RU159947U1 - CENTRIFUGE - Google Patents

Abstract

1. A centrifuge for separating solutions into fractions, which includes a housing, a rotor with sockets for placing test tubes, mounted on the shaft of the drive placed in the housing, and a cooling system including a fan mounted under the drive with the possibility of rotation of its blades in a horizontal plane and providing air flow through ventilation holes made in the bottom of the housing under the fan, characterized in that the drive is mounted on the upper side of a flat ring-shaped base, which is installed internally housing at equally spaced apart supports, and the fan is mounted on the underside of the base to provide a cooling air flow passing through the opening osnovaniya.2. The centrifuge according to claim 1, characterized in that it is provided with a lid covering the rotor.

Description

The utility model relates to laboratory centrifuges, including microcentrifuges used in biotechnology, biology, biophysics, medicine and other fields of science and technology.

Depending on the temperature conditions of centrifugation, centrifuges are divided into the following groups:

- centrifuges without cooling;

- with additional ventilation system;

- refrigerated centrifuges.

In centrifuges without cooling, the rotor plays the role of a fan during its rotation. Room air is sucked into the working chamber of the centrifuge, washes a rotating rotor and is thrown out through special openings. However, with such natural cooling, the temperature of the rotor and, therefore, the shared sample increases. The heating of the sample increases with increasing rotor speed and centrifugation time.

In the preparation of blood samples for the study of heat-sensitive natural cooling of the rotor is not enough and it is required that the temperature of the shared sample should not be higher than plus 2-4 ° C. In this case, it is necessary to use a centrifuge with an integrated compression refrigerator (refrigerated centrifuges), which reduces the temperature in the working chamber.

The proposed centrifuge refers to centrifuges with an additional ventilation system.

The closest analogue of the proposed utility model is a centrifuge for separating solutions into fractions, which includes a housing, a rotor with sockets for placing test tubes mounted on the drive shaft located in the housing, and a cooling system including a fan mounted under the drive in an additional housing with the possibility of rotation of its blades in a horizontal plane and providing air flow through ventilation holes made in the bottom of the housing under the fan (GB 751078, publication date 06/27/1956). Due to the fan fixed under the drive above the ventilation openings at the bottom, the device allows for constant circulation of cold air. At the same time, the disadvantage of this technical solution is the complexity of its structural implementation due to the use of two concentric housings, as well as the use of the rotor drive to drive the fan.

The technical problem, which this utility model is aimed at, is to simplify the design of the centrifuge, while achieving the technical result, which consists in facilitating the assembly of the centrifuge. In addition, the proposed technical solution ensures the independence of the fan from the rotor drive, which allows you to implement various cooling modes.

These technical results are achieved by the fact that in the proposed centrifuge for separating solutions into fractions, including a casing, a rotor with sockets for placing test tubes mounted on a drive shaft located in the casing, and a cooling system including a fan mounted rotatably under the drive of its blades in a horizontal plane and providing air flow through ventilation holes made in the bottom of the housing under the fan, the drive is mounted on the upper side of the flat ring a different base, which is installed inside the housing on supports equally spaced from each other, and the fan is mounted on the underside of the base, with the possibility of ensuring the passage of cooling air through the opening of the base.

The centrifuge is equipped with a lid covering the rotor.

In FIG. 1 shows the proposed centrifuge in the context.

In FIG. 2 shows an annular base.

In FIG. 3 shows the circulation of cooling air in the cooling system.

The proposed centrifuge 1 is intended for separation of solutions into fractions. The centrifuge 1 (Fig. 1) includes a housing 2, a rotor 3 with sockets for accommodating tubes 4, mounted on the shaft of the drive 5, located in the housing 2. The cooling system includes a fan 6, mounted under the drive 5. The fan 6 is installed so so that the blades rotate in a horizontal plane and provide air flow through the ventilation holes (grooves) 7, made in the bottom of the housing 2 under the fan 6. The drive 5 is mounted on the upper side of the flat ring-shaped base 8. The base 8 is installed inside the housing 2 on dix equidistant apart supports 9. The fan 6 is secured to the bottom side of the base 8, to provide a passage of cooling air flow through the base opening 10 (FIG. 2).

The centrifuge is equipped with a lid 11 covering the rotor 3.

Fan 6 is used during the rotation of the centrifuge. Air is drawn (Fig. 3) into the housing 2 through the ventilation holes 7, is directed by the fan blades 6 vertically upward through the hole 10 of the annular base 8. Then, cooling air flows around the drive 5 of the rotor 3. Next, air flows inside the housing 2, as shown in FIG. 3. This achieves efficient cooling of the drive 5.

The use of an annular base 8 mounted on three supports makes it possible to simplify the assembly of the device by providing separate and independent installation of the drive 5 and fan 6. In addition, this installation makes it possible to set various cooling modes, since the fan does not depend on the rotation of the drive. It also facilitates performance checks, adjustment and repair of the centrifuge.

Claims (2)

1. A centrifuge for separating solutions into fractions, which includes a housing, a rotor with sockets for placing test tubes, mounted on the shaft of the drive placed in the housing, and a cooling system including a fan mounted under the drive with the possibility of rotation of its blades in a horizontal plane and providing air flow through ventilation holes made in the bottom of the housing under the fan, characterized in that the drive is mounted on the upper side of a flat ring-shaped base, which is installed internally housing at equally spaced apart supports, and the fan is fixed on the lower side of the chassis to provide a passage of cooling air flow through the base hole. 2. The centrifuge according to claim 1, characterized in that it is provided with a lid covering the rotor.

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