RU2088812C1 - Air-ejecting vacuum pump - Google Patents

Abstract

FIELD: fluidics. SUBSTANCE: housing is made up as a flange from the outer side of which are branch pipes for active and passive fluids as well as exhaust branch pipe. From the inner side the housing is provided with active fluid nozzle that consists of inlet contraction, throat, diffuser, and exit. At the exit of the active nozzle, from outside, is a cone. In addition, from the inner surface of the housing is a bushing with an inner thread that allows the ejector to be screwed in. The ejector has outer thread in the zone of the active nozzle. From the outer side of the bushing is silencer made up as a sleeve with openings. The silencer and ejectors are mounted inside a cylindric casing connected to the housing via screws. EFFECT: enhanced efficiency. 3 cl, 1 dwg

Description

 The invention relates to inkjet technology and can be used for pumping various media.

 Known gas ejector [1] comprising a cylindrical body, an active nozzle, a mixing chamber with a diffuser, a centripetal compressor located at the location of the passive medium supply channels, a turbine installed in the active medium supply channel, the housing of which is provided with a sleeve and permanent magnets, while the sleeve is installed on the outer surface of the casing with the possibility of rotation, and the magnets are made in the form of segments and evenly placed on the outer surface of the turbine and the inner surface of the sleeve with the possibility of Strongly interacting with clutch transmitting rotation associated with the compressor.

 The disadvantages of the known ejector include: a) the complexity of the design; b) large dimensions; c) high noise level due to the absence of a silencer; d) the impossibility of individual adjustment of the ejector, which leads to the elimination of defective products that cannot be restored.

 The objective of the invention is to improve the design of the ejector, reducing the size and noise level, the implementation of individual settings.

 This task is achieved by the fact that in the known ejector containing a housing, an active nozzle, a mixing chamber with a diffuser, channels for supplying active and passive media, the housing is made in the form of a flange, from the outer surface of which are placed pipes of the active and passive media, as well as an exhaust pipe, from the inner surface, the casing is equipped with an active medium nozzle, the inner profile of which consists of an inlet section of the confuser, a critical section, a diffuser and an outlet section, while at the exit of the active nozzle with an outer surface the cone is made, in addition, a sleeve with an internal thread is made on the inner surface of the casing, which allows screwing an ejector made with an external thread in the region of the active nozzle; a silencer made in the form of a cup is installed on the outer surface of the sleeve, which, together with the ejector, is placed in a cylindrical casing, attached to the body with screws. Maximum productivity is achieved when the ratio between the inlet nozzle cross section of the active medium, the critical cross section and the outlet cross section is 1: 0.42: 0.6, with a confuser taper of 1: 15 and a diffuser taper of 1: 50.

 The maximum noise reduction is achieved by the fact that 22 holes with a diameter of 3 mm are made on the cylindrical surface of the silencer glass.

 The drawing shows a pneumatic ejector vacuum pump.

 The pneumatic ejector vacuum pump contains a housing 1 made in the form of a flange, from the outer surface of which there is an input 3 pipe of an active medium, an input 4 pipe of a passive medium and an exhaust pipe 5. From the inner surface of the housing 1 there is a nozzle 2 of an active medium, the internal profile of which consists of an input section 14 of the confuser 15, the critical section 16, the diffuser 17 and the output section 18. At the exit of the active nozzle 2 from the outer surface, a cone 19 is made. In addition, w is made on the inner surface of the housing 1 tray 6 with an internal thread, onto which an ejector 7 is screwed, made with an external thread in the region of the active nozzle, consisting of an active nozzle, a mixing chamber 21 and a diffuser 22. A silencer glass 8 is installed on the outer surface of the sleeve 6, along the walls of which there are openings 9 and 23 with a diameter of 3 mm in an amount of 22 pieces. The muffler 8 with an ejector 7 is placed in a glass casing 11, which is attached to the housing 1 with screws 10 and, with its lower ledge 12, covers the bottom of the muffler 8. The bottom of the glass casing 11 is equipped with a nozzle 13 for condensate drainage.

 All details of a pneumatic ejector vacuum pump, namely: housing 1 with a nozzle 2 of the active medium and a sleeve 6, an ejector 7, a muffler glass 8, a muffler glass 11 are made of cast polyethylene.

 The presence of a threaded connection between the sleeve 6 of the housing 1 and the ejector 7 allows you to adjust by rotating the ejector 7 in the sleeve of the housing 1 during the individual settings of each ejector the distance h between the conical surface 19 of the active nozzle 2 and the input slice 20 of the mixing chamber 21 and, thereby, fix the joint the position of the housing 1 and the ejector 7, corresponding to the maximum suction force of the ejector, measured by a vacuum gauge.

 Air ejection vacuum pump operates as follows. The active medium is supplied at a pressure of 3-6 atm through the active nozzle 2 into the ejector 7 and, flowing out of it, entrains a passive medium into the mixing chamber 21, which enters the ejector through the inlet pipe 4 and the annular section between the cone 19 of the nozzle 2 and the inlet slice 20 In the mixing chamber 21, they are mixed and through the diffuser 22, openings 23 and 9 of the silencer glass 8, the mixture enters the cavity of the casing 11 and exits through the pipe 5 to the outside.

 Thus, the proposed pneumatic ejector vacuum pump compares favorably with the known ejector, because It allows to significantly simplify the design through the use of cast parts made of polyethylene, as well as to make it compact with dimensions of 300x900 mm and weighing no more than 1.5 kg.

 In addition, the use of a silencer can reduce the noise level by 20-25% compared with the known ejector and bring it to 75-80 dB.

 Finally, the presence of a threaded connection between the housing bushing and the ejector allows individual adjustment of each ejector, including defective ones that cannot be restored, which makes it possible to organize waste-free production.

Sources of information
1. Auth. St. USSR N 1642086 class. F 04 F 5/02, Bulletin No. 14 of 04/15/91.

Claims (3)

 1. A pneumatic ejector vacuum pump containing a housing, an active nozzle, a mixing chamber with a diffuser, channels for supplying active and passive media, characterized in that the housing is made in the form of a flange, from the outer surface of which are placed pipes of the active and passive media, as well as an exhaust pipe, from the inner surface, the casing is equipped with an active medium nozzle, the inner profile of which consists of an inlet section of the confuser, a critical section, a diffuser and an outlet section, while at the exit from the active nozzle with an outer surface a cone is made, in addition, a sleeve with an internal thread is placed on the inner surface of the housing, which allows screwing an ejector made with an external thread in the region of the active nozzle; a silencer in the form of a cup with holes is installed on the outer surface of the sleeve, which, together with the ejector, is placed in a cylindrical casing attached to the body with screws.  2. The pump according to claim 1, characterized in that the ratio between the inlet section of the nozzle of the active medium, the critical section and the outlet section is 1 0.42 0.60, with a taper of the confuser equal to 1 15 and a cone of the diffuser equal to 1 50.  3. The pump according to claim 1, characterized in that 22 holes with a diameter of 3 mm are made on the cylindrical surface of the silencer glass.