RU2033281C1 - Article cleaning apparatus - Google Patents

Abstract

FIELD: cleaning of articles. SUBSTANCE: apparatus has hermetically sealed working chamber for washing liquid, vacuum pump, valve for periodical creation of increased pressure in working chamber, locking disk and pneumatic drive for moving locking disk. Pneumatic drive has stem and spring-loaded driving member of stem. Apparatus is further provided with sleeve with central hole in its bottom and auxiliary spring. Sleeve is loosely mounted in central hole on stem in the vicinity of stem end and is rigidly connected by its free end with locking disk, which is mounted for axial motion relative to free end of stem. Auxiliary spring is mounted on stem within sleeve for biasing locking disk to free end of stem. Pneumatic drive cavity is communicated with valve excessive pressure body cavity through control manifold and additional pipeline with return valve. EFFECT: high quality of cleaning. 2 cl, 2 dwg

Description

 The invention relates to the cleaning of products and can be used in repair production, energy and other industries.

 A known installation for cleaning products containing a sealed working chamber for washing liquid, a vacuum pump connected to the working chamber and a valve for periodically creating an increased pressure in the chamber. The valve has a body with an overpressure cavity and an outlet pipe, a locking disk for blocking the opening of the output pipe, and a pneumatic actuator for moving the locking disk, including a rod and a rod actuating element spring-loaded relative to the body. The pneumatic actuator control line is equipped with a throttle. The latter connects the free space of the working chamber with the pneumatic actuator cavity located on the side of the spring-loaded end of the pneumatic actuator drive element.

 In a known installation, the valve opens slowly due to the increasing resistance of the pneumatic spring, as well as the excess pressure and vacuum acting on the locking disc of the air from the cavity of the working chamber during the entire valve opening period, which reduces the cleaning efficiency of the products. In addition, the implementation of the valve drive due to the vacuum created in the working chamber leads to a significant increase in the area of the drive element and, consequently, to an increase in the transverse dimensions of the pneumatic actuator.

 The purpose of the invention is to increase the cleaning efficiency of products by ensuring valve performance and reducing the transverse dimensions of the pneumatic actuator.

 This goal is achieved in that the installation for cleaning products contains a sealed working chamber for washing liquid, a vacuum pump connected to it, and a valve for periodically creating an increased pressure in the chamber. The valve has a housing with an overpressure cavity and an outlet pipe, a locking disk and a pneumatic actuator for moving the locking disk, including a stem and a rod actuating element spring-loaded relative to the housing. The pneumatic actuator control line is equipped with a throttle. The unit is equipped with a glass with a central hole in the bottom and an additional spring. The glass is installed freely through the central hole of the bottom on the rod at its end and is rigidly connected by a free end to the locking disk. The latter is installed with the possibility of axial movement relative to the free end of the rod. An additional spring is installed on the rod inside the glass to ensure the locking disk is clamped to the free end of the rod. The cavity of the pneumatic actuator from the side of the rod is connected to the cavity of the overpressure housing of the main pneumatic actuator control and an additional line equipped with a check valve.

 In FIG. 1 shows a device for cleaning products; in FIG. 2 pneumatic actuator stem with a locking disk at the initial moment of opening the opening of the outlet pipe of the overpressure housing.

 The device for cleaning products contains an airtight working chamber 2 for the washing liquid evacuated by a vacuum pump 1 and a valve for periodically creating an increased pressure in the chamber. The valve has a housing 4 connected to the compressed air line 3, equipped with an outlet pipe 5, the opening of which on the side of the housing cavity is blocked by a locking disk 6. A pneumatic cylinder 7 is mounted coaxially with the pipe 5, with a spring spring 8 in the direction of the pipe 5 with a piston 9 with a rod 10. A glass 11 with a hole in the bottom 12 for the rod 10 of the pneumatic cylinder is fixed on the upper surface of the locking disk with a free end. At the outer end of the rod 10 there is a collar 13. In the glass 11 between the collar 13 of the rod with the bottom 12 of the glass there is a compression spring 14 covering the rod, pressing the locking disk 6 to the collar 13 of the rod.

 To control the pneumatic cylinder, the cavity 15 of the pneumatic cylinder from the stem side is connected to the cavity of the overpressure housing 4 by a pneumatic cylinder control 16 with an adjustable throttle 17 and an additional manifold 18 with a check valve 19 that opens in the direction of the overpressure 4. The above-piston cavity 20 of the pneumatic cylinder is connected to the atmosphere by an opening 21 in the side wall of the cylinder. An adjustment screw 22 is installed on the upper end wall of the cylinder.

 The device operates as follows.

 The locking disk 6 at the initial moment of air supply to the cavity of the housing 4 is pressed against the saddle of the outlet pipe 5 by a spring-loaded rod 10, a spring 8 of which overcomes the air pressure in the cavity 15 acting on the piston 9.

 With a further increase in air pressure in the cavity 15 of the pneumatic cylinder, the piston 9, overcoming the resistance of the springs 8 and 14, begins to move up. The locking disk 6 continues to be held on the saddle of the outlet pipe 5 by the air pressure in the cavity of the housing 4 and the vacuum in the chamber 2, and the shaft shoulder 13 compresses the spring 14 of the glass 11. After the spring 14 is completely compressed, the glass 11 with the locking disk 6 starts to get carried away by the rod 10, and after the separation of the disk 6 from the seat of the outlet pipe, the spring 14 sharply expands, providing an instant opening of the hole of the pipe 5. The air from the cavity of the housing 4 is pulsed into the chamber 1, which ensures a high energy of collapse of cavitation bubbles in the washing liquid .

 At the time of opening the outlet nozzle opening, the air pressure in the cavity of the housing 4 decreases with respect to the air pressure in the cavity 15 of the pneumatic cylinder, as a result of which air from the cavity 15 enters the housing 4 through the check valve 19 and the spring 8 returns the rod 10 to its original position. The locking disk 6 again closes the hole of the outlet pipe.

 Further cycles are repeated.

 The invention, by ensuring the speed of the valve, increases the efficiency of cleaning products in vacuum-cavitation washing plants.

Claims (2)

 1. INSTALLATION FOR CLEANING PRODUCTS, containing a sealed working chamber for washing liquid, a vacuum pump connected to it, a valve for periodically creating an increased pressure in the chamber, the valve having a body with an overpressure cavity and an outlet pipe, a locking disk and a pneumatic actuator for moving the locking disk comprising a rod and a rod actuating element spring-loaded relative to the housing, a pneumatic actuator control line provided with a throttle, characterized in that, in order to increase the cleaning efficiency for due to the speed of the valve, it is equipped with a glass with a central hole in its bottom, an additional spring, and the glass is mounted freely through the central hole of the bottom on the rod at its end and is rigidly connected by a free end to the locking disk, and the latter is mounted with the possibility of axial movement relative to the free end rod, while an additional spring is installed on the rod inside the glass to provide a clamping of the locking disk to the free end of the rod.  2. Installation according to claim 1, characterized in that, in order to reduce the transverse dimensions of the pneumatic actuator, the pneumatic actuator cavity on the stem side is connected to the overpressure housing cavity by a pneumatic actuator control line and an additional line equipped with a check valve.

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