RU113817U1 - HUMIDIFIER AND HUMIDIFIER CAMERA WITH IT - Google Patents

Abstract

1. A humidifier containing a radial impeller, kinematically connected to the power drive, and means for supplying water to the radial impeller, characterized in that the radial impeller is made with forward curved blades, the water supply means is made in the form of a nozzle installed in front of the entrance to the radial wheel, while the humidifier is equipped with a straightening device made in the form of plates mounted on a stationary disc. ! 2. The humidifier according to claim 1, characterized in that the straightening device is located coaxially with the radial impeller. ! 3. The humidifier according to claim 1, characterized in that the plates of the straightening device are installed at an angle of 8 ... 10 ° relative to the tangent to the circle and are inclined in height at an angle of 40 ... 45 ° from the axial direction. ! 4. The humidifier according to claim 1, characterized in that an inlet manifold is installed before entering the humidifier impeller. ! 5. The humidifier chamber, which includes a humidifier, a housing and a drop-catcher, the humidifier contains a radial impeller and a water supply means, characterized in that the radial impeller of the humidifier is made with forward curved blades, the water supply means is made in the form of a nozzle installed in front of the entrance to a radial impeller, while the humidifier is equipped with a straightening device made in the form of plates mounted on a stationary disk. ! 6. The humidification chamber according to claim 5, characterized in that the humidification chamber housing is cylindrical in shape with a circumference at the base, and the length of the housing is not less than 1.5 of its diameter. ! 7. The humidification chamber according to claim 5, characterized in that a layer is installed in front of the humidifier.

Description

A group of utility models relates to the field of fan engineering, namely, to devices for humidifying the air and humidification chambers with such a device, and can be used both as stand-alone products and as components of supply air chambers (industrial air conditioners).

The prior art devices for humidification and humidification chamber with them.

In USSR author's certificate No. 896333, F24F 6/00, publication date 1/7/1982, [1], an air humidification device is provided comprising an air atomizer and a nozzle for supplying water to it, while the atomizer contains blades made of breathable material , for example, mesh, and is installed in front of the fan and on the same shaft with it. In the channel behind the fan, which is made vertical, a droplet eliminator is installed. The disadvantage of the invention [1] is the installation of a spray gun and a fan on one shaft, which makes it difficult to control the set humidity levels and performance of the humidifier.

In the international application No. W02008 / 132278, IPC F24F 6/16, F24F 3/14, F24F 1/02, publication date November 6, 2008, [2], a humidifier is provided comprising a radial impeller kinematically coupled to an electric drive, and means for supplying water to the radial impeller. In this case, the radial impeller is made with backward curved blades, and the water supply means comprises a perforated pipe located inside the radial impeller. The disadvantage of this humidifier is the insufficiently effective mixing of the droplets with the surrounding air due to the lack of interaction of the formed droplets with the incoming air flow, as well as the crushing of water into insufficiently small droplets.

In US patent No. 2294221, NPK 299/63, publication date 08/25/1942, [3], a humidifier is provided comprising curved blades mounted on the disk forward and means for supplying water to the disk. The disadvantage of the sprinkler [3] is the lack of a straightening apparatus, which does not allow the creation of sufficiently small drops.

As the closest analogue of the humidifier adopted humidifier according to the application [2]. As the closest analogue of the humidification chamber, the author's certificate is accepted [1].

The technical problem to be solved is to obtain droplets with small sizes and to increase the path of droplets in the air. The technical result consists in increasing the efficiency of humidification.

The essence of the claimed utility models is as follows.

The humidifier, as in the closest analogue [2], contains a radial impeller kinematically connected to the energy drive, and means for supplying water to the radial impeller, but unlike the closest analogue [2], the radial impeller is made with forward curved blades , the water supply means is made in the form of a nozzle installed in front of the radial impeller, while the humidifier is equipped with a straightening device made in the form of plates mounted on a fixed disk.

The humidifier is characterized in that the rectifier is coaxial to the radial impeller.

The humidifier is characterized in that the plates of the rectifier are installed at an angle of 8 ° ... 10 ° relative to the tangent to the circle and are inclined in height by an angle of 40 ° ... 45 ° from the axial direction.

The humidifier is characterized in that an inlet collector is installed before entering the impeller of the humidifier.

The humidification chamber, as in the closest analogue [1], contains a humidifier, a housing and a droplet eliminator, the humidifier contains a radial impeller and water supply, but unlike the closest analogue [1], the radial impeller of the humidifier is made with forward curved blades , the water supply means is made in the form of a nozzle installed in front of the radial impeller, while the humidifier is equipped with a straightening device made in the form of plates mounted on a fixed disk.

The humidification chamber is characterized in that the housing of the humidification chamber is made of a cylindrical shape with a circle in the base, and the length of the housing is at least 7.5 of its diameter.

The humidification chamber is characterized by the fact that vortex generator plates are installed in front of the humidifier.

In this case, the vortex generator plates are inclined at an angle of 45 degrees. in the direction of rotation of the radial impeller of the humidifier.

The humidification chamber is characterized in that a UV radiation source is installed in the humidifier body.

A group of utility models is illustrated by drawings.

Figure 1 presents a longitudinal section of a humidifier.

Figure 2 presents a longitudinal section of a humidifier with an impeller with a front disc.

Figure 3 presents a longitudinal section of a humidifier with an impeller with a front disc and an input manifold

Figure 4 shows a view of figure 1.

Figure 5 presents a longitudinal section of a humidification chamber.

Figure 6 presents a section bB in figure 5.

7 shows a longitudinal section of an element of the supply chamber with a humidification chamber.

A group of utility models is organized as follows. The humidifier contains a radial impeller 1, kinematically connected with the energy drive, a straightening apparatus, and means for supplying water to the radial impeller 1. The radial impeller 1 contains a main disk 2 and curved blades fixed forward on them 3. The straightening apparatus is made in the form of plates 4, the curved blades 3 mounted on the fixed disk 5 from the front forward side of the blade 3. The fixed disk 5 is installed coaxially with the impeller 1. The water supply means comprises a pipe 6 connected to a water source (not shown in Fig.) , and a nozzle 7 installed in front of the inlet 8 to the radial impeller 1. The radial impeller 1 can be made with the front disk 9, while the forward curved blades 3 are located between the main 2 and front 9 disks and connected to them. Before entering the radial impeller of the humidifier to improve aerodynamics, an input manifold 10 having smooth contours can be installed. The input manifold can be mounted on a fixed disk by rods 11. To adjust the position of the input manifold 10 relative to the front disk 9 of the impeller 1, the rods 11 can be connected to the input manifold 10 via pairs of nuts (not shown in Fig.).

In a preferred embodiment, an electric motor 12 is used as an energy drive, the rectifier is located coaxially with the radial impeller 1, the plates of the rectifier 4 are installed at an angle α = 8 ° ... 10 ° relative to the tangent to the circle and are inclined in height by an angle β = 40 ° ... 45 ° from the axial direction. The nozzle 7 is made centrifugal, with a spin direction against the rotation of the radial impeller 1, and is mounted to move along the axis of the radial impeller 1, for example, by placing the nozzle 7 on a carriage 13 equipped with a drive for moving along the guides (not shown in Fig.) . When using one nozzle 7, it is located on the axis of rotation of the radial impeller 1.

The humidification chamber contains a humidifier, a housing 14, a droplet eliminator 15 with a drain 16 (Fig. 5). The humidifier contains a radial impeller 1 with forward curved blades 3, a straightening device and water supply means, including a nozzle 7 installed in front of the inlet 8 of the radial impeller 1 with the possibility of movement along the axis of rotation of the radial impeller 1. The humidification chamber body 14 is made of a cylindrical shape with a circle at the base, and the length of the housing 14 is at least 7.5 of its diameter. In the housing 14 installed plate 17 vortex generators. In the housing 14, an ultraviolet radiation source 18 is installed.

The housing 14 of the humidification chamber must be connected to other units (for example, the case of the fan 19, filter 20, etc. with a seal, and in the housing 14 there should be a slight deviation from the entrance to the humidification chamber from the side of the drip trap 15, equipped with a drain 16 or tank (not shown in Fig.) for collecting waste water The electric motor 12 of the radial impeller 1 should be about 1.5 times more power than that required for a radial impeller of the same diameter, designed to move only air.

In a preferred embodiment, the humidification chamber connected to the housing 14 of the plate 17 of the vortex generators are inclined at an angle of 45 degrees. in the direction of rotation of the radial impeller 1 of the humidifier, the direction of rotation of the radial impeller 1 coincides with the direction of rotation of the impeller 21 of the fan 19, which supplies air to the humidification chamber.

Humidifier and humidification chamber work as follows. Humidification occurs by evaporation of water droplets from the surface. To increase the saturation of air with moisture, the drops should be finely dispersed and be in the air for as long as possible. This can be achieved by breaking the water into small droplets and twisting the droplets with a stream of air to increase the path of droplets in the humidification chamber.

When water is supplied through pipeline 6 to the nozzle 7, water is sprayed with a sufficiently large diameter of the droplets. The spray cone must fall on the inlet 8 of the radial impeller 1. To match the diameter of the spray cone to the diameter of the inlet 8 of the radial impeller 1, the carriage 13 with the nozzle 7 installed on it is moved along the guides by means of a drive (not shown in Fig.). When rotating, the radial impeller 1 with forward curved blades 3 forms a powerful vortex air flow with a strong swirl around the radial impeller 1. Due to this, the flow will partially circulate through the inlet 8 into the radial impeller 1. For this, the radial impeller 1 can be additionally equipped with an input manifold 10. The implementation of the radial impeller 1 with the front disk 9 increases the intensity of the vortex movement. When passing through a radial impeller 1, water droplets are accelerated and, falling forward, the curved blades 3 of the radial impeller 1 are broken into smaller ones. Drops of water passing through the rectifier apparatus partially pass it without contact, partially hit the plates 4 of the rectifier apparatus, crush, change direction to close to the tangent, and additionally collide with other drops. The plates 4 simultaneously perform the functions of a straightening apparatus for the air flow at the outlet of the radial impeller 1, as well as the function of chippers and sprayers of water droplets departing from the radial impeller 1. The fixed disk 5 of the straightening apparatus protects the motor 12 of the radial impeller 1 from getting into him water.

Thus, a volumetric rather than a cone torch of small droplets with a significant swirling occurs, the droplets hang in the air and are carried away by the air flow. This increases the size (volume) of the torch, the speed of movement of the drops and the path of each drop. As a result, air is saturated with water to a greater extent than in the closest analogue [2].

A humidifier installed in the humidification chamber creates a volume torch of small drops with a significant twist. The location of the impeller 21 of the fan in front of the humidification chamber provides air movement through it. At the same time, the air is saturated with water, and due to the twisting of small drops in the volume spray, an intensive evaporation of water from the surface of the drops and humidification of the air occur. The cylindrical shape of the housing 14 of the humidification chamber is preferred because it provides air swirling and better humidification. The plates 17 of the vortex generator of the air flow behind the impeller 21 of the fan further twist the flow in the humidification chamber before the torch of small drops in the direction of rotation of the impeller 21 of the fan. As a result, the length of the path of the droplets increases, which increases the saturation of air with water.

To humidify the air in front of the humidification chamber, I position the fan housing 19 and the air filter 20, between the humidifier and fan cases 14, 19 place a sealant (not shown in Fig.), And connect the housings 14, 19 to each other. During operation of the fan impeller 21, the air it is fed into the humidification chamber, additionally twisted by the plates 17 of the vortex generator, and mixed with water droplets emitted by the humidifier.

As the experiments showed, in order to obtain the greatest efficiency of air saturation with moisture, it is advisable to install the vortex plate 16 at an angle of about 45 ° in the swirl direction in the housing 14 of the humidification chamber 14, the plates 4 of the straightening apparatus of the radial impeller 1 of the humidifier should be installed at an angle α = 8 ° ... 10 ° relative to the tangent to the circle (figure 4) and tilt in height by an angle β = 40 ° ... 45 ° from the axial direction (figure 3). The housing 14 of the humidification chamber is cylindrical with a length equal to approximately 1.5 diameters of the housing 14. The diameter of the housing 14 should be selected from the condition of ensuring the average flow rate in the housing 14 of the humidification chamber at maximum capacities not exceeding 2.0 ... 2.5 m / s (preferably 2 m / s).

Non-evaporated water droplets moving together with the air fall onto the surface of the droplet eliminator 15, drain into the drip tray and are removed through drain 16 or flow into the waste water tank (not shown in Fig.) For use after cleaning.

To ensure air disinfection in the housing 14 of the humidification chamber, a radiation source 18 with an ultraviolet spectrum is installed.

The groups of useful information models presented in the description are sufficient for the development and manufacture of a humidifier and a humidification chamber.

LIST OF POSITIONS AND DESIGNATIONS IN THE DESCRIPTION OF USEFUL MODELS “HUMIDIFIER AND HUMIDIFIER CAMERA WITH IT”

1 - radial impeller of the humidifier;

2 - the main disk of the radial impeller 1;

3 - forward curved blades of the radial impeller 1;

4 - plate straightening apparatus;

5 - fixed disk rectifier;

6 - pipeline means of water supply;

7 - nozzle for water supply;

8 - entrance to the radial impeller 1;

9 - front disk radial impeller 1;

10 - input collector of the radial impeller 1;

11 - thrust mountings of the input manifold 10 on the fixed disk 5;

12 - electric motor;

13 - carriage for installing the nozzle 7;

14 - housing humidification chamber;

15 - droplet eliminator;

16 - discharge of water from the housing 14;

17 - plate swirl chamber humidification;

18 - a source of radiation in the ultraviolet spectrum;

19 - fan housing;

20 - air filter housing;

21 - the impeller of the fan.

Claims (9)

1. A humidifier containing a radial impeller kinematically connected with an energy drive and means for supplying water to a radial impeller, characterized in that the radial impeller is made with forward curved blades, the water supply means is made in the form of an nozzle installed in front of the radial impeller wheel, while the humidifier is equipped with a straightening device, made in the form of plates mounted on a fixed disk. 2. The humidifier according to claim 1, characterized in that the rectifier is located coaxially with the radial impeller. 3. The humidifier according to claim 1, characterized in that the plates of the rectifier are installed at an angle of 8 ... 10 ° relative to the tangent to the circle and are inclined in height by an angle of 40 ... 45 ° from the axial direction. 4. The humidifier according to claim 1, characterized in that before entering the impeller of the humidifier, an input manifold is installed. 5. The humidification chamber, including a humidifier, a housing and a droplet trap, a humidifier comprises a radial impeller and water supply means, characterized in that the radial impeller of the humidifier is made with forward curved blades, the water supply means is made in the form of an nozzle installed in front of the entrance to radial impeller, while the humidifier is equipped with a straightening device, made in the form of plates mounted on a fixed disk. 6. The humidification chamber according to claim 5, characterized in that the housing of the humidification chamber is made of a cylindrical shape with a circle at the base, and the length of the housing is not less than 1.5 of its diameter. 7. The humidification chamber according to claim 5, characterized in that the vortex generator plates are installed in front of the humidifier. 8. The humidification chamber according to claim 7, characterized in that the vortex generator plates are inclined at an angle of 45 ° in the direction of rotation of the radial impeller of the humidifier. 9. The humidification chamber according to claim 5, characterized in that a source of ultraviolet spectrum is installed in the housing in front of the radial impeller of the humidifier.