housing 17 (Fig. 1), the device-) 1O is completed as follows in FIG. 7).

Claims (6)

I In case 17 of a frontal electric motor in a sealed casing 2.4 | The stator winding 25 is made of heat resistant materials. In the end part of the housing there is an integral rigidly connected, with the housing 0, an axis 26, on which the rotor 27 is mounted, in the form of a paddle stirrer, along with the wheel of the pump 28, made in the form of a propeller (Fig. 8). The rotor 27 of the electric motor 45 is provided with an unbalance 29 and has annular channels on the outer surface to improve heat exchange (Fig. 9). Flange connection 30 tubular cages. 18 and the housing 17 is made the gap between the flanges through the spacer sleeves 31, worn on the flange studs 32. The pump wheel 28 is located inside the tubular nozzle. The second flange connection 16 of the housing 17 of the motor with a spring hinge 15 is made similarly. In the hinge 15, the inside of the formed axial channel is made pipework). At this stage, the first warming up stage is preparatory. In the subsequent period, the thermoelectric heat release decreases somewhat, since a part of the supplied electricity is used for mechanical rotation; the rotor and, accordingly, the acceleration of the fluid in the zone, which includes already wider zones around the tubular nozzle 18 and the tubular bar 1. In the second period, there is a combined conversion of electricity into heat. When etsm termoenergi overheated stator by heat transfer heats the surrounding layers of the product. These layers fall into the rotor zone through the flange slot and then onto the pump wheel 28. Here the product is further heated and propelled by the pump blades along the tubular nozzle 18. In the process of advance heat transfer in the direction of the inner walls and the product in contact with the outside walls. The ribs 22 provide the swirling of the jets inside the channel, which intensifies the heat exchange process. Facilitates heat transfer and product leakage inside the tubular nozzle. The energy of the mechanical rotation of parts of the device is also transferred to heat due to the processes of quenching of the kinetic energy in the processes: interactions wire connection 33 of the supply cable 34 to the electric motor. The latter is placed in a protective tube 35 containing a flexible corrugated insert 36, hermetically mounted into the housing 17. The cable is withdrawn in the hatch area of the tank (Fig. 1) as a connection panel 37. The device works as follows. When the stator windings 25 are included in the network, the product hardened in the tank causes the rotor to rotate through the pump 28 wheel. In this connection, the windings 25 and the stator housing 17 are intensely heated. Under the action of eddy currents, the short-circuited rotor 27 and pump wheel 28 are also heated. Thermoelectically heating leads to fusion and liquefaction of the product around the electric motor. The resistance to rotation of the rotor decreases and it increases speed rotation to nominal (unwound). At this stage, the first warming up stage is preparatory. In the subsequent period, the thermoelectric heat release decreases somewhat, since a part of the supplied electricity is used for mechanical rotation; the rotor and, accordingly, the acceleration of the fluid in the zone, which already includes wider zones around the tubular nozzle 18 and the tubular rod 1. In the second period, there is a combined conversion of electricity into heat. In the case of thermo electric energy of the overheated stator by heat transfer, it heats the surrounding layers of the product. These layers enter the rotor zone through the flange slot and then onto the pump wheel 28. Here the product is further heated and propelled by the pump blades along the tubular nozzle 18. During the advance process the direction of the inner walls and the product in contact with the outside walls. The ribs 22 make it possible to curl the jets inside the channel, which enhances the heat exchange process. Promotes heat transfer and product leakage into the tubular nozzle. The energy of mechanical rotation of parts of the device is also transferred to heat due to the processes of quenching of kinetic energy in the processes: interactions fluid layers. The intensified vibration of parts of the device promotes intensive mixing of the product, the viscosity of which is reduced by the action of vibration. The second stage of the device operation is completed with the formation of a vast area of the heated product around the tubular nozzle, electric motor, rod. 20 In the third stage of operation of the device in connection with a drop in the viscosity of the product in the heated area and a decrease in the resistance to rotation of the rotor 15, its energy is realized by switching to rotation in a cone-shaped plane. This increases the total area of interaction with the product and, accordingly, the possibility of exchanging energy with the surrounding product, which ensures that the device is loaded at full capacity. When swinging the rotor with an electric motor, heat exchange is also intensified by heat transfer. Intensive heat transfer is favored by mixing the product along the larger volume in the tank, the deformation of the rod acting as 10 as a pump wheel, characterized in that, in order to improve reliability, it is equipped with a tubular nozzle, unbalance is set on the rotor, the rod is bent and connected to the motor housing through a spring-hinged space joint. 2. A device according to claim 1, characterized in that the tubular nozzle is provided with helical ribs with openings in the walls. 3. The device according to paragraphs. 1 and 2, that is, with the fact that the rotor is made in the form of a paddle stirrer and 25 is located inside the tubular nozzle. 4. Device on PP. 1-3, characterized in that the spring space spatial hinge is made multi-layered with layers of corrugated pumps; vibration of the product; promotion of a zoned material of various types Invention Formula 1. A device for heating up solidifying liquids in a tank, containing an electric motor mounted on a rod with a stator mounted in the housing and a rotor mounted outside the stator, made in The shape of the pump wheel, characterized in that, in order to improve reliability, it is equipped with a tubular nozzle, unbalance is set on the rotor, the rod is curved and connected to the motor housing via a spring-hinged space joint. 2. A device according to claim 1, characterized in that the tubular nozzle is provided with helical ribs with openings in the walls. 3. The device according to paragraphs. 1 and 2, that is, with the fact that the rotor is made in the form of a paddle stirrer and placed inside the tubular nozzle. 4. Device on PP. 1-3, characterized in that the spring spatial hinge is made multi-layered with layers of corrugated it along the guide ribs. The heating process is completed when the product reaches a temperature that ensures its discharge. When transporting the product in tanks, the proposed device can be used for heating along the way. five swearing. 5. Device on PP. 1-4, characterized in that a gap is formed between the motor housing and the spring spatial hinge. 6. The device according to paragraphs. 1-5, characterized in that the stand is made with through slots. FIG. / FIG. 2 | L | C 22 (pi / g. 5 Y / l 7 Fig.Z FIG. C 73 F | Y8, 5 , Y Fi9.3